CN204460436U - A kind of air energy heat cycles water insulated wall - Google Patents

Abstract

The utility model discloses an air energy heating circulating water insulation wall, which comprises a water circulation system, the water circulation system comprises a water tank and circulating water pipes whose head and tail ends are connected to the water tank, and the water tank is built with a temperature sensor and a water level sensor; The water tank is connected to an air energy heating system for heating the cold water in the water tank, and the air energy heating system is composed of a compressor, a filter connected to the compressor, a fan, an evaporator and a condenser, and the condenser is arranged at The inner bottom of the water tank; the top of the water tank is connected with a water inlet pipe. The utility model arranges the water pipe carrying the circulating water inside the non-load-bearing wall, uses the water pump to maintain the water circulation, and uses the air energy heating technology to heat the circulating water, and uses the air energy to respond to the call for building a socialist energy-saving society. At the same time, the air The use cost is low, a certain amount of electric energy is saved, and it has certain popularization significance.

Description

An air energy heating circulating water insulation wall

technical field

The utility model relates to a thermal insulation wall, in particular to an air energy heating circulating water thermal insulation wall.

Background technique

With the development of society and the advancement of technology, people have higher and higher material requirements, such as the requirements for room temperature, so people have created air conditioners, heating, etc. The power of existing air conditioners is relatively large, and the demand for electric energy Large, with the development of science and technology, there are frequency conversion air conditioners, etc., but they still consume a lot of power. The water source that the existing heating needs to use is pure water, which increases the cost virtually, and the power of the heating is relatively large.

Today's buildings mostly use heat insulation layers, but the insulation effect of the heat insulation layers is not obvious, so the utility model adopts a water circulation heating system. The traditional water circulation heating system uses high-power heating tubes for heating, which not only consumes too much electric energy, The heating efficiency is not high, and the thermal insulation consumes a lot of heat, which increases the working time of the heating tube and virtually wastes electric energy.

Utility model content

The technical problem to be solved by the utility model is to overcome the defects of the prior art, provide an air energy heating circulating water insulation wall, and adopt the air energy hot water technology to heat the circulating water, so as to solve the above technical problems.

In order to solve the above technical problems, the utility model provides the following technical solutions:

The utility model is an air energy heating circulating water insulation wall, which includes a water circulation system, the water circulation system includes a water tank and circulating water pipes whose head and tail ends are connected to the water tank, and the water tank is built with a temperature sensor and a water level sensor; The water tank is connected to an air energy heating system for heating the cold water in the water tank. The air energy heating system is composed of a compressor, a filter connected to the compressor, a fan, an evaporator and a condenser. The condenser is arranged at the The inner bottom of the water tank; the top of the water tank is connected with a water inlet pipe.

Further, one end of the circulating water pipe is connected to the water tank through a water pump, and the other end is connected to one end of a pipe joint, and the other end of the pipe joint is connected to the water inlet pipe inside the water tank through an arc-shaped pipe. inside the wall.

Further, the water inlet pipe has a built-in water inlet solenoid valve, and the port of the water inlet pipe at one end inside the water tank is connected with an S-shaped elbow, and the S-shaped elbow is screwed with a shower head. The S-shaped elbow is connected to one end of the stainless steel thin rod for bearing, and one end of the stainless steel thin rod is connected to the top of the water tank, and the bottom of the water tank is provided with a water outlet valve.

Further, the temperature sensor and the water level sensor are connected to a control center, and the control center is connected to the water inlet solenoid valve, water pump and air heating system.

The beneficial effects achieved by the utility model are:

The utility model arranges the water pipe carrying the circulating water inside the non-load-bearing wall, uses the water pump to maintain the water circulation, and uses the air energy heating technology to heat the circulating water, and uses the air energy to respond to the call for building a socialist energy-saving society. At the same time, the air The use cost is low, a certain amount of electric energy is saved, and it has certain popularization significance.

Description of drawings

The accompanying drawings are used to provide a further understanding of the utility model, and constitute a part of the description, and are used to explain the utility model together with the embodiments of the utility model, and do not constitute a limitation to the utility model. In the attached picture:

Fig. 1 is a schematic diagram of the structure of an air-heated circulating water insulation wall described in an embodiment of the present invention;

Fig. 2 is a schematic structural diagram of an air energy heating circulating water insulation wall described in an embodiment of the present invention;

In the figure: 1. Air energy heating system; 11. Compressor; 12. Filter; 13. Fan; 14. Evaporator; 15. Condenser; 2. Water circulation system; 21. Water tank; 22. Pipe connector; 23 , circulating water pipe; 24, water outlet valve; 25, water pump; 26, arc pipe; 27, water inlet pipe; 3, wall; 4, water level sensor; 5, temperature sensor; 6, S-shaped elbow; 7, flower Sprinkler; 8. Stainless steel thin rod; 9. Water inlet solenoid valve; 10. Control center.

Detailed ways

The preferred embodiments of the present utility model are described below in conjunction with the accompanying drawings. It should be understood that the preferred embodiments described here are only used to illustrate and explain the present utility model, and are not intended to limit the present utility model.

As shown in Fig. 1 to Fig. 2, a kind of air can heat circulation water insulation wall of the utility model, comprises water circulation system 2, and water circulation system 2 comprises water tank 21 and the circulating water pipe 23 that head and tail ends are all connected with water tank 21, and water tank 21 is built-in The temperature sensor 5 and the water level sensor 4; the water tank 21 is connected to the air energy heating system 1 for heating the cold water in the water tank 21, and the air energy heating system 1 is composed of a compressor 11 and a filter 12 connected to the compressor 11, a fan 13, and an evaporator 14 and a condenser 15, the condenser 15 is arranged at the inner bottom of the water tank 21; the top of the water tank 21 is connected with a water inlet pipe 27.

One end of the circulating water pipe 23 is connected to the water tank 21 through the water pump 25, and the other end is connected to one end of the pipe joint 22, and the other end of the pipe joint 22 is connected to the water inlet pipe 27 inside the water tank 21 through the arc pipe 26. The water pipe 23 body is built in the wall body 3 inside. Water is drawn from the inside of the water tank by the water pump 25 into the circulating water pipe 23 , then flows through the inside of the wall body 3 , and finally enters the water inlet pipe 27 through the arc pipe 26 . The water inlet pipe 27 has a built-in water inlet electromagnetic valve 9, and the port of the water inlet pipe 27 located at one end inside the water tank 21 is connected with an S-shaped elbow 6, and the S-shaped elbow 6 is screwed with a shower head 7, and the S-shaped elbow 6 One end of the stainless steel thin rod 8 used for bearing is connected, and one end of the stainless steel thin rod 8 is connected to the top of the water tank 21, and the bottom of the water tank 21 is provided with a water outlet valve 24. In order to reduce the impact of the water in the water inlet pipe 27 on the water tank 21 and the condenser 15, an S-shaped elbow 6 is installed at the port of the water inlet pipe 27 to buffer the impact force, and the S-shaped elbow 6 is provided with a shower head 7, Further reduce the impact force. The temperature sensor 5 and the water level sensor 4 are connected to the control center 10, and the control center 10 is connected to the water inlet solenoid valve 9, the water pump 25 and the air energy heating system 1. Data are received and instructions are sent to individual work areas through the control center 10 . The water outlet valve 24 at the bottom of the water tank 21 is used for changing water.

The principle of water cycle: using the larger specific heat capacity of liquid water, it can absorb and release more heat. Water is placed in the circulating water pipe 23 in the wall 3 and flows to form a water cycle; when the weather is hot, the water cycle can evaporate and absorb heat from the wall 3, thereby reducing the indoor temperature; when the weather is cold, the water cycle can condense Hua or partial solidification releases heat, and then the indoor temperature rises, and the utility model can heat the circulating water through the air energy heating system 1 .

The principle of air energy heating: After the power is turned on, the fan 13 starts to run, and the outdoor air passes through the evaporator 14 for heat exchange, and the gas after the temperature drops is exhausted by the fan 13 from the system. At the same time, the supply material inside the evaporator 14 absorbs heat and vaporizes and is drawn into the compressor 11. The compressor 11 compresses the low-pressure working gas into a high-temperature and high-pressure gas and sends it to the condenser 15. The water forced to circulate by the water 25 is also condensed. The device 15 is heated by the working fluid and sent to the interior of the wall 3 for heat supply, while the working fluid is cooled into a liquid, and the liquid flows into the evaporator 14 again after being throttled and cooled by the expansion valve, so that the cycle works repeatedly.

Specific usage: first set the temperature of the water tank 21 through the control center 10, then open the water inlet solenoid valve 9 to supply water to the water tank 21 through the control center 10, when the water level triggers the water level sensor 4, control the water pump 25 to work through the control center 10, Until water comes out from the other end of the circulating water pipe 23, when the water level sensor 4 detects that the water level speed rises significantly, the system closes the water inlet solenoid valve 9 at this time, and when the water level is lower than the lower limit of the water level sensor 4, the system opens the water inlet solenoid valve 9 to introduce water. . The temperature range value can be set through the control center 10. When the temperature sensor 5 detects that the temperature is lower than the range, the air energy heating system 1 is started to heat. When the temperature reaches the set temperature, the air energy heating system 1 stops working and repeats. conduct.

The utility model arranges the water pipe carrying the circulating water inside the non-load-bearing wall, uses the water pump to maintain the water circulation, and uses the air energy heating technology to heat the circulating water, and uses the air energy to respond to the call for building a socialist energy-saving society. At the same time, the air The use cost is low, a certain amount of electric energy is saved, and it has certain popularization significance.

Finally, it should be noted that: the above is only a preferred embodiment of the utility model, and is not intended to limit the utility model, although the utility model has been described in detail with reference to the foregoing embodiments, for those skilled in the art , it is still possible to modify the technical solutions described in the foregoing embodiments, or perform equivalent replacements for some of the technical features. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present utility model shall be included in the protection scope of the present utility model.

Claims (4)

1. an air energy heat cycles water insulated wall, comprises water circulation system, and described water circulation system comprises the circulating water pipe that water tank and two ends are all connected with described water tank, and it is characterized in that, described water tank is built-in with temperature sensor and level sensor; Described water tank connects the air energy heating system being used for heating water tank inner cold water, described air energy heating system is made up of compressor and the filter, fan, evaporimeter and the condenser that are connected with described compressor, and described condenser is arranged on described water tank inner bottom part; Described tank top is connected with inlet channel.

2. a kind of air energy heat cycles water insulated wall according to claim 1, it is characterized in that, described circulating water pipe one end connects described water tank by water pump, other end tube connector fitting one end, the described pipe connecting piece other end connects the inlet channel of described water tank inside by curved pipe, and described circulating water pipe body is built in body of wall inside.

3. a kind of air energy heat cycles water insulated wall according to claim 1 and 2, it is characterized in that, described inlet channel is built-in with entering water electromagnetic valve, the port that described inlet channel is positioned at the inner one end of described water tank is connected with S shape bend pipe, described S shape bend pipe is connected with gondola water faucet, described S shape bend pipe connects the stainless steel thin bar one end being used for load-bearing, and described stainless steel thin bar one end connects described tank top, and described water tank bottom is provided with flowing water Valve.

4. a kind of air energy heat cycles water insulated wall according to claim 1, it is characterized in that, described temperature sensor and described level sensor connection control center, described control centre connects described entering water electromagnetic valve, water pump and air energy heating system.