KR101631918B1 - Order structure of the dam body unit during sewer maintenance - Google Patents

Abstract

The present invention relates to the structure of a drainage system of a sewer pipe during maintenance, and more particularly, to a drainage system of a sewer pipe which is used for maintenance and reinforcement of a pipeline in a sewerage pipeline, The present invention relates to a structure of a drainage system of a sewer pipe during maintenance,
According to the present invention, it is possible to easily and easily perform the temporary closure operation of the water supply and drainage pipeline, and also it is possible to reuse the apparatus, and it is possible to expect cost reduction in the long term and more complete watertightness, So that it can be efficiently performed.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a sewer pipe system,

[0001] The present invention relates to a sewer pipe drainage system structure for maintenance and repair of a sewer pipe, and more particularly, to a sewer drainage pipe structure for a sewer pipe, Maintenance, repair and reinforcement of the sewer pipe during maintenance.

As is well known, when constructing a facility within a water supply and drainage pipeline buried in the ground, the water in the culvert becomes difficult due to the internal groundwater or other factors. Such water makes maintenance of the facility difficult.

Therefore, in order to solve such a problem, a process of temporarily stopping the progress of water is required.

The temporary water dam structure used in the conventional water supply and drainage piping is constructed to support the wood plate in the vertical cross section of the water supply and drainage pipe and fix the water supply pipe in the vertical direction and support the vertical water supply pipe. It takes time, and many problems have arisen, especially when it is difficult to reuse after one use.

In addition, the provisional closure of the water supply and drainage piping according to the prior art, such as the Korean Patent Registration No. 10-827010 (Apr. 25, 2008), "temporary closure of the PC of the water and sewage works" And the complicated structure of connecting these connections with various accessory parts and installation inconvenience.

As a conventional technique for improving this problem, Korean Patent Registration No. 10-1039798 (2011. 06. 01.), "Temporary Order System of Water Supply and Sewerage Pipeline" has been disclosed. However, in the face of the cumbersome and troublesome installation work .

Korea Patent Registration No. 10-827010 (2008. 04. 25.) "Water and sewage construction of the temporary settlement of the PC" Korea Patent Registration No. 10-1039798 (2011. 06. 01.) "Temporary Order System of Water and Sewer Pipeline"

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems in the prior art, and it is an object of the present invention to provide a water supply and drainage system for a water supply and drainage system, The main purpose of which is to provide the structure of the drainage system of the sewer pipe during the maintenance which can be carried out in a shortened period.

In order to accomplish the above object, the present invention provides a system for shutting off the flow of water by using the order means in a culvert structure (100) buried in the ground; An air injector 16 connected to an air compressor 3 for injecting compressed air using the low pressure hose 2 into the air packer 1, An air storage tank 4 for storing air and a horizontal strut bracket 5 provided in contact with the air packer 1 so as to cross the upper and lower support plates 6 and 7 while holding the strut 5, (9) with a height-adjustable screw jack (8) between the vertical support posts (9); A pressure switching valve 11 and a pressure control valve 15 are mounted between the air storage tank 4 and the air packer 1 to supply and block the injection of pressurized air into the air packer 1; The air packer 1 is provided with a safety exhaust valve 12 for preventing excessive injection of pressurized air and a low pressure hose connection 12 having an air injector 16 connected to the low pressure hose 2 and an air exhaust 17, (18); The connecting convex portion 13 of the vertical supporting column 9 is engaged with the concave portion 14 of the transverse strand 5; A part of the circumferential surface of the vertical support column 9 on which the screw thread 9a is not formed is cut to a predetermined length so that the screw jack 8 is automatically lifted and lowered by a mechanical force, ; The motor base (B) is bolted to the horizontal plane (9b); A small drive motor M is fastened to the motor base B; The small drive motor M projects a rotation axis R; A driving gear G is fixed to an end portion of the protruded rotary shaft R; The drive gear G is meshed with the driven gear 8a; The driven gear 8a is integrally formed on the outer circumferential surface of the screw jack 8 and the length D of the screw jack 8 provided with the driven gear 8a is smaller than the thickness d of the drive gear G ≪ RTI ID = 0.0 > D = 5d < / RTI > The upper support plate 6 has a U-shaped shape and has a space therein. Upper end stopping tabs T1 are fixed in opposite directions on opposite upper ends of the upper end supporting plate 6; An operator H is inserted into the inner space of the upper support plate 6; An operator engaging step T2 is projected in the form of a flange around the lower end of the operator H so as to be hooked on the upper plate engaging jaw T1; An elastic spring (S) is interposed between an inner bottom surface of the upper support plate (6) and a lower end surface of the operator (H); Wherein the elastic pads P are integrally fixed to the upper surface of the operator H, wherein the elastic pads P are integrally fixed.

According to the present invention, it is possible to easily and easily perform the temporary closure operation of the water supply and drainage pipeline, and also it is possible to reuse the apparatus, and it is possible to expect cost reduction in the long term and more complete watertightness, So that it can be efficiently performed.

1 is a schematic sectional view of a state in which a temporary order system according to the present invention is applied to a water supply and drainage pipeline.
2 is a partially separated perspective view of a vertical support column applied to the present invention.
3 (A), 3 (B) and 3 (C) are views of various air packers applied to the present invention.
4 is an exemplary diagram illustrating a further embodiment according to the present invention.

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

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention utilizes the above-mentioned prior-art patent No. 1039798 as it is. Therefore, all of the features of the apparatus described below are those described in Japanese Patent Registration No. 1039798.

However, the present invention is characterized in that the additional embodiment portion which improves a specific constituent part in order to achieve the object of the constitution disclosed in the above-mentioned Japanese Patent No. 1039798 is the most essential constitutional feature.

Therefore, the device configuration, characteristics and operation relationship described below will be referred to as the contents of the above-mentioned Japanese Patent No. 1039798, and the configuration related to the main features of the present invention will be described in detail at the rear end.

As shown in FIGS. 1 and 2, the water intake system according to the present invention is installed when a temporary water damming operation is performed in a water supply and drainage water channel, and it blocks the flow of water using a water order means in a culvert structure buried in the ground A temporary water piping system for a water supply and drainage pipeline comprising an air packer (1) charged into the culvert structure (100), an air compressor (3) for injecting compressed air using the low pressure hose (2) An air storage tank 4 for storing the compressed air, a transverse strut bracket 5 disposed in contact with the air packer 1 and a transverse strut bracket 5 for supporting the transverse strut 5, And a vertical support column 9 having a screw jack 8 whose height is adjusted between the support plate 6 and the lower support plate 7.

A pressure switch valve 11 is installed between the air storage tank 4 and the air packer 1 so that air can be supplied or cut off to the low pressure hose connection part 18 through the low pressure hose 2, The low pressure hose connection part 18 is equipped with an air injector 16 so that the compressed air can be pushed into the air packer 1 by manually pressing the button.

A safety exhaust valve (12) is installed in the air packer (1) to prevent excessive injection of compressed air.

On the other hand, a manual exhaust valve 17 is mounted on the low-pressure hose connecting portion 18 so that the manual exhausting can be performed manually.

The pressure gauge 10 connected to the air packer 1 by the hose 19 for the pressure gauge can monitor the pressure inside the air packer 1 on the ground in real time.

3 (A) to 3 (C), the air packer 1 can be manufactured in various shapes in accordance with the sectional shape of the cul-de-sac structure 100, and is formed of a rectangular or square tube body, And the tube material of the air packer 1 is made of a tough material such as PVC or Kevlar capable of withstanding constant pressure air and water pressure.

1 and 2, the air packer 1, which is installed inside the culvert structure 100 and into which the pressure air supplied from the air compressor 3 is injected, has a sectional height of the culvert structure 100 And the connecting convex portion 13 of the vertical supporting column 9 is in contact with the air packer 1 so that the air packer 1 The braces 5 may be equally spaced at equal intervals as required. [0031] As shown in FIG.

Next, a method of installing the temporary order system of the water supply and drainage pipe according to the present invention will be described.

First, the air packer 1 in which air is removed is inserted through a manhole 101 provided in a culvert structure 100 of a water supply and sewerage pipe, and the air packer 1 is unfolded after moving to a facility repair and reinforcement point.

The vertical supporting column 9 is vertically set in the culvert structure 100 and then the screw jack 8 is fixed and brought into close contact with the slab surface of the culvert structure 100 and the horizontal strut bracket 5 is installed horizontally And the connection between the vertical supporting columns 9 and the horizontal strut brackets 5 is made using concave and convex portions 14 and 13 for connection.

The low pressure hose 2 is connected to the low pressure hose connection 18 and the air compressor 3 charges the air storage tank 4 to a certain pressure.

When a certain pressure is maintained in the air storage tank 4, the pressure open / close valve 11 is opened to allow compressed air to be delivered to the low pressure hose connection portion 18 through the low pressure hose.

If the vertically supporting column 9, the strut brace 5, the concave portion 14 and the convex portion 13 are completely installed, the air injector 16 is operated to inject the compressed air into the air packer 1.

Then, when the air packer 1 is inflated and air is completely filled into the air packer 1 until the air packer 1 is completely adhered to the inner wall of the culvert structure, the waste film of the water supply and drainage pipe ends the operation.

When air is injected into the air packer 1 using the air injector 16, the air is injected into the upper and lower and left and right slab surfaces of the culvert structure 100,

In case of the culvert culvert structure, the pressure gauge (10) can be monitored in real time on the ground in case the air packer (1) is shrunk due to temperature change or temperature change during maintenance or reinforcement work.

The pressure regulating valve (15) automatically opens the valve when the pressure inside the low pressure hose (2) falls below a suitable pressure, and automatically closes the valve when the pressure reaches a certain pressure.

When the pressure inside the low pressure hose 2 (the pressure inside the air packer) falls below a suitable level, the pressure regulating valve 15 automatically operates to regulate the compressed air from the air storage tank to the appropriate pressure And injected into the low pressure hose (2).

During the excessive pressure of the air packer 1, excessive pressure air can be automatically discharged to the safety exhaust valve 12 automatically and the safety exhaust valve 12 is operated to prevent the air packer 1 from blowing.

Here, the pressure at which the safety exhaust valve 12 operates is manually adjustable.

When the sewer pipe construction is completed and the apparatus is to be recovered, the air discharger 17 is operated to discharge air from the air packer 1. At this time, when the volume of the air packer 1 is suddenly reduced, The air is exhausted little by little.

Once the water in the upper part of the air packer is discharged, the air in the air packer 1 is completely discharged and then the strut brackets 5 and the vertical supporting columns 9 are dismantled.

The present invention is configured such that the operation of the screw jack 8 is automatically and quickly performed in a state where the above-described configuration is taken as a basis, thereby further improving workability and eliminating troublesome and difficult problems.

To this end, as shown in FIG. 4, a part of the length of the vertical supporting column 9, that is, a screw thread 9a (see FIG. 4), is provided so that the screw jack 8 can be raised and lowered automatically by a mechanical force, And the motor base B is firmly bolted to the horizontal plane 9b. The motor base B is fixed to the horizontal plane 9b.

Therefore, the motor base (B) can be easily separated and disassembled only by tightening and releasing the bolt.

A small drive motor M is securely fastened to the motor base B.

In addition, a rotation axis R protrudes from the small drive motor M, and the rotation axis R is relatively longer than the motor.

In addition, a driving gear G is fixed to the upper end of the rotary shaft R, and the driving gear G is engaged with the driven gear 8a.

In this case, the driven gear 8a is integrally formed on the outer circumferential surface of the screw jack 8. When the driven gear 8a is formed, the handle bar 8 (see FIG. 2) 4 bars protruding from the outer circumferential surface of the outer circumferential surface) are unnecessary.

Here, a very important concept is required. Since the screw jack 8 is structured to move up and down along the thread 9a, and the driving gear G is fixed at a specific point, There arises a problem that the driving force can not be provided when the driving gear G is out of the gear width (vertical height).

In order to solve this problem, in a further embodiment of the present invention, the length D of the screw jack 8 provided with the driven gear 8a is formed to be significantly longer than the thickness d of the drive gear G .

The screw jack 8 is installed in the sewer pipe to which the present invention belongs. However, when the thickness d of the driving gear G is not exceeded, It is wide enough to receive power.

Therefore, even if the drive gear G always rotates at a predetermined position, the screw jack 8 can be driven in the threaded state 9a while maintaining the gear engagement with the driven gear 8a without being released It is possible to go up and down.

In addition, the upper support plate 6 is improved not only in a simple plate shape but also in a structure capable of increasing the adhesion while being buffered.

In other words, the upper support plate 6 has a substantially U-shaped shape and has a space therein, and the upper plate engaging tabs T1 are fixed to the upper ends of the upper ends of the upper support plates 6 in directions facing each other.

Of course, the fixing of the upper plate engaging jaw T1 is next after the operator H is inserted.

The operator H is inserted into the inner hollow space of the upper support plate 6, and the operator engagement tab T2 protrudes in the form of a flange around the lower end.

Therefore, after the upper plate engaging jaw T1 is engaged, the operator engaging jaw T2 is caught by the upper plate engaging jaw T1, so that the operator H can not be detached and separated.

In addition, an elastic spring S is interposed between the inner bottom surface of the upper support plate 6 and the lower end surface of the operator H.

A flexible pad (P) is integrally fixed on the upper surface of the actuator (H).

Accordingly, when the screw jack 8 is lifted up and caught at the upper end of the inner circumferential surface of the sewer pipe, the operator H is lowered and compresses the elastic spring S so that the elastic jacket 8 is buffered, The adhesion between the inner surface of the inner surface of the sewer pipe and the upper surface of the inner surface of the sewer pipe is remarkably improved.

As described above, the additional embodiment of the present invention is structurally stable and improves the workability while eliminating the hassle and allowing quick installation.

1: Air Packer 2: Low pressure hose
3: air compressor 4: air storage tank
5: cross strut 6: upper support plate
7: Lower support plate 8: Screw jack
9: vertical support column 10: pressure gauge

Claims (1)

CLAIMS 1. A system for shutting off the flow of water in a culvert structure (100) embedded in the ground using order means;
An air injector 16 connected to an air compressor 3 for injecting compressed air using the low pressure hose 2 into the air packer 1, An air storage tank 4 for storing air and a horizontal strut bracket 5 provided in contact with the air packer 1 so as to cross the upper and lower support plates 6 and 7 while holding the strut 5, (9) with a height-adjustable screw jack (8) between the vertical support posts (9);
A pressure switching valve 11 and a pressure control valve 15 are mounted between the air storage tank 4 and the air packer 1 to supply and block the injection of pressurized air into the air packer 1;
The air packer 1 is provided with a safety exhaust valve 12 for preventing excessive injection of pressurized air and a low pressure hose connection 12 having an air injector 16 connected to the low pressure hose 2 and an air exhaust 17, (18); The connecting convex portion 13 of the vertical supporting column 9 is engaged with the concave portion 14 of the transverse strand 5;
A part of the circumferential surface of the vertical support column 9 on which the screw thread 9a is not formed is cut to a predetermined length so that the screw jack 8 is automatically lifted and lowered by a mechanical force, ; The motor base (B) is bolted to the horizontal plane (9b); A small drive motor M is fastened to the motor base B; The small drive motor M projects a rotation axis R; A driving gear G is fixed to an end portion of the protruded rotary shaft R; The drive gear G is meshed with the driven gear 8a; The driven gear 8a is integrally formed on the outer circumferential surface of the screw jack 8 and the length D of the screw jack 8 provided with the driven gear 8a is smaller than the thickness d of the drive gear G ≪ RTI ID = 0.0 > D = 5d < / RTI > The upper support plate 6 has a U-shaped shape and has a space therein. Upper end stopping tabs T1 are fixed in opposite directions on opposite upper ends of the upper end supporting plate 6; An operator H is inserted into the inner space of the upper support plate 6; An operator engaging step T2 is projected in the form of a flange around the lower end of the operator H so as to be hooked on the upper plate engaging jaw T1; An elastic spring (S) is interposed between an inner bottom surface of the upper support plate (6) and a lower end surface of the operator (H); Wherein the elastic pads (P) are integrally fixed to the upper surface of the actuator (H).

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