CN221301644U - Air heat source pump - Google Patents

Abstract

The utility model discloses an air heat source pump, comprising: the air heat source pump comprises a main body module and a preheating module, wherein the preheating module is arranged at the top end of a heat source pump and used for preheating air fed into the main body of the heat source pump, so that heat exchange efficiency of the main body of the heat source pump is improved.

Description

Air heat source pump

Technical Field

The utility model relates to the technical field of air heat source pumps, in particular to an air heat source pump.

Background

The main machine discharges hot air while the air conditioner is refrigerating, and the working principle of the air source heat pump is opposite to that of the main machine, and cold air is discharged when hot water is prepared. The air source heat pump is one of heating equipment with highest world energy efficiency ratio at present, and adopts electric energy driving according to the inverse Carnot cycle principle, effectively absorbs low-grade heat energy which cannot be utilized in air through a heat transfer working medium, and lifts the absorbed heat energy to available high-grade heat energy and releases the heat energy into water.

However, the existing air heat source pump mainly has the following disadvantages in the use process: the air in the general natural environment contains low heat, so that the heat exchange efficiency is poor in the working process of the air heat source pump, and the energy consumption of equipment is high, so that there is room for improvement.

Disclosure of utility model

The present utility model aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the utility model is as follows: an air heat source pump comprising: the main body module comprises a heat source pump main body, a water tank arranged on one side of the heat source pump main body, a photoelectric sensor arranged at the top end of the water tank and a corrugated hose arranged on one side of the heat source pump main body.

The preheating module comprises a base symmetrically fixed at the top end of the heat source pump main body, a rotating shaft, a mounting seat, a reflection focusing plate, a driving piece, brackets, a heat preservation pipe, a heat pipe and an air supply piece, wherein the rotating shaft is arranged on the base, the mounting seat is symmetrically fixed on the rotating shaft, the reflection focusing plate is fixed on the mounting seat, the driving piece is arranged at the end part of the rotating shaft, the brackets are symmetrically fixed on two sides of the reflection focusing plate, the heat preservation pipe is arranged on the opposite brackets, the heat pipe is arranged on the opposite brackets and is positioned in the inner cavity of the heat preservation pipe, and the air supply piece is fixed at the end part of the heat pipe.

One end of the corrugated hose is communicated with the air inlet of the heat source pump main body, and the other end of the corrugated hose is fixedly communicated with the end part of the heat pipe.

The present utility model may be further configured in a preferred example to: the driving piece comprises a worm wheel fixed at the end part of the rotating shaft, a motor arranged at the top end of the heat source pump main body and a worm fixed on the motor shaft, and the worm is meshed with the worm wheel.

The present utility model may be further configured in a preferred example to: the heat pipe comprises a copper pipe with two ends respectively fixed on opposite brackets and a baffle fixed on the inner wall of the copper pipe in an array.

The present utility model may be further configured in a preferred example to: an opening is formed between the baffle plate and the inner wall of the copper pipe, and the adjacent baffle plates are arranged in a central symmetry mode, so that an S-shaped air flow passage is formed in the inner cavity of the copper pipe.

The present utility model may be further configured in a preferred example to: the air supply piece comprises a cylinder body fixed at the end part of the heat pipe, a high-speed fan arranged on the inner wall of the cylinder body and a filter screen arranged on the inner wall of the cylinder body.

The present utility model may be further configured in a preferred example to: the heat preservation pipe is made of transparent PC material.

The present utility model may be further configured in a preferred example to: the output end of the photoelectric sensor is electrically connected with the input end of the motor through an electric wire.

By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:

1. In the utility model, the reflective focusing plate is arranged at the top end of the heat source pump through the base, the rotating shaft and the mounting seat, the heat preservation pipe and the heat pipe are arranged on the reflective focusing plate through the bracket, one end of the hot end is communicated with the air inlet of the heat source pump main body through the corrugated hose, the air supply piece is arranged at the other end of the hot end, when the heat source pump main body works, the air supply piece sends outside air into the heat pipe, at the moment, the reflective focusing plate reflects sunlight and focuses on the heat pipe to heat the heat pipe, when the outside air passes through the heat pipe, the heat pipe can heat and raise the temperature of the air, and the heated air enters the heat source pump main body through the corrugated hose, so that the heat exchange efficiency of the air heat source pump is improved, the energy consumption of equipment is reduced, and the practical performance is increased.

2. According to the utility model, the driving piece is arranged at one end of the rotating shaft, the photoelectric sensor is arranged at the top end of the water tank, the irradiation angle of sunlight is monitored in real time by the photoelectric sensor, the rotating shaft is driven to rotate by the driving piece, and the reflecting focusing plate is driven to rotate by the rotation of the rotating shaft, so that the reflecting focusing plate can always face the sun, the heating effect of the reflecting focusing plate on the heat pipe is ensured, and the practical performance is further improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic rear view of the present utility model;

FIG. 3 is a schematic cross-sectional view of a heat pipe according to the present utility model.

Reference numerals:

100. A main body module; 110. a heat source pump body; 120. a water tank; 130. a photoelectric sensor; 140. a corrugated hose;

200. A preheating module; 210. a base; 220. a rotating shaft; 230. a mounting base; 240. a reflection focusing plate; 250. a driving member; 251. a worm wheel; 252. a motor; 253. a worm; 260. a bracket; 270. a heat preservation pipe; 280. a heat pipe; 281. copper pipe; 282. a baffle; 290. an air supply member; 291. a cylinder; 292. a high-speed fan; 293. and (5) a filter screen.

Detailed Description

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

Some embodiments of the utility model are described below with reference to the accompanying drawings,

Example 1:

As shown in connection with fig. 1-3, the present embodiment provides an air heat source pump comprising: the main body module 100 and the preheating module 200.

The main body module 100 includes a heat source pump main body 110, a water tank 120 provided at one side of the heat source pump main body 110, a photosensor 130 installed at the top end of the water tank 120, and a bellows 140 installed at one side of the heat source pump main body 110.

The heat source pump main body 110 has the same composition structure as the air heat source pump in the prior art, and mainly comprises an evaporator, a compressor, a condenser, an expansion valve and the like which are sequentially communicated end to end, and the water tank 120 is used for storing water.

The photoelectric sensor 130 is installed at the top of the water tank 120, and is used for monitoring the irradiation angle of sunlight in real time, one end of the corrugated hose 140 is communicated with the air inlet of the heat source pump, and the other end is communicated with the preheating module 200, so that preheated air is conveniently guided into the inner cavity of the heat source pump.

The preheating module 200 is installed at the top of the heat source pump for preheating the air fed into the heat source pump main body 110, thereby improving the heat exchange efficiency of the heat source pump main body 110, and comprises a base 210 symmetrically fixed at the top of the heat source pump main body 110, a rotating shaft 220 installed on the base 210, an installation seat 230 symmetrically fixed on the rotating shaft 220, a reflection focusing plate 240 fixed on the installation seat 230, a driving member 250 installed at the end of the rotating shaft 220, brackets 260 symmetrically fixed at both sides of the reflection focusing plate 240, heat preservation pipes 270 installed on the opposite brackets 260, a heat pipe 280 installed on the opposite brackets 260 and positioned in the inner cavity of the heat preservation pipe 270, and an air supply member 290 fixed at the end of the heat pipe 280.

The base 210 is used for installing the rotating shaft 220, two ends of the rotating shaft 220 are rotatably installed on the base 210, one end of the installation seat 230 is fixed on the rotating shaft 220, and the other end of the installation seat is used for installing the reflection focusing plate 240, so that the reflection focusing plate 240 can conveniently rotate.

The driving member 250 is configured to drive the reflection focusing plate 240 to rotate, and includes a worm gear 251 fixed at an end portion of the rotating shaft 220, a motor 252 mounted at a top end of the heat source pump main body 110, and a worm 253 fixed on a shaft of the motor 252, wherein the worm 253 is meshed with the worm gear 251, and when the motor 252 drives the worm 253 to rotate, the worm 253 drives the worm gear 251 to rotate, the worm gear 251 rotates to drive the rotating shaft 220 to rotate, and the rotating shaft 220 rotates to drive the reflection focusing plate 240 to rotate, so as to adjust a pitch angle of the reflection focusing plate 240.

The reflective focusing plate 240 is an arc surface, and the focusing point is on the heat pipe 280, so as to reflect and focus sunlight on the heat pipe 280, and heat the heat pipe 280, so that the heated heat pipe 280 can preheat the passing air.

The support 260 is used for installing the insulating tube 270 and the heat pipe 280, the insulating tube 270 is made of transparent PC material, and is used for insulating the heat pipe 280, so that heat loss is avoided, the heat pipe 280 is used for heating passing air, the heat pipe comprises a copper pipe 281 with two ends respectively fixed on the opposite support 260 and a baffle 282 fixed on the inner wall of the copper pipe 281 in an array manner, an opening is formed between the baffle 282 and the inner wall of the copper pipe 281, and adjacent baffles 282 are arranged in a central symmetry manner, an S-shaped air flow passage is formed in the inner cavity of the copper pipe 281, so that the time for air to enter the copper pipe 281 can be prolonged, and the copper pipe 281 can fully heat the air in the copper pipe.

One end of the corrugated hose 140 is communicated with the air inlet of the heat source pump main body 110, and the other end is fixedly communicated with the end of the heat pipe 280.

The air supply member 290 is used for sending external air into the heat pipe 280, and comprises a cylinder 291 fixed at the end of the heat pipe 280, a high-speed fan 292 installed on the inner wall of the cylinder 291, and a filter screen 293 installed on the inner wall of the cylinder 291, wherein the cylinder 291 is used for installing the high-speed fan 292 and the filter screen 293, the high-speed fan 292 rotates to send the external air into the heat pipe 280, and the filter screen 293 is used for filtering dust impurities in the air.

The working principle and the using flow of the utility model are as follows: when the heat source pump main body 110 works, the high-speed fan 292 is started to blow external air into the heat pipe 280, at this time, the photoelectric sensor 130 monitors the irradiation angle of sunlight in real time, adjusts the orientation of the reflection focusing plate 240 according to the irradiation angle of sunlight, starts the motor 252, drives the worm 253 to rotate, the worm 253 rotates to drive the worm wheel 251 to rotate, the worm wheel 251 rotates to drive the rotating shaft 220 to rotate, the rotating shaft 220 rotates to drive the reflection focusing plate 240 to rotate through the mounting seat 230, the reflection focusing plate 240 always faces the sun, the sunlight irradiates onto the reflection focusing plate 240, the reflection focusing plate 240 reflects and focuses on the heat pipe 280 to heat the heat pipe 280, the external air is heated by the heat pipe 280 when passing through the heat pipe 280, and the heated air is fed into the heat source pump main body 110 through the corrugated hose 140.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (7)

1. An air heat source pump comprising: a main body module (100) and a preheating module (200), wherein the main body module (100) comprises a heat source pump main body (110), a water tank (120) arranged at one side of the heat source pump main body (110), a photoelectric sensor (130) arranged at the top end of the water tank (120), and a corrugated hose (140) arranged at one side of the heat source pump main body (110);

The preheating module (200) comprises a base (210) symmetrically fixed at the top end of the heat source pump main body (110), a rotating shaft (220) arranged on the base (210), a mounting seat (230) symmetrically fixed on the rotating shaft (220), a reflection focusing plate (240) fixed on the mounting seat (230), driving pieces (250) arranged at the end part of the rotating shaft (220), brackets (260) symmetrically fixed at two sides of the reflection focusing plate (240), heat preservation pipes (270) arranged on the opposite brackets (260), heat pipes (280) arranged on the opposite brackets (260) and positioned in the inner cavities of the heat preservation pipes (270) and air supply pieces (290) fixed at the end parts of the heat pipes (280);

One end of the corrugated hose (140) is communicated with an air inlet of the heat source pump main body (110), and the other end of the corrugated hose is fixedly communicated with the end part of the heat pipe (280).

2. An air heat source pump according to claim 1, wherein the driving member (250) comprises a worm wheel (251) fixed to an end of the rotation shaft (220), a motor (252) mounted to a top end of the heat source pump main body (110), and a worm (253) fixed to a shaft of the motor (252), the worm (253) being engaged with the worm wheel (251).

3. An air heat source pump according to claim 1, wherein the heat pipe (280) comprises a copper pipe (281) having both ends fixed to the opposite brackets (260), respectively, and a baffle plate (282) fixed to an inner wall of the copper pipe (281) in an array.

4. An air heat source pump according to claim 3, wherein an opening is provided between the baffle plate (282) and the inner wall of the copper tube (281), and the adjacent baffle plates (282) are arranged in a central symmetry manner, so that an S-shaped air flow passage is formed in the inner cavity of the copper tube (281).

5. An air heat source pump according to claim 1, wherein the air supply member (290) comprises a cylinder (291) fixed to an end of the heat pipe (280), a high-speed fan (292) mounted on an inner wall of the cylinder (291), and a filter screen (293) mounted on an inner wall of the cylinder (291).

6. An air heat source pump according to claim 1, wherein the insulating tube (270) is a transparent PC material.

7. An air heat source pump according to claim 2, wherein the output of the photosensor (130) is electrically connected to the input of the motor (252) by means of an electrical wire.