KR101955612B1 - Sewage manhole water inlet inspection apparatus - Google Patents

Abstract

The present invention relates to a sewage manhole unidentified water introduction inspection device for inspecting a part, through which unidentified water entering a sewage manhole, comprising: a manhole cover for covering the inlet of a sewage manhole so as to block air and including a soapy water supply unit for spraying soapy water to the inside of the sewage manhole and an air removing unit for removing air of the sewage manhole; a soapy water supply device connected to the soapy water supply unit and supplying soapy water to the soapy water supply unit; and a negative pressure generating device connected to the air removing unit and converting the pressure of the sewage manhole into negative pressure through the air removing unit. The soapy water supply unit includes: a soapy water spray pipe extended to the inside of the sewage manhole and having a plurality of holes for spraying the soapy water; and a spray pipe rotation part connected to the soapy water spray pipe and rotating the soapy water spray pipe.

Description

{Sewage manhole water inlet inspection apparatus}

More particularly, the present invention relates to an apparatus for inspecting an inflow of odorous manholes, which is capable of spraying soapy water on the inner surface of a faecal manhole so as to easily and efficiently inspect the inflow location of the infested water by a faecal manhole. To an inspection apparatus.

Generally, a sewer pipe is divided into a sewer pipe for treating domestic wastewater and an excellent pipe for treating rainwater.

Since the gutters are directly connected to the river, the gutters are discharged directly to the river.

However, since the domestic wastewater must be purified and discharged to the river, the sewage pipe is connected to the sewage treatment plant.

The sewer pipe is installed in a straight line, and in the place where the direction of the sewer pipe is changed, a sewer manhole connecting two sewer pipes is installed.

However, when a crack occurs in the manhole, external water such as rainwater or groundwater flows into the manhole. Hereinafter, the source is unknown and the water flowing into the sewage manhole is unknown.

If unknown water penetrates into the sewage manhole, the amount of domestic wastewater to be treated at the sewage treatment plant is increased. When the amount of domestic wastewater exceeds the standard value, the sewage treatment plant can not treat the domestic wastewater and pollutes the river.

Especially, when there is a lot of rain as in the rainy season, when there is a crack in the sewage manhole, a large amount of unknown water penetrates through the crack, and the amount of the domestic wastewater is rapidly increased.

In order to prevent this, it is necessary to inspect whether or not there is a crack flowing into unknown manhole, and repair the crack in the manhole where unidentified water is introduced.

Vacuum inspection can be performed on the sewage manhole to check whether unknown sewage is introduced into the sewage manhole. Specifically, the vacuum test makes the inside of the sewage manhole a constant negative pressure. Thereafter, if the negative pressure of the manhole is maintained, it can be judged that no crack has occurred in the manhole. However, if the negative pressure of the sewage manhole is not maintained and the pressure is increased, it can be judged that a crack has occurred in the sewage manhole.

However, if the sludge manhole is made negative in this manner, cracks are generated in the sludge manhole, and it is known that the unknown water is introduced. However, it is not known exactly where the crack occurred in the manhole.

Therefore, the operator performs the work of filling the crack by checking the portion where the crack is present by the eye, but there is also a case where there is a crack that is not seen by the eye. In such a case, there is a problem in that the negative pressure is not maintained even after the crack is repaired and the vacuum is again inspected.

In the vacuum inspection according to the related art, since the location of cracks can not be precisely known, it takes a long time to work. When there is a crack that can not be seen, vacuum inspection and repair work are repeatedly performed, .

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an unmanned water inflow inspection apparatus capable of easily and precisely recognizing a location where a crack is generated in a manhole.

In order to achieve the above object, according to an embodiment of the present invention,

A manhole cover including a soapy water supply unit for covering an inlet of a sewage manhole to block air and spraying soapy water into the sewage manhole and an air venting unit for draining air from the sewage manhole;

A soapy water supplying device connected to the soapy water supplying unit and supplying soapy water to the soapy water supplying unit; And

And a negative pressure generator connected to the air vent unit for converting the pressure of the manhole into a negative pressure through the air vent unit,

The soapy water supply unit includes:

A soap spray pipe extending into the inside of the sewage manhole and provided with a plurality of holes for spraying soapy water; And

And a spray pipe rotating unit connected to the soap spray pipe and rotating the soapy spray pipe.

At this time, the soap spray pipe includes a base portion rotatably installed on the manhole cover; And a soapy spray part detachably connected to one end of the base part and having the plurality of holes.

The soap spraying pipe may further include a soapy water extension pipe installed between the base and the soap spraying part.

The spray pipe rotating part may include a driven gear rotatably installed on an upper surface of the manhole cover and having one end of the soap spray pipe fixed thereto; And a geared motor for rotating the driven gear.

The spray pipe rotating unit may include: a rotating plate rotatably installed on an upper surface of the manhole cover and having one end of the soapy spray pipe fixed; And a handle installed at an edge of the rotating plate and capable of rotating the rotating plate.

According to an embodiment of the present invention having the above-described structure, an apparatus for inspecting untreated water of a manhole can easily apply soapy water to the inner surface of a manhole. Therefore, when the sump manhole is set at a negative pressure, bubbles are generated in a place where a crack occurs, and there is an advantage that a position where a crack is generated can be known easily, quickly, and accurately.

According to the embodiment of the present invention, since the infiltration inspection apparatus for the untreated inflow water can be easily detected by the bubble of the invisible crack and soapy water, it is possible to completely repair the crack of the manhole by a single inspection and repair work have. Therefore, there is an advantage that the construction time and construction cost due to repetition of vacuum inspection and repair work can be reduced.

In addition, according to the embodiment of the present invention, since the soapy spray pipe is rotated to uniformly apply soapy water to the inner surface of the sewage manhole, it is possible to accurately recognize the crack occurrence site.

1 is a view showing an apparatus for inspecting untreated water in a manhole according to an embodiment of the present invention;
FIG. 2 is a sectional view of a manhole cover of an apparatus for inspecting untreated water in a sewer manhole according to an embodiment of the present invention; FIG.
3 is a plan view of the manhole cover of FIG. 2;
4 is a perspective view of a soap spraying pipe of an apparatus for inspecting unknown water in a sewage manhole according to an embodiment of the present invention;
FIG. 5 is a perspective view showing another example of a soapy spraying pipe in an apparatus for inspecting untreated water in a sewer manhole according to an embodiment of the present invention; FIG.
6 is a perspective view showing still another example of a soap spraying pipe of an apparatus for inspecting untreated water in a sewer manhole according to an embodiment of the present invention;
FIG. 7 is a cross-sectional view showing another example of a manhole cover of an apparatus for inspecting untreated sewage water according to an embodiment of the present invention; FIG.
8 is a plan view of the manhole cover of Fig. 7;
FIG. 9 is a view showing a state where bubbles are generated in a crack when inspecting a dung manhole with an unknown water injection inspecting apparatus according to an embodiment of the present invention. FIG.

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

It is to be understood that the embodiments described below are provided for illustrative purposes only, and that the present invention may be embodied with various modifications and alterations of the embodiments described herein. In the following description, well-known functions or components are not described in detail to avoid obscuring the subject matter of the present invention. In addition, the attached drawings are not drawn to scale in order to facilitate understanding of the invention, but the dimensions of some of the components may be exaggerated.

FIG. 1 is a view showing an apparatus for inspecting untreated water in a manhole according to an embodiment of the present invention.

Referring to FIG. 1, a sewage water inflow inspection apparatus 1 according to an embodiment of the present invention may include a manhole cover 10, a soapy water supply apparatus 3, and a negative pressure generating apparatus 5 .

The manhole cover 10 covers the upper end of the wastewater manhole 100 embedded in the ground 7 to block the air inside the manhole 100. That is, the manhole cover 10 seals the inlet of the manhole 100 to block the air inside the manhole 100 from being communicated with the outside air. The manhole cover 10 is formed so as to correspond to the shape of the inlet of the manhole of the sewage manhole provided at the upper end of the manhole manhole 100.

Generally, since the wastewater manhole 100 is formed into a hollow cylindrical shape with a bottom, the entrance of the upper end of the wastewater manhole 100 is circular. Therefore, the manhole cover 10 is formed in a substantially disc shape. Although not shown, when the wastewater manhole 100 is formed as a rectangular parallelepiped and the inlet of the manhole manhole 100 is formed in a rectangular shape, the manhole cover 10 may be formed in a rectangular shape.

A rubber packing 11 is installed around the manhole cover 10. Therefore, when the manhole cover 10 is installed at the upper end of the manhole cover 100, the rubber packing 11 is positioned between the manhole cover 10 and the manhole cover 100, Can be blocked.

The manhole cover 10 may be provided with a soapy water supply unit 20 for spraying soapy water into the inside of the manhole manhole 100 and an air venting unit 60 for venting the air inside the manhole manhole 100.

The soapy water supplying unit 20 includes a soapy spraying pipe 30 extending into the inside of the sewage manhole 100. The soapy spraying pipe 30 is rotated and sprayed with soapy water to form a soapy water film on the inner circumferential surface of the sewage manhole 100 . The manhole cover 10 may be provided at the center thereof with a boss unit 13 on which a soapy water supply unit 20 is installed. The soap supply unit 20 will be described in detail below.

The air vent unit 60 serves as a passage for depressurizing the inside of the sewage manhole 100 in order to reduce the pressure inside the sewage manhole 100 to a negative pressure. The air venting unit 60 includes an air discharge pipe 61 installed to pass through the manhole cover 10 up and down, an opening and closing valve 63 for opening and closing the air discharge pipe 61, And a vacuum system 65 for controlling the temperature of the liquid.

One end of the air discharge pipe (61) protrudes into the inside of the sewage manhole (100), and the other end of the air discharge pipe (61) exposed to the outside is connected to the negative pressure generator (5). Accordingly, the other end of the air discharge pipe 61 may be provided with a pneumatic fitting capable of connecting the hose 6 of the negative pressure generator 5.

The opening and closing valve 63 is provided at one end of the air discharge pipe 61 exposed to the upper portion of the manhole cover 10 for opening and closing the air discharge pipe 61. When the on-off valve 63 is rotated in one direction, the air discharge pipe 61 is blocked so that air can not pass through the air discharge pipe 61. When the opening / closing valve 63 is rotated in the opposite direction, the air discharge pipe 61 is opened and air can pass through the air discharge pipe 61.

The vacuum gage 65 is installed on the upper surface of the manhole cover 10 so as to measure the pressure of the sewage manhole 100 under the atmospheric pressure when the air in the sewage manhole 100 is drawn out through the air discharge pipe 61 .

The soapy water supply device 3 is connected to the soapy water supply unit 20 of the manhole cover 10 and is configured to supply soapy water to the soapy water supply unit 20. [ The soapy water supply device (3) and the soapy water supply unit (20) can be connected through the soapy water hose (4). The soapy water supply device 3 is formed so as to be able to supply soapy water at a constant pressure.

The negative pressure generating device 5 is connected to the venting unit 60 of the manhole cover 10 and discharges the air of the manhole manhole 100 through the venting unit 60 to remove the pressure inside the manhole manhole 100 It is formed so as to be made into negative pressure. That is, the negative pressure generator 5 is formed so as to generate a suction force for sucking air.

The negative pressure generating device 5 is connected to the venting unit 60 of the manhole cover 10 through the air hose 6. Concretely, the air hose 6 extending from the negative pressure generator 5 is connected to one end of the air discharge pipe 61 of the air vent unit 60.

Hereinafter, the soapy water supply unit 20 provided in the manhole cover 10 will be described in detail with reference to Figs. 2 to 4. Fig.

FIG. 2 is a cross-sectional view illustrating a manhole cover of an apparatus for inspecting untreated manholes according to an exemplary embodiment of the present invention, and FIG. 3 is a plan view of the manhole cover of FIG. 2. 4 is a perspective view showing a soapy spray pipe of an apparatus for inspecting unknown water in a sewage manhole according to an embodiment of the present invention.

2 and 3, the soapy water supplying unit 20 includes a soapy spraying pipe 30 for applying soapy water to the inner circumferential surface of the sewage manhole 100 and a spraying pipe rotating unit 30 for rotating the soapy spraying pipe 30 40).

As shown in FIG. 4, the soap spray pipe 30 is formed into a pipe shape having an empty circular cross section, and extends into the inside of the sewage manhole 100. The bottom of the soap spraying pipe 30 is closed, and a soapy water passage 31 through which soapy water flows is provided inside. A plurality of holes 33 spraying soapy water are provided on the outer circumferential surface of the soapy spraying pipe 30. The plurality of holes (33) are provided at regular intervals on the outer circumferential surface of the soap spraying pipe (30). Accordingly, when a soapy water of constant pressure is supplied from the soapy water supply device 3 to the soapy spraying pipe 30, soapy water is sprayed through the plurality of holes 33 provided on the outer circumferential surface of the soapy spraying pipe 30.

The soap spraying pipe 30 is installed so as to be rotatable with respect to the spray pipe hole 15 provided in the manhole cover 10. A bearing 16 may be provided on the inner surface of the spray pipe hole 15 so that the soapy spray pipe 30 can rotate smoothly. For example, by providing the sliding bearing 16 between the soap spraying pipe 30 and the spray pipe hole 15 of the manhole cover 10, the soapy spray pipe 30 can smoothly It can rotate.

The soap spray pipe 30 is provided at one end with a flange 35 so that the soapy spray pipe 30 does not come off the driven gear 41 when the soapy spray pipe 30 is coupled to the driven gear 41. Since a portion of the soap spraying pipe 30 inserted into the boss 13 of the manhole cover 10 does not need to spray soapy water, a plurality of through holes are not provided on the outer peripheral surface of the portion.

As shown in FIG. 1, one end of the soap spray pipe 30 exposed to the upper part of the manhole cover 10 is connected to the soapy water supply device 3. The soapy water supply device 3 and the soapy spray pipe 30 may be connected to the soapy water hose 4. A rotary joint 37 may be installed at one end of the soap spraying pipe 30 connected to the soapy water supplying device 3 so that the soapy spraying pipe 30 can be rotated. When the soapy water hose 6 is connected to the rotary joint 37, the soapy water spray pipe 30 can freely rotate while the soapy water hose 6 is fixed.

The soapy spray pipe 30 is formed to have a length corresponding to the depth of the sewage manhole 100. Accordingly, when the soapy water is sprayed through the soapy spray pipe 30, soapy water can be applied to the entire inner circumferential surface of the sewage manhole 100.

Although the soap spraying pipe 30 shown in Fig. 4 is formed as one pipe, the structure of the soapy spraying pipe 30 is not limited thereto. As another example, the soap spraying pipe may be formed by connecting two or more pipes as shown in Figs. 5 and 6 and connecting them. In this way, a soapy spray pipe connecting two or more pipes can be used by connecting two or more pipes according to the depth of the manhole.

5 is a perspective view showing another example of a soapy spraying pipe of an apparatus for inspecting unknown water in a sewer manhole according to an embodiment of the present invention.

5, the soap spraying pipe 50 may include a base portion 51, a soap spray portion 53, and a soap extension pipe 55. [

The base portion 51 is rotatably installed in the manhole cover 10 and penetrates through the manhole cover 10. Therefore, the base portion 51 is provided so as to be rotatable with respect to the spray pipe hole 15 provided in the manhole cover 10. A bearing 16 may be provided on the inner surface of the spray pipe hole 15 so that the base portion 15 can rotate smoothly. For example, when the sliding bearing 16 is provided between the base portion 51 of the soap spraying pipe 50 and the spray pipe hole 15 of the manhole cover 10, the base portion 51 is fitted to the manhole cover 10 As shown in Fig.

The base 51 is formed as a hollow circular pipe, and a flange 52 may be provided at one end and a female screw 51a may be provided at the other end. A female screw is provided at one end of the base portion 51 provided with the flange 52 so as to connect the rotary joint 37 (see FIG. 2). The flange 52 is provided at one end of the base portion 51 so that the base portion 51 does not come off from the driven gear 41 when the base portion 51 is engaged with the driven gear 41. Since the base portion 51 does not need to spray soapy water, a plurality of through holes are not provided on the outer peripheral surface of the base portion 51. [

The soap spray portion 53 is detachably connected to one end of the base portion 51. The soap spray part 53 is formed in the shape of a hollow circular pipe, and a plurality of holes 54 communicating with the hollow and discharging soapy water are provided around the outer peripheral surface. The one end of the soap spray part 53 is provided with a male screw 53b which is engaged with the female screw 51a of the base part 51 and the other end is clogged. Therefore, when the soap spray unit 53 is connected to the base unit 51, soapy water supplied through the base unit 51 can be sprayed to the outside through the plurality of holes 54 of the soap spray unit 53 .

If the depth of the sewage manhole 100 is deep, a soapy water extension pipe 55 may be installed between the base portion 51 and the soap spray portion 53. A soapy water passage 57 is provided in the inside of the soapy water extension pipe 55 and a plurality of holes 56 through which the soapy water can be discharged may be entirely provided on the outer circumferential surface.

The soapy water extension pipe 55 is formed in the shape of a hollow circular pipe and is provided at one end thereof with a male screw 55b to be coupled to the female screw 51a of the base 51 and at the other end with a male screw 53b And a female screw 55a to which the female screw 55a is coupled. The male screw 55b provided at one end of the soapy water extension pipe 55 is formed in the same manner as the male screw 53b of the soap spray unit 53. The female screw 55a provided at the other end of the soapy water extension pipe 55 is formed in the base portion 51 are formed in the same manner as the female screw 51a. The male screw 55b of the soapy extension pipe 55 can be connected to the female screw 51a of the base portion 51 or the female screw 55a of the other soapy water extension pipe 55. [

The soapy water extension pipe 55 may be used by connecting two or more of them depending on the depth of the sewage manhole 100.

Since the depth of the sewage manhole 100 varies, it is preferable to prepare one soapy water spraying unit 53 having a predetermined length and a plurality of soapy water extension pipes 55 having various lengths so as to correspond to the depths of the various sewage manholes 100 . For example, the soap spray unit 53 may be prepared to have a length of 1.5 m, and the soapy water extension pipe 55 may be provided to a plurality of 0.3 m, 0.5 m, and 1 m. Then, the soap spraying pipe (50) having a length corresponding to the depth of the sewage manhole (100) can be provided by connecting the soapy water spraying unit (53) and at least one soapy water extension pipe (55). For example, when the depth of the sewage manhole 100 is 2.3 m, a 0.3 m soapy water extension pipe 55 and a 0.5 m soapy water extension pipe 55 are connected to the 1.5 m soapy water spraying unit 53 Soap spraying pipe 50 can be constructed.

5, a plurality of holes 56 spraying soapy water are formed on the outer circumferential surface of the soapy water extension pipe 55. However, as shown in FIG. 6, a plurality of holes may not be provided in the soapy water extension pipe 55 have.

FIG. 6 is a perspective view showing still another example of a soap spraying pipe of an apparatus for inspecting untreated water in a sewer manhole according to an embodiment of the present invention. FIG.

Referring to FIG. 6, the soap spray pipe 50 'may include a base portion 51, a soap spray pipe 53, and a soapy water pipe 55'.

The base portion 51 and the soap spray portion 55 are the same as the soap spray pipe 50 shown in FIG. 5, and thus a detailed description thereof will be omitted.

The soap extension pipe 55 'is formed in the shape of a hollow circular pipe and is provided at one end thereof with a male screw 55b to be coupled to the female screw 51a of the base 51 and at the other end with a male screw 53b are coupled with each other. The male screw 55b provided at one end of the soapy water extension pipe 55 'is formed in the same manner as the male screw 53b of the soap spraying unit 53. The female screw 55a provided at the other end of the soapy water extension pipe 55' And is formed in the same manner as the female screw 51a of the portion 51. Accordingly, the male screw 55b of the soapy water extension pipe 55 'can be connected to the female screw thread 51a of the base portion 51 or the female screw 55a of the other soapy water extension pipe 55'.

The soapy water extension pipe 55 'of FIG. 6 is provided with a soapy water passage 57 therein, but unlike the soapy water extension pipe 55 of FIG. 5, a plurality of holes 56 are not provided on the outer circumferential surface thereof. Accordingly, the soapy water extension pipe 55 'of FIG. 6 functions to supply soapy water to the soapy water spraying unit 53, and does not spray soapy water to the outside through the outer circumferential surface.

The soap spray pipe 50 'according to the present embodiment can be used in order to sequentially detect and repair cracks on the inner circumferential surface of the sluice manhole 100 by deepening the depth of the sluice manhole 100. For example, a soapy water extension pipe 50 'shown in FIG. 6 may be used to apply soapy water with a predetermined width sequentially from the upper end to the lower end of the sewage manhole 100.

In this case, if the soapy spray part 53 is first connected to the base part 51, soapy water is sprayed to the inner surface of the upper part of the sewage manhole 100 at a depth corresponding to the length of the soapy spray part 53, Can be inspected.

When the crack inspection of the upper part of the sewage manhole 100 is completed, a soapy water extension pipe 55 'is installed between the base part 51 and the soap spray part 53. Then, a crack can be inspected by spraying soap water on the inner circumferential surface of the wastewater manhole 100 separated from the upper end of the wastewater manhole 100 by the length of the soapy water extension pipe 55 '.

2 and 3, the spray pipe rotating part 40 is for rotating the soapy spray pipes 30 and 50. The spray pipe rotating part 40 is provided on one end of the soapy spray pipes 30 and 50 on the upper surface of the manhole cover 10 .

The spray pipe rotating part 40 may include a driven gear 41 fixed to the soap spraying pipes 30 and 50 and a geared motor 43 rotating the driven gear 41. [

The driven gear 41 is rotatably installed on the upper surface of the manhole cover 10, and one end of the soap spraying pipes 30 and 50 is fixed. For this purpose, through holes 42 through which the soap spray pipes 30, 50 are inserted are provided at the center of the driven gear 41. The soapy water spray pipes 30 and 50 are fixed to the through holes 42 of the driven gear 41 so as to rotate integrally with the driven gear 41. Accordingly, when the driven gear 41 rotates, the soap spraying pipes 30 and 50 rotate integrally with the driven gear 41. [ The driven gear 41 can use a spur gear.

A gear support portion 17 may be provided on the upper surface of the manhole cover 10 to support the rotation of the driven gear 41. The gear support portion 17 protrudes upward from the upper surface of the manhole cover 10 and supports the driven gear 41 to rotate smoothly.

The geared motor 43 is a driving source for generating driving force for rotating the driven gear 41. Therefore, when the geared motor 43 is operated, the driven gear 41 rotates. The geared motor 43 may be configured to include a gear reducer connected to the shaft of the motor. The output gear 45 of the gear reducer may be formed as a spur gear engaged with the driven gear 41. The geared motor 43 can rotate the driven gear 41 at a constant speed by reducing the number of revolutions of the motor.

In this embodiment, the driven gear 41 of the sparger rotation section 40 and the output gear 45 of the geared motor 43 use spur gears, but the type of gear is not limited thereto. Various types of gears can be used as long as the rotation of the geared motor 43 can be transmitted to the soap spraying pipes 30 and 50.

The description has been made of the case where the spray pipe rotating part 40 for rotating the soapy spray pipes 30 and 50 is composed of the driven gear 41 and the geared motor 43. The soapy spray pipes 30 and 50, It can be configured to be manually rotated. The configuration of the spraying pipe rotating portion when manually rotating the soapy spraying pipes 30 and 50 will be described with reference to FIGS. 7 and 8. FIG.

FIG. 7 is a cross-sectional view showing another example of a manhole cover of an apparatus for inspecting untreated water in a sewer manhole according to an embodiment of the present invention, and FIG. 8 is a plan view of the manhole cover of FIG. 7.

7 and 8, the manhole cover 10 'according to the embodiment of the present invention includes a soapy water supply unit 20' for spraying soapy water into the inside of the manhole manhole 100, And an air venting unit 60 for venting the air.

The air vent unit 60 is the same as or similar to the air vent unit 60 of the manhole cover 10 shown in Figs. 1 to 3, and thus a detailed description thereof will be omitted.

The soapy water supply unit 20 'includes a soapy spraying pipe 30 for spraying soapy water on the inner surface of the sewage manhole 100 and a spraying pipe rotation unit 80 for rotating the soapy spraying pipe 30.

The soap spraying pipe 30 is the same as or similar to the soap spraying pipe 30 of the manhole cover 10 of the embodiment described above, and thus its detailed description is omitted.

The spray pipe rotating part 80 is formed so that the operator can manually turn the soapy spray pipe 30. Specifically, the spray pipe rotating part 80 may include a rotating plate 81 and a handle 83.

The rotating plate 81 is rotatably installed on the upper surface of the manhole cover 10 ', and one end of the soap spraying pipe 30 is fixed. For this, the rotary plate 81 is formed in a disk shape, and a through hole 82 through which the soap spray pipe 30 is inserted is provided at the center. The soap spray pipe 30 is fixed to the through hole 82 of the rotary plate 81 so as to rotate integrally with the rotary plate 81. Accordingly, when the rotating plate 81 rotates, the soap spraying pipe 30 rotates integrally with the rotating plate 81. [

The handle 83 is provided at the edge of the rotary plate 81 so as to rotate the rotary plate 81. [ Therefore, the operator can hold the handle 83 and rotate the rotary plate 81. [ When the rotary plate 81 is rotated by the handle 83, the soap spraying pipe 30 provided at the center of the rotary plate 81 rotates.

Hereinafter, an operation of the apparatus for inspecting untreated water of a sewage manhole according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 9 is a view showing a state where bubbles are generated in a crack when inspecting a dung manhole with an untreated water inlet inspection apparatus according to an embodiment of the present invention. FIG.

First, the sewage inlet pipe 101 and the sewage discharge pipe 103 provided inside the sewage manhole 100 to be inspected for cracks are cut off. At this time, the plug 105 is installed in the waste water inlet pipe 101 and the waste water discharge pipe 103 to prevent the wastewater and the air from the waste water inlet pipe 101 and the waste water discharge pipe 103 from being introduced into the waste water manhole 100 have.

As shown in FIG. 1, a manhole cover 10 is installed at an upper end of a sewage manhole 100. Since the rubber packing 11 is provided around the manhole cover 10, external air can be prevented from entering the sewage manhole 100.

Subsequently, the soapy water supply unit 3 is connected to the soapy water supply unit 20 of the manhole cover 10. At this time, the soapy water hose 4 is used to connect the soapy water supply device 3 to one end of the soapy water spraying pipe 30 of the soapy water supply unit 20.

Further, the negative pressure generator 5 is connected to the air vent unit 60 of the manhole cover 10. [ At this time, the air hose 6 is used to connect one end of the air discharge pipe 61 of the air vent unit 60 to the negative pressure generator 5.

The operator operates soapy water supply device 3 to supply soapy water of constant pressure to soap supply unit 20. In this state, the operator turns the spray pipe rotating part 40 of the soapy water supply unit 20 to rotate the soapy spray pipe 30. When the soapy water spraying pipe 30 is rotated for one rotation, soapy water is sprayed into the plurality of holes 33 provided on the outer circumferential surface of the soapy spraying pipe 30 to spray soapy water on the entire inner circumferential surface of the sewage manhole 100, Can be formed.

When the soapy water film 110 is formed on the inner circumferential surface of the sewage manhole 100, the operator operates the negative pressure generator 5 to remove a certain amount of air from the sewage manhole 100. Then, the inside of the sewage manhole (100) becomes a state of negative pressure lower than the atmospheric pressure.

If there is a crack on the inner circumferential surface of the male hole 100, the outside air flows into the inside of the sewage manhole 100 through the crack. Therefore, as shown in FIG. 9, (B) is formed.

Therefore, the operator can quickly and accurately find the part of the sewage manhole 100 where the crack C is generated through the bubble B.

As described above, according to the apparatus for inspecting untreated sewage water according to the embodiment of the present invention, the portion where the crack C is generated in the sewage manhole 100 can be found quickly and accurately through the soapy water bubble, The crack C of the manhole 100 can be easily and accurately repaired.

Also, since the unseen water inflow inspection apparatus 1 according to the embodiment of the present invention can easily detect an unseen crack (C) through a suds bubble (B), it is possible to perform a single inspection and maintenance work The crack C of the sewage manhole 100 can be completely repaired. Therefore, there is an advantage that the construction time and construction cost due to repetition of vacuum inspection and repair work can be reduced.

In addition, in the apparatus for inspecting untreated sewage water according to the embodiment of the present invention, the soapy water spraying pipes 30, 50 and 50 'are rotated to uniformly apply soapy water to the inner circumferential surface of the sewage manhole 100 Therefore, there is an advantage that it is possible to easily and accurately carry out the operation of applying soapy water on the inner circumferential surface of the sewage manhole (100).

The invention has been described above in an illustrative manner. The terms used herein are for the purpose of description and should not be construed as limiting. Various modifications and variations of the present invention are possible in light of the above teachings. Therefore, unless otherwise indicated, the present invention may be practiced freely within the scope of the claims.

One; Somen Manhole Unknown Water Inflow Inspection System 3; Soapy water supply device
4; Soapy water hose 5; Negative pressure generator
6; Air hose 10; Manhole cover
11; Rubber packing 15; bearing
17; A gear support 20; Soapy water supply unit
30, 50, 50 '; A soapy spraying pipe 31; Soapy water passage
33, 53, 56; Holes 35,52; flange
40,80; A spraying pipe rotating part 41; Driven gear
43; A geared motor 60; Air vent unit
61; An air discharge pipe 63; Opening / closing valve
65; A vacuum system 81; Spindle
83; Handle 100; Manhole
101; Sewage inlet pipe 103; Sewage discharge pipe

Claims (5)

A manhole cover including a soapy water supply unit for covering an inlet of a sewage manhole to block air and spraying soapy water into the sewage manhole and an air discharge unit for draining air from the sewage manhole;
A soapy water supplying device installed on the ground surface of the manhole cover and connected to the soapy water supplying unit and supplying the soapy water to the soapy water supplying unit; And
And a negative pressure generator installed on the ground on one side of the manhole cover and connected to the air vent unit to make the pressure of the manhole through the air vent unit,
The soapy water supply unit includes:
A soap spray pipe extending into the inside of the sewage manhole and provided with a plurality of holes for spraying soapy water; And
And a spray pipe rotating part connected to the soap spray pipe and rotating the soap spray pipe,
The soap spraying pipe includes a base portion rotatably installed on the manhole cover, a soapy spraying portion detachably connected to one end of the base portion, the soapy spraying portion provided with the plurality of holes, and the separating portion between the base portion and the soapy spraying portion And at least one soap extension tube,
The air venting unit includes an air discharge pipe passing through the manhole cover vertically, an opening and closing valve opening and closing the air discharge pipe, a vacuum meter indicating the pressure inside the manhole, and an air hose connecting the air discharge pipe and the negative pressure generating device Wherein the control unit is operable to detect an inflow of the untreated manhole.
delete delete The method according to claim 1,
The spray pipe rotating part
A driven gear rotatably installed on an upper surface of the manhole cover and having one end of the soap spray pipe fixed; And
And a geared motor for rotating the driven gear. The method according to claim 1,
The spray pipe rotating part
A rotating plate rotatably installed on an upper surface of the manhole cover and having one end of the soap spraying pipe fixed; And
And a handle disposed at an edge of the rotating plate and capable of rotating the rotating plate.

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