CN-224230182-U - Air conditioner

Abstract

The utility model discloses an air conditioner, which comprises a refrigerant circulation system, an energy storage device, an indoor auxiliary heat exchanger, a circulation pipeline, a circulation device and a fan, wherein the refrigerant circulation system comprises a compressor, a four-way valve, an outdoor heat exchanger, a first throttling device and an indoor heat exchanger, the energy storage device is used for receiving and storing energy generated by the outdoor heat exchanger, the indoor auxiliary heat exchanger is configured to exchange energy with indoor air and is connected with the energy storage device through the circulation pipeline, the circulation device is arranged on the circulation pipeline, and the fan is used for generating air flow flowing through the indoor auxiliary heat exchanger. Therefore, the air conditioner can adjust the indoor temperature through the indoor heat exchanger to ensure the comfort of the indoor temperature, and simultaneously receives and stores the energy generated by the outdoor heat exchanger through the energy storage device, and the energy of the energy storage device is circularly used for preparing the indoor auxiliary heat exchanger through the circulating device to adjust the indoor humidity through the indoor auxiliary heat exchanger, so that the comfort of the indoor humidity can be ensured.

Inventors

• ZHAO YUBIN
• LI DONGZHE
• WANG MING

Assignees

• 青岛海信日立空调系统有限公司

Dates

Publication Date

20260512

Application Date

20250424

Claims (10)

1. 1. An air conditioning apparatus comprising: The refrigerant circulation system comprises a compressor, a four-way valve, an outdoor heat exchanger, a first throttling device and an indoor heat exchanger; It is characterized in that the method comprises the steps of, The air conditioner further includes: An energy storage device configured to receive and store energy generated by the outdoor heat exchanger; An indoor auxiliary heat exchanger configured to exchange energy with indoor air; a circulation line configured to connect the indoor auxiliary heat exchanger and the energy storage device; A circulation device configured to generate circulation power, the circulation device being located on a circulation line between the energy storage device and the indoor auxiliary heat exchanger; A fan configured to generate an airflow through the indoor auxiliary heat exchanger.
2. 2. The air conditioning apparatus according to claim 1, further comprising: a heat pipe for receiving energy generated by the outdoor heat exchanger; and the energy storage device is connected with the heat pipe and receives energy generated by the heat pipe.
3. 3. The air conditioning apparatus according to claim 2, further comprising: An outdoor fan for generating an air flow through the outdoor heat exchanger; the heat pipe is located in the vicinity of the outdoor heat exchanger, and the heat pipe is located downstream of the outdoor heat exchanger in the air flow direction.
4. 4. The air conditioning apparatus according to claim 1, further comprising: an energy storage circulation line configured to connect the outdoor heat exchanger and the energy storage device; An energy storage circulation device configured to generate energy storage circulation power, the energy storage circulation device being located on a circulation pipeline between the outdoor heat exchanger and the energy storage device.
5. 5. The air conditioner according to claim 1, wherein the blower includes: An indoor fan configured to generate an airflow through the indoor auxiliary heat exchanger and the indoor heat exchanger; Or the fan comprises: an indoor fan configured to generate an airflow through the indoor heat exchanger; An auxiliary fan configured to generate an air flow through the indoor auxiliary heat exchanger.
6. 6. The air conditioning apparatus according to claim 1, further comprising: And an exhaust fan configured to exhaust the indoor air to the outside.
7. 7. The air conditioning apparatus according to claim 6, further comprising: And an exhaust air duct communicating the exhaust fan and the outdoor heat exchanger, the exhaust air duct configured to exhaust the indoor air to the outdoor heat exchanger.
8. 8. The air conditioning apparatus according to claim 6, further comprising: the indoor heat exchanger, the indoor auxiliary heat exchanger, the fan and the exhaust fan are positioned in the indoor machine shell; The air outlet is positioned at the bottom of the indoor unit shell; The air return opening is positioned at the bottom of the indoor unit shell and between the fan and the exhaust fan.
9. 9. An air conditioning unit according to any of claims 1-8, characterized in that the air conditioning unit further comprises: a heat exchanger and a second throttling device connected to the refrigerant circulation system; and the water circulation system is configured to exchange heat with the heat exchanger.
10. 10. The air conditioning apparatus according to claim 9, further comprising: and the heat exchanger and the indoor heat exchanger are connected to the refrigerant circulation system through the switch device.

Description

Air conditioner Technical Field The utility model relates to the technical field of air conditioning devices, in particular to an air conditioning device with an energy storage function. Background In order to ensure the proper environment temperature and humidity after bath in the bath process, an air conditioner is arranged in the bathroom to control the temperature and the humidity, thereby improving the comfort of use. The indoor heat exchanger heats in the bath process to ensure the bath temperature. After bathing, a large amount of water vapor exists in the bathroom, and moist air stays in the bathroom for a long time, so that on one hand, the air humidity is increased, and on the other hand, the water vapor is easy to form condensation on the surfaces of suspended ceilings, walls, mirrors, cabinets or electrical equipment and the like. For a long time, the above-mentioned areas, furniture and the like are liable to be moldy, bacteria are grown, and electrical appliances are liable to be short-circuited. In the prior art, indoor heat exchangers are typically controlled to cool after showering to dehumidify the room. The above information disclosed in this background section is only for enhancement of understanding of the background section of the application and therefore it may not form the prior art that is already known to those of ordinary skill in the art. Disclosure of Invention The utility model provides an air conditioner, which solves the technical problem of energy waste caused by indoor dehumidification through indoor heat exchanger refrigeration after shower of the existing air conditioner. In order to achieve the aim of the utility model, the utility model is realized by adopting the following technical scheme: an air conditioning apparatus comprising: The refrigerant circulation system comprises a compressor, a four-way valve, an outdoor heat exchanger, a first throttling device and an indoor heat exchanger; The air conditioner further includes: An energy storage device configured to receive and store energy generated by the outdoor heat exchanger; An indoor auxiliary heat exchanger configured to exchange energy with indoor air; a circulation line configured to connect the indoor auxiliary heat exchanger and the energy storage device; A circulation device configured to generate circulation power, the circulation device being located on a circulation line between the energy storage device and the indoor auxiliary heat exchanger; A fan configured to generate an airflow through the indoor auxiliary heat exchanger. The air conditioner has the advantages that the air conditioner comprises a refrigerant circulation system, an energy storage device, an indoor auxiliary heat exchanger, a circulation pipeline, a circulation device and a fan, the refrigerant circulation system comprises a compressor, a four-way valve, an outdoor heat exchanger, a first throttling device and an indoor heat exchanger, the energy storage device receives and stores energy generated by the outdoor heat exchanger, the indoor auxiliary heat exchanger is configured to exchange energy with indoor air and is connected with the energy storage device through the circulation pipeline, the circulation device is arranged on the circulation pipeline, and the fan generates air flow flowing through the indoor auxiliary heat exchanger. Therefore, the air conditioner can adjust the indoor temperature through the indoor heat exchanger to ensure the comfort of the indoor temperature, and simultaneously receives and stores the energy generated by the outdoor heat exchanger through the energy storage device, and the energy of the energy storage device is circularly used for preparing the indoor auxiliary heat exchanger through the circulating device to adjust the indoor humidity through the indoor auxiliary heat exchanger, so that the comfort of the indoor humidity can be ensured. In some embodiments, the air conditioning apparatus further comprises: a heat pipe for receiving energy generated by the outdoor heat exchanger; and the energy storage device is connected with the heat pipe and receives energy generated by the heat pipe. The technical scheme has the advantages that the energy generated by the outdoor heat exchanger is rapidly transferred to the energy storage device through the heat pipe, and the energy transfer efficiency is improved. In some embodiments, the air conditioning apparatus further comprises: An outdoor fan for generating an air flow through the outdoor heat exchanger; the heat pipe is located in the vicinity of the outdoor heat exchanger, and the heat pipe is located downstream of the outdoor heat exchanger in the air flow direction. The technical scheme has the advantages that the heat pipe is positioned at the downstream of the outdoor heat exchanger in the air flow direction so as to be beneficial to receiving energy generated by the outdoor heat exchanger. In some embodiments, the air conditioning apparatus fu