CN212777948U - Temperature-sensing type variable-frequency heat pump device - Google Patents

Abstract

The utility model discloses a temperature-sensing type variable frequency heat pump device, which relates to the technical field of heat pump devices and comprises a device main body, wherein a water storage tank is fixed on one side of the device main body, a heat preservation layer is connected inside the water storage tank, a heating layer is arranged inside the heat preservation layer, a single chip microcomputer and a temperature sensor are respectively arranged above the inside of the water storage tank, the temperature-sensing type variable frequency heat pump device is provided with the heating layer, the heat preservation layer, a first temperature sensing probe and the temperature sensor, the first temperature sensing probe senses the outside temperature in use, when the outside temperature is lower, the temperature sensor senses the water inside the water storage tank through the second temperature sensing probe, the temperature sensor learns the temperature, the single chip microcomputer processes data, the sensed outside temperature is lower, the heating layer promotes the inside of the water storage tank by heat, when the outside temperature is raised, the effect that the water temperature is not influenced by the outside is achieved.

Description

Temperature-sensing type variable-frequency heat pump device

Technical Field

The utility model relates to a heat pump device technical field specifically is a temperature-sensing formula variable frequency heat pump device.

Background

The heat pump is a high-efficiency energy-saving device which makes full use of low-grade heat energy. The heat can be spontaneously transferred from a high-temperature object to a low-temperature object, but can not be spontaneously carried out in the opposite direction, the working principle of the heat pump is a mechanical device which forces the heat to flow from the low-temperature object to the high-temperature object in a reverse circulation mode, and the heat pump can obtain larger heat supply amount only by consuming a small amount of reverse circulation net work, and can effectively utilize low-grade heat energy which is difficult to apply to achieve the purpose of energy conservation.

The existing heat pump device is characterized in that the heat supply amount is achieved through reverse circulation activities, when heat is stored, the water storage tank is easily influenced by the external environment, the temperature of internal heat is reduced, the heat pump needs to work for multiple times to improve the heat supply amount, consumption of the device is increased, and meanwhile when the external weather is cold, condensation water outside a pipe is easily generated by the contact of air temperature with a condensation pipe, the condensation water is easily dropped into the device, the freezing phenomenon is generated, and normal use of the device is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a temperature-sensing formula frequency conversion heat pump device to it is big to propose work consumption in solving above-mentioned background art, and the problem that the condensate water is hoarded.

In order to achieve the above object, the utility model provides a following technical scheme: a temperature-sensing type variable-frequency heat pump device comprises a device main body, wherein a water storage tank is fixed on one side of the device main body, a heat preservation layer is connected inside the water storage tank, a heating layer is installed inside the heat preservation layer, a single chip microcomputer and a temperature sensor are installed above the inside of the water storage tank respectively, a first temperature sensing probe is installed at the top of the temperature sensor, a second temperature sensing probe extending into the inside of the water storage tank is connected with the bottom of the temperature sensor, a base is fixed at the bottom of the device main body, a water leakage plate is connected with the top of the base, sliding grooves are formed in two sides of the inside of the base, sliding blocks are connected inside the sliding grooves, a water storage tank is fixed between the two sliding blocks, a water outlet is formed in the outer surface of the water storage tank, a, one end of the condenser is connected with a hot water outlet pipe, the bottom of the condenser is connected with a liquid storage tank, the top of the liquid storage tank is connected with a water pan, one side of the top of the water pan is provided with a water outlet, the top of the water pan is connected with an inclined plate, one side of the bottom of the water pan is connected with a water leakage pipe extending to the bottom of the device main body, one side of the liquid storage tank is provided with a circulating pump, the output end of the circulating pump is connected with a cold water inlet pipe extending to one side of the device main body, the other side of the liquid storage tank is connected with a filter, one end of the filter is connected with an expansion valve, the top of the expansion valve is connected with an evaporator, the top of the evaporator is provided with a gas-liquid separator, the gas-liquid separator is connected with one end of the compressor, the outer surface of the device main body is provided with an electric fan, and the outer surface of the electric fan is connected with a protective net.

Preferably, the reservoir is slidably connected to the device body by a slider.

Preferably, the water pan inclines downwards along the direction of the water outlet, and the outer surface of the water pan is smooth.

Preferably, a plurality of through holes are formed in the water leakage plate.

Preferably, the device body is connected with the water storage tank in a welding mode.

Preferably, the heat preservation layer is closely attached to the heating layer.

Preferably, an operation panel is installed above the outer surface of the water storage tank, and the operation panel is electrically connected with the first temperature sensing probe, the temperature sensor, the circulating pump, the second temperature sensing probe, the single chip microcomputer, the condenser, the gas-liquid separator, the compressor, the filter, the expansion valve, the evaporator and the electric fan respectively.

Compared with the prior art, the beneficial effects of the utility model are that: the temperature-sensing type variable frequency heat pump device is provided with a heating layer, a heat preservation layer, a first temperature-sensing probe and a temperature sensor, wherein in use, the first temperature-sensing probe senses the outside temperature, when the outside temperature is lower, the temperature sensor obtains the temperature by sensing the water in the water storage tank through a second temperature-sensing probe, so that a single chip microcomputer processes data, the sensed outside temperature is lower, the heating layer lifts the inside of the water storage tank to heat, when the temperature is raised to a certain temperature, the heating layer is closed, the heat preservation layer preserves the temperature of the water in the water storage tank, the effect of regulating the temperature without being influenced by the outside is achieved, the problem of large consumption of the device is solved, a water outlet, an inclined plate, a water receiving disc and a water storage tank are arranged, when water drops on the surface of a condensation pipe are condensed, the water drops fall into the water receiving disc in a rolling manner, the water flows, the water in the water leakage pipe is guided to the water storage tank in the water storage tank, when the water storage tank is full of water, the water flows out from the water outlet, and the water vapor generated in the working process can flow out from the water leakage plate, so that the effect of preventing the water from being stored in the device is achieved, and the problem that the condensed water falls into the interior of the device and freezes is solved.

Drawings

FIG. 1 is a schematic view of the main structure of the device of the present invention;

FIG. 2 is a schematic cross-sectional view of the main body of the device of the present invention;

FIG. 3 is a schematic view of the structure of the water pan of the present invention;

fig. 4 is an enlarged schematic view of the structure a of the present invention.

In the figure: 1. a device main body; 2. a water storage tank; 3. a protective net; 4. a water storage tank; 5. a water outlet; 6. a cold water inlet pipe; 7. a hot water outlet pipe; 8. a first temperature sensing probe; 9. a base; 10. a temperature sensor; 11. a circulation pump; 12. a second temperature sensing probe; 13. a heating layer; 14. a heat-insulating layer; 15. a single chip microcomputer; 16. a condenser; 17. a gas-liquid separator; 18. a compressor; 19. a liquid storage tank; 20. a filter; 21. an expansion valve; 22. an evaporator; 23. a slider; 24. a chute; 25. a sloping plate; 26. a water outlet; 27. a water leakage plate; 28. a water pan; 29. a water leakage pipe; 30. an electric fan; 31. an operation panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "disposed," "mounted," "connected," "fixed," "sleeved," and the like are to be construed broadly, e.g., as either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, can be connected inside two elements or can be in an interaction relationship between the two elements, and the specific meaning of the terms in the present invention can be understood according to specific situations by those skilled in the art

Referring to fig. 1-4, the present invention provides a technical solution: a temperature-sensing type variable frequency heat pump device comprises a device main body 1, a water storage tank 2, a protective screen 3, a water storage tank 4, a water outlet 5, a cold water inlet pipe 6, a hot water outlet pipe 7, a first temperature-sensing probe 8, a base 9, a temperature sensor 10, a circulating pump 11, a second temperature-sensing probe 12, a heating layer 13, a heat insulation layer 14, a single chip microcomputer 15, a condenser 16, a gas-liquid separator 17, a compressor 18, a liquid storage tank 19, a filter 20, an expansion valve 21, an evaporator 22, a slider 23, a chute 24, an inclined plate 25, a water outlet 26, a water leakage plate 27, a water receiving disc 28, a water leakage pipe 29, an electric fan 30 and an operation panel 31, wherein the water storage tank 2 is fixed on one side of the device main body 1, the heat insulation layer 14 is connected inside the water storage tank 2, the heating layer 13 is installed inside the heat insulation layer 14, the, the bottom of the temperature sensor 10 is connected with a second temperature-sensing probe 12 extending to the inside of the water storage tank 2, the bottom of the device main body 1 is fixed with a base 9, the top of the base 9 is connected with a water leakage plate 27, two sides of the inside of the base 9 are provided with sliding grooves 24, the inside of the sliding grooves 24 is connected with sliding blocks 23, a water storage tank 4 is fixed between the two sliding blocks 23, the outer surface of the water storage tank 4 is provided with a water outlet 5, a compressor 18 is arranged above the inside of the device main body 1, the bottom of the compressor 18 is provided with a condenser 16, one end of the condenser 16 is connected with a hot water outlet pipe 7, the bottom of the condenser 16 is connected with a liquid storage tank 19, the top of the liquid storage tank 19 is connected with a water receiving tray 28, one side of the top of the water receiving tray 28 is provided with a water outlet 26, the, the output end of the circulating pump 11 is connected with the cold water inlet pipe 6 extending to one side of the device main body 1, the other side of the liquid storage tank 19 is connected with the filter 20, one end of the filter 20 is connected with the expansion valve 21, the top of the expansion valve 21 is connected with the evaporator 22, the top of the evaporator 22 is provided with the gas-liquid separator 17, the gas-liquid separator 17 is connected with one end of the compressor 18, the outer surface of the device main body 1 is provided with the electric fan 30, and the outer surface of the electric fan 30.

Referring to fig. 1-4, the water storage tank 4 is slidably connected to the device body 1 through the sliding block 23 to facilitate the cleaning of the interior, the water receiving tray 28 is inclined downward along the direction of the drain 26, and the outer surface of the water receiving tray 28 is smooth to allow the drainage of the condensed water.

Referring to fig. 1-2, the water leakage plate 27 has a plurality of through holes therein to facilitate the drainage of water inside the device, and the device body 1 is welded to the water storage tank 2 to stabilize the structure.

Referring to fig. 1-4, the insulating layer 14 is closely attached to the heating layer 13 to improve the insulating performance of the water storage tank, the operation panel 31 is installed above the outer surface of the water storage tank 2, and the operation panel 31 is electrically connected to the first temperature sensing probe 8, the temperature sensor 10, the circulation pump 11, the second temperature sensing probe 12, the single chip microcomputer 15, the condenser 16, the gas-liquid separator 17, the compressor 18, the filter 20, the expansion valve 21, the evaporator 22, and the electric fan 30, respectively, so that the device operates normally.

The working principle is as follows: firstly, checking the structure of the device main body 1 is complete, after the power is switched on, the operation panel 31 is opened, when in use, the first temperature sensing probe 8 senses the outside temperature, when the outside temperature is lower, the second temperature sensing probe 12 senses the water in the water storage tank 2, the temperature sensor 10 obtains the temperature, the singlechip 15 processes the data, senses the outside temperature to be lower, the heating layer 13 promotes the heat in the water storage tank 2, when the outside temperature is raised to a certain temperature, the heating layer 13 is closed, the heat preservation layer 14 preserves the temperature of the water in the water storage tank 2, when the temperature is lower, the device main body 1 is started, the electric fan 30 starts to operate, the outdoor air carries out heat exchange through the evaporator 22, the air with the reduced temperature is discharged out of the device by the electric fan 30, meanwhile, the working medium in the evaporator 22 absorbs heat and is vaporized and is sucked into the, the compressor 18 compresses the low-pressure working medium gas into high-temperature and high-pressure gas, the high-temperature and high-pressure gas is sent into the condenser 16, the water of the circulating pump 11 also passes through the condenser 16, the high-temperature and high-pressure gas is heated and stored, and then the high-temperature and high-pressure gas is discharged from the hot water outlet pipe 7, the working medium is cooled into liquid, the liquid is throttled and cooled by the expansion valve 21 and then flows into the evaporator 22 again, the circulation work is repeated, the heat energy in the air is continuously sent into the water by the compressor 18, the water temperature in the water storage tank 2 is gradually increased, when water drops on the surface of the condenser 16 are condensed in operation, the water drops roll down to the inside of the water receiving tray 28, so that water flows into the other side from one side of the inside of the water receiving tray 28 along the inclined plate 25, flows out from the water outlet 26 to the water leakage pipe 29, the water in the water leakage pipe 29 is guided to the water storage tank 4 in the water storage tank 2, when the water storage tank 4 is full of water, then flows out from the water outlet 5, and the vapor generated during operation can flow out from the water leakage plate 27.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A temperature-sensing type variable frequency heat pump device comprises a device main body (1), and is characterized in that: one side of the device main body (1) is fixed with a water storage tank (2), the inside of the water storage tank (2) is connected with a heat preservation layer (14), the inside of the heat preservation layer (14) is provided with a heating layer (13), a single chip microcomputer (15) and a temperature sensor (10) are respectively installed above the inside of the water storage tank (2), a first temperature sensing probe (8) is installed at the top of the temperature sensor (10), a second temperature sensing probe (12) extending to the inside of the water storage tank (2) is connected to the bottom of the temperature sensor (10), a base (9) is fixed at the bottom of the device main body (1), a water leakage plate (27) is connected to the top of the base (9), sliding grooves (24) are formed in two sides of the inside of the base (9), sliding blocks (23) are connected to the inside of the sliding grooves (24), and a water storage tank, the water storage device is characterized in that a water outlet (5) is formed in the outer surface of the water storage tank (4), a compressor (18) is installed above the interior of the device main body (1), a condenser (16) is installed at the bottom of the compressor (18), a hot water outlet pipe (7) is connected to one end of the condenser (16), a liquid storage tank (19) is connected to the bottom of the condenser (16), a water receiving tray (28) is connected to the top of the liquid storage tank (19), a water outlet (26) is formed in one side of the top of the water receiving tray (28), an inclined plate (25) is connected to the top of the water receiving tray (28), a water leakage pipe (29) extending to the bottom of the device main body (1) is connected to one side of the bottom of the water receiving tray (28), a circulating pump (11) is installed on one side of the liquid storage tank (19), and, the other side of liquid storage pot (19) is connected with filter (20), the one end of filter (20) is connected with expansion valve (21), the top of expansion valve (21) is connected with evaporimeter (22), vapour and liquid separator (17) are installed at the top of evaporimeter (22), vapour and liquid separator (17) are connected with the one end of compressor (18), the surface mounting of device main part (1) has electric fan (30), the surface connection of electric fan (30) has protection network (3).

2. The temperature-sensing, variable frequency heat pump apparatus of claim 1, wherein: the water storage tank (4) is connected with the device main body (1) in a sliding mode through a sliding block (23).

3. The temperature-sensing, variable frequency heat pump apparatus of claim 1, wherein: the water pan (28) is inclined downwards along the direction of the water outlet (26), and the outer surface of the water pan (28) is smooth.

4. The temperature-sensing, variable frequency heat pump apparatus of claim 1, wherein: the inside of the water leakage plate (27) is provided with a plurality of through holes.

5. The temperature-sensing, variable frequency heat pump apparatus of claim 1, wherein: the device main body (1) is connected with the water storage tank (2) in a welding mode.

6. The temperature-sensing, variable frequency heat pump apparatus of claim 1, wherein: the heat-insulating layer (14) is tightly attached to the heating layer (13).

7. The temperature-sensing, variable frequency heat pump apparatus of claim 1, wherein: an operation panel (31) is installed above the outer surface of the water storage tank (2), and the operation panel (31) is electrically connected with the first temperature sensing probe (8), the temperature sensor (10), the circulating pump (11), the second temperature sensing probe (12), the single chip microcomputer (15), the condenser (16), the gas-liquid separator (17), the compressor (18), the filter (20), the expansion valve (21), the evaporator (22) and the electric fan (30) respectively.

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