KR920008344Y1 - Vulmire heat pump motor cooling device - Google Patents

Abstract

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Description

Baler heater pump motor cooling device

1 is a cross-sectional view of a heater pump showing a conventional motor cooling apparatus.

2 is a cross-sectional view of the bulmeyer heater pump to which the motor cooling device of the present invention is applied.

3 is a cross-sectional view taken along the line a-a of FIG.

* Explanation of symbols for main parts of the drawings

20: operating unit 21: driving unit

22: fastening plate 23: heat exchange member

24: blower member 25: ventilator

26: fixture 27: discharge pipe

The present invention relates to a motor cooling apparatus of a beemeier heater pump, in particular, to improve the cooling efficiency of the motor to perform a long continuous operation.

In general, the bulmeier heater pump 1 is filled with helium gas at a high pressure in a cylinder 4 having a different temperature space, that is, a high temperature chamber 2 and a low temperature chamber 3, as shown in FIG. In the cylinder 4, two display machines 5 and 6 are provided with a constant phase difference, which moves forward and backward, so that the gases are changed in temperature as they move each gas filled in each space and a separate heater is heated. The pressure fluctuation caused by the discharge of heat and the intake of heat, according to the start-up state, even if the motor (7) is stopped even if the heater heats the gas in accordance with the pressure changer (5) ( 6) is a device that operates continuously.

Therefore, by using such a device, it is possible to cool or heat or use as an engine.

By the way, in the Bul Meier heater pump 1, even if the motor is stopped in the state of starting, the power of the displayer operated by the heating of the heater is transmitted to the motor in reverse, so that the motor is idling and much heat is generated. In addition, since the motor is provided inside the main body to prevent leakage of the working fluid, heat generated by the motor cannot be released and the cooling device of the motor is essentially required.

That is, the conventional motor cooling apparatus is largely divided into water-cooled and air-cooled. As an example, the water-cooled structure looks at the outer periphery of the cylinder 4, that is, the outside of the low temperature 3 where the temperature is extremely low. 8) a cooling chamber provided as a double pipe at the outer periphery of the drive unit provided as a double pipe at the outer periphery of the drive unit where the water tank 9 is introduced and exchanged with the low temperature chamber 3 side, and the motor 7 is provided. (10) and a connecting pipe (11) provided to allow the cooling water heat-exchanged in the water tank (9) to be circulated to the cooling chamber (10) side.

Therefore, the gas is heated and moved by the two display machines 5 and 6 operated in the cylinder 4 and the heater not shown so that the high temperature is maintained in the high temperature chamber 2 and the low temperature chamber 3 is operated. At extremely low temperatures are maintained.

In other words, while the gas moves between the high-temperature chamber 2 and the low-temperature chamber 3 mutually, heat is accumulated in the heat accumulator 12 so that a low temperature at which a cooling output can be obtained is maintained in the heat exchange chamber on the low-temperature chamber 3 side.

Therefore, the heat exchange chamber thereof has a low temperature and heat exchanges with water in the water tank 9 introduced through the inlet 8 so that the water in the water tank 9 becomes a coolant having a low temperature, and the cooling water thereof is connected to the connecting pipe 11 again. Through the cooling unit 10 flows through the drive unit to rotate the outer periphery of the drive unit to cool the drive unit, the cooling water flowing through the cooling chamber 10 was to be discharged through the discharge port (13).

However, such a conventional configuration is difficult and cumbersome to manufacture because the drive unit provided with the motor 7 must be provided with a double pipe, thereby causing a problem that the manufacturing cost is increased.

In addition, this method has a problem that the cooling efficiency is lowered because the temperature of the cooling water conducts the surface of the double pipe to cool the motor 7.

In addition, the air-cooled (not shown) is a separate blower fan is installed on the motor shaft, while the front of the blower fan is communicated with a separate pipe, such as a separate body installed in the drive unit of the motor to install the pipe when the fan is rotated. The wind was forced through the air to cool the drive unit of the motor.

However, this has the drawback that the structure is simpler than the above water-cooled but inferior in cooling efficiency.

The present invention has been made in view of the shortcomings of the conventional cooling apparatuses as described above. The object of the present invention is to provide a motor cooling apparatus of the Bulmeier heater pump which can perform continuous operation for a long time by increasing the cooling efficiency of the motor.

The present invention to achieve the above object is achieved by providing a heat exchange member provided on the inner surface of the fastening plate provided on the rear of the drive unit and the heat exchanger coolant flows in the low temperature chamber to cool the motor.

Hereinafter will be described in detail by the accompanying drawings a preferred embodiment of the present invention the object as follows.

2 is a bulmeier heater pump having a motor cooling device of the present invention, 1 is the main body of the bulmeier heater pump.

Its main body (1) is composed of the operating unit 20 and the drive unit 21, the operation unit 20 is the two display units (5) (6) the forward and backward operation and the high temperature room (2) and the low temperature room (3) A cylinder 4 having a heat sink, a heat accumulator 12 which is provided in a connection passage 14 connecting the high temperature chamber 2 and the low temperature chamber 3 to accumulate heat, and a lower portion of the heat accumulator 12. It is provided in the water tank (9) for cooling water is provided.

In addition, the drive unit 21 is provided in the lower portion of the cylinder (4) and is connected to the rods of the two display machines (5) (6) so that they have a constant phase difference, the crankshaft (15) and the crankshaft thereof Consists of a motor (7) for transmitting power to the (15) has the same configuration as the conventional water-cooled cooling device, the blower member 24 is installed on the rotary shaft 16 of the motor (7) forcibly blowing wind Also has a basic configuration having the same configuration as the conventional air-cooled cooling device.

However, the present invention is to cool the drive unit 21 under water cooling and air cooling, which is provided in the fastening plate 22 fastened to the rear of the drive unit 21 and connected to the aforementioned water tank 9 so that the coolant flows back. It consists of a heat exchange member 23 and a vent hole 25 provided on the outer circumferential edge of the drive unit 21.

In more detail, the heat exchange member 23 is fixed by the fixture 26 while being provided with a plurality of inner surfaces of the fastening plate 22, and both ends protrude outward of the fastening plate 22. In addition to the connection pipe (11) connected to the water tank (9) and the outer end of the discharge pipe 27 is fastened.

In addition, the blower member 24 is provided at the rear of the motor 7, that is, the rotary shaft 16 of the motor 7 is configured to be similar to the conventional air-cooled cooling device to blow air toward the heat exchange member 23, The wind blown by the blower member 24 is configured to suck the outside air through the plurality of vents 25 and to convex the inside of the drive unit 21.

Therefore, the coolant in the water tank 9 is heat-exchanged with the low-temperature chamber 3 side, is circulated to the heat exchange member 23 through the connecting pipe 11, and then discharged through the discharge pipe 27, and at the same time, the blowing member 24 Wind generated by the blowing force of the heat convection in the drive unit 21 via the heat exchange member 23 is to heat exchange with the cooling water in the heat exchange member 23 to cool the motor (7).

More specifically, the wind generated under the rotation of the blower member 24 is cooled by the heat exchange with the cooling water of the heat exchanger member 23, thereby cooling the entire surface of the motor 7 evenly.

As described above, the present invention is provided with a heat exchange member on the fastening plate provided in front of the blower member, so that the blowing wind generated under the rotation of the blower member forms a heat exchange with the cooling water of the heat exchanger member, thereby cooling the motor. Since it is cooled evenly on the entire surface of the cooling efficiency is improved by that, it will also have the effect of long-term continuous operation of the Vulmeier heater pump.

Claims (2)

In the cooling device that cools the motor by cooling water that is heat-exchanged to the low temperature chamber side of the bulmeier heater pump or blows the wind generated under the rotation of the blowing member, the fastening plate fastened to the rear of the driving unit 21 ( On the inner side of the 22 is installed by the fixture 26, the heat exchange member 23 is provided with a plurality of bent to cool the motor 7 under the flow of the cooling water heat exchanged in the low-temperature chamber (3) Motor cooler of the Vulmeier heater pump. The apparatus of claim 1, wherein a plurality of vent holes are provided on the outer circumferential edge of the driving unit.