KR101559067B1 - Submerged motor pump with protecting structure for cable and lifting structure - Google Patents

Abstract

The present invention relates to a submerged motor pump. The purpose of the present invention is to provide the submerged motor pump having a structure for protecting a cable and lifting itself and capable of easily performing lifting operation for inspection and maintenance of a submerged motor pump while providing an environment for safely protecting various cables connected to a submerged motor pump from water flow. According to the present invention, the submerged motor pump comprises: an electric motor for generating a rotary force by receiving electricity and rotating a rotary shaft by using the generated rotary force; and an impeller combined with the rotary shaft for allowing a fluid to flow while rotating. Moreover, the submerged motor pump installed inside a tubular case and arranged in water comprises: a protective tube arranged inside the tubular case to accommodate a cable connected to the submerged motor pump inside to transmit an electronic and control signal to the submerged motor pump, wherein an upper end is installed in the upper end part of the tubular case and a lower end is installed in the submerged motor pump to be fixed, and having an extendable structure in a longitudinal direction by being formed as a telescopic structure wherein at least two protective tubes having different diameters are combined with each other to form a multi-stepped structure; and a lifting means arranged inside the protective tube, and for lifting the submerged motor pump to an upper part by including a hydraulic cylinder whose upper end part is fixed to the upper end part of the tubular case, and lower end part is installed to be connected to the submerged motor pump.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a submerged motor pump,

The present invention relates to an underwater motor pump, and more particularly, to an underwater motor pump which protects various cables extending from an underwater motor pump for transmitting electricity and a control signal from a discharge water, The present invention relates to an underwater motor pump having a cable protection and self-lifting structure including a structure for easily lifting a motor pump.

Generally, an underwater motor pump has a structure in which an electric motor and a pump are integrally combined and is disposed in the water while being installed inside a tubular case having a long and long structure having an inner diameter enough for an underwater motor pump to be accommodated therein, Is used in places such as water purification plants, wastewater treatment plants, basements where flooding is likely to occur, or fish farms containing large amounts of water.

Fig. 1 shows the structure of a conventional underwater motor pump.

The conventional underwater motor pump has an electric motor 10 composed of a rotor 11 and a stator 12 formed on the upper part of a pump vessel 30 and coupled to a rotating shaft 13 extending from the electric motor 10 and rotating And the impeller 20 for pumping water is provided at the lower portion of the pump vessel 30. [

The underwater motor pump thus constructed is disposed so as to be located in the water in a state of being installed inside the tubular case 40 having a structure extending in the substantially vertical direction, and the fluid flowing through the flow path formed in the pump container when the impeller is rotated, And is discharged to the outside through a discharge port formed on the upper end side of the tubular case.

On the other hand, since the underwater motor pump is always in contact with water, the water is totally waterproofed including the joint between the parts. However, when water is introduced into the motor due to defects generated during manufacture or defects during use, It can cause damage.

Further, since the submersible motor pump is driven under water, there is no separate cooling means for cooling the heat generated in the operation of the motor. Therefore, when the water level is lowered during the operation of the underwater motor pump and the motor portion of the underwater motor pump is exposed above the water surface, the stator and the rotor are rapidly expanded due to the heat generated in the motor, The stator and the rotor may be damaged, and the rotor and the end ring may be defective due to the continuous thermal stress generated when the motor is started.

In addition, although the cable for transmitting the electricity and the control signal for the operation of the submersible motor pump is installed so as to be connected to the submerged motor pump through the inner space of the tubular case from the ground, the cable thus installed is formed by the operation of the submersible motor pump As a result, the electrical contact may be damaged or the cable itself may be damaged.

If various defects or damages that may occur during the operation of the underwater motor pump can not be detected and taken care of in this way, not only the damage of the peripheral parts due to the diffusion of defects and the deterioration of the efficiency of the motor occur, and moreover, There is a problem that the operation of the underwater motor pump is stopped and the discharge of water becomes impossible, thereby causing additional damage.

Therefore, conventionally, the manager periodically checks the state of the underwater motor pump.

On the other hand, the inspection of the submersible motor pump is carried out in such a manner that the submersible motor pump is lifted up to a position close to the land or the land, and the inside is confirmed by using the endoscope apparatus. However, There is a problem that the operation is very troublesome and time-consuming as required.

For example, in Japanese Patent Application Laid-Open Publication No. 10-2004-0043342, there is disclosed an apparatus for protecting a wire for a submersible pump. In the above invention, the wire connected to the underwater motor pump extends through the inside of the protective pipe, Thereby preventing the wire from being damaged.

However, when the protective pipe for protecting the electric wire is additionally installed at the upper end of the submersible pump as in the above-described invention, there is a problem that the lifting operation for checking the submersible pump becomes more difficult.

Japanese Patent Application Laid-Open No. 10-2004-0043342 (disclosed on May 24, 2004) Registered Patent Publication No. 1466238 (issued on November 27, 2014)

It is an object of the present invention to provide an environment for safely protecting various cables connected by an underwater motor pump from discharge water, And to provide an underwater motor pump having a cable protection and a self-lifting structure for easily carrying out the work.

According to an aspect of the present invention, there is provided an electric motor including: an electric motor that generates electric power to rotate and rotates a rotary shaft using a generated rotary force; The underwater motor pump includes an impeller for flowing a fluid and is disposed inside the tubular case and disposed underwater. The underwater motor pump includes a cable connected to an underwater motor pump for transmitting electric and control signals to the underwater motor pump And the upper end of the tubular case is fixed to the upper end of the tubular case and the lower end of the tubular case is fixed to the underwater motor pump and two or more protective pipes having different diameters are connected to each other to form a multi- Structure having a structure capable of stretching in the longitudinal direction Retractable protection tube; Lifting means for lifting the submersible motor pump upward; a lifting means for lifting the submerged motor pump upward; a lifting means for lifting the submerged motor pump to the upper side, the upper lifting means being fixed to the upper end of the tubular case; A cable reel for adjusting the length of the cable while winding or loosening the cable according to the position of the underwater motor pump; A rail installed on the inner surface of the tubular case so as to have a structure extending along the longitudinal direction of the tubular case and guided by the submersible motor pump to guide the movement of the submersible motor pump; An annular seating protrusion formed on the inner surface of the tubular case so as to have a structure protruding from the inner surface of the tubular case toward the center of the tubular case; An annular seating end formed on the outer side of the submersible motor pump with a structure corresponding to the annular seating projection such that the submerged motor pump is placed on the annular seating projection; And an annular seating projection or an annular seating end so as to be positioned between the annular seating projection and the annular seating end so that the pressure formed inside the tubular case is transmitted through the annular seating end and is compressed between the annular seating projection and the annular seating end And an exponential rubber forming an airtight structure. The underwater motor pump has a cable protection and self-lifting structure.

delete

delete

delete

delete

delete

delete

According to the present invention having the above-described features, since the cable is disposed inside the telescopic protection pipe, it is possible to prevent the cable from being damaged by the discharge water flow formed by the operation of the underwater motor pump, It is possible to easily move the submersible motor pump to the inspection position by using the lifting means, and it is possible to improve the efficiency and convenience of management of the underwater motor pump.

1 is a structural view of a conventional underwater motor pump,
FIG. 2 is a front view showing the structure of an underwater motor pump according to a preferred embodiment of the present invention. FIG.
3 is a plan view showing a structure of an underwater motor pump according to a preferred embodiment of the present invention,
4 is a front view showing the structure of a telescopic protection pipe according to the present invention.
FIG. 5 is a detailed view of the 'B'
6 is a front view showing the structure of another lifting means according to the present invention;
FIG. 7 is a front view showing still another structure of an underwater motor pump according to the present invention. FIG.
8 is a plan view showing a structure in which a lifting means and a cable reel according to the present invention are combined,
FIG. 9 is a detailed view of 'A' of FIG. 2,
10 is a structural view of a quartz motor pump in which a check port for installing an inspection apparatus using an endoscope is further formed on a side portion of a pump vessel;
11 is a side view showing the structure of a testing apparatus installed in a check port provided in a pump container;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is a front view showing the structure of an underwater motor pump according to a preferred embodiment of the present invention, and FIG. 3 is a plan view showing the structure of an underwater motor pump according to a preferred embodiment of the present invention.

An underwater motor pump having a cable protection and self-lifting structure according to the present invention includes an electric motor 110 that generates electric power to generate a rotating force and rotates the rotating shaft 113 using a generated rotating force, And an impeller 120 for rotating the fluid while rotating. The underwater motor pump is installed inside the tubular case 140 and is disposed in the water. The underwater motor pump includes a cable for transmitting electric and control signals to the underwater motor pump A retractable protection pipe 160 for protecting the motor 150 from the discharge water and a lifting means 170 for lifting the underwater motor pump in the water to the maintenance position.

The electric motor 110 and the impeller 120 are installed in the pump vessel 130. The pump vessel 130 is connected to the pump chamber 130 through a passage through which the electric motor 110 including the rotor 111 and the stator 112 is installed And an inlet port 131 and a discharge port 132 are formed at the lower end of the impeller 120. [

The submerged motor pump in which the motor 110 and the impeller 120 are installed in the pump vessel 130 is installed inside the tubular case 140 to constitute a complete underwater motor pump.

For reference, the electric motor 110, the impeller 120, the pump case 130, and the tubular case 140 are well-known structures that are applied to underwater motor pumps already widely used. The description will be omitted.

Meanwhile, the extendable protection tube 160 according to the present invention is installed inside the tubular case 140 to protect the cable from the discharge water. Here, the cable refers to various electric wires connected to the inside of the tubular case 140 from the shore through an underwater motor pump to transmit power and control signals for the operation of the underwater motor pump to the underwater motor pump, The flow of the fluid discharged into the tubular case 140 through the discharge port formed in the pump vessel 130 after being pressurized by the rotation of the pump 120 is formed while flowing.

FIG. 4 is a front view showing the structure of a telescopic tube according to the present invention, and FIG. 5 is a detailed view of the 'B' portion of FIG.

The extendable protection pipe 160 is disposed inside the tubular case 140 so as to receive therein a cable 150 connected to the ground by an underwater motor pump. The upper end is fixed to the upper end of the tubular case 140, Is fixed to an underwater motor pump.

The retractable protection pipe 160 is configured to have a longitudinally stretchable structure and is contracted when the submersible motor pump is lifted to the check position and is extended when the submersed motor pump is lowered to the operation position.

For reference, the above-mentioned check position refers to a position where the underwater motor pump is elevated to a position close to the ground or the like so that the supervisor can perform the inspection work of the underwater motor pump by using an inspection facility such as an endoscope or the like, The operating position means the position where the submersible motor pump is submerged so that water can be discharged to the outside.

In order to make the stretchable protection pipe 160 have a stretchable and contractible structure in the longitudinal direction, the stretchable protection pipe 160 may be formed using a corrugated pipe. However, in the case of the corrugated pipe, the resistance of the discharged water increases, The elastic tube 160 of the submersible motor pump according to the preferred embodiment of the present invention is constructed such that two or more protective pipes having diameters different from each other are connected to each other so as to form a multi- Structure.

4, a first protective pipe 161 having a relatively large diameter is disposed at a lower portion and is fixed to an underwater motor pump, and a relatively small The upper end of the second protective pipe 162 is fixed to the upper end of the tubular case 140 while the second protective pipe 162 having a diameter is coupled to the first protective pipe 161. However, Or more of the above protective tubes may be combined.

When the stretchable protective pipe 160 is formed of a plurality of protective pipes having different diameters as described above, the exponential rubber 163 for preventing the fluid from flowing into the joint portions of the two protective pipes is connected to the stretchable protective pipe 160 , And the exponent rubber 163 is installed in the coupling portion of the two protection pipes so as to form a watertight structure between the two protection pipes.

The lifting means 170 moves the submersible motor pump to the inspection position and the operation position. The lifting means 170 is connected to the submersible motor pump through the retractable protection pipe 160 and is operated by hydraulic pressure or electricity to lift the submersible motor pump .

The lifting means 170 of the submersible motor pump according to the preferred embodiment of the present invention uses a hydraulic pressure and the cylinder body 1711 is fixed to the tubular case 140. The cylinder body 1711 is fixed to the cylinder body 1711, And a hydraulic cylinder 171 connected to an underwater motor pump.

6 is a front view showing the structure of another lifting means according to the present invention.

The lifting means 170 having an electric method includes a first drum 1721, a wire 1722 wound around the first drum 1721 and connected to an underwater motor pump through the inside of the tubular case 140, And a winch 172 composed of a motor 1723 connected to the first drum 1721 to rotate the first drum 1721 to raise and lower the underwater motor pump.

On the other hand, when the underwater motor pump is lifted to the inspection position by the lifting means 170, the tension of the cable 150 connected by the underwater motor pump is loosened and slackened. Continuing the lifting operation of the pump may damage the cable 150 or interfere with the lifting operation of the underwater motor pump.

Accordingly, the underwater motor pump according to the present invention may further include a cable reel 180 that allows the cable to maintain appropriate tension while winding or releasing the cable 150 according to the position of the submersible motor pump. The structure of the submersible motor pump is shown in Fig.

The cable reel 180 is installed such that the drum 181 on which the cable is wound is rotatably mounted on the support 182 and the energy is accumulated on the side surface of the drum 181 during the winding of the cable 150, And a spring (not shown) for automatically winding the drum 181 on the drum 181. A power or control signal input through a slip ring (not shown) provided on the other side of the drum 181 is supplied to the cable 150 to the underwater motor pump.

The cable reel having the drum 181, the support 182, the spring springs and the slip ring is disclosed in Japanese Patent Application Laid-Open No. 1114874 and No. 1256842, A detailed description of the structure will be omitted.

On the other hand, the lifting means 170 formed of the winch 172 and the cable reel 180 may be combined to simplify the structure.

8 is a plan view showing a structure in which a lifting means and a cable reel are combined according to the present invention.

As described above, the lifting means 170 comprising the winch 172 is provided with a first drum 1721 wound with a wire 1722 connected to an underwater motor pump, and the first drum 1721 A second drum 1724 is disposed on the same axis as the first drum 1721 to rotate the first and second drums 1721 and 1721 by the operation of the motor 1723. [ 1724 are rotated together and the cable 150 is wound on the second drum 1724 so that when the first drum 1721 for lifting and lowering the submerged motor pump rotates, the second drum 1724 rotates together, (150) is automatically wound or unwound, the structure can be simplified.

In this case, the second drum 1724 may be composed of two or more pieces depending on the number of the cables 150, and in FIG. 8, two second drums 1724 are provided on both sides of the first drum 1721 Are shown.

Meanwhile, a rail 190 may be further provided on the inner surface of the tubular case 140 to prevent the posture of the underwater motor pump from being disturbed in the course of the lifting motor pump being raised or lowered by the lifting means 170.

2, the rail 190 has a structure extending in the longitudinal direction of the tubular case 140 and is coupled to the outside of the pump container 130 constituting the submersible motor pump to guide the lifting and lowering of the submersible motor pump .

Meanwhile, in the process of pumping the fluid by operating the underwater motor pump placed at the operating position, the fluid in the tubular case 140 is prevented from leaking through the gap between the underwater motor pump and the tubular case 140 And an annular seating end 202 and an exponent rubber 203 may be further included.

FIG. 9 is a detailed view of the portion 'A' in FIG.

The annular seating protrusion 201 is formed on the inner surface of the tubular case 140 to provide a seat for the underwater motor pump. The annular seating protrusion 201 has a structure extending along the inner circumference of the lower end of the tubular case 140, 140 from the inner surface thereof toward the center of the tubular case 140.

The annular seating end 202 is formed on the outside of the pump container 130 of the underwater motor pump so as to have a structure corresponding to the annular seating projection 201 so that the submerged motor pump stably seats on the annular seating projection 201 at the operating position Or may be formed in a structure protruding outwardly from the outer surface of the pump container 130 or may be formed in a structure in which a part of the pump container 130 is extended from the outer circumference of the pump container 130 And may be formed by stepping so as to have a relatively small diameter as compared with other portions.

The exponential rubber 203 is installed between the tubular case 140 and the underwater motor pump and more specifically between the annular seating projection 201 and the annular seating end 202 to form a tubular case 140, To form a watertight structure.

The inner pressure P1 of the tubular case 140 becomes higher than the outer pressure P2 of the tubular case 140 when the fluid is discharged into the tubular case 140 by the operation of the underwater motor pump.

Accordingly, as in the present invention, an annular seating protrusion 201 is formed in the tubular case 140, an annular seating end 202 is formed in an underwater motor pump, and the annular seating protrusion 201 and the annular seating end 202 The exponent rubber 203 receives the pressure P1 formed inside the tubular case 140 through the annular seating end 202 and presses it so that the tubular case 203 is pressurized, A watertight structure is formed between the water pump 140 and the underwater motor pump. Therefore, even if the discharge pressure of the submersible motor pump is high, a stable watertight structure can be formed. As a result, Can be prevented.

In the underwater motor pump having the cable protection and self-lifting structure according to the present invention constructed as described above, the cable 150 connected to the ground by the underwater motor pump extends through the inside of the extendable protection pipe 160 and is not exposed to the discharge water It is possible to prevent the cable 150 from being damaged by the discharge water flow.

On the other hand, when the inspection of an underwater motor pump or the replacement of parts is required, it is not necessary to provide a separate lifting device for lifting the underwater motor pump to the inspection position, 170), the operator can lift the submersible motor pump to the maintenance position, and the manager checks the inside of the submerged motor pump to the maintenance position by using an endoscope or the like, .

As described above, the submersible motor pump according to the present invention includes a lifting means 170 for lifting the submersible motor pump to the inspection position in the case where the protection pipe for protecting the cable 150 from the discharge water is formed inside the tubular case 140, And the protection pipe during lifting of the underwater motor pump can be moved together by the lifting means 170 so that the underwater motor pump can be easily inspected or repaired without any special measures to the protective pipe .

10 is a structural view of a quartz motor pump in which a check port for installing an inspection device using an endoscope is further formed on a side portion of a pump vessel, and FIG. 11 is a side view showing the structure of a test apparatus installed in an inspection port provided in the pump vessel. Respectively.

As described above, the interior of the underwater motor pump lifted to the inspection position is made by using an inspection apparatus such as an endoscope. In order to facilitate the inspection work, And an inspection apparatus 210 including an endoscopic camera is installed in the inspection port 133 so that inspection work can be easily performed.

More specifically, the inspection port 133 is formed to pass through the side surface of the pump vessel 130 at a position corresponding to the upper and lower ends of the stator 112 and the rotor 111, And a cap 135 that is assembled to the pump vessel 130 with the observation window 134 therebetween. At this time, the cap 135 may be assembled to the pump container 130 by bolts not shown.

The inspection apparatus 210 includes an upper fixing part 211 assembled to an inspection port 133 formed at an upper end of the pump container 130 and a lower fixing part 211 installed at an inspection port 133 formed at a lower end of the pump container 130. [ A guide portion 213 for connecting the upper and the lower fixing portions 211 and 212 to each other and a guide portion 213 for moving along the guide portion 213, And an inspection unit 214 including a camera (not shown) inserted into the interior of the pump vessel 130 through the exhaust ports 133 and 133.

The inspection port 133 and the inspection apparatus 210 are disclosed in Japanese Patent Publication No. 1466238 entitled Underwater Motor Pump and Inspection Apparatus Easy to Maintain and Patent Publication No. 1044055 System), and is a configuration that is selectively used instead of the essential configuration of the present invention, and therefore, a more detailed description will be omitted.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
110: electric motor 111: rotor
112: stator 113: rotating shaft
120: impeller 130: pump vessel
140: tubular case 150: cable
160: stretchable protection pipe 170: lifting means
171: Hydraulic cylinder 172: Winch
1721: first drum 1722: wire
1723: motor 1724: second drum
180: Cable reel 190: Rail
201: annular mount projection 202: annular mount stage
203: Exponential rubber

Claims (7)

An electric motor 110 that generates electric power to generate a rotational force and rotates the rotary shaft 113 by using a generated rotational force and an impeller 120 that is coupled with the rotary shaft 113 to rotate the fluid while flowing the fluid. And an underwater motor pump installed in the tubular case (140) and disposed in the water,
A cable 150 connected to an underwater motor pump for transmitting electric and control signals to the underwater motor pump is disposed inside the tubular case 140 so that the cable 150 is received therein and the upper end is connected to the upper end of the tubular case 140 And a lower end portion fixed to the underwater motor pump and having a telescopic structure in which two or more protective pipes having different diameters are mutually coupled so as to form a multi-stage structure, and having a structure capable of expanding and contracting in the longitudinal direction;
And a hydraulic cylinder 171 disposed at an upper end portion of the tubular case 140 and connected at the lower end portion thereof to an underwater motor pump, Lifting means 170 for lifting;
A cable reel 180 that adjusts the length of the cable while winding or releasing the cable 150 according to the position of the underwater motor pump;
A rail 190 installed on an inner surface of the tubular case 140 so as to have a structure extending along the longitudinal direction of the tubular case 140 and coupled with the underwater motor pump to guide the movement of the underwater motor pump;
An annular seating protrusion 201 formed on the inner surface of the tubular case 140 so as to have a structure protruding from the inner surface of the tubular case 140 toward the center of the tubular case 140;
An annular seating end 202 formed on the outside of the submerged motor pump with a structure corresponding to the annular seating projection 201 so that the submerged motor pump is placed on the annular seating projection 201 on the annular seating projection 201; And
A pressure P1 formed in the annular seating protrusion 201 or the annular seating end 202 to be positioned between the annular seating protrusion 201 and the annular seating end 202, And an exponential rubber (203) which is received through the annular seating end (202) and compressed to form an airtight structure between the annular seating projection (201) and the annular seating end (202) Underwater motor pump with lifting structure. delete delete delete delete delete delete

Images