KR102221210B1 - closed type apparatus for protecting water stop valve - Google Patents

Abstract

Provided is a shut-off valve protection device which protects the shut-off valve buried in the ground, and has the manhole connection pipe connected to the upper side thereof. The shut-off valve protection device comprises: a body unit which is provided at a lower part, in which the shut-off valve is accommodated and seated, and in which a horizontal pipe seating groove through which the horizontal pipe of the shut-off valve is connected is formed on a side surface formed to face each other; and an upper cover coupled to the upper part of the body unit to protect the shut-off valve together with the body unit, and forming a horizontal pipe cover groove through which the horizontal pipe of the shut-off valve is connected together with the horizontal pipe seating groove on a side surface formed to face each other. The side surface, on which the horizontal pipe cover groove is formed, extends 1.5 to 2.5 times the height of the side surface of the body unit, on which the horizontal pipe seating groove is formed to the lower part of the upper cover. Accordingly, the size of the through hole is minimized to prevent a situation in which the through hole through which the horizontal pipe of the shut-off valve is connected is formed too large so that too much soil is introduced into the interior of the device during soil filling construction. Provided is a closed shut-off valve protection device capable of effectively preventing failure, damage, corrosion, or the like of the shut-off valve due to the soil flowing into the device.

Description

Closed type apparatus for protecting water stop valve}

The present invention relates to a closed-type water shutoff valve protection device, and more particularly, in the water shutoff valve protection device in which a manhole connection pipe is connected to the upper side and protects the water shutoff valve buried in the ground, the horizontal pipe of the water shutoff valve is connected through The size of the through hole is minimized so that the through hole is formed too large to prevent too much soil from entering the device when filling the soil, so that failure, damage, and corrosion of the water stop valve due to the soil flowing into the device are prevented. It relates to a sealed water valve protection device that can be effectively prevented.

The still water field is an element installed in the middle of the piping pipe to check or control the flow rate passing through the piping pipe, and is buried underground to prevent uncomfortable walking by being exposed to the outside while at the same time preventing freezing and breaking in winter.

In order to control the water supply buried underground from the ground, a protective passage and a protective pipe can be buried together from the ground to the water supply.

By opening the iron caps (body, inner lid, outer lid) installed on the upper part of the protective tube and inserting the connecting rod, the water supply pit buried in the basement can be adjusted from the ground through the connecting rod.

In the past, a solid floor was formed with wooden needles and bricks on the ground in order to fix the water supply floor buried underground, and then the water supply field was mounted on the wooden needle and pipes were connected to both sides of the water supply field.

In addition, in order to protect the water supply field, a basement was formed by stacking bricks on the piping pipe, and then a protective tube and a protection pipe were installed on the upper part of the basement.

According to the existing installation method of the water supply field, since a lot of bricks and wood are used to form the basement that protects the water supply field, the work process was difficult, and there was a lot of difficulty in installing the water supply field horizontally.

An example of an exponential protection box for solving this problem is disclosed in Korean Patent Registration No. 10-2047509 (registered on November 15, 2019, hereinafter referred to as'Patent Document 1').

However, according to the prior art, because the through hole through which the horizontal pipe of the water valve is connected is formed too large, too much soil can flow into the inside of the protection box when filling the soil, so failure, damage, and corrosion of the water valve are easily generated. There is a problem that it can be.

Korean Patent Registration No. 10-2047509 (registered on November 15, 2019)

It is an object of the present invention to minimize the size of the through hole so that the through hole through which the horizontal pipe of the water shutoff valve is connected is formed too large so that too much soil flows into the device during soil filling construction. It is to provide a sealed water valve protection device that can effectively prevent failure, damage, and corrosion of the water valve due to incoming soil.

In order to achieve the above object, according to the present invention, in the water-stop valve protection device in which the water-stop valve buried in the ground is protected, and the manhole connection pipe is connected to the upper side, the water-stop valve is provided in the lower part, and the water-stop valve is accommodated and seated inside And, a body portion having a horizontal pipe seating groove through which the horizontal pipe of the water stop valve is connected to each other on side surfaces formed to face each other; And a horizontal pipe coupled to an upper portion of the body to protect the water shutoff valve together with the body, and to form a through hole through which the horizontal pipe seating groove and the horizontal pipe of the water shutoff valve are connected together with the horizontal pipe seating groove on side surfaces formed to face each other. Includes; an upper cover with a cover groove formed,

A side surface of the horizontal pipe cover groove is formed to extend 1.5 to 2.5 times higher than a side height of the body portion in which the horizontal pipe seating groove is formed below the upper cover.

Here, the upper cover has an inner connection part protruding toward the top in a form surrounding the valve rod through hole formed to penetrate through the upper center, and an outer connection part toward the upper side to be spaced apart from the inner connection part while enclosing the inner connection part from the top. It is preferable that the protrusion is formed so as to form a concentric circle together with the inner connecting portion.

Further, it is preferable that at least one of the outer circumferential surface of the inner connecting portion and the outer circumferential surface of the outer connecting portion is provided with a plurality of convex protrusions protruding convexly at predetermined intervals along the circumference.

According to the present invention, the size of the through hole is minimized so that the through hole through which the horizontal pipe of the water stop valve is connected through is formed too large to allow too much soil to flow into the device during soil filling construction. It is possible to provide a sealed water valve protection device that can effectively prevent failure, damage, and corrosion of the water valve due to incoming soil.

1 is a perspective view of a closed water valve protection device according to the present invention,
Figure 2 is an exploded perspective view of the closed water valve protection device of Figure 1,
3 and 4 are side cross-sectional views showing examples in which manhole connecting pipes having different inner diameters are connected to the closed water valve protection device according to the present invention,
5 is a view showing examples in which convex protrusions are radially formed in 4 directions and 12 directions, respectively, on the outer circumferential surface of the inner connection part of the upper cover according to the present invention;
6 is an external perspective view showing that taper protrusions are formed on the outer circumferential surface of the inner connecting portion of the upper cover according to the present invention;
7 is a side cross-sectional view of the upper cover of FIG. 6;
8 is a side cross-sectional view of an upper cover according to another embodiment of the present invention.

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

Sealed water valve protection device 100 according to the present invention, as shown in Figs. 1 to 4, protects the water shutoff valve 10 buried in the ground and the manhole connector 20 is connected to the upper side. , The body part 110 is provided at the lower part and has a horizontal pipe seating groove 111 through which the water shut-off valve 10 is received and seated and the horizontal pipe 11 of the water shut-off valve 10 is connected to each other on the side facing each other. ), and is coupled to the upper portion of the body portion 110 to protect the water shut-off valve 10 together with the body portion 110, and the horizontal pipe seating groove 111 and the horizontal water-stop valve 10 on the sides formed to face each other. It includes an upper cover 120 in which a horizontal pipe cover groove 121 is formed so that a through hole through which the pipe 11 is connected is formed.

At this time, as shown in FIGS. 1 and 2, the side of the horizontal pipe cover groove 121 is formed below the upper cover 120 than the side height of the body portion 110 in which the horizontal pipe seating groove 111 is formed. It is characterized in that it is formed to extend 1.5 to 2.5 times.

Accordingly, the size of the through hole is minimized so that the through hole through which the horizontal pipe 11 of the water stop valve 10 is connected through is formed too large to cause too much soil to flow into the inside of the device during soil filling construction, It is possible to provide a sealed water valve protection device 100 capable of effectively preventing failure, damage, and corrosion of the water supply valve 10 due to soil flowing into the device.

Here, when the extended side of the upper cover 120 on which the horizontal pipe cover groove 121 is formed extends less than 1.5 times the side height of the body portion 110 on which the horizontal pipe seating groove 111 is formed, the horizontal pipe 11 is The size of the through hole that is connected through is increased so that soil can flow into the device through the through hole, and the extended side of the upper cover 120 on which the horizontal pipe cover groove 121 is formed is the horizontal pipe seating groove 111 If it extends beyond 2.5 times the side height of the formed body portion 110, the size of the through hole through which the horizontal pipe 11 is connected becomes too small, so that the horizontal pipe 11 cannot be connected through the through hole. I can.

The body portion 110, as shown in Figs. 2 to 4, is formed such that the upper portion is open so that the water shutoff valve 10 is seated and accommodated in the center of the inner bottom portion of the body portion 110.

More specifically, as shown in FIGS. 1 and 2, two sides of the body portion 110 that face each other are provided in a curved shape, and the other two sides of the body portion 110 that face each other are It is preferable that the height of the other two sides is low (about 30 to 50 mm) so that the horizontal pipe seating groove 111 is formed to include the bottom of the body portion 110 in the center.

The upper cover 120, as shown in Figs. 1 and 2, is provided to cover the upper portion of the water shutoff valve 10 installed in the body portion 110 by being formed to be open at the lower portion, and the upper center A valve rod through hole 123 is formed so that the valve rod 13 connected to the upper side of the valve 10 passes through and extends through the inner side of the manhole connector 20.

Accordingly, the water shutoff valve 10 may be safely protected inside the closed water shutoff valve protection device 100 by the coupling between the body portion 110 and the upper cover 120.

On the other hand, the upper outer flat portion 128 may be formed to be flat in the square portion forming the outer side of the outer connection portion 127 from the upper cover 120.

Accordingly, when the manhole connector 20 is inserted and coupled to the outside of the outer connector 127, the manhole connector 20 is provided by the upper outer flat portion 128 without conduction of the manhole connector 20. It is possible to ensure that the bonded and fixed state of is maintained stably.

In the upper cover 120 according to the present invention, as shown in FIGS. 1 and 2, the inner connection part 125 protrudes toward the top in a form surrounding the valve rod through hole 123 formed to penetrate through the upper center. It is preferable that the inner connecting portion 125 is enclosed at the top, but the outer connecting portion 127 protrudes toward the top so as to be spaced apart from the inner connecting portion 125 to form a concentric circle with the inner connecting portion 125.

At this time, as shown in FIGS. 3 and 4, the manhole connector 20 is fitted between the inner connecting portion 125 and the outer connecting portion 127 or outside the outer connecting portion 127 to be coupled.

Accordingly, as shown in FIG. 3, when the inner diameter of the manhole connector 20 is small (for example, the inner diameter 150 mm), the inner connecting portion 125 and the outer connecting portion 127 are sandwiched and coupled, and FIG. 4 As shown in, when the inner diameter of the manhole connector 20 is large (for example, 200 mm inner diameter), the manhole connector 20 is fitted to the outside of the outer connector 127 to be coupled, thereby improving maintenance. Even if the diameter of is applied to a larger one, it is possible to provide a sealed water valve protection device 100 capable of easily performing variable connection construction with one device.

Figure 3 is a side cross-sectional view showing that when the manhole connector 20 of the inner diameter 150 mm is connected, the manhole connector 20 is inserted and coupled between the inner connecting portion 125 and the outer connecting portion 127, Figure 4 is an inner diameter When the 200 mm manhole connector 20 is connected, the manhole connector 20 is a side cross-sectional view showing that the manhole connector 20 is fitted and coupled to the outside of the outer connector 127.

Here, the protruding height of the outer connecting portion 127 may be formed to be higher than that of the inner connecting portion 125.

Accordingly, the protruding height of the outer connection part 127 is formed higher than that of the inner connection part 125, so that the manhole connector 20 conducts through construction of filling and compacting the soil after the connection of the manhole connector 20 You can make it more effective to prevent it.

More specifically, the outer connection part 127 is provided to form a concentric circle together with the inner connection part 125, and the protrusion height may be formed to be approximately 10 to 20 mm higher than the inner connection part 125.

Accordingly, when the manhole connector 20 is fitted and coupled between the inner connecting portion 125 and the outer connecting portion 127 or outside of the outer connecting portion 127, the outer connecting portion 127 is higher than the inner connecting portion 125 The protruding shape makes the connection and fixed state of the manhole connector 20 a more stable structure, so that the manhole connector 20 conducts through construction of filling and compacting the soil after the connection of the manhole connector 20 You can make sure to prevent it from happening.

Meanwhile, as shown in FIG. 5, at least one of the outer circumferential surface of the inner connecting portion 125 and the outer circumferential surface of the outer connecting portion 127 is provided with a plurality of convex protrusions 129 formed convexly at predetermined intervals along the circumference. It is desirable.

Accordingly, the outer diameter of the inner connecting portion 125 or the outer connecting portion 127 is about 10 to 20 mm smaller than the inner diameter of the manhole connecting pipe 20 in consideration of processing errors in the connection portion with the manhole connecting pipe 20. Even if it is formed, the connection with the manhole connector 20 is secured without being loosened by the convex protrusions 129, so that the manhole during the construction process of filling and compacting the soil after the connection of the manhole connector 20 The connection pipe 20 can be firmly prevented from being easily inverted from side to side.

For example, when the manhole connector 20 having an inner diameter of 150 mm is connected, the outer diameter of the inner connector 125 is formed to be about 135 to 140 mm, and when the manhole connector 20 having an inner diameter of 200 mm is connected, the outer connection portion 127 The outer diameter of) may be formed to be about 180 to 190 mm, and the manhole connector 20 that is fitted and coupled to the outside between the inner connection 125 and the outer connection 127 or outside the outer connection 127 is convex protrusion The manhole connector 20 can be firmly fixed by being forced into the fitting state by the (129).

As an embodiment of the present invention, as shown in FIG. 5, it is preferable that the convex protrusions 129 are formed convexly at predetermined intervals along the circumference of the inner connecting portion 125.

Figure 5 (a) is a view showing that the convex protrusions 129 are formed to protrude up and down radially in four directions on the outer circumferential surface of the inner connection portion 125 of the sealed water valve protection device 100 according to the present invention. (b) is a view showing that the convex protrusions 129 are formed on the outer circumferential surface of the inner connection portion 125 of the sealed water valve protection device 100 according to the present invention, protruding upward and downward in a radial direction in 12 directions.

As an embodiment of the present invention, it is preferable that the convex protrusions 129 have a maximum thickness protruding convexly from the outer circumferential surface of the outer connecting portion 127 on the side cross-section to be about 4 to 5 mm.

On the other hand, as shown in Figure 6, at least one of the outer circumferential surface of the outer circumferential surface of the inner connecting portion 125 and the outer circumferential surface of the outer connecting portion 127 is provided with a plurality of tapered protrusions 130 formed to protrude downwardly inclined at predetermined intervals along the circumference. .

Accordingly, the outer diameter of the inner connecting portion 125 or the outer connecting portion 127 is about 10 to 20 mm smaller than the inner diameter of the manhole connecting pipe 20 in consideration of processing errors in the connection portion with the manhole connecting pipe 20. Even if it is formed, the connection with the manhole connector 20 is secured without being loosened by the taper protrusions 130, so that the manhole during the construction process of filling and compacting the soil after the connection of the manhole connector 20 The connection pipe 20 can be firmly prevented from being easily inverted from side to side.

As another embodiment of the present invention, as shown in FIG. 6, the tapered protrusions 130 are preferably formed to protrude downwardly at predetermined intervals along the circumference of the inner connecting portion 125.

Accordingly, when the manhole connector 20 having an inner diameter of 150 mm is connected, the manhole connector 20 is inserted between the inner connection part 125 and the outer connection part 127 and is coupled to gradually downward, so that the taper protrusions 130 As a result, the strength of the forceful fitting is gradually increased, and the manhole connector 20 can be fixed more firmly.

Here, as shown in Figure 7, the tapered protrusions 130 formed protruding along the circumference on the outer circumferential surface of the inner connecting portion 125 are symmetrically symmetrically left and right on the side cross-section. It is preferable to protrude into a shape.

Accordingly, the tapered protrusion 130 is formed in a shape that opens at an angle of θ so as to be symmetrical to each other on the side cross section, so that the manhole connector 20 is fitted between the inner connection part 125 and the outer connection part 127. While this is done smoothly, the strength of the force-fitting can be gradually increased as it goes to the lower side.

Although it is described that any one of the convex protrusions 129 and the tapered protrusions 130 is formed alternatively on the outer circumferential surface of the inner connection part 125 according to the present invention, as another embodiment of the present invention, the tapered protrusion 130 When is formed on the outer circumferential surface of the inner connecting portion 125, the convex protrusion 129 may be formed on the outer circumferential surface of the outer connecting portion 127.

On the other hand, as another embodiment of the present invention, as shown in FIG. 8, the upper end of at least any one of the inner connecting portion 125 and the outer connecting portion 127 has a thickness of the inner connecting portion 125 or the outer connecting portion 127 A soil barrier portion 140 may be additionally provided so as to further extend upward to a thickness of 1/3 to 1/2.

Accordingly, after the manhole connector 20 is connected to the upper part of the water stop valve protection device 100 according to the present invention, soil is introduced through the connection part of the manhole connector 20 during the construction process of filling and compacting the soil. It is prevented by the sediment blocking unit 140 at the source, so that the water supply valve 10 is caused by failure, damage, and corrosion at the connection part of the valve rod 13 due to the soil flowing through the valve rod through hole 123. Can be avoided.

Here, it is preferable that the soil barrier portion 140 is made of a synthetic resin material including a silicon material, and a van der Waals adhesive portion is provided at the lower portion thereof to be detachably provided to the inner connecting portion 125 or the outer connecting portion 127.

The van der Waals adhesive part is carbon with a length of approximately 10 μm and a diameter of approximately 5 μm so that a strong van der Waals adhesive force acts between the soil layer 140 and the inner connection part 125 or the outer connection part 127. A plurality of nano-processed bristles are provided on the lower surface of the soil membrane part 140.

Accordingly, the sediment barrier 140 is selectively and conveniently attached to the upper end of the inner connecting portion 125 or the outer connecting portion 127 by the van der Waals adhesive portion, and the sediment barrier 140 by the van der Waals bonding portion. ) And the Van der Waals adhesive force between the inner connecting portion 125 or the outer connecting portion 127 is strongly applied, so that soil and sand can be prevented from entering through the connecting portion of the manhole connector 20 in a simple manner.

Although the technical aspects have been described above and in the accompanying drawings, the technical idea of the present invention is for the purpose of explanation, and is not limited thereto, and those having ordinary technical knowledge in the technical field of the present invention It will be appreciated that the present invention can be variously modified and changed without departing from the technical scope of the claims to be described later.

110: body 111: horizontal pipe mounting groove
120: upper cover 121: horizontal pipe cover groove
123: valve rod through hole 125: inner connection
127: outer connection part 129: convex protrusion
130: taper protrusion 140: soil barrier

Claims (3)

In the water-stop valve protection device that protects the water-stop valve 10 buried in the ground, and the manhole connector 20 is connected to the upper side,
A body provided in the lower part, in which the water shut off valve 10 is accommodated and seated, and a horizontal pipe seating groove 111 through which the horizontal pipe 11 of the water shut off valve 10 is connected through the side formed facing each other is formed. Part 110; And
It is coupled to the upper portion of the body portion 110 to protect the water shutoff valve 10 together with the body portion 110, and the water shutoff valve 10 together with the horizontal pipe seating groove 111 on the side faces formed to face each other. ) A horizontal pipe cover groove 121 is formed to form a through hole through which the horizontal pipe 11 is connected through the upper cover 120;
Including,
The side surface on which the horizontal pipe cover groove 121 is formed extends 1.5 to 2.5 times higher than the side height of the body portion 110 in which the horizontal pipe seating groove 111 is formed under the upper cover 120,
The upper cover 120 has an inner connection part 125 protruding toward the top in a form surrounding a valve rod through hole 123 formed to penetrate through the upper center, and enclosing the inner connection part 125 from the top. The outer connection part 127 is protruded toward the top so as to be spaced apart from the inner connection part 125 to form a concentric circle with the inner connection part 125,
At least one of the outer circumferential surface of the inner connecting portion 125 and the outer circumferential surface of the outer connecting portion 127 is provided with a plurality of tapered protrusions 130 protruding downwardly inclined at predetermined intervals along the circumference,
When the tapered protrusions 130 protrude along the circumference of the outer circumferential surface of the inner connecting part 125, the tapered protrusions 130 protrude in a shape that is symmetrical to each other from side to side at an angle of 13 to 18°. Formed,
At least one of the inner connecting portion 125 and the outer connecting portion 127 has a thickness of 1/3 to 1/2 of the inner connecting portion 125 or the outer connecting portion 127 to extend upwardly. The sediment barrier 140 is provided with a padding,
The soil barrier portion 140 is made of a synthetic resin material including a silicon material, and a van der Waals adhesive portion is provided at the lower portion thereof to be detachably provided to the inner connecting portion 125 or the outer connecting portion 127,
The Van der Waals adhesive part is subjected to a carbon nano-processing process with a length of 10 μm and a diameter of 5 μm so that the Van der Waals adhesive force acts between the soil barrier part 140 and the inner connection part 125 or the outer connection part 127. Closed water valve protection device, characterized in that provided on the lower surface of the soil barrier (140) with a plurality of bristles.

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