CN215724154U - Efficient and energy-saving air source heat pump device - Google Patents

Abstract

The utility model discloses an efficient and energy-saving air source heat pump device which comprises an air source heat pump case, wherein a base is installed at the bottom of the air source heat pump case, supporting legs are welded at four corners of the bottom of the base, a fixing plate is welded at the bottoms of the supporting legs, a supporting frame is installed at one end of the air source heat pump case, a rain shield is welded at the top of the supporting frame, a solar panel is installed at the top of the rain shield, a water tank and a battery box are arranged at the bottom of the rain shield, and a fan cover is installed at the top of the air source heat pump case. This air source heat pump device adopts outdoor solar energy power generation to do stand-by power supply, when can solving external power supply outage, can ensure whole device and continue work, can also give equipment power supply when the power consumption peak to practice thrift the electric energy, reduce the energy consumption, reach energy-conserving purpose, whole device can improve heat exchange efficiency, can carry out rapid heating to the water in the water tank, raises the efficiency, save time, the people's operation of being convenient for uses.

Description

Efficient and energy-saving air source heat pump device

Technical Field

The utility model relates to the field of air source heat pumps, in particular to a high-efficiency energy-saving air source heat pump device.

Background

The air source heat pump water heater set is an energy-saving environment-protecting hot water supply device which can replace boiler and is not limited by resource, it adopts green pollution-free cold coal, absorbs the heat quantity in air, and utilizes the work of compressor to produce domestic hot water with above 50 deg.C, the compressor compresses the low-pressure refrigerant which is returned back, then the low-pressure refrigerant is changed into high-temperature high-pressure gas, then the high-temperature high-pressure refrigerant gas is passed through the copper pipe wound on the exterior of water tank, the heat quantity is transferred into the water tank by means of copper pipe, the cooled refrigerant is changed into liquid state under the continuous action of pressure, and passed through expansion valve and fed into evaporator, and the pressure of evaporator is suddenly reduced, so that the liquid refrigerant can be quickly evaporated into gas state, and can absorb lots of heat quantity. Meanwhile, under the action of the fan, a large amount of air flows through the outer surface of the evaporator, the energy in the air is absorbed by the evaporator, the temperature of the air is rapidly reduced, and the air becomes cold air and is discharged into a kitchen. The existing air source heat pump has the defects of single function, poor flexibility, external power supply, large energy consumption in use and incapability of adopting solar energy to generate power to provide power for equipment, so that the energy-saving purpose is achieved; therefore, the efficient and energy-saving air source heat pump device is provided.

Disclosure of Invention

The utility model aims to provide an efficient and energy-saving air source heat pump device aiming at the defects of the prior art so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an efficient and energy-saving air source heat pump device comprises an air source heat pump case, wherein a base is installed at the bottom of the air source heat pump case, supporting legs are welded at four corners of the bottom of the base, fixing plates are welded at the bottoms of the supporting legs, a supporting frame is installed at one end of the air source heat pump case, a rain shield is welded at the top of the supporting frame, a solar panel is installed at the top of the rain shield, a water tank and a battery box are arranged at the bottom of the rain shield, a fan cover is installed at the top of the air source heat pump case, a fan is installed inside the fan cover, an access door is installed on the side face of the air source heat pump case, a handle is installed on the access door, a compressor is installed inside the air source heat pump case, a first heat exchange box is installed on one side of the compressor, and a second heat exchange box is installed on the other side of the compressor, the inside of first heat transfer case is equipped with first heat exchange tube, the inside of second heat transfer case is equipped with the second heat exchange tube, first heat exchange tube and second heat exchange tube all link to each other with vapour and liquid separator, vapour and liquid separator links to each other with the evaporimeter, first heat transfer case and second heat exchange tube all link to each other with the water tank through feed liquor pipe and return liquid pipe, install the circulating pump on the feed liquor pipe, first heat transfer case and second heat exchange tube constitute by inner casing and outer casing, the cladding has solenoid between inner casing and the outer casing.

According to a preferable technical scheme of the utility model, the air source heat pump case is installed on the top of the base through bolts, the rain shield and the air source heat pump case are fixedly connected through bolts, and the solar panel is installed on the top of the rain shield through bolts.

According to a preferable technical scheme of the utility model, the access door is fixedly connected with the air source heat pump case through a hinge, the fan cover is installed on the top of the air source heat pump case through bolts, and the fan is installed on the inner portion of the fan cover through bolts.

As a preferred technical scheme of the utility model, the evaporator, the vapor-liquid separator, the first heat exchange box, the second heat exchange box and the compressor are all arranged on the inner part of the air source heat pump case through bolts, the compressor is respectively connected with the first heat exchange tube and the second heat exchange tube, the first heat exchange tube and the second heat exchange tube are both connected with the vapor-liquid separator, and the vapor-liquid separator is connected with the evaporator.

As a preferred technical scheme of the present invention, the solar panel is electrically connected to a storage battery in the battery box through a controller, and the storage battery in the battery box is electrically connected to the vapor-liquid separator, the compressor, the circulating pump, the fan, and the electromagnetic coil through the controller and the inverter.

As a preferable technical scheme of the utility model, the first heat exchange tube is connected with the first heat exchange box through a connecting flange plate and a sealing gasket, the second heat exchange tube is connected with the second heat exchange box through a connecting flange plate and a sealing gasket, and the liquid inlet tube and the liquid return tube are both connected with the first heat exchange box and the second heat exchange box through connectors and sealing gaskets.

The utility model has the beneficial effects that: this air source heat pump device adopts outdoor solar energy power generation to do stand-by power supply, when can solving external power supply outage, can ensure whole device and continue work, can also give equipment power supply when the power consumption peak to practice thrift the electric energy, reduce the energy consumption, reach energy-conserving purpose, whole device can improve heat exchange efficiency, can carry out rapid heating to the water in the water tank, raises the efficiency, save time, the people's operation of being convenient for uses.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the air source heat pump case according to the present invention;

fig. 3 is a schematic view of the internal structure of the heat exchange box of the present invention.

In the figure: the air source heat pump comprises an air source heat pump case 1, a fan cover 2, an access door 3, a base 4, supporting legs 5, a fixing plate 6, a handle 7, a water tank 8, a supporting frame 9, a battery box 10, a rain baffle 11, a solar panel 12, an evaporator 13, a vapor-liquid separator 14, a first heat exchange box 15, a first heat exchange tube 16, a second heat exchange box 17, a second heat exchange tube 18, a compressor 19, a circulating pump 20, a liquid inlet tube 21, a liquid return tube 22, a fan 23, an inner cylinder 24, an outer cylinder 25 and an electromagnetic coil 26.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model more readily understood by those skilled in the art, and thus will more clearly and distinctly define the scope of the utility model.

Example (b): referring to fig. 1-3, the present invention provides a technical solution: an efficient and energy-saving air source heat pump device comprises an air source heat pump case 1, wherein a base 4 is installed at the bottom of the air source heat pump case 1, supporting legs 5 are welded at four corners of the bottom of the base 4, fixing plates 6 are welded at the bottoms of the supporting legs 5, a supporting frame 9 is installed at one end of the air source heat pump case 1, a rain shield 11 is welded at the top of the supporting frame 9, a solar panel 12 is installed at the top of the rain shield 11, a water tank 8 and a battery box 10 are arranged at the bottom of the rain shield 11, a fan cover 2 is installed at the top of the air source heat pump case 1, a fan 23 is installed inside the fan cover 2, an access door 3 is installed on the side surface of the air source heat pump case 1, a handle 7 is installed on the access door 3, a compressor 19 is installed inside the air source heat pump case 1, a first heat exchange box 15 is installed on one side of the compressor 19, and a second heat exchange box 17 is installed on the other side of the compressor 19, the inside of first heat exchange case 15 is equipped with first heat exchange tube 16, the inside of second heat exchange case 17 is equipped with second heat exchange tube 18, first heat exchange tube 16 and second heat exchange tube 18 all link to each other with vapour and liquid separator 14, vapour and liquid separator 14 links to each other with evaporimeter 13, first heat exchange case 15 and second heat exchange tube 18 all link to each other with water tank 8 through feed liquor pipe 21 and return liquid pipe 22, install circulating pump 20 on the feed liquor pipe 21, first heat exchange case 15 and second heat exchange tube 18 constitute by inner casing 24 and outer casing 25, the cladding has solenoid 26 between inner casing 24 and the outer casing 25.

The air source heat pump case 1 is installed on the top of the base 4 through bolts, the rain baffle plate 11 is fixedly connected with the air source heat pump case 1 through bolts, the solar panel 12 is installed on the top of the rain baffle plate 11 through bolts, and the solar panel 12 is used for generating power to supply power to the whole equipment, so that electric energy is saved, and the purpose of saving energy is achieved.

The access door 3 is fixedly connected with the air source heat pump case 1 through a hinge, the fan cover 2 is installed on the top of the air source heat pump case 1 through bolts, the fan 23 is installed on the inside of the fan cover 2 through bolts, and the access door 3 can be used for realizing the overhaul and maintenance of small faults.

The evaporator 13, the vapor-liquid separator 14, the first heat exchange box 15, the second heat exchange box 17 and the compressor 19 are all installed on the inner portion of the air source heat pump case 1 through bolts, the compressor 19 is respectively connected with the first heat exchange tube 16 and the second heat exchange tube 18, the first heat exchange tube 16 and the second heat exchange tube 18 are both connected with the vapor-liquid separator 14, the vapor-liquid separator 14 is connected with the evaporator 13, water in the water tank can be in full contact with the heat exchange tubes through the first heat exchange box 15 and the second heat exchange box 17, and heat exchange efficiency is improved.

The solar panel 12 is electrically connected with a storage battery in the battery box 10 through a controller, the storage battery in the battery box 10 is electrically connected with the gas-liquid separator 14, the compressor 19, the circulating pump 20, the fan 23 and the electromagnetic coil 26 through the controller and an inverter, the electromagnetic coil 26 is used for connecting a power supply, an electromagnetic heating principle is adopted, the coil and the electronic equipment generate an alternating magnetic field, the surfaces of the first heat exchange tube 16 and the second heat exchange tube 18 cut alternating magnetic lines to generate alternating current (namely eddy current), the eddy current enables carriers of the first heat exchange tube 16 and the second heat exchange tube 18 to move randomly at a high speed, the carriers collide with atoms and rub with the atoms to generate heat energy, and therefore the first heat exchange tube 16 and the second heat exchange tube 18 are heated, the temperature of the first heat exchange tube 16 and the temperature of the second heat exchange tube 18 are increased, the heat exchange efficiency is improved, and the water heating speed is also improved.

The first heat exchange tube 16 is connected with the first heat exchange box 15 through a connecting flange plate and a sealing gasket, the second heat exchange tube 18 is connected with the second heat exchange box 17 through a connecting flange plate and a sealing gasket, and the liquid inlet tube 21 and the liquid return tube 22 are connected with the first heat exchange box 15 and the second heat exchange box 17 through connectors and sealing gaskets.

The working principle is as follows: an efficient energy-saving air source heat pump device comprises an air source heat pump case 1, when in use, solar energy is absorbed by a solar panel 12 to generate electricity and then the electricity is stored in a battery case 10, the air source heat pump can be directly used, or the air source heat pump can be used for an air source heat pump unit when an external power supply of the air source heat pump is powered off or the electricity consumption peak is reached, so that the energy is saved, a first heat exchange case 15 and a second heat exchange case 17 are arranged inside the air source heat pump, the two heat exchange cases are both connected with a water tank through water pipes, water in the water tank is pumped into the first heat exchange case 15 and the second heat exchange case 17 by a circulating pump 20, a backflow low-pressure refrigerant is compressed by a compressor 19 and then is changed into high-temperature and high-pressure gas to be discharged into a first heat exchange pipe 16 and a second heat exchange pipe 18, the high-temperature and high-pressure refrigerant gas flows through the first heat exchange pipe 16 and the second heat exchange pipe 18, heat is conducted into water through the first heat exchange tube 16 and the second heat exchange tube 18 to heat the water, meanwhile, the electromagnetic coil 26 is used for switching on a power supply, an electromagnetic heating principle is adopted, a wound coil and electronic equipment generate an alternating magnetic field, the surfaces of the first heat exchange tube 16 and the second heat exchange tube 18 cut alternating magnetic lines to generate alternating current (namely eddy current), the eddy current enables current carriers of the first heat exchange tube 16 and the second heat exchange tube 18 to move randomly at a high speed, the current carriers collide and rub atoms to generate heat energy, the first heat exchange tube 16 and the second heat exchange tube 18 are heated, the temperature of the first heat exchange tube 16 and the temperature of the second heat exchange tube 18 are increased, the heat exchange efficiency is improved, the water heating speed is also improved, electromagnetic heating is adopted for assisting heating, the water heating efficiency is improved, and then gas in the first heat exchange tube 16 and the second heat exchange tube 18, the cooled refrigerant is changed into liquid under the continuous action of pressure, and enters the evaporator 13 after passing through the vapor-liquid separator 14, because the pressure of the evaporator 13 is suddenly reduced, the liquid refrigerant is quickly evaporated into gas and absorbs a large amount of heat, meanwhile, under the action of the fan, a large amount of air flows through the outer surface of the evaporator 13, the energy in the air is absorbed by the evaporator, the temperature of the air is quickly reduced, and the air is changed into cold air and discharged into a room needing cooling.

This air source heat pump device adopts outdoor solar energy power generation to do stand-by power supply, when can solving external power supply outage, can ensure whole device and continue work, can also give equipment power supply when the power consumption peak to practice thrift the electric energy, reduce the energy consumption, reach energy-conserving purpose, whole device can improve heat exchange efficiency, can carry out rapid heating to the water in the water tank, raises the efficiency, save time, the people's operation of being convenient for uses.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (6)

1. The utility model provides an energy-efficient air source heat pump device, includes air source heat pump machine case (1), its characterized in that: the air source heat pump cabinet is characterized in that a base (4) is installed at the bottom of the air source heat pump cabinet (1), supporting legs (5) are welded at four corners of the bottom of the base (4), fixing plates (6) are welded at the bottoms of the supporting legs (5), a supporting frame (9) is installed at one end of the air source heat pump cabinet (1), a rain baffle (11) is welded at the top of the supporting frame (9), a solar panel (12) is installed at the top of the rain baffle (11), a water tank (8) and a battery box (10) are arranged at the bottom of the rain baffle (11), a fan cover (2) is installed at the top of the air source heat pump cabinet (1), a fan (23) is installed inside the fan cover (2), an access door (3) is installed on the side face of the air source heat pump cabinet (1), a handle (7) is installed on the access door (3), and a compressor (19) is installed inside the air source heat pump cabinet (1), a first heat exchange box (15) is arranged at one side of the compressor (19), a second heat exchange box (17) is arranged at the other side of the compressor (19), a first heat exchange tube (16) is arranged in the first heat exchange box (15), a second heat exchange tube (18) is arranged in the second heat exchange box (17), the first heat exchange pipe (16) and the second heat exchange pipe (18) are both connected with the vapor-liquid separator (14), the vapor-liquid separator (14) is connected with the evaporator (13), the first heat exchange box (15) and the second heat exchange tube (18) are both connected with the water tank (8) through a liquid inlet tube (21) and a liquid return tube (22), the liquid inlet pipe (21) is provided with a circulating pump (20), the first heat exchange box (15) and the second heat exchange pipe (18) are both composed of an inner cylinder (24) and an outer cylinder (25), an electromagnetic coil (26) is wrapped between the inner cylinder (24) and the outer cylinder (25).

2. An energy-efficient air source heat pump device as claimed in claim 1, wherein: the air source heat pump case (1) is installed on the top of the base (4) through bolts, the rain baffle plate (11) is fixedly connected with the air source heat pump case (1) through bolts, and the solar panel (12) is installed on the top of the rain baffle plate (11) through bolts.

3. An energy-efficient air source heat pump device as claimed in claim 1, wherein: the access door (3) is fixedly connected with the air source heat pump case (1) through a hinge, the fan cover (2) is installed on the top of the air source heat pump case (1) through bolts, and the fan (23) is installed on the inner portion of the fan cover (2) through bolts.

4. An energy-efficient air source heat pump device as claimed in claim 1, wherein: the evaporator (13), the vapor-liquid separator (14), the first heat exchange box (15), the second heat exchange box (17) and the compressor (19) are all installed on the inner portion of the air source heat pump case (1) through bolts, the compressor (19) is respectively connected with the first heat exchange tube (16) and the second heat exchange tube (18), the first heat exchange tube (16) and the second heat exchange tube (18) are both connected with the vapor-liquid separator (14), and the vapor-liquid separator (14) is connected with the evaporator (13).

5. An energy-efficient air source heat pump device as claimed in claim 1, wherein: the solar panel (12) is electrically connected with a storage battery in the battery box (10) through a controller, and the storage battery in the battery box (10) is electrically connected with the gas-liquid separator (14), the compressor (19), the circulating pump (20), the fan (23) and the electromagnetic coil (26) through the controller and the inverter.

6. An energy-efficient air source heat pump device as claimed in claim 1, wherein: first heat exchange tube (16) link to each other with first heat exchange case (15) through flange plate and sealed the pad, second heat exchange tube (18) link to each other with second heat exchange case (17) through flange plate and sealed the pad, feed liquor pipe (21) and liquid return pipe (22) all link to each other with first heat exchange case (15) and second heat exchange case (17) through connector and sealed pad.

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