KR20040089765A - Non return valve - Google Patents

Abstract

PURPOSE: A backflow preventing valve is provided to open/close automatically without separate power source, thereby reducing size and weight. CONSTITUTION: A valve disk(230) is mounted rotatably with a rotation shaft in inner center of a valve body(210). A valve shutting member is provided to shut the valve disk. A valve opening member is composed of a first fluid pressure applying pipe(271) connected to the pumping direction of fluid. A pressure chamber(281) is connected to the first fluid pressure applying pipe communicating with the valve body. A fluid cylinder(280) is connected to the rotation shaft to open the valve disk.

Description

Non-return Valve {Non return valve}

The present invention relates to a non-return valve that is automatically shut off in an emergency such as a power outage, and more particularly, to a non-return valve capable of miniaturization and light weight, and automatically opening and closing without a separate power source.

In general, in a pipeline that transfers fluid, particularly a pipeline having a large head difference in front and rear of the pipeline due to a height difference in the installation path, such as water and sewage, when the pump is stopped due to a power failure or the like, the conveyed fluid may flow backward to damage the pump In order to prevent this, a non-return valve is installed. 1 and 2, the non-return valve is connected to orthogonal to the rotation member 131 of a predetermined length on the rotation shaft 124 of the valve disc 120, and one side of the rotation member 131 It is equipped with a weight 141 of a predetermined weight, and the other side is made by connecting the hydraulic cylinder 151, the valve disc 120 is rotated by the hydraulic cylinder 151 is usually made to open and close the valve In the event of an emergency such as a power failure, the hydraulic cylinder 151 is configured to be in a no-load state so that the valve is automatically shut off as the valve disc 120 is rotated by the weight 141.

Therefore, the conventional non-return valve has a hydraulic system structure for the rotation of the valve disc 120 and an electric system structure for the control of the hydraulic system, so that the structure is complicated and the damage and malfunction of the hydraulic and electric systems are complicated. There is also a concern that the higher the problem, which does not properly block the backflow fluid during power failure, causing damage to the pump.

On the other hand, as a conventional valve to open and close automatically without the above-mentioned hydraulic and electrical system structure, by installing the rotating shaft in the horizontal direction to be coupled to the eccentric position above the valve disk, the valve disk is automatically opened and closed by its own weight and fluid pressure There was a valve as well. However, such an eccentric disk valve, as the valve disk is installed eccentrically, the radius of rotation is remarkably increased compared to the general disk valve, and the length of the valve body is inevitably increased, which increases the size and weight of the entire valve more than necessary. There was a problem that the manufacturing cost is wasted and the installation process is cumbersome.

The present invention is to solve the problems as described above, an object of the present invention is to provide a non-return valve that can be opened and closed automatically without a separate power source can be reduced in size and weight.

1 is a front view of a conventional non-return valve

2 is a plan view of the non-return valve shown in FIG.

Figure 3 is a front view showing an embodiment configuration of the non-return valve in accordance with the present invention

4 is a side view of the non-return valve shown in FIG.

5 is a plan view of the non-return valve shown in FIG.

6 is a cross-sectional view showing an embodiment of a damper cylinder, which is a main part of the present invention.

<Description of the symbols for the main parts of the drawings>

210: valve body 221: rotating shaft

230: valve disc 260: weight

270: Relief pipe 271, 272: Fluid pressure transmission pipe

280: hydraulic cylinder 290: variable weight

300: damping cylinder

According to the present invention, at least on both sides of the valve body 210 is provided with a pipe connection opening, and the valve disk 230 is rotatably mounted via a rotation shaft 221 located in the inner center of the valve body 210 And, one end of the rotary shaft 221 is installed extending radially to one side, and the weight portion 260 is installed at the front end of the valve by the weight of the weight 260 when the pumping pressure is released in the conduit In the non-return valve comprising a valve blocking means for closing the disc 230, and a valve opening means for opening the valve disc 230 closed by the valve blocking means when a pumping pressure is applied to the conduit. The valve opening means includes a first fluid pressure transmission pipe path 271 connected to communicate with a front side of the pumping direction of the fluid from both inner sides of the valve body 210 partitioned by the closed valve disc 230, and the first fluid piezoelectric element. It is opened in moon pipe passage (271) And a pressure chamber 281 installed in communication with the inside of the valve body 210, and a piston 282 installed in the pressure chamber 281 so as to be movable forward and backward, and connected to the rotary shaft 221 to be connected to the valve disc 230. ) Is provided with a non-return valve including a fluid pressure cylinder 280 to rotate to open.

According to another feature of the invention, the second fluid pressure transfer pipe 272 is connected to communicate with the front side of the pumping direction of the fluid from the inside of both sides of the valve body 210 partitioned by the valve disc 230, and The fluid is supplied to the end of the rotary shaft 221 extending radially to the other side in the radial direction so as to be spaced apart from the valve blocking means by a fluid receiving chamber (291) connected to the second fluid pressure transmission line (272) There is provided a non-return valve further comprising a variable weight 290, the weight of which varies depending on the amount of.

According to another feature of the invention, it further comprises a damper cylinder 300 for reducing the rotational speed of the valve disk 230 is installed and connected to the rotary shaft 221, the damper cylinder 300 is A plurality of relief passages 302 and 303 spaced a predetermined distance along the longitudinal direction in the body portion 301 is formed so that the piston 304 receives a strong damping force toward the end of the body portion 301 A non-return valve is provided.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a front view showing an embodiment configuration of the non-return valve in accordance with the present invention, Figures 4 and 5 are a side view and a plan view, respectively.

As shown in the drawing, the non-return valve of the present invention includes a valve body 210 having a conduit connection part connected to a conduit on both sides thereof, and a rotating shaft 221 horizontally installed at an inner center of the valve body 210. It is rotatably installed via the valve disk 230 for opening and closing both side spaces in the valve body 210 according to the rotation, and one end of the rotary shaft 221 is installed extending in one radial direction and the front end is The weight body 260 is installed, the valve blocking means for closing the valve disc 230 by the weight of the weight 260, and the valve body 210 to communicate the space portion on both sides of the valve disc 230 A relief pipe passage 270 and 270 'connected to the relief pipe, a relief valve 275 connected to the relief pipeline passage 270 and 270' and opened when the fluid flows back, and a radial direction to the rotation shaft 221. At locations spaced a predetermined distance apart And the damper cylinder 300 for reducing the rotational speed of the valve disc 230 closed by the blocking weight 260 and the valve disc 230 closed by the blocking weight 260. It is configured to include a valve opening means for rotating.

In the present embodiment, the valve disk 230 is made of an inclined disk that is inclined with respect to the longitudinal direction of the rotating shaft 221. Accordingly, a portion having a maximum length and a minimum portion are formed on both inner circumferential surfaces of the valve body 210 partitioned by the valve disk 230, and the relief pipe passages 270 and 270 'are formed at both sides thereof. The length of the part is connected to the maximum portion can be arranged along the circumferential direction of the valve body (210).

As shown in FIG. 6, the damper cylinder 300 includes a body part 301 filled with a deceleration fluid therein, a piston 304 installed in the body part 301 so as to be able to move forward and backward. , One side is connected to the piston 304 and the other side is a connection rod 306 connected to the second pivot member 202 and a spring mounted on an outer circumference of the connection rod 306 to elastically support the piston 304 ( 305, wherein the first and second relief passages 302 and 303 are spaced apart at predetermined intervals along the longitudinal direction from the end side of the body portion 301 so that the piston 304 of the body portion 301 is formed. It is configured to receive a strong damping force toward the end side.

The valve opening means includes a first fluid pressure transmission pipe 271 connected to one side of the relief pipe path 270, a second fluid pressure transmission pipe path 272 connected to a bottom of the valve body 210, and the rotary shaft ( A pair of fluid pressure cylinders 280 connected to the rotating member 203 having a predetermined length so as to be spaced apart in the radial direction 221 and connected to the inside of the valve body 210 through the first fluid pressure transmission line 271. And a rotation member 204 of a predetermined length connected to the other side of the rotation shaft 221 in a radial direction, and connected to the inside of the valve body 210 through the second fluid pressure transmission pipe 272. It is configured to include a variable weight (290).

Here, the fluid pressure cylinder 280 is installed so as to communicate with the front side of the pumping direction of the fluid of the both sides of the inside of the valve body 210 partitioned by the valve disk 230, the first fluid pressure transfer pipe (271) A pressure chamber 281 in communication with the inside of the valve body 210 and a piston 282 installed in the pressure chamber 281 so as to be able to move forward and backward through the first fluid pressure transmission line 271. And expand and contract by the pumping pressure of the conveying fluid to be delivered.

In addition, the variable weight 290 is also installed to be connected to communicate with the front side of the pumping direction of the fluid from the inner both sides of the valve body 210 partitioned by the valve disk 230, the second fluid pressure transfer pipe ( 272 is provided with a fluid receiving chamber 291 in communication with the inside of the valve body 210 is configured to change the weight in accordance with the amount of fluid supplied.

Looking at the operation of the non-return valve of the present invention configured as described above are as follows.

When the fluid is normally transferred, the valve disc 230 is disposed in the horizontal direction to maintain the open state of the valve.

In this state, when the pumping force is not applied to the conveying fluid in the conduit due to a power failure, the valve disc 230 by the load of the blocking weight 260 applied through the first pivot member 201. Is rotated to automatically shut off the valve. At this time, the rotational speed of the valve disc 230 is controlled by the damper cylinder 300 and the relief valve 275 is opened to impart the pressure of the countercurrent fluid applied to the valve disc 230 and the impact force due to the water hammer action. Is dispersed.

Subsequently, when the supply of electricity is resumed and a pumping force is applied to the transfer fluid in the pipeline, the relief valve 275 is shut off. In this case, the pressure at the front side of the pumping direction of the fluid is increased in the space on both sides of the valve body 210 partitioned by the closed valve disc 230, and the first and second fluid pressure transmission lines 271 are increased by the increased pressure. The transport fluid in the conduit is pumped into the fluid pressure cylinder 280 and the variable weight 290 through 272. Accordingly, the fluid pressure cylinder 280 is stretched to apply a rotational force to the rotating shaft 221, and at the same time the load of the variable weight 290 is also increased so that an additional rotational force is applied to the rotating shaft 221, to the rotational force The closed valve disc 230 can be rotated in the open direction. In this way, while the valve is opened, the fluid pressure inside the fluid pressure cylinder 280 and the variable weight 290 gradually decreases so that the resistance of the transfer fluid is least applied, that is, the valve disc in a horizontal arrangement. 230 is stopped to allow for normal fluid transfer.

Therefore, the non-return valve of the present invention, at the time of power failure, both sides of the valve are blocked by the shut-off weight 260, the reverse flow of the transfer fluid is blocked, the pumping force of the fluid to be transferred when the operation of the fluid transfer pump is resumed Since the valve is configured to be opened by the fluid pressure cylinder 280 and the variable weight 290 operated by, the need for a separate power source and control system structure as in the prior art increases the opening and closing reliability and durability of the valve. It has the advantage of being easy to manufacture and install.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, according to the present invention, the shutoff of the valve at the time of power failure is made by a weight 260 of a fixed weight, and the valve opening at the time of restarting the pump is a fluid pressure cylinder 280 operated by the pumping pressure of the transfer fluid. And by being configured by the variable weight 290, to eliminate the need for a separate power source and control system structure for the opening and closing operation can reduce the manufacturing cost, easy installation, and can increase the opening and closing reliability and durability. It is possible to provide a non-return valve.

Claims (3)

A valve body (210) having a pipe connection connected to at least both sides, a valve disc (230) rotatably mounted via a rotating shaft (221) located at an inner center of the valve body (210), and the rotating shaft One end of the 221 is installed extending in one radial direction and the weight portion 260 is installed at the front end of the valve disk 230 by the weight of the weight 260 when the pumping pressure is released in the conduit In the non-return valve comprising a valve blocking means for closing and a valve opening means for opening the valve disc 230 closed by the valve blocking means when a pumping pressure is applied to the conduit, the valve opening means is closed A first fluid pressure transfer pipe 271 and a first fluid pressure transfer pipe 271 which are connected to communicate with the front side of the pumping direction of the fluid among both inner sides of the valve body 210 partitioned by the valve disc 230; Installed on the valve A pressure chamber 281 in communication with the interior of the sieve 210 and a piston 282 installed in the pressure chamber 281 so as to be moved forward and backward and connected to the rotary shaft 221 to open the valve disc 230. A non-return valve comprising a fluid pressure cylinder 280 to rotate. The method of claim 1, wherein the second fluid pressure transfer pipe 272 is connected to communicate with the front end side of the pumping direction of the fluid from the inside of both sides of the valve body 210 partitioned by the valve disk 230 and the rotating shaft ( 221 extends radially to the other side in the radial direction so as to be spaced apart from the valve blocking means at an end portion of the valve 221, and a fluid receiving chamber 291 connected to the second fluid pressure transmission line 272 is provided at the distal end thereof to supply the fluid The non-return valve further comprises a variable weight weight 290 is changed in accordance with. The damper cylinder of claim 1 or 2, further comprising a damper cylinder (300) connected to the rotary shaft (221) to reduce the rotational speed of the valve disc (230). A plurality of relief passages 302 and 303 spaced a predetermined distance along the longitudinal direction in the body portion 301 is formed so that the piston 304 receives a strong damping force toward the end of the body portion 301 Non-return valve.