KR20110101636A - Underwater pump system for fountain - Google Patents

Abstract

The fountain submersible pump system of the present invention includes a casing 12 surrounding the impeller 11, a drive motor 13 for rotating the impeller 11, and between the casing 12 and the drive motor 13. A submersible pump (10) having a first strainer (14) installed to filter foreign substances upon suction of water; A pipe line 20 connected to the casing 12 side of the submersible pump; A water fountain device 30 connected to the pipe line 20 for fountain water; An induction pipe 110 installed to surround an outer circumference of the drive motor 13 and the first strainer 14; A support 120 installed inside the induction pipe 110 to support the submersible pump 10; A second strainer 130 that is detachably installed in the induction pipe 110 to filter foreign matters during water suction, and a plurality of water inlet holes 130a are formed on an outer surface thereof; And a support bracket 140 installed on the ground F to support the induction pipe 110, wherein water is supplied by the suction force generated by the driving of the driving motor 13 to the second strainer 130. After being sucked into the suction pipe, the guide pipe 110 is introduced into the induction pipe 110 and the heat of the surface of the driving motor 13 is taken into the first strainer 14 and transferred to the water fountain device 30 through the pipe line 20. To prevent overheating of the drive motor 13.

Description

Underwater Pump System for Fountain

The present invention relates to a water pump system for fountains, and more particularly, to a water pump system for fountains that can prevent overheating of the drive motor by installing an induction pipe to guide the inflow of water to the outside of the drive motor.

Underwater pump generally refers to a pump that is operated while the whole pump is submerged. The installation space is smaller than that of a land pump, and it is easy to install and does not need a separate suction pipe. There is this.

The submersible pump installs a motor in a main body provided with a suction inlet for injecting fluid and an outlet for discharging the sucked fluid, and applies external power to the motor to inhale the fluid by the rotary centrifugal force of the impeller connected to the motor. It is configured to discharge through.

1 is a perspective view showing a conventional submersible pump.

As shown in FIG. 1, a conventional submersible pump 10 includes a casing 12 surrounding an impeller 11, a drive motor 13 for rotating the impeller 11, the casing 12, and the drive. It is installed between the motor 13 is composed of a strainer (Strainer) (14) for filtering foreign matter when the water inlet.

In the conventional submersible pump 10 configured as described above, when the driving motor 13 is driven to rotate the impeller 11, water outside the casing 12 is caused by the suction force generated by the rotational force of the strainer 14. After flowing into the casing 12 through the discharge, it is discharged through the outlet of the casing 12 is transported along a conduit (not shown) connected to the fountain.

However, since the conventional submersible pump does not have a separate cooling means for cooling the motor itself when it is operated in the water all day, there is a problem that the motor is overheated, the performance is deteriorated, the service life is shortened, and the failure frequently occurs.

The present invention is to solve the above problems, by installing an induction pipe to guide the inflow of water to the outside of the drive motor to prevent overheating of the drive motor and additional strainer is installed at the end of the induction pipe suction loss The purpose is to provide a water submersible pump system that can reduce the number of.

In order to achieve the above object, the fountain submersible pump system of the present invention includes a casing surrounding an impeller, a driving motor for rotating the impeller, and a first filter installed between the casing and the driving motor to filter foreign matters during water intake. Submersible pump having a strainer; A conduit connected to the casing side of the submersible pump; A water fountain device connected to the pipeline for fountain water; An induction pipe installed to surround the driving motor and the outer periphery of the first strainer; A support installed inside the induction pipe to support the submersible pump; A second strainer installed to be detachably mounted to the induction pipe to filter foreign matters during water suction, and having a plurality of water inflow holes formed on an outer side thereof; And a support bracket installed on the ground to support the induction pipe, wherein water is sucked into the second strainer and guided into the induction pipe by the suction force generated by the driving motor, and the surface of the drive motor. Take the heat of the inlet flows into the first strainer and is transferred to the water fountain device through the conduit to prevent overheating of the drive motor.

Flange having a bolt hole is formed at each end of the induction pipe and the second strainer, the bolt is fastened to the bolt hole, the induction pipe and the second strainer may be coupled to each other.

The induction pipe may include a first induction pipe and a second induction pipe coupled to the first induction pipe, and a coupling groove and a coupling protrusion may be formed at an end of the first induction pipe and the second induction pipe.

As described above, the present invention by installing an induction pipe for guiding the inflow of water to the outside of the drive motor to prevent overheating of the drive motor to prevent the motor from overheating to reduce performance and to shorten the life of the drive motor, A second strainer is detachably installed at the end of the induction pipe so that suction loss can be effectively reduced.

1 is a perspective view showing a conventional submersible pump
Figure 2 is a schematic view showing a water pump system for fountains according to the present invention
Figure 3 is a perspective view showing the combination of the submersible pump and the second strainer in the submersible water pump system according to the present invention
4 is a side view of FIG. 3
5 is a cross-sectional view taken along line II of FIG. 4.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the water pump system for fountains according to the present invention.

Figure 2 is a schematic view showing a water fountain pump system according to the present invention, Figure 3 is a perspective view showing a combination of the water pump and the second strainer in the fountain water pump system according to the present invention, Figure 4 is a side view of FIG. And FIG. 5 is a cross-sectional view taken along the line II of FIG. 4.

2 to 5, the water pump system for fountain 100 according to the present invention includes a casing 12 surrounding the impeller 11, a drive motor 13 for rotating the impeller 11, and An underwater pump (10) installed between the casing (12) and the drive motor (13) and having a first strainer (14) for filtering foreign matters during water intake; A conduit line 20 connected to the casing 12 side of the submersible pump; A water fountain device 30 connected to the pipe line 20 for fountain water; An induction pipe 110 installed to surround an outer circumference of the drive motor 13 and the first strainer 14; A support 120 installed inside the induction pipe 110 to support the submersible pump 10; A second strainer 130 installed to be detachably mounted to the induction pipe 110 to filter foreign matters during water suction, and having a plurality of water inlet holes 130a formed on an outer side thereof; And a support bracket 140 installed on the ground F to support the induction pipe 110.

In the submersible water pump system 100 according to the present invention, water is sucked into the second strainer 130 by the suction force generated by the driving of the driving motor 13 and then guided into the induction pipe 110. And draws heat from the surface of the driving motor 13 and flows into the first strainer 14 to be transferred to the water fountain device 30 through the conduit 20 to effectively prevent overheating of the driving motor 13. .

Looking at the configuration of the water pump system 100 for a fountain according to the present invention in more detail, first, a plurality of impellers 11 inside the casing 12 of the submersible pump 10 is a rotating shaft (not shown) of the drive motor 13. Is installed in the casing, and the casing 12 is positioned to surround the impeller 11.

The first strainer 14 installed between the casing 12 and the drive motor 13 serves to filter foreign matters during water inhalation.

A pipe line 20 is connected to the casing 12 side of the submersible pump, and a flexible joint 30, a fan check valve 40, a butterfly valve 50, and the like are installed at the pipe line 20.

The pipeline 20 is provided with a fountain device 30 for fountain water.

Flanges 113 and 131 having bolt holes H are formed at ends of the induction pipe 110 and the second strainer 130, and bolts B are fastened to the bolt holes H. In addition, the induction pipe 110 and the second strainer 130 may be coupled to each other.

It is preferable that a gasket G is installed between the induction pipe 110 and the second strainer 130 to be watertight.

The induction pipe 110 is installed to surround the outer periphery of the drive motor 13 and the first strainer 14, the induction pipe 110 may be formed of a single cylinder, the induction pipe 110 ) Is composed of a first induction pipe 111 and the second induction pipe (112) coupled with the first induction pipe (111), of the first induction pipe (111) and the second induction pipe (112) At the end, the coupling groove 110a and the coupling protrusion 110b may be formed.

The supporter 120 is installed between the inner circumferential surface of the induction pipe 110 and the motor 13 to support the motor 13, and has a plurality of through holes 121.

The second strainer 130 is detachably installed in the induction pipe 110 to filter foreign matters during water suction, and a plurality of water inlet holes 130a are formed at the other side.

The bracket 140 is installed on the ground (F) to support the induction pipe 110, the ground fixing portion 141 and the outer circumference of the induction pipe and bolts (B) to the ground fixing portion (141) It consists of a holder portion 142 is fixed.

The water is sucked into the second strainer 130 by the suction force generated by the driving of the drive motor 13, guided into the induction pipe 110, and takes heat from the surface of the drive motor 13 to the first. Is introduced into the strainer 14 is transferred to the water fountain device 30 through the conduit 20 is configured to prevent overheating of the drive motor 13.

The operational effects of the fountain submersible pump system configured as described above are as follows.

When power is applied to the drive motor 13 and the drive motor 13 is driven, the impeller 11 fixed to the drive motor 13 shaft rotates.

The water is sucked by the suction force generated by the rotation of the impeller 11, and the water is sucked through the water suction hole 130a of the second strainer 130 and then guided into the induction pipe 110. do.

After the water guided into the induction pipe 110 takes heat directly from the surface of the driving motor 13 and flows into the first strainer 14 to pass through the flexible joint 30 and the fan check valve 40. The water is transferred to the water fountain device 30 through the conduit 20 and water is discharged through the nozzle N.

In the process of guiding water into the induction pipe 110, the water takes heat from the surface of the driving motor 13 and flows into the first strainer 14, thereby effectively preventing overheating of the driving motor 13.

In addition, since water is slowly sucked through the water suction hole 130a of the second strainer 130, the suction loss can be effectively reduced by lowering the suction flow rate.

As described above, the present invention by installing an induction pipe for guiding the inflow of water to the outside of the drive motor to prevent overheating of the drive motor to prevent the motor from overheating to reduce performance and to shorten the life of the drive motor, The second strainer is detachably installed at the end of the induction pipe so that the suction loss can be effectively reduced.

As such, the rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications within the scope of the claims. It is self evident.

11: impeller
12: casing
13: drive motor
14: first strainer
20: pipeline
30: water fountain
110: induction pipe
110a: mating groove
110b: splice turning
111: Induction Pipe
112: second induction pipe
120: support
130: second strainer
130a: water inlet hole
113,131: flange
140: support bracket
B: bolt
H: bolt hole

Claims (3)

A casing 12 surrounding the impeller 11, a drive motor 13 for rotating the impeller 11, and a casing 12 and the drive motor 13 are installed between the casing 12 and the drive motor 13 to filter foreign matters during water suction. An underwater pump (10) having a first strainer (14);
A conduit line 20 connected to the casing 12 side of the submersible pump;
A water fountain device 30 connected to the pipe line 20 for fountain water;
An induction pipe 110 installed to surround an outer circumference of the drive motor 13 and the first strainer 14;
A support 120 installed inside the induction pipe 110 to support the submersible pump 10;
A second strainer 130 that is detachably installed in the induction pipe 110 to filter foreign matters during water suction, and a plurality of water inlet holes 130a are formed on an outer surface thereof; And
Including; support bracket 140 is installed on the ground (F) to support the induction pipe 110;
The water is sucked into the second strainer 130 by the suction force generated by the driving of the drive motor 13, guided into the induction pipe 110, and takes heat from the surface of the drive motor 13 to the first. The water pump system for a fountain, which is introduced into the strainer (14) and is transferred to the fountain device (30) through the conduit (20) to prevent overheating of the drive motor (13). The method of claim 1,
Flanges 113 and 131 having bolt holes H are formed at ends of the induction pipe 110 and the second strainer 130, and bolts B are fastened to the bolt holes H. The water pump system for a fountain, characterized in that the induction pipe 110 and the second strainer 130 is coupled to each other. The method of claim 1,
The induction pipe 110 is composed of a first induction pipe 111 and the second induction pipe (112) coupled with the first induction pipe (111), the first induction pipe (111) and the second induction pipe. Water pipe system for a fountain, characterized in that the coupling groove (110a) and the engaging projection (110b) is formed at the end of the pipe (112).

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