KR101618284B1 - Back pressure maintenance by-pass valve - Google Patents

Abstract

The present invention relates to a bypass valve for maintaining back pressure. According to the present invention, the bypass valve for maintaining back pressure comprises: a valve holder formed with a space unit, formed with an inflow hole communicated with the space unit on an inner surface, and coupled to a hydraulic device; a valve formed with the space unit, and positioned on the other surface of the valve holder, for selectively opening the inflow hole through the pressure of a fluid; a valve body positioned on the space unit, and coupled to slidingly move the valve on the outer circumferential surface of one end penetrated through the inflow hole; and an elastic member coupled to the valve body for applying elastic power, in which the valve is adhered to the valve holder. According to an embodiment of the present invention, the bypass valve for maintaining back pressure prevents the rotation of an opening and closing member arranged on the bypass valve, and has effects in performing smooth operation.

Description

Background Art [0002] A back pressure maintenance by-pass valve

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a back pressure maintaining bypass valve. More specifically, the present invention relates to a back pressure maintaining bypass valve that allows fluid to be regulated through opening when a fluid pressure exceeds a predetermined pressure.

The bypass valve is installed in the bypass of the flow path, and is used for opening and closing the bypass and controlling the branch flow rate.

Here, FIG. 1 is a view showing an example of a conventional general bypass valve.

In general, the bypass valve 1 is constituted by a boss 2, a sealing portion 3, an opening and closing member 4, a spring 5 and the like as shown in Fig.

Here, the boss 2 is formed with an inflow hole 6 through which a fluid flows in the center, and the sealing portion 3 protrudes outwardly of the boss 2 and is seated in a seating portion (not shown) of the hydraulic apparatus .

The opening and closing member is formed in a bar shape and moves from the inflow hole to the upper and lower portions according to the pressure of the fluid to open and close the inflow hole.

The opening / closing member is resiliently supported by a spring and is normally positioned to close the inflow hole. When the fluid flows above a predetermined pressure, the opening / closing member is downwardly opened to regulate the discharge amount of the fluid.

However, the conventional bypass valve is made of a synthetic resin material, so that the opening / closing member is not fixed firmly, so that the fluid shutoff function is deteriorated or the durability is poor during use.

Further, the opening and closing member has a structure that can be rotated in the circumferential direction in the course of the upward and downward movement of the opening and closing member, which may result in the opening and closing member being separated from the bypass valve.

Further, there is a problem that the O-ring sandwiched by the opening / closing member for airtightness is not chewed or torn when the opening and closing member operates, and the back pressure of the fluid is not maintained smoothly.

In addition, there is a problem that the discharge amount of the fluid is not properly controlled due to the malfunction of the opening / closing member due to the breakage of the O-ring.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a backpressure maintaining bypass valve capable of smooth operation while preventing rotation of an opening / closing member provided on a bypass valve.

It is another object of the present invention to provide a back pressure maintaining bypass valve which can be firmly fixed by using an opening and closing member made of a metal material, can stably operate, has improved durability, and extends service life.

It is another object of the present invention to provide a back pressure maintaining bypass valve in which the discharge amount of the fluid is completely controlled through smooth operation of the opening and closing member.

It is also an object of the present invention to provide a back pressure maintaining bypass valve that prevents chewing and tearing of an inserted O-ring for airtight sealing and maintains perfect airtightness.

It is another object of the present invention to provide a back pressure maintaining bypass valve capable of reducing the number of times of replacement of members such as O-rings and the like, thereby reducing the cost.

In order to accomplish the above and other objects of the present invention, according to an embodiment of the present invention, there is provided an air conditioner comprising: a valve holder formed on an inner side surface of a hollow portion, A valve body located on the other side of the valve holder for selectively opening the inflow hole through the pressure of the fluid, a valve body coupled to the outer circumferential surface at one end of the inflow hole, And an elastic member coupled to the valve body and applying an elastic force to bring the valve into close contact with the valve holder.

The valve holder includes a central support plate, which is a ring-shaped flat plate formed at the center of the inflow hole, and a connection flange protruding from the periphery of the center support plate.

The valve body may include a fixing piece having a through hole through which the fluid flows and being closely fixed to the valve holder and a fixing member having one end coupled to the fixing piece and the other end penetrating the inflow hole formed to extend through the valve And a stopper inserted into the support shaft and supporting the elastic member.

The fixture includes a contact hole, which is a ring-shaped flat plate received in the space and is in surface contact with the inner surface of the center support plate, a support provided across the center of the contact hole, A through hole formed to communicate with the inflow hole, and a fastening hole formed at a longitudinal center of the support and into which the support shaft is inserted.

The valve includes a boss which is slidably inserted into the support shaft of the valve body and has a seating groove formed on an upper surface thereof and a boss which is formed to protrude vertically around the edge of the boss and which is in close contact with the outer surface of the central support plate of the valve holder And a fixing flange which is formed of a metal plate.

And the boss is further provided with a plurality of radially coupled reinforcing ribs.

The back pressure maintaining bypass valve according to an embodiment of the present invention is effective in preventing the rotation of the opening and closing member provided in the bypass valve, thereby facilitating smooth operation.

Further, by using a metal material opening / closing member, it is possible to firmly fix the metal plate, to enable stable operation, to improve the durability, and to prolong the service life.

Further, the discharge amount of the fluid can be perfectly controlled through smooth operation of the opening and closing member.

In addition, there is an effect that chewing and tearing of the inserted O-ring is prevented for airtightness, and perfect airtightness is maintained.

In addition, the number of replacement of members such as O-rings and the like is reduced, thereby reducing the cost.

1 is a view showing an example of a conventional general bypass valve;
2 is a perspective view of a back pressure maintaining bypass valve according to an embodiment of the present invention;
3 is a front view of a backpressure maintaining bypass valve according to an embodiment of the present invention;
4 is a side view of a back pressure maintenance bypass valve according to an embodiment of the present invention;
5 is a perspective view of a support shaft used in a back pressure maintenance bypass valve according to an embodiment of the present invention;
6 is a front view of the support shaft shown in Fig.
7 is an operational view of a backpressure maintaining bypass valve according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 2 is a perspective view of a back pressure maintaining bypass valve according to an embodiment of the present invention, FIG. 3 is a front view of a back pressure maintaining bypass valve according to an embodiment of the present invention, and FIG. FIG. 5 is a perspective view of a support shaft used in a back pressure maintenance bypass valve according to an embodiment of the present invention, FIG. 6 is a front view of the support shaft shown in FIG. 5, and FIG. 1 is an operational state view of a back pressure maintenance bypass valve according to an embodiment.

2 through 7, the back pressure maintenance bypass valve 10 according to the embodiment of the present invention is a bypass valve which is coupled to a hydraulic device (not shown) to adjust the discharge amount of fluid, A valve 200, a valve body 300, and an elastic member 400.

The valve holder 100 is formed with a space 130 therein and an inlet 112 communicating with the space 130 formed on the inner surface thereof and coupled to a hydraulic device (not shown).

The valve holder 100 is formed in a shape of a diaphragm having a small diameter circular plate having a "C" shape and a large diameter on the outer surface of a large diameter circular cross-sectional shape, and a space 130 is formed therein.

The valve holder 100 includes a central support plate 110 and a connection flange 120.

The center support plate 110 is provided as a ring-shaped flat plate having an inlet hole 112 at the center thereof.

The central support plate 110 corresponds to a small-diameter "l" -shaped section having a "C" -shaped cross section, and a circular inflow hole 112 is formed at the center of the inside.

The inflow hole 112 is formed to communicate with the space portion 130 at the center inside the small diameter "l" -shaped portion of the valve holder 100 having a " Serves as a passage through which the valve holder 100 passes.

The connection flange 120 is formed to protrude along the periphery of the center support plate 110.

The connection flange 120 refers to the remaining portion of the valve holder 100 which is in the shape of a hat and has a central supporting plate 110. The space 130 is formed in the valve holder 100.

The valve 200 is located on the other side of the valve holder 100 in which the space 130 is formed and selectively opens the inflow hole 112 through the pressure of the fluid.

The valve 200 includes a boss 210 and a fixing flange 220.

The boss 210 is slidably inserted into a support shaft 320 of a valve body 300 to be described later, and a seating groove 212 is formed in an upper surface thereof.

The boss 210 is provided in a circular shape having a substantially half-hexagonal cross-section cut on the basis of the center of the two sides facing each other in the hexagonal shape, and is provided on the other side of the valve holder 100 so that the cut surface faces the inflow hole 112 And is slidably engaged with the valve body 300.

The boss 210 is disposed on the other side of the valve holder 100 so that the base is directed toward the inflow hole 112 and is slidably movable on the valve body 100 .

The seating groove 212 is recessed toward the inside of the other side of the boss 210 on which the fixing flange 220 is formed and more specifically the center of the cut surface of the conical boss 210 whose upper portion is cut, Is a groove portion which is seated so as to be smoothly operated.

The fixing flange 220 protrudes vertically around the edge of the boss 210 and is in close contact with the outer surface of the center support plate 110 of the valve holder 100.

The fixing flange 220 is protruded vertically toward the valve holder 100 at a base edge of a circular shape at the boss 210 so that the valve 200 is protruded to abut against the valve holder 100 in face- It says.

The fixing flange 220 is tightly adhered to the valve holder 100 without being biased by the surface contact so that the sealing surface of the valve holder 100 and the boss 210 is not required to have a separate sealing member So that the hermetic member is prevented from being chewed and torn by the movement of the boss 210. Of course, it is also possible for the hermetic member to be combined.

The boss 210 is further provided with a plurality of radially coupled reinforcing ribs 230 to reinforce the strength of the boss 210 in which the seating groove 212 is formed.

The reinforcing rib 230 has a plurality of ribs 230 spaced from each other along the circumferential direction of the boss 210 with respect to the seating groove 212 so that one end and the other end of the reinforcing rib 230 are coupled to the boss 210 and the seating groove 212, And supports the side surface of the boss 210 in which the bosses 212 are formed.

The valve body 300 is positioned so as to be accommodated in the space 130 and is coupled to the outer circumferential surface of the one end of the inlet 200 through which the valve 200 is slidably moved.

The valve body 300 includes a fixing piece 310, a support shaft 320, and a stopper 330.

The fixing piece 310 has a through hole 316 through which fluid is introduced, and is tightly fixed to the valve holder 100.

The fixing piece 310 is composed of a fastener 312, a support 314, a through hole 316, and a fastening hole 318.

The contact holes 312 are formed in a disk-like shape and are provided in a ring-shaped flat plate which is accommodated in the space portion 130 and is in surface contact with the inner surface of the central support plate 110.

The contactor 312 is in surface contact with the central support plate 110 to prevent fluid from flowing between the contactor 312 and the central support plate 110 and to securely fix the fixture 310 to the valve holder 100 To be fixed tightly.

The support 314 is provided so as to cross the center in the radial direction of the fastener 312.

The through holes 316 are formed on both sides of the support 314 so as to communicate with the inflow holes 112.

The through hole 316 is formed such that a pair of semicircular halves separated from each other by a predetermined distance from the inner center of the fixing piece 310 with reference to the diameter of the circle.

The fastening hole 318 is formed in the longitudinal center of the support 314 and a support shaft 320 described later is inserted.

One end of the support shaft 320 is coupled to the fixing member 310 and the other end of the support shaft 320 is passed through the inflow hole 112 to extend through the valve 200.

The support shaft 320 is a kind of bolt having a round head and a head portion. The portion corresponding to the round bar is formed with a threaded portion 322 from an end portion to a predetermined length, and a portion corresponding to the head is formed into a hexagonal head portion 326, . At this time, a rectangular neck portion 324 is formed at the end of the round bar located at the head portion 326 side.

The head portion 326 of the support shaft 320 is positioned at the side of the valve holder 100 and is positioned at the space portion 130 while the neck portion 324 is located at the center of the valve body 300, And the screw portion 322 is inserted into the center of the fixing piece 310 between the inlet hole 112 and the outlet hole 314 so that the valve 200 and the elastic member 400 described later can be inserted into the outer peripheral surface, .

The neck portion 324 is supported on the side surface of the valve body 300 to prevent rotation of the support shaft 320 that may occur in an iterative process in which the valve 200 selectively opens the inlet hole 112.

The support shaft 320 is simultaneously supported on the outer surface of the fixing piece 310 and the inner surface on which the fastening hole 318 is formed so that the pressing force of the elastic member 400 is smoothly applied to the valve 200 when the valve 200 is opened .

That is, the support shaft 320 has the head 326 supported by the fixing piece 310 and the side surface of the neck 324 is simultaneously supported on the inner surface of the fixing piece 310 where the fastening hole 318 is formed, And firmly adhered to the holder 100. This allows the valve 200 to be moved only in the axial direction of the support shaft 320 by preventing the other end extending in the longitudinal direction from moving left and right, thereby preventing the rotation of the valve 200 due to eccentricity. In addition, when the valve 200 is opened, the pressing force of the elastic member 400 is uniformly applied to the valve 200 with a larger pressure so that the valve 200 can be quickly and firmly brought into close contact with the valve holder 100 without being rotated do.

At least two coupling nuts 340 are coupled to the end of the support shaft 320.

The fastening nut 340 has two nuts coupled to the threaded portion 322, and the fastening member 330 is fastened to the support shaft 320 from the support shaft 320 through a rigid fixation, And is prevented from being separated.

The support shaft 320 is coupled with an O-ring 350 on the outer circumferential surface between the valve holder 100 and the valve 200.

The O-ring 350 is disposed between the side surface of the valve holder 100 where the neck portion 324 of the support shaft 320 is positioned and the side surface of the valve 200 where the fixing flange 220 is formed, So that fluid is prevented from leaking from the valve 200 through which the support shaft 320 penetrates.

The stopper 330 is inserted into the support shaft 320 to support the elastic member 400 described later.

The stopper 330 is inserted into the outer peripheral surface of the support shaft 320 formed with the screw portion 322 so that the side surface of the " - "-shaped portion is in contact with the lock nut 340 .

The elastic member 400 is coupled to the valve body 300 to apply an elastic force so that the valve 200 is brought into close contact with the valve holder 100.

The elastic member 400 is provided by a coil spring and is provided on the outer circumferential surface of the valve body 300 so that one end thereof is positioned in the seating groove 212 of the valve 200 and the other end thereof is positioned in the & So that the valve 200 is elastically biased against the valve holder 100.

Hereinafter, the operation of the backpressure maintaining bypass valve constructed as described above will be described with reference to Figs. 2 to 7. Fig.

First, a back pressure maintaining bypass valve 10 is installed in a hydraulic device (not shown) by using the valve holder 100.

When the fluid is supplied to the space 130, the valve 210 is maintained in a state of being in close contact with the valve holder 100 by the elastic member 400.

Next, when the fluid exceeds a certain pressure, that is, when the elastic force of the elastic member 400 is exceeded, the valve 200 is slid rearward along the support shaft 320 to open the inflow hole 112.

At the same time, the fixed flange 220 which was in close contact with the valve holder 100 is separated from the valve holder 100, and the fluid located in the space 130 flows through the through hole 316 and the inflow hole 112 And is discharged through the open gap between the valve holder 100 and the valve 200.

Next, when the fluid is discharged to some extent and the pressure of the fluid becomes lower than the elastic force of the elastic member 400, the elasticity of the elastic member 400 causes the valve 200 to return to its original position.

Then, by repeating the above-described process, the backpressure maintaining bypass valve 10 adjusts the discharge amount of the fluid.

Therefore, the back pressure maintaining bypass valve according to the embodiment of the present invention has an effect of smooth operation while preventing the opening / closing member provided on the bypass valve from rotating.

Further, by using a metal material opening / closing member, it is possible to firmly fix the metal plate, to enable stable operation, to improve the durability, and to prolong the service life.

Further, the discharge amount of the fluid can be perfectly controlled through smooth operation of the opening and closing member.

In addition, there is an effect that chewing and tearing of the inserted O-ring is prevented for airtightness, and perfect airtightness is maintained.

In addition, the number of replacement of members such as O-rings and the like is reduced, thereby reducing the cost.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention It will be understood.

1: conventional bypass valve 2: boss 3: sealing part
4: opening / closing member 5: spring 6: inflow hole
10: Backpressure maintaining bypass valve
100: valve holder 110: central support plate 112: inflow hole
120: connection flange 130: space part 200: valve
210: boss 212: seat 220: fixed flange
230: reinforcing rib 300: valve body 310:
312: a contact piece 314: a support piece 316: a through hole
318: fastening hole 320: support shaft 322:
324: neck portion 326: head portion 330: stopper
340: fastening nut 350: o-ring 400: elastic member

Claims (6)

A valve holder 100 formed with a space 130 and formed with an inlet hole 112 communicating with the space 130, the valve holder 100 being coupled to the hydraulic device;
A valve 200 positioned on the other side of the valve holder 100 where the space 130 is formed and selectively opening the inflow hole 112 through a fluid pressure;
A valve body 300 positioned in the space 130 and coupled to the outer circumferential surface of the one end of the valve body 200 through the inlet hole 112 so as to be slidable; And
And an elastic member (400) coupled to the valve body (300) and applying an elastic force to bring the valve (200) into close contact with the valve holder (100).
The valve holder (100)
A center support plate 110 which is a ring-shaped flat plate formed at the center of the inflow hole 112 and a connection flange 120 protruding from the periphery of the center support plate 110,
The valve body (300)
A fixing member 310 having a through hole 316 into which the fluid flows and being closely fixed to the valve holder 100 and a fixing member 310 having one end coupled to the fixing member 310, And a stopper (330) inserted into the support shaft (320) and supporting the elastic member (400), characterized in that the support shaft (320) Maintaining bypass valve.
delete delete [2] The apparatus according to claim 1, wherein the fixing piece (310)
A contact hole 312 as a ring-shaped flat plate received in the space 130 and in surface contact with the inner surface of the center support plate 110, and a support 314 provided across the center of the contact hole 312 A through hole 316 formed on both sides of the support 314 so as to communicate with the inflow hole 112 and formed in the center of the support 314 in the longitudinal direction of the support shaft 314, 320) is inserted into the through hole (318).
The valve (200) according to claim 1, wherein the valve (200)
A boss 210 which is slidably inserted into the support shaft 320 of the valve body 300 and has a seating groove 212 formed on an upper surface of the boss 210, And a fixing flange (220) which is in close contact with the outer surface of the center support plate (110) of the valve holder (100).
The method of claim 5,
Wherein the boss (210) further comprises a plurality of radially coupled reinforcing ribs (230).

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