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Labpro General Laboratory Equipments

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Labpro 179B Digital Moisture Analyser (Weight: 5g-25g)

By Labpro

₹20,059 - ₹22,419

The Labpro 179B Digital Moisture Analyser (Weight: 5 g–25 g) is a precision instrument designed for fast, accurate determination of moisture content in solids, powders, and granules. Featuring a user-friendly digital interface and high-sensitivity weighing system, it delivers reliable and repeatable results across sample weights from 5 g to 25 g. Its advanced heating and measurement technology ensures stable performance and consistent moisture analysis, making it ideal for quality control and formulation development. Widely used in pharmaceutical, food processing, chemical, and research laboratories, the Labpro 179B enhances workflow efficiency with quick response times and intuitive controls. Its sturdy construction and dependable accuracy make it a valuable tool for routine testing. This digital moisture analyser is an excellent choice for professionals seeking precise, efficient, and easy-to-operate moisture measurement.

Type of Product : Moisture Analyser

Temperature : 50 deg C to 180 deg C

Model No : 179B

Country of Origin : India

Power : 230 V +-10% AC

Voltage : 230 V

Display Type : Digital

Automation Grade : Manual

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Labpro 212 Brush Bottle Washing Machine

By Labpro

₹18,879 - ₹27,139

The Labpro 212 Brush Bottle Washing Machine is a high-efficiency cleaning solution designed to automate and simplify the washing of laboratory glassware and bottles. Equipped with durable brush fixtures and powerful water jets, it delivers thorough, consistent cleaning for a variety of container sizes and shapes. Its user-friendly controls and reliable performance make it ideal for daily use in busy lab environments, ensuring quick turnaround and superior cleanliness. Perfect for research laboratories, clinical facilities, pharmaceutical units, and educational institutions, the Labpro 212 enhances workflow productivity by reducing manual labor and improving hygiene standards. The sturdy construction and dependable operation provide long-lasting service and peace of mind. This bottle washing machine is a practical choice for professionals seeking efficient, consistent, and trouble-free glassware cleaning solutions.

Type of Product : Brush Bottle Washing Machine

Dimension : 630x640x960 mm

Country of Origin : India

Voltage : 230 V AC

Item Code : 212

Frequency : 50 Hz

Power Source : Electrical Cord

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Labpro 201 1-10 ml Ampoule Filling and Sealing Device

By Labpro

₹11,091  

An Labpro 201 1-10 ml Ampoule Filling and Sealing Device, also known as an ampoule filler-sealer, is a specialized machine used in pharmaceutical manufacturing to fill liquid medications or solutions into ampoules and seal them to ensure product integrity and sterility. The device automates the process, ensuring accuracy, efficiency, and compliance with regulatory requirements. The ampoule filling and sealing process typically involves the following steps: Ampoule Feeding: The machine is equipped with a system to feed empty ampoules into the filling station. This can involve a conveyor belt or a rotary indexing system that moves the ampoules through the various stages of the filling and sealing process. Cleaning and Sterilization: Before filling, the ampoules may undergo a cleaning and sterilization step to remove any residual particles and ensure a sterile environment. This step can involve rinsing the ampoules with purified solvents or subjecting them to sterilization techniques like hot air or steam. Filling: The filling station of the device is designed to accurately fill the ampoules with the desired liquid medication or solution. The filling mechanism can utilize various techniques such as peristaltic pumps, piston pumps, or volumetric filling systems. The filling volume is typically controlled using sensors or programmable settings to ensure precise dosage. Sealing: Once the ampoules are filled, the sealing process begins. The sealing mechanism may involve the application of heat to the ampoule neck, which softens the glass and fuses it together to create a hermetic seal. Alternately, plastic ampoules can be sealed using ultrasonic welding or other appropriate methods. The sealing process ensures product integrity, prevents contamination, and maintains sterility. Inspection: After sealing, the filled and sealed ampoules are inspected for proper sealing, fill volume, and any visual defects. Automated inspection systems, such as vision systems or cameras, can be integrated into the machine to identify and reject any faulty ampoules. Ejection or Collection: The filled and sealed ampoules are then ejected from the machine onto a conveyor belt or collected in trays or containers for further processing, labeling, and packaging. Ampoule filling and sealing devices come in various configurations and capacities, ranging from small-scale machines for laboratory or research purposes to high-speed production units for large-scale pharmaceutical manufacturing. The machines are designed to meet industry regulations and standards, ensuring compliance with good manufacturing practices (GMP) and maintaining product quality and safety. It's important to note that specific features, functionalities, and customization options of ampoule filling and sealing devices can vary depending on the manufacturer and specific application requirements. Manufacturers follow established guidelines and validation procedures to ensure the performance, accuracy, and reliability of the filling and sealing process.

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Labpro 209 Hand Operated Bottle Filling Machine

By Labpro

₹20,059  

A Labpro 209 Hand Operated Bottle Filling Machine, also known as a bottling machine or liquid filling machine, is a device used for automatically filling containers, such as bottles, vials, or cans, with liquids or viscous products. These machines are widely used in industries such as food and beverage, pharmaceuticals, cosmetics, and household products. Here are some key features and aspects of a bottle filling machine: Design and Construction: Bottle filling machines come in various designs, including linear filling machines, rotary filling machines, piston filling machines, or vacuum filling machines. They are typically made of stainless steel or other durable materials to ensure cleanliness, longevity, and resistance to corrosion. Filling Mechanism: Bottle filling machines use different mechanisms depending on the type of liquid and container being filled. Common filling mechanisms include gravity filling, pressure filling, volumetric filling, or vacuum filling. The filling mechanism ensures accurate and consistent filling of each bottle. Conveyor System: Bottle filling machines are often equipped with a conveyor system that transports empty bottles to the filling station and then moves filled bottles away from the machine for further processing or packaging. Control Systems: These machines may have control panels or interfaces that allow operators to set and adjust parameters such as fill volume, speed, and bottle size. Some machines may have programmable logic controllers (PLCs) or touchscreens for easy operation and precise control. Cleaning and Sanitization: Bottle filling machines are designed with cleaning and sanitization in mind. They often feature components that can be easily disassembled and cleaned, such as filling nozzles or tubes. Proper cleaning and maintenance are crucial to prevent contamination and ensure product quality. Product Flexibility: Bottle filling machines can handle a wide range of liquids, including water, beverages, oils, sauces, creams, gels, pharmaceuticals, and more. The machines may be adaptable to different bottle sizes, shapes, and closure types. Speed and Efficiency: Bottle filling machines are capable of high-speed production, with the ability to fill hundreds or even thousands of bottles per minute, depending on the machine's capacity and the product being filled. Quality Control: Some bottle filling machines include features for quality control, such as checkweighers, vision systems, or sensors to detect underfilled or improperly sealed bottles. It's important to select a bottle filling machine that matches the specific requirements of the product being filled, including viscosity, foaming properties, and container characteristics. Consulting with equipment suppliers or manufacturers is advisable to determine the most suitable machine for your specific needs and to ensure compliance with relevant industry standards and regulations.

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Labpro 242 500Cc Motor Respiration Pump 3 Siots of 6X9X12 cm

By Labpro

₹75,519  

A Labpro 242 500Cc Motor Respiration Pump, also known as a mechanical ventilator or respiratory ventilator, is a medical device used to assist or control the breathing of patients who are unable to breathe adequately on their own. It delivers a controlled supply of oxygen and air into the patient's lungs, ensuring adequate ventilation and oxygenation. Here are some key features and components commonly found in motor respiration pumps: Motorized Mechanism: The device includes a motorized mechanism that generates airflow and controls the delivery of oxygen and air to the patient's lungs. The motor-driven system enables precise control over parameters such as tidal volume (the amount of air delivered with each breath), respiratory rate, and inspiratory/expiratory ratio. Ventilation Modes: Motor respiration pumps typically offer various ventilation modes to cater to different patient needs. Common modes include assist-control ventilation, pressure support ventilation, synchronized intermittent mandatory ventilation, and continuous positive airway pressure (CPAP). Controls and Settings: The device has control panels and settings that allow healthcare professionals to adjust parameters such as respiratory rate, tidal volume, inspiratory/expiratory ratio, and oxygen concentration. These settings are tailored to the patient's specific respiratory requirements. Safety Features: Motor respiration pumps incorporate safety features to protect the patient during ventilation. These features can include alarms for high or low pressures, disconnections, apnea (absence of breathing), and power failures. Additionally, some devices have built-in backup batteries to ensure continued ventilation during power outages. Monitoring and Display: The pump typically includes monitors and displays that provide real-time information about various parameters, such as tidal volume, respiratory rate, airway pressure, and oxygen saturation. These displays allow healthcare professionals to assess the patient's respiratory status and make adjustments as necessary. Interface and Connections: The device features interfaces and connections for attaching breathing circuits, patient airway interfaces (such as endotracheal tubes or masks), and monitoring equipment. These interfaces ensure proper delivery of the ventilatory support to the patient. Motor respiration pumps are essential in critical care units, operating rooms, and other healthcare settings where respiratory support is required. They provide a means to maintain proper oxygenation and ventilation, ensuring adequate gas exchange in patients with compromised respiratory function. It's important to note that the specific features and capabilities of motor respiration pumps can vary depending on the model, brand, and intended use. Healthcare professionals should receive appropriate training on the specific device they are using to ensure safe and effective ventilation management for patients.

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Labpro 233 Animal Operation Table with Animal Holder & Stainless Steel Tray

By Labpro

₹36,579  

An Labpro 233 Animal Operation Table, also known as a surgical table or veterinary table, is a specialized piece of equipment used in veterinary clinics, research laboratories, and animal hospitals for performing surgical procedures on animals. These tables are designed to provide a stable and adjustable platform for supporting the animal during surgery, allowing veterinarians or researchers to work comfortably and effectively. Here are some common features and characteristics of animal operation tables: Material: Animal operation tables are typically made of durable materials that are resistant to corrosion and easy to clean, such as stainless steel or heavy-duty plastic. These materials ensure the table's longevity and maintain hygienic conditions. Adjustable Height: The table is usually height-adjustable to accommodate different operators and provide ergonomic working conditions. Height adjustments can be manual or motorized, allowing the operator to find a comfortable position for the surgical procedure. Non-Slip Surface: The table's surface is designed to be non-slip, ensuring the animal remains securely positioned during the procedure. This helps prevent the animal from sliding or moving during surgery. Integrated Restraints: Some animal operation tables feature integrated restraints or attachment points for securing the animal in place during surgery. These restraints may include adjustable straps, bars, or clamps to safely immobilize the animal without causing discomfort. Drainage System: In procedures where fluids or waste are generated, some operation tables may have a built-in drainage system. This allows for easy removal and disposal of fluids, maintaining a clean and sterile environment. Mobility: Some tables are equipped with wheels or casters, allowing for easy movement within the veterinary clinic or hospital. This mobility facilitates positioning the table in the desired location or transferring the animal to different areas of the facility. Accessories and Attachments: Additional accessories and attachments can enhance the functionality of animal operation tables. These may include adjustable arm boards for positioning limbs, instrument trays, overhead surgical lights, or integrated anesthesia delivery systems. Animal operation tables come in various sizes and configurations to accommodate different animal species and surgical requirements. They are designed to meet the specific needs of veterinary professionals and provide a safe and comfortable environment for performing surgeries on animals. It's important to note that specific features and designs of animal operation tables may vary among manufacturers and models. When selecting an animal operation table, it's essential to consider factors such as the size of animals treated, the types of surgical procedures performed, and the durability and cleanliness requirements of the veterinary facility.

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Labpro TI-206 8W UV Transilluminator

By Labpro

₹28,319  

A Labpro TI-206 8W UV Transilluminator is a laboratory instrument to visualise and analyse nucleic acids or proteins stained with fluorescent dyes or markers. It emits ultraviolet (UV) light in the range of 254 to 365 nanometers, which causes fluorescent molecules to emit visible light, allowing them to be detected and analysed. Here are the key features and functions of a UV transilluminator: UV Light Source: The transilluminator consists of one or more UV lamps that emit UV light in the desired wavelength range. The most common wavelengths in UV transilluminators are 254 nm and 312 nm, although some models offer variable or selectable wavelengths. Filter System: UV transilluminators typically have a filter system that blocks or filters out unwanted light while allowing the UV light to pass through. This ensures that only the desired wavelength of UV light reaches the sample, enhancing the visibility of fluorescent molecules. Sample Tray: The transilluminator has a tray or surface where the pieces, such as agarose or polyacrylamide gels containing the stained nucleic acids or proteins, are placed for visualisation. The tray is usually made of a UV-transparent material, such as quartz or special plastic, to allow UV light to pass through without significant absorption. Safety Features: UV transilluminators often have built-in safety features to protect users from potential UV radiation hazards. These may include interlock systems that turn off the UV light when the sample tray is opened, shields or covers to minimise UV exposure, and indicators or alarms to warn users when the UV light is active. UV transilluminators are commonly used in molecular biology and biochemistry laboratories for various applications, including DNA/RNA gel electrophoresis, protein gel analysis, and DNA cloning. In the laboratory, they are essential for visualising and analysing DNA fragments, RNA bands, protein bands, or other fluorescently labelled molecules. When using a UV transilluminator, following proper safety precautions, such as wearing UV-blocking goggles or face shields and minimising direct exposure to UV light, is essential. Prolonged or direct exposure to UV light can harm the skin and eyes. Following the manufacturer's instructions for operation, maintenance, and safety guidelines specific to the UV transilluminator model is also crucial. A UV transilluminator is a valuable instrument used in molecular biology research and related fields to visualise and analyse fluorescently labelled nucleic acids or proteins. It gives researchers a powerful tool for studying and understanding genetic and protein-based processes.

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Labpro 180 Stainless Steel Arthur H Thomas Lab Willey Grinder (Power: 25HP-100HP)

By Labpro

₹23,599 - ₹1,00,299

The Labpro 180 Stainless Steel Arthur H. Thomas Lab Willey Grinder is a premium heavy-duty grinding solution designed for efficient and uniform sample preparation in laboratory and industrial settings. Constructed from high-grade stainless steel, it offers excellent corrosion resistance, durability, and easy cleaning, making it ideal for processing a wide range of materials. With power options from 25 HP to 100 HP, this Willey grinder delivers consistent particle size reduction for minerals, chemicals, botanicals, and environmental samples with reliable throughput and performance. Perfect for research laboratories, pharmaceutical units, quality control departments, and material science facilities, the Labpro 180 enhances workflow productivity with robust operation and precision grinding results. Its powerful motor and sturdy build provide dependable performance even under heavy use. This stainless steel lab Wiley grinder is an excellent choice for professionals seeking high-capacity, accurate, and long-lasting grinding equipment.

Type of Product : Willey Grinder

Material : Stainless Steel

Country of Origin : India

Voltage : 220 V AC

Item Code : 180

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Labpro 270 1 L Tincture Press

By Labpro

₹3,893  

A Labpro 270 1 L Tincture Press, also known as an herbal press or botanical press, is a device used to extract liquids, such as herbal extracts or tinctures, from plant materials. It is commonly used in herbal medicine, pharmaceuticals, and botanical laboratories. The tincture press typically consists of the following components: Pressing Mechanism: The press has a mechanical or hydraulic mechanism that applies pressure to the plant material. This pressure squeezes the liquid out of the plant material, separating it from the solid components. Pressing Plate: The pressing plate is a flat surface where the plant material is placed for extraction. It can be made of stainless steel or other durable materials. The pressing plate is designed to evenly distribute pressure across the plant material. Collection Container: A container or receptacle is positioned beneath the pressing plate to collect the extracted liquid. This container may have a spout or a valve for easy pouring or draining of the extracted liquid. Filter or Strainer: Some tincture presses include a filter or strainer to separate solid particles from the extracted liquid. This helps produce a clear and purified tincture. The process of using a tincture press typically involves the following steps: Preparation: The plant material is first prepared by grinding or chopping it into smaller pieces to increase the surface area for extraction. Loading: The prepared plant material is placed onto the pressing plate of the tincture press. Pressing: The pressing mechanism is activated, applying pressure to the plant material. The pressure squeezes the liquid out of the plant material and into the collection container. Collection: The extracted liquid, which may be an herbal extract or tincture, is collected in the container beneath the pressing plate. Tincture presses are available in various sizes and designs to accommodate different volumes of plant material and extraction needs. They can range from small manual presses suitable for small-scale production to larger, more automated models for industrial-scale operations. It's important to note that the extraction process and equipment used may vary depending on the specific requirements of the plant material and desired extraction method. It's advisable to follow established guidelines and protocols for tincture preparation and use proper safety measures when working with plant materials and extracts.

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Labpro 226 Kymograph Recording Drum

By Labpro

₹15,339  

A Labpro 226 Kymograph Recording Drum is a device used in physiological and biological research to record and analyze physiological phenomena or movements over time. It is a mechanical device that consists of a rotating drum, typically made of metal or sturdy plastic, which is coated with a paper or chart paper surface. The drum is mounted horizontally and connected to a clockwork mechanism that rotates it at a constant speed. The kymograph recording drum is commonly used in experiments where continuous data collection is required, such as recording muscle contractions, heart rate, respiration, or other biological responses. The drum provides a platform for attaching a recording mechanism, typically a stylus or pen, which traces or records the changes in the physiological parameter being measured onto the rotating paper surface. Here's how a kymograph recording drum typically works: Mounting the Paper: A continuous strip of paper or chart paper is mounted on the surface of the drum. The paper is securely fixed, ensuring it stays in place during rotation. Recording Setup: The experimental setup involves attaching a recording mechanism, such as a stylus or pen, to the arm or lever system of the drum. The stylus is connected to a measuring device or a physiological sensor that detects and converts the physiological signal into a mechanical movement of the stylus. Clockwork Mechanism: The drum is connected to a clockwork mechanism, which provides the rotational movement at a constant speed. The clockwork mechanism is typically controlled by a wind-up mechanism or an electric motor. Experimental Data Collection: As the drum rotates at a constant speed, the stylus or pen attached to the recording mechanism moves along the surface of the paper, tracing the changes in the physiological parameter being measured. The stylus movement creates a graphical record or trace on the paper, allowing researchers to analyze and interpret the data. Data Analysis: Once the experiment is completed, the recorded paper strip can be removed from the drum and analyzed. Researchers can measure and analyze the recorded traces to study patterns, frequencies, amplitudes, or other characteristics of the physiological phenomena being recorded. Kymograph recording drums have been widely used in the past, especially in classical physiological research. However, with advancements in digital data acquisition and analysis technologies, electronic data recording systems such as computer-based data acquisition systems and digital recorders have become more prevalent. These electronic systems offer greater flexibility, precision, and ease of data analysis compared to traditional kymograph recording drums. Despite the decreasing popularity of kymograph recording drums, they still hold historical significance and may be used in certain specialized research applications or educational settings to demonstrate the principles of physiological data recording and analysis.

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Labpro 241 Rota Rod (Compartment: 1-5)

By Labpro

₹15,339 - ₹23,599

The Labpro 241 Rota Rod (Compartment: 1–5) is a reliable laboratory apparatus designed for behavioral and neurological research involving rodent motor coordination and balance assessment. Featuring 1 to 5 compartments, it allows simultaneous testing of multiple subjects, enhancing throughput and experimental efficiency. The rota rod system delivers consistent rotational speed with adjustable settings, ensuring accurate and reproducible data for preclinical studies. Ideal for neuroscience labs, pharmacology research, and academic institutions, the Labpro 241 supports a wide range of applications including drug efficacy evaluation, motor dysfunction studies, and neurotoxicity screening. Its sturdy construction and user-friendly controls make it easy to operate and maintain. This rota rod apparatus is a dependable choice for researchers seeking precision, durability, and enhanced performance in behavioral testing.

Type of Product : Rota Rod

Weight : 50 Kg

Country of Origin : India

Voltage : 220 V

Item Code : 241

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Labpro 180A Jar Stainless Steel Lab Willey Grinder (Weight: 1Kg-5Kg)

By Labpro

₹16,519 - ₹43,659

The Labpro 180A Jar Stainless Steel Lab Willey Grinder (Weight: 1 Kg–5 Kg) is a premium sample preparation instrument designed for efficient grinding and size reduction in laboratory and industrial environments. Featuring high-grade stainless steel jars, it delivers superior corrosion resistance, easy cleaning, and contamination-free processing. With jar weight options from 1 Kg to 5 Kg, this Wiley grinder is ideal for pulverizing minerals, chemicals, botanicals, and other solid specimens with consistent particle size and reliable results. Perfect for research labs, quality control departments, educational institutions, and industrial facilities, the Labpro 180A enhances workflow efficiency with dependable performance and smooth operation. Its sturdy construction and user-friendly design ensure long-lasting use for routine grinding tasks. This stainless steel jar Wiley grinder is an excellent choice for professionals seeking precise, durable, and versatile grinding equipment.

Type of Product : Willey Grinder

Material : Stainless Steel

Country of Origin : India

Power : 1/4 HP

Voltage : 220 V AC

Item Code : 180A

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Labpro 180A Aluminium Jar Lab Willey Grinder (Weight: 1Kg-5Kg)

By Labpro

₹15,339 - ₹40,119

The Labpro 180A Aluminium Jar Lab Willey Grinder is a precision sample processing solution designed for efficient grinding and size reduction of small to medium laboratory samples. Built with a lightweight yet durable aluminium jar, it offers excellent corrosion resistance and easy handling for routine use. With jar weight options from 1 Kg to 5 Kg, this Wiley grinder is ideal for pulverizing minerals, chemicals, botanicals, and other solid specimens with consistent results and minimal contamination. Perfect for research laboratories, quality control departments, educational institutions, and industrial labs, the Labpro 180A enhances productivity with its smooth operation and reliable performance. Its robust construction and user-friendly design ensure long-lasting use and dependable outcomes. This aluminium jar Wiley grinder is an excellent choice for professionals seeking accurate, efficient, and versatile grinding equipment.

Type of Product : Willey Grinder

Material : Aluminium

Country of Origin : India

Power : 1/4 HP

Voltage : 220 V AC

Item Code : 180A

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Labpro 180 Mild Steel Arthur H Thomas Lab Willey Grinder (Power: 25HP-100HP)

By Labpro

₹21,239 - ₹57,819

The Labpro 180 Mild Steel Arthur H. Thomas Lab Willey Grinder is a high-performance grinding solution designed for efficient and uniform sample size reduction in laboratory and industrial environments. Built with robust mild steel construction, it offers excellent strength, durability, and resistance to heavy operational loads. With power options ranging from 25 HP to 100 HP, this Willey grinder is capable of processing hard, fibrous, and granular materials with consistent output and reliable performance. Widely used in research laboratories, pharmaceutical units, quality control labs, and material testing facilities, the Labpro 180 ensures smooth operation and precise grinding results. Its sturdy design, powerful motor, and efficient grinding mechanism improve productivity and accuracy. This laboratory Willey grinder is an ideal choice for professionals requiring heavy-duty, dependable, and high-capacity grinding equipment.

Type of Product : Willey Grinder

Weight : 50 Kg

Material : Mild Steel

Country of Origin : India

Voltage : 220 V AC

Item Code : 180

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Labpro Digital Temperature Indicator Cum Controller for 116Labpro Oil Bath High Temperature

By Labpro

₹8,613  

A Labpro Digital Temperature Indicator Cum Controller for 116Labpro Oil Bath High Temperature is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Digital Temperature Indicator Cum Controller for Labpro Serological Water Bath

By Labpro

₹8,613  

A Labpro Digital Temperature Indicator Cum Controller for Labpro Serological Water Bath is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Digital Temperature Indicator Cum Controller for Labpro Water Bath Rectangular Double Wall

By Labpro

₹8,613  

A Labpro Digital Temperature Indicator Cum Controller for Labpro Water Bath Rectangular Double Wall is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro 209 Automatic Single Syringe Stainless Steel Cover Bottle Filling Machine

By Labpro

₹69,619  

A Labpro 209 Automatic Single Syringe Stainless Steel Cover Bottle Filling Machine, also known as a bottling machine or liquid filling machine, is a device used for automatically filling containers, such as bottles, vials, or cans, with liquids or viscous products. These machines are widely used in industries such as food and beverage, pharmaceuticals, cosmetics, and household products. Here are some key features and aspects of a bottle filling machine: Design and Construction: Bottle filling machines come in various designs, including linear filling machines, rotary filling machines, piston filling machines, or vacuum filling machines. They are typically made of stainless steel or other durable materials to ensure cleanliness, longevity, and resistance to corrosion. Filling Mechanism: Bottle filling machines use different mechanisms depending on the type of liquid and container being filled. Common filling mechanisms include gravity filling, pressure filling, volumetric filling, or vacuum filling. The filling mechanism ensures accurate and consistent filling of each bottle. Conveyor System: Bottle filling machines are often equipped with a conveyor system that transports empty bottles to the filling station and then moves filled bottles away from the machine for further processing or packaging. Control Systems: These machines may have control panels or interfaces that allow operators to set and adjust parameters such as fill volume, speed, and bottle size. Some machines may have programmable logic controllers (PLCs) or touchscreens for easy operation and precise control. Cleaning and Sanitization: Bottle filling machines are designed with cleaning and sanitization in mind. They often feature components that can be easily disassembled and cleaned, such as filling nozzles or tubes. Proper cleaning and maintenance are crucial to prevent contamination and ensure product quality. Product Flexibility: Bottle filling machines can handle a wide range of liquids, including water, beverages, oils, sauces, creams, gels, pharmaceuticals, and more. The machines may be adaptable to different bottle sizes, shapes, and closure types. Speed and Efficiency: Bottle filling machines are capable of high-speed production, with the ability to fill hundreds or even thousands of bottles per minute, depending on the machine's capacity and the product being filled. Quality Control: Some bottle filling machines include features for quality control, such as checkweighers, vision systems, or sensors to detect underfilled or improperly sealed bottles. It's important to select a bottle filling machine that matches the specific requirements of the product being filled, including viscosity, foaming properties, and container characteristics. Consulting with equipment suppliers or manufacturers is advisable to determine the most suitable machine for your specific needs and to ensure compliance with relevant industry standards and regulations.

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Labpro 202 Ampoule Washing with Fixed 6 Stainless Steel Needle Jet & Steel Pipe

By Labpro

₹4,601  

Labpro 202 Ampoule Washing with Fixed 6 Stainless Steel Needle Jet & Steel Pipe is a crucial step in the manufacturing and preparation of pharmaceutical ampoules. Ampoules are small glass or plastic containers used to store and protect liquid medications, injectables, or other sensitive substances. The washing process ensures that ampoules are clean, free from contaminants, and ready for filling with the intended product. The ampoule washing process typically involves the following steps: Inspection: Before washing, ampoules are visually inspected to check for any visible defects, such as cracks, chips, or particles. Damaged or flawed ampoules are removed from the batch to ensure only high-quality containers proceed to the washing step. Pre-Washing: Ampoules may undergo a pre-washing step to remove any visible dirt, dust, or residues. This step can involve rinsing the ampoules with water or a cleaning solution to loosen and remove surface contaminants. Washing: The washing phase involves subjecting the ampoules to a more rigorous cleaning process. The ampoules are typically loaded into a specialized washing machine or system that uses a combination of mechanical action, cleaning agents, and rinsing to ensure thorough cleaning. The washing machine may have various chambers or compartments that accommodate different cleaning steps, such as brushing, spraying, or ultrasonic cleaning. Mechanical Action: Brushes, rollers, or jets of water or cleaning solution are used to mechanically scrub or agitate the ampoules, dislodging any adhered particles or residues. Cleaning Agents: Suitable cleaning agents, such as detergents or alkaline solutions, are used to enhance the removal of contaminants. These cleaning agents are selected based on the type of residues to be removed and the compatibility with the ampoule material. Rinsing: Ampoules are rinsed thoroughly with water or purified solvents to remove any cleaning agents and residual particles from the washing step. Drying: After washing and rinsing, ampoules undergo a drying process to remove excess moisture. Drying can be achieved through various methods, including air drying, hot air drying, or vacuum drying. It is important to ensure that ampoules are completely dry to prevent the growth of microorganisms or any moisture-related issues during subsequent processes. The ampoule washing process is typically performed in controlled environments, such as cleanrooms or sterile areas, to maintain cleanliness and prevent recontamination. It is essential to follow good manufacturing practices (GMP) and quality assurance protocols to ensure the integrity and cleanliness of the ampoules. By thoroughly washing ampoules, the risk of contamination or adverse reactions caused by impurities or residues is minimized. Clean ampoules provide a safe and reliable container for storing and delivering pharmaceutical products to patients. It's important to note that specific procedures and equipment used in ampoule washing can vary depending on the manufacturing facility, regulations, and product requirements. Manufacturers adhere to established standards and guidelines, including pharmacopoeia requirements, to ensure the effectiveness and consistency of the ampoule washing process.

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Labpro TI-506 302 nm 8W UV Transilluminator

By Labpro

₹69,619  

A Labpro TI-506 302 nm 8W UV Transilluminator is a laboratory instrument to visualise and analyse nucleic acids or proteins stained with fluorescent dyes or markers. It emits ultraviolet (UV) light in the range of 254 to 365 nanometers, which causes fluorescent molecules to emit visible light, allowing them to be detected and analysed. Here are the key features and functions of a UV transilluminator: UV Light Source: The transilluminator consists of one or more UV lamps that emit UV light in the desired wavelength range. The most common wavelengths in UV transilluminators are 254 nm and 312 nm, although some models offer variable or selectable wavelengths. Filter System: UV transilluminators typically have a filter system that blocks or filters out unwanted light while allowing the UV light to pass through. This ensures that only the desired wavelength of UV light reaches the sample, enhancing the visibility of fluorescent molecules. Sample Tray: The transilluminator has a tray or surface where the pieces, such as agarose or polyacrylamide gels containing the stained nucleic acids or proteins, are placed for visualisation. The tray is usually made of a UV-transparent material, such as quartz or special plastic, to allow UV light to pass through without significant absorption. Safety Features: UV transilluminators often have built-in safety features to protect users from potential UV radiation hazards. These may include interlock systems that turn off the UV light when the sample tray is opened, shields or covers to minimise UV exposure, and indicators or alarms to warn users when the UV light is active. UV transilluminators are commonly used in molecular biology and biochemistry laboratories for various applications, including DNA/RNA gel electrophoresis, protein gel analysis, and DNA cloning. In the laboratory, they are essential for visualising and analysing DNA fragments, RNA bands, protein bands, or other fluorescently labelled molecules. When using a UV transilluminator, following proper safety precautions, such as wearing UV-blocking goggles or face shields and minimising direct exposure to UV light, is essential. Prolonged or direct exposure to UV light can harm the skin and eyes. Following the manufacturer's instructions for operation, maintenance, and safety guidelines specific to the UV transilluminator model is also crucial. A UV transilluminator is a valuable instrument used in molecular biology research and related fields to visualise and analyse fluorescently labelled nucleic acids or proteins. It gives researchers a powerful tool for studying and understanding genetic and protein-based processes.

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Labpro Digital Temperature Indicator for 116 Labpro Oil Bath High Temperature

By Labpro

₹4,247  

A Labpro Digital Temperature Indicator for 116 Labpro Oil Bath High Temperature is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Digital Temperature Indicator for Labpro Serological Water Bath Thermostatic Water Bath

By Labpro

₹4,247  

A Labpro Digital Temperature Indicator for Labpro Serological Water Bath Thermostatic Water Bath is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Digital Temperature Indicator for Labpro Water Bath Rectangular Double Wall

By Labpro

₹4,247  

A Labpro Digital Temperature Indicator for Labpro Water Bath Rectangular Double Wall is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Microprocess Stainless Steel Steelor Pid Digital Temperature Indicator Cum Controller

By Labpro

₹15,339  

A Labpro Microprocess Stainless Steel Steelor Pid Digital Temperature Indicator Cum Controller is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Microprocess Steelor Pid Digital Temperature Indicator Cum Controller

By Labpro

₹15,339  

A Labpro Microprocess Steelor Pid Digital Temperature Indicator Cum Controller is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Microprocessor Pid Digital Temperature Indicator Cum Controller with Timer

By Labpro

₹15,339  

A Labpro Microprocessor Pid Digital Temperature Indicator Cum Controller with Timer is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Microprocessor Pid Digital Temperature Indicator with Timer for Labpro Serological Water Bath

By Labpro

₹15,339  

A Labpro Microprocessor Pid Digital Temperature Indicator with Timer for Labpro Serological Water Bath is a device that uses a microprocessor-based controller to accurately measure and display temperature while implementing a PID control algorithm for precise temperature regulation. It is commonly used in industrial and laboratory applications where maintaining precise temperature control is crucial. Here are the key features and functions of a microprocessor PID digital temperature indicator: Temperature Measurement: The device includes a temperature sensor (such as a thermocouple or RTD) that detects the temperature of the process or environment being monitored. Digital Display: It has a digital display that provides a clear and accurate readout of the current temperature. The display may show the temperature in degrees Celsius (°C) or Fahrenheit (°F) and can be configured to show additional information like setpoint, alarms, and other parameters. PID Control Algorithm: The microprocessor controller uses a PID algorithm to continuously analyze the difference (error) between the desired temperature (setpoint) and the measured temperature. It then adjusts the output control signal to minimize this error and maintain the temperature at the desired level. Control Outputs: The device typically provides one or more control outputs, such as relay contacts or analog outputs, to interface with external devices like heaters, coolers, or actuators. These outputs are modulated by the PID algorithm to regulate the temperature effectively. Setpoint Programming: Users can set the desired temperature setpoint manually or through programming options available on the device. Setpoint ramps and profiles may also be supported for applications requiring temperature changes over time. Alarm and Safety Features: The PID digital temperature indicator often includes configurable alarm functions. Users can set high and low temperature limits, and when these limits are exceeded, the device can trigger visual or audible alarms or perform predefined actions to ensure process safety. Communication Interfaces: Advanced models may offer communication interfaces like RS485, Ethernet, or USB, allowing the device to be integrated into control systems, data acquisition systems, or connected to a computer for data logging and remote monitoring. Calibration and Configuration: The device typically provides options for calibration and configuration to ensure accuracy and adaptability to specific applications. These settings can be accessed through the front panel or via software interfaces. Microprocessor PID digital temperature indicators are widely used in various industries such as manufacturing, chemical processing, food and beverage, pharmaceuticals, and research laboratories. They provide precise temperature control, accurate measurements, and advanced features to optimize process efficiency, maintain quality, and ensure safety.

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Labpro Microprocessor Pid Digital Temperature Indicator Cum Controller

By Labpro

₹15,339  

The Labpro Microprocessor PID Digital Temperature Indicator cum Controller is a laboratory instrument that combines temperature measurement and control functionalities using a microprocessor-based PID (Proportional-Integral-Derivative) algorithm. It is commonly used in scientific research, industrial processes, and other applications where precise temperature control is required. Here are the key features and functions of the Labpro Microprocessor PID Digital Temperature Indicator cum Controller: Temperature Measurement: The instrument is equipped with a temperature sensor, typically a thermocouple or a resistance temperature detector (RTD), which accurately measures the temperature of the system or environment being monitored. PID Control Algorithm: The microprocessor-based PID algorithm is employed to maintain the desired temperature by continuously adjusting the output control signal. The PID algorithm calculates the control action based on the difference between the set temperature and the measured temperature, considering factors such as proportional, integral, and derivative terms to achieve precise temperature control. Digital Display: The instrument features a digital display that shows the current temperature reading in a clear and easy-to-read format. This allows users to monitor the temperature in real-time. Setpoint and Control Settings: Users can input the desired temperature setpoint using the control panel or interface. The instrument provides options to adjust control parameters such as proportional, integral, and derivative gains to fine-tune the temperature control performance according to specific requirements. Alarm and Safety Features: The PID temperature controller may include alarm functions to alert users when the temperature exceeds certain limits or deviates from the setpoint. This ensures that any abnormal temperature conditions are promptly addressed, helping to prevent equipment damage or process failures. Control Outputs: The instrument is equipped with control outputs, typically relay or solid-state outputs, that can be used to interface with external devices such as heaters, coolers, or solenoid valves. The controller modulates the control output to maintain the temperature within the desired range. Auto-Tuning Capability: Some PID controllers offer auto-tuning functionality, where the instrument can automatically determine and set the optimal PID control parameters based on the system's characteristics. This simplifies the initial setup process and enhances temperature control performance. Communication and Data Logging: Advanced PID controllers may include communication interfaces such as USB, RS-232, or Ethernet for data logging, remote monitoring, or integration with external systems or software. The Labpro Microprocessor PID Digital Temperature Indicator cum Controller provides precise temperature measurement and control capabilities, allowing users to maintain stable and accurate temperature conditions in various laboratory and industrial processes. Following the manufacturer's instructions for installation, operation, and calibration is essential to ensure optimal performance and accurate temperature control.

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Labpro BBST-6-10 7 Kg Automatic Blood Bag Tube Sealer

By Labpro

₹1,41,599  

A Labpro BBST-6-10 7 Kg Automatic Blood Bag Tube Sealer is a specialised medical device used to seal the tubes of blood bags after filling them with blood or blood components. It ensures a secure and airtight seal, preventing leakage or contamination of the blood during storage or transportation. The blood bag tube sealer typically consists of the following components: Heating Element: The sealer is equipped with a heating element, often made of nichrome wire or a similar heat-resistant material. When activated, the heating element generates heat to melt and seal the tube. Tube Holder: The sealer has a tube holder or clamping mechanism that securely holds the line in place during sealing. This ensures that the line is positioned correctly and remains stable during sealing. Control Panel: The control panel contains buttons, knobs, or a touch interface to control the operation of the sealer. It allows the user to adjust the temperature, sealing time, and other parameters based on the specific requirements of the blood bag and tube material. A blood bag tube sealer generally involves the following steps: Tube Preparation: The blood bag is filled with the desired amount of blood or blood components, and the tube is attached to the bag. The excess air is expelled from the pack and box before sealing. Tube Placement: The open end of the line is positioned within the tube holder of the sealer, ensuring that it is properly aligned and securely held in place. Sealing Process: The user activates the sealer, which initiates the heating element to generate heat. The heat is applied to the tube, melting the plastic material and creating a sealed connection. Cooling and Solidification: After closing, the sealer may have a built-in cooling system to help the seal solidify quickly. This ensures that the seal is solid and airtight. The specific features and functionalities of blood bag tube sealers may vary based on the manufacturer and model. Some sealers may include additional safety features, such as automatic shut-off when the sealing process is complete or when a certain temperature threshold is reached. Blood bag tube sealers are crucial in maintaining the integrity of blood products during storage and transportation, as they prevent contamination and ensure the safety of the blood supply. They are widely used in blood banks, hospitals, and healthcare facilities where blood transfusions, blood component separation, or blood product collection and storage are performed. Proper cleaning, maintenance, and calibration of the blood bag tube sealer are essential to ensure reliable and accurate performance. Manufacturers' instructions and guidelines should be followed for the safe and effective use of the device.

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