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Air conditioner and control method thereof

An air conditioner, refrigeration and heating technology, applied in the direction of heating and ventilation control systems, refrigerators, heating methods, etc., can solve the problems of ignoring the comfort requirements of rapid cooling and heating, slow heating in winter, and decreased energy efficiency ratio, etc. Achieve the effect of improving the energy efficiency ratio of the heat pump and the economic performance of the system, solving the matching problem of the throttling parts system, and overcoming the slow cooling

Active Publication Date: 2014-01-22
MIDEA GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When running in winter, the heating demand cannot be met with the same capillary throttling parts, and the energy efficiency ratio will drop
Especially after the implementation of APF (Annual Performance Factor, annual energy efficiency consumption rate), the design of air conditioners should comprehensively consider the needs of cooling and heating, and the current throttling components of the system cannot meet the needs of APF
In addition, the design of the throttling parts of the current air conditioning system only considers the energy efficiency requirements of the system, but ignores the comfort requirements of rapid cooling and heating, which leads to the disadvantages of slow cooling in summer and slow heating in winter
[0003] It can be seen that the design of capillary throttling parts in current air conditioners not only cannot meet the needs of APF, but also cannot meet people's needs for rapid cooling and heating of air conditioners.

Method used

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  • Air conditioner and control method thereof
  • Air conditioner and control method thereof
  • Air conditioner and control method thereof

Examples

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Effect test

Embodiment 1

[0065] Such as figure 1 As shown, a first embodiment of an air conditioner of the present invention is proposed. The air conditioner of this embodiment includes an outdoor heat exchanger 11, a compressor 12, a four-way valve 13, an indoor heat exchanger 14, and a throttling device 15a; the outdoor heat exchanger 11, the compressor 12, the four-way valve 13, The indoor heat exchanger 14 and the throttling device 15a are connected by pipelines to form a closed air-conditioning circulation system. Wherein, the throttling device 15a further includes a first capillary 1511a, a second capillary 1512a, a first electromagnetic valve 1521a, and a second electromagnetic valve 1522a. The first capillary 1511a and the first electromagnetic valve 1521a are connected in series through a pipeline to form a first throttling branch, the second capillary 1512a and the second electromagnetic valve 1522a are connected in series to form a second throttling branch, and the first throttling branch ...

Embodiment 2

[0068] Such as figure 2 As shown, a second embodiment of the air conditioner of the present invention is proposed. In this embodiment, the same parts as those in the first embodiment will not be described here. The difference from the first embodiment is that the throttling device 15b in the second embodiment includes a first capillary 1511b, a second capillary 1512b, a third capillary 1513b, a first solenoid valve 1521b, and a second solenoid valve 1522b; The capillary 1511b alone forms the first throttling branch, the second capillary 1512b and the third capillary 1513b are connected in series to form the second throttling branch, and the first throttling branch and the second throttling branch are connected in parallel. At the same time, one end of the second capillary 1512b is connected to the indoor heat exchanger 14 through a pipe, and the first solenoid valve 1521b bypasses the second capillary 1512b. One end of the third capillary 1513b is connected to the outdoor h...

Embodiment 3

[0071] Such as image 3 As shown, a second embodiment of the air conditioner of the present invention is proposed. In this embodiment, the same parts as those in Embodiment 1 and Embodiment 2 will not be described here. The difference in this embodiment is that the throttling device 15c includes a first capillary 1511c, a second capillary 1512c, a third capillary 1513c, a first solenoid valve 1521c, and a second solenoid valve 1522c; the first capillary 1511c alone constitutes the first joint In the flow branch, the second capillary 1512c, the first electromagnetic valve 1521c and the second capillary 1512c are sequentially connected in series through pipelines to form a second throttling branch, and the first throttling branch and the second throttling branch are connected in parallel. One end of the second capillary 1512c is connected to the indoor heat exchanger 14 through a pipeline, and one end of the third capillary 1513c is connected to the outdoor heat exchanger 11 th...

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Abstract

The invention discloses an air conditioner. The air conditioner comprises an outdoor heat exchanger, a compressor, a four-way valve, an indoor heat exchanger and a throttling device, wherein the outdoor heat exchanger, the compressor, the four-way valve, the indoor heat exchanger and the throttling device are sequentially connected through pipelines to form a circulation passageway. The throttling device comprises throttling passageways used for being matched with different sizes of flow, wherein one of the throttling passageways is a rapid refrigeration and rapid heating passageway. The air conditioner further comprises an indoor environment temperature sensor and a controller electrically connected with the indoor environment temperature sensor, wherein the controller is selectively communicated with the corresponding throttling passageway according to temperature changes detected by the indoor environment temperature sensor. The invention further discloses a control method of the air conditioner. The air conditioner meets the APF requirement, the instant refrigeration requirement and the instant heating requirement.

Description

technical field [0001] The invention relates to the field of air conditioners, in particular to an air conditioner and a control method thereof that meet not only the requirements of APF but also the requirements of rapid cooling and heating. Background technique [0002] The current inverter air conditioner is designed according to the seasonal energy efficiency ratio. When operating in summer and transitional seasons, the capillary throttling and the system can be well matched. When running in winter, the same capillary throttling parts cannot meet the heating demand, and the energy efficiency ratio will drop. Especially after the implementation of APF (Annual Performance Factor, the annual energy efficiency consumption rate), the design of air conditioners should comprehensively consider the needs of cooling and heating, and the current throttling components of the system cannot meet the needs of APF. In addition, the design of the throttling parts of the current air-con...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24F11/00F25B41/06F25B41/37
CPCY02B30/72Y02B30/70
Inventor 屈金祥唐亚林徐志亮陈超新张桃李文博
Owner MIDEA GRP CO LTD
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