CN215216524U - Novel air conditioner energy storage system based on thermoelectric generation - Google Patents
Novel air conditioner energy storage system based on thermoelectric generation Download PDFInfo
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- CN215216524U CN215216524U CN202120650650.6U CN202120650650U CN215216524U CN 215216524 U CN215216524 U CN 215216524U CN 202120650650 U CN202120650650 U CN 202120650650U CN 215216524 U CN215216524 U CN 215216524U
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Abstract
The utility model relates to a novel air conditioner energy storage system based on thermoelectric generation, including indoor set, off-premises station, the air outlet of off-premises station divide into upper and lower two parts, connect upper and lower gas hood on the upper and lower two parts respectively, upper and lower gas hood is last to be equipped with the grid of opening and close that corresponds the air outlet respectively, upper and lower gas hood all external pipeline connects thermoelectric generation device through the diverter valve, thermoelectric generation device includes the return bend, the thermoelectric generation piece, cooling jacket, the return bend peripheral hardware thermoelectric generation piece, outside cooling jacket suit and the thermoelectric generation piece, termination diverter valve under the return bend, the thermoelectric generation piece connects the battery. The hot air recycling system can recycle the hot air generated in the air cooling process or the cold air generated in the heating process, thereby improving the utilization rate of energy and reducing the influence on the environment.
Description
Technical Field
The utility model belongs to the technical field of the air conditioning technique and specifically relates to a novel air conditioner energy memory based on thermoelectric generation.
Background
With the continuous development of economy and the continuous increase of various electric appliances in China, the air conditioner becomes an indispensable household appliance for people, but the air conditioner is also one of the electric appliances with the largest power consumption. China has limited energy development and becomes a serious power shortage area. However, the demand of the air conditioner is still increased, the air conditioner cannot be controlled in the working time, the service time is basically used in the peak period of power utilization, the load of a power grid is increased, heat generated by an outdoor heat exchanger has certain influence on the daytime environment, and the heat is very wasted.
In the traditional energy storage air conditioner, energy storage equipment is utilized to store energy in the time that an air conditioning system does not need energy or uses less energy, and the energy is released in the time that the air conditioning system needs a large amount of energy. Depending on the object of use and the temperature of storage, cold storage and heat storage can be used. The ice-cold storage system is used for refrigeration by adopting an electric refrigerator in the electricity utilization valley period at night, prepared cold energy is stored in the form of ice, and the ice is melted to release the cold energy in the load peak period of the air conditioner in the daytime so as to partially or completely meet the cold supply requirement. Although the traditional energy storage air conditioner increases the utilization rate of energy and reduces the pollution to the environment, the traditional energy storage air conditioner has the problems of low efficiency, overlarge equipment and the like.
SUMMERY OF THE UTILITY MODEL
The utility model discloses the purpose is overcoming prior art's not enough, provides a novel air conditioner energy memory, can realize recycling the cold wind that the warm braw that the air conditioning cooling process produced or the process of heating produced to improve the utilization ratio of energy, reduce the influence to the environment.
The technical scheme of the utility model is that: the utility model provides a novel air conditioner energy storage system based on thermoelectric generation, includes indoor set, off-premises station, its characterized in that: the air outlet of the outdoor unit is divided into an upper part and a lower part, the upper part and the lower part are respectively connected with an upper air cover and a lower air cover, the upper air cover and the lower air cover are respectively provided with an openable grille corresponding to the air outlet, the upper air cover and the lower air cover are both externally connected with a pipeline and connected with a thermoelectric power generation device through a switching valve, the thermoelectric power generation device comprises a bent pipe, a thermoelectric power generation piece and a cooling water jacket, the thermoelectric power generation piece is externally arranged on the bent pipe, the cooling water jacket is sleeved outside the thermoelectric power generation piece, the lower end of the bent pipe is connected with the switching valve, and the thermoelectric power generation piece is connected with a storage battery.
Furthermore, the thermoelectric generation piece is connected with a storage battery through a booster circuit.
Furthermore, the storage battery is also connected with an outdoor solar power generation panel.
Furthermore, the thermoelectric generation piece adopts the power generation piece that the material is different in proper order to concatenate along return bend extending direction.
The utility model discloses during the use, indoor set has been arranged at indoor, in air conditioner refrigeration process, the compressor of off-premises station compresses the refrigerant of gaseous state into the highly compressed liquid refrigerant of high temperature, then send to and become the highly compressed liquid refrigerant of normal atmospheric temperature after the off-premises station evaporimeter heat dissipation, liquid refrigerant gets into the indoor set to the capillary, because the refrigerant reachs the evaporimeter back space from the capillary and increases suddenly, pressure reduces, liquid refrigerant will vaporize, become gaseous microthermal refrigerant, thereby absorb a large amount of heats, the fan of indoor set blows through indoor air from the evaporimeter, the indoor set blows off cold wind. The upper air cover and the lower air cover are arranged on the outer side of the outdoor unit, the grid on the lower air cover is opened to supply cold air, the grid on the upper air cover of the outdoor unit is closed, the switching valve is opened to be connected with collected heating air to upwards enter the elbow, the elbow can effectively reduce heat loss, the energy utilization rate is improved, thermoelectric generation pieces are arranged on two sides of the elbow, the thermoelectric generation pieces which are made of different materials are considered to be connected in series at different distances from an inlet, a cooling water jacket is arranged on the outer side of the thermoelectric generation pieces, and multiple levels and gradient power generation are realized by utilizing the temperature difference between the heating air and the cooling water jacket in the elbow, so that the utilization rate of heat is maximized. The heating process of the air conditioner is opposite to the refrigerating process, the upper air cover is opened to admit air, the lower air cover sends out cold air to enter the bent pipe, the temperature difference power generation sheet is arranged on the outer side of the bent pipe, the water jacket needs to be cooled at the moment, and the temperature difference is generated between the cold air in the pipe and the air outside the pipe, so that potential difference can be generated.
Considering that the amount of gas generated by the outdoor unit may be insufficient, it is necessary to add a boosting circuit to the circuit, and the voltage generated by the thermoelectric generation chip is boosted and stored in a storage battery. The controller is arranged at the end of the storage battery, so that the electric quantity is monitored in real time, and the electric quantity is supplemented in time when insufficient. In addition, the solar power generation panel is arranged on the roof, so that the electric quantity of the storage battery can be timely supplemented when the air conditioner is short in service time or power failure and other conditions occur. The storage battery can provide continuous power supply for indoor emergency lighting lamps.
Drawings
FIG. 1 is a schematic structural view of the present invention;
fig. 2 is the schematic structural diagram of the thermoelectric power generation device of the present invention.
In the figure: the air conditioner comprises an indoor unit 1, an indoor unit 2, an outdoor unit 3, a compressor 4, an evaporator 5, an upper air hood 6, a lower air hood 7, a bent pipe 8, thermoelectric generation pieces 9, a cooling water jacket 10, a booster circuit 11, a storage battery 12 and a solar power generation panel 13.
Detailed Description
The following further description is made in conjunction with the accompanying drawings and examples.
Shown in FIGS. 1 and 2: the utility model provides a novel air conditioner energy storage system based on thermoelectric generation, including indoor set 2, off-premises station 3, the indoor set sets up in indoor 1, establish compressor 4 and evaporimeter 5 in the off-premises station 3, the air outlet of evaporimeter 5 divide into upper and lower two parts, upper and lower two parts are gone up and are connect respectively, lower gas hood 6, 7, upper and lower gas hood is last to be equipped with the grid of opening and close that corresponds the air outlet respectively, upper and lower gas hood all external pipeline connects return bend 8 through the switching valve, return bend peripheral hardware thermoelectric generation piece 9, outside cooling water jacket 10 suit and the thermoelectric generation piece, the thermoelectric generation piece connects battery 12 through boost circuit 11.
On the basis of the above embodiment, the storage battery can be connected with the outdoor solar power generation panel.
On the basis of the embodiment, because the temperature difference in the bent pipe is gradually reduced, the temperature difference power generation pieces can be connected in series by adopting power generation pieces made of different materials in sequence along the extension direction of the bent pipe.
Claims (4)
1. The utility model provides a novel air conditioner energy storage system based on thermoelectric generation, includes indoor set, off-premises station, its characterized in that: the air outlet of the outdoor unit is divided into an upper part and a lower part, the upper part and the lower part are respectively connected with an upper air cover and a lower air cover, the upper air cover and the lower air cover are respectively provided with an openable grille corresponding to the air outlet, the upper air cover and the lower air cover are both externally connected with a pipeline and connected with a thermoelectric power generation device through a switching valve, the thermoelectric power generation device comprises a bent pipe, a thermoelectric power generation piece and a cooling water jacket, the thermoelectric power generation piece is externally arranged on the bent pipe, the cooling water jacket is sleeved outside the thermoelectric power generation piece, the lower end of the bent pipe is connected with the switching valve, and the thermoelectric power generation piece is connected with a storage battery.
2. The novel air conditioner energy storage system based on thermoelectric power generation as claimed in claim 1, wherein: the temperature difference power generation sheet is connected with the storage battery through the booster circuit.
3. The novel air conditioner energy storage system based on thermoelectric power generation as claimed in claim 1 or 2, wherein: the storage battery is also connected with an outdoor solar power generation panel.
4. The novel air conditioner energy storage system based on thermoelectric power generation as claimed in claim 1, wherein: the thermoelectric power generation piece adopts the power generation piece that the material is different in proper order to concatenate along return bend extending direction.
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CN202120650650.6U CN215216524U (en) | 2021-03-31 | 2021-03-31 | Novel air conditioner energy storage system based on thermoelectric generation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113028538A (en) * | 2021-03-31 | 2021-06-25 | 江苏兆胜空调有限公司 | Novel air conditioner energy storage system based on thermoelectric generation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113028538A (en) * | 2021-03-31 | 2021-06-25 | 江苏兆胜空调有限公司 | Novel air conditioner energy storage system based on thermoelectric generation |
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