KR101892604B1 - Valve assembly - Google Patents

Abstract

A valve body having a receiving groove of an open structure and a plurality of port members communicating with the receiving groove; A valve body rotatably installed in the receiving groove and having an opening for selectively opening and closing the port member; A valve seat closely contacted to seal between the inner wall surface of the receiving groove in which the port member is formed and the valve body; A valve cap installed at an upper portion of the valve body to close the open top of the receiving groove; And a driving means provided on the valve cap for transmitting a driving force for rotating the valve body. When the valve body is viewed from the axial direction, the valve body has a width of the opening from the outside toward the inside axial center Wherein the valve seat has a rectangular shape in which the upper, lower, right and left sides of the opening are orthogonal to each other when the opening is viewed from the front, And is characterized in that the flow rate of the fluid passes in a linear linear form.
As a result, the open / close area of the flow rate of the fluid discharged can be accurately calculated, and the set temperature can be accurately controlled.

Description

Valve assembly {VALVE ASSEMBLY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve assembly, and more particularly, to a valve assembly capable of more precisely controlling the amount of fluid flow from a configuration and structure capable of linearly controlling a flow rate.

In general, a valve assembly is installed in a flow path through which a fluid flows, and controls a flow direction and a flow rate of the fluid. As the type of the valve body constituting the valve assembly, a ball valve, a globe valve, a plug valve, have.

The valve rotor forms an opening through which a fluid passes, and is inserted into the valve body. The valve rotor is configured to open and close the flow path by rotating by a handle or a motor.

In designing a normal valve body, consideration should be given to controllability such that the accurate fluid flow rate can be controlled by the positional manipulation of the valve body in addition to the airtightness to prevent leakage of fluid to be transported, durability to prevent wear, and the like , Which serve as a measure of a criterion for evaluating the performance of the valve assembly constituting the valve body.

Particularly, the valve assembly used in an air conditioning system of an automobile is a valve constituting a fluid inlet / outlet in three or four directions, and is an automatic control valve that mainly controls the flow rate of the fluid in combination with the control motor in combination with the flow path.

Such a conventional valve assembly is installed through a compressor, a heater core, and a flow path to control the flow of cooling water circulating in an engine of an automobile to bypass cooling water into the heater core or bypass the heater core, .

As one example, the valve assembly disclosed in the prior art of the "water valve" of Korean Patent Laid-Open Publication No. 2008-0106641 includes a body having a hollow interior, a cover for sealing the body, And the third communication portion are connected to each other and the cooling water flowing into the cooling water inflow portion by the rotation is discharged through the bypass line and the amount of the cooling water flowing into the inlet pipe of the heater core A ball valve for regulating the amount; And driving means for driving the ball valve.

As an example, a valve assembly according to "System and Method for Supplying Cooling Water for Fuel Cell " in Korean Patent Publication No. 1210640, in order to prevent overheating and low heat in the fuel cell stack, To adjust the flow rate.

However, since the structure inside the body in which the ball valve and the ball valve applied to the related art are installed is formed into a circular sphere and the shape of the opening through which the fluid flows also has a circular shape, Since the opening / closing area increases or decreases nonlinearly, there is a structural disadvantage that the control of the flow rate of the fluid can not be precisely controlled.

In other words, the control for bringing the ball valve into the fully opened state or the fully closed state can be easily achieved, but the non-linear opening / closing area that is partially opened, such as the 1/2 open state or the 1/3 open state, There is a problem that it is difficult to accurately set the flow rate.

In addition, the ball valve that rotates by the motor causes an operation error that exceeds the rotation limit range of the ball valve as the use period of the motor increases. Therefore, when the operation error of the motor exceeds the rotation limit range of the ball valve, the flow rate supplied to the inside can not be smoothly discharged, and the piping or valve assembly is easily broken by the hydraulic pressure.

Korean Patent Publication No. 2008-0104461 (December, 2008) Korean Registered Patent No. 1210640 (2012.03.03)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a valve assembly capable of more precisely controlling the amount of fluid flow from a structure and structure capable of linearly controlling a flow rate .

Another object of the present invention is to provide a valve assembly capable of preventing the valve body from exceeding the rotation limit range.

To achieve the above object, a valve assembly according to the present invention includes: a valve body having an accommodating groove of an opened structure and a plurality of port members communicating with the accommodating groove; A valve body rotatably installed in the receiving groove and having an opening for selectively opening and closing the port member; A valve seat closely contacted to seal between the inner wall surface of the receiving groove in which the port member is formed and the valve body; A valve cap installed at an upper portion of the valve body to close the open top of the receiving groove; And a driving means provided on the valve cap for transmitting a driving force for rotating the valve body. When the valve body is viewed from the axial direction, the valve body has a width of the opening from the outside toward the inside axial center Wherein the valve seat has a rectangular shape in which the upper, lower, right and left sides of the opening are orthogonal to each other when the opening is viewed from the front, And is characterized in that the flow rate of the fluid passes in a linear linear form.

A guide ring having a locking protrusion for restricting a rotation range of the valve body is formed on a bottom surface of the receiving groove of the valve body and a guide groove is formed on a bottom surface of the valve body, .

The guide groove is composed of a circular first groove for receiving the guide ring inwardly and a second groove formed in a radial direction of the first groove and having a semicircular structure for receiving the latching protrusion.

And a valve gasket is provided between the valve body and the valve cap for sealingly connecting the valve body and the valve cap.

A guide ring having an annular structure recessed inwardly at a predetermined depth is formed on the bottom surface of the receiving groove of the valve body and a guide ring is provided on the bottom surface of the valve body and has a locking protrusion which is engaged with the guide groove, And is protruded.

According to the present invention having the above-described constitution, by forming the valve element opening and the valve seat in a quadrilateral linear structure, the opening / closing area of the flow rate of the fluid discharged can be accurately calculated, There is an effect that can be.

In addition, by forming the guide stopper and the guide stopper groove on the receiving surface of the valve body and the bottom surface of the valve body, it is possible to prevent the valve body from being broken due to malfunction of the valve body.

1 is a perspective view illustrating a valve assembly according to an embodiment of the present invention.
2 is an exploded perspective view of FIG.
3 is a cross-sectional view of Fig.
FIG. 4 is a perspective view showing a structure and a structure of the valve body of FIG. 2. FIG.
5 is a perspective view showing the structure and structure of the valve body of Fig.
6 is a schematic view showing a state in which the valve body of the valve assembly according to the embodiment of the present invention is interrupted by the rotation of the guide stopper and the guide stopper groove.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a valve assembly according to the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and that the inventor should properly interpret the concepts of the terms to best describe their invention It should be construed as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. In addition, since the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, It is to be understood that equivalents and modifications are possible.

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

As shown, the valve assembly according to the present invention includes a valve body 100 having a receiving groove 110 of an open structure and a plurality of port members 120 communicating with the receiving groove 110, A valve body 200 rotatably installed in the groove 110 and having an opening 210 for selectively opening and closing the port member 120 and a receiving groove 110 in which the port member 120 is formed, And a valve cap 300 installed at an upper portion of the valve body 100 to close an open upper portion of the receiving groove 110 And a driving unit 500 installed at an upper portion of the valve cap 400 and transmitting driving force for rotating the valve body 200.

First, the valve body 100 is installed in a fluid pipe through which a fluid flows, and is a base structure for controlling a flow direction and a flow rate of the fluid.

The valve body 100 includes a receiving groove 110 having an open top and a plurality of port members 120 communicating with the receiving groove 110.

A guide ring 111 having a locking protrusion 111a for limiting the rotation range of the valve body 200 to be described later is formed on the bottom surface of the receiving groove 110 of the valve body 100.

That is, since the valve body 200 installed in the receiving groove 110 of the valve body 100 is prevented from rotating to a position where the port member 120 is not formed, the valve body 100 discharges the fluid It is a safety device that can fundamentally block the destruction by the pressure of the water pressure which can not be done.

The port member 120 includes a first port 121 formed at the center of the bottom surface of the valve body 100, a second port 122 formed in the circumferential direction of the valve body 100, Three-port 123, and a fourth port 124. The four-

The second port 122, the third port 123, and the fourth port 124 are disposed in a direction perpendicular to the first port 121.

The valve body 200 is rotatably installed in the receiving groove 110 and functions to selectively open and close the port member 120.

The outer circumferential surface of the valve body 200 has a curved surface structure so as to facilitate rotation.

The bottom surface of the valve body 200 has an inlet 201 through which the fluid flows from the first port 121 and a second port 121 through which the fluid flows from the second port 122 to the third port 123, The opening 210 having a predetermined size for discharging the fluid toward the second opening 124 is formed.

When the opening 210 applied to the valve body 200 according to the present invention is viewed from the axial direction of the first port 121, the width of the opening gradually decreases from the outside to the inside axial center, The width of the valve body 200 outside the opening 210 is formed to be relatively larger than the diameter of the circular flow path of the second port 122, the third port 123 and the fourth port 124.
When the opening 210 is viewed from the front, the upper, lower, left, and right sides of the opening are perpendicular to each other.

This is because the rectangular linear structure of the opening 210 of the valve body 200 can precisely calculate the width of the open / close area through which the fluid is discharged, and accordingly, the set temperature can be precisely controlled.

In other words, in the case of the opening applied to the conventional valve body, the opening and closing area of the fluid passing through the opening is also non-linearly discharged as it is in the shape of a circle or a long axis. That is, the nonlinear opening / closing area can accurately calculate and control the flow rate of the fluid from the rectangular opening 210 of the rectangular shape according to the present invention, which is difficult to accurately calculate and control the flow rate of the fluid.

A guide groove 230 is formed on the bottom surface of the valve body 200 to correspond to the guide ring 111.

The guide groove 230 has a circular first groove 231 for receiving the guide ring 111 inwardly and a second groove 231 formed at one side of the first groove 231 in the radial direction to receive the engagement protrusion 111a And a second groove 232 having a semi-circular structure.

That is, the rotation range of the opening 210 of the valve body 200 is limited by the complementary coupling structure of the guide ring 230 of the valve body 200 and the guide ring 111 of the valve body 100 The opening 210 prevents the port member 120 from rotating in another direction in which the port member 120 is not formed.

Although not shown in the drawing, the guide ring 111 of the valve body 100 and the guide ring groove 230 of the valve body 200 may be formed at opposite positions.

That is, a guide groove having an annular shape recessed inwardly at a predetermined depth is formed on the bottom surface of the receiving groove of the valve body, and a guide having a hook projection protruding from the bottom surface of the valve body, The ring is protruded and formed.

A fastener 220 is provided on the valve body 200 to be connected to the driving means 500, which will be described later.

The valve seat 300 is installed on the inner wall surface of the receiving groove 110 in which the port member 120 is formed and seals the port member 120 and the valve body 200 in close contact with each other Role.

The valve seat 300 according to the present invention is formed in a rectangular shape with one side that is in contact with the valve body 200 so that the flow rate of the fluid can be passed through in a linear linear form.

In addition, the square structure of the valve seat 300 can improve the width of the area in which the valve seat 200 is in close contact with the valve body 200 as compared with the circular structure, thereby further enhancing the sealing force.

In addition, the valve seat is preferably provided with an O-ring 310 to maintain airtightness to prevent leakage of fluid.

The valve cap 400 is installed at an upper portion of the valve body 100 and serves to close the opened top of the receiving groove 110.

A coupling member 410 is formed at a lower portion of the valve cap 400. The coupling member 410 is engaged with the upper circumferential shape of the valve seat 300.

Further, a valve gasket 430 may be provided between the valve body 100 and the valve cap 400 for hermetically sealing each other.

Meanwhile, the driving unit 500 is installed on the valve cap 400 and transmits the driving force for rotating the valve body 200 in normal and reverse directions.

The driving unit 500 is connected to the fixing member 220 formed on the valve body 200 and includes an actuator including motors and gears

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Will be apparent to those of ordinary skill in the art.

100: valve body 110: receiving groove
111: guide ring 111a:
200: valve body 210: opening
230: guide groove 300: valve seat
400: valve cap 500: driving means

Claims (5)

A valve body having a receiving groove of an open structure and a plurality of port members communicating with the receiving groove;
A valve body rotatably installed in the receiving groove and having an opening for selectively opening and closing the port member;
A valve seat closely contacted to seal between the inner wall surface of the receiving groove in which the port member is formed and the valve body;
A valve cap installed at an upper portion of the valve body to close the open top of the receiving groove; And
And a driving unit installed on the valve cap for transmitting driving force for rotating the valve body,
Wherein the valve body has a quadrilateral linear structure in which the upper and lower surfaces and the left and right sides of the opening are orthogonal to each other when the opening is viewed from the front,
The valve seat has a structure in which one side of the valve seat that is in contact with the valve body is formed in the form of a linear rectangle, and the flow rate of the fluid passes through the valve in a rectangular linear shape.
A guide ring having a locking protrusion for restricting a rotation range of the valve body is formed on a bottom surface of the receiving groove of the valve body and a guide groove is formed on a bottom surface of the valve body, ,
Wherein the guide groove comprises a circular first groove for receiving the guide ring inwardly and a second groove formed in one side in the radial direction of the first groove and having a semicircular structure for receiving the latching projection,
Wherein the port member comprises a first port formed at the center of the bottom surface of the valve body and a second port, a third port and a fourth port formed in a circumferential direction of the valve body, The second port, the third port, and the fourth port are arranged in an orthogonal direction,
The valve body has a structure in which the width of the opening gradually decreases from the outside toward the center of the inside axis when the opening is viewed from the axial direction of the first port (121), and the width of the outside of the opening of the valve body Port, the third port, and the fourth port.
delete delete The method according to claim 1,
Wherein a valve gasket is provided between the valve body and the valve cap for sealingly engaging each other.
delete

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