KR20110019633A - Waterproof structure and monitoring device for underwater pump - Google Patents

Abstract

PURPOSE: A waterproof structure and a monitoring apparatus of a submerged pump are provided to prevent the infiltration of water into the pump body containing a motor and monitor water infiltration into the submerged pump. CONSTITUTION: A waterproof structure of a submerged pump comprises a main body(120) in which a motor is installed, an upper casing(140) which is installed in the upper side of the main body and leads cables in and out through an inlet(141) and an outlet(142), an impeller(160) which is installed on the lower side of the motor shaft, a lower casing(180) which is installed in the lower side of the main body to protect the impeller, and a lower cover(190). In the upper casing, an air pocket(145) is formed in the area higher than the inlet and a water leakage sensor(146) is installed on the bottom surface.

Description

Waterproof Structure And Monitoring Device For Underwater Pump

The present invention relates to a waterproof structure and a monitoring device of a submersible pump, and more particularly, to prevent water from penetrating into the submersible pump during operation of a large submersible pump used in a drainage pumping station and the like, and also to seep water into the submersible pump. The present invention relates to a waterproof structure and a monitoring device of an underwater pump capable of remotely monitoring whether or not it is.

Recently, due to rapid climate change caused by global warming, flood damage due to localized torrential rain is occurring. In order to prevent flooding caused by flooding, the expansion of large drainage pumping stations is required, but since large-scale drainage pumping stations have been mainly installed, a large amount of financial resources are needed, such as building buildings for installing the pumping. Increasingly, submersible pumps are installed in a reservoir where sewage, such as rainwater, is collected without the need for a separate building to install the pump.

The conventional submersible pump 100 is installed inside the column pipe 20 fixed through the upper wall 10 of the drainage pumping station reservoir as shown in FIG. 1.

The column pipe 20 has an inlet 22 which is installed near the bottom of the reservoir, and an outlet 24 for discharging the sewage sucked through the inlet 22, and the outlet 24 is a column. It is installed on the side of the pipe 20. The upper end of the column pipe 20 facing the inlet is closed by an upper flange 26. The submersible pump 100 is installed at the inlet 22 side of the column pipe 20 to suck the sewage in the reservoir and discharge it to the outlet 24, and the discharged sewage flows into the river or the like. I will go.

In addition, in order to install the submersible pump 100, first lift the submersible pump 100 through a crane or the like and insert it into the column pipe 20, and seat it on the end 25 installed at the inlet side of the column pipe 20. do. The portion of the rope 30 used at the time of lifting was connected to the crane side is fixed to the column pipe so that it can be used again when lifting is needed to repair or replace the water pump in the future.

The voltage cable 40 for supplying power to the submersible pump 100 and the control cable 50 for controlling the pump include a cable gland 42 at the top of the submersible pump 100 and a cable gland at the top of the upper flange 26. Each of them is fixed at 44.

2 is a cross-sectional view showing the structure of a conventional submersible pump.

The submersible pump 100 includes a main body 120 in which the motor 110 is installed, an upper casing 140 installed in the upper part of the main body, and a lower end of the shaft 115 of the motor 110. The impeller 160 and the lower casing 180 which protects the impeller 160 and is installed below the main body 120 are roughly classified.

The shaft 115 of the motor is supported by bearings 111 and 112 provided at the lower end of the upper casing 140 and the upper end of the lower casing, respectively. Guide pieces 186 are formed between the outer wall portion 184 and the inner wall portion 182 of the lower casing 180 to guide the flow of sewage by the impeller 16. Inside the lower casing 180, a seal 116 is provided in addition to the bearing 112, thereby preventing water from flowing into the motor.

 In addition, the cable gland 42 of the voltage cable 40 and the control cable 50 is provided outside the upper casing 140, and a control unit (not shown) is installed inside. The voltage cable 40 and the control cable 50 are introduced into the submersible pump through the upper casing 140, and the voltage cable 40 supplies power to the coil of the motor. Normally, the voltage supplied to the submersible pump used in the drainage pumping station is about 3300 volts, which is very dangerous when the coil of the motor is submerged. Therefore, the waterproofing of both the junction surface between the upper and lower casings and the main body and the inflow path of the voltage / control cable is performed. However, this waterproofing can deteriorate with time and prevent water from penetrating into the submersible pump. There is a high possibility of causing a breakdown and failure, and if such a failure prevents proper use at the time when the actual submersible pump needs to be operated, there is a possibility that drainage is impossible and the entire surrounding area is flooded, causing great loss. there was. Therefore, although the water leakage sensor 122 is provided to detect whether water has penetrated the inside of the motor, a conventional water leakage sensor has a problem that is likely to cause a malfunction because it uses a lot of floating type. Accordingly, there is a need for a structure that prevents water from penetrating into the motor and a reliable monitoring method.

In addition, the sewage that passes through the submersible motor contains not only water but also various foreign substances such as wood chips and scrap metal, and the flow rate of the sewage through the submersible motor is very fast. Many cases are damaged by the foreign matter. Therefore, it is necessary to periodically detect whether the cable is damaged or not, but the upper flange, which closes the top of the column pipe, weighs more than a hundred kilograms and is fastened by dozens of large bolts. Another problem is that it is very difficult to check the cables inside.

Therefore, a more reliable waterproof structure is required to prevent water from flowing into the submersible motor and to prevent the power and control signals from shorting even if the water is introduced. Also, the inflow of water into the submersible motor or the cable connected to the submersible motor is required. There is a need for a monitoring device capable of monitoring the condition at all times.

The present invention has been made to solve the above-mentioned conventional problems, while providing a waterproof structure to prevent water from penetrating into the body portion with the motor, while monitoring or whether the water is penetrated into the submersible pump underwater An object of the present invention is to provide a waterproof structure and a monitoring device of an underwater pump that can monitor the health of various cables connected to the pump.

Underwater pump waterproof structure of the present invention for achieving the above object,

A main body unit in which the motor is installed inside, an upper casing installed in the upper part of the main body part, an impeller installed in the lower end of the shaft of the motor, and a lower casing protecting the impeller and installed in the lower part of the main body part In the submersible pump installed in the column pipe of the drainage pump station,

The upper casing is provided with an inlet through which the cable is inserted, and has an outlet for leading the drawn cable into the main body, wherein the inlet is lower than the outlet and higher than the position of the inlet in the upper casing. The area is characterized in that the air pocket is formed.

It is also preferable that the inner bottom surface of the upper casing is configured with an inclined surface, and a leak detection sensor is installed at the lower end of the inclined surface.

In addition, it is also preferable to further include a lower cover fitted to the shaft of the motor so that the air pocket is formed in the seal mounting position of the lower casing.

The monitoring device of the present invention,

A main body unit in which the motor is installed inside, an upper casing installed in the upper part of the main body part, an impeller installed in the lower end of the shaft of the motor, and a lower casing protecting the impeller and installed in the lower part of the main body part In the monitoring device of the submersible pump installed in the column pipe of the drainage pump station,

The upper casing is provided with an inlet through which the cable is inserted, and has an outlet for leading the drawn cable into the main body, wherein the inlet is lower than the outlet and higher than the position of the inlet in the upper casing. The area is made to form an air pocket,

A camera and an illumination lamp for observing the inside of the upper casing are installed in the inner casing inner region where the air pocket is formed.

Another monitoring device of the present invention,

A main body unit in which the motor is installed inside, an upper casing installed in the upper part of the main body part, an impeller installed in the lower end of the shaft of the motor, and a lower casing protecting the impeller and installed in the lower part of the main body part In the monitoring device of the submersible pump installed in the column pipe of the drainage pump station,

The upper flange that closes the top of the column pipe preferably forms part of it as a transparent window so that the inside can be observed.

It is also preferable to install a wiper on the column pipe side of the transparent window, and to install a camera and a lamp for lighting on the opposite side.

According to the present invention having the above configuration, water does not penetrate into the main body where the motor is installed, so that power and control-related devices can be operated safely and prevent the failure of the underwater motor, and also the water into the submersible pump. It is possible to monitor whether it is infiltrated and to monitor the soundness of various cables connected to the submersible pump remotely, which makes the management of the drainage pump site more convenient and increases the reliability.

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

3 is a cross-sectional view showing the structure of an underwater pump according to an embodiment of the present invention.

The submersible pump of the present embodiment is also a conventional submersible pump, the overall structure of the main body 120, the motor 110 is installed therein, the upper casing 140 is installed on the upper body and the cable is inserted The impeller 160 is installed at the lower end of the shaft 115 of the motor and the lower casing 180 is protected in the impeller 160 and is installed below the main body.

The upper casing is provided with an inlet 141 through which the cable is inserted, and has an outlet 142 for drawing the cable into the main body, and the inlet 141 is located at a position thereof than the outlet 142. Area 145, which is lower and higher than the position of the inlet in the upper casing, is such that an air pocket is formed. Accordingly, even when water enters the inlet 141, since the outlet 142 is formed in the air pocket area 145 inside the upper casing 140 higher than the position of the inlet 141, the cable passes along the path. Water will not seep into the motor. In addition, the inner bottom surface of the upper casing is formed as the inclined surface 147. It is also preferable to install the leak detection sensor 146 at the lowermost end of the inclined surface 147 so that water can seep into the upper casing.

In the air pocket region 145 of the upper casing 140, it is also preferable to install a camera and a lamp for lighting so that whether water has penetrated inside the upper casing can be visually checked directly from a remote location through the camera. The installation of the lamp for the camera and the camera in the air pocket area 145 of the upper casing 140 can be implemented according to the present application without any difficulty for those skilled in the art and a detailed description thereof will be omitted.

In addition, a separate cable fixing device 43 is installed at the top of the cable gland 42 which is installed at the inlet 141 side of the upper casing 140 to fix the cable, and foreign substances introduced during the operation of the water pump collide with the cable. Even if the cable is shaken, it may be possible not to directly affect the cable gland 42. The cable fixing device 42 is to fix the cable by a bracket and a screw having a through hole.

A seal 116 is mounted to prevent water from flowing in between the lower end of the lower casing 180 and the shaft. In the case of such a seal, wear occurs as the shaft rotates, and water passes through the seal. There is a problem flowing into the motor side. In the present embodiment, further provided with a lower cover 190 fitted to the shaft of the motor so that the position of the lower cover is fitted to the shaft lower than the seal mounting position, the air pocket is formed on the mounting portion of the seal 116 Adopted a structure to prevent water from entering.

In addition, in the present embodiment, a part of the upper flange 26 closing the top of the column pipe 20 is formed as a transparent window 200 so that the inside of the column pipe 20 can be observed, thereby being connected to the submersible pump. You can also make sure that the cable is not damaged.

For this observation, it is preferable to install the wiper 230 on the inner surface of the column pipe of the transparent window 26 of the upper flange 26 to remove the contamination of the transparent window 26 by sewage, as shown in FIG. In addition, by installing the camera 210 and the lamp 220 for lighting on the other side it may be desirable to be able to observe the inside of the column pipe from a remote location.

1 is a view showing the installation structure of a conventional submersible pump.

Figure 2 is a view showing the structure of a conventional submersible pump.

Figure 3 is a view showing the structure of the embodiment of the present invention a water pump.

Figure 4 is a view showing one embodiment of the submersible pump monitoring apparatus of the embodiment of the present invention.

** Explanation of symbols on the main parts of the drawing **

20: column pipe 120: main body 140: upper casing

160: impeller 180: lower casing

Claims (6)

A main body unit in which the motor is installed inside, an upper casing installed in the upper part of the main body part, an impeller installed in the lower end of the shaft of the motor, and a lower casing protecting the impeller and installed in the lower part of the main body part In the submersible pump installed in the column pipe of the drainage pump station, The upper casing is provided with an inlet through which the cable is inserted, and has an outlet for leading the drawn cable into the main body, wherein the inlet is lower than the outlet and higher than the position of the inlet in the upper casing. The area is waterproof structure of the submersible pump, characterized in that the air pocket is formed. The method of claim 1, The inner bottom of the upper casing is composed of an inclined surface, the waterproof structure of the submersible pump, characterized in that the leak detection sensor is installed at the bottom of the inclined surface. The method of claim 1, Waterproofing structure of the submersible pump, characterized in that it further comprises a lower cover which is fitted to the shaft of the motor so that the air pocket is formed in the seal mounting position of the lower casing. A main body unit in which the motor is installed inside, an upper casing installed in the upper part of the main body part, an impeller installed in the lower end of the shaft of the motor, and a lower casing protecting the impeller and installed in the lower part of the main body part In the monitoring device of the submersible pump installed in the column pipe of the drainage pump station, The upper casing is provided with an inlet through which the cable is inserted, and has an outlet for leading the drawn cable into the main body, wherein the inlet is lower than the outlet and higher than the position of the inlet in the upper casing. The area is made to form an air pocket, The apparatus for monitoring a submersible pump, characterized in that a camera and a lighting lamp for observing the inside of the upper casing is installed in the upper casing inner region where the air pocket is formed. A main body unit in which the motor is installed inside, an upper casing installed in the upper part of the main body part, an impeller installed in the lower end of the shaft of the motor, and a lower casing protecting the impeller and installed in the lower part of the main body part In the monitoring device of the submersible pump is installed in the column pipe of the drain pump station, The upper flange for closing the top of the column pipe to form a part of the transparent window so that the inside can be observed monitoring apparatus of the submersible pump. The method of claim 5, The wiper is installed on the side surface of the column pipe of the transparent window, and the camera and the lighting lamp are installed on the other side.

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