CN211716910U - Superconductive impeller heat pump - Google Patents

Abstract

The utility model discloses a superconductive impeller heat pump, which comprises a pump body, the inside of the pump body is from last to being equipped with heat exchanger, heat exchanger copper nest of tubes and multi-blade pump impeller down in proper order, one side of multi-blade pump impeller is equipped with the driving wheel, the opposite side of multi-blade pump impeller is equipped with the stationary vane, heat exchanger copper nest of tubes is the hollow cylindrical structure, heat exchanger copper nest of tubes cup joints in the outside of multi-blade pump impeller, heat exchanger copper nest of tubes is connected with the heat exchanger, the front end and the rear end of heat exchanger one side are equipped with delivery port and water inlet respectively, the opposite side of delivery port and water inlet all extends to the outside of the pump body, the inside of the pump body is equipped with superconductive liquid, be equipped with the liquid outlet. Compared with the prior art, the utility model the advantage lie in: high thermal efficiency and long service life.

Description

Superconductive impeller heat pump

Technical Field

The utility model relates to a heat pump technical field specifically indicates superconductive impeller heat pump.

Background

At present, people have more and more requirements on hot water, and places needing a large amount of hot water are more and more. For example, constant temperature swimming pools, hotels, and home winter heating all require large amounts of hot water and therefore heat pumps. The heat pump in the prior art has low heat efficiency, water of water molecules generates loss in high-speed centrifugal motion, and hot water is supplied to pipelines and heating radiators in a heat supply circulating system to cause serious damage to blades, so that the heating efficiency of the heat pump is influenced, and the service life of the heat pump is also influenced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome above technical defect, provide a superconductive impeller heat pump that the thermal efficiency is high, long service life.

In order to solve the technical problem, the utility model provides a technical scheme does: the superconducting impeller heat pump comprises a pump body, wherein a heat exchanger, a heat exchanger copper pipe set and a multi-blade pump wheel are sequentially arranged in the pump body from top to bottom, a driving wheel is arranged on one side of the multi-blade pump wheel, a static wheel is arranged on the other side of the multi-blade pump wheel, the heat exchanger copper pipe set is of a hollow cylindrical structure and is sleeved on the outer side of the multi-blade pump wheel, the heat exchanger copper pipe set is connected with the heat exchanger, a water outlet and a water inlet are respectively formed in the front end and the rear end of one side of the heat exchanger, the other sides of the water outlet and the water inlet extend to the outside of the pump body, superconducting liquid is arranged in the pump body, and a liquid outlet matched with the superconducting liquid.

Compared with the prior art, the utility model the advantage lie in: the superconducting impeller heat pump of the utility model utilizes superconducting liquid to replace water, has good friction heating function, and improves the efficiency of the heat pump; by utilizing a heat conduction heat exchange mode, a heat exchanger copper pipe and a heat exchanger perform heat supply circulation, and the multi-blade pump impeller and superconducting liquid are used for heating, so that the independent work is performed, a large amount of impurities are prevented from entering the multi-blade pump impeller, the serious damage of blades can not be caused, the heating efficiency of the heat pump is improved, and the service life of the heat pump is prolonged.

As an improvement, the heat exchanger copper pipe group consists of a plurality of uniformly distributed annular heat exchange copper pipes, and two ends of each annular heat exchange copper pipe are respectively connected with one end of a water inlet and one end of a water outlet which are positioned in the pump body, so that water in all the annular heat exchange copper pipes can be rapidly heated, and the working efficiency is improved.

As an improvement, a liquid inlet pipe matched with the superconducting liquid is arranged in the middle of one side of the multi-blade pump wheel, and the other side of the liquid inlet pipe extends to the outside of the pump body, so that the superconducting liquid can be conveniently added into the pump body.

As an improvement, a transmission shaft is arranged in the middle of the other side of the multi-blade pump wheel, and the other side of the transmission shaft extends to the outside of the pump body, so that the multi-blade pump wheel can work conveniently.

As an improvement, the water inlet and the water outlet are positioned on the same side of the pump body, so that the pump body can work conveniently in cooperation with the annular heat exchange copper pipe.

Drawings

Fig. 1 is a schematic diagram of the internal structure of the superconducting impeller heat pump of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the superconducting impeller heat pump of the present invention on the left side.

As shown in the figure: 1. the pump body, 2, a driving wheel, 3, a transmission shaft, 4, a heat exchanger copper tube group, 5, superconducting liquid, 6, a liquid inlet pipe, 7, a static wheel, 8, a water inlet, 9, a heat exchanger, 10, a heat exchange copper tube, 11, a liquid outlet, 12, a water outlet, 13 and a multi-blade pump wheel.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The superconducting impeller heat pump comprises a pump body 1, wherein a heat exchanger 9, a heat exchanger copper pipe group 4 and a multi-blade pump wheel 13 are sequentially arranged in the pump body 1 from top to bottom, a driving wheel 2 is arranged on one side of the multi-blade pump wheel 13, a fixed wheel 7 is arranged on the other side of the multi-blade pump wheel 13, the heat exchanger copper pipe group 4 is of a hollow cylindrical structure, the heat exchanger copper pipe group 4 is sleeved on the outer side of the multi-blade pump wheel 13, the heat exchanger copper pipe group 4 is connected with the heat exchanger 9, a water outlet 12 and a water inlet 8 are respectively arranged at the front end and the rear end of one side of the heat exchanger 9, the other sides of the water outlet 12 and the water inlet 8 extend to the outside of the pump body 1, superconducting liquid 5 is arranged in the pump body 1, and a liquid outlet 11 matched with.

The heat exchanger copper pipe group 4 is composed of a plurality of uniformly distributed annular heat exchange copper pipes 10, and two ends of each annular heat exchange copper pipe 10 are respectively connected with one end of a water inlet 8 and one end of a water outlet 12 which are positioned in the pump body 1.

The middle of one side of the multi-blade pump wheel 13 is provided with a liquid inlet pipe 6 matched with the superconducting liquid 5, and the other side of the liquid inlet pipe 6 extends to the outside of the pump body 1.

A transmission shaft 3 is arranged in the middle of the other side of the multi-blade pump wheel 13, and the other side of the transmission shaft 3 extends to the outside of the pump body 1.

The water inlet 8 and the water outlet 12 are located on the same side of the pump body 1.

The utility model discloses when concrete implementation, combine the inner structure schematic diagram of the superconductive impeller heat pump of figure 1 and the left inner structure schematic diagram of the superconductive impeller heat pump of figure 2 to know, the utility model discloses a superconductive impeller heat pump is when using, at first pours water into heat exchanger 9 into through water inlet 8, and the water of pouring into this moment can flow into in the heat exchanger copper nest of tubes 4, then pours into quiet wheel 7 through feed liquor pipe 6 with required superconductive liquid 5 in, makes transmission shaft 3 be connected with the motor, can drive transmission shaft 3 high-speed rotations after the motor starts to it carries out high-speed rotation to drive multi-blade pump impeller 13. With the high-speed rotation of the multi-blade pump wheel 13, the blades of the multi-blade pump wheel 13 can drive the superconducting liquid 5 to generate centrifugal motion, the molecules of the superconducting liquid move at high speed, impact and friction are performed to generate heat energy, the temperature of the superconducting liquid 5 can be quickly raised, the superconducting liquid is used for replacing water, the friction heating function is good, and the efficiency of the heat pump is improved. In the process of carrying out centrifugal motion on the superconducting liquid 5, part of the superconducting liquid 5 flows out of the movable wheel 2 through the liquid outlet 11, and part of the superconducting liquid 5 flowing out of the multi-blade pump wheel 13 can enter the interior of the multi-blade pump wheel 13 again through the fixed wheel 7, so that heat is always supplied, and the working efficiency is improved. And the heat exchanger copper pipe group 4 is sleeved on the outer side of the multi-blade pump wheel 13, and under the matching of the inside of the multi-blade pump wheel 13 and the external superconducting liquid 5, the water in the annular heat exchange copper pipe 10 can be quickly heated and heat energy can be transferred, so that the water in the heat exchanger 9 can be heated. Hot water in the heat exchanger 9 flows out through the water outlet 12 for people to use, and circulating heat supply is realized under the matching of the heat exchanger 9 and the heat exchanger copper pipe group 4. The heat exchanger copper pipe group 4 and the heat exchanger 9 are used for heat supply circulation, and the multi-blade pump wheel 13 and the superconducting liquid 5 are used for heating, so that the independent work is performed, a large amount of impurities are prevented from entering the multi-blade pump wheel 13, the blades cannot be seriously damaged, the heating efficiency of the heat pump is improved, and the service life of the heat pump is prolonged. Therefore, the utility model discloses a superconductive impeller heat pump not only the thermal efficiency is high, long service life moreover.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. Superconductive impeller heat pump, including the pump body (1), its characterized in that: the interior of the pump body (1) is sequentially provided with a heat exchanger (9), a heat exchanger copper pipe group (4) and a multi-blade pump wheel (13) from top to bottom, one side of the multi-blade pump wheel (13) is provided with a driving wheel (2), the other side of the multi-blade pump wheel (13) is provided with a static wheel (7), the heat exchanger copper pipe group (4) is of a hollow cylindrical structure, the heat exchanger copper pipe group (4) is sleeved on the outer side of the multi-blade pump wheel (13), the heat exchanger copper pipe group (4) is connected with a heat exchanger (9), the front end and the rear end of one side of the heat exchanger (9) are respectively provided with a water outlet (12) and a water inlet (8), the other sides of the water outlet (12) and the water inlet (8) both extend to the outside of the pump body (1), the inside of the pump body (1) is provided with superconducting liquid (5), and a liquid outlet (11) matched with the superconducting liquid (5) for use is arranged between the driving wheel (2) and the static wheel (7).

2. The superconducting impeller heat pump of claim 1 wherein: the heat exchanger copper pipe group (4) is composed of a plurality of uniformly distributed annular heat exchange copper pipes (10), and two ends of each annular heat exchange copper pipe (10) are respectively connected with one end of a water inlet (8) and one end of a water outlet (12) which are positioned in the pump body (1).

3. The superconducting impeller heat pump of claim 1 wherein: the middle of one side of the multi-blade pump wheel (13) is provided with a liquid inlet pipe (6) matched with the superconducting liquid (5) for use, and the other side of the liquid inlet pipe (6) extends to the outside of the pump body (1).

4. The superconducting impeller heat pump of claim 1 wherein: a transmission shaft (3) is arranged in the middle of the other side of the multi-blade pump wheel (13), and the other side of the transmission shaft (3) extends to the outside of the pump body (1).

5. The superconducting impeller heat pump of claim 1 wherein: the water inlet (8) and the water outlet (12) are positioned on the same side of the pump body (1).

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