CN215175391U - Air energy warmer device - Google Patents

Abstract

An air energy warmer device comprises an evaporator (1) and a compressor (2), condenser (20) and expansion valve (4), condenser (20) are located first heating water tank (3), first heating water tank (3) are equipped with water inlet and delivery port, inlet tube (7) link to each other with water inlet and radiator (8), outlet pipe (9) link to each other with delivery port and second heating water tank (11), connecting water pipe (12) link to each other with second heating water tank (11) and radiator (8), be equipped with electric heating silk screen (25) in second heating water tank (11), electric heating silk screen (25) link to each other and are equipped with control switch (16) on cable (14) through cable (14) and power (15), still be equipped with temperature sensor (18) and controller (19) in room (H), compressor (2), control switch (16) and temperature sensor (18) all link to each other with controller (19). The safety performance is good, and the heating effect is good.

Description

Air energy warmer device

Technical Field

The utility model belongs to the technical field of new forms of energy equipment, a air can the device is related to, concretely relates to air can room heater unit.

Background

The warmer is a device which increases the temperature of cold water into hot water within a certain time through various physical principles, and heats the air in a room by radiating the hot water through a radiator, so as to increase the temperature in the room. The heaters can be divided into electric heaters, gas heaters, solar heaters, magnetic energy heaters, air energy heaters, heating heaters and the like according to different principles.

The air energy warmer device absorbs low-temperature heat in air, gasifies the cold medium, then is compressed by the compressor and then is pressurized and heated, then is converted by the condenser to supply water for heating, the compressed high-temperature heat energy is used for heating water temperature, hot water is supplied to a radiator positioned indoors through the heated water, and the room is heated through the heat dissipation of the radiator.

However, the existing air energy warmer generally has the following disadvantages: 1. under the condition that the outside air temperature is relatively low in winter and the like, the existing air energy warmer is often difficult to provide heating requirements due to the fact that low-temperature energy contained in the air is too low. 2. Some air energy heaters adopt auxiliary electric heating equipment to deal with the condition that the outside air temperature is relatively cold in winter and the like. However, since the auxiliary electric heating device is directly located in the heating water tank, on the one hand, it has a certain influence on the heat dissipation of the condenser and the like, and in addition, the safety is difficult to ensure. 3. The water in the heating water tank can not flow, so that the efficiency of the heat exchange process between the heating water tank and the condenser is low, the heating speed is low, and the requirements of people are difficult to meet.

In view of the technical defects in the prior art, a new type of air energy warmer needs to be developed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the shortcoming that exists among the prior art, provide an air energy room heater unit, its security performance is good, and it is effectual to keep warm.

In order to achieve the above object, the present invention provides the following technical solutions:

an air energy warmer device comprises an evaporator, a compressor, a condenser and an expansion valve which are connected in sequence, wherein the condenser is positioned in a first heating water tank, the air energy warmer device is characterized in that a water inlet and a water outlet are arranged on the upper portion of the first heating water tank, one end of a water inlet pipe is connected with the water inlet, the other end of the water inlet pipe is connected with an outlet of a radiator positioned in a room, a water suction pump is arranged on the water inlet pipe, one end of a water outlet pipe is connected with the water outlet, the other end of the water outlet pipe is connected with a water inlet of a second heating water tank, one end of a connecting water pipe is connected with a water outlet of the second heating water tank, the other end of the connecting water pipe is connected with an inlet of the radiator, an electric heating wire mesh is arranged in the second heating water tank, the electric heating wire mesh is connected with a power supply through a cable, a control switch is arranged on the cable, and a temperature sensor and a controller are also arranged in the room, the compressor, the control switch, the temperature sensor and the water pump are all connected with the controller.

Preferably, a first electricity-proof wall is installed on the water inlet of the second heating water tank.

Preferably, a second electricity-proof wall is installed on a water outlet of the second heating water tank.

Preferably, a vertical guide pipe, a first transverse guide pipe and a second transverse guide pipe are further arranged in the first heating water tank, the upper end of the vertical guide pipe is connected with the water inlet, the middle end of the vertical guide pipe is connected with one end of the first transverse guide pipe, the lower end of the vertical guide pipe is connected with one end of the second transverse guide pipe, and the other ends of the first transverse guide pipe and the second transverse guide pipe are both located in the first heating water tank.

Preferably, a plurality of branch guide tubes are respectively arranged on two sides of the first transverse guide tube and the second transverse guide tube.

Preferably, the first horizontal guide pipe is located at the middle of the first heating water tank.

Preferably, wherein the second lateral guide pipe is located at the bottom of the first heating water tank.

Preferably, a filter is further disposed between the condenser and the expansion valve.

Preferably, a liquid storage tank is further arranged between the condenser and the filter.

Preferably, one side of the evaporator is further provided with a suction fan, and the suction fan is also connected with the controller.

Compared with the prior art, the utility model discloses an air can room heater device has following beneficial technological effect:

1. the self-contained auxiliary heating device can still be used for providing proper heating temperature even under the condition of low external temperature in winter and the like.

2. The auxiliary heating equipment is arranged in the second heating tank and is arranged in a heating tank different from the condenser, so that the influence of the auxiliary heating equipment on the condenser can be avoided.

3. The electricity-proof wall is provided with the electricity-proof wall, and can prevent electric shock and other things, so that the safety performance is better.

4. It can promote the flow of water in the first heating water tank through set up vertical guide tube, first horizontal guide tube and the horizontal guide tube of second and a plurality of branch guide tubes etc. in first heating water tank to help the heat transfer between the water in the first heating water tank and the condenser, accelerate the heating to first heating water tank normal water, and then help raising the efficiency.

5. The whole heating process is carried out automatically without human intervention, and the degree of automation is high.

Drawings

Fig. 1 is a schematic diagram of the air energy warmer device of the present invention.

Fig. 2 is a schematic longitudinal sectional view of the first heating water tank of the air energy warmer device of the present invention.

Fig. 3 is a schematic longitudinal sectional view of the second heating water tank of the air energy warmer device of the present invention.

Fig. 4 is a schematic top view of the first transverse guiding tube of the air-energy warmer device of the present invention.

Detailed Description

The present invention is further described with reference to the following drawings and examples, which are not intended to limit the scope of the present invention.

The utility model relates to an air can room heater unit, it is used for providing stable heating for the user to satisfy the demand of people's production and life to the heating.

Fig. 1 shows a schematic diagram of the structure of the air energy warmer device of the present invention. Fig. 2 shows a schematic longitudinal sectional view of the first heating water tank of the air energy warmer device of the present invention. As shown in fig. 1 and 2, the air energy warmer of the present invention comprises an evaporator 1, a compressor 2, a condenser 20 and an expansion valve 4, which are connected in sequence. The condenser 20 is located in the first heating water tank 3.

The utility model discloses in, the upper portion of first heating water tank 3 is equipped with water inlet and delivery port. Wherein, one end of the water inlet pipe 7 is connected with the water inlet, the other end is connected with the outlet of the radiator 8 positioned in the room H, and a water suction pump 26 is arranged on the water inlet pipe 7. Therefore, the water with the reduced temperature after the heat is radiated by the radiator 8 can enter the first heating water tank 3 through the water inlet pipe 7 to be heated again under the action of the water suction pump 26.

One end of the water outlet pipe 9 is connected with the water outlet, and the other end is connected with the water inlet of the second heating water tank 11. Thereby, the water heated in the first heating water tank 3 can be introduced into the second heating water tank 11 through the inlet pipe 9.

One end of the connecting water pipe 12 is connected to the water outlet of the second heating water tank 11, and the other end is connected to the inlet of the radiator 8. Thus, the high-temperature water from the second heating water tank 11 can be introduced into the radiator 8 through the connection water pipe 12, and the heat is radiated into the room H through the radiator 8, thereby heating the room H.

Fig. 3 shows a schematic longitudinal sectional view of a second heating water tank of the air energy warmer device of the present invention. As shown in fig. 3, in the present invention, an electric heating wire net 25 is provided in the second heating water tank 11. The electric heating wire mesh 25 is connected with the power supply 15 through the cable 14, and the cable 14 is provided with a control switch 16. Thus, when the temperature of the water from the first heating water tank 3 is not enough to provide the heating demand, the electric heating wire net 25 can perform secondary heating to meet the heating demand.

Therefore, the utility model discloses an air energy room heater device is from taking auxiliary heating equipment, even under the lower condition of external temperature such as winter, it still can be used for providing suitable heating temperature. Moreover, the auxiliary heating equipment is arranged in the second heating tank and is arranged in a heating tank different from the condenser, so that the influence of the auxiliary heating equipment on the condenser can be avoided.

Preferably, a first electricity-proof wall 10 is installed on the water inlet of the second heating water tank 11. More preferably, a second electricity-proof wall 13 is installed on the water outlet of the second heating water tank 11. The air energy warmer device has higher safety performance due to the arrangement of the first electricity-proof wall 10 and the second electricity-proof wall 13.

With continued reference to fig. 1, in the present invention, a temperature sensor 18 and a controller 19 are further disposed in the room H. The temperature sensor 18 is used to sense the temperature in the room H to determine whether the heating in the room H is up to standard, etc. The controller 19 is used to realize the overall control. For example, the controller 19 may be a single chip microcomputer or the like.

Wherein the compressor 2, the control switch 16 and the temperature sensor 18 are all connected to the controller 19. Thus, the controller 19 may determine whether the compressor 2 and/or the electric heating wire net 25 are activated based on the sensing result of the temperature sensor 18. Therefore, the whole heating process is carried out automatically without human intervention, and the degree of automation is high.

For example, when the temperature sensor 18 senses that the temperature in the room H is low, the controller 19 controls the compressor 2 to be activated so as to heat the water in the first heating water tank 3, and the heated water is radiated through the radiator 8 so as to heat the room H.

When the compressor 2 is started for a certain period of time, for example, 1 hour, the controller 19 does not control the control switch 16 to be turned on if the temperature sensor 18 senses that the temperature in the room H satisfies the heating demand. However, when the compressor 2 is started for a certain period of time, for example, 1 hour, and if the temperature sensor 18 senses that the temperature in the room H still cannot satisfy the heating requirement, the controller 19 controls the control switch 16 to be turned on, the heated water is reheated through the electric heating wire net 25, and the reheated water is radiated through the radiator 8, so that the temperature in the room H satisfies the heating requirement.

With continued reference to fig. 2, in the present invention, a vertical guide tube 21, a first horizontal guide tube 22 and a second horizontal guide tube 23 are further disposed in the first heating water tank 3. The upper end of the vertical guide pipe 21 is connected with the water inlet, the middle end of the vertical guide pipe is connected with one end of the first transverse guide pipe 22, and the lower end of the vertical guide pipe is connected with one end of the second transverse guide pipe 23. And, the other ends of the first and second lateral guide pipes 22 and 23 are located inside the first heating water tank 3.

As shown in fig. 4, in the present invention, it is preferable that a plurality of branch guide tubes 24 are respectively provided on both sides of the first lateral guide tube 22. More preferably, the second lateral guide tube 23 is provided at both sides thereof with a plurality of branch guide tubes 24, similar to the first lateral guide tube 22, respectively.

Still preferably, the first lateral guide pipe 22 is located at the middle of the first heating water tank 3. The second transverse guide duct is located at the bottom of the first heating reservoir 3 at 24.

Thereby, water can be introduced into the middle and the bottom of the first heating water tank 3 through the first and second lateral guide pipes 22 and 23, so that the water circulation in the first heating water tank 3 can be pushed from the middle and the bottom of the first heating water tank 3 by means of the pressure of the water sprayed from the first and second lateral guide pipes 22 and 23. And, water can be introduced into the side of the first heating water tank 3 through the plurality of branch guide pipes 24, so that the water circulation in the first heating water tank 3 can be pushed from the side by the pressure of water sprayed from the plurality of branch guide pipes 24. In this way, the circulation of water in the entire first heating water tank 3 can be facilitated, so that the heat exchange between the water in the first heating water tank 3 and the condenser 20 is facilitated, the heating of the water in the first heating water tank 3 is accelerated, and the efficiency is improved.

With continued reference to fig. 1, in the present invention, preferably, a filter 6 is further disposed between the condenser 20 and the expansion valve 4. The refrigerant can be filtered by the filter 6, and the working efficiency is improved.

More preferably, a liquid storage tank 5 is further disposed between the condenser 20 and the filter 6. The liquid storage tank 5 is used for storing a standby refrigerant. Therefore, when the refrigerant is reduced due to evaporation and the like, the refrigerant in the liquid storage tank 5 can be supplemented, and the working efficiency is not influenced.

Still preferably, a suction fan 17 is further provided at one side of the evaporator 1. The suction fan 17 is also connected to the controller 19. Thus, at the start of the compressor 2, the controller 19 also controls the suction fan 17 to start so as to suck more air into the evaporator 1, thereby improving the efficiency of the evaporator 1.

Finally, in the present invention, it is preferable that a display screen is further provided on the controller 19. The display screen may be used to display relevant information, such as the temperature in the room H, etc.

The above embodiments of the present invention are merely examples for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. Not all embodiments are exhaustive. All obvious changes or variations led out by the technical scheme of the utility model are still in the protection scope of the utility model.

Claims (10)

1. The utility model provides an air energy warmer device, it includes evaporimeter (1), compressor (2), condenser (20) and expansion valve (4) that link to each other in proper order, condenser (20) are located first heating water tank (3), its characterized in that, the upper portion of first heating water tank (3) is equipped with water inlet and delivery port, the one end of inlet tube (7) with the water inlet links to each other, the other end links to each other with the export of radiator (8) that are located room (H) and install suction pump (26) on inlet tube (7), the one end of outlet pipe (9) with the delivery port links to each other, the other end links to each other with the water inlet of second heating water tank (11), the one end of connecting water pipe (12) with the outlet of second heating water tank (11) links to each other, the other end with the entry of radiator (8) links to each other, be equipped with electrical heating silk screen (25) in second heating water tank (11), electric heating silk screen (25) pass through cable (14) and link to each other just be equipped with control switch (16) on cable (14), still be equipped with temperature sensor (18) and controller (19) in room (H), compressor (2), control switch (16), temperature sensor (18) and suction pump (26) all with controller (19) link to each other.

2. The air energy warmer device according to claim 1, characterized in that a first electricity-proof wall (10) is mounted on the water inlet of the second heating water tank (11).

3. The air energy warmer device according to claim 2, characterized in that a second electricity-proof wall (13) is mounted on the drain of the second heating water tank (11).

4. The air energy warmer device according to claim 3, wherein a vertical guide pipe (21) and a first and a second transverse guide pipes (22, 23) are further provided in the first heating water tank (3), the upper end of the vertical guide pipe (21) is connected to the water inlet, the middle end is connected to one end of the first transverse guide pipe (22), the lower end is connected to one end of the second transverse guide pipe (23), and the other ends of the first and second transverse guide pipes (22, 23) are located in the first heating water tank (3).

5. The air-energy warmer device according to claim 4, characterized in that a plurality of branched guide ducts (24) are provided on both sides of the first and second lateral guide ducts (22, 23), respectively.

6. The air-energy warmer device according to claim 5, characterized in that said first transverse guiding duct (22) is located in the middle of said first heating tank (3).

7. The air-energy warmer device according to claim 6, characterized in that said second transverse guiding duct (23) is located at the bottom of said first heating tank (3).

8. Air-energy warmer device according to any one of claims 1-7, characterized in that a filter (6) is also provided between said condenser (20) and expansion valve (4).

9. Air energy warmer device according to claim 8, characterized in that a liquid reservoir (5) is also provided between said condenser (20) and said filter (6).

10. Air energy warmer device according to claim 9, characterized in that said evaporator (1) is also provided, on one side, with a suction fan (17), said suction fan (17) also being connected to said controller (19).

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