KR100727854B1 - Sewer cleaner truck - Google Patents

Abstract

A dredging vehicle is provided to drain only sewage by separating from sludge of waste of a sewer pipe in a sludge tank, to transfer to a waste treating place by moving only the sludge to a transferring means, and to prevent the sludge from being stuck on the inner surface of a suction pipe in collecting into the sludge tank by sucking the sludge in the sewer pipe through the suction pipe. A dredging vehicle(10) is for maintaining a vacuum state in a sludge tank(14) through a vacuum pump(16) and collecting sludge and sewage in a sewer pipe through a suction pipe(200) connected with the sludge tank by vacuum-suction. A guide slope plate(100) is installed on the bottom in the sludge tank to a predetermined angle to gather the sludge to one portion. The suction pipe has a bent pipe(210), a flexible pipe(220), and an extension pipe(230). The bent pipe is disposed in the sludge tank on one end and at the outer side of the vehicle on the other end. The flexible pipe is connected with one end of the bent pipe in the sludge tank through a rotary type joint(222) and installed to be selectively rotated to be moved up or down through a rotating means. The extension pipe is detachably connected with the other end of the bent pipe to be inserted into the sewer pipe. A coil screw(400) is installed in the bent pipe, the flexible pipe, and the extension pipe. The coil screws are connected to each other through rotary type joints(410) to be rotated forward or reversely by a driving means to transfer the sludge.

Description

Dredger {Sewer cleaner truck}

1 is a side view illustrating a configuration of a general dredging car and a dredging operation using the same.

2 is a partial side cross-sectional view showing the configuration of a dredger according to the present invention.

3 and 4 is an operation of the dredger according to the present invention, Figure 3 is a view showing a state in which the operation to suck the sludge deposited in the sewage pipe into the sludge tank, Figure 4 is a sludge deposited in the sludge tank The figure shows a state in which the operation to move to another transport means.

◎ Explanation of symbols for main part of drawing

10: body 12: water tank

14: sludge tank 16: vacuum pump

100: guide inclination plate 200: suction pipe

210: refraction tube 220: flexible tube

222: rotary joint 230: extension tube

232: flange 300: cylinder

310: cylinder rod 320: working arm

400: coil screw 410: rotary joint

420: drive motor 430: gearbox

500: drain port 510: valve

SP: sewer line

The present invention relates to a dredging car, and more particularly, dredging car to separate the sewage and pure sludge from the sludge deposited in the sludge tank to drain the sewage and to load the pure sludge only to another transport means to transport to the waste treatment plant. It is about.

In general, in the stagnant section inside the sewer pipe, concrete corrosives, various wastes and sludges that fall off the inner wall accumulate, and the sediment not only prevents the smooth drainage of sewage, but also the sewage pipe is gradually blocked. As the pressure increases, the sewage flows out of the gaps such as pipe joints and cracks, which causes a serious problem of contaminating soil as well as groundwater. In addition, sediment causes a problem that the sewage backflow during the rainy season or heavy rains.

Therefore, in order to prevent this risk, dredging work is required to periodically clean sewage pipes to remove sediments so as not to disturb the flow of sewage. And such dredging work is usually performed by dredging cars. That is, the sewage pipe which is blocked by the ultra high pressure water injection method using the high pressure jet jet cleaner equipment is drilled, and the sludge which is separated from the sewage pipe is recovered by the vacuum suction method using the vacuum pump.

Referring to FIG. 1, a conventional dredging vehicle 1 has a double tank 5 mounted on a vehicle body 2, and the double tank 5 is used as high pressure water for scraping sludge and dirt from a sewer pipe. It is configured to be separated into the water tank (3) to be stored and the sludge tank (4) for recovering the sludge after the dredging operation. And the water stored in the water tank (3) is injected at a high pressure through a high pressure water pump (not shown) and at the same time provide a driving force of the jet nozzle (6), the jet nozzle (6) is deposited in the sewer pipe by the driving force After scraping out the sludge and the dirt, it is made of a structure for collecting the sludge and dirt containing sewage and dirt by using the suction pipe (8) through the vacuum pump (7) to recover the sludge tank (4).

Such a conventional dredging car has no problem in performing the fundamental purpose of removing sludge and sewage in sewage pipes, but there is a problem in the post-treatment process of waste treatment of sludge and sewage recovered to the sludge tank during dredging work. In other words, since the waste treatment shop does not accept the mixed waste of sludge and sewage, it was necessary to separate the sludge and sewage when the waste is treated. Therefore, conventionally, after opening the door provided in the sludge tank, the sludge and sewage stored in the sludge tank are first transferred to a separate loading box (a specially designed loading box for separating the sludge and the sewage), and the sewage is separated from the loading box and drained. Then, the sludge was disposed of again by transporting the sludge to a separate conveying means (for example, a dump truck) and transported to a waste treatment plant. As described above, the sludge treatment operation is very inconvenient and cumbersome, and because the loading box for separating the sludge and sewage is expensive, the place where the loading box is installed is limited, and thus, the operation of transporting the sewage sludge to the place where the loading box is installed is also very high. There was a problem that is inconvenient and time-consuming and expensive.

In addition, the conventional dredging car has a problem in that the sludge is attached to the inner peripheral surface of the suction pipe when the sludge in the sewage pipe through the suction pipe to recover the sludge tank to reduce the suction force. Of course, if the sludge stuck to the inner circumferential surface of the suction pipe is solidified, it is also very inconvenient to work with it, causing a problem that requires a separate working time.

The present invention has been made in order to solve the problems as described above, the purpose is to separate the waste recovered in the sewage pipe into the sludge and sewage in the sludge tank itself to drain the sewage and to send only the sludge to the transfer means It is to provide a dredging vehicle that can be transported and transported to a waste disposal plant.

Another object of the present invention is to provide a dredging car which prevents the sludge from adhering to the inner circumferential surface of the suction pipe when the sludge in the sewage pipe is sucked through the suction pipe and recovered into the sludge tank.

In order to achieve the above and other objects, the dredging vehicle according to the present invention maintains the inside of the sludge tank through a vacuum pump and vacuum sucks the sludge and sewage in the sewage pipe through the suction pipe associated with the sludge tank to recover the sludge tank. In the dredging car, a guide slant plate having a predetermined angle is installed at the bottom of the sludge tank so that the sludge introduced therein can be gathered in one place, and the suction pipe includes a refraction pipe, a flexible pipe, and an extension pipe. One end of the pipe is disposed in the sludge tank and the other end is disposed outside the vehicle, and the flexible pipe is connected to one end of the deflection pipe in the sludge tank through a pivoting joint and descends downwardly or upward through the rotation means. It is installed to be selectively rotated to be lifted up, and the extension tube is optional at the other end of the refractive tube Removably connected to the installation is installed to be inserted into the sewer pipe, the inside of the refraction pipe, the flexible pipe and the extension pipe is installed coil screws, respectively, these coil screws are connected to each other through a rotary joint in the same direction by the drive means Characterized in that it is configured to transfer the sludge while performing forward or reverse rotation.

The driving means includes a bracket fixedly extended to a portion of the sludge tank, a drive motor fixed to the bracket and selectively operated in a forward rotation or a reverse rotation, and connected to the coil screw to power the coil screw. It characterized in that it comprises a gearbox for transmitting to.

The rotating means may include a cylinder installed at a portion of the upper surface of the sludge tank so that the cylinder rod is operated in the sludge tank, one end of which is hingedly coupled to the end of the cylinder rod, and the other end is hinged to a portion of the flexible pipe. It is composed of a working arm coupled and rotatably coupled, characterized in that the flexible pipe is rotated by the stretching operation of the cylinder rod.

And the sludge tank rear surface is formed with a plurality of drain holes for discharging the internal sewage at predetermined intervals up and down, each valve is characterized in that it is configured to discharge the sewage valves that are selectively opened and closed.

The object of the present invention described above will become more apparent from the preferred embodiment of the present invention described below with reference to the accompanying drawings.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 2 is a partial side cross-sectional view showing the configuration of the dredging vehicle according to the invention, Figure 3 and Figure 4 is an operation of the dredging vehicle according to the invention.

Referring to Figure 2, the dredging vehicle according to the present invention is equipped with a double tank in the vehicle body 10, the double tank is a water tank (12) for storing the water used as high pressure water in the high-pressure jet jet cleaner operation, and dredging After the operation, the sludge is separated into a sludge tank 14 for recovering and storing the vacuum suction operation. And a portion of the water tank 12 includes a high pressure water pump (not shown) for spraying the stored water at a high pressure, the sludge tank 14 is connected to the vacuum pump 16 is installed to vacuum the inside of the sludge tank 14 It is configured to be kept in a state.

In particular, according to the present invention, the sludge tank 14, the inner bottom of the guide inclined plate 100 having a predetermined angle is installed to be configured so that the sludge introduced into one place. That is, the introduced sludge is configured to be guided along the inclined surface of the guide inclined plate 100 to continue to gather around one place, and the sewage is configured to be disposed above the sludge to be stacked.

In addition, the sludge tank 14 vacuum-sucks the sludge and sewage in the sewage pipe to recover the sludge into the sludge tank 14, and discharges the sludge recovered into the sludge tank 14 to separate transport means T (for example). , A dump truck, etc.) is provided with a suction pipe 200 which can be transported.

Suction tube 200 is configured to include a refractive tube 210, a flexible tube 220, an extension tube 230. That is, the refraction tube 210 is bent at both ends so that one end is disposed in the sludge tank 14 and the other end extends outside the vehicle to face downward. And the flexible pipe 220 is connected to one end of the refraction pipe 210 inside the sludge tank 14 through a pivoting joint 222, where the sludge is guided along the guide inclined plate through the rotation means. It is installed to be selectively rotated to descend to or lift upward. Here, as an example of the rotary joint 222, a swivel joint may be used, and if there is another rotary joint, it may be used. In addition, the rotation means for rotating the flexible tube 220 is the cylinder 300 and the cylinder rod 310 is installed on a portion of the upper surface of the sludge tank 14 so that the cylinder rod 310 is operated in the sludge tank 14. One end is hingedly coupled to the end and rotatably connected, and the other end is hinged to a portion of the flexible tube 220 and is configured to be rotatably connected to the operation arm 320. That is, the flexible tube 220 is rotated by the stretching operation of the cylinder rod 310. Such a rotation means has described an example of rotating the flexible tube, and if there is another method, the method may be applied. For example, it may be configured to rotate by installing a motor and a gear in a portion where the flexible tube and the refractive tube are connected. Next, the extension pipe 230 is selectively detachably connected to the other end of the refraction pipe 210 through the flange 232 and is installed to be inserted into the sewer pipe SP. At this time, the coil screw of the refraction tube 210 and the coil screw of the extension tube 230 is preferably configured to be selectively connected or separated from each other.

In addition, the inside of the suction pipe 200 guides the sludge to prevent it from sticking to the inner circumferential surface of the suction pipe 200 when the sludge is recovered into the sludge tank 14 and guides the coil screw for discharging the sludge stored in the sludge tank 14. 400 is installed. That is, the coil screw 400 is installed in the refraction tube 210, the flexible tube 220, the extension tube 230, respectively, the bending and connecting portion may be connected using the rotary joint 410. As an example of the rotary joint 410, a universal joint may be used. If there is another rotary joint, it may be used. On the other hand, the coil screw 400 connected to each other via the rotary joint 410 is configured to selectively perform the forward or reverse rotation in the same direction by the drive means.

Here, the driving means is a bracket 420 fixedly extended to a portion of the sludge tank 14, a drive motor 422 fixedly installed on the bracket 420 to selectively rotate the motor shaft forward or reverse, and the motor shaft And a gearbox 424 connected to the coil screw 400 to transfer the power of the driving motor 422 to the coil screw 400. This driving means has been described an example of rotating the coil screw, if there is another method may be applied to the method.

On the other hand, the rear of the sludge tank 14 is formed with a plurality of drain holes 500 for discharging the internal sewage at predetermined intervals up and down, each of the drain holes 500 is provided with a valve 510 that is selectively opened and closed. . That is, the water level for discharging sewage may vary according to the amount of sludge stored in the sludge tank 14, and the valve 510 corresponding to the water level may be opened to discharge the sewage.

Referring to the operation and effect of the present invention configured as described above, first to connect the extension pipe 230 as shown in Figure 3 in order to recover the sludge in the sewage pipe to the suction and sludge tank using the dredger according to the present invention. By extending the suction pipe 200 to the sewer pipe (SP), the flexible pipe 220 maintains the lifted state at a certain angle. That is, the extension pipe 230 is connected through the refraction pipe 210 and the flange 232, and the cylinder 300 is operated to lift the flexible pipe 220 upward through the operating arm 320. When the vacuum suction operation is performed in this state, sludge and sewage in the sewage pipe SP are sucked and recovered to the sludge tank 14. At this time, since the coil screw 400 is rotated by the driving means in the suction pipe 200, the sludge does not stick to the inside of the suction pipe 200, and the sludge is well guided to the sludge tank 14. Transferred. In addition, the sludge recovered in the sludge tank 14 is guided along the inclined surface of the guide inclined plate 100 to be stacked one by one and sewage is separated into the upper part of the sludge due to its characteristics.

When the sludge suction operation in the sewage pipe (SP) is completed by such an operation, the sludge and sewage are separated from the sludge tank 14 by passing a predetermined time while the extension pipe 230 is separated from the refraction pipe 210. do. Then, by opening the valve 510 corresponding to the level of sewage to discharge the sewage first. Next, as shown in FIG. 4, the operating arm 320 is operated through the cylinder 300 to rotate the flexible tube 220 downwardly to face the sludge and simultaneously drive the driving motor 422 of the driving means. It operates in the reverse direction to reverse the coil screw 400. When the coil screw 400 is reversely rotated, the sludge stacked in the sludge tank 14 is discharged through the flexible pipe 220 and the refraction pipe 210 while being guided along the coil screw. At this time, if the transfer means (T) such as a separate dump truck is disposed at the end of the extension tube 230 and the refraction tube 210 separated from the sludge is directly loaded into the loading box of the transfer means, directly through the transfer means to the waste treatment station. It will be transported. On the other hand, even if sewage remains in the sludge tank, since the sludge is guided and discharged upward along the conveying screw, the sewage is automatically dropped into the sludge tank, and as a result, it is not discharged together with the sludge.

As described above, the present invention is to separate the sludge and sewage in the sludge tank, the sewage is discharged to the sewage separately, but the sludge is transferred to the conveying means has the effect possible. In other words, since the sludge is separated from the dredging car and can be transported directly to the waste treatment station through a transportation method, it is not convenient to go to a separate intermediate treatment place and separate the sludge and sewage first, and then send the sludge to the waste treatment station. There is no box, therefore, it is very convenient to provide a work site, and there is an effect that can shorten the time for sludge post-treatment work.

In addition, the present invention has the effect that the coil screw is rotatably installed in the suction pipe so that the phenomenon that the sludge is recovered to the sludge tank through the suction pipe does not occur on the inner peripheral surface of the suction pipe.

While the invention has been shown and described in connection with specific embodiments as described above, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

Claims (4)

In the dredging car which maintains the inside of the sludge tank by a vacuum pump and vacuum sucks the sludge and sewage in the sewage pipe through the suction pipe connected with the sludge tank to recover the sludge tank. Guide slant plate having a predetermined angle is installed at the bottom of the sludge tank so that the sludge introduced can be gathered in one place, The suction tube includes a refraction tube, a flexible tube, and an extension tube, one end of the refraction tube is disposed in the sludge tank and the other end is disposed outside the vehicle, and the flexible tube is one end of the refraction tube in the sludge tank. Is connected through a pivotal joint to be installed to be selectively rotated to descend downward or lifted upward through the rotation means, the extension pipe is selectively detachably connected to the other end of the refractive pipe is inserted into the sewer pipe Installed properly, Coil screws are respectively installed in the refraction pipe, the flexible pipe, and the extension pipe, and the coil screws are connected to each other through a rotary joint, and configured to transfer sludge while performing forward or reverse rotation in the same direction by a driving means. Dredging car characterized by. The method of claim 1, The driving means includes a bracket fixedly extended to a portion of the sludge tank, a drive motor fixed to the bracket and selectively operated in a forward or reverse rotation, and connected to the coil screw to transfer power of the drive motor to a coil screw. Dredging car comprising a gearbox for transmitting. The method of claim 1, The rotation means is a cylinder installed on the upper portion of the sludge tank so that the cylinder rod is operated in the sludge tank, one end is hingedly coupled to the end of the cylinder rod rotatably connected and the other end is hinged to a portion of the flexible pipe And a working arm rotatably connected to each other, wherein the flexible pipe is rotated by expansion and contraction of the cylinder rod. The method according to any one of claims 1 to 3, Dredgers are characterized in that the rear of the sludge tank is formed with a plurality of drain holes for discharging the internal sewage at predetermined intervals up and down, each valve is installed to selectively open and close the drain .

Images