KR101007104B1 - Apparatus for non-powered auto washing of sewage pipe - Google Patents

Abstract

PURPOSE: A non-power automatic washing device for a sewer conduit is provided to prevent sediments from being deposited in a sewer conduit without using additional energy. CONSTITUTION: A non-power automatic washing device for a sewer conduit comprises a housing(40), a gate(30), a telescopic protector(20), a float(10), and an elastic body(50). The housing is fixed to the top end of an outlet port of a manhole. The gate is ascended to the inside the housing and opens and closes the outlet port of manhole. The telescopic protector is fixed to the top of the gate and is composed of multiple protectors(21,22,23,24). The float is fixed to the top of the telescopic protector and has uniform buoyancy. The elastic body is inserted into the telescopic protector and is connected to the top of the gate and the bottom of the float.

Description

{Apparatus for Non-powered Auto Washing of Sewage Pipe}

The present invention relates to an apparatus for automatically cleaning sewage pipes with no power, and more particularly, it is a non-power source for storing sewage selectively introduced into a manhole connected with sewage pipes and discharging them at a time to prevent sedimentation of various sludges at the sewage pipe. Sewage pipe automatic cleaning device.

In general, sewer pipes are large sewer pipes that collect sewage from various sewers and send them down to the sewage treatment plant.

Conventional sewage pipe facility is a facility that is usually installed in the basement in order to transfer to the sewage terminal treatment plant (1) to purify the contaminants such as household sewage or waste water generated in the home or factory in FIG. The sewage pipe facility consists of a sewage pipe (2) that serves to transport wastewater, and a manhole (3) installed in a sewer pipe of a section for removing sediment deposited in the sewage pipe or maintaining the sewage pipe. The manhole 3 has an inlet port 4 through which wastewater flows from the sewage pipe 2 and an outlet port 5 through which the wastewater flows out, and the sewage flows below the tube height of the outlet port. It is a structure in which an empty space of about 500 L or more is formed to the upper part of the manhole.

Conventionally, various pollutants including toilet paper, vinyl, food waste, and earth and sand are deposited in sewage pipes for a long time in wastewater discharged from homes and factories, and as a result, the sediment obstructs the flow of wastewater and blocks the sewage pipe of the public. Occurs. Due to the blockage of sewage pipes, the sewage pipe's inherent waste water transfer function is lost. Furthermore, in rainy seasons and heavy rains, when rainwater enters sewage pipes at once, rainwater cannot be transported through sewage pipes due to sediment accumulated in sewage pipes. Causing flooding in residential areas.

Therefore, sediment accumulated in sewage pipes should be removed intermittently or periodically. In other words, in Figure 2, the dredging bucket (8) from the dredging equipment (6) through the manhole (3) installed in a predetermined section to the sewer (2) was carried out to remove the deposits accumulated in the sewer.

However, even if a small amount of sedimentation occurred in sewage pipes, continuous sedimentation occurred after a certain period of time, and even if dredging work on sewage pipes, it was not sufficient to prevent flood damage. Moreover, the dredging work of sewage pipes takes a lot of dredging expenses, and the accumulated sediment in the sewage pipes is decayed, and odor is generated. This had many problems, leading to civil complaints.

In order to solve the above problems, the sewage flowing into the inlet is temporarily stored in the manhole while the outlet of the manhole is temporarily closed. The objective is to enable automatic cleaning of sediment without sedimentation in sewage pipes without using external energy.

In addition, the present invention is another object to be able to reduce the use of sewage pipes because the sewage pipes do not have to be dredged so that sediment such as sludge is deposited in the sewage pipes.

In addition, another object of the present invention is to automatically prevent sediment, such as sludge in the sewage pipe to prevent the occurrence of odor from sewage pipe due to the sediment.

In order to achieve the above object, the present invention provides a housing having a space portion formed therein and a bottom portion formed therethrough, the housing being fixed to an upper wall of the outlet of the manhole; A gate for opening and closing the outlet of the manhole while lifting up and down into the housing; A telescope-type guard that is fixedly coupled to an upper end of the gate and has a sealed structure to prevent foreign substances contained in sewage from penetrating and is constructed with a plurality of stretchable guards; A buoy having a buoyancy of a predetermined size and fixedly coupled to an upper portion of the telescope type guard; And a tension force is inserted between the upper end of the gate and the lower end of the float and inserted into the telescope-type guard, and even when the float rises or falls when the water level of the sewage stored in the manhole rises or falls. It provides a non-powered sewer automatic cleaning device comprising a; an elastic body that delays the rising or falling of the gate and is reduced to the minimum length by the restoring force so that the gate does not fall to the minimum level due to the buoyancy of the gate.

The present invention prevents the sedimentation of sewage pipes in advance by preventing deposits in manholes and sewage pipes by means of the above solution, thereby preventing inundation damage and odor occurrence.

In addition, the present invention can be installed in the manhole in the sewage pipe facility can automatically wash the sewage pipe according to the amount of sewage introduced, and do not use a separate electric energy from the outside for the cleaning of the sewage pipe and the cost for maintenance of the sewage pipe and Save time.

1 is a view showing the connection of the sewer pipe for transporting sewage between the manhole.
2 is a view showing dredging sediment deposited in sewage pipe using dredging equipment.
Figure 3 is a side cross-sectional view showing a non-powered sewage pipe automatic cleaning device according to the present invention.
Figure 4 is a front sectional view showing a non-powered sewage pipe automatic cleaning device according to the present invention.
5A to 5G are diagrams for explaining the power storage and temporary discharge function of sewage in the manhole by a non-powered sewer automatic cleaning device according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to a non-powered sewage pipe automatic washing apparatus according to the present invention. DETAILED DESCRIPTION The present invention will be described with reference to the general components of FIGS. 1 and 2 and the side cross-sectional and front cross-sectional views provided in FIGS. 3 and 4 with the same reference numerals.

First, the non-powered sewage pipe automatic washing apparatus 100 of the present invention temporarily stores the sewage flowing into the manhole 3 so as to be discharged at one time so that sediment is not deposited in the sewage pipe 2 as well as the manhole 3. It is to.

The lower part of the manhole 3 is formed with an inlet 4 through which sewage flows in and an outlet 5 through which the sewage flows out. An inverter 7 having a predetermined angle of inclination is formed between the bottom of the manhole 3, that is, between the inlet 4 and the outlet 5. Furthermore, the sewer pipe 2 connected between the manhole 3 and the manhole 3 is also installed to form a slope of a predetermined angle. This allows the sewage to flow naturally from the top to the bottom.

The non-powered sewage pipe automatic cleaning device 100 of the present invention is installed at the inlet 5 of the outlet of the manhole (3). In the main configuration of the present invention, the housing 40 is fixedly installed on the top wall of the outlet 5 of the manhole 3. The housing 40 has a space portion formed therein, and a lower portion of the housing 40 is formed therethrough. The housing 40 is formed with plates 42 on the left and right sides so as to be fixed to the wall surface of the manhole 3 with a fixing screw. In addition, a through hole 41 is formed at the upper center of the housing 40 to allow the lower guard 21 of the telescope-type guard 20 to penetrate and move up and down.

The gate 30 opens and closes the outlet 5 of the manhole 3 while lifting up and down into the housing 40. The gate 30 is formed inside the space portion of the hexahedron and has a buoyancy cylinder 31 having a certain size buoyancy, and formed below the buoyancy cylinder 31 to open and close the outlet 5 together with the buoyancy cylinder 31 The front is concave arc-shaped and the rear is a semi-cylindrical blocking block 32 is formed integrally. The front surface of the blocking block 32 is formed in a concave arc shape to provide a larger area so that the gate 30 can be closed while strongly pushing the outlet 5 due to the hydraulic pressure of the sewage. The blocking block 32 is integrally formed with the buoyancy cylinder 31 to a diameter slightly larger than the diameter of the outlet 5. Furthermore, when the water level in the manhole 3 is lowered in the buoyancy cylinder 31, the gate 30 is completely discharged from the manhole 3 due to the compression of the elastic body 50 connected to the buoy 10. Since the outlet 5 is closed before, the gate 30 is prevented from descending before the entire amount of sewage is discharged by the buoyancy of the buoyancy tube 31 so that the gate 30 is discharged only when the sewage reaches the minimum level. 5) can be closed.

The telescopic guard 20 is composed of a plurality of guards 21-24 fixedly coupled to the top of the gate 30 and stretched. The telescope type guard 20 is connected between the float 10 and the gate 30, and has an upper guard 24 connected to the float 10 and a diameter smaller than the upper guard 24. A first guard 23 inserted and protruded into the furnace, a second guard 22 inserted and protruded into the first guard 23 with a diameter smaller than the first guard 23, and coupled to an upper end of the gate 30. And a lower guard 21 which is inserted and protrudes into the second guard 24 with a diameter smaller than the second guard 22. The first guard 23 and the second guard 22 coupled between the upper guard 24 and the lower guard 21 can be increased or decreased depending on the height of the manhole 3. And the lower guard 21 is installed so that the lifting is made through the through hole 41 formed in the upper portion of the housing (40). At each end of each guard 21-24 of the telescope-type guard 20, the locking jaws are formed inward and outward so as not to separate the stretched guard 21-24 as much as possible. The telescope type guard 20 is a sealed structure that prevents foreign substances contained in sewage from penetrating, and protects the elastic body 50 from foreign substances by preventing the embedded elastic body 50 from being exposed to foreign substances contained in the sewage. It is to function.

The float 10 is fixedly coupled to the upper portion of the telescope type guard 20 and has a certain amount of buoyancy. The ball 10 has a spherical shape and a space portion having a predetermined capacity is formed therein. The buoy 10 is sealed and buoyant due to sewage is applied. Preferably, the buoy 10 is installed as one, but the buoyancy of the buoy 10 may be determined according to the height of the manhole 3, the capacity of the sewage, the elastic force of the elastic body, and the buoyancy of the buoyancy cylinder 31. Therefore, the side of the buoy 10 is provided with a connecting member to couple and separate one or more buckle 10. That is, the female member 11 and the male screw 12 are formed as the connecting member so that the buckle 10 can be continuously coupled and separated.

The elastic body 50 is inserted into the telescope type guard 20 and installed to be elastically acted between the upper end of the gate 30 and the lower part of the mouth 10. The elastic body 50 is applied to the tension spring or rubber band having a certain size of the elastic force.

Furthermore, the elastic body 50 delays the rising or falling of the gate 30 by the tensile force even when the float 10 rises or falls when the water level of the sewage stored in the manhole 3 rises or falls, and minimizes the rest by the restoring force. Even if it is reduced in length, the gate 30 is not lowered to the minimum level by the buoyancy of the buoyancy cylinder 31 below the gate 30.

The first fixing member 13 and the second fixing member 15 are applied to connect the elastic body 50 and the telescope type guard 20 between the float 10 and the gate 30, respectively. That is, the first fixing member 13 is provided with a ring 14 for supporting the upper end of the elastic body 50 and the lower surface of the mouth 10 to be screwed with the upper guard 24 of the telescope-type guard 20 Is mounted on. And the second fixing member 15 is provided with a ring 16 to support the lower end of the elastic body 50 and the upper surface of the gate 30 to be screwed with the lower guard 21 of the telescope-type guard 20 Is mounted on.

In addition, the lifting guide 33 is installed inside the housing 40. The elevating guide 33 supports the elevating of the gate 30 and installs the channel P at a predetermined interval from the inner wall surface of the housing 40. That is, the lifting guide 33 supports the lifting of the buoyancy cylinder 31 and the blocking block 32 of the gate 30 and at the same time, the sewage filled in the housing 40 between the housings 40 is discharged to the outside. It serves as a channel.

The operation of the automatic powerless sewage pipe cleaning device of the present invention made as described above will be described with reference to FIGS. 5A to 5G.

5A is an initial state in which the sewage flows out of the manhole 3 to form a minimum level, where the sewage is located near the surface of the inverter 7, and at the outlet 5 a gate 30 is located from the housing 40. Sewage is not discharged through the outlet (5) because it is in a state of falling and blocking. And the telescope type guard 20 is in a reduced state by the elastic force of the elastic body (50).

5B is a state in which sewage is introduced into the manhole 3 through the inlet 4, and the sewage is filled up to an intermediate level inside the manhole 3. Here, the outlet port 5 is still blocked by the gate 30, the float 10 is raised by the rise of the sewage, and the telescope-type guard 20 supporting the rise of the float 10 is raised. In addition, even if the sewage increases due to an increase in the effect that the gate 30 blocks the outlet 5 due to an increase in the closing pressure due to the hydraulic pressure of the sewage, the concave portion in front of the blocking block 32 of the gate 30 increases. Is not opened until the limit tensile force of the elastic body (50).

5C is a state in which sewage is continuously introduced through the inlet 4 in the manhole 3, and the sewage is filled to the upper water level inside the manhole 3. Here, the outlet port 5 is still blocked by the gate 30, the float 10 is raised by the water level of the sewage, and the telescope-type guard 20 supporting the rise of the float 10 is further lifted. . In addition, even if the sewage increases due to an increase in the effect that the gate 30 blocks the outlet 5 due to an increase in the closing pressure due to the hydraulic pressure of the sewage, the concave portion in front of the blocking block 32 of the gate 30 increases. Is not opened until the limit tensile force of the elastic body (50).

5D shows that the elastic body 50 raises the gate 30 into the housing 40 when the manhole 3 reaches a maximum level, i.e. the limiting tension of the elastic body 50 is reached. At this time, the sewage filled in the housing 40 is discharged through the water channel P between the elevating guide 33 and the housing 40 to allow the gate 30 to rise. When the gate 30 blocking the outlet 5 is completely raised into the housing 40 and the outlet 5 is opened, the sewage filled in the manhole 3 is discharged through the outlet 5 at one time. At this time, foreign matter contained in the sewage by the hydrophobic force discharged through the outlet (5) is quickly discharged along the sewage pipe (2). Therefore, the foreign matter accumulated in the inverter 7 or the sewer pipe 2 of the manhole 3 is swept away by the high flow rate of the sewage.

5E is a state in which the sewage flows out through the outlet 5 in the manhole 3. At this time, when the sewage water level in the manhole (3) is lowered, the mouth 10 is also lowered, and the telescope-type guard 20 is also reduced by the elastic force of the elastic body (50). However, the gate 30 remains stationary in the housing 40 due to the buoyancy of the lower buoyancy cylinder 31.

5F shows that the sewage of the manhole 3 is discharged through the outlet 5 by about half in the state in which the sewage flows out through the outlet 5 in the manhole 3. At this time, when the sewer in the manhole (3) is lowered, the mouth 10 is further lowered, the telescope-type guard 20 is also in a state that is further reduced by the elastic force of the elastic body (50). However, the gate 30 is maintained in the housing 40 by the buoyancy of the lower buoyancy cylinder 31.

5G shows that the sewage in the manhole 3 is mostly discharged through the outlet 5 so that the sewage is discharged to the lowest level of the manhole 3, that is, to a level lower than the buoyancy of the buoyancy tube 31 of the gate 30. The gate 30 descends to block the outlet 5 of the manhole 3 so that the sewage is no longer discharged.

The action of Figure 5a to 5g is made sequentially or continuously in the manhole (3) after the sewage pipe (2) is connected, the sewage discharged through the sewage pipe (2) will reach to the sewage treatment plant (1) .

Furthermore, using the manhole that can store more than 500 liters of sewage in the sewage facility, the manhole outlet is temporarily closed and the sewage is stored up to the upper part of the manhole, and then the sewage is discharged to the downstream sewage pipe to discharge sediment within the sewage pipe. It can be removed with.

Therefore, sewage pipes (2) and manholes (3) are washed to prevent sediment such as sewage sludge from being present, thereby minimizing the occurrence of odor due to decay of sediment from manholes or sewer pipes, and preventing flood damage due to rainy seasons or heavy rains. Will be.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who has it will know it easily.

1: sewage treatment plant 2: sewage pipe
3: manhole 4: inlet
5: outlet 6: dredging device
10: part 11: female thread
12: external thread 13, 15: fixing member
14, 16: loop 20: telescope type guard
21-24: Guard 30: Gate
31: Buoyancy Bucket 32: Blocking Block
33: lifting guide 40: housing
41: through hole 42: plate
50: elastomer P: channel

Claims (4)

A housing having a space formed therein and having a lower portion formed therethrough and fixedly fixed to an outlet upper wall of the manhole;
A gate for opening and closing the outlet of the manhole while lifting up and down into the housing;
A telescope-type guard that is fixedly coupled to the upper end of the gate and is sealed to prevent foreign substances contained in the sewage from being penetrated and made of a plurality of stretchable guards;
A buoy having a buoyancy of a predetermined size and fixedly coupled to an upper portion of the telescope type guard; And
It is installed inside the telescope type guard and is connected so that a tension force is applied between the upper end of the gate and the lower end of the mouth, and even when the mouth is raised or lowered when the water level of the sewage stored in the manhole rises or falls, the gate is pulled by the tension force. And an elastic body that delays the rise or fall of the gate and does not fall to the minimum level due to the buoyancy of the gate even if it is reduced to the minimum length by the restoring force.
According to claim 1, The first fixing member is provided on the lower end surface of the mouth and the hook is provided with a hook for supporting the upper end of the elastic body and screwed to the upper guard of the telescope-type guard, and the lower end of the elastic body to support And a second fixing member mounted to an upper surface of the gate to be screwed and screwed with the lower guard of the telescope type guard.
According to claim 1, The gate has a buoyancy tube having a buoyancy of a predetermined size and a space therein, is formed below the buoyancy cylinder to open and close the outlet with the buoyancy cylinder, the front is concave arc-shaped and the rear is penetrated semi-cylindrical Non-powered sewage pipe automatic cleaning device formed integrally with the block.
The apparatus of claim 1, wherein a connection member for detaching one or more floats is provided on a side surface of the float.

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