유압 프레스

7 Best Questions About Directional Control Valve

방향 밸브

예상 읽기 시간: 21

질문 1: 파이프 확장기의 유압 시스템의 방향 제어 밸브 사양

Figure 1-1 shows the hydraulic system of a 600-ton pipe expander used in a factory. It can realize the action cycle of vertical cylinder fast down, sealing control cylinders on both sides synchronously fast forward, mold sealing one vertical, side cylinder pressurization-two cylinders synchronously rewind the mold opening and the vertical cylinder quickly retreats the mold opening action cycle. Directional Control Valve

Directional Control Valve

그림 1-1 600톤 파이프 익스팬더의 유압 시스템

When the solenoid 2DT is energized, the electromagnetic directional valve 10 is switched to the left position, and the hydraulic pump 1—the left position of the electro-hydraulic directional valve 8—the left position of the valve 10—the double hydraulic control check valve 13—the rodless cavity of the vertical cylinder 19, The vertical cylinder 19 quickly descends and seals the mold. Directional Control Valve

금형 밀봉 압력이 지정된 값에 도달하면 전기 접촉식 압력 게이지 14가 신호를 보내고 솔레노이드 2DT가 차단되고 1DT, 5DT, 6DT에 전원이 공급되고 작동유는 밸브 8을 통해 오른쪽으로 통과하고 션트 밸브 9 - 전자기 역전 밸브 11 오른쪽 - 전자기 역전 밸브 12의 왼쪽 위치 - 이중 유압 제어 체크 밸브 16 and 18 enter the rodless chambers of the side cylinders 20 and 21 respectively, and the cylinders on both sides fast forward and seal the mold synchronously. Directional Control Valve

금형 밀봉 압력이 지정된 값에 도달하면 전기 접촉 압력 게이지 17이 신호를 보내고 초고압 유압 15 및 2 ~ /가 동시에 뒤로 이동하고 각각 고압 오일을 로드레스에 주입합니다. 출력 6MN(600tf) 가압력을 달성하기 위해 수직 실린더(19)와 측면 실린더(20, 21)의 캐비티.

When the electromagnets 1DT, 4DT, 7DT are energized, the cylinders on both sides will retreat and open the mold synchronously. When the end of the stroke is reached, the stroke will open and a signal will be sent. The electromagnet 1DT is de-energized and the 3DT is energized, and the vertical cylinder quickly moves upward to open the mold. Directional Control Valve

In order to improve work efficiency and reduce power consumption, the system adopts pressure compensation variable axial piston pump 1 to achieve low-pressure and high-speed operation of vertical cylinders and side cylinders, and high-pressure and low-speed operation during mold sealing. The specifications of the three hydraulic cylinders are the same. Directional Control Valve

그림 1-2

그림 1-2

The vertical cylinder and the side cylinder move slowly. The vertical cylinder moves down quickly for 70 seconds, and the side cylinder moves forward quickly for 60 seconds. The return time is longer, resulting in extremely low production efficiency. Directional Control Valve

It can be seen from the working principle of the system that the vertical cylinder’s rapid downward movement and the side cylinder’s rapid forward movement are performed independently. A hydraulic source provides flow, and its operating speed is determined by the output flow of the hydraulic pump 1. When the vertical cylinder and the side cylinder are running quickly, because there is no load, the working pressure of the system is very low at this time and the pressure compensation variable 수압 펌프 outputs at full flow. Directional Control Valve

유압 실린더가 천천히 움직이고 작동 시간이 너무 길어 실제 유량 입력이 유압 실린더 너무 작다. 다음과 같은 두 가지 상황이 있을 수 있습니다.

  • The volumetric efficiency of hydraulic pump 1 is too low, causing the actual maximum flow output of the pump to be too small. Directional Control Valve
  • The system pressure loss is too large so that the pump is in a constant power variable adjustment condition and cannot output at full flow. Directional Control Valve

유압 펌프(1)의 체적 손실이 크지 않고 체적 효율이 감소하지 않는 것을 검사로 확인하였다. 이를 통해 후자는 시스템에 문제를 일으킬 수 있음을 유추합니다.

From the above analysis, it can be seen that when the hydraulic cylinder is running fast, the total partial pressure loss caused by the oil passing through the hydraulic valves is very large, especially the pressure loss through the electromagnetic reversing valve and the two-way hydraulic lock is the largest, which greatly exceeds their rated pressure Loss value. The total partial pressure loss of the hydraulic valve is combined with the pressure loss along the pipeline and the partial pressure loss, which will inevitably increase the working pressure of the system and reduce the actual output flow of the pump, thereby reducing the operating speed of the hydraulic cylinder. Slow, the running time becomes longer. Directional Control Valve

그림 1-3

그림 1-3

결론: 시스템 문제의 주요 원인은 전자기 반전 밸브 및 양방향 유압 잠금 사양의 부적절한 선택입니다.

The best way to solve this problem: select the electromagnetic directional valve and two-way hydraulic lock with appropriate specifications, and replace the corresponding components in the system, thereby reducing the partial pressure loss of the hydraulic valve. Directional Control Valve

When selecting a hydraulic valve to form a hydraulic system, in addition to considering the proper function of the selected hydraulic valve, it is also necessary to consider that its specifications should meet the performance requirements of the system. The improper selection of component specifications in this example will cause slow movement of the main and side cylinders and affect the normal working performance of the system, but will also cause excessive resistance loss, resulting in large energy loss and increased oil temperature. Directional Control Valve

질문 2: 프레스 기계의 유압 시스템에서 방향 밸브 유형 선택

Figure 1-4 shows the hydraulic system of a stretch-bending machine designed and manufactured by a certain factory, which can realize the stretching and bending of the profile. Operate the manual reversing valve 2. The oil enters the rodless cavity of the stretching hydraulic cylinders 4 and 5 through the left position, and the pistons of the stretching hydraulic cylinders 4 and 5 move forward to carry out the stretching process of the profile.

When the required stretch rate is reached, the manual reversing valve 3 is then operated to connect to the circuit in its left position, and the oil enters the rodless cavity of the bending hydraulic cylinder 6 to bend the profile. After bending and shaping, the workpiece is unloaded, and the bending hydraulic cylinder 6 and the stretching hydraulic cylinders 4 and 5 are retracted, thereby completing a profile stretching and bending action cycle. The system pressure is set by overflow valve 1. After improvement, the hydraulic system adopts an electromagnetic directional valve and electromagnetic overflow valve, as shown in Figure 1-4(b). Directional Control Valve

그림 1-4 벤딩 머신 1 오버플로 밸브의 유압 시스템; 2,3-수동 역전 밸브; 4,5 스트레칭 유압 실린더; 6굴곡 유압실린더

1-오버플로 밸브; 2,3-수동 역전 밸브; 4,5 스트레칭 유압 실린더; 6굴곡 유압실린더
Figure 1-4 The hydraulic system of the bending machine

Existing problems: The system adopts an electromagnetic overflow valve, which has obvious effects on reducing power consumption and reducing oil heating and leakage. However, when the stretching and bending actions begin, there is obvious hydraulic shock, accompanied by equipment flutter, which affects the quality of the product. Directional Control Valve

The electromagnetic reversing valve selected has the same specifications as the original manual reversing valve. The only difference is the reversing operation method. What is the problem? Directional Control Valve

The electromagnetic reversing valve changes the working position of the valve by using the suction force of the electromagnet to push the spool relative to the valve body. It switches quickly and the reversing time is short. Therefore, hydraulic shock will inevitably occur when the reversing valve is switched. The manual reversing valve is used to manipulate the lever and push the spool to move relative to the valve body to change the position. It does not switch as quickly as the former.

It gradually opens or closes the valve port. It has the effect of throttling and damping, so it has an impact on the hydraulic pressure. Has a buffering effect. Therefore, the commutation stability of the modified system is poor. Directional Control Valve

전자기 역전 밸브 대신 동일한 사양의 전자 유압 역전 밸브를 사용하면 유압 충격을 제거할 수 있습니다. 동시에 전자기 역전 밸브의 유연한 작동과 쉬운 자동 프로그램 제어의 장점도 있습니다. 추가 변형 후의 유압 시스템은 그림 1-2(c)와 같이 표시됩니다. 전기 유압식 반전 밸브를 조정하면 압력 오일 회로의 댐퍼가 제어되어 반전 시간이 조정되어 반전의 안정성이 향상됩니다.

This example illustrates: For hydraulic equipment that requires high commutation stability, it is advisable to use an electro-hydraulic directional valve or a controllable commutation time. Directional Control Valve

The manual reversing valve constitutes the hydraulic system. Directional Control Valve

질문 3: 리프팅 플랫폼의 유압 시스템의 유압 밸브 문제

Figure 1-6 shows the hydraulic system of a lifting platform made by a factory, which can realize equipment lifting, lowering, and stopping at any position. Directional Control Valve

그림 1-5

그림 1-5

When 2DT is energized, oil-electromagnetic reversing valve 5 right position-hydraulically controlled check valve 7-plunger cylinder 8 lower cavity-plunger moves upwards-the weight is lifted. When the 1DT is energized, the oil-hydraulic control check valve 7-electromagnetic reversing valve 5 left position-throttle valve 4-oil tank, the plunger moves downwards-the weight drops. The descending speed of the weight is controlled by the throttle valve 4, and the descending stop position is controlled by the hydraulically controlled check valve 7. When the 3DT is energized, oil-hydraulic pump 1-relief valve 2-oil tank (unloading). Directional Control Valve

There is a problem: when the weight is descending, it emits beat-like vibration and noise. Directional Control Valve

All hydraulic components in the detection system are normal, so the problem of the system is not caused by the failure of the component itself. In the system, a throttle valve is used to adjust the descending speed of the plunger cylinder, so when the oil flows in the reverse direction, the hydraulic control check valve outlet pressure is backpressure. The control oil pressure is still the setting value of the overflow valve 6, so the force balance of the valve core is broken, the valve core drops to close the valve port, and the pressure in the oil outlet cavity becomes zero.

At this time, the control oil pressure set by the overflow valve 6 opens the hydraulic control check valve again, the oil flows in the reverse direction, and backpressure is generated in the reverse oil outlet cavity, and the hydraulic control check valve is closed again. This was repeated so that the plunger cylinder was lowered and stopped intermittently, and vibration and noise were emitted at the same time. Directional Control Valve

그림 1-6 리프팅 플랫폼의 유압 시스템 1-유압 펌프, 2,6-오버플로 밸브, 3,5-전자기 역전 밸브, 4-스로틀 밸브, 7-체크 밸브; 8플런저 실린더

1-hydraulic pump;2,6-overflow valve; 3,5-electromagnetic reversing valve;4-throttle valve; 7-check valve; 8-plunger cylinder Figure 1-6 Hydraulic system of lifting platform

해결 방법

  • Increase the control oil pressure. Increasing the setting pressure of the relief valve 6 means increasing the minimum control pressure, which can reduce vibration and noise within a certain range of the descending speed of the plunger cylinder, but is disadvantageous for saving the power of the control part. Directional Control Valve
  • Change the setting of the throttle valve. Set the throttle valve above the hydraulic control check valve to make the hydraulic control check valve reverse the backpressure of the oil chamber to zero. This helps eliminate vibration and noise, but increases the power consumption when the plunger cylinder rises. Directional Control Valve
  • Select the appropriate hydraulic valve. Choosing a hydraulically controlled check valve with an external drain port can eliminate vibration and noise. Directional Control Valve
  • The problems exposed in the system are caused by the improper selection of component types. When selecting a hydraulic control check valve, in addition to knowing its function as a hydraulic lock, you must also understand its structure type. When there is backpressure, you should choose a hydraulic control check valve with an external drain. Directional Control Valve

질문 4: 크레인 스프레더 포지셔닝 유압 시스템의 유압 밸브 제어 오일 압력

Figure 1-7 shows the positioning hydraulic system of the container crane spreader, which can realize the movement and positioning of the container spreader. The hydraulic cylinder 5 is required to travel left and right in the horizontal direction and be accurately positioned at any position, without drifting or shifting, and its movement speed should be adjusted.

In order to meet the positioning requirements of the spreader, an external leakage type (with a load relief valve core) dual hydraulic control one-way valve 4 is set at the oil inlet and outlet ports of the hydraulic cylinder 5 to lock the hydraulic cylinder. Because of the four one-way valves, the oil can flow through the speed control valve in the same direction no matter the piston moves to the left or right, so the reciprocating speed of the piston is equal, and the system working pressure is set by the overflow valve 1. Directional Control Valve

Since the neutral function of the reversing valve 2 in the system is O type, when the reversing valve 2 is switched to the neutral position, the oil circuit between the hydraulic cylinder 5 and the reversing valve 2 is closed, and a certain pressure is still maintained, namely The control oil circuit of the hydraulic control check valve still has pressure, so that it cannot be closed immediately. The hydraulic control check valve is not closed until the control oil circuit pressure oil is relieved due to the internal leakage of the reversing valve.

Therefore, there is still a period of time from when the reversing valve is in the neutral position to when the piston stops moving, and the hydraulic cylinder cannot be positioned accurately. Directional Control Valve

Change the original system with the O-type reversing valve to the Y-type reversing valve. The improved system is shown in Figure 1-7. Due to the Y-type neutral function of the reversing valve, when the reversing valve is in the neutral position, the control oil circuit of the hydraulic control check valve is immediately connected to the oil tank, and the pressure drops rapidly, so the hydraulic control check valve can be closed in time and locked tightening effect.  Directional Control Valve

1-오버플로 밸브; 2-수동 역전 밸브; 3단 속도 조절 밸브; 4-유압 제어 체크 밸브; 5-유압 실린더 그림 1-7 컨테이너 브리지 크레인 스프레더의 위치 지정 유압 시스템

1-오버플로 밸브; 2-수동 역전 밸브; 3단 속도 조절 밸브; 4-유압 제어 체크 밸브; 5-유압 실린더
그림 1-7 컨테이너 브리지 크레인 스프레더의 위치 결정 유압 시스템

질문 5: 어큐뮬레이터 속도 증가 회로용 유압 밸브 유형 선택

The hydraulic equipment made by a factory is shown in Figure 1-8. Due to the long intermittent time and the high-speed movement of the actuators, an accumulator is used as an auxiliary power source and used in conjunction with a hydraulic pump with a small flow rate. When the manual reversing valve 5 is in the neutral position, the hydraulic cylinder 6 stops and the hydraulic pump 1 charges the accumulator 4 through the one-way valve 2, and the accumulator stores energy at this time.

When the pressure of the accumulator reaches a certain set value, the pilot-operated external control sequence valve 3 for unloading is opened, so that the pressure oil output by pump 1 flows back to the tank through valve 3, and pump 1 is in the unloading state. When the left or right position of valve 5 is connected to the circuit, pump 1 and accumulator 4 simultaneously supply oil to the hydraulic cylinder 6 to make it move quickly. The set pressure of sequence valve 3 in the loop is higher than the maximum working pressure of the system to ensure that all the flow of pump 1 enters the system during the working stroke. Directional Control Valve

1-유압 펌프; 2-일방향 밸브; 3-시퀀스 밸브; 4-어큐뮬레이터, 5-수동 역전 밸브, 6-유압 실린더1-유압 펌프; 2-체크 밸브 스풀; 3-언로드 릴리프 밸브 본체; 4-누적기; 5-수동 역전 밸브; 6-유압 실린더; 7-플런저; 8-파일럿 밸브 스풀; 9-조정 나사; 10-파일럿 밸브 스프링; 11-메인 밸브 스프링; 12-메인 밸브 코어; 13-센터 구멍; 14-댐핑 홀 그림 1-8 어큐뮬레이터 속도 증가 회로

1-유압 펌프; 2-일방향 밸브; 3-시퀀스 밸브; 4-어큐뮬레이터, 5-수동 역전 밸브, 6-유압 실린더
1-유압 펌프; 2-체크 밸브 스풀; 3-언로드 릴리프 밸브 본체; 4-누적기; 5-수동 역전 밸브; 6-유압 실린더; 7-플런저; 8-파일럿 밸브 스풀; 9-조정 나사; 10-파일럿 밸브 스프링; 11-메인 밸브 스프링; 12-메인 밸브 코어; 13-센터 구멍; 14-댐핑 홀
그림 1-8 누산기 속도 증가 회로

When the oil pressure from the accumulator drops due to the leakage at the pilot valve port, the pilot valve spool is closed, the main valve spool is also closed, and the unloading channel of the hydraulic pump is cut off, so the above sequence occurs The phenomenon of repeated opening and closing of the valve. Through the above analysis, it is concluded that the reason for the problem of the system is that the pilot-operated external control sequence valve is selected as the unloading valve. Directional Control Valve

질문 6: 부틸 고무 코팅기의 유압 시스템의 유압 밸브 문제

In recent years, hollow glass doors and windows have been widely used due to their good heat insulation, sound insulation, anti-frost and sealing properties, and long service life. Butyl rubber is the first seal through aluminum hollow glass doors and windows. It is solid at room temperature and becomes semi-fluid when heated to 110~140℃. The glue can be extruded to realize glue application under the pressure of 12~15MPa. . Butyl coating is an indispensable link in the production process of aluminum hollow glass doors and windows.

The butyl rubber coating machine is special equipment designed and manufactured for this process. It heats, pressurizes, and extrudes the butyl rubber to evenly coat the middle of both sides of the aluminum spacer. Process requirements: The butyl rubber must be evenly coated and not cut off to ensure the performance of the hollow glass doors and windows. Directional Control Valve

1-유압 펌프; 2-오버플로 밸브; 3-3위치 4방향 전자기 역전 밸브, 4-유압 제어 체크 밸브, 5-유압 실린더; 6-부틸 고무 실린더, 7-어큐뮬레이터, 8-전기 접촉 압력계 그림 1-9 부틸 고무 코팅 기계의 유압 시스템 개략도

1-유압 펌프; 2-오버플로 밸브; 3-3-위치 4-방향 전자기 반전 밸브;
4-유압 제어 체크 밸브; 5-유압 실린더; 6-부틸 고무 실린더;
7-누적기; 8-전기 접촉 압력 게이지
그림 1-9 부틸 고무 코팅 기계의 유압 시스템의 개략도

The composition of the hydraulic system of the butyl rubber coating machine is shown in Figure 1-9. The systems are shown in Figure 1-9 and Figure 1-9 has been applied in practice, and the principles of the two are similar. Now take Figure 1-9 as an example for illustration.

The working principle is: when the 1YA is energized, the left position of the reversing valve is connected to the circuit, and the hydraulic cylinder 5 moves from right to left to extrude the butyl rubber for gluing. When the pressure in the rodless chamber of the hydraulic cylinder rises to the upper limit value of the electric contact pressure gauge 8, the pressure gauge contact sends a signal to de-energize the solenoid 1YA, the reversing valve is in the neutral position, and the hydraulic pump is closed at the same time, and the hydraulic cylinder is replaced by the hydraulic pressure. The one-way valve 4 and the accumulator 7 are controlled to maintain pressure.

When the pressure in the rodless chamber of the hydraulic cylinder drops to the lower limit set by the electric contact pressure gauge, the pressure gauge sends a signal to energize the 1YA, and the hydraulic pump supplies oil to the system again to increase the pressure in the rodless chamber, thereby causing the hydraulic cylinder The pressure remains within the required working range. When the piston of the hydraulic cylinder reaches the predetermined position before the endpoint, the electromagnet 2YA is energized,

the right position of the reversing valve is connected to the circuit, the hydraulic cylinder moves from left to right, and the piston rod retracts. It should be pointed out that the hydraulic cylinder 5 and the butyl rubber cylinder 6 are installed on the same horizontal line and fixed on the bracket respectively. The space between the two is used to fill the solid butyl rubber. Directional Control Valve

부틸고무 코팅기의 유압계통의 문제점 : 작업 중 부틸고무가 고르지 않게 도포되어 흐름이 멈출 때까지 압출된 글루의 흐름이 미세하고 얇아지는 현상, 중공유리 도어의 성능 및 생산된 창문이 요구 사항을 충족하지 못했습니다. 그림 1-9에 나와 있는 시스템은 보호되어야 합니다.

In the pressure performance test, when the hydraulic pump is not turned on and the manual control 1YA is energized, the pump reversal phenomenon also occurs. It is found that the two circuits shown in Figure 1-9 have certain defects: in the pressure holding stage, the energy storage The hydraulic oil in the hydraulic cylinder enters the rodless cavity of the hydraulic cylinder, but because the reversing valve adopts the M-type neutral function, the oil in the rod cavity of the hydraulic cylinder cannot return to the tank, that is, the oil return is closed, causing the piston of the hydraulic cylinder to be unable to move.

The glue cannot be squeezed out so that the glue flow becomes smaller and smaller until the flow stops at the end. For the system shown in Figure 1-9, when the hydraulic pump is not working and the left position of the reversing valve is turned on, the high pressure of the hydraulic oil in the accumulator causes the high-pressure oil to flow back into the hydraulic pump, causing the pump to reverse. Turn.

그림 1-10은 부틸 고무 코팅 기계의 개선된 유압 시스템의 개략도입니다. 역전 밸브의 중심 기능은 K 형을 채택합니다. 압력 유지 단계에서 유압 실린더에는 오일을 반환하는 로드 캐비티가 있으며 유압 실린더의 피스톤은 어큐뮬레이터의 압력에 따라 왼쪽에서 오른쪽으로 계속 이동할 수 있으므로 접착제가 적용될 수 있습니다.

균일하고 끊김 현상이 발생하지 않습니다. 펌프의 출구에는 어큐뮬레이터에서 고압 오일의 역류로 인한 유압 펌프의 역전을 효과적으로 방지하기 위해 일방향 밸브가 추가됩니다.

그림 1-10 부틸 고무 코팅기의 개선된 유압 시스템의 개략도

그림 1-10 부틸 고무 코팅기의 개선된 유압 시스템의 개략도

질문 7: 수직 밀 유압 기계의 유압 시스템의 역전 밸브의 중심 기능

수직 밀의 작동 원리는 그림 1-11에 나와 있습니다. 분쇄기의 왼쪽 및 오른쪽 끝은 각각 왼쪽 및 오른쪽 유압 실린더의 피스톤 로드와 연결됩니다.

연삭 휠의 리프트는 유압 실린더의 피스톤 로드의 팽창 및 수축에 의해 제어됩니다. 연삭 공정에서 유압 시스템은 연삭 휠에 충분한 압력을 제공합니다. 다른 한편으로, 연삭 휠은 회전하고, 연삭 휠은 연마제의 작용에 따라 회전하며, 연삭 휠의 회전 운동은 벨트 드라이브를 통해 모터에 의해 실현됩니다. 원심력으로 인해 연삭 디스크의 재료가 연삭 디스크 주변으로 이동하고 재료가 연삭 기계의 압력과 전단력으로 분쇄됩니다.

그림 1-11 수직 밀의 작동 원리 다이어그램

그림 1-11 수직 밀의 작동 원리 다이어그램

수직 밀 유압 기계의 유압 시스템은 주로 오일 실린더, 축 압기, 유압 파이프 라인, 유압 스테이션 및 기타 구성 요소로 구성된 수직 밀의 중요한 부분입니다. 주요 기능은 연삭 휠에 충분한 압력을 가하여 재료를 분쇄하는 것입니다. 시스템의 작동 원리는 다음과 같습니다.

As shown in Figure 1-12, when the 1DT is energized, the left position of the reversing valve is connected to the circuit, the hydraulic cylinder 4 moves from up to down, and the grinding wheel moves down through the pressure provided by the hydraulic system. When the pressure in the rodless cavity of the hydraulic cylinder 4 rises to the upper limit of the electric contact pressure gauge 5, the pressure gauge contact sends a signal to de-energize the solenoid 1DT, the reversing valve is in the neutral position, and the hydraulic cylinder 4 is powered by the accumulator.

6 The leakage compensation system is working in the pressure-holding state; when the pressure of the rodless cavity of the hydraulic cylinder drops to the lower limit set by the electric contact pressure gauge 5, the contact of the electric contact pressure gauge 5 sends out a signal again, so that the 1DT is energized, and the hydraulic pump. The output hydraulic oil is sent to the system again.

시스템은 유압 실린더의 로드리스 캐비티의 압력이 필요한 작업 범위 내에서 유지되도록 로드리스 캐비티의 압력을 증가시키기 위해 공급됩니다. 2DT에 전원이 공급되면 역전 밸브의 올바른 위치가 회로에 연결되고 유압 실린더에는 오일에 들어가는 로드 캐비티가 있으며 로드 캐비티는 오일을 반환하지 않으며 피스톤이 상승합니다. 1DT와 2DT 모두 전원이 꺼지면 시스템은 그림과 같이 중립 상태가 됩니다.

1-유압 펌프; 2-오버플로 밸브; 3-3-위치 4-방향 전자 유압 방향 밸브; 4-유압 실린더; 5-전기 접점 6-어큐뮬레이터; 7-모터; 8-체크 밸브; 9-유압 제어 체크 밸브그림 1-12 수직 밀 유압 기계의 유압 시스템

1-유압 펌프; 2-오버플로 밸브; 3-3-위치 4-방향 전자-유압 방향 밸브; 4-유압 실린더; 5-전기 접점 6-어큐뮬레이터; 7-모터; 8-체크 밸브; 9-유압 제어 체크 밸브
그림 1-12 수직 밀 유압 기계의 유압 시스템

"7 Best Questions About Directional Control Valve"에 대한 하나의 생각

  1. Simon 말해보세요:

    논문 감사합니다. 그런데 유압 프레스 기계 설명서를 보내 주시겠습니까?

    1. Grace 말해보세요:

      네, 어떤 기계의 매뉴얼과 얼마에 톤을 구입하셨는지 알려주실 수 있나요? 그러면 가장 적합한 매뉴얼을 보내드리겠습니다.

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