KR840002121Y1 - Pressure control apparatus of hydraulic machinery - Google Patents

Abstract

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Description

Pressure control device of fluid equipment

1 is a longitudinal cross-sectional view showing an operating state (operation pressure state) of the present invention.

2 is an overall longitudinal cross-sectional view showing a no-load operating state (set pressure state) of the present invention.

* Explanation of symbols on the main parts of the drawings

A: Control operation part 1: Fluid line

2: Host 3, 4: Connecting passage

5: filter network 6: fluid passage

7: check valve 8: surplus fluid passage

9: orifice 10: piston rod

11, 12: parallel valve 13: pressure setting spring

The present invention is designed to control the pressure during operation in a mechanism having a fluid pressure, such as a hydraulic pump, a pneumatic pump, especially a power sprayer, to reduce the pulsation of the working fluid and to set the pressure to a no-load operation when the set pressure is reached, and to reset it. When the pressure is reached relates to a pressure control device of the fluid equipment configured to operate the no-load fluid equipment.

In the conventional fluid equipment, the parallel relief unlocking valve, when the pressure reaches the set pressure, opens and releases the valve supporting the fluid by the set spring, causing the parallelism of the pressure to be broken, thereby making the device load-free. It has to be limited to use because it must be tailored to its characteristics.

The present invention has been devised in view of the above deficiencies. When the fluid flows through an orifice of 0.5 psi or less, the pressure is paralleled, the pulsation of the fluid is reduced to a minimum, and the set pressure is reached. It blocks the pipeline of fluid through the 0.5ψ orifice to operate the device under no load, and it is not limited to a certain fluid device and can be easily applied to any fluid device. same.

In constituting the fluid pressure control device attached to the selected portion of the fluid equipment pipeline, the fluid pressure control operation connecting passages (3) and (4) are respectively spoken to the left and right of the main pipe (2) connected to the fluid pipeline (1), In the central part of the main pipe (2), a control valve is installed inside the filter network (5) and the main body wall, and a chuck valve (7) is formed through the fluid passage (6) of about ψ0.5-1.5. In forming the operating part (A), it is formed by a cylindrical cylinder having a surplus fluid passage (8) at the top, and the connecting passages (3) (4) and the fluid passage (6) of the main pipe (2), respectively, are addressed. Inside the cylinder of the chuck valve (7), the surplus fluid passage (8) and the fluid passage (6) of the chuck valve (7) communicate with each other by a piston rod (10) incorporating an orifice (9) of 0.5 psi or less. Integrate the pair of parallel valves (11) and (12) integrally and the control operation mechanism (100) to install the pressure to the pressure setting spring (13), but the left end of the parallel valve (11) In front of the parallel valve 12 located on the right side of the check valve 14, the partition 15 for separating the fluid passage 6 and the surplus fluid passage 8 of the chuck valve 7 is separated from each other; In the figure, reference numeral 16 denotes a surplus fluid gathering tank connected to the main fluid tank 17, 18 is an operating mechanism part, 19 is a chuck valve opening spring, and 20 is a pump.

Looking at the operation and effect of the present invention configured as described above according to an embodiment of the present invention when the pump 20 is operated in a state in which the pump 20 is installed between the pipeline 1 and the main fluid tank 17. As shown in FIG. 1, the fluid transported by 20) passes through the main pipe 2 of the present invention through the pipe line 1, and the fluid up to the main pipe 2 is generally pulsated and the pressure is constant. It is a well known fact that they have not done so.

On the contrary, in the present application, the fluid brought up to the main pipe (2) is supplied to the actuator unit (18) through the chuck valve (7) through the filter network (5), and a part of the fluid is the main body wall of the chuck valve (7). It passes through the fluid passage (6) of about 0.5-1.5 perforated to the control operation part connected to it.

On the other hand, the fluid flows between the parallel valve 11 and the reverse side 14 supported by the set spring 13 via a connecting passage 3 connected to the control operating part (a) before passing through the chuck valve 7 of the present invention. It is pulled in.

In addition, a portion of the fluid passing through the chuck valve 7 of the present application is also transferred to the right parallel valve 12 of the control operation part via the connection passage 4 connected to the control operation part (a).

That is, as shown in FIG. 1, the hydraulic pressure forcedly introduced by the inflow pump during operation is continuously transmitted to the machine operation unit 18 until the set pressure is reached through the chuck valve 7 and at the same time, each connection passage ( The parallel valves 11 and 12 installed in the operation control unit 3 through 3 and 4 are pushed at the same pressure from both sides to maintain parallelity, and fluid is also transferred through the fluid passage 6 of the chuck valve 7. Primarily, hydraulic pressure is transmitted to the space between the partition wall 15 and the parallel valve 12.

When the control mechanism 100 is retracted when a certain pressure is filled in the operating device unit 18 in the operating state as described above, as shown in FIG. 2, the reverse valve 14 moves backward while the parallel valve 11 is reversed. Simultaneously with the opening, the fluid continues to circulate into the fluid passage (3) → between the check valve (14) and the parallel valve (11) → surplus fluid passage (8) → surplus fluid collection tank (16) → main fluid tank (7). Since the space between the force 15 and the reverse side 14 is formed by a constant hydraulic pressure by the orifice 9, the expansion of pressure is not broken even if the reverse side 14 is opened.

Since the fluid circulates through the connecting passage 3 when the control operation tool 100 is reversed by reaching the set pressure as described above, the chuck valve 7 is closed by the chuck valve opening / closing spring 19 due to the hydraulic difference. The filled fluid is to be supplied to the device operating unit (18).

As described above, the present invention is to repeat the operation and the pressure difference is uniformly distributed by the orifice (9) and the fluid passage (6) is to minimize the pulse of the fluid is to supply the fluid at a constant fluid pressure. .

Claims (1)

In constituting the fluid pressure control device attached to the selected portion of the fluid equipment pipeline, the fluid pressure control operation connecting passages (3) and (4) are respectively spoken to the left and right of the main pipe (2) connected to the fluid pipeline (1), In the central part of the main pipe (2), a control valve is installed inside the filter network (5) and the main body wall, and a chuck valve (7) is formed through the fluid passage (6) of about ψ0.5-1.5. In forming the operating part (A), a cylindrical cylinder having a surplus fluid passage 8 therein is formed to connect the connecting passages 3 and 4 and the fluid passage 6 of the main pipe 2, respectively. Inside the cylinder of the chuck valve (7), the fluid passage (6) of the surplus fluid passage (8) and the chuck valve (7) communicate with each other by a piston rod (10) in which an orifice (9) of 0.5 psi or less is installed. Integrate the pair of parallel valves (11) and (12) integrally, and the control operation unit (100) is installed inside the pressure setting spring (13), but the left side of the parallel valve (11) In front of the parallel valve 12 having the check valve 14 on the right side, the partition 15 separating the fluid passage 6 and the surplus fluid passage 8 of the chuck valve 7 is separated from each other. Characterized in that the pressure control device of the fluid equipment.