KR101869900B1 - Swing gate valve with cleaning fluid cycling system - Google Patents

Abstract

The swing gate valve according to the present invention includes a valve upper wall 111, a valve lower wall 112 and a valve groove 114, and a door is openably and closably connected to the valve lower wall 112 A valve body (110) in which at least one foreign matter outlet (117) is formed; And a foreign matter removing unit 140 coupled to the valve body 110 for removing foreign substances in the valve groove 114 by supplying a cleaning fluid to the valve groove area, A cleaning fluid supply unit 150 coupled to one side of the valve body 110 and supplying the cleaning fluid from the outside of the valve body 110 into the valve body 110; A cleaning fluid path (not shown) provided in the valve body 110 and coated with a hydrophobic coating film to form a flow path of the cleaning fluid supplied from the cleaning fluid supply unit 150, (160); And a nozzle or hole formed in the area of the valve groove (114) and communicating with the cleaning fluid path (160) so that a cleaning fluid circulating along the cleaning fluid path (160) The cleaning fluid supply unit 150 includes a plurality of cleaning fluid supply nozzles coupled to the valve side wall 113 of the valve body 110, The body 110 is mounted with a vibration generator (not shown) at the lower end of the portion where the cleaning fluid path 160 is formed to continuously apply vibration to the cleaning fluid path 160 to generate a viscous fluid, Prevents the cleaning fluid pass 160 from sticking to the inner wall of the cleaning fluid path 160 and forms a continuous closed loop line formed along the circumference of the valve body 110, So that the cleaning fluid is swirled in the cleaning fluid path 160 to clean the inner wall of the cleaning fluid path 160. The operation of the foreign matter removing unit 140 and the vibration generator Wherein the vibration generator senses through the fluid velocity sensing sensor mounted to sense the fluid conveying velocity in the cleaning fluid path 160 so that the transfer velocity of the cleaning fluid is < RTI ID = 0.0 > And is automatically operated when the flow rate due to the residue is reduced in the cleaning fluid path 160 when it is slow.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a swing gate valve having a cleaning fluid circulating part,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a swing gate valve and, more particularly, to a swing gate valve capable of effectively preventing a foreign matter contained in a cleaning fluid from accumulating in a valve groove area, Gate valve.

In the piping of the plant and various equipment industries, a swing gate valve (flow gate valve) is provided.

FIG. 1 is a structural view of a swing gate valve according to the prior art, FIG. 2 is a sectional view taken along a line E-E of FIG. 1, and FIG. 3 is an enlarged view of a region B of FIG.

Referring to these figures, a conventional swing gate valve includes a valve body 10 having a valve top wall 11, a valve bottom wall 12, and a valve side wall 13.

The valve upper wall 11 and the valve lower wall 12 are formed with a flow hole 15 corresponding to the piping flow path.

Valve grooves 14 are formed in the valve body 10 by the structure of the valve upper wall 11, the valve lower wall 12, and the valve side wall 13.

A valve plate (30) is rotatably coupled to the valve body (10) by a valve hinge (20).

In this structure, the valve plate 30 opens and closes the flow path 15 of the valve upper wall 11 and the valve lower wall 12 while being rotated right and left about the valve hinge 20.

However, the conventional swing gate valve having such a structure and operation has the following problems.

Between the valve plate 30 and the valve groove 14 there is a gap Gab for smooth operation of the valve plate 30 so that foreign substances of the fluid enter the region of the valve groove 14 during use of the swing gate valve The clearance between the valve plate 30 and the valve groove 14 is eliminated, thereby causing a problem of deterioration of the operating performance of the swing gate valve.

This is because there is no separate foreign material removing means in the region of the valve groove 14 in the prior art. The foreign matter intruded into the valve groove 14 area is later adhered to the valve groove 14 region, So that the valve plate 30 is not smoothly operated. As a result, the operating performance of the swing gate valve is deteriorated.

In order to solve this problem, a foreign body is removed by applying a cover (not shown) to the valve upper wall 11 and the valve lower wall 12 of the swing gate valve so as to clean the inside of the swing gate valve. However, It has been pointed out that effective cleaning work is practically impossible due to the installation space limitation.

KR 10-0411482 B1

EP 01106879 B1

JP 2004124997 A

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and an object of the present invention is to effectively prevent a foreign matter contained in a cleaning fluid from accumulating in a valve groove area when a flow path is cut off, A swinging gate valve is provided.

In order to achieve the above-mentioned object, the present invention provides a valve comprising a valve upper wall 111, a valve lower wall 112 and a valve groove 114, wherein a door is openably connected, A valve body (110) having at least one foreign matter outlet (117) formed therein; And a foreign matter removing unit 140 coupled to the valve body 110 for removing foreign substances in the valve groove 114 by supplying a cleaning fluid to the valve groove area, A cleaning fluid supply unit 150 coupled to one side of the valve body 110 and supplying the cleaning fluid from the outside of the valve body 110 into the valve body 110; A cleaning fluid path (not shown) provided in the valve body 110 and coated with a hydrophobic coating film to form a flow path of the cleaning fluid supplied from the cleaning fluid supply unit 150, (160); And a nozzle or hole formed in the area of the valve groove (114) and communicating with the cleaning fluid path (160) so that a cleaning fluid circulating along the cleaning fluid path (160) The cleaning fluid supply unit 150 includes a plurality of cleaning fluid supply nozzles coupled to the valve side wall 113 of the valve body 110, The body 110 is mounted with a vibration generator (not shown) at the lower end of the portion where the cleaning fluid path 160 is formed to continuously apply vibration to the cleaning fluid path 160 to generate a viscous fluid, Prevents the cleaning fluid pass 160 from sticking to the inner wall of the cleaning fluid path 160 and forms a continuous closed loop line formed along the circumference of the valve body 110, So that the cleaning fluid is swirled in the cleaning fluid path 160 to clean the inner wall of the cleaning fluid path 160. The operation of the foreign matter removing unit 140 and the vibration generator Wherein the vibration generator senses through the fluid velocity sensing sensor mounted to sense the fluid conveying velocity in the cleaning fluid path 160 so that the transfer velocity of the cleaning fluid is < RTI ID = 0.0 > And is automatically operated when the flow velocity due to debris falls within the cleaning fluid path (160) when it is slowed down.

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As described above, the present invention provides a swing gate valve capable of effectively preventing a foreign body contained in a cleaning fluid from accumulating in a valve groove area when the flow passage is shut off, thereby effectively reducing the operating performance of the valve.

1 is a structural view of a swing gate valve according to the prior art.
2 is a sectional view taken along the line EE of Fig.
3 is an enlarged view of the area B in Fig.
4 is a structural view of a swing gate valve according to an embodiment of the present invention.
5 is a cross-sectional view taken along line AA of FIG.
6 is a control block diagram of a swing gate valve according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

FIG. 4 is a structural view of a swing gate valve according to an embodiment of the present invention, FIG. 5 is a cross-sectional view of the swing gate valve according to an embodiment of the present invention, and FIG. to be.

Referring to these drawings, the swing gate valve of the present embodiment is configured to effectively prevent the foreign material contained in the cleaning fluid from accumulating in the region of the valve groove 114 when the flow path is shut off, And may include a valve body 110, a foreign matter removing unit 140, and a controller 180.

The valve body 110 has a valve top wall 111, a valve bottom wall 112, and a valve side wall 113.

At this time, the valve upper wall 111 and the valve lower wall 112 are provided with a flow hole (Hole) 115 corresponding to the piping flow path. The flow path 115 has a size corresponding to the size of the piping flow path.

Valve grooves 114 are formed in the valve body 110 by the structure of the valve upper wall 111, the valve lower wall 112, and the valve side wall 113.

A valve plate 130 is rotatably coupled to the valve body 110 by a valve hinge 120.

The valve plate 130 opens and closes the flow path 115 of the valve upper wall 111 and the valve lower wall 112 while being rotated right and left about the valve hinge 120.

The foreign substance removing unit 140 is coupled to the valve body 110 and supplies a cleaning fluid to the valve groove 114 to remove foreign substances in the valve groove 114. [

Conventionally, there is an example in which a prefabricated cover is applied. However, considering that the effectiveness is low, the conventional problem can be completely solved by applying the foreign body removing unit 140 using the cleaning fluid as in the present embodiment. The cleaning fluid may be air or fluid.

The foreign substance removing unit 140 includes a cleaning fluid supply unit 150, a cleaning fluid path 160, and a cleaning fluid injection unit 170.

The cleaning fluid supply unit 150 is coupled to one side of the valve body 110 and supplies a cleaning fluid to the valve body 110 from the outside of the valve body 110.

The cleaning fluid supply part 150 is applied as a nozzle for supplying a plurality of cleaning fluids to be coupled to the valve side wall 113 of the valve body 110. [

The cleaning fluid path 160 is provided in the valve body 110 and forms a flow path of the cleaning fluid supplied from the cleaning fluid supply part 150.

Thus, the cleaning fluid pass 160 may be a continuous closed loop line formed along the circumference of the valve body 110.

The valve body 110 may further include a function of continuously vibrating the cleaning fluid path 160 by mounting a vibration generator (not shown) at a lower end of the portion where the cleaning fluid path 160 is formed This is to prevent viscous fluids such as fluid debris from adhering to the inner wall of the cleaning fluid path 160 and additionally to reduce the inner wall of the cleaning fluid path 160 to a low frictional or hydrophobic By coating with a coating film, adhesion of the residue can be prevented.

The cleaning fluid dispensing portion 170 is formed in the region of the valve groove 114 and communicates with the cleaning fluid path 160 so that the cleaning fluid circulating along the cleaning fluid path 160 can be directed to the region of the valve groove 114.

The cleaning fluid injecting section 170 may be a nozzle or a hole. In the case of this embodiment, the latter hole is taken as an example. If the nozzle is a nozzle, a nozzle smaller than the nozzle for supplying the cleaning fluid may be used.

By allowing the supply of cleaning fluid through the cleaning fluid supply 150, cleaning fluid path 160 and cleaning fluid jet 170 described above, and through which cleaning fluid is directed to the area of the valve groove 114 , It is possible to easily remove the foreign matter that can accumulate in the region of the valve groove 114.

The cleaning fluid pass 160 also creates a spiral groove on the inner surface to cause the cleaning fluid to swirl within the cleaning fluid path 160 to create a vortex, It is preferable to make it possible to clean the inner wall of the housing.

On the other hand, a plurality of foreign matter discharge ports 117 are formed in the valve lower wall 112. Although not shown in detail, a door may be openably and closably connected to the foreign matter outlet 117. Therefore, the door can be opened only when it is used, and the door can be closed normally.

Finally, the controller 180 controls the operation of the foreign material removing unit 140. That is, the operation of the foreign substance removing unit 140 is controlled so that the cleaning fluid is supplied through the cleaning fluid supply unit 150, or the supply amount, intensity, time, and the like are controlled.

This controller 180 includes a central processing unit 181 (CPU), a memory 182 (MEMORY), and a support circuit 183 (SUPPORT CIRCUIT) as shown in Fig.

The CPU 181 may be one of various computer processors that can be industrially applied to control the swing gate valve of the present embodiment.

The memory 182 (MEMORY) is connected to the CPU 181. The memory 182 may be a computer readable recording medium and may be located locally or remotely and may be any of various types of storage devices, including, for example, random access memory (RAM), ROM, floppy disk, hard disk, At least one or more memories.

The support circuit 183 (SUPPORT CIRCUIT) is operatively coupled to the CPU 181 to support the typical operation of the processor.

The support circuit 183 may include a cache, a power supply, a clock circuit, an input / output circuit, a subsystem, and the like.

For example, in the swing gate valve according to the present embodiment, it is possible to control the operation of the foreign material removing unit 140, that is, to supply the cleaning fluid through the cleaning fluid supply unit 150 or to control the supply amount, intensity, A series of processes and the like may be stored in memory 182. Typically, a software routine may be stored in the memory 182. The software routine may also be stored or executed by another CPU (not shown).

Similarly, the vibration generator (not shown) is also connected to and controlled by the controller 180. The vibration generator may be controlled by mounting a fluid velocity sensor for sensing a fluid transfer speed in the cleaning fluid path 160 The controller 180 senses the movement of the cleaning fluid flowing through the cleaning fluid path 160 and drives the vibration generator when the transferring of the cleaning fluid is slow, .

Although processes according to the present invention are described as being performed by software routines, it is also possible that at least some of the processes of the present invention may be performed by hardware. As such, the processes of the present invention may be implemented in software executed on a computer system, or in hardware such as an integrated circuit, or in combination of software and hardware.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

110: Valve body
111: valve upper wall
112: valve bottom wall
113: Valve side wall
114: Valve groove
115: Euro
117: Foreign matter outlet
120: Valve hinge
130: Valve plate
140: Foreign material removal
150: Cleaning fluid supply part
160: Cleaning fluid pass
170: Cleaning fluid dispensing part

Claims (5)

A valve upper wall 111 and a valve lower wall 112 and a valve groove 114. A door is openably and closably connected and at least one foreign matter outlet 117 is formed in the valve lower wall 112 A valve body 110 formed therein; And
And a foreign matter removing unit 140 coupled to the valve body 110 for removing foreign substances in the valve groove 114 by supplying a cleaning fluid to the valve groove region,
The foreign matter removing unit 140 may include:
A cleaning fluid supply unit 150 coupled to one side of the valve body 110 and supplying the cleaning fluid from the outside of the valve body 110 into the valve body 110;
A cleaning fluid path (not shown) provided in the valve body 110 and coated with a hydrophobic coating film to form a flow path of the cleaning fluid supplied from the cleaning fluid supply unit 150, (160); And
And a nozzle or hole formed in the valve groove (114) region and communicating with the cleaning fluid path (160) so that a cleaning fluid circulating along the cleaning fluid path (160) can be directed to the valve groove And a cleaning fluid injecting part 170,
The cleaning fluid supply part 150 includes a plurality of cleaning fluid supply nozzles coupled to the valve side wall 113 of the valve body 110,
The valve body 110 is provided with a vibration generator (not shown) at the lower end of the portion where the cleaning fluid path 160 is formed to continuously apply vibration to the cleaning fluid path 160 to generate viscous fluids Is prevented from adhering to the inner wall of the cleaning fluid path 160,
The cleaning fluid pass 160 forms a continuous closed loop line formed along the circumference of the valve body 110 and forms a spiral groove on the inner surface so that cleaning fluid flows in the cleaning fluid path 160, So as to clean the inner wall of the cleaning fluid path 160,
And a controller (180) for controlling the operation of the vibration generator and the foreign matter removing unit (140)
The vibration generator senses a vibration of the cleaning fluid passing through the cleaning fluid path 160 through a fluid velocity sensor mounted to sense the fluid conveying velocity of the fluid. Wherein the swing gate valve is operated automatically when the flow velocity of the swing gate valve is lowered. delete delete delete delete

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