Pumps..
Overall size: D18 1/2"*H22". Metal back plate(dark-bronze matte powder coated): L12"*W4"*H3/4". Metal arms lamp body(dark-bronze matte powder coated). Off-white linen shade with white frosted acrylic diffuser on bottom: D18 1/2"*H8 1/2". 2*E26 ON/OFF keyless metal shell sockets. 2*E26 120v� 2700K� 800lm A19 bulb, bulb not included. Packaging: Lamp: 2PCS/CTN, L77*69*28cm, NW=5.7kg, GW=7.7kg Shade: 1PC/CTN, L38*W38*H24cm, NW=0.3kg, GW=1.4kg
7x1 pump combiner, 3x1 pump combiner, multimode pump combiner, power combiner, high power pump combiner RUIK-Tech Communication is a manufacturer and supplier of Optical Passive Components with ISO9001:2015 certified. We design advanced and cost-effective passive components for various industries which include Fiber Laser, Sensing Applications, CATV, Telecommunication, Medical Systems, Gyroscope, etc. Our main products include High Power Components up to 100W (20kW), Polarization Maintaining (PM) and Single-mode Fiber Components with ranging from 780nm to 2000nm. We also provide Customized components to our customers. High power Optical Fiber Components: -Optical Fiber Isolator, up 100W; -Free Space Isolator, up to 100W; -Optical Circulator, up to 30W; -Pump Laser Protector; -Band Pass Filter; -Nx1 Pump Combiner; -Cladding Power Stripper; -Mode Field Adapter; -(N+1)x1 Pump & Signal Combiner, 200W/port; Polarization Maintaining Fiber Components: -In Line Polarizer/Depolarizer; -In Line Faraday Isolator; -Optical Circulator; -Fused WDM / Coupler; -Filter WDM / Coupler; -Fiber DWDM -Fiber Mirror; -Faraday Rotator; -Fiber Patch cord / Jumper; -PLC Splitter Module; -Tap / WDM / Isolator Hybrid; Manual Variable Optical Attenuator; -1x2 Polarization Beam Splitter / Combiner (PBS/C) -1x2 Isolator & Polarization Beam Splitter / Combiner (IPBS/C)
Specification Capacity 2600mAh Size 77*55*91mm Net weight 150g Voltage 5V Current 500MA Induction distance â?¤12CM Water bottle capacity 50ML Color White Accessory USB-A to USB-C cable (105 CM) Quotaion FOB SHENZHEN: USD $15 MOQ=3K
Type: hydraulic vane pump Model Number: VP-SF-15-D (VP-15-FA3) Brand Name: JUN LING Place of Origin: Guangdong, China (Mainland) pressure range: 50--70 bar (kgf/cm2) displacement: 15 L/min shaft key: parallel key or spline shaft shaft diameter: 12.70 mm or 15.875mm flange size:: 82.55 mm parallel key spec.: 25mm length, 3.18mm width sauction port diameter: 1/2 " delivery port diameter: 3/8" drain port diameter: 1/4" weight: 5 kg
Type: hydraulic vane pump Model Number: VP-SF-15-D (VP-15-FA3) Brand Name: JUN LING Place of Origin: Guangdong, China (Mainland) pressure range: 50--70 bar (kgf/cm2) displacement: 15 L/min shaft key: parallel key or spline shaft shaft diameter: 12.70 mm or 15.875mm flange size:: 82.55 mm parallel key spec.: 25mm length, 3.18mm width sauction port diameter: 1/2 " delivery port diameter: 3/8" drain port diameter: 1/4" weight: 5 kg
Character Model: ZL25-02 Working Voltage Range DC: 4.5V-12V Rating Power 4.5V: 0.5-2W/ 6V: 1-3W /12V: 2-3W Static Water Head: 0.4-2 M Static Flow Rate: 0.6-1.8 L/min Lifespan: Continuous operation under normal working surrounding >20000Hr Working Environment Liquid: From weak acid to weak base?workable both on land and in water (Submersible) Max Noise: Under normal working condition, 1M distance over the test instrument
I: Application: 1. Aquarium 2. Solar energy system 3. Fountain 4. Small pond 5. Water circulation system II: Parameter Specification: Model: 32-01 Working voltage(VDC):6~24 Working current(mA): 300~700 Max-Static lift(meter): 2~2.5 Max-Static flow rate(L/Min):3~3.5 Temp: ¡Ü75degC Remarks: submersible. The tolerance of technical parameters above is 10% and the technical parameters. III: Structure dimensions Model: 32-01 Dimension (mm): 58(Length)*34(Width)*41(Height) Inlet OD (mm):13.8 Outlet OD (mm):8.5 Remarks: Outlet has antis lip strip.
32-01 brushless DC water pump I: Feature: 1). Life: Expected life span is at least 20000 hours. 2) Low noise: 35dB, far from 10cm distance. 3) Duty work: The pump can sustain heavy duty work for a day, continuous operation. 4) Working conditions: Applying to indoor and outdoor under temperature 40degC. 5) Working temperature: Within75 cent degree 6) It is waterproof, submersible. II: Application: 1. Aquarium 2. Solar energy system 3. Fountain 4. Small pond 5. Water circulation system. III: Parameter Specification: Model: 32-01 Working voltage(VDC):6~24 Working current(mA): 300~700 Max-Static lift(meter): 2~2.5 Max-Static flow rate(L/Min):3~3.5 Temp: ¡Ü75degC Remarks: submersible The tolerance of technical parameters above is ¡À10% and the technical parameters above is only for your reference, for more details, please feel free to contact us. Model: 32-01 Dimension (mm): 58(Length)*34(Width)*41(Height) Inlet OD (mm):13.8 Outlet OD (mm):8.5 Remarks: Outlet has antis lip strip.
High Pressure Gas Pump High pressure gas hydraulic pumps are designed for high efficiency with higher bypass pressures for increased productivity. The pneumatic pump range extends from small portable and high performance moveable configurations to high capacity power units. Our personnel are generally within the spirit of "continuous improvement and excellence", and using the excellent top quality goods, favorable rate and superior after-sales expert services, we try to win every customer's believe in for Compressed Air Pressure Booster,We have been wanting forwards to creating long-term company interactions with around the world shoppers.The product will supply to all over the world, such as France ,Cuba ,Isle of Man ,Mauritania ,Micronesia .High output volume, top quality, timely delivery and your satisfaction are guaranteed.Welcome to join us to promote green light, together we will make a better Future!.We hope to cooperate with more customers for mutual development and benefits.We strive for excellence, constant improvement and innovation, is committed to make us the "customer trust" and the "first choice of engineering machinery accessories brand" suppliers.With the first-class solutions, excellent service, fast delivery and the best price, we've won highly praise foreign customers'.Working with us will save you money and time.
Hydro Test Pump Hydro Test Pump is a diagnostic technique used to perform hydrotesting of hydrostatic pipes, hydrostatic line testing, hose hydrotesting, cylinder hydrotesting, pressure vessel and boiler hydrotesting, cross-country hydrotesting of piping, valves, castings, components, etc. to find leaks or defects. Hydrotest pumping equipment is used to check that the component to be tested is filled with an incompressible fluid, usually water or oil. With the aid of a positive displacement reciprocating piston pump fitted with appropriate safety release and control devices, the pressure in the test assembly is slowly increased to a predetermined set point and maintained for a predetermined period of time. Application Boiler hydraulic test Casting hydrostatic test Cylinder hydrotest Cross-country pipeline hydrotest Hydraulic fittings hydrotest Jacket hydrotesting Mandrel extraction from hoses and cables Pre-charging and hydrotesting of rubber hoses Pipe hydrotesting and burst testing Pipe hydrotesting Valve hydraulic test Hydrostatic testing of various industrial equipment Vessel hydraulic test Weld hydrotest
Liquid Gas Pumps Liquid Gas Pumps are typically centrifugal pumps used to pump liquefied hydrocarbons such as propane, butane, propylene and ethylene. These liquefied hydrocarbons are pumped at -104�°C, and liquefied natural gas (LNG) (usually methane) is pumped at -161�°C, where they remain liquid because above this temperature the gas begins to boil and evaporate. SUNCENTER Liquid Gas Pumps are air driven at a drive air pressure of 2 to 10bar (29 to145 psi) by the normal air compressor. Basically the principle of operation is similar to a reciprocating amplifier where control of the piston at the end position is regulated by a pilot operated 4/2 way valve.
Air Driven Liquid Pump The air driven liquid pump is pneumatically driven reciprocating piston pumps. These air driven liquid pumps are proportional devices that utilize low pressure compressed air to drive a larger diameter piston (area x pressure) that is linearly connected to a smaller hydraulic piston/plunger. Utilizing this ratio principle, higher hydraulic pressure can be generated. Materials of construction include standard all stainless steel wetted ends and polyurethane pressure seals. Specialized materials of construction and special seals are also available upon request. Compact and lightweight, this air driven liquid pump requires no air lubrication and is suitable for water, oil and most chemical applications.
Air Driven Liquid Pump The air driven liquid pump is pneumatically driven reciprocating piston pumps. These pumps are proportional devices that utilize low pressure compressed air to drive a larger diameter piston (area x pressure) that is linearly connected to a smaller hydraulic piston/plunger. Utilizing this ratio principle, higher hydraulic pressure can be generated. Materials of construction include standard all stainless steel wetted ends and polyurethane pressure seals. Specialized materials of construction and special seals are also available upon request. Compact and lightweight, this liquid pump requires no air lubrication and is suitable for water, oil and most chemical applications. Applications High pressure pneumatic liquid pumps are available in a variety of sizes for use in many industries including oil and gas, mining, construction, aviation, aerospace, automotive, biomedical, vegetable oil extraction, alternative energy, chemical, defense, food processing, hydraulic fracturing, and more.
DGG Series Air Hydraulic Pump Higher pressures obtained by using higher pressure ratios.Suncenter model numbers reflect the pumps nominal pressure ratios while the technical data indicates exact ratios. The outlet pressure is easily to set through a simple air regulator. By multiplying the pressure ratio by the available shop air pressure, the nominal liquid pressure can be calculated. Air Hydraulic Pump An air hydraulic pump is a device that utilizes compressed air to generate hydraulic pressure, which is then used to power various hydraulic machinery and tools. This type of pump combines the principles of both pneumatic (air) and hydraulic systems to create a versatile and efficient power source. Features of an Air Hydraulic Pump Compressed Air Source: An air hydraulic pump requires a supply of compressed air, typically from an air compressor. This air is used to pressurize hydraulic fluid, usually oil, within the pump's reservoir. Hydraulic Pressure Generation: The compressed air drives a piston or diaphragm inside the pump, which in turn pressurizes the hydraulic fluid. This pressurized fluid is then directed to hydraulic actuators, cylinders, or tools to perform work. Adjustable Pressure: Air hydraulic pumps often feature pressure adjustment mechanisms that allow users to control the output pressure. This adjustability is crucial for different applications that require varying levels of force. Multiple Fluid Compatibility: These pumps are designed to work with various types of hydraulic fluids, including mineral oil-based fluids and synthetic hydraulic fluids, making them versatile for different industries.
Chemical Injection Pump Chemical reagent injection system is widely used in the world oil production and processing industry. Using the Air / gas driven system to filling chemicals to the oil wells, gas wells and pipelines, restore the normal work of the oil (gas) well, also can be used for delivery of raw materials to the high-pressure reaction kettle quantitative. Liquid Injection Pump A liquid injection pump is a device used to deliver a controlled amount of liquid into a system or process. This type of pump is commonly utilized in various industries such as manufacturing, chemical processing, pharmaceuticals, and agriculture. It serves the purpose of accurately injecting liquids, often chemicals or additives, into a larger flow or system. Key features of a liquid injection pump include Precision Control: Liquid injection pumps are designed to provide precise control over the amount of liquid being injected. This is crucial in processes where accurate dosing is required to achieve specific outcomes. Accurate Metering: These pumps are built with mechanisms that ensure accurate measurement and delivery of the liquid. This accuracy is essential in scenarios where even slight deviations in dosage can have significant impacts. Compatibility: Liquid injection pumps are engineered to handle a wide range of liquids, from viscous chemicals to corrosive substances. They are often made from materials that can withstand the chemical properties of the liquids being pumped. Automation: Many liquid injection pumps are designed to be integrated into automated systems. This allows for consistent and controlled injections without the need for manual intervention. Versatility: Liquid injection pumps can be used in various applications, including water treatment, chemical dosing, fertilizer injection in agriculture, and additive injection in manufacturing processes. Types: There are different types of liquid injection pumps available, including diaphragm pumps, piston pumps, peristaltic pumps, and gear pumps. The choice of pump type depends on factors like the characteristics of the liquid being injected, the required flow rate, and the pressure conditions. Maintenance: Regular maintenance is important to ensure the proper functioning of liquid injection pumps. This includes cleaning, checking for wear and tear, and replacing any components as needed.
Oxygen Gas Pump An oxygen gas pump is a device used to transfer or deliver oxygen gas from a storage container or source to another location. These pumps are designed specifically for handling oxygen, which is a critical gas used in various applications such as medical oxygen supply, industrial processes, and scientific research. The working principle of an oxygen gas pump depends on the specific type of pump being used. Here are two common types of oxygen gas pumps: Reciprocating Piston Pump: This type of pump utilizes a reciprocating piston to draw in and compress the oxygen gas. The pump consists of a cylinder, a piston, and inlet and outlet valves. During the suction stroke, the piston moves away from the cylinder head, creating a vacuum that draws in oxygen gas through the inlet valve. On the compression stroke, the piston moves towards the cylinder head, compressing the gas and forcing it out through the outlet valve. Diaphragm Pump: A diaphragm pump for oxygen gas uses a flexible diaphragm to generate the pumping action. Compressed air or a motor-driven mechanism causes the diaphragm to move back and forth, creating suction and compression cycles. When the diaphragm moves away from the pumping chamber, it creates a vacuum that draws in oxygen gas. As the diaphragm moves towards the pumping chamber, it compresses the gas and expels it through the outlet. In both types of pumps, it is crucial to ensure the materials used in their construction are compatible with oxygen gas. Oxygen is a highly reactive gas and can pose a fire hazard if it comes into contact with certain substances, such as oil, grease, or flammable materials. Therefore, oxygen gas pumps are typically made from oxygen-compatible materials, such as stainless steel or brass, and designed to minimize the risk of contamination or ignition. Oxygen gas pumps may also include safety features like pressure relief valves, gauges, and filtration systems to ensure the proper handling and delivery of oxygen gas. These safety measures help prevent overpressurization, monitor pressure levels, and remove impurities that could potentially affect the quality and safety of the delivered oxygen. Compressed Air Driven Gas Booster Pump- DGA/DGD/DGT Series Suncenter Air Driven Gas Boosters provide for pressures up to 80Mpa (11,600 psi). Used for virtually all known gases, these boosters are ideal for increasing gas pressure, transferring high pressure gas, charging cylinders and scavenging.
Air Driven Liquid Pump An air-driven liquid pump, also known as an air-operated diaphragm pump (AODD), is a type of pump that uses compressed air as its power source to transfer liquids. It is a versatile and efficient pump commonly used in various industries for applications such as transferring fluids, emptying containers, and dosing liquids. The working principle of an air-driven liquid pump involves the reciprocating motion of a diaphragm. When compressed air is introduced into one side of the pump, it pushes the diaphragm in one direction, creating a vacuum on the other side. This vacuum causes the liquid to be drawn into the pump through an inlet valve. As the diaphragm moves back in the opposite direction, it compresses the liquid and forces it out through an outlet valve. One of the advantages of air-driven liquid pumps is their ability to handle a wide range of liquids, including corrosive and abrasive fluids, viscous substances, and liquids with solid particles. They are also capable of dry running without damage, making them suitable for applications where occasional dry operation may occur. The benefits of using air-driven liquid pumps include: Versatility: Air-driven liquid pumps can handle various types of liquids, making them suitable for a wide range of industrial applications. Self-priming: These pumps can self-prime, meaning they can draw liquid from a lower level without the need for external priming. Ability to handle solids: The diaphragm design of these pumps allows them to handle liquids containing solids or particles without clogging or damage. Simple operation and maintenance: Air-driven liquid pumps have a relatively simple design, making them easy to operate and maintain. They are often constructed from durable materials, ensuring long-term reliability. Adjustable flow and pressure: The flow rate and discharge pressure of air-driven liquid pumps can be easily adjusted by regulating the air pressure, allowing for precise control of liquid transfer.
pumps are air driven at a drive air pressure of 2 to 10bar (29 to145 psi) by the normal air compressor. Basically the principle of operation is similar to a reciprocating amplifier where control of the piston at the end position is regulated by a pilot operated 4/2 way valve. pumps feature a large air piston joint to a smaller diameter plunger. The pressure ratio is the difference of these two areas and is the method of determining maximum outlet pressure. Higher pressures obtained by using higher pressure ratios. model numbers reflect the pumps nominal pressure ratios while the technical data indicates exact ratios. The outlet pressure is easily to set through a simple air regulator. By multiplying the pressure ratio by the available shop air pressure, the nominal outlet pressure can be calculated.
Equipment Summary and features Can Use for 5 Gallon(20kg) Barrel packaging Iron and plastic barrels Suitable for 10,000-1,000,000cps high viscosity liquid Equipped with high pressure special valve to realize high viscosity liquid precision dispensing and greatly improve production and glue quality Use the liquid within one month after the packing is opened Motor power:400W Rotor diplacement: 1.5/3/6cc Maximum delivery pressure: 80 kg Repeated precision: +- 2% Maximum glue dispensing volume: 5ml/sec Rated voltage: AC 220V Minimum glue dispensing amount: 0.005ml/sec Rated frequency: 50HZ Rated power: 500W Rated pressure:0.6MPA PMP-20 screw pumps are suitable for low, medium high viscosity or abrasive liquids such as silica gel, epoxy, grease, heat conducting gel, UV, etc. The 5 gallon / 20L barrel is used, and the pressure plate sealing method is adopted to facilitate the use and replacement of glue. The stator and rotor are driven by the servo motor to ensure the realization of precision measurement, and solve the problems of glue breaking, unstable glue amount and uneven lines caused by the unstable pulse and air pressure of the traditional pneumatic piston pump. The servo screw mode can be used in all dispensing processes such as bonding, fixing, potting, bottom filling, plane sealing or double liquid dispensing Solve the problems of unstable pressure in pneumatic glue supply and transportation mode and unstable pressure caused by the change of rubber barrel affected by resistance, which affects the repeated accuracy of dispensing Solve the pulse instability caused by pneumatic or cylinder and piston rubber supply and transportation The equipment is equipped with a special servo drive controller with its own touch screen. Adjust the glue amount through the working speed function item. The larger the value is, the larger the glue amount is (the minimum is 0.005ml, the maximum is 5ml / sec, and the size can be customized)
