KR101298681B1 - Pressing apparatus for separable water pump provided with leakage prevention structure - Google Patents

Abstract

Detachable submersible pump having a leak-proof structure according to the present invention, the drainage pipe is connected to the outside of one end and the other end is disposed inside the tank is equipped with a manhole at the top is sewage; A pair of guide members extending vertically from the bottom of the tank; And engaging with the drainage pipe by lowering the inside of the tank by the lifting line along the guide member and engaging the flange provided in the drainage pipe, and slidably accommodating a leakage sealing operation sealing ring at a portion facing the drainage pipe. Submersible pump provided with a groove portion of the cylinder; And a crimping means provided to prevent the submersible pump from being separated upward from the drain pipe, wherein the crimping means comprises: a frame having a support hole penetrated in a vertical direction and detachably fixed to the manhole; A compression rod slidably installed in the support hole and configured to press the locking jaw of the submersible pump so as not to be separated upward from the flange provided in the drain pipe; And a compression plate installed to elastically press the upper end of the compression rod and fixed to the frame.

Description

Pressing apparatus for separable water pump provided with leakage prevention structure

The present invention relates to an apparatus for preventing the leakage of sewage from the connection portion of the water pump and pipes installed and operated in the storage tank for the transfer of sewage.

In general, manure, sewage, and wastewater from houses, apartments, hospitals, and other facilities, including sewage, are stored in septic tanks through sewage pipes and then transferred to relay pumping stations, and then to sewage treatment plants, large sewage treatment facilities. Sewage and wastewater transferred to the relay pumping station are stored in tanks of various sizes and transferred to other places according to the sewage treatment procedure. In this process, an underwater pump is used as a device for transferring sewage and wastewater stored in a tank to another tank or a facility for sewage treatment.

1 shows a layout of a conventional submersible pump. Referring to FIG. 1, a conventional submersible pump 1 is lowered into a tank 3 through a manhole 4 installed on an upper portion of the tank 3 by a lifting line 2, and then the bottom of the tank 3. It is coupled to the drain pipe (5) installed at a constant height from the operation is immersed in sewage. The coupling portion of the submersible pump 1 and the drain pipe 5 installed in such a structure is coupled to the locking jaw and the flange structure. The combined structure of the drain pipe 5 and the pump 1 is a submersible pump 1 descends along a pair of guides 6 fixed perpendicularly to the bottom of the tank 3 as shown in FIG. 2. The catching jaw 7 provided in (1) is caught by the flange of the drain pipe 5 so that the submersible pump 1 does not lower anymore and engages with the drain pipe 5.

However, in the conventional submersible pump 1 disposed as described above, vibration occurs as the submersible pump 1 operates and a phenomenon in which the submersible pump 1 floats over time occurs. Accordingly, there is a gap in the coupling portion between the submersible pump 1 and the drainage pipe 5, so that the sewage discharged from the submersible pump 1 is not properly delivered to the drainage pipe 5, and the pumping efficiency is lowered. ) And the contact surface of the drain pipe (5) is a problem caused by abrasion caused by sand or gravel contained in the sewage or waste water. In addition, in order to calibrate the coupling portion of the submersible pump 1 and the drain pipe 5 in this way, the operator must enter the tank, the environment inside the tank (3) is poor for the operator to work for a long time and very dangerous accident Due to its size, it is necessary to develop a device capable of calibrating the joint of the submersible pump 1 and the drain pipe 5 without the operator entering the tank 3.

An object of the present invention is to solve the above problems, to prevent the leakage of sewage by improving the structure of the coupling portion of the submersible pump and the drain pipe, the coupling state of the coupling portion without the operator entering the tank To provide a crimping device for a removable submersible pump having a leak-proof structure that can be corrected correctly.

In order to achieve the above object, the detachable submersible pump having a leak-proof structure according to an embodiment of the present invention, one end is disposed inside the tank having the sewage and the manhole is provided at the top and the other end thereof Drain pipe connected to the outside;

A pair of guide members extending vertically from the bottom of the tank; And

It is coupled to the drainage pipe by lowering the inside of the tank by the lifting line along the guide member and engaging the flange provided in the drainage pipe, and slidingly accommodating an operation sealing ring for preventing leakage in a portion facing the drainage pipe. Submersible pump having a cylindrical groove portion; And

And a crimping means provided to prevent the submersible pump from being separated upward from the drain pipe,

The pressing means,

A frame detachably fixed to the manhole and having a support hole penetrated in a vertical direction;

A compression rod slidably installed in the support hole and configured to press the locking jaw of the submersible pump so as not to be separated upward from the flange provided in the drain pipe; And

It is installed to elastically press the upper end of the pressing rod and a fixed plate fixed to the frame.

The pressing plate and the pressing rod is preferably coupled by any one of a spring, a pneumatic device, a hydraulic device.

Both ends of the frame are supported by the lower end of the manhole and preferably provided with a shock absorbing pad.

A pressure pipe installed inside the compression rod to apply an auxiliary pressure to the lower end of the compression rod;

A pressure gauge for measuring the pressure of the medium flowing into the pressure pipe; And

It is preferable to include a; valve for opening and closing the pressure tube.

Preferably, the medium is grease.

An induction bracket fixed to the submersible pump and contacting a lower end of the pressure pipe; And

It is preferable that a flow path for connecting the guide bracket and the groove portion.

Detachable submersible pump having a leak-proof structure according to the present invention, there is an advantage that can be installed and dismantled operation without the operator entering the tank. In addition, the pressurizing device according to the present invention has an advantage that the water pump does not rise during operation because the elastically pressurized the water pump downward by the compression rod does not occur in the connection portion of the water pump and the drain pipe. In addition, as in the present embodiment, the auxiliary pressurizing means including the pressurizing pipe, the pressure gauge, and the valve provides an effect of better maintaining the airtightness of the drainage pipe and the submersible pump by more precisely controlling the pressing force of the pressing device. . In addition, as in the present embodiment, by installing a leak-proof operation sealing ring at the coupling portion of the submersible pump and the drain pipe, the airtightness between the drain pipe and the submersible pump can be better maintained.

1 is a view showing the arrangement of a conventional submersible pump.
2 is a view showing a coupling portion of the water pump and the drain pipe shown in FIG.
3 is a view showing the arrangement of the submersible pump according to an embodiment of the present invention.
4 is a view showing a coupling portion of the water pump and the drain pipe shown in FIG.
FIG. 5 is a schematic cross-sectional view of the combined state shown in FIG. 4.

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

3 is a view showing the arrangement of the submersible pump according to an embodiment of the present invention. 4 is a view showing a coupling portion of the water pump and the drain pipe shown in FIG. FIG. 5 is a schematic cross-sectional view of the combined state shown in FIG. 4.

3 to 5, the detachable submersible pump (10, hereinafter referred to as "compression device") having a leak-proof structure according to an embodiment of the present invention is installed in the tank containing the waste water drain pipe ( 20) is a device for strengthening the coupling structure of the submersible pump 40.

The crimping device 10 includes a drain pipe 20, a guide member 30, a submersible pump 40, and a crimping means.

One end of the drain pipe 20 is disposed in the tank 100. The other end of the drain pipe 20 is connected to the outside of the tank 100. The drain pipe 20 is installed to be fixed to the bottom or wall of the tank 100. The tank 100 is a closed space in which manure or sewage is accommodated. The upper part of the tank 100 is provided with a manhole 110. In order to transport the sewage contained in the tank 100, the pressing means is installed in the manhole 110. One end of the drain pipe 20 is provided with a flange 22. The flange 22 is a portion that engages with the engaging jaw 44 when the submersible pump 40, which will be described later, is lowered and coupled.

The guide member 30 extends vertically from the bottom of the tank 100. The guide member 30 is provided with a pair. The pair of guide members 30 are disposed to be spaced apart from each other. The guide member 30 extends from the bottom of the tank 100 toward the ceiling of the tank 100. The guide member 30 serves to guide when the submersible pump 40 to be described later is lowered.

The submersible pump 40 is a device for transferring the sewage contained in the tank 100 to the drain pipe (20). The submersible pump 40 is lowered into the tank 100 by the lifting line 42 along the guide member 30, and the locking jaw 44 is caught by the flange 22 provided in the drain pipe 20. It is combined with the drain pipe 20. The locking jaw 44 is a portion that is engaged with the flange 22 provided in the drain pipe 20. The submersible pump 40 is provided with a working sealing ring 46 for preventing water leakage at a portion facing the drain pipe 20. The operation sealing ring 46 is slidably accommodated in the groove 41 in the form of a cylinder formed concave on the pump 40 side. The groove portion 41 in which the operation sealing ring 46 is accommodated is connected to the upper surface of the induction bracket 48 to be described later by a flow path 49. Induction bracket 48 is installed in the submersible pump 40, the lower end of the pressing rod 60, which will be described later is a portion for applying pressure. It has been described above that the flow path 49 connecting the groove portion 41 in which the operation sealing ring 46 is accommodated is provided from the center of the upper surface of the induction bracket 48. The flow path 49 may be provided by combining the submersible pump 40 and a separate pipe, or may be provided integrally with the submersible pump 40.

The crimping means is provided to prevent the submersible pump 40 from being separated upward from the drain pipe 20. The crimping means includes a frame 50, a crimping rod 60, a crimping plate 70, and a shock absorbing pad 54.

The frame 50 is detachably fixed to the manhole 110. The frame 50 may be detachably fixed to the side wall of the manhole 110 by fixing means such as bolts. On the other hand, the frame 50 may be detachably fixed to the side wall of the manhole 110 by means such as a hook. The frame 50 is provided with a support hole 52 penetrated in a direction perpendicular to the ground. The support hole 52 is provided so that the compression rod 60 to be described later is installed. The frame 50 may be made of a metal material such as steel, for example. Shock absorbing pads 54 are provided at both ends of the frame 50. The shock absorbing pad 54 is supported at the lower end of the manhole 110. The shock absorbing pad 54 may be formed of a material having elastic restoring force such as a rubber pad.

The pressing rod 60 is slidably installed in the support hole 52. The pressing rod 60 is a member in the form of a long rod. An upper portion of the compression rod 60 is provided with a separation prevention pin 62. The release preventing pin 62 is provided to prevent the pressing rod 60 from being inadvertently separated from the support hole 52. The anti-separation pin 62 is caught in the upper end or the lower end of the support hole 52 as shown in FIG. 3 so that the pressing rod 60 is not separated from the support hole 52. The lower end of the compression rod 60 presses the submersible pump 40 downward so that the locking jaw 44 of the submersible pump 40 is not separated upward from the flange 22 provided in the drain pipe 20. do.

The pressing rod 60 has been described above to prevent the submersible pump 40 from being separated from the drain pipe 20 by pressing the submersible pump 40 downward by the pressing plate 70. . In this embodiment, by applying an additional pressure to the operation sealing ring 46 through the pressing rod 60, there is provided an auxiliary pressurizing means for preventing leakage between the submersible pump 40 and the drain pipe 20. It is. The auxiliary pressurizing means includes a pressurizing pipe 80, a pressure gauge 82, and a valve 84.

The pressure tube 80 is a tube installed inside the pressing rod 60 to apply an auxiliary pressure to the lower end of the pressing rod 60. The pressure tube 80 may generate pressure to the lower end of the pressure tube 80 by the medium flowing from the outside. The pressure generated at the lower end of the pressure tube 80 contributes to applying a force to the operation sealing ring 46 so that water leakage does not occur at the site where the drainage pipe 20 and the submersible pump 40 are coupled.

The pressure gauge 82 is provided to measure the pressure of the medium flowing into the pressure pipe (80). The valve 84 is provided to open and close the pressure tube 80 to control the flow of the medium flowing into the pressure tube 80. The medium flowing into the pressure pipe 80 may be, for example, grease. The grease has a high viscosity, so that even if it is exposed to sewage, it is possible to apply pressure to the submersible pump 40 without being diluted by the sewage. Meanwhile, a medium such as air or oil may be employed as the medium flowing into the pressure pipe 80.

The pressing plate 70 is installed to elastically press the upper end of the pressing rod 60. The pressing plate 70 is fixed to the top of the frame 50, for example by a fixing means such as bolt (74). The pressing plate 70 and the pressing rod 60 are coupled to each other by elastic pressing means such as, for example, a spring 72. On the other hand, the pressing plate 70 and the pressing rod 60 may be elastically connected by a known pneumatic device or a hydraulic device.

Hereinafter, the operation and effect of the present invention will be described in detail by taking the process of installing and separating the pressing device 10 according to the present invention to the tank 100 as an example.

First, a case in which the pressing device 10 is installed in a tank will be described.

Sewage is filled in the tank 100. It is now assumed that the sewage contained within the tank 100 needs to be transferred to another place. In general, the shape of the manhole 110 of the tank 100 is a square shape. The frame 50 and the pressing rod 60 of the pressing device 10 are installed in the tank 100 in a state where they are coupled to each other. The installation process is as follows. That is, the frame 50, the compression rod 60, and the submersible pump 40 enter the tank 100 through the manhole 110 using a crane. In this process, the guide groove 45 of the submersible pump 40 suspended by the lifting rope 42 is coupled to the guide member 30, and then the submersible pump 40 is driven by the weight of the submersible pump 40. It descends along the guide member 30. The compression rod 60 descends naturally with the frame 50. Before the locking projection 44 of the submersible pump 40 is coupled to the flange 22 of the drain pipe 20, the frame 50 is rotated by 45 ° around the compression rod 60. This is to avoid both ends of the frame 50 longer than the width of the manhole 110 to interfere with the side wall of the manhole 110. That is, since the diagonal direction of the square manhole 110 is greater than the length of the frame 50, the frame 50 may enter the tank through the manhole 110. After the frame 50 enters the tank, the frame 50 is rotated back by 45 °. The frame 50 is fixed to the side wall of the manhole 110 by fixing means such as a bolt. The submersible pump 40 is lowered by its own weight along the guide member 30, and the drainage pipe 20 and the submersible pump 40 are coupled to each other by the catching jaw 44 being caught by the flange 22. . The submersible pump 40 by adjusting the locking amount of the bolt 74 installed on the crimping plate 70 to press the induction bracket 48 fixed to the submersible pump 40 by the lower end of the compression rod 60. And the drain pipe 20 is firmly coupled. Since the submersible pump 40 is pressurized downward by the compression rod 60, even if a floating pressure occurs during operation of the submersible pump 40, the drain pipe 20 and the submersible pump 40 are not separated. By doing so, leakage is prevented. In addition, by pressing the grease (grease) to the induction bracket 48 through the pressure pipe 80 provided as the auxiliary pressing means it can ensure a more stable pressure effect. In addition, in the present embodiment, the submersible pump 40 is provided with a leak-proof working sealing ring 46 pressurized by the pressurizing pipe 80 at a portion facing the drainage pipe. It was possible to better maintain the airtight between the pump (40).

Now, a case in which the pressing device 10 is separated from the tank 100 will be described. In order to separate the pressing device 10 from the tank 100, the installation process may be performed in the reverse order. That is, the pressure applied through the pressure pipe 80 is removed by blocking the valve 84, and the bolt of the pressing plate 70 is released by a predetermined amount to remove the pressure applied to the pressing rod 60. In addition, after releasing the coupling between the frame 50 and the manhole 110, the pressing device 10 may be removed in the reverse order of the installation using the crane.

As described above, the pressurizing device according to the present invention has an advantage in that the worker can install and dismantle the work without entering the tank. In addition, the pressurizing device according to the present invention has the advantage that the water pump does not rise during operation because the elastically pressurized the water pump downward by the compression rod does not occur in the connection portion of the water pump and the drain pipe. In addition, as in the present embodiment, the auxiliary pressurizing means including the pressurizing pipe, the pressure gauge, and the valve provides an effect of better maintaining the airtightness of the drainage pipe and the submersible pump by more precisely controlling the pressing force of the pressing device. . In addition, as in the present embodiment, by installing a leak-proof operation sealing ring at the coupling portion of the submersible pump and the drain pipe, the airtightness between the drain pipe and the submersible pump can be better maintained.

While the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not to be limited by the example, and various changes and modifications may be made without departing from the spirit and scope of the invention.

10: Crimping device for detachable submersible pump with leakproof structure
20: drain pipe 22: flange
30: guide member 40: submersible pump
41: groove 42: lifting rope
44: jam jaw 45: guide groove
46: sealing ring for preventing leakage 48: induction bracket
49: Euro 50: frame
52: support hole 54: shock absorbing pad
60: crimping rod 62: separation prevention pin
70: pressing plate 72: spring
74: bolt 80: pressurized pipe
82: pressure gauge 84: valve
100 tank 110 manhole

Claims (6)

A drain pipe, one end of which is disposed inside a tank having sewage and having a manhole on the top thereof, and the other end of which is connected to the outside of the tank;
A pair of guide members extending vertically from the bottom of the tank; And
It is coupled to the drainage pipe by lowering the inside of the tank by the lifting line along the guide member and engaging the flange provided in the drainage pipe, and slidingly accommodating an operation sealing ring for preventing leakage in a portion facing the drainage pipe. Submersible pump having a cylindrical groove portion; And
And a crimping means provided to prevent the submersible pump from being separated upward from the drain pipe,
The pressing means,
A frame detachably fixed to the manhole and having a support hole penetrated in a vertical direction;
A compression rod slidably installed in the support hole and configured to press the locking jaw of the submersible pump so as not to be separated upward from the flange provided in the drain pipe; And
Compression apparatus for a removable submersible pump having a leak-proof structure, characterized in that it is provided to elastically press the upper end of the compression rod and a fixed plate fixed to the frame. The method of claim 1,
The pressing plate and the pressing rod is a crimping device for a removable submersible pump having a leak-proof structure, characterized in that coupled by any one of a spring, a pneumatic device, a hydraulic device. The method of claim 1,
Both ends of the frame is supported on the lower end of the manhole and the pressure-removable crimping apparatus for a water submersible pump having a leak-proof structure, characterized in that provided with a shock absorbing pad. The method of claim 1,
A pressure pipe installed inside the compression rod to apply an auxiliary pressure to the lower end of the compression rod;
A pressure gauge for measuring the pressure of the medium flowing into the pressure pipe; And
And a valve for opening and closing the pressurized pipe. The apparatus for detachable submersible pump having a water leakage preventing structure comprising a. 5. The method of claim 4,
Decompression apparatus for a detachable submersible pump having a leak-proof structure, characterized in that the medium is grease. 5. The method of claim 4,
An induction bracket fixed to the submersible pump and contacting a lower end of the pressure pipe; And
Compression apparatus for a removable submersible pump having a leak-proof structure, characterized in that the flow passage connecting the induction bracket and the groove.

Images