KR200418736Y1 - Slide piping gate valve - Google Patents

Abstract

The present invention relates to a sliding valve valve for piping, the body of the gate valve used in the piping system is formed in the center of the connection passage and the guide ball is formed through the inside, and coupled to the upper portion of the inside of the An upper bonnet formed with an upper guide ball larger than a guide ball formed in the body, a lower bonnet coupled with a lower portion of the body and having a lower guide ball larger than a guide ball formed in the body, and the body, an upper bonnet, and A slide gate having up and down operation along the guide hole formed in the lower bonnet and having a through groove equal to the diameter of the connecting passage formed in the body is formed at one side and a connecting ring is formed at the upper portion, and is provided at the upper portion of the upper bonnet. And a case having an accommodation space formed therein, and provided at an upper portion of the case. A shaft for transmitting a high power and a drive unit with the shaft and one coupling, which is interposed in the case lower part including a connecting portion which grooves are formed for engaging with the link formed in the slide gate characterized in that formed.

According to the present invention, the external leakage of the fluid can be fundamentally solved, and the low frictional motion by the circular shaft movement can reduce the capacity of the driver and also maintain the initial function for a long time.

 Body, Upper Bonnet, Lower Bonnet, Slide Gate, Case, Drive Section

Description

Slide piping gate valve

1 is a front view showing a conventional gate valve.

2 and 3 is a partially enlarged cross-sectional view showing a problem of a conventional gate valve.

Figure 4 is a front view showing a gate valve according to the present invention.

Figure 5 is a side view showing a gate valve according to the present invention.

Figure 6 is a cross-sectional view showing a connection structure of the slide gate and the connecting portion according to the present invention.

7 is a front view showing a back plate according to the present invention.

8 is a cross-sectional view taken along line A-A according to the present invention.

9 is a cross-sectional view taken along line B-B according to the present invention.

10 to 12 is a view showing a state of use of the gate valve according to the present invention.

※ Explanation of code for main part of drawing

1: Gate Valve 10: Body

12: connecting passage 14: guide ball

16: V-type Packing 20: Upper Bonnet

22: upper guide ball 30: lower bonnet

32: lower guide ball 40: slide gate

42: through groove 44: connecting ring

50: case 52: storage space

60: drive part 62: shaft

70: connection portion 72: groove

80: coupling member 82: auxiliary plate

84: packing 90: back plate

The present invention relates to a sliding valve valve for plumbing, and more particularly, to improve the low friction structure while maintaining the standard and functional advantages of the valve in the piping system that requires the flow control and opening and closing the user without the function of tightening the presser It is related with the gate valve for sliding piping which improved the lifetime.

In general, the valve is used to control high viscosity, high strength, malignant slurries, powders, and other mixtures functionally without excessive wear of the seat, instead of allowing the internal leakage of the fluid to the extent that it does not interfere with the operation of the equipment.

And the gate valve 100 used in the piping system is not only a function for preventing the external leakage as shown in FIG. 1 but also to perform two functions to maintain the horizontal in the disk and its movement for opening and closing, It was formed in a structure that prevents the external leakage of the fluid by the packing material 300 pressed by the lower stopper 200.

 However, the conventional gate valve 100 formed as described above is difficult to maintain a continuous horizontal movement by the action of the unidirectional pressure when installed in the actual equipment as shown in Figure 2, the upper, lower packing 300, the gap There was a problem that the inner fluid is leaked into the gap.

And in order to solve the above problems as shown in Figure 3 to further press the presser 200 in order to prevent the fluid outflow, at this time, the pressing of the presser 200 is simultaneously pressing the gate side, upper, lower As it increases the stop or movement friction of the motor, the actuator for the first opening and closing operation, the side handwheel, the pneumatic cylinder, the electric motor, etc. were reselected to a high capacity according to the final crimping conditions.

However, as the rectangular gate driven while increasing the frictional force as described above is produced by increasing the high-strength material or thickness to prevent buckling or deformation, the user's point of view requires a continuous clamping operation, there is a problem that the manpower input and production efficiency is reduced. .

In addition, the general valve structure has an inevitable problem of increased friction due to slurry stacking in the dead space.

The present invention was devised to solve the above problems, and improved to a low friction structure while maintaining the standard and functional advantages of the valve in the piping system that requires flow control and opening and closing, so that the user can improve the function or life without clamping An object of the present invention is to provide an improved sliding pipe gate valve.

In order to achieve the above object, the present invention provides a body in which a connecting passage is formed in the center of the gate valve used in a piping system and a guide hole is formed therein, and is coupled to an upper portion of the body and inside the body. An upper bonnet formed with an upper guide ball larger than the guide ball being formed, a lower bonnet coupled with a lower portion of the body and having a lower guide ball larger than a guide ball formed in the body therein; and the body, upper bonnet and lower bonnet A slide gate having up and down operation along a guide ball formed in the upper side and having a through hole equal to the diameter of the connecting passage formed in the body is formed on one side and a connecting ring is formed on the upper side, and is provided on the upper side of the upper bonnet and The furnace is provided with a case in which an accommodating space is formed and provided at an upper portion of the case. By up shaft is a driver, and a connecting portion that is engaging the shaft and the one side and lower portion of the groove for engaging a link formed in the slide gate is formed to be interposed in the casing characterized in that formed.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

When the gate valve 1 of the present invention is described with reference to FIGS. 4 and 5, the body 10 having a connection passage 12 is formed, and the upper bonnet 20 coupled to an upper portion of the body 10. And, the lower bonnet 30 is coupled to the lower portion of the body 10, the body 10, the upper bonnet 20, the slide gate 40 to operate up and down the inside of the lower bonnet 30 and The case 50 provided on the upper portion of the upper bonnet 20, the drive unit 60 provided on the upper portion of the case 50 to transmit power, and the power supplied from the drive unit 60 are slides. It may be roughly classified into a connection part 70 that transmits to the gate 40.

The connecting passage 12 is formed in the center of the body 10, the shape may be formed in a variety of circles, such as a square, but will be described with reference to an example formed in a circular shape.

In addition, the guide ball 14 is formed through the inside of the body 10. At this time, the upper and lower sides of the body 10 are interposed with a V-shaped packing 16 formed of a low friction material such as Teflon fluid. It prevents the external leakage of the connector 70 serves to maintain the horizontal, vertical movement.

In addition, the coupling member 80 is formed on the upper, upper, and lower portions of the body 10, as shown in Figure 6, wherein, the upper, lower portion of the body 10 is a separate coupling member 80 is interposed It is preferable that the space 18 is formed.

The coupling member 80 has an auxiliary plate 82 formed on the basis of the slide gate 40 and a packing 84 is formed above and below the auxiliary plate 82 to prevent leakage of the fluid.

The auxiliary plate 82 is formed in order to prevent the slide gate 40 from moving together when a material such as a fluid moves.

The upper bonnet 20 coupled to the upper portion of the body 10 has an upper guide ball 22 formed larger than the guide ball 14 formed in the body 10 to accommodate the connection part 70. The upper guide ball 22 may be formed in the same manner as necessary.

The lower bonnet 30 coupled to the lower portion of the body 10 is formed with a lower guide ball 32, which is the same as or larger than the guide ball 14 formed in the body 10, and is formed in this example. Will be explained.

The slide gate 40 which operates up and down along the guide balls 14, 22, and 32 formed in the body 10, the upper bonnet 20, and the lower bonnet 30 has a plate shape. Through grooves 42 having the same diameter as the connecting passage 12 formed in the one side is formed.

In addition, the connection ring 44 formed on the upper portion of the slide gate 40 may be formed as a unitary as well as a structure that will be combined here. .

The case 50 provided above the upper bonnet 20 has an accommodation space 52 formed therein, and the length of the accommodation space 52 is such that the power transmitted from the drive unit 60 can be smoothly transmitted. It is preferable to form in consideration of the distance.

The drive unit 60 provided on the upper portion of the case 50 is capable of generating power. Here, an example in which a pneumatic cylinder is formed will be described. A shaft 62 is coupled to the center of the pneumatic cylinder. .

The connecting portion 70 having one side coupled to the shaft 62 of the driving unit 60 has a groove 72 formed so that the other side thereof is coupled to the connecting ring 44 formed at the slide gate 40. In other words, the slide gate 40 and the connection part 70 are not coupled to each other, but the connection ring 44 of the slide gate 40 spans the groove 72 of the connection part 70.

In addition, the shaft 62 and the connection part 70 of the driving part 60 may be integrally formed. In this case, a groove may be formed in the lower part of the shaft 62 formed in the driving part 60.

The back plate 90 formed on the front and rear surfaces of the slide gate 40 to maintain horizontal (vertical) movement of the slide gate 40 will be described with reference to FIG. 7 in FIG. 7. Each of the passages 92 having the same size as the connection passage 12 formed in the body 10 is formed.

And the guide block 94 is formed on one side of the upper and lower side of the back plate 90, the guide block 94 serves to prevent the departure and distortion during the operation of the back plate (90).

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings 10 to 12 as follows. Here, the vertical state will be described as an example, and the present invention is used not only vertically but also horizontally.

First, the upper bonnet 20 and the lower bonnet 30 are coupled to upper and lower portions of the body 10 in which the connection passage 12 and the guide ball 14 are formed, and then the slide gate 40 is interposed therebetween. Intervene. In this case, the front and rear surfaces of the slide gate 40 are interposed after mounting the back plate 90.

Next, the case 50 and the driving unit 60 are sequentially mounted on the upper bonnet 20.

When the pneumatic cylinder is operated when the assembly is completed as described above, the shaft coupled with the pneumatic cylinder transfers power to the connecting portion, and the connecting portion applies a force to the slide gate to advance the slide gate as shown in FIG. 9. Will be.

When the slide gate is advanced and the through groove of the slide gate is integrated with the connection passage of the body, the pneumatic cylinder is stopped and a material such as a fluid moves in the direction of travel.

At this time, the back plate is moved along the slide gate, but the back plate is to be prevented from being separated or shaken by the guide block.

In addition, the slide gate can prevent the fluid from being leaked by the packings formed on the auxiliary plates to be formed even if there is a slight movement by the flow of the fluid.

When the connection passage of the body is blocked in the above state, the slide gate is raised along the guide hole formed in the body by the rise of the connection portion connected to the shaft.

In this case, the slide gate is primarily blocked by the V-shaped packing formed in the body, and then blocked once more by the coupling member interposed in the body so that the fluid can be prevented from leaking.

According to the present invention, the external leakage of the fluid can be fundamentally solved, and the low frictional motion by the circular shaft movement can reduce the capacity of the driver and also maintain the initial function for a long time.

In addition, since the deterioration of the valve such as the support quality line, powder, high viscosity fluid, and curing fluid proceeds rapidly, it can be applied to the equipment where frequent valve replacement was performed, resulting in improved productivity, efficiency, and efficiency. It is possible to respond to various fluids by changing the material.

Claims (6)

In the gate valve (1) used in the piping system, A body 10 having a connection passage 12 formed in the center thereof and having a guide hole 14 therein; An upper bonnet 20 coupled to an upper portion of the body 10 and having an upper guide ball 22 formed therein than a guide ball 14 formed in the body 10; A lower bonnet 30 coupled to a lower portion of the body 10 and having a lower guide ball 32 larger than a guide ball 14 formed in the body 10 therein; The connection path 12 of the body 10, the upper bonnet 20 and the lower bonnet 30 formed along the guide ball (14, 22, 32) to operate up and down and formed in the body 10 A slide gate 40 having a through hole 32 having the same diameter as one side and a connecting ring 44 formed thereon; A case 50 provided at an upper portion of the upper bonnet 20 and having an accommodation space 52 formed therein; A drive unit 60 provided at an upper portion of the case 50 and having a shaft 62 interposed in the case; A connection portion 70 having one side coupled to the shaft 62 and a groove 72 formed at a lower portion thereof for coupling with a connection ring 44 formed at the slide gate 40; Sliding pipe gate valve, characterized in that comprises a. The method of claim 1, Sliding pipe gate valve, characterized in that the V-shaped packing (16) is formed on the top, bottom of the body 10 is made of a low friction material. The method according to claim 1 or 2, Coupling member 80 is formed in the upper and lower portions of the guide ball 14 formed in the body 10, the auxiliary plate 82 is formed on the front and rear, the packing 84 is interposed on the slide gate 40 Sliding pipe gate valve, characterized in that is formed. The method of claim 1, The shaft 62 and the connection portion 70 of the drive unit 60 is a sliding pipe valve, characterized in that formed integrally. The method of claim 1, Before and after the slide gate 20, the slide is characterized in that the back plate 90 is formed with a passage 92 having the same size as the connection passage 12 formed in the body 10 Gate valves for plumbing operation. The method of claim 5, One side of the upper and lower portions of the back plate 90, the guide block 94 for preventing the separation and the separation of the back plate 90 is further formed sliding gate valve for valve operation.

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