CN216814613U

CN216814613U - Air source heat pump with wind-solar complementation and local temperature field changeable function

Info

Publication number: CN216814613U
Application number: CN202220457747.XU
Authority: CN
Inventors: 刘京华; 沈龙; 辛增亚
Original assignee: Shandong Aoxin Heating Co ltd
Current assignee: Shandong Aoxin Heating Co ltd
Priority date: 2022-03-04
Filing date: 2022-03-04
Publication date: 2022-06-24
Anticipated expiration: 2032-03-04

Abstract

The utility model discloses an air source heat pump with wind-solar complementation and capable of changing local temperature field, comprising: the solar photovoltaic power generation device comprises a shell, wherein the shell is of a cuboid box type structure, a support is arranged at the lower end of the shell, a solar cell is arranged at the upper end of the shell, a solar light panel is connected above the solar cell, and a miniature wind driven generator is arranged in the middle of the lower end of the shell. This take complementary air source heat pump that can change local temperature field of scene, cooperate between miniature aerogenerator and the hot plate through the device inside, when the low temperature region of device uses, when the through hole of the circular cavity one side of the cuboid platelike structure through the support lower extreme is passed by wind, the flabellum that drives miniature aerogenerator generates electricity and provides electric power for the hot plate, the start-up hot plate heats the device is inside, the temperature that improves the device is convenient for the device to use, improve the inside moisture of temperature evaporation plant, keep the inside drying of device.

Description

Air source heat pump with wind-solar complementation and local temperature field changeable function

Technical Field

The utility model relates to the technical field of air source heat pumps, in particular to an air source heat pump with wind-solar complementation and capable of changing a local temperature field.

Background

The heat pump is a device for transferring the heat energy of a low-temperature heat source to a high-temperature heat source to realize refrigeration and heating, wherein the air source heat pump is an energy-saving device which utilizes high-level energy to lead heat to flow from low-level heat source air to high-level heat source, it is a form of heat pump, and is more convenient to use by taking air as a low-level heat source of the heat pump, because the vast climate of China covers cold, warm and hot zones, the air source heat pump is more suitable for being used in areas with hot summer and cold winter, but for users in cold areas, because the existing air source heat pump runs at low temperature and uses the internal humidity to increase and damage the machine, and the efficiency of the unit is reduced because the interior of the device is frozen easily due to frosting when the humidity of a cold region is high, and the single electric wire netting electric power that uses in current device is difficult to provide in cold district, and the too high power consumption demand of machine reduces the life of device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an air source heat pump with wind and light complementation and capable of changing a local temperature field, and aims to solve the problems that the existing air source heat pump in the prior art is used at low temperature, the humidity inside the air source heat pump is increased to damage a machine, frost is easily formed when the humidity of a cold region is high, the interior of the air source heat pump is frozen to reduce the efficiency of a unit, single-use power grid power in the existing air source heat pump is difficult to provide in the cold region, and the service life of the air source heat pump is shortened due to overhigh electricity demand of the machine.

In order to achieve the purpose, the utility model provides the following technical scheme: an air source heat pump with wind and light complementation and capable of changing a local temperature field comprises a shell, wherein the shell is of a cuboid box type structure, a support is arranged at the lower end of the shell, a solar cell is arranged at the upper end of the shell, a solar light panel is connected above the solar cell, and a miniature wind driven generator is arranged in the middle of the lower end of the shell;

the water cooling tank is arranged on one side inside the shell, a water inlet is formed in the upper end of the water cooling tank and penetrates through the shell, the other 1 water inlets are formed in one side of the water cooling tank, and the other 1 water inlets are connected with one side of the cooling tank;

the insulation can is installed at the lower end inside the shell, a heating plate is arranged on the outer surface of the lower end of the insulation can and connected with the miniature wind driven generator, a water pump is arranged inside the insulation can, and one end of the water pump is connected with a hot water tank.

By adopting the technical scheme, the using effect of the device is improved, and the device is convenient to operate and use efficiently.

Preferably, circular holes are formed in the upper end and the lower end of one side of the shell, a support frame is arranged on the other side of the shell, a rotating motor is arranged in the middle of the support frame, fan blades are arranged at the output end of the rotating motor, a cold water tank is arranged inside the circular holes of the shell, and a hot water tank is arranged on one side of the cold water tank.

By adopting the technical scheme, the air can be conveniently flowed and used by the rotating motor, and the device can be conveniently and rapidly transferred and used.

Preferably, be provided with cuboid platelike structure in the middle of the support, and be provided with circular cavity in the middle of the support cuboid platelike structure, the inside miniature aerogenerator that is provided with of support circular cavity, and the hole that runs through is seted up to support circular cavity one side.

By adopting the technical scheme, the utilization rate of the inner space of the device is facilitated, and the use of the inner space of the device is improved.

Preferably, the interior of the cooling box is of a two-layer structure, a condenser pipe is arranged in the lower-layer structure of the cooling box, one side of the cooling box is connected with one side of the evaporator through a pipeline, and the condenser pipe is arranged in the evaporator.

By adopting the technical scheme, cold water is conveniently reduced through the condenser pipe in the cooling box, and heat sources in the air are conveniently conducted.

Preferably, the upper end and the lower end of the evaporator are respectively penetrated through the two ends of the condenser pipe in the evaporator, a metal heat transfer plate is arranged on one side of the evaporator, one side of the evaporator is connected with one side of the heat preservation box through a pipeline, and the cooling box is placed above the heat preservation box.

By adopting the technical scheme, the auxiliary device for heating the inside of the heat insulation box is convenient to use, and the using effect of the device is improved.

Preferably, the hot water tank and the cold water tank are set to be L-shaped structures, a water outlet is formed in the lower end of the hot water tank, an S-shaped pipeline structure is arranged inside the hot water tank, and a U-shaped pipeline structure is arranged inside the cold water tank.

By adopting the technical scheme, cold water and hot water can be distinguished conveniently, and heat conduction lost hot water heat between the hot water and the cold water is reduced.

Compared with the prior art, the utility model has the beneficial effects that: the air source heat pump with wind-solar complementation capable of changing the local temperature field comprises:

1. when the device is used, the miniature wind driven generator in the device is matched with the heating plate, when the device is used in a low-temperature area, when the device is penetrated through a through hole on one side of the round cavity of the rectangular plate-shaped structure at the lower end of the support by wind, the fan blades of the miniature wind driven generator are driven to generate electricity to provide electricity for the heating plate, the heating plate is started to heat the inside of the device, the temperature of the device is increased, the use of the device is facilitated, the moisture in the temperature evaporation device is increased, and the drying in the device is kept;

2. the metal heat transfer plate is used on one side inside the evaporator inside the device, and conducts external temperature heat to the inside of the evaporator quickly through the metal conduction characteristic, so that heat exchange between water bodies inside the evaporator is facilitated, the evaporator is assisted to work, even if frosting occurs inside the device, the device can be quickly assisted to start for use through the metal heat transfer plate, and the using effect of the device is improved;

3. the solar cell and the solar light panel inside the device are matched to form electricity for the device inside the light energy power generation auxiliary device, the support at the lower end of the shell assists the miniature wind driven generator to drive the miniature wind driven generator to generate electricity through pushing of cross wind to the fan blades so as to heat the heating plate for use, and the whole device and the light energy power generation and the wind power generation are matched to use so that the electricity of the device can be separately used to provide change for the temperature inside the device.

Drawings

FIG. 1 is a schematic view of the overall internal front view structure of the present invention;

FIG. 2 is a schematic view of the internal front view of the cold water tank and the hot water tank of the present invention;

FIG. 3 is a schematic view of the overall external top view configuration of the present invention;

FIG. 4 is a schematic overall external side view of the present invention.

In the figure: 1. a housing; 2. a support; 3. a solar cell; 4. a solar light panel; 5. a support frame; 6. a miniature wind-driven generator; 7. a rotating electric machine; 8. a water inlet; 9. a cold water tank; 10. a cooling box; 11. an evaporator; 12. a metal heat transfer plate; 13. a condenser tube; 14. a heat preservation box; 15. heating plates; 16. a water pump; 17. a hot water tank; 18. and (7) a water outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an air source heat pump with wind and light complementation and capable of changing a local temperature field comprises a shell 1, a support 2, a solar cell 3, a solar light panel 4, a support frame 5, a miniature wind driven generator 6, a rotary motor 7, a water inlet 8, a cold water tank 9, a cooling tank 10, an evaporator 11, a metal heat transfer plate 12, a condenser pipe 13, an insulation tank 14, a heating plate 15, a water pump 16, a hot water tank 17 and a water outlet 18;

wherein the shell 1 is a cuboid box type structure, the lower end of the shell 1 is provided with a bracket 2, the upper end of the shell 1 is provided with a solar cell 3, a solar light panel 4 is connected above the solar cell 3, a miniature wind driven generator 6 is arranged in the middle of the lower end of the shell 1, round holes are respectively arranged at the upper end and the lower end of one side of the shell 1, a supporting frame 5 is arranged at the other side of the shell 1, a rotating motor 7 is arranged in the middle of the supporting frame 5, fan blades are arranged at the output end of the rotating motor 7, a cold water tank 9 is arranged in the circular hole of the shell 1, a hot water tank 17 is arranged at one side of the cold water tank 9, a cuboid plate-shaped structure is arranged in the middle of the bracket 2, a circular cavity is arranged in the middle of the cuboid plate-shaped structure of the support 2, a miniature wind driven generator 6 is arranged in the circular cavity of the support 2, and a through hole is formed in one side of the circular cavity of the support 2;

when the device is used, the solar cell 3 and the solar light panel 4 in the device are matched for use, the sunlight is utilized to directly generate electricity, the used photoelectric semiconductor sheet, also called as a solar chip or a photocell, can output voltage instantly and generate current under the condition of a loop as long as the photoelectric semiconductor sheet meets the illumination of a certain illumination condition, the solar cell 3 is connected with the heating plate 15 in the shell 1 for use, so that the conversion of heat supply in the shell 1 is facilitated, meanwhile, after wind passes through a hole penetrating through one side of a circular cavity arranged in the middle of a cuboid plate-shaped structure arranged in the middle of the bracket 2 at the lower end of the shell 1, the fan blade at the output end of the miniature wind driven generator 6 is driven by wind power to rotate the fan blade of the output end of the miniature wind driven generator 6, so that the use of a rotating motor in the miniature wind driven generator 6 is realized, the generated electric energy is connected with the heating plate 15 for use, the solar energy power generation formed by the solar cell 3 and the solar light panel 4 in the device and the wind power generation formed by the cuboid plate-shaped structure between the micro wind power generator 6 and the bracket 2 can assist the electricity consumption of the device part, facilitate the long-term operation of the device, and provide heat for the heating plate 15 for the use of the device, wherein the solar cell 3, the solar light panel 4 and the micro wind power generator 6 are mature technical products sold in the market and are widely applied in the field of power generation;

a cold water tank 9 installed at one side inside the housing 1, wherein a water inlet 8 is arranged at the upper end of the cold water tank 9, the water inlet 8 penetrates through the housing 1, the other 1 water inlet 8 is arranged at one side of the cold water tank 9, the other 1 water inlet 8 is connected with one side of the cooling tank 10, the inside of the cooling tank 10 is arranged into a two-layer structure, a condenser pipe 13 is arranged inside the lower-layer structure of the cooling tank 10, one side of the cooling tank 10 is connected with one side of the evaporator 11 through a pipeline, the condenser pipe 13 is arranged inside the evaporator 11, two ends of the condenser pipe 13 inside the evaporator 11 respectively penetrate through the upper end and the lower end of the evaporator 11, a metal heat transfer plate 12 is arranged at one side of the evaporator 11, one side of the evaporator 11 is connected with one side of the heat insulation tank 14 through a pipeline, and the cooling tank 10 is arranged above the heat insulation tank 14;

when the device is used, a water inlet 8 in the device is connected with a used cold water pipe, the cold water is stored in the cold water tank 9 through a U-shaped pipeline structure arranged in the cold water tank 9, the cold water in the cold water tank 9 enters the upper layer of the cooling tank 10 through a pipeline after the cold water is poured, as the condenser pipe 13 is arranged in the lower layer structure of the cooling tank 10, the cold water in the upper layer of the cooling tank 10 is cooled through the condenser pipe 13 in the lower layer of the cooling tank 10, so that the cold water is convenient to cool and is convenient to use in the later period, the cold water enters the evaporator 11 through the pipeline, another 1 condenser pipe 13 is arranged in the evaporator 11, the temperature in the condenser pipe 13 is higher than that of the condenser pipe 13 in the cooling tank 10, a water source in the evaporator 11 absorbs and transfers heat in the air into the water through the metal heat transfer plate 12, and when the metal transfer plate 12 is used, the rotary motor 7 in the middle of the support frame 5 arranged on one side of the shell 1 Stirring the air, and connecting the air with a power system of a use area when the rotating motor 7 is used;

the insulation can 14 is arranged at the lower end inside the shell 1, a heating plate 15 is arranged on the outer surface of the lower end of the insulation can 14, the heating plate 15 is connected with the micro wind driven generator 6, a water pump 16 is arranged inside the insulation can 14, one end of the water pump 16 is connected with a hot water tank 17, the hot water tank 17 and the cold water tank 9 are arranged to be L-shaped structures, a water outlet 18 is arranged at the lower end of the hot water tank 17, an S-shaped pipeline structure is arranged inside the hot water tank 17, and a U-shaped pipeline structure is arranged inside the cold water tank 9;

after water in the evaporator 11 absorbs heat, the water enters the inside of the heat preservation box 14 through a pipeline, the fan blades of the miniature wind driven generator 6 are driven by wind to rotate to drive the miniature wind driven generator 6 to generate electricity, then electric power is provided for the heating plate 15, the heating plate 15 starts to heat the device in the shell 1 through the starting of the heating plate 15, meanwhile, as the inside of the heat preservation box 14 is also provided with one end of the heating plate 15, the heating plate 15 heats the water body in the heat preservation box 14, finally, the water is output to the inside of the hot water tank 17 through the water pump 16, when the water pump 16 is used, the water pump is connected with the solar cell 3 and the miniature wind driven generator 6 and is simultaneously connected with the electric power system and the control system in a use area for use, and after hot water enters the hot water tank 17, the water gushes out to the water outlet 18 through the inside S-shaped pipeline structure arranged in the hot water tank 17.

The working principle is as follows: when the air source heat pump with wind-solar complementation and capable of changing a local temperature field is used, the solar cell 3 is connected with the solar light panel 4 and connected with the heating plate 15, the heating plate 15 is simultaneously connected with one side of the miniature wind driven generator 6 for use, when in use, cold water enters the cold water tank 9 through the water inlet 8, enters the upper layer inside the cooling tank 10 through the U-shaped pipeline inside the cold water tank 9, is rapidly cooled through the condenser pipe 13 at the lower layer of the cooling tank 10, enters the evaporator 11 through the pipeline, is stirred by the fan blades of the rotating motor 7 in the middle of the support frame 5 arranged at one side of the shell 1, is convenient for the metal heat transfer plate 12 at one side of the evaporator 11 to capture heat, and absorbs and transfers the heat absorbed by the metal heat transfer plate 12 through the water source inside the evaporator 11 again and enters the water, and enters the heat insulation tank 14 through the pipeline, the fan blades of the miniature wind driven generator 6 are driven by wind to rotate to generate electricity to start the heating plate 15 to heat the inner side and the outer side of the heat insulation box 14, so that the water temperature is increased, water enters the hot water tank 17 through the water pump 16 and flows out of the water outlet 18 through the S-shaped pipeline, and the overall practicability is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An air source heat pump with wind-solar complementation and local temperature field changeable is characterized by comprising:

the solar photovoltaic power generation system comprises a shell (1) which is of a cuboid box type structure, wherein a support (2) is arranged at the lower end of the shell (1), a solar cell (3) is arranged at the upper end of the shell (1), a solar light panel (4) is connected above the solar cell (3), and a micro wind driven generator (6) is arranged in the middle of the lower end of the shell (1);

the water cooling tank (9) is arranged on one side inside the shell (1), a water inlet (8) is formed in the upper end of the water cooling tank (9), the water inlet (8) penetrates through the shell (1), the other 1 water inlets (8) are formed in one side of the water cooling tank (9), and the other 1 water inlet (8) is connected with one side of the cooling tank (10);

the insulation can (14) is installed at the lower end inside the shell (1), a heating plate (15) is arranged on the outer surface of the lower end of the insulation can (14), the heating plate (15) is connected with the micro wind driven generator (6), a water pump (16) is arranged inside the insulation can (14), and one end of the water pump (16) is connected with a hot water tank (17).

2. The air source heat pump with wind-solar hybrid changeable local temperature field according to claim 1, characterized in that: the improved water heater is characterized in that circular holes are formed in the upper end and the lower end of one side of the shell (1), a support frame (5) is arranged on the other side of the shell (1), a rotating motor (7) is arranged in the middle of the support frame (5), fan blades are arranged at the output end of the rotating motor (7), a cold water tank (9) is arranged inside the circular holes of the shell (1), and a hot water tank (17) is arranged on one side of the cold water tank (9).

3. The air source heat pump with wind-solar hybrid changeable local temperature field according to claim 1, characterized in that: the middle of the support (2) is provided with a cuboid plate-shaped structure, a circular cavity is formed in the middle of the support (2) and the cuboid plate-shaped structure, a miniature wind driven generator (6) is arranged inside the circular cavity of the support (2), and a through hole is formed in one side of the circular cavity of the support (2).

4. The air source heat pump with wind-solar hybrid changeable local temperature field according to claim 1, characterized in that: the cooling box (10) is internally arranged to be of a two-layer structure, a condenser pipe (13) is arranged inside the lower layer structure of the cooling box (10), one side of the cooling box (10) is connected with one side of an evaporator (11) through a pipeline, and the condenser pipe (13) is arranged inside the evaporator (11).

5. The air source heat pump with wind-solar hybrid changeable local temperature field according to claim 4, characterized in that: the evaporator is characterized in that two ends of a condensation pipe (13) in the evaporator (11) respectively penetrate through the upper end and the lower end of the evaporator (11), a metal heat transfer plate (12) is arranged on one side of the evaporator (11), one side of the evaporator (11) is connected with one side of an insulation box (14) through a pipeline, and a cooling box (10) is placed above the insulation box (14).

6. The air source heat pump with wind-solar hybrid changeable local temperature field according to claim 1, characterized in that: the hot water tank (17) and the cold water tank (9) are arranged to be L-shaped structures, a water outlet (18) is formed in the lower end of the hot water tank (17), an S-shaped pipeline structure is arranged inside the hot water tank (17), and a U-shaped pipeline structure is arranged inside the cold water tank (9).