KR200297152Y1 - Water pump having a cooling means - Google Patents

Abstract

The present invention relates to an underwater pump provided with a cooling means. The present invention is provided with a suction inlet for inhaling a fluid and an outlet adapter for discharging the sucked fluid to the outside, and a lower case having an impeller built therein, and connected to the lower case and rotatably arranged by connecting shafts with an impeller therein. In the submersible pump consisting of a motor frame with a built-in motor, an upper cover having a bearing connected to the motor frame, the connecting shaft is connected to the impeller and the motor therein, one side is detachably coupled to the outlet adapter The other side, the discharge pipe is coupled to the outer tube; And a ejection hole formed in the outer diameter region of one side of the discharge pipe to eject water to the motor frame.

The present invention configured as described above is a simple means for cooling the pump of the submersible pump, which prevents the motor from overheating, thereby enabling the operation of the submersible motor outside the water, thereby improving the performance of the motor. In order to prevent overheating of the motor as described above, the price of the submersible pump is lowered so as not to put oil and refrigerant inside the submersible pump, and the environment is prevented from being contaminated.

Description

Submersible pump with cooling means {WATER PUMP HAVING A COOLING MEANS}

The present invention relates to a submersible pump, and more particularly, to a submersible pump having a cooling means capable of cooling the pump of the submersible pump, which enables the operation of the submersible motor outside the water to improve the performance of the motor. .

In general, a water pump (water pump) is a pump mainly used for pumping (muddy water) of the muddy water mixed with soil. No need for foot valve or suction hose, easy to handle absorption operation, it is widely used for construction work. Pumping amount depends on pump performance and inner diameter of pumping hose, 250 ~ 2,000ml per minute, head lift is 10 ~ 15m It is enough.

The conventional submersible pump will be described with reference to the accompanying drawings.

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

As shown, the conventional submersible pump is provided with a suction port 110 for sucking the fluid and an outlet adapter 120 for discharging the sucked fluid to the outside, the lower case 100 having the impeller 200, and Is connected to the lower case 100 and connected to the motor frame 500, the motor frame 500 is built in the motor 400 is rotatably built as the impeller 200 and the connecting shaft 300 therein, the inside, The upper cover 700 is built in the bearing 600, the connection shaft 300 is connected to the impeller 200 and the motor 400 is built.

The inlet 110 is formed under the lower case 100 so that the fluid is sucked in, the outlet adapter 120 is fastened and fixed to the discharge pipe 800 for discharging the fluid to the outside.

And, the discharge pipe 800 is connected to the external hose 850 for discharging the fluid to the outside.

On the other hand, such an underwater motor is preferably operated in a state in which the motor 400 embedded in the motor frame 500 can be locked.

Looking at the operation state of the conventional submersible motor configured as described above, when the submerged motor is placed in a vertical position to be used as shown in Figure 1, the fluid is sucked into the interior through the inlet 110 of the lower case 100. .

In this state, the power is connected to operate the motor 400 inside the motor frame 500. Then, as the motor 400 rotates and the impeller 200 constructed as the connecting shaft 300 rotates at the same time, the fluid introduced into the inlet 110 of the lower case 100 by the centrifugal rotational force is discharged from the outlet. Through 120, the discharge pipe 800 is fastened to the outlet adapter 120 and is discharged to the outside through the external hose 850 connected to the discharge pipe (80).

However, such a conventional submersible motor does not have any problem to operate in the submerged state, but when the submerged motor is operated while exposed to the water, the motor is easily overheated and the motor is loaded and stopped. In order to solve this problem, oil and refrigerant are put inside the submersible pump. To solve this problem, the submersible pump has a complicated structure, which increases the price and also causes environmental pollution. Problems such as that occurred.

The present invention is devised to solve such a conventional problem, the present invention is provided with a cooling means for automatically cooling the superheated motor in a simple structure so that the motor can maintain the performance of the motor without overheating outside the water The purpose is to provide a submersible pump.

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

Figure 2 is an exploded perspective view of an underwater pump having a cooling means according to the present invention.

Figure 3 is a cross-sectional view of the state of use of the submersible pump with cooling means according to the present invention.

Figure 4 is an exploded perspective view showing another first embodiment according to the present invention.

5 is an enlarged cross-sectional view of the coupling state of FIG.

Figure 6 is an exploded perspective view showing a second embodiment according to the present invention.

7 is an enlarged cross-sectional view of the coupling state of FIG.

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

12: outlet adapter 50: motor frame

70: upper cover 80: discharge pipe

82: blowout hole 85: outer tube

90: connector 92: coupler

94: ring pipe 95: water discharge hole

98: fitting 99: connecting bar

99a: discharge hole

The technical problem of the present invention for achieving the above object is provided with an inlet for sucking the fluid and an outlet adapter for discharging the sucked fluid to the outside, a lower case with an impeller, connected to the lower case and inside In the submersible pump consisting of a motor frame in which the motor is installed rotatably built as a connecting shaft in the impeller, and an upper cover in which a bearing connected to the motor frame and the connecting shaft to which the impeller and the motor are connected is built. In one embodiment, one side is detachably coupled to the outlet adapter, the other side the discharge pipe is coupled to the outer tube; And a plurality of ejection holes formed in the outer diameter region of one side of the exhaust pipe to eject water to the motor frame.

An embodiment of the present invention having such a feature will be described with reference to the accompanying drawings.

Figure 2 of the accompanying drawings is an exploded perspective view of an underwater pump with a cooling means according to the present invention, Figure 3 is a cross-sectional view of the use of the underwater pump with a cooling means according to the present invention, Figure 4 is 5 is an exploded perspective view illustrating another first embodiment, FIG. 5 is an enlarged cross-sectional view of a coupled state of FIG. 4, FIG. 6 is an exploded perspective view illustrating a second embodiment according to the present invention, and FIG. 7 is a coupled state of FIG. 6. It is an enlarged cross section.

First, as illustrated in FIGS. 2 and 3, the submersible pump 1 of the present invention includes an inlet 11 for sucking fluid and an outlet adapter 12 for discharging the sucked fluid to the outside, and an impeller ( A motor frame 50 having a built-in lower case 10 and a motor 40 connected to the lower case 10 and rotatably built therein with an impeller 20 and a connecting shaft 30 therein. And, the upper cover 70 is connected to the motor frame 50, the bearing 60 is built in the connecting shaft 30 is connected to the impeller 20 and the motor 40 therein.

The suction port 11 is formed at the bottom of the lower case 10 to suck the fluid. The outlet adapter 12 is detachably coupled to the discharge pipe 80 for discharging the fluid to the outside. And, the discharge pipe 80 is connected to the outer hose 85 for discharging the fluid to the outside.

The discharge pipe 80 is used as a cooling means for cooling the motor 40 that is overheated by forming a plurality of ejection holes 82 in the region on one side outer diameter. At this time, the ejection hole 82 is formed in a range that is ejected to the lower case 50 in which the motor 40 is built.

On the other hand, as shown in Figures 4 and 5 the discharge pipe 80, the outer diameter of one side to form a connector 90 in communication with the coupler, the coupler 92 is coupled to the connector 90 in communication, the coupler ( 92 is provided in communication with the ring pipe 94 to surround the upper cover (70).

The ring pipe 94 has a plurality of water discharge holes (95) formed therein, the water discharge hole (95) maintains the range and angle that is directly ejected to the upper cover 70 of the submersible pump (1) Done. That is, the water discharge hole (95) formed inside the ring pipe (94) is to form an angle downward so that water is discharged to the upper cover (70).

6 and 7, a plurality of discharge holes 99a are formed on the upper portion of the discharge pipe 80 so as to communicate with each other, and horizontally communicate with the fitting hole 98. It is formed, the other side is coupled to the connecting bar 99 is blocked.

At this time, the connection bar 99 is positioned above the upper cover 70 of the submersible pump 1 to discharge the water downward to cool the motor 40.

Referring to the operating state of the present invention configured as described above, when the submersible pump 1 is placed vertically to the place to be used as shown in Figures 2 and 3, through the inlet 11 of the lower case 10 Fluid is sucked inside.

In this state, the power is connected to operate the motor 40 inside the motor frame 50. Then, while the motor 40 rotates and the impeller 20 arranged as the connecting shaft 30 rotates at the same time, the centrifugal rotational force of the impeller 20 moves into the inlet 11 of the lower case 10. The introduced fluid is discharged to the outside through the outlet adapter 12 and through the discharge pipe 80 fastened to the outlet adapter 12 and the external hose 85 connected to the discharge pipe 80.

At this time, the water is ejected to the outside at a suitable pressure through a plurality of blow holes 82 formed in the outer diameter of one side of the discharge pipe (80).

As such, when the submerged pump 1 operates while the submerged pump 1 is submerged, the water jetted through the spouting hole 82 of the discharge pipe 80 does not play any role, but the submerged pump 1 is exposed to the outside. In the water discharged through the ejection hole 82 of the discharge pipe 80 is continuously ejected to the motor frame 50 in which the motor 40 is embedded therein to block the overheating of the motor 40 in advance. The performance of the motor 40 is to be maintained.

At this time, the ejection hole 82 of the discharge pipe 80 is formed in the discharge pipe 80 to be ejected toward the motor frame 50 in which the motor 40 is built.

Meanwhile, as illustrated in FIGS. 4 and 5, the coupling pipe 92 of the ring pipe 94 is coupled to the connector 90 formed to communicate with the outer diameter of one side of the discharge pipe 80 so as to connect the ring pipe to the discharge pipe 80. 94) to be combined horizontally. At this time, the ring pipe 94 is coupled to the discharge pipe 80 in a state surrounding the upper cover 70.

In this state, when the submersible pump 1 is exposed to the outside as described above, some of the water is continuously discharged to the outside through the outer tube 85 connected to the discharge pipe 80 when the submersible pump 1 operates. At the same time, it is continuously discharged to the outside through the water discharge hole 95 of the ring pipe 94 through the connector 90 and the coupling 92 of the discharge pipe 80.

At this time, the plurality of water discharge holes (95) formed inside the ring pipe (94) is formed at an angle downward so that water is discharged to the upper cover (70) is discharged directly to the upper cover (70) motor 40 By blocking the overheating in advance is to maintain the performance of the motor 40.

6 and 7, a fitting hole 98 is formed at an upper portion of the discharge pipe 80, and a plurality of discharge holes 99a are formed in horizontal communication with the fitting hole 98. The blocked connecting bar 99 is to be coupled.

In this state, when the submersible pump 1 is exposed to the outside as described above, a part of the water when the submersible pump 1 is operated is externally connected through an outer tube 85 connected to the fitting hole 98 of the discharge pipe 80. Continuous discharge is achieved.

At the same time, the discharge pipe 80 is continuously discharged to the outside through the discharge hole (99a) of the fitting hole 98 and the connecting bar 99 coupled to the fitting hole 98, the connection bar 99 is It is located above the upper cover 70 of the submersible pump 1 to cool the motor 40 by discharging water downward to maintain the performance.

According to the present invention as described above, by forming a discharge hole in the discharge pipe of the submersible pump to eject the water to the motor frame with the motor, or by combining the ring pipe in the state surrounding the submersible pump in the discharge pipe to the water It is a simple cooling means that discharges, but forms a fitting hole in the discharge pipe, and connects the connecting bar horizontally to the fitting hole to discharge the water in the shower type from the top to prevent the motor from overheating, so that the underwater motor outside the water It is possible to improve the performance of the motor, and also to prevent oil and refrigerant inside the submersible pump in order to prevent overheating of the motor as in the prior art, the price of the submersible pump becomes inexpensive, and the environment is polluted. The effect of preventing is provided.

Claims (4)

A suction port for sucking fluid and an outlet adapter for discharging the sucked fluid to the outside are provided, and a lower case in which an impeller is embedded, and a motor connected to the lower case and rotatably built as a connecting shaft with an impeller therein are built in. In the submersible pump consisting of an upper cover which is connected to the motor frame, and the bearing connected to the motor frame, the connecting shaft is connected to the impeller and the motor therein, A discharge pipe 80 having one side detachably coupled to the outlet adapter 12 and an outer tube 85 coupled to the other side; And A plurality of ejection holes 82 formed in one side of an outer diameter region of the discharge pipe 80 to eject water to the motor frame 50; Submersible pump with cooling means, characterized in that configured to include. According to claim 1, wherein the outlet 90 is connected to the outer diameter of one side of the connector 90 is formed, The coupler 92 is coupled to the connector 90 in communication, The coupler 92 is surrounded by the upper cover 70, the water pump is provided with a cooling means, characterized in that the ring pipe 94 is formed in communication with the water discharge hole (95). The water discharge hole 95 of the ring pipe 94 is Submersible pump with a cooling means, characterized in that the angle is formed to be inclined downward so as to be discharged directly to the upper cover (70). According to claim 1, The fitting hole 98 is formed on the upper portion of the discharge pipe (80), The fitting hole (98) is formed in the discharge hole (99a) to communicate in a horizontal, submersible pump with cooling means, characterized in that the other side is coupled to the connecting bar 99 is blocked.