KR101267740B1 - Valve - Google Patents

Abstract

PURPOSE: A valve is provided to guarantee the reliability of a fluid flow by controlling the backward movement of a link part and an opening and closing part. CONSTITUTION: A valve comprises an opening and closing part(110), a link part(130), and an isolating part(150). The opening and closing part opens and closes a passage. The link part is linked to the opening and closing part and comprises a bellows. The bellows is exposed to the passage when the passage is closed by the opening and closing part. The isolating part isolates the link part or the opening and closing part from the passage when the passage opens, and comprises a receiving part. The receiving part receives the bellows when the passage is opened by the opening and closing part. The bellows part comprises a stopper to close a passage inlet of the receiving part.

Description

Valve {VALVE}

TECHNICAL FIELD The present invention relates to a valve, and to a valve that prevents contamination by a fluid and provides a reliable flow of fluid.

A valve is a generic term for appliances with movable mechanisms that allow opening and closing of passages for passing, blocking, or controlling fluid. The valve is applied to various applications such as automobile engines, water pipes, inlet pipes and exhaust pipes of chambers.

The valve includes a link that flows inside the tube to control fluid flow inside the tube, a stopper that opens and closes the tube by the link, and the like.

At this time, the fluid is adsorbed to the link flowing in the tube may adversely affect the link, and the flow of the fluid is restricted due to the link and the stopper located inside the tube.

Korean Patent Application Publication No. 0734123 discloses a valve having a shaft having a housing and a valve body and an shaft sliding support portion on which the shaft slides in order to prevent deterioration of sliding performance of the shaft and deterioration of the operating performance of the actuator. Techniques for preventing contamination of the member and providing reliable flow of fluid have not been disclosed.

Korean Registered Patent Publication No. 0734123

The present invention is to provide a valve that is prevented from contamination by the fluid and provides a reliable flow of the fluid.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise forms disclosed. Other objects, which will be apparent to those skilled in the art, It will be possible.

The valve of the present invention may include an opening and closing part for opening and closing a flow path through which a fluid flows, a link part linked to the opening and closing part, and an isolation part for isolating the link part or the opening and closing part from the flow path when the flow path is opened by the opening and closing part.

In addition, the valve of the present invention is provided separately from the opening and closing unit for opening and closing the fluid flow path, the drive unit for driving the opening and closing portion through the link portion connected to the opening and closing portion and the drive unit, and is installed between the opening and closing portion and the drive unit. And an isolation part accommodating the link part when the flow path is opened by the opening and closing part.

In addition, the valve of the present invention includes a pipe portion having an inlet portion into which the fluid is introduced and an output portion from which the fluid introduced into the inlet portion is output, an opening portion to open or close the inlet portion or the output portion, and a link portion linked to the opening portion, When the inlet part or the output part is opened by the opening and closing part, the link part may all be evicted from the inside of the pipe part, and the at least one opening part may be evaporated from the inside of the pipe part.

The valve of the present invention can reliably prevent contamination of the link portion by fluid by including an isolation portion that isolates the link portion and the flow path. In addition, it is possible to prevent the flow of the fluid is restricted by the link portion.

In addition, by forming the isolation portion as a separate member, the flow path can be easily processed, and the isolation portion can be easily applied to an existing valve.

In addition, the opening and closing portion together with the link portion can be removed from the flow path, and the flow of fluid can be reliably ensured by adjusting the degree of eviction.

1 is a cross-sectional view showing a valve of the present invention with a flow path closed.
2 is a cross-sectional view showing the valve of the present invention with the flow path open.
3 is an exploded perspective view showing the valve of the present invention.
4 is a schematic view showing another valve of the present invention.
5 is a schematic view showing a valve in an open state of the flow path.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification.

1 is a cross-sectional view showing the valve of the present invention with the flow path closed, and FIG. 2 is a cross-sectional view showing the valve of the present invention with the flow path open.

The valve shown in the drawing has an opening and closing part 110 for opening and closing a flow path through which a fluid flows, a link part 130 linked to the opening and closing part 110, and the link part from the flow path when the flow path is opened by the opening and closing part 110. 130 or an isolation unit 150 to isolate the opening and closing portion 110.

The opening and closing part 110 may be formed as a plug having a size that blocks the cross-sectional area of the flow path. When the valve includes an inlet 121 through which the fluid is introduced so that the flow path is formed, and a pipe part 120 having an output part 123 through which the fluid introduced into the inlet 121 is output, the opening and closing part 110 is At least one of the inflow part 121 and the output part 123 may be opened and closed.

When the opening and closing unit 110 opens and closes the output unit 123, the fluid introduced into the inlet unit 121 may contact the link unit 130 even when the output unit 123 is closed. Since this phenomenon adversely affects the fluid being adsorbed to the link unit 130, the opening and closing unit 110 may open and close the inlet unit 121.

FIG. 1 discloses a state in which the opening and closing portion 110 blocks the inflow portion 121 through which the fluid flows. In this way, since the fluid is not introduced into the flow path in the closed state of the flow path by the opening and closing part 110, the link part 130 may not be exposed to the fluid. In FIG. 2 and FIG. 5, the inflow part 121 is opened by retreating the inflow part 110 from the inflow part 121 in the flow path, and thus the flow path is opened.

The link unit 130 is linked to the opening and closing unit 110 and receives the power required for the opening and closing operation of the opening and closing unit 110 to a driving source such as a motor, a cylinder, and transmits the opening and closing unit 110. Since the opening and closing unit 110 moves inside the flow path, the link unit 130 connected to the opening and closing unit 110 is also exposed to the inside of the flow path. Since the link portion 130 is exposed to the inside of the flow path, the link unit 130 comes into contact with the fluid and restricts the flow of the fluid.

The link unit 130 is connected to the opening and closing unit 110 and surrounds the power transmission unit 131 and the power transmission unit 131 for transmitting power to the opening and closing unit 110 to isolate the flow path and the power transmission unit 131. It may include bellows 133. In this case, the isolation part 150 may isolate the bellows 133 from the flow path when the flow path is opened by the opening and closing part 110. The bellows 133 has a corrugated pipe to prevent the fluid flowing through the flow path from flowing into a driving source such as a motor or a cylinder that drives the opening and closing unit 110.

5 illustrates a valve in a state in which the flow path is opened, and it can be seen that the bellows 133 is exposed to the flow path in the state in which the opening and closing part 110 is opened.

In a state where the bellows 133 is exposed to the inside of the flow path, the fluid introduced through the inlet 121 comes into contact with the bellows 133. The fluid contacting the bellows 133 may be absorbed by the bellows 133, thereby degrading and damaging the function of the bellows 133. In addition, the first material adsorbed to the bellows 133 may be output through the output unit 123 together with the second material introduced later, resulting in unexpected results in the valve or the valve rear end device. In addition, the fluid flows through the gap between the bellows 133 and the flow path, so that a vortex or the like may occur, thereby restricting the flow of the fluid.

Therefore, it is necessary to prevent the fluid from contacting the link portion 130 such as the bellows 133 as much as possible. In order to minimize this phenomenon, the isolation part 150 may be used as shown in FIGS. 1 and 2 showing the valve of the present invention.

The isolation unit 150 may isolate the link unit 130 from the flow path when the opening 110 opens the flow path. In this case, the link unit 130 may be exposed to the flow path when the flow path is closed by the opening and closing part 110.

The isolation unit 150 may include an accommodation unit 151 in which the link unit 130 is accommodated. The accommodating part 151 has a size and a shape capable of accommodating a link part 130 such as a bellows 133.

The isolation part 150 isolates part or all of the link part 130 from the flow path when the flow path is opened by the opening and closing part 110, and may use the opening part 110 or the link part 130 for reliable isolation. have. For example, even when the link unit 130 is stored in the accommodating unit 151, a part of the link unit 130 may be exposed to the fluid unless the inlet of the accommodating unit 151 is closed.

The opening and closing part 110 or the link part 130 may be used to reliably close the inlet of the accommodation part 151.

For example, as shown in FIG. 4, the link unit 130 may include a stopper 139 that closes the inlet of the storage unit 151 in a direction in which the link unit 130 is accommodated in the storage unit 151. Can be. FIG. 4 is a schematic view showing another valve of the present invention, in which a stopper 139 extending radially from the bellows 133 constituting the link 130 is shown.

The bellows 133 may be exposed to the flow path when the flow path is closed by the opening and closing part 110.

Since the plug portion 139 has a size that can cover the inlet of the housing 151, the inlet of the housing 151 is closed with respect to the flow path in the process of receiving the bellows 133 in the housing 151. do. The bellows 133 may have an outer diameter smaller than the inner diameter of the accommodating part 151 to be accommodated in the accommodating part 151, and the stopper 139 may have an outer diameter more than the inner diameter of the accommodating part 151.

Since the link portion 130 is exposed to the flow path as much as the portion where the plug portion 139 is formed from the connection portion of the opening and closing portion 110, the plug portion 139 is preferably formed as close as possible to the connection portion of the opening portion 110. This may minimize the link unit 130 exposed to the flow path.

As another example, as shown in FIGS. 1 and 2, the opening and closing part 110 may include a closing part closing the inlet of the accommodation part 151 in a direction in which the link part 130 is received.

The link part 130 of FIGS. 1 and 2 includes a bellows 133 exposed to the flow path when the flow path is closed by the opening and closing part 110. The isolation part 150 includes an accommodating part 151 in which the bellows 133 is accommodated when the flow path is opened by the opening and closing part 110, and the opening and closing part 110 closes the accommodating part 151 as a closing part. The packing 115 is included.

3 is an exploded perspective view showing the valve of the present invention.

The pipe part 120 shown in FIG. 3 forms a flow path. In the pipe part 120 of FIG. 3, an inflow part 121 through which the fluid flows is formed on the upper surface of the pipe part 120, and an output part 123 through which the fluid is output is formed on the side surface.

The opening and closing part 110 is installed on the body part 111 for opening and closing the flow path, the first packing 113 installed on the first surface of the body part 111 facing the flow path, and the second surface opposite to the first surface. And a second packing 115 to close the inlet of the isolation 150 from the flow path.

Body portion 111 has a cross-sectional area or more than the portion to be opened and closed in the flow path. In FIG. 3, the opening and closing part 110 opens and closes the inlet part 121. In order to open and close the inflow part 121, the body part 111 may have a cross-sectional area of more than a cross-sectional area of a flow path formed by the inflow part 121.

A first groove 117 in which the first packing 113 is installed may be formed in the first surface, and a second groove 119 in which the second packing 115 is installed may be formed in the second surface.

The isolation part 150 includes a coupling part 157 fastened to the pipe part 120, a third packing 153, a coupling part 157, and a link part installed at the contact portion of the coupling part 157 and the pipe part 120. And a fourth packing 155 installed at the contact portion of the 130 and an accommodating part 151 extending from the coupling part 157 in the opening and closing direction of the link part 130 and accommodating the link part 130. Can be.

Coupling portion 157 may be formed to be combined with the tube portion (120). In FIG. 3, the pipe part 120 is formed in a quadrangular shape, and thus the coupling part 157 is also formed in a quadrangular shape. The coupling part 157 may have a third groove in which the third packing 153 is installed and a fourth groove in which the fourth packing 155 is installed.

The third packing 153 is installed at the contact portion between the coupling portion 157 and the tube portion 120 to prevent the fluid from leaking to the contact surface between the tube portion 120 and the coupling portion 157.

The fourth packing 155 is to prevent the fluid introduced into the gap between the accommodating part 151 and the link part 130 from flowing into the driving part 190. It is installed in the contact part. When the opening operation of the opening and closing part 110 is completed, the housing part 151 is closed from the flow path by the closing part or the stopper part 139. However, in the middle of the opening operation of the opening and closing portion 110 or the closing operation of the opening and closing portion 110, the closing portion or the closure 139 opens the inlet of the receiving portion 151, so that the fluid is linked to the receiving portion 151. It may flow into a gap between the parts 130. Since it is not preferable that the introduced fluid flows out to the driving unit 190, the fluid may be prevented from flowing out of the driving unit 190 through the fourth packing 155.

The accommodating part 151 may be formed in various ways, and a hole for accommodating the link part 130 may be formed therein. In some cases, the opening and closing unit 110 may be accommodated together with the link unit 130. In the latter case, a part of the opening and closing part 110 may be isolated from the flow path.

The link unit 130 may include a ring unit 135 in contact with the isolation unit 150, a power transmission unit 131 moving through the ring unit 135 in the opening and closing direction of the opening and closing unit 110, and the fluid part of the ring unit 135. It may include a bellows 133 connecting the power transmission unit 131 and the ring unit 135 to prevent penetration between the 135 and the power transmission unit 131.

The ring part 135 is connected to the bellows 133 to prevent fluid from flowing into the hole through which the opening and closing part 110 passes through the ring part 135 by the bellows 133. In addition, the link portion 130 is a portion in contact with the coupling portion 157. Thus, the link portion 130 is in direct contact with the fourth packing 155.

The ring part 135 or the isolation part 150 may be fastened to the driving part 190 through the connection part 170. When viewed from the outside, when the ring portion 135 is not exposed to the outside, the connection portion 170 may be formed in a shape that is joined to the isolation portion 150.

One side of the connection portion 170 is located in the tube portion 120, the isolation portion 150, the ring portion 135, the other side is located the drive unit 190. In FIG. 3, a state in which each element is assembled through a screw 191 for fastening the driving unit 190, the connection unit 170, the isolation unit 150, and the tube unit 120 is disclosed. The ring part 135 may be formed to fit in a space formed between the isolation part 150 and the connection part 170.

The above-described valve includes a driving unit 190 and an opening / closing unit 110 and a driving unit 190 for driving the opening and closing unit 110 through the link unit 130 connected to the opening and closing unit 110 to open and close the fluid flow path. ) May be provided separately from the opening and closing part 110 and the driving part 190, and may include an isolation part 150 for receiving the link part 130 when the flow path is opened by the opening and closing part 110.

The valve of the present invention is provided separately from the opening and closing part 110 and the driving part 190, and includes an isolation part 150 provided between the opening and closing part 110 and the driving part 190 to open the flow path by the opening and closing part 110. At least a portion of the city link unit 130 or the opening and closing unit 110 may be closed from the flow path.

Since the isolation unit 150 is provided separately from the opening and closing unit 110 and the driving unit 190, the isolation unit 150 may be inserted into the existing valve to provide the same function to the existing valve.

The valve of the present invention is a pipe portion 120, the inlet portion 121 or the output portion 123 is provided with an inlet 121 through which the fluid is introduced and an output 123 for outputting the fluid introduced into the inlet 121. ) May include an opening and closing unit 110 to open and close the link unit 130 linked to the opening and closing unit 110. At this time, when opening the inlet portion 121 or the output portion 123 by the opening and closing portion 110, all the link portion 130 is evaporated in the interior of the pipe portion 120, the opening portion 110 at least a portion of the pipe portion 120. Can be evicted from inside.

When the opening and closing part 110 and the link part 130 remain in the flow path when the flow path is opened, the flow of the fluid may be restricted by the opening and closing part 110 and the link part 130. In order to prevent this, it is preferable that all of the link parts 130 are evicted from the flow path when the flow path is opened. In addition, this effect can be maximized if at least a part of the opening and closing part 110 is evicted from the inside of the pipe part 120.

When the opening and closing part 110 is withdrawn from the inside of the pipe part 120, all of the opening and closing part 110 may be covered when viewed from the open direction of the output part 123. Accordingly, since both the link unit 130 and the opening and closing unit 110 are evaporated from the flow path, the flow of the fluid is assured as much as possible.

According to the isolation part 150, the closure part, and the stopper part 139, at least the link part 130 is closed from the flow path, so that the fluid does not flow between the isolation part 150 and the link part 130 when the flow path is opened. The fluid introduced between the isolation part 150 and the link part 130 causes a phenomenon such as vortex and restricts the flow of the fluid. However, according to the present invention, a phenomenon such as vortex does not occur, so that the flow of the fluid can be reliably guaranteed.

The maximum withdrawal position of the opening and closing portion 110 with respect to the vortex is preferably the same position as the first surface of the opening and closing portion 110 for closing the flow path and the inner surface of the flow passage.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

110 Opening and closing 111 Body
113 ... First Packing 115 ... Second Packing
117 ... First groove 119 ... Second groove
120 ... pipe 121 ... inlet
123 ... output 131 ... power transmission
133 Bellows 135 Ring
139 ... with lid 151 ... with storage
153 ... 3rd groove 155 ... 4th groove
157 ... Coupling 170 ... Coupling
190.Driver 191 Screw

Claims (12)

An opening and closing unit for opening and closing a flow path through which a fluid flows;
A link unit linked to the opening and closing portion; And
And an isolation part that isolates the link part or the opening and closing part from the flow path when the flow path is opened by the opening and closing part.
The link part includes a bellows exposed to the flow path when the flow path is closed by the opening and closing part.
The isolation part includes a receiving part for receiving the bellows when the flow path is opened by the opening and closing part,
The bellows valve includes a stopper for closing the inlet side of the flow path in the receiving direction of the bellows.
delete The method of claim 1,
And a pipe part including an inlet part through which the fluid is introduced and an output part through which the fluid introduced into the inlet part is output so that the flow path is formed.
The opening and closing portion of the valve opening and closing the inlet.
delete delete delete delete delete delete delete delete delete

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