KR200235828Y1 - pressure control valve has pipe joint apparatus - Google Patents

Abstract

The present invention relates to an angle valve having a pipe joint structure, the valve body having an inlet formed in the inlet hole on one side and the outlet formed on the other side, and the lifting support pin which is located at the inner end of the inlet of the valve body and axially coupled to the operation button In the valve having an opening and closing means for opening and closing the inlet to the sealing ring which is lifted by the operation button and lowered by the carbon ball spring, coupled to the inlet, in the valve body inlet hole extending in the same direction as the inlet hole inner diameter in the sealing ring direction The outer periphery of the ring ring formed at the lower end of the sealing ring is coupled to the elevating support pin and has a plurality of supporting protrusions having the same inner diameter of the inlet hole. A male and female guide formed in a certain standard on the elevating guide and the inner and outer periphery of the inlet of the valve body Equipped with the female thread and male thread part of the part, female thread part and valve body, female thread part and male thread part of the same standard, and a union and socket which are screwed into the inlet, respectively. It is easy to operate, and it is possible to open and close the inlet hole without the left and right flow of the sealing ring during operation, and it is possible to combine various sizes of pipes with only one union or socket during piping work.

Description

Pressure control valve has pipe joint apparatus

The present invention relates to a pressure control valve having a pipe joint structure, and more specifically, it is sealed in line contact with the inlet hole, and there is no fear of leakage, and easy to operate the operation button, and there is no flow left and right of the sealing ring during operation. In addition to opening and closing the ball, the universal female thread and male thread are integrally formed on the inner and outer edges of the valve inlet, and the pressure control has a pipe joint structure that allows various sizes of pipes to be combined using only one union or socket. It is about a valve.

In general, a pressure control valve is a valve for controlling pressure in a hydraulic or pneumatic circuit, and includes a relief valve for setting a primary pressure, a pressure reducing valve for setting a secondary pressure, and a safety valve.

A relief pressure control valve is a pressure control valve that discharges part or all of the fluid when the pressure in the circuit reaches the set pressure of the valve to maintain the pressure in the circuit below the set value.

Pressure reducing valve is used to reduce the pressure of high pressure steam, air, gas, etc. to maintain a constant pressure. Pressure is applied to the valve by dead weight, spring, diaphragm, etc. When it is lower than the predetermined pressure, the fluid is pushed in by pushing the valve. In the opposite case, the pressure of the fluid overcomes the opening force of the valve to close the valve to prevent the fluid from flowing in. When using, install a stop valve on the high pressure side and a safety valve on the low pressure side.

Safety valves limit the maximum allowable pressure depending on the equipment used. When the maximum pressure is reached, the valve automatically opens and releases oil and air to reduce the pressure. The structure includes a lever safety valve for a small boiler, a weight safety valve mounted on a valve, and a spring safety valve using a compression force of a spring. When using, please open and close manually from time to time to check the operation.

The material of the valve is medium temperature and medium pressure, bronze, high temperature and high pressure single copper, and large pressure and temperature. Iii), alloy steel and the like are used.

These valves are installed in place during piping to control the flow of fluid. Since the pipes used for piping are standardized in several stages, the inlet size of the valve is manufactured and installed in the most common standard. When it is necessary to connect with a pipe having a diameter different from the standard, it has been connected through a separate nipple.

Figure 1a is a cross-sectional view showing a conventional pipe fittings, Figure 1b is a cross-sectional view showing a conventional pipe fittings of different dimensions, Figure 1c is a cross-sectional view showing a conventional pipe fittings of another dimension.

Conventional valve (V ₁ ) rotates the operation button (B ₁ ) coupled to the valve body 32 by 90 ° so that the sealing ring 20a opens the inlet hole 34 of the inlet port (I ₁ ). _{P 1) (P 2) (} p 3) , such as set to the no-pressure state in which the discharge in the atmosphere to the interior of the steam or water or a hydraulic or pneumatic by pipes of the pipe _{(P 1) (P 2)} (p 3) replacement Repair work will be performed.

During normal heating, when the pressure inside the pipe becomes higher than the set pressure, the internal pressure higher than the existing set value is pushed out of the sealing ring 20a blocking the inlet hole 34 to be discharged to the outside through the outlet O ₁ and the pipe The internal pressure is always maintained within the set pressure.

At this time, the sealing ring 20a which opens the inlet hole 34 of the inlet port I ₁ is closed by closing and closing the inlet hole 34 again by the elastic force of the tantalum spring 18a.

In this, a conventional valve (V ₁₎ is inlet hole 34 and the large-area surface contact of the inlet (I _1), inlet hole 34, the inlet (I _1), the lower end surface of the sealing ring (20a) that is an interview with the When the pressure is higher than the set pressure is formed to be in contact with, the high pressure pushes only one side of the inlet hole 34 and the sealing ring 20a of the inlet (I ₁ ) is not tightly contacted to create a gap, The sealing ring 20a is kept slightly inclined by the pressure while the pressure leaks through the gap and is discharged to the outside through the outlet O ₁ .

At this time, after the high pressure is discharged to the outside, the sealing ring 20a which is inclined slightly obliquely does not close firmly due to the repulsive force of the ball shot spring 18a and the one side remains slightly excited. As a result, the pressure or steam in the pipe is continuously released to the outside through this gap, and the pressure in the pipe is continuously lowered, thereby greatly reducing the heating efficiency.

In addition, the length of the tanval spring 18a interposed between the sealing ring 20a and the operation button B ₁ positioned on the inlet hole 34 of the inlet port I ₁ is formed to be long. It was necessary to strengthen the resilience, due to this there is a problem in that the operation is difficult to operate because a large force is required when operating the operation button (B ₁ ).

In addition, such a conventional valve (V ₁ ) is formed in the inlet (I ₁ ) of the male screw shape of the same diameter so as to join the pipe (P ₁ ) of the same diameter as shown in Figure 1a without any force one union (U) ₁ ) pipe joint is possible, but when the pipe diameter of the pipe (P ₂ ) (P ₃ ) to be piped as shown in Fig. 1b or 1c is different corresponding to the standard of the union (U ₂ ) or socket (S ₁ ) In addition, since it must be different, there was no choice but to interpose a separate nipple (N ₁ ) (N ₂ ) between the union (U ₂ ) or the socket (S ₁ ) and the inlet (I ₁ ) of the valve (V ₁ ).

The pipe joint structure of the conventional valve (V ₁ ) and pipe (P ₂ ) (P ₃ ) requires a separate nipple (N ₁ ) (N ₂ ) when the diameter of the pipe changes, installation cost is added and installation In addition to the addition of working time and manpower, there is a problem that the coupling portion is increased and the risk of leakage of the fluid flowing inside the pipe (P ₂ ) (P ₃ ) increases.

The present invention is to solve the conventional problems as described above, it is sealed in line contact with the inlet hole, there is no fear of leakage, easy operation of the operation button, the opening and closing the inlet hole without the left and right flow of the sealing ring during operation In addition, it is possible to provide a pressure regulating valve having a pipe fitting structure that allows the coupling of pipes of various sizes using only one union or socket when piping is formed by integrally forming a female female portion and a male screw portion at the inner and outer edges of the valve inlet. The purpose is.

In order to achieve the above object, the present invention has an inlet formed with an inlet on one side and an outlet formed on the other side, and is coupled to an elevating support pin which is located at the inner end of the inlet of the valve body and is coupled to an operation button. A valve having opening and closing means for opening and closing an inlet to a sealing ring that is lifted by a button and lowered by a ball spring;

An annular protrusion formed to protrude from the inside of the inlet hole of the valve body inlet to extend in the sealing ring direction in the same direction as the inlet hole inner diameter;

The outer circumference is coupled to the lifting support pin at the bottom of the sealing ring and has a plurality of supporting protrusions having the same inner diameter of the inlet hole, and an inlet hole is formed between the supporting protrusions so as to vertically descend on the inner circumference of the inlet hole and the inner circumference of the ring body. The lifting guide;

Male and female threads formed to a certain standard on the outer and inner circumferences of the inlet of the valve body;

It has a feature of having a female threaded portion and a male threaded portion of the same specification as the female threaded portion and the male threaded portion of the valve body, and a union and a socket which are screwed to the inlet, respectively.

Figure 1a is a cross-sectional view showing a state of joint of the conventional valve,

Figure 1b is a cross-sectional view showing a pipe joint of another dimension in the conventional valve,

Figure 1c is a cross-sectional view showing a pipe joint of another dimension in the conventional valve,

2 is an isolated state cross-sectional view of the present invention,

Figure 3a is a cross-sectional view showing a valve closed state of the present invention,

3B is a cross-sectional view showing a valve state when a pressure greater than a set pressure is applied to the valve of the present invention;

Figure 3c is a cross-sectional view showing a valve open state of the present invention,

Figure 4a is an embodiment of the present invention, a cross-sectional view of the main portion showing the state of the union joint,

Figure 4b is an embodiment of the present invention, a sectional view of the main portion showing the state of the socket joint,

Figure 5a is another embodiment of the present invention, sectional view of the excerpts showing the state at the time of union joint,

Figure 5a is another embodiment of the present invention, sectional view of the main portion showing the state of the socket joint.

* Description of the symbols for the main parts of the drawings *

10: lifting guide 12: support protrusion

14: inlet through hole 15, 16: lift support pin

17: shaft 18, 18a: ball spring

20,20a: sealing ring 30: ring-the protrusion

32: valve body 34: inlet hole

B, B ₁ : Control buttons FS ₁ , FS ₂ , FS ₃ : Female thread

I, I ₁ : Inlet MS ₁ , MS ₂ , MS ₃ : Male thread

N ₁ , N ₂ : Nipple O, O ₁ : Outlet

P, P ', P ₁ , P ₂ , P ₃ : Pipe S, S ₁ : Socket

U, U ₁ , U ₂ , U ₃ : Union V, V ₁ : Valve

Hereinafter, the present invention in more detail by the accompanying drawings as follows.

2 is a cross-sectional view of a separate state of the present invention, Figure 3a is a cross-sectional view showing a valve closed state of the present invention, Figure 3b is a cross-sectional view showing a valve state when a pressure greater than the set pressure is applied to the valve of the present invention, Figure 3c Is a cross-sectional view showing a valve opening state of the present invention, the valve (V) of the present invention is made of a metal material, the annular projection 30 of the valve body 32 is the inlet hole (34) inside the inlet (I ₁ ) In the sealing ring 20 is formed to protrude in the same way as the inlet hole 34, the inner diameter.

Lifting guide 10 is coupled to the lower end of the lifting support piece 16 is fixed to the sealing ring 20 is made of a metal material to prevent the flow of the sealing ring 20 during lifting, sealing ring of rubber material (20) The screw is coupled to the lifting support pin (16) at the bottom, forming a plurality of support protrusions (12) equal to the inner diameter of the inlet hole (34) on the outer circumference and the inlet through hole (14) is formed between the support protrusions (12) On the inner circumference of the inlet hole 34 of the valve body 32 and the inner circumference of the annulus projection 30, the valve V of the operation button B is opened or the pressure inside the inlet I ₁ is greater than the set pressure. It is lifted up and down by the elastic force of the shot spring 18 again.

On the outer periphery and the inner periphery of each of the inlet (I) and the outlet (O) of the valve body (32), male threads (MS ₁ ) (MS ₃ ) and female threads (FS ₁ ) (FS ₃ ) are formed to a certain standard, respectively. do.

Figure 4a is an embodiment of the present invention, a sectional view of the main portion showing the state of the union seam, Figure 4b is an embodiment of the present invention, sectional view of the main portion showing the state of the socket seam, Figure 5a In another embodiment of the invention, a sectional view of the main portion showing the state of the union joint, Figure 5a is another embodiment of the invention, a sectional view of the main portion showing the state of the socket joint.

The outer and inner circumferences of the inlet port I of the valve body 32 are integrally formed with the male thread part MS ₁ and the female thread part FS ₁ having a predetermined standard, respectively, and the female thread part FS ₂ having the same standard. The pipe (P) (P ') is firmly joined to the valve (V) by the screw (U) and the socket (S) having a male screw portion (MS ₂ ), respectively.

Referring to the use state of the present invention as follows.

First, when replacing the pipe (P) (P '), when the operator rotates the operation button B 90 degrees counterclockwise around the shaft 17, the operation button (B) of the bullet spring (18) Lift the lift support pin 15, 16 coupled to the shaft 17 to lift the elastic force, the lifting guide 10 screwed to the lower end of the lift support pin 16 is on the inlet hole 34 It rises vertically to prevent the sealing ring 20 from twisting.

At this time, the lifting support pins (15) and (16) are raised in the valve body (32) while the rubber ring sealing ring (20) fastened to the lifting support pins (15, 16) by the lifting guide (10). The inlet hole 34 is opened by rising in the vertical direction from the tip of the annular protrusion 30 of the inner end of the inlet hole 34 by receiving the guide of the lifting guide 10 at the bottom of the sealing ring 20.

Accordingly, the fluid or steam introduced into the valve (V) through the inlet (I) via the pipe (P) (P ') between the support projections 12 of the lifting guide (10) in the inlet hole (34). It is discharged to the outlet (O) through the formed inlet hole (14).

After a certain period of time in this state, if the pressure, steam and fluid inside the pipe (P) (P ') is released, the operator performs the pipe (P) (P') replacement work.

The operator does not need additional work because the inlet I or the outlet O of the valve V has a male thread portion MS ₁ , MS ₃ , or a female thread portion FS ₁ , FS ₃ . The pipe P having the same female thread portion FS ₂ or the male thread portion MS ₂ can be piped to the valve V. FIG.

In addition, when the operator wants to connect pipes having different pipe diameters to the inlet port I of the valve V, the union U and the socket having a female thread part FS ₁ and a male thread part MS ₁ of the corresponding specification are provided. (S) is selectively coupled to the tip of the pipe (P) (P ') and selectively screwed to the male (MS ₁ ) and female (FS ₁ ) of the inlet (I) to the valve (V) and the pipe (P) (P ') can be easily joined.

If a pipe having a non-standard pipe diameter is to be connected to the valve V, a separate nipple (not shown) may be connected to the male screw portion MS ₁ or the female screw portion FS ₁ of the inlet port I. Of course you can.

When the operator who has finished the pipe (P) (P ') replacement operation rotates the operation button (B) of the valve (V) by 90 ° clockwise to its original position, the lifting support pins (15) and (16) are vertically lowered. The sealing ring 20 at the bottom of the elevating support pin 16 closes the inlet hole 34 by lowering it in the vertical direction.

The lower end of the sealing ring 20 is in close contact with the annular projection 30 of the inner end of the inlet hole 34 to close the flow of the fluid firmly.

In addition, the elevating guide 10 screwed to the lower end of the elevating support pin 15, 16 is vertically lowered downward in the inlet hole 34, and thus, the sealing ring 20 to either side It is firmly in close contact with the ring ante projection 30 in the vertical direction without bias.

The plurality of support protrusions 12 of the elevating guide 10 prevents the elevating guide 10 from being biased to one side on the inlet hole 34, so that the sealing ring 20 is not biased to one side of the elevating ring.

When heating takes a high pressure above the set value of the valve (V) inside the pipe (P) (P '), the high pressure inside the pipe (P) (P') is sealed through the inlet hole (14) of the lifting guide (10) ( 20 is pushed and the ballistic spring (18) for supporting the sealing ring 20 from the top by this pressure is contracted and the sealing ring 20 is the lifting guide (10) support projections 12 at the tip of the annular projections (30) With the guidance of) rises in the vertical direction to discharge the high pressure and steam to the outside through the outlet (O).

The pressure of the valve (V) inlet (I) which discharged a high pressure higher than the set pressure is maintained at an appropriate pressure, and thus the pressure pushing the sealing ring 20 is removed, so that the sealing ring 20 is formed at the upper side of the ballistic spring 18. Receiving the guide of the elevating guide (10) support projections 12 by the elastic force is vertically lowered without bias to one side close to the annular projections (30) to close the inlet hole 34 of the inlet (I).

In this way, the present invention is sealed in line contact with the inlet hole, there is no fear of leakage, easy operation of the operation button, can open and close the inlet hole without the left and right flow of the sealing ring during operation, as well as inside and outside the valve inlet Universal female thread and male thread are integrally formed in the lead, so that various sizes of pipes can be combined using only one union or socket.

Claims (1)

And the inlet hole 34, an outlet at the other side having an inlet (I ₁₎ is formed (O ₁₎ is formed in the valve body 32 at one side inside the inlet (I ₁₎ at an inner front end and operation of the valve body 32 button is coupled to the shaft coupling the elevating supporting pins 15, 16 in the (B _1), operating buttons (B ₁₎ an inlet to the sealing ring 20 to be elevated and lowered by the elastic spring 18 by (I ₁ A valve having an opening and closing means for opening and closing a); An annular projection 30 formed to protrude in the same direction as the inlet hole 34 and the inner diameter of the valve body 32 in the inlet hole of the inlet hole I; The outer periphery is coupled to the lifting support pins 15 and 16 at the bottom of the sealing ring 20, and the outer periphery has a plurality of support protrusions 12 having the same inner diameter as the inlet hole 34, and the inflow hole 14 between the support protrusions 12. A) lifting guide (10) formed vertically on the inlet hole (34) of the valve body (32) and the inner periphery of the annular projection (30); Male thread portion (MS ₁ ) and female thread portion (FS ₁ ) formed to a certain standard on the outer periphery and the inner periphery of the inlet (I) of the valve body 32 and Union (U) having a female thread (FS ₂ ) and a male thread (MS ₂ ) of the same specification as the female thread portion (FS ₁ ) and the male thread portion (MS ₁ ) of the valve body 32 and screwed to the inlet (I), respectively. ) And a pressure control valve having a pipe fitting structure, characterized in that it comprises a socket (S).