KR20210037262A - Portable Slide Valve - Google Patents

Abstract

The present invention relates to a portable slide valve which is able to provide a lubricant in a process of opening/closing of a sliding unit to allow the lubricant to be actively used for a long time, and rotate a handle unit of the sliding unit to prevent the handle unit from being an obstacle in installing a cable underground and prevent the gas from being discharged from the pipe to the outside. The portable slide valve comprises: a body unit in which a first penetrating hole is formed on the center of the inside thereof to communicate with the pipe, and a sealing groove in a trapezoid shape with a sealing rubber inserted is formed on an outer side of the first penetrating hole, and which includes a lower plate module, in which on one side surface an entrance/exit hole is formed and a lower surface is engaged with one side of the lower connection unit, and an upper plate module in which a lower surface is connected to an upper surface of the lower plate module, and in the center a second penetrating hole is formed to be overlapped with the first penetrating hole, and an upper surface is engaged with one side of the upper connection unit; and a sliding unit which slides and moves through the entrance/exit hole, opens/closes the first penetrating hole and the second penetrating hole, and includes a plate module made of hard materials and a handle module which can be refracted upward or downward from the plate module.

Description

Portable Slide Valve

The present invention relates to a valve that controls a fluid flowing between a tube and a tube.

Many sewage pipes and gas pipes buried underground have become obsolete. Old pipes gradually corrode, causing water leakage. Particularly, when a perforation occurs in a gas pipe, gas leaks and a gas explosion accident may occur, and accordingly, even a personal injury may occur.

Currently, companies in the field of maintaining pipes are developing various devices and methods that can prevent accidents arising from problems with old pipes in advance. As an example, a valve has been developed that is installed in a perforated part of a pipe and slides and opens and closes the perforated part. However, the developed valve has a structure in which a mounting device is installed in the main pipe, and a sliding movement is performed in the begger device. Moreover, the entire sliding valve is formed of rigid, causing a problem of getting caught in various cables buried underground.

In addition, when used for a long time, the space between the mounting device and the sliding plate becomes stiff, causing a problem in that the sliding plate does not operate smoothly.

Republic of Korea Patent Publication No. 10-2013-0131610 (Publication date: 2013.12.04.)

The problem to be solved by the present invention is to provide a slide valve in which lubricating oil is secreted in the course of operation, allows smooth operation for a long time, and does not get caught in cables installed underground. Moreover, it is to provide a slide valve that increases the control power so that gas does not leak out of the pipe.

The problem to be solved of the present invention is not limited to the problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

In the portable slide valve of the present invention for achieving the above technical problem, a first through hole communicating with a pipe is formed in the center of the inside, and a trapezoidal sealing groove into which the sealing rubber is inserted is formed in the outer center of the first through hole. An entrance hole is formed on the side, and a lower panel module is connected to the lower surface of the lower surface and one side of the lower connection part is connected to the lower panel, and a second through hole overlapping the first through hole is formed in the center, and one side of the upper connection part is formed at the center The body portion including the upper plate module to be coupled; And

A sliding portion including a plate module formed of a hard material and a handle module that is slidably moved to the entrance hole, opens and closes the first through hole and the second through hole, and bends upward or downward from the plate module.

The sliding part may be immersed in a mixed oil prepared by mixing plastic working oil, press oil, and pultruded oil in a 1:1:1 ratio, so that a coating material may be applied to the outside.

The sealing groove may include an outer sealing groove formed outside the first through hole, and an inner sealing groove formed between the outer sealing groove and the first through hole and formed to have a width greater than the width of the outer sealing groove.

When the sealing groove accommodates the sealing rubber and is pressed by the plate module, it is possible to prevent the sealing rubber from protruding from the outside.

A plurality of finger grooves are formed on one surface of the handle module.

The portable slide valve according to the present invention has a trapezoidal sealing groove formed on the outside around the through hole so that it does not protrude from the sealing groove when the sealing rubber is compressed. In doing so, it improves the sealing power and prevents gas from leaking out of the tube.

In addition, in the process of opening and closing the through hole of the sliding part, lubricant is secreted and the frictional force with the lower end is reduced so that it can be smoothly moved. In addition, the handle module of the sliding part rotates in a vertical direction from the plate module so that it does not get caught in cables installed around it.

1 is a state diagram of a use of a portable slide valve according to an embodiment of the present invention.
2 is an exploded perspective view of a portable slide valve according to an embodiment of the present invention.
3 is a view showing a portable slide valve according to an embodiment of the present invention.
4 and 5 are views showing a sealing groove formed in a lower panel module of a portable slide valve according to an embodiment of the present invention.
6 is a view showing a state in which the sealing rubber is inserted into the sealing groove of the present invention and then deformed when the sliding portion is pressed.
7 is a view showing a state in which the sealing rubber is inserted into the conventional sealing groove and then deformed when the sliding portion is pressed.
8 is a view showing a state in which the handle module of the present invention is operated.
9 is a view showing a modified example of the handle module according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Embodiments of the present invention are provided to more completely describe the present invention to those of ordinary skill in the art. The following examples are for illustrative purposes only, and the scope of the present invention is not limited to the following examples.

In addition, in the drawings in the present specification, some of the constituent elements constituting the present invention are shown somewhat exaggeratedly so that the description by reference in the drawings can be clearly understood, so that the shape of the present invention is not the same as that shown in the drawings. May not.

Hereinafter, a portable slide valve of the present invention will be described with reference to the drawings that aid in understanding the description of the present invention. However, in the present specification, a portable slide valve and a portable slide valve are generally described with reference to FIG. 1 in order to make the description of the present invention clear and concise.

1 is a state diagram of a use of a portable slide valve according to an embodiment of the present invention.

The portable slide valve 1 can strongly seal the hole formed in the pipe A, that is, the portion where the perforation has occurred, and allows the valve to slide smoothly even if it is used for a long period of time. In addition, the portable slide valve 1 can be used as a connecting body connecting the pipe and the other pipe, and a valve that controls the fluid flowing through the other pipe in the pipe because the other pipe is easily installed upward. Such a portable slide valve 1 includes a flow coupling 30 of various sizes, and any one of the flow couplings 30 is selectively used as needed, and can be freely installed in a pipe having a size of 15A to 125A.

Hereinafter, components constituting the portable slide valve will be described in detail with reference to FIGS. 2 and 3.

2 is an exploded perspective view of a portable slide valve according to an embodiment of the present invention, and FIG. 3 is a view showing a portable slide valve according to an embodiment of the present invention.

The portable slide valve 1 is a body part 10 formed by a connection between the lower panel module 100 and the upper panel module 200, and an entrance hole 140 formed in the body part 10, which slides into and out of the body part. It includes the part 20 as a component. Here, the body portion 10 is a device connected to the pipe (A) and a device connected to other pipes. Such a body portion 10 includes a lower panel module 100 to which a lower connection portion 150 is connected to a lower surface so as to be connected to a pipe. And it includes an upper plate module 200 to which the upper connection portion 201 is connected to the upper surface so that it can be connected to other pipes. In addition, the trunk portion 10 allows the sliding portion 20 to slide between the upper panel module 200 and the lower panel module 100.

The sliding part 20 linearly moves between the upper panel module 200 and the lower panel module 100 and controls gas flowing out of the pipe and fluid moving from the pipe to other pipes.

Hereinafter, the components forming the body portion 10, the components forming the sliding portion 20, and the structure between the components will be described in more detail.

The lower panel module 100 has a rectangular shape in which a first through hole 110 is formed in the center. Inside the lower panel module 100 of this shape, a trapezoidal sealing groove 130 is formed outside the first through hole, and the sealing rubber 120 is inserted into the sealing groove 130. In addition, a protrusion 101 in a stepped shape may be formed in a portion in which the entrance hole 140 is formed and a portion in which the sealing groove 130 is formed in the lower panel module 100. At this time, the protrusion 101 serves to prevent the sliding part 20 from completely falling out. On the other hand, the entrance hole 140 may be formed on one side of the lower panel module 100 having a longitudinal section such as'┗┙'.

In such a lower panel module 100, even if the sealing rubber 120 is inserted into the sealing groove 130 and the sliding part 20 presses the sealing rubber 120 through the entrance hole 140, pressurized sealing rubber ( Part of the 120) does not come out of the sealing groove 130. Through this, it is possible to prevent the sealing rubber 120 from being damaged by the sliding part 20 that slides.

In addition, at the lower end of the lower panel module, a flow coupling 30 having a diameter equal to the size of the pipe in which the perforation is generated, a lower connection part 150 for facilitating connection, and a fixed coupling 160 may be connected. Here, the lower connection part 150 and the fixed coupling 160 may be formed of an aluminum material, and thus exhibit high durability and corrosion-resistant properties. In addition, it is possible to reduce the overall weight of the present invention.

The upper panel module 200 is formed in a quadrangular shape in which a second through hole 202 overlapping with the first through hole 110 is formed in the center. That is, it may be formed in a shape similar to that of the lower panel module 100. As shown in the upper surface of the upper panel module 200, one or more first upper plate holes 203 and one or more upper connection part coupling holes 204 may be formed in a direction from the upper surface to the lower surface. In addition, the lower plate module 100 may include a first lower plate hole 102 formed at a position corresponding to the first upper plate hole 203 and one or more lower connection part coupling holes (not shown). The upper plate module 200 and the lower plate module 100 may be fixedly coupled through a bolt passing through the first upper plate hole and the first lower plate hole, and a nut fastened with the bolt.

The sliding part 20 slides the inside of the body part 10 fastened in this way.

The plate module 210 of the sliding part is formed in a square shape, slides on the inner surface of the lower plate module, and opens and closes the first through hole 110 and the second through hole 202. Such plate module 210 may include protrusion modules 211 formed on both sides of one end. The plate module 210 may not be completely removed from the inside of the body 10 to the outside even though the protruding module 211 is caught by the stepped protrusion 101 formed on the lower plate module 100 and slides. The plate module 210 may be formed of a soft material.

The handle module 220 has the plate module 210 formed at the other end and allows the user to slide the plate module 210. The handle module 220 may be formed of a hard material having a relatively higher hardness than the plate module 210. The handle module 220 may be easily bent upward or downward from the plate module 210 by the user. Such structures and features will be described later.

In addition, a finger gripping groove 221 in which a user's finger is accommodated may be further formed on an inner surface of the handle module 220. The finger gripping groove 221 is formed in a size to accommodate the index and middle fingers and allows the user to slide the handle module 220 more easily and safely. In addition, the outer surfaces of the plate module 210 and the handle module 220, that is, on the outer surface of the sliding part 20, metal deformation oils, press oils, and drawing oils are 1: Mixtures mixed 1:1 can be applied. As an example, the sliding part 20 is immersed for 3 hours in a mixture (C) of 20 L each of Metal Deformation Oils, Press Oils, and Drawing Oils, and then 24 at room temperature. It goes through the process of being exposed to time. Meanwhile, the mixed oil may be coated on the outer surface. In other words, the sliding part 20 is immersed in the mixed oil and the outer surface may be coated. Such a sliding part 20, when moving 　 　 by itself, generates 　 lubricating oil (D) so that it can move more smoothly, and to block the first through hole more completely.

Hereinafter, the structure of the sealing groove formed in the lower panel module of the portable slide valve and the characteristics of the sealing groove will be described with reference to FIGS. 4 to 7.

4 and 5 are views showing a sealing groove formed in the lower panel module of a portable slide valve according to an embodiment of the present invention, and FIG. 6 is a view showing a sealing rubber inserted into the sealing groove of the present invention, and then when a sliding part is pressed. It is a diagram showing a state in which it is deformed. And Figure 7 is a view showing a state in which the sealing rubber is inserted into the conventional sealing groove and then deformed when the sliding portion is pressed.

Inside the lower panel module 100, there is one sealing groove 130 as shown in FIG. 4(a) and a plurality of sealing grooves, that is, the outer sealing groove 130, as shown in FIG. 4(b). And inner sealing groove 130 may be formed. Here, as shown in (b) of FIG. 5, the inner sealing groove 130 may be formed as a sealing groove larger than the width of the outer sealing groove 130. For example, the inner sealing groove 130 may be formed with a width of 6.7mm, and the outer sealing groove 130 may be formed with a width of 6.3mm. In addition, the width of one sealing groove 130 formed in the lower panel module as shown in (a) of FIG. 5 may also be formed to be 6.7mm. In addition, a circular sealing rubber or a trapezoidal sealing rubber may be inserted into each of the sealing grooves 130.

The sealing rubber inserted into the sealing groove 130 may be filled into the inside of the sealing groove 130 when pressure is applied from the upper side, for example, when the sliding part enters and presses the sealing rubber. In addition, the sealing groove 130 may have a shape forming a circle at the corner of the trapezoid, that is, a protrusion prevention receiving groove 1301 may be further included. The protrusion-preventing receiving groove 1301 completely accommodates a part of the sealing rubber 120 spread by pressing by the sliding part 20 so that a part of the sealing rubber does not escape to the outside of the sealing groove 130.

The protrusion-preventing receiving groove 1301 exhibits the above-described characteristics and prevents the sealing rubber 120 from being torn by the sliding portion 20 or forming a gap between the sliding portion 20 and the lower panel module 100. In other words, the sealing groove 130 and the protrusion-preventing receiving groove 1301 formed in the sealing groove 130 completely accommodates the sealing rubber and does not protrude outward, even if the sealing rubber 120 is pressed by the sliding part 20. By doing so, it is possible to increase the sealing force of the first through hole of the sliding part. On the other hand, as shown in FIG. 7, a circular sealing rubber or a rectangular sealing rubber 120 is inserted into the conventional circular sealing groove 130 and the rectangular sealing groove 130, and by the sliding part 20 When pressurized, the sealing rubber 120 may protrude to the outside of the sealing groove by a force pressed from above and below. In this way, the protruding sealing rubber 120 allows the sliding part 20 to reduce the sealing force of the first through hole and allows gas to leak through the first through hole 202.

Hereinafter, a state in which the handle module of the present invention operates and a handle module modified from the handle module according to an embodiment of the present invention will be described with reference to FIGS. 8 and 9.

8 is a view showing a state in which the handle module of the present invention is operated, and FIG. 9 is a view showing a modified example of the handle module according to an embodiment of the present invention.

As described above, the handle module 220 may be bent upward or downward from the plate module 210. For example, as shown in (a) of FIG. 8, the handle module 220 may be bent downward from the plate module 210. In this way, the state in which the handle module 220 is bent in the plate module 210 allows it to be installed in the pipe without being caught in the pipe in which the cable B is installed around it.

In addition, the sliding part 20 of the present invention may be formed as a modified example as shown in FIG. 9.

The sliding part 20-1 of the modified example is composed of the plate module 210 and the handle module 220 as compared to the sliding tooth part 20 of one embodiment, and the plate module 210 and the handle module ( There is a difference in the first bar receiving module 21-1, the second bar receiving module 22-1, and the hinge module 24-1 installed in 220).

Thus, so that the description of the sliding part 20-1 for the modified example may be concise and clear, the description of the same part as the sliding part 20 of one embodiment is omitted, and the difference is concentrated. Let's explain it as. In the sliding part 20-1 of the modified example, the plate module 210 and the handle module 220 are separated, the lower surface of the plate module 210 is fixed to the first surface of the hinge module 24-1, and the handle module ( 220) may be formed in a structure in which the lower surface is fixed to the second surface of the hinge module 24-1. And in this shape, the handle module 220 may rotate downward from the plate module 210. In addition, a first rod receiving module 21-1 is formed on the upper surface of the plate module 210 of the sliding part 20-1 of the modified example, and a second rod receiving module 22-is formed on the upper surface of the handle module 220. 1) may be formed to have a structure in which the bar bar 23-1 is fastened to the first bar receiving module 21-1 and the second bar receiving module 22-1. And through such a structure, the plate module 210 and the handle module 220 are fixed to achieve a horizontal state, and the fixed state can be maintained. The sliding part (20-1) of the modified example can prevent the handle module 220 from being caught on the cable (B) even if the handle module 220 rotates downward from the plate module 210 and the present invention is installed in a pipe in which the cable (B) is installed around it. have.

Embodiments of the present invention have been described above with reference to the accompanying drawings, but those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features. You will be able to understand. Therefore, it is to be understood that the embodiments described above are illustrative and non-limiting in all respects.

1: portable slide valve
10: body
100: lower panel module 101: protrusion
102: first lower plate hole
110: first through hole 120: sealing rubber
130: sealing groove 1301: protrusion prevention receiving groove
131: outer sealing groove 132: inner sealing groove
140: access hole 150: lower connection
160: fixed coupling
200: upper panel module 201: upper connection
202: second through hole 203: first upper plate hole
204: upper connection part coupling hole
20: sliding part
210: plate module 211: protruding module
220: handle module 221: finger gripping groove
21-1: first bar receiving module 22-1: second bar receiving module
23-1: rod module 24-1: hinge module
30: floating coupling
A: Piping B: Cable
C: mixed oil D: lubricating oil

Claims (5)

A first through hole communicating with the pipe is formed in the inner center, a trapezoidal sealing groove into which the sealing rubber is inserted is formed on the outside of the first through hole, an entrance hole is formed on one side, and one side of the lower connection part is on the lower surface. A body portion including a lower plate module to which a lower plate module is coupled and an upper plate module having a lower surface connected to an upper surface of the lower plate module, a second through hole overlapping with the first through hole formed in the center, and one side of the upper connection part coupled to the upper surface; And
A portable slide valve having a sliding part including a plate module formed of a hard material and a handle module bent upward or downward from the plate module and open and close the first through hole and the second through hole by sliding in the entrance hole . The method of claim 1,
The sliding part is a portable slide valve in which a coating material is applied to the outside by being immersed in a mixed oil prepared by mixing plastic working oil, press oil, and drawing oil in a 1:1:1 ratio. The method of claim 1,
The sealing groove includes an outer sealing groove formed outside the first through hole and an inner sealing groove formed between the outer sealing groove and the first through hole and formed to have a width greater than the width of the outer sealing groove. valve. The method of claim 3,
The sealing groove accommodates the sealing rubber and, when pressed by the plate module, prevents the sealing rubber from protruding from the outside. The method of claim 1,
A portable slide valve having a plurality of finger grooves formed on one surface of the handle module.

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