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The direct drive PUMP is a device that directly converts electric energy into water pressure energy by the crankshaft linkage mechanism, and the energy conversion ratio is as high as 97% or more. Since the power conversion ratio of the conventional asynchronous motor is 80%, the permanent magnet servo motor The power conversion ratio is more than 97%, so the servo permanent magnet motor is used instead of the asynchronous motor to greatly improve the power usage of the supercharger, and the conversion rate is maintained above 90%, while the energy conversion rate of the conventional hydraulic booster is only 56%. , (56% conversion rate is only in the state of full work). In the traditional hydraulic system, the asynchronous motor still keeps turning when the waterjet is not cut (such as the movement of the cutter head, changing the cutting material, etc.), and the oil pump is still in working state. Although the pressure of the oil pump is not high at this time, 30% of the power is still present. Loss, even with the servo-power oil pump, the asynchronous motor still has to maintain its own rotation and power magnetic field, still has 30% loss. This supercharger can completely eliminate this phenomenon. The supercharger adopts the full servo working principle. Only when the cutting head has high pressure water output, the motor works, avoiding the energy consumption of the original hydraulic booster pump in the non-cut state, and achieving the energy saving effect.

The working principle of the hydraulic booster pump is that the asynchronous motor drives the plunger pump to generate oil pressure, and the hydraulic system converts the oil pressure into water pressure. The normal hydraulic pressure and water pressure pressure ratio is 1:20. Take the mainstream hydraulic booster pump (60000Psi) and the Volmet servo direct drive pump (60000Psi) as an example. 1, the choice of motor The hydraulic booster pump uses a 37KW asynchronous motor. The power conversion ratio of the asynchronous motor is about 80%~85%. The Volmet servo direct drive pump uses a 15KW permanent magnet motor. The power conversion ratio of the permanent magnet motor is 97%. Therefore, the power saving of only one motor is: 60% or more 2, the way of pressure conversion (1) The hydraulic booster pump is an asynchronous motor that drives the plunger pump to generate oil pressure. The hydraulic system converts the oil pressure into water pressure, and the direct drive pump is a process in which the motor drives the crankshaft connecting rod to directly generate water pressure. It will cause energy loss, about 35%, so the direct drive pump is about 35% more energy efficient than the hydraulic booster pump. (2) The hydraulic booster pump pressurizes the oil through the reversing valve and then converts it into water pressure. The reversing valve will reduce the pressure at the moment of commutation, causing fluctuations in water pressure. For example, to set a pressure of 50,000 Psi, the minimum pressure after the fluctuation can reach 43,000 Psi, and the average pressure is about 45,000 Psi. The Volmet servo direct drive pump can maintain a constant pressure, setting 50000Psi, the output water pressure is 50000Psi, so the cutting efficiency will be greatly improved, (50000-45000) / 45000 = 11%, cutting efficiency will increase by 10% -20%. 3, control mode (1), hydraulic booster pump is generally started by direct start or star triangle, although it can reduce some starting current, but the impact on the power grid and power consumption is still very large. The Volmet server direct-drive pump uses a fully intelligent soft start, starting current to several amps, completely avoiding the impact on the grid and reducing power consumption. (2) After the hydraulic booster pump is started, whether the high-pressure water has output or no output, the motor will run at a constant speed, and the power is always consumed. The Volmet servo direct drive pump uses a fully intelligent frequency converter to control the operation of the servo motor. The motor will start to work only when there is output from high pressure water. When the high pressure water has no output, the motor will stop running. This will reduce the consumption of electricity and play a role in energy conservation. 4. Example: Take the processing of tile mosaic as an example (set the working pressure to 50000Psi): work 12 hours a day, the actual cutting time (high pressure water output time) is about 5 hours, 37KW asynchronous motor is rated on the hydraulic booster pump The average power consumption is 20 degrees / hour, 20X12 = 240 degrees / day, calculated according to 300 days of work, 240X300 = 68000 degrees, Womart servo direct drive average of 5 degrees / hour, 5x12 = 60 degrees / day, 60x300 =18000 degrees. Therefore, the Volmet direct drive pump can save customers about 50,000 degrees per year. For users, the longer they work each day, the more power they save. Comparison of the Volmet servo direct drive pump and the FLOW direct drive pump: Although the FLOW type direct drive pump also uses the crankshaft linkage mechanism to eliminate the loss of the hydraulic energy of the original booster pump, the Volmet servo direct drive pump has a significant advantage over the FLOW direct drive pump. 1, the choice of motor. The FLOW direct drive pump uses a 22KW asynchronous motor. The power conversion ratio of the asynchronous motor is 80%. The Volmet servo drive pump uses a 15KW permanent magnet motor. The power conversion ratio of the permanent magnet motor is 97%. Therefore, the energy saving of only one motor is: 30% or more 2. Motor starting mode. The FLOW direct-drive pump adopts the star-delta step-down start. Although it can reduce some starting currents, it still has a large impact on the grid and power consumption. The Volmet server direct drive pump uses a fully intelligent soft start, and the starting current is reduced to several amps, completely avoiding the impact on the grid and reducing power consumption. 3, pressure control mode The pressure control of the FLOW direct drive pump uses the form of overflowing excess high pressure water to control the pressure and work at a constant speed. If no overflow is used, its pressure will reach 60,000 Psi, the vast majority in reality. In order to make the equipment work stably (and also to save the cost of wearing parts), the pressure is mostly used at around 46,000 Psi, so there will be (60000-46000)/60000=23.3% energy loss. This high temperature overflow phenomenon has many drawbacks: 1. The poppet valve is a relief valve with pneumatic pressure control. The structure is complex and it is prone to jam or unable to control the set pressure to close. In the event of a jam, the system pressure of the direct drive pump will rise sharply, reaching the pressure to destroy the normal working high pressure fittings, and the loss is huge. If you can't turn it off, you can't put pressure on the system. 2. The use of the poppet valve system is demanding on the water quality of high-pressure water. If the water quality is not up to standard, the high-temperature water will cause serious scaling and cause a series of failures. The pressure control of the Volmet servo direct drive pump uses full closed loop servo intelligent pressure control. How much pressure is required to cut the cutter head, and how much power the servo motor outputs. This not only saves energy but also avoids the drawbacks of the poppet valve. 4, the service life of high-voltage components It is well known that a high-pressure component is a component that is resistant to fatigue, that is to say, in the case of the same quality, the service life of the high-voltage component depends on the number of super-high pressure exchanges inside the component. For example, in the case of the same nozzle and the same pressure, the FLOW type direct drive pump has an alternating number of times per minute of 1500/2=750, and the Volmet servo direct drive pump has an alternating number of times of 580 times (750-580). /750=22.7% Therefore, the life of the high-voltage components and related components of the Volmet servo drive can be increased by 22.7%.

Advantage 1, a wide range of cutting Can cut most of the materials, such as: metal, marble, glass, etc. 2, good cutting quality Smooth cuts that do not produce rough, burring edges. 3, no hot processing Because it is cut with water and abrasives, it does not generate heat (or produces very little heat) during processing, which is ideal for materials that are affected by heat. Such as: titanium. 4, environmental protection This machine is cut with water and sand. This kind of sand does not produce toxic gas during processing, and can be directly discharged, which is more environmentally friendly. 5, no need to change tools You don't need to change the cutter unit, one nozzle can process different types of materials and shapes, saving cost and time. 6, reduce burrs The water knife is cut with abrasive sand, and the incision has fewer burrs. 7, programming quickly The program is mainly generated by CAD drawing software. You can design line drawings freely in the layout, or input DXF files generated from other software. In addition, the machine supports third-party software, such as nesting nesting typesetting software (for putting graphics in Filling the workpiece to minimize workpiece loss). 8, fast programming Other software-generated programs can be transferred to the machine. It can establish the tool path from CAD and can calculate the precise positioning and cutting speed of the cutter head over 2000 points/inch (800 points/cm). You need to do it. Just specify the material and thickness you want to cut, and the rest of the work is done to the machine. 9, combined with other equipment, you can operate separately Water cutting machines can be combined with other processing equipment (such as drilling heads) to take full advantage of their performance and optimize material utilization. 10, reduce the number of adjustments Only a small amount of side pressure is required for the workpiece to be fixed, reducing the trouble of complicated clamping. 11, no cutting direction restrictions → can complete a variety of different cutting shapes. 12. The lateral and longitudinal forces generated are extremely small → the set-up time and the cost of using the fixture can be reduced. 13. Drilling and cutting functions can be completed with the same machine → Reduce process time and cutting cost. 14. No thermal effects or deformation or fine cracks → No need for secondary processing, saving time and manufacturing costs. 15, will not produce toxic gases → can provide a better working environment for operators. 16. No burrs are generated → The time required for manufacturing the workpiece and the manufacturing cost can be shortened. 17, fine cut → can reduce the production of a large number of waste materials, saving direct manufacturing costs. 18, the workpiece can be cut in one time and has good trim quality → can reduce process time and cost. 19, flexible adjustment according to the design and the material of the workpiece → can shorten the time from order to finished product output, increase production capacity, and bring more business opportunities to the enterprise

WMT1525-AL 420mpa seperated body bridge type waterjet cutting machine have 2 sets in stock, price is only FOB QINGDAO USD 35000/SET. price is valid to May 1st, 2019

smallest model WMT1010-AL price is only FOB QINGDAO USD 30000/SET after discount. only valid to May 1st, 2019 cutting size 1*1m, 420mpa pump abrasive sand feeding system is free.