KR20100066684A - High pressure relief valve - Google Patents

Abstract

PURPOSE: A high-pressure relief valve is provided to improve the free degree of installation such as a compressor or a compression container by inducing the flow of high pressure fluid in various directions. CONSTITUTION: A high-pressure relief valve comprises a valve body(11) and a drain guide cap(15). The valve body has an exhaust path and multiple slot grooves(11f) on the outer surface. The drain guide cap has multiple coupling edges(15f) coupled with the slot groove of the valve body. The drain guide cap has an opening(15a) for inducing the flow of the high pressure fluid passing through the exhaust path of the valve body in the various directions.

Description

HIGH PRESSURE RELIEF VALVE

The present invention relates to a high pressure relief valve, and more particularly, to a high pressure relief valve that can quickly and safely discharge the high pressure fluid when abnormal pressure is generated inside the compressor.

As is well known, an apparatus for generating or passing a high pressure fluid through or storing a high pressure fluid therein, such as a pressure vessel or a compressor, includes a high pressure relief valve.

Such a high pressure relief valve may prevent a breakdown of a pressure vessel or a compressor by quickly discharging a part of the high pressure fluid to the outside when an abnormal high pressure phenomenon occurs in which the pressure of the fluid exceeds the allowable pressure.

In particular, the compressor applied to the air conditioning system in the vehicle discharges the abnormal high pressure fluid at a very high speed through the high pressure relief valve at a pressure of about 36 kg / cm ² or more, and the abnormal high pressure fluid is discharged to other parts around the compressor. If sprayed, it may damage other parts, which risks impairing the function of other parts.

The present invention has been made in order to solve the above problems, in the discharge of some high pressure fluid in order to remove the abnormal high pressure in the event of abnormal high pressure, the high pressure fluid to other parts arranged adjacent to the periphery of the high pressure relief valve The purpose is not to discharge the gas directly.

High pressure relief valve according to the present invention for achieving the above object,

A valve body having a discharge passage and having a plurality of slot grooves on an outer side thereof; And

It includes; a discharge induction cap having a plurality of coupling edges slidably coupled to the slot groove of the valve body, the discharge induction cap for guiding the flow of high pressure fluid through the discharge passage of the valve body in various directions.

The valve body has a plurality of pairs of parallel planes facing each other in parallel to the outer surface, each of the parallel planes is formed with a slot groove, the discharge induction cap is a pair of coupling edges protruding parallel to each other Have

The discharge induction cap is formed so that the discharge opening is opened in one side direction, the remaining side and the upper surface except the discharge opening is made of a closed structure.

Combined borders protrude to face each other at the bottom left and right sides of the discharge opening.

The upper surface of the discharge induction cap is characterized in that consisting of any one of a flat structure or curved structure.

The valve body has a discharge passage formed in the axial direction therein, a communication hole in communication with the high-pressure region is formed at one end of the discharge passage, the other end of the discharge passage has a discharge hole in communication with the external space, In the discharge passage is characterized in that the valve is installed to be movable.

According to the present invention as described above, there is an advantage that can improve the degree of freedom of mounting of the compressor or compression vessel by inducing the flow of the high pressure fluid passing through the discharge passage of the valve body in various directions.

In particular, the present invention can vary the discharge direction of the high-pressure fluid in a variety of ways, thereby having a very easy setting of the desired discharge direction according to the application conditions of the high pressure relief valve.

As a result, the present invention can prevent other components disposed adjacent to the periphery of the high pressure relief valve from being damaged or impaired by the discharge of the abnormal high pressure.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 6 illustrate a high pressure relief valve according to an embodiment of the present invention.

As shown in Figure 1, the high pressure relief valve 10 of the present invention is mounted on one side of the pressure vessel or the compressor (C), when the abnormal high pressure phenomenon occurs when the pressure in the compressor (C) exceeds the set allowable pressure And to prevent damage to the pressure vessel or the compressor C by relieving a part of the fluid of the abnormally high pressure to the outside.

The high pressure relief valve 10 of the present invention discharges the high pressure fluid discharged through the valve body 11 and the valve body 11 and guides them in various directions as shown in FIGS. 2 and 4. Induction cap 15 is included.

The valve body 11 has a threaded portion 11a formed at its lower end, and the threaded portion 11a is hermetically screwed into the housing of the compressor C as illustrated in FIGS. 5 and 6, and the threaded portion 11a. The sealing ring 19 is interposed between the housing and the housing of the compressor C, so that the housing of the compressor C or the like is sealed.

The valve body 11 has an outlet passage 12 formed therein in the axial direction, and at one end of the outlet passage 12 is a communication hole 12a communicating with a housing inner space of the compressor C, that is, a high pressure region. Is formed, and the other end of the discharge passage 12 is formed with a discharge hole (12b) in communication with the outer space of the compressor (C).

The valve body 13 is installed in the discharge passage 12 to be movable up and down, the valve body 13 has an outer diameter smaller than the inner diameter of the discharge passage 12, the valve body 13 is a communication hole 12a It is configured to open and close). The valve body 13 is elastically supported by the spring 13a, and the spring 13a is provided to deflect the valve body 13 to the communication hole 12a side by the spring force. This spring 13a has an elastic modulus corresponding to the allowable pressure that the inner space of the compressor C can withstand.

As a result, the valve element 13 is biased by the spring 13a when the abnormal high pressure phenomenon does not occur in the internal space of the compressor C, thereby closing the communication hole 12a. On the contrary, when the internal space pressure of the compressor C exceeds the allowable pressure, that is, when an abnormal high pressure phenomenon occurs, the abnormal high pressure overcomes the spring force of the spring 13a so that the valve body 13 moves upward. By opening the communication hole 12a, a part of the fluid of high pressure is discharged through the communication hole 12a and the discharge hole 12b.

The discharge hole 12b may be formed by a discharge pipe 14 screwed to the other end of the discharge passage 12, and the discharge pipe 14 is a discharge hole 12b inside the discharge pipe 14.

The valve body 11 of the present invention may have a hexahedral structure having a plurality of pairs of parallel planes 11c, 11d, and 11e facing each other in parallel, such as four, six, eight, and the like. The slot groove 11f is formed in one side of each plane 11c, 11d, 11e.

The discharge induction cap 15 has a discharge opening 15a for discharging the fluid of high pressure in one direction, and the discharge opening 15a discharges the fluid of the abnormal high pressure. The upper surface 15b, the left surface 15c, the right surface 15d, and the rear surface 15e are disposed on the upper, left / right, and rear sides of the discharge opening 15a, and the lower portion facing the upper surface 15b is opened. . And, the discharge induction cap 15 has a discharge induction space (15g) in communication with the discharge hole (12b) of the valve body 11 therein, the discharge induction space (15g) is the upper surface (15b), left side 15c, the right surface 15d, the rear surface 15e, the upper surface of the valve body 11, and the like, and the discharge induction space 15g communicates with the discharge hole 12b of the valve body 11.

The left side 15c and the right side 15d are arranged in parallel to face each other, and the joining edges 15f protrude from each other at the lower ends of the left side 15c and the right side 15d. Each coupling edge 15f may be slidably coupled to the slot groove 11f of the valve body 11.

By the configuration of the discharge induction cap 15, the abnormally high pressure fluid discharged through the discharge hole (12b) of the valve body 11 is the flow through the discharge induction space (15g) of the discharge induction cap (15). After the conversion, it is discharged through the discharge opening 15a (arrow R direction in Fig. 5). That is, the high pressure fluid flowing through the discharge passage 12 of the valve body 11 can be discharged by inducing in various directions.

On the other hand, the discharge induction cap 15 may be installed at various angles to the outside of the valve body 11, as illustrated in Figure 3, whereby there is an advantage that can be variously changed the discharge direction of the fluid.

Referring to FIG. 3, coupling edges 15f of the discharge induction cap 15 are selectively provided in the slot grooves 11f of the pair of parallel planes 11c, 11d, 11e parallel to each other of the valve body 11. As slidingly coupled, it may vary in various discharge directions, such as arrows R1, R2, R3 of FIG. For example, when the coupling edge 15f is coupled to the pair of first parallel planes 11c parallel to each other of the valve body 11, the discharge direction becomes the arrow R1 direction, and the coupling edge 15f is the valve body 11. Is coupled to a pair of second parallel planes 11d parallel to each other, the discharge direction becomes an arrow R2 direction, and a pair of third parallel planes 11e in which the joining border 15f is parallel to each other of the valve body 11 is provided. ), The discharge direction becomes arrow R3.

In addition, the discharge induction cap 15 of the present invention may have a curved structure as shown in FIG. 7 without the upper surface 15b thereof being flat. The curved upper surface 15b can smoothly discharge the fluid due to the abnormal high pressure to the outside.

On the other hand, the discharge induction cap 15 of the present invention may be composed of a metal material having a high internal pressure, such as steel (steel) that can sufficiently withstand the pressure of the high pressure fluid, and also the discharge induction cap 15 is a spring material As it is made of a material having elasticity, such as the coupling edge 15f may be more tightly coupled on the slot groove (11f) of the valve body (11).

1 illustrates a state in which the high pressure relief valve 10 of the present invention is mounted on the compressor C, the high pressure relief valve 10 of the present invention is a fluid of high pressure such as a pressure vessel as well as the compressor C. It will be applicable to a variety of containers or devices for storing or passing the.

1 is a view illustrating a state in which a high pressure relief valve according to an embodiment of the present invention is mounted on a compressor.

Figure 2 is an exploded perspective view showing a high pressure relief valve according to an embodiment of the present invention.

3 is a plan view showing a state in which the discharge induction cap of the present invention is coupled at various angles on the valve body.

Figure 4 is a combined perspective view showing a high pressure relief valve according to an embodiment of the present invention.

FIG. 5 is a cross-sectional view taken along the line A-A of FIG. 4.

6 is a cross-sectional view taken along line B-B of FIG. 4.

7 is a cross-sectional view showing a high pressure relief valve according to another embodiment of the present invention.

Brief description of the main parts of the drawing

10: high pressure relief valve

11: valve body 12: discharge passage

13: valve body 15: discharge induction cap

Claims (5)

A valve body having a discharge passage and having a plurality of slot grooves on an outer side thereof; And A discharge induction cap having a plurality of coupling edges slidably coupled to the slot grooves of the valve body and having a discharge opening for guiding the flow of the high pressure fluid passing through the discharge passage of the valve body in various directions; High pressure relief valve. The method of claim 1, The valve body has a plurality of pairs of parallel planes facing each other in parallel to the outer surface, each of the parallel planes is formed with a slot groove, the discharge induction cap is a pair of coupling edges protruding parallel to each other High pressure relief valve characterized in that it has. The method of claim 1, The discharge induction cap is formed to open the discharge opening in one side direction, the high pressure relief valve, characterized in that the remaining side and the top surface except the discharge opening is made of a structure. The method of claim 3, The upper surface of the discharge induction cap is a high pressure relief valve, characterized in that consisting of any one of a flat structure or a curved structure. The method of claim 1,  The valve body has a discharge passage formed in the axial direction, one end of the discharge passage is formed with a communication hole in communication with the high-pressure region, the other end of the discharge passage has a discharge hole in communication with the external space, within the discharge passage The high pressure relief valve is characterized in that the movable valve body is installed.

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