Energy-saving control method for auxiliary temperature-reducing heat-exchange device of air conditioner

A heat exchange device and energy-saving control technology, which is applied in the energy-saving control of air-conditioning auxiliary cooling heat exchange devices and the control field of auxiliary cooling heat exchange devices, which can solve design difficulties, different versions, and difficulty in finding auxiliary cooling heat exchange devices, etc. problems, to achieve the effect of strengthening adaptability and versatility

Active Publication Date: 2009-09-02
MIDEA GRP CO LTD
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  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In terms of equipment configuration, except that newly added equipment rooms will be equipped with air conditioners and auxiliary cooling heat exchange devices at the same time, a large number of equipment purchases are to add auxiliary cooling heat exchange devices on the basis of the original air conditioners. The company purchases, and the ba

Method used

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  • Energy-saving control method for auxiliary temperature-reducing heat-exchange device of air conditioner
  • Energy-saving control method for auxiliary temperature-reducing heat-exchange device of air conditioner
  • Energy-saving control method for auxiliary temperature-reducing heat-exchange device of air conditioner

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Embodiment 1

[0019] Embodiment 1 is an auxiliary cooling heat exchange device using the control method disclosed in the present invention. The auxiliary cooling heat exchange device is installed inside or outside the room, and includes an indoor air fan, a heat exchanger and an outdoor air fan. The two fans are respectively Drive the indoor and outdoor air to exchange heat in the heat exchanger, so that the air with a low outdoor temperature can take the heat out of the room, thereby reducing the temperature in the room. Wherein the heat exchanger is an air-air heat exchanger, including flat plate stacked heat exchangers, parallel flow channel heat exchangers, wheel air heat exchangers and heat pipe heat exchangers, preferably flat plate stacked heat exchangers and heat pipe heat exchangers switch. The heat exchanger in the first embodiment adopts a laminated flat plate heat exchanger. Such as figure 1 As shown, the abscissa in the figure is the temperature difference between indoor and ...

Embodiment 2

[0027] Embodiment 2 is an auxiliary cooling heat exchange device that adopts multiple operating modes. There are nine operating modes, that is, the wind speeds of the indoor and outdoor circulation fans are: outer high and inner high E11, outer high and inner middle E12, outer high and inner low E13, outer middle and inner high E21, outer middle and inner middle E22, outer middle and inner low E23, outer low and inner high E31, outer low and inner middle E32, outer low and inner low E33, the operation steps of the auxiliary cooling heat exchange device include:

[0028] a. Choose to enter the energy-saving heat exchange mode;

[0029] b. Measure the indoor air temperature T inside and the outdoor air temperature T outside, and calculate the temperature difference T between indoor and outdoor;

[0030] c. According to the temperature difference-energy efficiency ratio diagrams in the nine different operation modes of the auxiliary cooling heat exchange device, namely figure 2...

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Abstract

The invention discloses an energy-saving control method for an auxiliary temperature-reducing heat-exchange device of an air conditioner. The auxiliary temperature-reducing heat-exchange device comprises an indoor air fan, a heat exchanger and an outdoor air fan, wherein the two fans drive the air indoors and outdoors to perform heat exchange in the heat exchanger respectively, exchange the cooling capacity of the outdoor air to the indoor air, and take the indoor heat out at the same time. The energy-saving control method for the auxiliary temperature-reducing heat-exchange device comprises the following steps of: a, selecting to enter an energy-saving heat-exchange mode; b, measuring the temperature of the indoor air and the temperature of the outdoor air, and calculating the temperature difference between indoors and outdoors; and c, finding the energy efficiency ratio of the auxiliary temperature-reducing heat-exchange device during the temperature difference between indoors and outdoors according to a temperature difference-energy efficiency ration chart of the air conditioner, and starting or shutting the auxiliary temperature-reducing heat-exchange device. The method can accurately judge the most energy-saving starting/stopping time of the auxiliary temperature-reducing heat-exchange device, thereby realizing high efficiency and energy conservation; at the same time, the method can ensure that the auxiliary temperature-reducing heat-exchange device better adapts to different air-conditioning equipment and is matched with the air-conditioning equipment for using; and the method strengthens the adaptability and the universality of the auxiliary temperature-reducing heat-exchange device.

Description

technical field [0001] The invention relates to the technical field of indoor space cooling, in particular to an energy-saving control method for an auxiliary cooling and heat exchange device of an air conditioner, which is mainly applicable to the control of the auxiliary cooling and heat exchange device in a room with a cooling load demand throughout the year, that is, for the outdoor The cold energy of the air is exchanged to the indoor air to reduce the indoor temperature. Background technique [0002] At present, for the design of rooms with cooling load throughout the year, air conditioning is often used to reduce the indoor temperature and make the equipment operate in a suitable temperature range. Taking the communication base station as an example, in order to save energy and reduce consumption, it began to adopt the method of air conditioning + fresh air. In winter and spring and autumn, when the outdoor temperature is relatively low, the outdoor low-temperature ai...

Claims

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Application Information

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IPC IPC(8): F24F11/00G05B19/04
Inventor 姜凤华刘阳程宏理易万权刘智勇李丽岭曾兴旺
Owner MIDEA GRP CO LTD
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