KR101895224B1 - Manhole - Google Patents

Abstract

The present invention provides a manhole having an earthquake-proof and vibration control function. The manhole having an earthquake-proof and vibration control function comprises: a collecting well in which a plurality of pipe connection holes are formed; buffer pipes coupled to the pipe connection holes; and a drain pipes inserted into the buffer pipes.

Description

A manhole having an earthquake-proof and anti-vibration function {MANHOLE}

The present invention relates to a manhole having an earthquake-proof and vibration-damping function, and more particularly, to an earthquake-proof and vibration-damping function capable of preventing an impact caused by an earthquake in an industrial complex or a multi- To the manhole.

Generally, a manhole is installed on the ground such as a road or a road in an industrial complex or a multi-family residence so as to prevent the lifting of sewage or rainwater from being used on the ground. So that they can work in.

As described above, the shape of the manhole to be embedded in the ground is formed into a cylindrical shape of a circular column or a hexahedron shape. In the present invention, a manhole formed of a hexahedron will be described as an example.

Fig. 1 shows a conventional manhole 1. Fig.

The manhole 1 is formed with a corrugation 10 having a hexahedron buried at a predetermined depth on the ground and a stopper 24 is coupled to the opening and closing hole 14 formed on the upper surface of the corrugation 10.

A water inlet hole 12 and a water drain hole 13 are formed on both sides of the water collecting wall 10 and water inlet holes 12 and drain holes 13 are formed on both sides So that the water used in living is discharged to the outside through the sewage pipe 110 connected to the house collector 10.

That is, on both sides of the collecting fin 10 of the manhole 1, a long sewage pipe 110 is continuously fitted.

However, the problem of the conventional manhole 1 is that the sewer pipe 110 is inserted into the water inlet hole 12 and the water drain hole 13 formed on both sides of the water collector 10, And the sewer pipe 110 are shaken alternately left, right or up and down according to the vibration of the earthquake, and the parts to be fitted are broken due to impact and friction.

In other words, an earthquake is classified into a single-story earthquake that occurs when a fault occurs on the ground due to a large earthquake, and a volcanic earthquake caused by a volcanic eruption. The earthquake generated in this case is a P wave, And an L wave in which upward, downward, leftward and rightward oscillations occur simultaneously such as P wave and S wave. When such an earthquake occurs, the manhole 1 and the manhole 1, which are installed in the ground, The sewer pipe 110 connected to the sewage pipe 1 is shaken in a shaking direction of a seismic wave.

The earthquake proofing 10 and the sewage canal 110 of the manhole 1 are largely shaken to the left, right or upper and lower sides by the earthquake, There is a problem that the sewage pipe 110 coupled to both side surfaces of the sewage pipe 110 is rubbed with each other and the part where the collecting pipe 10 and the sewer pipe 110 are coupled is broken, So that the central portion of the sewage pipe 110 is destroyed.

In order to solve this problem, conventionally, in order to solve this problem, a structure such as a cushioning material is interposed between the collecting part and the connection part of the tube, and the tube is supported from the ground via a separate support.

However, the cushioning material has a low possibility that the elasticity of the cushioning material deteriorates over time and the cushioning function is lost, and structural problems such as cracking are generated, so that the shock generated when the earthquake occurs can not be absorbed.

A prior art related to the present invention is Korean Patent Registration No. 1077284.

It is an object of the present invention to provide a cushioning tube having multiple cushioning functions in a tube connecting hole formed in a collecting chamber and installing a drain pipe in the cushioning tube to concentrate the shock generated by the earthquake And an earthquake-proof and damping function capable of preventing the earthquake.

It is a further object of the present invention to provide a method of separating water from a water pipe by branching the end of the pipe so as to be connected to the water collecting and preventing the end of the pipe from being damaged by the influence of an earthquake, And also to provide a manhole having an earthquake-proof and damping function capable of immediately informing an external management server of a damage condition.

In order to achieve the above object, the present invention provides a manhole having an earthquake-proof and damping function.

The manhole having the earthquake-proof and vibration-damping function includes: a collecting part having a plurality of pipe connecting holes formed therein; A plurality of pipe connection holes formed in the plurality of pipe connection holes; And drain pipes inserted into the buffer pipes.

The buffer tubes include a plurality of unit tubes formed in multiple.

Each of the plurality of unit tubes includes an outer unit tube and an inner unit tube, and the inner space formed between the outer unit tube and the inner unit tube is sealed.

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In the plurality of unit tubes, the supply tubes are connected to each other.

Each of the plurality of unit tubes is provided with vacuum sensors for measuring the degree of vacuum in the inner space of each of the plurality of unit tubes and transmitting the measured degree of vacuum to the controller.

The supply lines are connected to a vacuum supplier.

The controller uses the vacuum provider to provide a vacuum to each of the inner spaces, so that the vacuum degree measured in each of the inner spaces has a predetermined degree of vacuum.

Wherein the buffer tube includes a first buffer tube and a second buffer tube, and a corrugated tube connecting the first buffer tube and the second buffer tube,

Wherein the plurality of unit tubes include first unit tubes constituting the first buffer tube and second unit tubes constituting the second buffer tube,

The second cushioning pipe may be fastened to any one of the plurality of pipe connecting holes.

Each of the drain pipes includes a hollow water pipe body, a pair of branch pipes branched in pairs at an end of the water pipe body, and a control unit installed in the pair of branch pipes, And a pair of valves for opening and closing the valve,

Wherein the pair of branch pipes are fitted to the first buffer pipe,

It is preferable that a spiral elastic member is interposed between the pair of branch pipes and the first buffer pipe.

Wherein the pair of branch pipes are each provided with an impact sensor for measuring the amount of impact generated in the pair of branch pipes and transmitting the measured impact amount to the controller,

Wherein the controller selects one of the pair of branch pipes that is measured at a predetermined impact amount or more,

Driving the valves installed in the selected branches so as to close the flow path of the selected branch pipes,

It is preferable that the flow path of the other branch pipe is opened by using a valve provided in a branched branch pipe other than the selected branch pipe.

Particularly, in each of the plurality of pipe connection holes, a shock absorber is provided,

The shock absorbing device comprises an outer ring member having a first diameter, an inner ring member having a second diameter smaller than the first diameter, and a corrugated member for connecting the front and rear portions of the outer ring member and the inner ring member Respectively.

A space is formed in the corrugated member.

Wherein the outer ring member is fastened to an inner circumference of each of the plurality of pipe connection holes,

And the inner ring member is fastened to the outer periphery of the second buffer pipe.

Further, it is preferable that a supplementary wrinkle member is provided between the water pipe main body and the pair of branch pipes.

In addition, buffer supports are provided at a plurality of outer circumferential positions of the drain pipes, and each of the left support supports includes a support member having a hole formed therein, a support member having one end inserted into the hole and the other end formed with a spherical support ball And an elastic spring installed in the hole to elastically support the support member,

The end of the support is preferably coupled to an outer circumference of the water pipes.

According to the above-mentioned solution, the present invention is characterized in that, in the present invention, a plurality of buffer tubes having buffering functions are installed in the tube connection holes formed in the collection tube, and a drain pipe is installed in the buffer tubes, It is possible to prevent concentration at the connection site.

In addition, the present invention allows the end of the pipe to branch off and to be connected to the collection pipe, and when the end of one pipe is broken due to the influence of an earthquake or the like, the other end can be used to prevent the drainage, It is possible to inform the external management server of the damage status immediately.

1 is a view showing a conventional manhole.
2 is a view showing a first example of a manhole having an earthquake-proof and anti-vibration function according to the present invention.
3 is a view showing the construction of a cushioning pipe and a drain pipe according to the present invention.
4 is a view showing a structure of a drain pipe according to the present invention.
5 is a view showing a second example of a manhole having an earthquake-proof and vibration-damping function according to the present invention.
6 is a view showing the construction of a cushioning pipe and a drain pipe according to the present invention.
7 is a view showing a structure of a drain pipe according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention.

The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

Hereinafter, the term "an upper (or lower)" or a "top (or lower)" of the substrate means that any structure is disposed or arranged in any manner, as long as any structure is provided or disposed in contact with the upper surface .

Furthermore, the present invention is not limited to a configuration that does not include any other configuration between the substrate and any configuration provided or disposed on (or under) the substrate.

FIG. 2 is a view showing a first example of a manhole having an earthquake-proof and anti-vibration function according to the present invention, FIG. 3 is a view showing the construction of a damping pipe and a drain pipe according to the present invention, Fig.

2 through 4, the manhole having the earthquake-proof and vibration-damping function according to the present invention includes a collector 100 having a plurality of pipe connection holes 120 formed therein, (200); And drain pipes 300 inserted into the buffer pipes 200.

The configuration of the buffer tubes will be described.

2, the buffer tubes 200 include a first buffer tube 210, a second buffer tube 220, and a first buffer tube 210 and a second buffer tube 220, And a connecting tube (230)

First unit tubes 211 constituting the first cushioning tube 210 and second unit tubes 221 constituting the second cushioning tube 220.

Each of the plurality of first and second unit tubes 211 and 221 includes an outer unit tube and an inner unit tube, and the inner space formed between the outer unit tube and the inner unit tube is sealed.

The second buffer pipe 220 is fastened to one of the plurality of pipe connection holes 120.

The supply tubes 270 are connected to the first and second unit tubes 211 and 221, respectively.

The first and second unit tubes 211 and 221 are respectively provided with a vacuum sensor for measuring the degree of vacuum in the inner space of each of the first and second unit tubes 211 and 221 and transmitting the measured degree of vacuum to the controller 250. [ Respectively.

The supply tubes 270 are connected to a vacuum supplier 240. Each of the supply pipes 270 is provided with supply valves 271 which are opened and closed under the control of the controller 250.

The controller 250 uses the vacuum supplier 240 to provide a vacuum to each of the inner spaces so that the degree of vacuum measured in each of the inner spaces has a predetermined degree of vacuum.

3, each of the water pipes 300 according to the present invention includes a hollow water pipe body 310, a branch pipe 320 branched at an end of the water pipe body 310, 310 and a branch pipe 320 and receives a control signal from the controller 250 to open and close the drainage passage.

The end of the drain pipe body 310 and the branch pipe 320 are fitted into the respective first buffer pipes 210.

Spiral elastic members (not shown) may be interposed between the drain pipe body 310 and the branch pipe 320 and the first buffer pipe 210.

The elastic member may be coupled to an inner circumference of the water discharge pipe body 310 and a spiral groove (not shown) formed in the inner circumference of the branch pipe 320.

An impact sensor 321 for measuring the amount of impact and transmitting it to the controller 250 is installed in the water pipe main body 310 and the branch pipe 320,

The controller 250 selects a pipe to be measured at a predetermined impact amount or more from among the pipe body 310 and the branch pipe 320 and selects a valve installed in the selected pipe to close the flow path of the selected pipe 330 may be driven and the flow path of the other pipe may be opened by using a valve 330 installed in another pipe other than the pipe selected as described above.

FIG. 5 is a view showing a second example of a manhole having an earthquake-proof and anti-vibration function according to the present invention, FIG. 6 is a view showing the construction of a damping pipe and a drain pipe according to the present invention, Fig.

5 to 7, a buffer device 400 is installed in each of the plurality of pipe connection holes 120.

The shock absorber 400 includes an outer ring member 410 having a first diameter, an inner ring member 420 having a second diameter smaller than the first diameter, And a corrugated member 430 connecting the front and rear portions of the ring member 420.

A space is formed in the corrugated member 430.

The outer ring member 410 is fastened to the inner periphery of each of the plurality of pipe connection holes 120. The outer ring member 410 may be protruded to have a predetermined length along the inner and outer sides of the collector.

The inner ring member 420 may be fastened to the outer periphery of the second buffer pipe 220.

Further, a auxiliary wrinkle member 311 may be provided between the water pipe body 310 and the branch pipe 320.

On the other hand, the space of the corrugated member 430 may be filled with a gel-like buffer material, which may be connected to another buffer material supply unit (not shown) through a pipe, and circulated and supplied at predetermined time intervals. The cushioning material supply unit is driven under the control of the controller 250.

In addition, buffer supports 500 are installed at a plurality of outer circumferential positions of the drain pipes 300.

Each of the left support members 500 includes a support 510 on which a hole 511 is formed and a support member 520 having one end inserted into the hole 511 and a spherical support ball 521 formed on the other end And an elastic spring 530 installed in the hole 511 to elastically support the support member 520. [ Here, the end of the supporter 520 is coupled to the outer circumference of the water pipe body 310.

Thus, the buffer supports 500 are buried in the ground at a plurality of positions of the drain pipe body 310 and the branch pipe 320, absorb shocks due to the movement of the ground, which is varied in position due to the earthquake, As shown in FIG.

On the other hand, although not shown in the drawing, the controller 250 according to the present invention has a transmitter. The transmitter transmits a predetermined signal through a wireless communication method to a receiver provided in an external server.

Here, when the impact is detected from the impact sensor 321, the controller 320 transmits information on the detected position of the impact and the water pipe body 310 or the branch pipe 320 to the receiver through the transmitter, So that the position where the impact is generated and the type of the pipe can be informed to the outside in real time so that it can be used for the maintenance work.

According to the construction and operation of the present invention, the present invention is characterized in that a plurality of buffer tubes having a buffer function are installed in a tube connection hole formed in the collection tube, and a drain pipe is installed in the buffer pipes, It is possible to prevent concentration at the connection site.

In addition, the present invention allows the end of the pipe to branch off and to be connected to the collection pipe, and when the end of one pipe is broken due to the influence of an earthquake or the like, the other end can be used to prevent the drainage, It is possible to inform the external management server of the damage status immediately.

As described above, the concrete embodiments of the manhole having the earthquake-proof and anti-vibration function of the present invention have been described. However, it is apparent that various modifications are possible within the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100: Edit your house
120: pipe connection hole
200: buffer tube
210: First buffer
220: second buffer
230: corrugated tube
240: Vacuum generator
250: controller
260: Vacuum sensor
300: Water pipe body
310: Branch engine
330: Valve
400: shock absorber
500: buffer support

Claims (4)

A plurality of tube connection holes formed therein;
A plurality of pipe connection holes formed in the plurality of pipe connection holes; And
And drain pipes inserted into the buffer pipes,
Wherein the buffer tubes comprise a plurality of unit tubes formed in multiple,
Wherein each of the plurality of unit tubes includes an outer unit tube and an inner unit tube, and an inner space formed between the outer unit tube and the inner unit tube is sealed,
In each of the plurality of unit tubes, supply pipes are respectively connected,
Each of the plurality of unit tubes is provided with vacuum sensors for measuring the degree of vacuum in the inner space of each of the plurality of unit tubes and transmitting the measured degree of vacuum to the controller,
Wherein the supply tubes are connected to a vacuum supplier,
Wherein the controller provides a vacuum to each of the inner spaces using the vacuum provider so that the degree of vacuum measured in each of the inner spaces has a predetermined degree of vacuum.
The method according to claim 1,
The cushioning tube,
A first buffer pipe and a second buffer pipe, and a corrugated pipe connecting the first buffer pipe and the second buffer pipe,
The plurality of unit tubes,
First unit tubes constituting the first buffer tube,
And second unit tubes constituting the second buffer tube,
And the second buffer pipe is fastened to any one of the plurality of pipe connection holes.
◈ Claim 3 is abandoned due to the registration fee. 3. The method of claim 2,
Each of the water pipes
A hollow water pipe body,
A pair of branches branched at the end of the water pipe body,
And a pair of valves installed in the drain pipe body and the upper branch pipe for receiving a control signal from the controller to open and close the drain pipe,
The pair of branch pipes are connected to each other,
The first buffer tube being fitted to the first buffer tube,
And a spiral elastic member is interposed between the drain pipe body and the branch pipe and the first buffer pipe.
◈ Claim 4 is abandoned due to the registration fee. The method of claim 3,
In the water pipe main body and the branch pipe,
An impact sensor for measuring the amount of impact generated in the water pipe body and the branch pipe and transmitting the measured impact to the controller,
The controller comprising:
A pipe which is measured at a predetermined amount or more than the predetermined amount of impact is selected from the water pipe body and the branch pipe,
Driving the valve installed in the selected pipe to close the flow path of the selected pipe,
Wherein the flow path of the other pipe is opened by using a valve installed in a pipe other than the selected pipe.

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