KR100809614B1 - Apparatus for transferring sludge - Google Patents

Abstract

An apparatus for transporting sludge is provided to operate one cylinder or a pumping tube continuously even while performing a work for repairing or maintaining the other pumping tube or the other cylinder, thereby transporting the sludge without interruption. An apparatus for transporting sludge comprises first and second pumping tubes(111,112) disposed in parallel with each other and connected to a hopper(100), first and second cylinders(121,122) respectively installed on the first and second pumping tubes, and a switch pipe(130) for connecting a discharge tube(150), which is extended from the hopper, to one of the first and second pumping tubes. A first connection pipe(141) connects two input tubes(161,162), which supply hydraulic oil to the first ad second cylinders. A second connection pipe connects ports of the first and second cylinders, thereby supplying hydraulic oil to another cylinder when performing a discharge operation. A third connection pipe(143) connects the first connection pipe and the second connection pipe. Each of the first and second connection pipes is divided into two regions by connection with the third connection pipe. First to sixth valves(144-149) are installed at the regions(S1-S4) of the first and second connection pipes and at the two input tubes, respectively, thereby checking flow channels of the regions of the first and second connection pipes and the input tubes.

Description

Sludge Transfer Device {Apparatus for transferring sludge}

1 is a plan view of a conventional piston pump,

2 is a plan view of the sludge conveying apparatus according to a preferred embodiment of the present invention,

3 is an enlarged view showing a detailed configuration of a valve device according to the present invention;

4 is a plan view showing a state in which only the first cylinder is controlled to operate by the valve device according to the present invention;

5 is a plan view showing a state in which only the second cylinder is controlled to operate by the valve device according to the present invention;

<Description of the symbols for the main parts of the drawings>

100: hopper 111: first pumping pipe

112: second pumping pipe 121: first cylinder

122: second cylinder 130: switching pipe

140: valve device 141: first connector

(142): second connector (143): third connector

(144,145,146,147,148,149): 1st, 2, 3, 4, 5, 6 valve

The present invention relates to a sludge conveying device for transporting sludge generated in various industrial sites or wastewater treatment plants, and in particular, in the transport of sludge, it is possible to prevent the transport of the sludge during the operation period for the maintenance of the conveying device to be stopped. A sludge feed device.

In general, sludge is a mud-type waste that contains a lot of water and is generated in various industrial sites, wastewater treatment plants, and food treatment plants. Since the sludge contains many organic substances, if it is disposed of as it is, it becomes a factor of environmental pollution such as polluting the soil, groundwater and seawater due to the decay of organic substances, and the generated sludge is recycled or incinerated through a predetermined treatment process. have.

On the other hand, the pump is often used for the transport of the sludge in the treatment of the sludge as described above, there is a closed end impeding the impeller of the pump or clogged inlet and outlet by various foreign substances included in the sludge to prevent the smooth pumping. In order to prevent damage to the impeller due to foreign matters, a strainer was installed on the inlet side of the pump. .

Meanwhile, some piston pumps are used to smoothly transport the sludge. 1 shows a plan view of a conventional piston pump. Referring to FIG. 1, a conventional piston pump has two pumping pipes 21 and 22 arranged side by side and connected to a hopper 10 to which sludge is supplied, and two cylinders respectively installed at the pumping pipes 21 and 22. 31, 32, a switching pipe 40 allowing the discharge pipe 30 extending from the hopper 10 to be connected to one of the two pumping pipes 21 and 22, and the switching pipe 40. Consists of a not shown switching cylinder for rotating the. The piston pump is configured to discharge the sludge without interruption of the other cylinder by the discharge operation during the suction operation of one cylinder, wherein the pressurized oil discharged from the discharge operation cylinder flows into the other cylinder Ports of the two cylinders 31 and 32 are connected through the connecting pipe 60 so that the other cylinder performs the suction operation so that the two cylinders 31 and 32 naturally perform different operations.

However, in the conventional piston pump as described above, when the failure of one cylinder or the replacement of the piston ram is required, the entire operation of the pump is required. There is a problem that affects the preceding process or the following process by being loaded.

The present invention has been made in consideration of the above problems, and an object of the present invention is to provide a sludge conveying apparatus that does not stop the transfer of sludge even when performing maintenance work for the replacement or repair of parts.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional drawbacks are arranged side by side to the first and second pumping pipe connected to the hopper fed sludge, and the first and second pumping pipe A sludge having first and second cylinders respectively installed, a switching pipe for allowing the discharge pipe extending from the hopper to be connected to one of the first and second pumping pipes, and a switching cylinder for rotating the switching pipe. In the conveying device,

A first connecting pipe interconnecting two inlet pipes for supplying pressure oil to the first and second cylinders;

A second connecting pipe connecting the ports provided in the first and second cylinders to supply pressure oil to another cylinder during a discharge operation;

A third connector connecting the first connector and the second connector; And

It is installed in each region (S1, S2, S3, S4) of the first and second connectors divided into two regions by the connection with the third connector, respectively installed in the two inlet pipes And a first, second, second, third, fourth, fifth, and sixth valves for controlling the region and the flow paths of the two inlet pipes.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Figure 2 shows a plan view of the sludge conveying apparatus according to a preferred embodiment of the present invention. 2, the sludge conveying apparatus according to a preferred embodiment of the present invention, the first and second pumping pipes (111, 112), the first and second cylinders (121, 122), the switching pipe 130, and the first and second Work of the pumping pipe for maintenance of any one cylinder or pumping pipe with a valve device 140 for controlling the flow of pressure oil supplied to the cylinders 121 and 122 or discharged from the first and second cylinders 121 and 122. Even if this is stopped, the other pumping pipe is configured to continue to operate to prevent the transfer of the sludge during the working period, each component will be described in detail as follows.

First, the first and second pumping pipes 111 and 112, the first and second cylinders 121 and 122, and the switching pipe 130 will be briefly described. The first and second pumping pipes 111 and 112 are hoppers 100 through which sludge is supplied. The first and second cylinders 121 and 122 are arranged side by side at one side) and are installed to operate in the first and second pumping pipes 111 and 112, respectively, to be configured to suck or discharge the sludge through the pumping pipe. In addition, the switching pipe 130 is disposed in the hopper 100 is configured to rotate so that the pumping pipe and the discharge pipe 150 for the discharge operation is connected. At this time, the switching pipe 130 is connected to a switching cylinder (not shown) which is installed on the outside of the hopper 100 is configured to rotate by receiving power.

Figure 3 shows an enlarged view showing a detailed configuration of the valve device according to the invention, Figure 4 shows a plan view showing a state in which only the first cylinder is controlled by the valve device according to the invention, Figure 5 shows a plan view showing a state in which only the second cylinder is controlled by the valve device according to the present invention. The valve device 140 controls the flow of the pressurized oil flowing into or out of the first cylinder 121 and the second cylinder 122 to operate both cylinders or to temporarily maintain a cylinder for maintenance. When the stop is required, the hydraulic pressure supplied to the cylinder is interrupted, but the hydraulic pressure is supplied to the other cylinder normally, and the first connecting pipe 141, the second connecting pipe 142, and the third connecting pipe ( 143 and first, second, third, fourth, fifth, and sixth valves (144, 145, 146, 147, 148, 149).

The first connecting pipe 141 is connected to the first and second cylinders 121 and 122 so as to interconnect two inflow pipes 161 and 162 to supply pressure oil, and the second connecting pipe 142 is connected to the first and second cylinders 142 and 122. By connecting the ports provided in the cylinders 121 and 122 to each other, the pressurized oil discharged during the discharge operation of one cylinder is introduced into the other cylinder, and the other cylinder is installed to perform the suction operation. The first connecting pipe 141 and the second connecting pipe 142 are connected to form a flow path.

Meanwhile, the first, second, third, fourth, fifth, and sixth valves 144, 145, 146, 147, 148, and 149 are connected to the third connector 143 to divide the first connector 141 and the second connector 142 into two regions. Each region S1, S2, S3, S4 and two inlet pipes 161, 162 are provided. In more detail, the first valve is installed in the inlet pipe 161 connected to the first cylinder 121, and the second valve is installed in the inlet pipe 162 connected to the second cylinder 122. Meanwhile, the third and fourth valves 146 and 147 are installed in the two regions S1 and S2 of the first connecting tube 141 divided by the connection of the third connecting tube 143, respectively, and the fifth and sixth valves 148 and 149. ) Are respectively installed in two regions S3 and S4 of the second connecting tube 142 divided by the connection of the third connecting tube 143.

When the valve device 140 normally operates all of the first and second cylinders 121 and 122, the remaining valves 144, 145, 148 and 149 except for the third and fourth valves 146 and 147 remain open. On the other hand, if the stop of the operation is required for maintenance of one cylinder, the valve shuts off the flow path so that the pressure oil does not flow into the cylinder. For example, when maintenance of the second cylinder 122 is required, the second, third, and sixth valves 145, 146, and 149 are closed, and the first, fourth, and fifth valves 144, 147, and 148 are kept open so that the first cylinder ( The pressure oil is introduced into the 121 and the pressure oil discharged from the first cylinder 121 discharges the second connection pipe 142, the third connection pipe 143, and the inflow pipe 162 on the second cylinder 122 side. The flow path is formed to be drained through.

Meanwhile, the maintenance operation may further include first and second knife gate valves 171 and 172 for blocking sludge from flowing into the corresponding pumping pipe. When the first and second knife gate valves 171 and 172 are installed at the suction side of the first and second pumping pipes 111 and 112, and maintenance of the cylinder is required, the first and second knife gate valves 171 and 172 block the suction side flow paths of the pumping pipe. It will help ease.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention can prevent the sludge transfer from being interrupted during the maintenance / repair period by allowing the other cylinder to be continuously operated even during the operation for maintenance or repair of any one pumping pipe or cylinder as described above. It became.

Claims (2)

First and second pumping pipes 111 and 112 arranged in parallel and connected to the hopper 100 to which sludge is supplied; first and second cylinders 121 and 122 respectively installed in the first and second pumping pipes 111 and 112; In the sludge conveying apparatus having a switching pipe 130 for allowing the discharge pipe 150 extending from the hopper 100 to be connected to any one of the first and second pumping pipes (111, 112), A first connecting pipe 141 interconnecting two inflow pipes 161 and 162 for supplying pressure oil to the first and second cylinders 121 and 122; A second connecting pipe 142 which connects ports provided in the first and second cylinders 121 and 122 to each other to supply pressure oil to another cylinder during a discharge operation; A third connecting pipe 143 connecting the first connecting pipe 141 and the second connecting pipe 142; And Is installed in each region (S1, S2, S3, S4) of the first connecting pipe 141 and the second connecting pipe 142 divided into two areas by the connection with the third connecting pipe 143, Sludge installed in the two inlet pipes 161 and 162, respectively, and the first, second, third, fourth, fifth and sixth valves 144, 145, 146, 147, 148 and 149 to control the flow path of each region and the two inlet pipes 161 and 162. Conveying device. The method of claim 1, Installed in the first pumping pipe 111 and the second pumping pipe 112, respectively, characterized in that it further comprises a first, second knife gate valve (171, 172) to block the inflow of sludge during work for maintenance Sludge feeder.

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