Overview: This document is a technical catalog from Parker Hannifin Corporation, detailing various vacuum products including cups, generators, sensors, vacuum control valves, cylinders, and accessories. It emphasizes the importance of proper selection and use to prevent potential hazards such as death, personal injury, and property damage.
Key Sections:
- Product Specifications: The catalog provides detailed specifications for vacuum cups, including technical lifting forces, cup diameters, and material specifications. Various types of vacuum cups are described, such as flat precision molded cups, anti-slip flat cups, and versatile bellows cups, each with specific applications and size ranges.
- Technical Information: This section includes guidelines for selecting the appropriate vacuum cup based on application needs. It covers the calculation of forces, mass, acceleration, and the coefficient of friction, providing formulas and examples for determining the necessary cup size and lifting force.
- Safety and Warnings: The document highlights the critical importance of analyzing all aspects of the application, including potential failure consequences, to ensure safety and performance requirements are met.
- Offer of Sale: The catalog includes an offer of sale governed by specific provisions, indicating that product features, specifications, designs, availability, and pricing are subject to change without notice.
- Global Pneumatics Support: Products marked with the Global Pneumatics icon are supported by Parker's worldwide manufacturing and sales network, ensuring rapid delivery and trained customer service.
Data and Calculations: The document provides detailed calculations for determining the appropriate vacuum cup size and lifting force, including examples of horizontal and vertical lifting forces and combined forces in motion. It also includes a chart for theoretical lifting force per cup at various vacuum levels.
Material Specifications: Information on suction cup materials is provided, detailing operating temperature ranges and color coding for different materials such as Nitrile, Silicone, and Urethane.
Specifications:
The document outlines the specifications for vacuum cups, focusing on material properties such as hardness, electrical resistance, and various resistances (wear, tear, aging, ozone, gasoline, oil, acid, alkali, chemical, and mechanical). The hardness is measured in Shore A, with values ranging from 55 ±5 to 70 ±5. Electrical resistance is specified for certain materials, with values ranging from 800 to 1000 Ωm.
Procedures:
Installation procedures emphasize the use of sealant materials to secure assemblies and prevent vacuum leakage. The document provides guidelines for selecting the appropriate cup diameter and material based on application requirements.
Norms and Standards:
The document adheres to specific standards for material properties and performance metrics, ensuring that the vacuum cups meet industry requirements for durability and functionality.
Recommendations:
Recommendations include selecting cup materials based on temperature resistance, chemical resistance, oil resistance, abrasion resistance, and electrical properties. The document suggests using specific cup designs for different surface types and lifting requirements.
Key Data from Tables and Charts:
The tables provide detailed information on cup dimensions, material properties, and performance metrics. Key data includes cup diameter, area, volume, lifting force, and deflection. The document also includes a model number index for easy reference.
Applications:
Vacuum cups are suitable for various applications, including handling smooth or slightly curved surfaces, chip mounting, electrical components, semiconductor chips, glass, injection mold, sheet metal, press transfer, and woodworking. The document highlights the versatility of the cup design for multi-industry use.
Features:
Features of the vacuum cups include a universal flat design for most smooth surface applications, stable vertical/horizontal lift, and a strong low-profile design for fast response. The cups are available in diameters ranging from 1.5mm to 200mm, with bottom cleats on larger sizes for added stability.
Overview: This document provides detailed specifications and ordering information for various models of vacuum cup assemblies produced by Parker Hannifin Corporation. The document includes dimensions, materials, and installation guidelines for different series of vacuum cups, including PFTF, PFTK, PFYK, and PFTYS models.
Specifications: The document lists vacuum cup models with their respective dimensions in inches and millimeters. Key parameters include cup diameter, mounting thread size, and vacuum port options. The models are categorized by series, such as PFTF-5A through PFTF-200, with specific measurements for each model.
Materials: The vacuum cups are available in various materials, including Nitrile Rubber (NBR), Silicone (SI), Urethane (U), and others. Some materials are stocked, while others are available upon request.
Installation Guidelines: The document advises using sealant material during installation to prevent vacuum leakage. It also provides recommendations for tube inner diameter to optimize system response time.
Ordering Information: The document includes a model number index and details on how to order vacuum cup assemblies. It specifies the cup diameter, vacuum port type, and included components in the kit.
Key Features: - Various cup diameters and materials to suit different applications. - Detailed dimensions and specifications for precise selection. - Installation notes to ensure proper setup and functionality.
Overview: This document is a technical catalog from Parker Hannifin Corporation's Pneumatic Division, detailing various vacuum cup assemblies and their specifications. It includes information on materials, dimensions, features, applications, and ordering details for different types of vacuum cups.
Specifications: The document provides detailed specifications for vacuum cups, including cup diameter, stroke, port thread, and force measurements (F1 and F2). It lists materials such as NBR (Nitrile Rubber) and Urethane, with availability noted for each.
Procedures: Installation instructions emphasize the use of sealant materials to prevent vacuum leakage. The document also outlines the interchangeable connectors and plugs for port connections.
Features: Various vacuum cup models are described, such as the P5V-CFS Double Lip Flat Cups, which feature double sealing lips for flexible sheet handling and grooves to increase holding area. The PBG Bellows Vacuum Cups are noted for their bellows design, which provides level compensation and is suitable for irregular surfaces.
Applications: The document highlights applications for each vacuum cup type. For example, the P5V-CFS cups are ideal for products that may flex when lifted, while the PBG cups are suited for curved, corrugated, or lightly textured surfaces.
Ordering Information: Detailed ordering information is provided, including model numbers, cup diameters, and material options. The document specifies which items are stocked and which require consultation with the factory.
Technical Data: The document includes technical data such as cup area, volume, deflection, and lifting force at 60% vacuum. It also provides guidance on selecting the appropriate cup based on application needs.
Recommendations: Recommendations include using the correct sealant during installation and selecting the appropriate cup material and size based on the specific application requirements.
Overview: This document is a technical catalog from Parker Hannifin Corporation's Pneumatic Division, detailing specifications and ordering information for vacuum cup assemblies and related components.
Specifications: The document provides detailed specifications for various vacuum cup models, including dimensions, weight, and material options. The vacuum cups are available in different sizes and materials such as Nitrile Rubber (NBR), Silicone (SI), and others, each with specific operating temperature ranges and resistance properties.
Procedures: Installation instructions emphasize the use of sealant materials to prevent vacuum leakage. The document also outlines the recommended minimum tube internal diameter for optimal system response time.
Standards and Norms: The document specifies thread sizes and types for connectors, including M5, NPT, and BSPP standards, ensuring compatibility with various systems.
Recommendations: The catalog suggests using specific cup materials based on application needs, such as high-temperature environments or applications requiring static dissipation.
Key Data from Tables: The tables provide model numbers, dimensions, and weight for each vacuum cup, along with the corresponding fitting part numbers and minimum tube ID requirements. The tables also highlight stocked items for easy identification.
Applications: The vacuum cups are designed for applications requiring level compensation, flexibility, and minimal contact pressure, suitable for industries like food packaging and medical packaging.
Critical Information: The document highlights the importance of selecting the correct cup material and size for specific applications to ensure optimal performance and longevity.
Overview: This document is a technical catalog from Parker Hannifin Corporation's Pneumatic Division, detailing various vacuum cup assemblies and their specifications, components, and installation instructions.
Specifications: The document provides detailed dimensions and specifications for different models of vacuum cups, including PKJF, PKJT, PUGB, PUTK, PUYK, and PUTYS series. Each model is described with measurements in inches and millimeters, covering parameters such as diameter, height, and thread sizes.
Materials: The vacuum cups are available in various materials, including NBR (Nitrile Rubber), SI (Silicone), CR (Chloroprene), U (Urethane), FKM (Fluoro Rubber), and SH (High Temp). Each material has specific properties such as operating temperature range, hardness, and resistance to wear, tear, aging, ozone, gasoline, oil, acid, alkali, and chemicals.
Installation Procedures: The document emphasizes the importance of using sealant material during installation to prevent vacuum leakage. It also provides guidance on replacing cups by removing hex-keyed male screws.
Adapter Components: Various adapter components are listed with part numbers and descriptions, including adapters, O-rings, caps, and male screws. Thread sizes and descriptions are provided for each component.
Applications: The vacuum cups are designed for smooth, slightly curved surfaces and flexible products. They are suitable for applications requiring stability against acceleration and deceleration forces during product transfer.
Key Features: The document highlights features such as internal swivel joint design, increased stability for horizontal lifts, and lower maintenance costs. The swivel joint compensates for load and angular misalignment, prolonging cup life.
Ordering Information: Detailed ordering information is provided, including model numbers, cup diameters, and available materials. Stocked items are highlighted in bold.
Overview: This document is a technical catalog from Parker Hannifin Corporation's Pneumatic Division, detailing specifications and ordering information for various vacuum cup assemblies and fittings. It includes data on cup dimensions, materials, and installation guidelines.
Specifications: The catalog provides detailed specifications for PAG, PATM, PATK, PAYK vacuum cups, and their respective assemblies. Each model is listed with dimensions in inches and millimeters, cup deflection, and area. The document also specifies the materials used, such as NBR (Nitrile Rubber), SI (Silicone), and FKM (Fluoro Rubber).
Procedures: Installation instructions emphasize the use of sealant materials to prevent vacuum leakage. The document recommends minimum tube internal diameters to optimize system response time.
Standards and Recommendations: The catalog suggests using Electric Static Dissipative (ESD) materials for certain applications. It also provides guidelines for selecting the appropriate cup based on surface type and product thickness.
Ordering Information: Detailed ordering information is provided for each vacuum cup assembly, including model numbers, cup diameters, and mounting thread codes. The document highlights stocked items and advises consulting the factory for non-stocked materials.
Key Data from Tables: The tables list model numbers, dimensions, and fitting types for various vacuum cup assemblies. They also include part numbers for adapters and fittings, specifying thread sizes and compatible cup series.
Critical Information: The document highlights the importance of using the correct fitting and sealant to ensure optimal performance and prevent vacuum leakage. It also emphasizes the need to select the appropriate cup material based on the application requirements.
Overview: This document is a technical catalog from Parker Hannifin Corporation's Pneumatic Division, focusing on vacuum generators and level compensators used in pneumatic systems. It provides detailed specifications, procedures, and recommendations for selecting and applying various
vacuum generator models.
Specifications: The document lists multiple models of vacuum generators and level compensators, such as TYS, UTYS, and CV series, each with specific part numbers and configurations. It includes technical data like nozzle diameters, flow rates, and vacuum levels, essential for selecting the appropriate equipment for different applications.
Procedures: The catalog outlines procedures for selecting and applying vacuum generators. It emphasizes the importance of choosing the correct generator size based on evacuation time and vacuum flow rates. The document also provides guidelines for designing vacuum systems, including considerations for supply valves and nozzle diameters relative to suction cup sizes.
Standards and Recommendations: Recommendations are provided for designing systems with either basic or integrated venturi generators. Integrated systems offer advantages such as reduced response time and installation costs. The document also discusses the benefits of venturi generators, including no moving parts, low maintenance, and cost-effectiveness.
Key Data and Charts: The document includes charts for evacuation time and vacuum flow, helping users determine the appropriate generator based on system requirements. It also provides a glossary and technical information on the principle of venturi vacuum, highlighting the advantages of using venturi technology in factory automation.
Critical Information: The document stresses the importance of selecting the right generator series based on system requirements and application needs. It highlights the need for additional pneumatic control valves for certain generator models and discusses the impact of system porosity on vacuum levels.
Overview: This document provides technical specifications and operational guidelines for vacuum generators, specifically focusing on the CV and MCA series by Parker Hannifin Corporation. It includes detailed information on vacuum levels, air consumption, evacuation times, and component dimensions.
Specifications: The document outlines various models of vacuum generators, each with specific nozzle diameters, air supply pressures, and vacuum flow rates. The CV series offers high and low vacuum options, with flow rates ranging from 0.21 to 12.36 SCFM. The MCA series is noted for its compact design and quick response time, with flow rates from 0.21 to 1.26 SCFM.
Procedures: The document provides guidelines for selecting appropriate nozzle diameters and tubing sizes based on application requirements. It also includes instructions for installing silencers and managing exhaust to ensure optimal performance and safety.
Norms and Recommendations: Users are advised to operate generators within specified temperature and pressure ranges to avoid hazards. It is recommended to dedicate one suction cup per generator to maintain safe vacuum levels.
Key Data from Tables: The tables provide evacuation times for different vacuum levels, air consumption rates, and vacuum flow rates for various generator models. For example, the CV-15HS model can achieve a vacuum level of 9 inHg with a flow rate of 1.50 SCFM.
Features and Characteristics: The CV series is known for its durability and long life, with an anodized aluminum body and optional materials like 303 SS and PTFE. The MCA series is lightweight and suitable for restrictive areas, with interchangeable connections for flexibility.
Installation and Cautions: Proper installation of silencers and exhaust management is crucial. The document warns against operating generators outside specified conditions and highlights the importance of using normally open valve supply circuits to prevent hazards during power failures.
Features & Characteristics- CV-CK Vacuum Generators: Adjustable switch between 5.9 and 15.74 inHg, anodized aluminum body, vacuum levels of 17 or 27 inHg, and flow rates from 0.95 to 5.85 SCFM.
- CV-VR Vacuum Generators: Auto blow-off after vacuum cycle, rugged aluminum die-cast construction, and vacuum flow rate of 2.22 SCFM.
- HF High Flow Vacuum Generators: Multi-stage venturi, anodized aluminum body, maximum vacuum level of 27.3 inHg, and flow rates from 22 to 91 SCFM.
- CHF High Flow Vacuum Generators: Classic multi-stage venturi, anodized aluminum body, maximum vacuum level of 27.3 inHg, and flow rates from 12.5 to 31.8 SCFM.
Specifications- CV-CK: Operates with non-lubricated compressed air, pressure range 14 to 114 PSI, temperature range 32 to 140°F, and includes an exhaust muffler.
- CV-VR: Operates with non-lubricated compressed air, pressure range 21 to 103 PSI, temperature range 32 to 120°F, and requires separate silencers.
- HF & CHF: Operates with non-lubricated air, pressure at 80 PSI, temperature range 32°F to 120°F, and includes exhaust mufflers.
Ordering & Technical Information- Various models available with different nozzle diameters and vacuum degrees.
- Port thread options include NPT, BSPP, and BSPT.
- Evacuation times and air consumption rates vary by model and vacuum level.
Replacement Components & Cautions- Replacement silencers and mechanical switches available for CV-CK and CV-VR models.
- Ensure operation within specified temperature and pressure ranges to avoid hazards.
- Dedicated suction cups recommended for optimal vacuum levels.
Dimensions- Detailed dimensions provided for each model to assist in installation and integration.
Specifications:
The document provides detailed specifications for vacuum generators, specifically the MC2 and MC3 series by Parker Hannifin Corporation. The MC2 series operates with non-lubricated compressed air and non-corrosive gases, with an operating pressure range of 21 to 84 PSI and an optimum pressure of 70 PSI. The material composition includes aluminum, polyamide, and NBR, and the operating temperature range is 41 to 132°F.
Procedures:
The document outlines the procedures for ordering and assembling the MC2 vacuum generators, including the Add-A-Fold manifold assemblies. It provides a step-by-step guide on how to order these assemblies and the necessary components for each station in the manifold.
Norms and Standards:
The document specifies the electrical connections and power supply requirements, including a 24VDC power supply with a power consumption of 0.6W. It also details the sensor options available for vacuum confirmation, including the MPS-2, MPS-6, and MVS-201 series sensors.
Recommendations:
Recommendations include using non-lubricated, non-corrosive compressed air to maintain the life and vacuum level of the generator. It also advises on the proper installation and securing of lead wires to avoid damage.
Key Data from Tables:
The document includes tables showing evacuation times for different series and nozzle diameters, air supply pressures, and air consumption rates. For example, the CHF-10 series at 80 PSI has an air consumption of 3.3 SCFM and varying evacuation times depending on the vacuum level.
Features and Characteristics:
The MC2 series features include a vacuum generating pilot valve, vacuum blow-off pilot valve, and a manifold system. It is designed for short cycle times and high-speed pick-and-place operations. The MC3 series is noted for its compact and lightweight design, suitable for high-speed circuit board assembly.
Overview: The document provides detailed technical specifications and ordering information for Parker Hannifin Corporation's MC3 and CVR2 series vacuum generators, designed for factory automation applications. These devices are used for tasks such as pick and place, or chip bonding, and feature integrated vacuum generating pilot valves and direct blow-off valves to minimize response times.
Specifications: The MC3 vacuum generator operates with non-lubricated compressed air and non-corrosive gases, with an operating pressure range of 21 to 84 PSI. It is constructed from aluminum, polyamide, and NBR materials, and features a vacuum flow rate response time as low as 20 milliseconds. The CVR2 series offers similar features with additional options like a check valve and can be assembled into a maximum 10 station manifold.
Features: Both series include features such as regulating blow-off needles, 37-micron mesh filters, and sensor platforms for vacuum confirmation. The MC3 can be ordered normally closed, while the CVR2 can be ordered normally open or closed. The CVR2 also includes a vacuum release pilot valve option and a manifold system.
Sensor Options: The document details various sensor options for both series, including the V9 sensor for the MC3 and the V2, 201, and V6 sensors for the CVR2. These sensors provide vacuum confirmation and have different output configurations and response times.
Ordering Information: The document provides a comprehensive guide on how to order manifold assemblies and individual components, including part numbers and descriptions for different configurations and sensor types.
Installation and Safety: Cautions are provided regarding the use of the MC3 and CVR2 with fluids or corrosive gases, and the importance of operating within specified temperature and pressure ranges. Recommendations are made for using non-lubricated compressed air and ensuring proper electrical connections to avoid damage.
Overview: This document provides technical specifications, programming instructions, and ordering information for vacuum systems and components, specifically focusing on the CVR2 and CVK series vacuum generators by Parker Hannifin Corporation.
Specifications: The document outlines the electrical and mechanical specifications for various sensors and vacuum generators. Key parameters include operating pressure, temperature range, and electrical connections. The CVK series is designed for non-lubricated, non-corrosive compressed air and features integrated vacuum and blow-off release pilot valves.
Procedures: Instructions for connecting sensors and programming outputs are provided. Sensors are connected to a power supply and PLC inputs, with outputs being programmable via a touch panel. The document also details the assembly of manifold systems and the configuration of vacuum circuits.
Ordering Information: Detailed instructions are given for ordering Add-A-Fold assemblies and manifold systems. Part numbers and configurations for different station setups are provided, along with options for port types and sensor configurations.
Recommendations and Cautions: The document advises against using the CVR2 with fluids or corrosive gases and emphasizes the importance of using non-lubricated compressed air. It also highlights the need for proper voltage application and securing lead wires to prevent damage.
Features: The CVK series offers features such as air-economizing controls, manifold systems, and vacuum flow rates ranging from 2.1 to 5.75 SCFM. The document also describes sensor options and their configurations for different applications.
Technical Information: Detailed technical information is provided for the CVK series, including vacuum flow rates, evacuation times, and sensor response times. The document also includes diagrams and dimensions for various components.
Overview: The document provides detailed technical specifications and operational guidelines for the CVXCEK Emergency Stop Vacuum Generators by Parker Hannifin Corporation. These generators are designed to maintain operational states during emergency stops or power failures, featuring air-economizing capabilities and integrated solenoid systems.
Specifications: The CVXCEK vacuum generators operate using non-lubricated compressed air and non-corrosive gases at an operating pressure of 70 PSI. They are constructed from materials such as aluminum, brass, and NBR, and function within a temperature range of 41 to 132°F (5 to 50°C). The units are equipped with various ports and valves, including vacuum and blow-off solenoid pilot valves, air-economizing valves, and pressure sensors.
System Logic and Operation: The system logic is designed to maintain vacuum levels through a series of solenoid and check valves. The vacuum is created using a single-stage Venturi effect, and the system can conserve air by toggling the air-economizing valve based on sensor feedback. The emergency stop system ensures that the last operational state is maintained during power disruptions.
Features: Key features include integrated double solenoids for maintaining last state conditions, air-economizing capabilities, and the ability to mount up to five units on a manifold. The system also includes a manual override and various electrical connections for integration with PLC/PC systems.
Performance and Ordering Information: The document provides detailed performance metrics, including vacuum flow rates and air consumption per channel. It also outlines the ordering process, specifying options for electrical enclosures, nozzle diameters, and port threads.
Emergency Stop Operating System (EOS): The EOS is designed to maintain the vacuum generator's current operation mode during power failures. It ensures that the vacuum level is maintained to hold workpieces securely, even during emergency events.
Replacement Components: The document lists replacement components for maintenance, including filters, valves, and mounting screws, with part numbers for easy ordering.
Specifications and Components:
The document lists various components such as clip leads, pressure sensors, and sensor cables, specifically mentioning models like PL1-CB10, MPS-V2C-NC, and CB-M8-4P-2M. It also details CEK generators and their configurations with sensors.
Cautions and Operational Guidelines:
CEK generators should not be exposed to fluids or corrosive gases and must operate within specified temperature and pressure ranges. Compressed air should be regulated to 70 PSI and filtered with a maximum 40-micron filter. Electrical components require correct polarity and voltage to avoid damage.
Electrical Connections:
Details on valve cables and their connections are provided, including wire color coding for solenoids and sensors. The document emphasizes securing lead wires to prevent damage.
Vacuum Generator Features:
The document describes features like air-economizing functions, blow-off needles, and emergency stop capabilities. It highlights the importance of maintaining vacuum levels and the role of sensors in ensuring system efficiency.
Glossary and Technical Terms:
Key terms such as vacuum confirmation, response time, and remote sensing are explained. The glossary provides definitions for various technical aspects related to vacuum systems.
Performance Charts:
Evacuation time and vacuum flow charts are included, detailing the performance of different series and nozzle diameters under specified conditions. These charts help in understanding the efficiency and capabilities of the vacuum generators.
Overview: The document provides detailed technical specifications and operational guidelines for the MPS-2 Versatile Pressure Sensors by Parker Hannifin Corporation. These sensors are designed for monitoring pressure in pneumatic systems and are not intended as safety devices.
Specifications:- Pressure Ranges: Vacuum Pressure (0 to -30 inHg), Compound Pressure (-14.7 to 72.5 PSI).
- Sensor Outputs: 2 NPN or PNP Open Collector Transistor Outputs, 30VDC, 125mA.
- Units of Measure: Selectable units include mmHg, bar, kPa, inHg, kgf/cm2, PSI.
- Response Time: Less than 2 milliseconds.
- Operating Temperature: 32 to 122°F (0 to 50°C).
- Storage Temperature: 14 to 140°F (-10 to 60°C).
- Humidity: 35 to 85% RH.
- Protection: IP65 or IP40, CE Marked.
Features:- Zero Reset: Allows calibration to current atmospheric pressure.
- LED Display Options: Red/Green LEDs indicate system status.
- Programming Options: Includes modes like Hysteresis, Window Comparator, Auto Teach, and Auto Surveillance.
- Error Messages: Provides error codes for troubleshooting.
Installation and Operation:- Ensure compatibility with system specifications and avoid hazardous environments.
- Use a dedicated power supply of 10.8 to 30VDC.
- Install using the metal mounting base and ensure proper electrical connections.
Ordering Information: Various models are available based on pressure range, port size, output circuit, and electrical connector type.
Additional Notes: The document includes diagrams for dimensions and wiring, as well as accessories like cables and connectors.
Overview: The document provides technical specifications and operational guidelines for Parker Hannifin's MVS-201 and MPS-32 pressure sensors, designed for pneumatic applications. It includes details on operating modes, programming features, installation instructions, and error messages.
Specifications: The MVS-201 sensor is suitable for use with CONVUM generators without check valves. It features a vacuum timer (t1) for controlling vacuum duration, optional delay timers (t2) for vacuum/blow-off, and a blow-off timer (bt). The MPS-32 sensor offers pressure ranges from 0 to -30 inHg for vacuum and 0 to 145 PSI for positive pressure, with selectable units of measure and a response time of less than 2 milliseconds.
Operating Modes: The MVS-201 sensor supports multiple operating modes, including a vacuum timer option and signal-controlled vacuum mode. The MPS-32 sensor provides modes such as hysteresis, window comparator, and auto-teach, with features like peak value recording and error message display.
Installation and Wiring: Proper installation requires a dedicated power supply (10.8 to 30VDC for MVS-201 and 10.8 to 26.4VDC for MPS-32) and adherence to wiring diagrams. The sensors should not be used in hazardous environments or with flammable gases. Installation of an air dryer system is recommended to remove moisture.
Error Messages: Both sensors display error messages for issues such as zero reset errors, system errors, overcurrent, and pressure range exceedance. Solutions include resetting zero, contacting the factory, and ensuring applied pressures are within sensor ratings.
Additional Features: The MVS-201 includes a screen saver function to reduce current consumption and records peak vacuum levels for maintenance. The MPS-32 offers a 2-color LED display, optional analog outputs, and various programming options for customization.
Accessories: The document lists available accessories, including M8 cables for sensor connections and mounting brackets for the MPS-32.
Programming Features:
The MPS-32 2-Color Panel Mount pressure sensor offers various programming features including output set open or closed, unit selection, easy mode activation, and automatic teach mode. It supports hysteresis and window comparator modes for both output modes. Special display features include zero reset, peak value display, and vacuum cycle settings.
Accessories:
Accessories for the MPS-32 include cables and panel mounting brackets. Various cable options are available, such as female to open lead and M8 female to M8 male configurations.
MPS-6 Compact Features:
The MPS-6 sensor supports vacuum and positive pressure ranges, with outputs including open and closed NPN or PNP open collector transistor output and an analog output. It features a fixed hysteresis of 2% and a response time of less than 1 millisecond. The sensor is CE marked and suitable for air and non-corrosive gases.
Specifications:
The MPS-6 operates within a temperature range of 32 to 122°F and supports a power supply of 10.8 to 30 VDC. It offers IP40 protection and is resistant to vibration and shock. The sensor's housing is made of polycarbonate, and it is available in various port sizes and output configurations.
MPS-7 Display Features:
The MPS-7 display is compatible with MPS-5, 6, or 8 analog sensors and can convert analog signals to NPN or PNP open collector transistor outputs. It supports multiple programming options, including hysteresis mode, window comparator mode, and energy savings mode. The display is CE marked and offers a response time of less than 5 milliseconds.
Technical Information:
The MPS-7 display is designed for monitoring pressure and is not a safety device. It requires a dedicated power supply and should not be used in hazardous environments. Installation should avoid short-circuiting, and unused outputs should be insulated.
Dimensions & Accessories:
The document provides detailed dimensions for the MPS-6 and MPS-7 sensors, along with available accessories such as cables and connectors.
Overview: The document is a technical catalog from Parker Hannifin Corporation's Pneumatic Division, detailing the features, specifications, and programming options for various multi-pressure sensors and transducers, specifically the MPS-71, MPS-74, MPS-8 Mini, and SCPSD High Pressure sensors.
MPS-71 and MPS-74 Series:- Programming Features: These sensors offer multiple programming options including output mode selection (hysteresis or window comparator), unit of measure selection, and peak surveillance. They also feature energy-saving modes and digital input modes for remote zero reset.
- Display Features: The MPS-7 display allows for easy mode activation, lock/unlock functions, and zero reset. It can display peak and bottom values and has special display features for output response time and display refresh settings.
MPS-8 Mini Series:- Features: This series includes sensors with pressure ranges from vacuum to compound pressures, offering both NPN/PNP open collector transistor outputs and analog outputs. They are CE marked and compatible with MPS-7 displays.
- Specifications: The sensors operate within a temperature range of 32 to 122°F and have a response time of less than 1ms. They are designed for air and non-corrosive gases and feature a fixed hysteresis of 2%.
- Installation and Operation: The document provides cautions for installation, emphasizing the need for a dedicated power supply and compatibility checks with the operating media.
SCPSD High Pressure Sensors:- Features: These sensors are made with stainless steel or ceramic diaphragms and are UL listed and CE marked. They offer selectable units of measure and have a display that swivels 290 degrees.
- Specifications: The sensors have a pressure range from -14.7 to 9000 PSI, with a response time of less than 5ms. They are protected against short circuits and reverse polarity.
- Installation: The document advises on mechanical and electrical installation, highlighting the need for protection against electromagnetic influences and over-voltages.
Accessories: The catalog lists various cables and mounting brackets compatible with the MPS-71 and MPS-74 series, detailing dimensions and connector types.
Installation Tips:- Use shorter cables to minimize interference.
- Avoid placing connecting leads near power-consuming devices and interference-generating equipment.
- Utilize free-running diodes.
Pressure Management:- Avoid static and dynamic over-pressures exceeding specified overload pressure to prevent damage to the SCPSD.
- Consider using an SCPSD with a higher nominal instrument pressure or install a throttling device upstream if high pressure peaks are a concern.
Connector Compatibility:- M12, 5-Pin Female Cable Connector is compatible with both M12, 4-Pin and 5-Pin Male Sensor Connectors.
Error Messages:- Err1: System Error (Internal).
- Err2: Nominal instrument pressure range exceeded by 10%.
- Err3: Nominal instrument pressure range exceeded; check system pressure.
Programming Features:- Switch outputs can be programmed for specific pressure values.
- Reverse switching points are set automatically if incorrectly configured.
- Delay times for switching points can be set from 0 to 9.99 seconds.
Options Program:- Allows setting of units (bar, MPa, PSI) and display options.
- Analog output settings can be configured for 0-20 mA or 4-20 mA.
Accessories:- Various cable types and lengths are available, including M8 and M12 connectors.
- Panel mounting kits are available for different sensor models.
Technical Data:- Includes information on output types, pressure units, and programming symbols.
Specifications and Features:
1. Current Consumption: Maximum current during operation, excluding load current.
2. Display Resolution: Resolution is 1/1024, adjustable on some sensors, with different increments for various pressures.
3. Dielectric Strength: Sensor's ability to withstand excess voltages.
4. IP Ratings: IP40, IP65, and IP67 ratings indicating protection against solids and liquids.
5. Maximum Operating Pressure: Exceeding this pressure could damage the unit.
6. Operating Conditions: Includes humidity, temperature, and voltage ranges.
Output and Performance:
1. Output Modes: Includes switch point with hysteresis and window comparator settings.
2. Output Response Time: Time taken for the output signal to respond after pressure switch point is achieved.
3. Repeatability: Sensor's ability to provide consistent output with repeated pressure applications.
4. PNP and NPN Outputs: Descriptions of open collector transistor outputs.
Components and Materials:
1. Silicon and Stainless Steel Diaphragms: Used for different applications based on material compatibility.
2. Wetted Parts: Parts in contact with process fluids.
Vacuum Control Valves:
1. Flow Sensing Valve (FSV): Maintains vacuum levels, automatically closes if the seal is lost, and features a normally open valve that switches to a closed state based on flow rate.
2. Check Valve (CH01): Holds vacuum downstream when the generator is off, with low leakage and cracking pressure.
Applications and Recommendations:
1. Material Handling: Recommendations for setting output levels for different applications.
2. Installation: Includes panel mounting brackets and lock-out mode to prevent accidental changes.
Additional Features:
1. Peak Surveillance: Monitors peak values and displays error codes if peak pressure is not attained.
2. Thermal Error: Sensor performance can be affected by ambient temperature changes.
Overview: This document provides detailed specifications and ordering information for Parker Hannifin Corporation's pneumatic products, including filters, silencers, and mini cylinders. It includes material compositions, part numbers, dimensions, and technical data.
Filters:- Materials: Filters are made from aluminum or polycarbonate housings with elements of acrylic, stainless steel, or polyvinyl.
- Specifications: Designed for non-corrosive air, operating vacuum ranges from 0 to 28 inHg, with a maximum pressure of 60 PSI and operating temperatures between 32 to 140°F. Filtration levels vary by model.
- Applications: Various models are suited for specific applications with different male connection sizes.
Silencers:- Materials: Constructed from polyacetal, nylon, and polyurethane, with elements made from felt, urethane, or stainless steel.
- Specifications: Suitable for non-corrosive air, with a maximum pressure of 128 PSI and operating temperatures from 41 to 132°F. They provide a silencing effect of 20 dB.
- Applications: Designed to reduce noise from vacuum generators and allow particle flow through the silencer.
Mini Cylinders:- TKY Series: Includes spring-extended (TKY-H), spring-retracted (TKY-O), and double-acting (TKY-W) models.
- Features: Space-saving design, female rod threads, and hose barb fittings. Maximum operating pressure is 87 PSI, with ambient temperatures from 32° to 140°F.
- Technical Data: Detailed dimensions and retract force calculations are provided for each model.
Recommendations: Regular replacement of filter elements is advised to maintain system performance and prevent damage from environmental particles.
Overview: This document is a catalog from Parker Hannifin Corporation's Pneumatic Division, detailing various fittings and tubing products, including specifications, dimensions, and applications.
1. Product Specifications:- Union Tee and Elbow Fittings: Nickel-plated fittings available in various tube sizes, with detailed dimensions for each part number.
- Male Elbow Swivel and Branch Tee Swivel: Nickel-plated fittings with specifications including tube size, pipe thread, and flow diameter.
2. Tubing Types:- Polyethylene Tubing: Features include chemical resistance, flexibility, and availability in multiple colors. It meets ASTM standards and is suitable for a wide temperature range (-80°F to 150°F).
- Flame Resistant Polyethylene Tubing: Meets UL94 V-2 flame classification and is used in environments requiring flame resistance.
- Nylon Tubing: Available in flexible and semi-rigid forms, offering high chemical resistance and low moisture absorption. Suitable for temperatures from -65°F to 200°F.
3. Applications and Approvals:- Polyethylene tubing is recommended for food contact applications and outdoor use due to UV inhibitors.
- Flame resistant tubing is used in HVAC, petrochemical, and other industries requiring flame protection.
- Nylon tubing is used in high-pressure environments and various industrial applications.
4. Technical Information:- Detailed charts provide burst pressure and temperature ratings for different tubing types, emphasizing the importance of operating within suggested working pressures.
5. Fitting Recommendations:- Brass fittings are recommended for use with the tubing products detailed in the catalog.
Polyethylene Tubing Specifications:
- Laboratory Grade E Series: Available in 1/4 thru 5/8 O.D. with minimum burst pressures ranging from 100 to 900 psi depending on temperature.
- "U" Series: Available in 1/8 thru 1/4 O.D. with polyether base.
- Flame Resistant FRPE Series: Available in 5/32 thru 1/2 O.D. Suggested working pressures are 1/4 of burst pressure at system operating temperature.
Chemical Compatibility Guide for Brass Fittings:
- Ratings are provided for various chemicals with brass fittings and Prestolok fittings.
- Ratings: 1 (Satisfactory), 2 (Fair), 3 (Recommend Testing), 4 (Unsatisfactory).
- Examples: Citric Acid (3), Coffee (1), Copper Chloride (4), Ethyl Acetate (2), Hydrochloric Acid (4).
Chemical Compatibility Guide for Tubing:
- Ratings for different media with FRPE, E Series, Flame Resistant Polyethylene, Nylon, and NR Nylon.
- Ratings: G (Good), L (Marginal), P (Poor), — (Not Tested).
- Examples: Acetaldehyde (L), Acetates (G), Acetic Acid (L), Air (G), Alcohols (G).
Safety Guide for Pneumatic Products:
- General Instructions: Emphasizes fail-safe design, user responsibility, and compliance with standards.
- Product Selection: Considerations include flow rate, pressure rating, temperature rating, and environmental conditions.
- Product Assembly: Importance of component inspection and adherence to installation instructions.
Warnings:
- Improper selection or use of products can cause serious injury or damage.
- Safety devices and warning labels should not be removed or obscured.
- Consult Parker technical service for additional information.
Installation Instructions: Parker valves, FRLs, and vacuum components must be installed following Parker's published instructions, available with each product or via their website.
Air Supply: Ensure the air supply is moisture-free if temperatures can drop below freezing.
Maintenance and Replacement Instructions: A maintenance program is crucial for the longevity of valves, FRLs, and vacuum products. This includes regular inspections and servicing based on application severity and known failure risks. Follow specific service bulletins for maintenance procedures.
Lockout/Tagout Procedures: Adhere to OSHA standards for lockout/tagout procedures during servicing to control hazardous energy.
Visual Inspection: Immediate shutdown and replacement are required for air leakage, damaged components, kinked hoses, improper function, or excessive dirt build-up.
Routine Maintenance: Keep work areas clean and ensure all guards and shields are in place.
Functional Test: Manually operate the system before automatic operation to ensure all functions are safe and operational.
Service Intervals: Establish service intervals based on performance history, standards, and risk of downtime or injury.
Servicing Guidelines: Follow safety practices, disconnect supplies, and ensure knowledgeable personnel perform servicing. Test for proper function post-servicing.
Terms and Conditions of Sale: All sales are governed by Parker's terms, including payment within 30 days, delivery terms, warranty limitations, and liability restrictions. Changes or cancellations require written acceptance by Parker.
Warranty: Products are warranted against defects for 18 months from shipment. The warranty is limited to repair, replacement, or refund at Parker's discretion.
Force Majeure: Parker is not liable for delays due to uncontrollable events like natural disasters or labor disputes.
Contact Information: For applications engineering or customer support, contact Parker's Pneumatic Division in Richland, Michigan.