KR101957704B1 - The valve room for earthquake-resistant - Google Patents

Abstract

The present invention relates to a seismic valve chamber including: a valve for controlling the flow rate of a pipe; a chamber embedded in the ground so as to protect a measuring instrument for measuring pressure or a flow rate; a seismic connection means coupled to both sides of the chamber so as to connect the pipes in the chamber and the pipes embedded in the ground and offsetting the displacement transmitted from an external force or an earthquake; and a manhole assembly coupled to the upper portion of the chamber so as to allow a person to enter and exit the chamber, wherein the seismic connection means includes an anti-vibration joint part, to which a waveform part formed to offset large displacement is coupled to be exposed to the outside of the chamber, an auxiliary chamber extending integrally from the chamber and disposed around the anti-vibration joint part so as to prevent dirt from entering the waveform part, and an anti-vibration pad coupled to the open extension end of the auxiliary chamber and the outer circumferential surface of the anti-vibration joint part so as to offset relatively small displacement while sealing the auxiliary chamber.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anti-

The present invention relates to a valve for controlling the flow rate of piping buried in the ground, and an earthquake-proof valve chamber for protecting a measuring instrument for measuring pressure or flow rate from external force (partial subsidence of ground and underground, sedimentation, More specifically, even if an external force or an earthquake occurs and a large displacement occurs in a chamber or a pipe buried in the earth, the earthquake-proof connecting means can cancel or buffer the pipe, thereby adjusting the flow rate of the pipe And an earthquake-proof valve chamber capable of stably protecting an expensive measuring instrument for measuring a pressure or a flow rate.

Due to the rapid spread of water supply in Korea since the 1970s, many water pipelines have been buried in the country. In addition to the stable supply of clear and clean water through the pipelines, there is a need for quick response to urgent conditions such as water quality accidents, Is provided with a valve chamber.

Valve chambers can also be equipped with expensive meters such as flow meters and pressure gauges to measure the flow rate and pressure of the pipeline.

Such a valve chamber is installed in the form of a manhole in the lower ground of the road, and a manhole cover is provided on the road surface for a worker to enter and exit.

On the other hand, the road surface must be tilted in various directions and angles, and the inclination angle of the road surface is such that a step is formed between the surface of the manhole cover and the surface of the manhole cover exposed to the road, And it causes a rattling noise, and ultimately breaks the coupling structure with the manhole cover or the support frame, thereby increasing the maintenance cost and various safety accidents.

For this purpose, a valve room (patent registration No. 1654527) having a manhole cover inclination angle adjusting means capable of adjusting the manhole cover to the inclination angle of the road surface is proposed.

However, such conventional valve seals have a problem in that only the inclination angle of each lid is adjusted and there is no structure for protecting a meter or a valve in the valve chamber from an earthquake or an external force (partial settlement of ground and underground, sedimentation, .

Therefore, when an earthquake or an external force is generated, expensive valves or measuring instruments installed in the valve chamber are also damaged, resulting in a great maintenance cost.

Korea Patent No. 1654527

SUMMARY OF THE INVENTION The present invention has been accomplished in view of the above problems, and it is a first object of the present invention to provide a valve for controlling a flow rate of a pipe or a meter for measuring a pressure or a flow rate, And to provide an earthquake-resistant valve seat for protection against earthquakes.

A second object of the present invention is to provide a method of controlling a flow rate of a piping in addition to a piping in a chamber by adjusting the flow rate of the piping so that the piping can be offset or buffered by the seismic connection means even if an external force or an earthquake occurs and a large displacement occurs in the piping embedded in the chamber or the ground. And an earthquake-proof valve chamber capable of stably protecting an expensive meter for measuring pressure and flow rate.

A third object of the present invention is to provide a vibration damping device capable of relieving a large displacement through a wave portion formed in a vibration damping portion and canceling a relatively small displacement through a vibration damping pad, And an anti-vibration valve chamber for protecting the anti-vibration valve.

According to an aspect of the present invention for achieving the above object, a first aspect of the present invention relates to an anti-vibration valve chamber. To this end, a valve for controlling a flow rate of a pipe and a meter for measuring a pressure or a flow rate are embedded An earthquake connection means coupled to both sides of the chamber for connecting piping embedded in the ground to the piping in the chamber and for canceling displacement transmitted from an external force or an earthquake; And a manhole assembly coupled to an upper portion of the chamber so as to allow a person to be drawn in and out of the chamber, wherein the seismic connection means comprises: An auxiliary chamber extending integrally from the chamber and disposed around the vibration damping portion to prevent the dirt from entering the corrugated portion; and an auxiliary chamber extending from the extended end of the auxiliary chamber to the vibration damping portion, Wherein the manhole assembly comprises a guiding portion extending upwardly from the inlet of the chamber and a free-rotating portion coupled to the inlet of the chamber, the free- At least two screw bolts, a lift unit lifting and lowering in accordance with the rotational direction of the screw bolts, And a manhole engaging portion that is linked with the elevating unit and has a downwardly extending skirt which is raised and lowered from the outside of the guiding portion. The elevating unit and the skirt are coupled with two link pins in the upper and lower directions, And is coupled to a groove formed in the unit and the skirt.

In the second aspect of the present invention, in the first aspect of the present invention, a flange for fixing the anti-vibration pad is formed on the extension end of the auxiliary chamber, a separate support flange is formed on the outer peripheral surface of the anti- And an inner portion of the vibration-proof pad is fixed through a second connection flange engaged with a support flange of the vibration-proof joint.

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A fourth aspect of the present invention is that, in the first aspect of the present invention, the inner circumferential surface of the skirt of the manhole engaging portion is spaced apart from the outer circumferential surface of the guiding portion, and the sliding surface contacting the inner circumferential surface of the skirt, And the packing is fixed.

According to the seismic isolation valve chamber of the present invention, even if a large displacement occurs in a chamber or a pipe buried in the ground due to an external force (partial settlement of the ground, sedimentation, ridges) or an earthquake, the seismic connection means can cancel or compensate A valve for controlling the flow rate of the pipe and an expensive meter for measuring the pressure and the flow rate can be stably protected in addition to the pipe in the chamber.

Also, the large displacement can be canceled through the corrugated portion formed on the vibration damping portion, and the relatively small displacement can be canceled by the vibration damping pad, so that the maintenance is easy.

Further, since the corrugated portion of the vibration damping portion is protected in a separate auxiliary chamber, the reliability of the operation of the corrugated portion can be improved.

1 and 2 are perspective views of an anti-vibration valve seat according to the present invention,
3 is a sectional view of an anti-vibration valve chamber according to the present invention,
4 is an operational view of the manhole assembly extracted in Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, and advantages of the present invention will become more readily apparent from the following description of preferred embodiments with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms.

Rather, the embodiments disclosed herein are provided so that the disclosure can be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The embodiments described and exemplified herein also include their complementary embodiments.

In the present specification, the singular form includes plural forms unless otherwise specified in the specification. The terms "comprise" and / or "comprising" used in the specification do not exclude the presence or addition of one or more other elements.

Hereinafter, the present invention will be described in detail with reference to the drawings. In describing the specific embodiments below, various specific details have been set forth in order to provide a more detailed description of the invention. However, it will be appreciated by those skilled in the art that the present invention may be understood by those skilled in the art without departing from such specific details. In some cases, it should be mentioned in advance that it is common knowledge in describing an invention that parts not significantly related to the invention are not described in order to avoid confusion in explaining the present invention.

1 and 2 are perspective views of an anti-vibration valve chamber according to the present invention, FIG. 3 is a sectional view of an anti-vibration valve chamber according to the present invention, and FIG. 4 is an operation diagram of a manhole assembly extracted in FIG.

As shown in FIGS. 1 to 4, the present invention includes a valve for controlling the flow rate of a pipe and a pressure gauge (not shown) embedded in the ground to measure pressure or flow rate from an external force or an earthquake, (100). Here, the external force is a force generated from the outside of the chamber, and collectively refers to vibrations, sinkholes, partial subsidence, sedimentation, and ridges generated in the ground and the ground.

Such an earthquake-proof valve chamber 100 is largely composed of three parts, which are composed of a chamber 10, an earthquake-proof connecting means 20 and a manhole assembly 30.

The chamber 10 is buried in the ground to protect the valve V for regulating the flow rate of the pipe P or the meter for measuring the pressure or the flow rate.

The chamber 10 can be divided into two so as to facilitate movement and installation of valves and various measuring instruments. The chamber 10 includes a water collecting unit 11 for collecting water in case of emergency, a drain pipe A drain pipe 12 may be formed.

The earthquake-proof connecting means 20 is coupled to both sides of the chamber 10 to connect the pipe P buried in the earth and the pipe P, and functions to cancel a displacement transmitted from an external force or an earthquake.

This earthquake-proof connecting means 20 is constituted by a vibration damping portion 21, an auxiliary chamber 22 and a vibration damping pad 23 in detail.

The vibration damping portion 21 is for connecting a pipe P in the chamber 10 and a pipe P buried in the ground. A flange F for connecting the pipe P is formed on both sides, And the corrugated corrugated portion 211 is formed in the central portion.

The corrugated portion 211 can be easily changed in the direction of the axis of each axis as well as elongating and contracting, and can compensate for a large displacement transmitted from an earthquake or an external force.

Even if the piping P or the chamber 10, which is coupled to the outside of the chamber 10 so that the corrugated portion 211 is exposed to the outside, flows through the vibration damping portion 21 due to an external force or an earthquake, It functions to buffer.

The main function of the auxiliary chamber 22 is to prevent the adherence of the gravel to the corrugated portion 211 exposed to the outside of the chamber 10 so that the function of the corrugated portion 211 is maintained.

To this end, the auxiliary chamber 22 is integrally formed with an extended end portion extending integrally in the chamber 10 so as to have a trapezoidal shape in a circumferential direction of the vibration damping portion 21 so as to improve durability while enclosing the corrugated portion 211, As shown in FIG.

At this time, the auxiliary chamber 22 is sealed through the opened extension end and the vibration pad 23 coupled to the outer circumferential surface of the vibration-proof joint 21. [

The anti-vibration pad 23 may be made of a flexible synthetic resin material to seal the auxiliary chamber 22 and offset a relatively small displacement.

A flange F for fixing the vibration damping pad 23 is formed on the extension end of the auxiliary chamber 22 and a separate support flange 212 is formed on the outer peripheral surface of the vibration damping portion 21 .

The edge of the vibration damping pad 23 is fixed through the first connection flange 24 coupled with the flange F of the auxiliary chamber 22 and the inner portion of the vibration damping pad 23 is fixed to the vibration damping pad 23, Is fixed through a second connection flange (25) which is fastened to the support flange (212) of the first flange (21).

The vibration-proof pad 23 fixed in this way corresponds to a relatively small displacement, but is broken when a displacement higher than the limit value in the event of occurrence is generated, thereby functioning to finally protect the vibration-damping portion 21.

The manhole assembly 30 is formed at an upper portion of the chamber 10 to function to allow a person to draw in and out of the chamber 10.

The manhole assembly 30 is configured to adjust the inclination of the manhole assembly 30 according to the inclination of the ground as well as the height thereof.

3, the manhole assembly 30 includes a guide portion 31 extending upwardly from an inlet of the chamber 10 and at least two guide portions 31 which are coupled to the periphery of the inlet 13 of the chamber 10, A lifting and lowering unit 33 linked to each of the elevating and lowering units 33 so as to move up and down from the outside of the guiding unit 31, And a manhole engaging portion 35 having a downwardly extending skirt.

The link pins R formed at the upper portion of the elevating unit 33 and the skirt 351 are coupled to the elevating unit 33 and the skirt 351 And is joined to the formed elongate groove (H). The grooves H are formed in a transverse direction and a structure is provided in which the angle of the manhole engaging portion 35 can be varied by the length of the grooves H. [

Here, the height of the manhole engaging portion 35 can be adjusted by raising and lowering the elevating unit 33 by the rotation of the screw bolts 32, and the inclination can be adjusted by adjusting one or two screw bolts (32).

4, if the inclination of the ground surface is inclined to the left, if the screw bolt 32 on the right side is rotated to raise the elevating unit 33, the manhole engaging portion 35 is moved by the grooves H It is possible to precisely adjust the inclination corresponding to the inclination of the ground by tilting to the left.

Accordingly, when one or two elevating units 33 selected in accordance with the inclination of the ground are raised or lowered, the inclination of the manhole engaging portion 35 can be precisely adjusted in each axial direction.

On the other hand, the inner circumferential surface of the skirt 351 of the manhole engaging portion 35 is spaced apart from the outer circumferential surface of the guide portion so as not to interfere with the elevation, and the outer circumferential surface of the guide portion 31 And a sliding packing 311 which is in contact with the inner circumferential surface of the skirt 351 is fixed.

Here, the sliding packing 311 is divided into two in a " C "shape and is configured to be pressurized or returned to a shape according to the inclination of the manhole engaging portion 35.

Accordingly, when the manhole engaging portion 35 is lifted and lowered, a structure capable of preventing foreign matter from being introduced through the sliding packing 311 is provided.

Even if a large displacement occurs in the chamber 10 or in the pipe P buried in the ground due to an external force or an earthquake due to the occurrence of an external force or earthquake in the seismic isolation valve chamber 100 of the present invention, A valve for controlling the flow rate of the pipe and an expensive meter for measuring the pressure and the flow rate can be stably protected together with the pipe P in the chamber 10.

It should be noted that the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention so that various equivalents And variations are possible.

10: chamber 11: house fix 12: drain pipe
13: Entrance
20: earthquake-proof connection means 21: vibration proof joint 211:
212: support flange 22: auxiliary chamber
23: dustproof pad 24: first connection flange
25: second connecting flange
30: Manhole assembly 31: Guide part 311: Sliding packing
32: screw bolt 33: elevating unit
35: Manhole coupling part 351: Skirt
100: Seismic valve chamber
P: Piping F: Flange V: Valve
R: Link pin H: Groove

Claims (4)

A valve for controlling the flow rate of the pipe P and a chamber 10 embedded in the ground to protect the meter for measuring the pressure and the flow rate;
An earthquake connecting means 20 coupled to both sides of the chamber 10 for connecting a pipe P in the chamber 10 and a pipe P buried in the earth and for canceling a displacement transmitted from an external force or an earthquake, ; And
And a manhole assembly (30) coupled to an upper portion of the chamber (10) so that a person can be drawn in and out of the chamber (10)
The earthquake-proof connecting means 20 includes a vibration damping portion 21 to which the wave portion 211 formed to offset a large displacement is exposed to the outside of the chamber 10, An auxiliary chamber 22 extending integrally from the chamber 10 and disposed around the vibration-proof joint 21 to prevent the extension of the auxiliary chamber 22 and the vibration- And a vibration isolating pad (23) coupled to an outer circumferential surface of the auxiliary chamber (21) to seal the auxiliary chamber (22) and offset a relatively small displacement,
The manhole assembly 30 includes a guide portion 31 extending upward from an inlet of the chamber 10, at least two screw bolts 32 coupled to the periphery of the inlet of the chamber 10 and freely rotating, A lifting unit 33 which ascends and descends in accordance with the rotational direction of each screw bolt 32 and a downwardly extending skirt 351 which is linked with each of the lifting units 33 so as to ascend and descend from the outside of the guiding unit 31 And a manhole engaging portion 35,
The link pin R formed on the upper portion of the elevating unit 33 and the skirt 351 are coupled to the upper and lower two link pins R, (H) of said seismic valve.
The method according to claim 1,
A flange F for fixing the vibration-proof pad 23 is formed at the extending end of the auxiliary chamber 22,
A separate support flange 212 is formed on the outer circumferential surface of the vibration damping portion 21,
The edge of the vibration-proof pad 23 is fixed through the first connection flange 24 which is fastened to the flange F of the auxiliary chamber 22,
Wherein an inner portion of the vibration-proof pad (23) is fixed through a second connection flange (25) engaged with a support flange (212) of the vibration-proof joint (21).
delete The method according to claim 1,
The inner circumferential surface of the skirt 351 of the manhole engaging portion 35 is spaced apart from the outer circumferential surface of the guiding portion 31 and the outer circumferential surface of the guiding portion 31 351) is fixed to the sliding packing (311).

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