Healthy comfortable energy-saving air conditioner and air treating method

An air conditioner and comfortable technology, applied in air conditioning systems, heating methods, evaporators/condensers, etc., can solve the problems of low, only large warm air to keep out the cold, high outlet air temperature, insufficient dehumidification, etc., to improve dehumidification. effect, efficient heat exchange, energy reduction effect

Active Publication Date: 2012-11-07
GUANGDONG PHNIX ECO ENERGY SOLUTION
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When the traditional air conditioner cools the air and dehumidifies it, the dehumidification condensation temperature can only follow the outlet air temperature. The temperature of the outlet air directly affects the dehumidification effect. In hot weather, it will be limited by the cooling power to make the outlet air temperature higher, resulting in insufficient dehumidification.
In low-temperature weather, especially in wet and cold seasons, using an air conditioner to dehumidify will result in lower indoor temperature. But this will lead to a lower temperature inside the car, so we can only turn on the warm air to keep out the cold, so there is a contradiction between cooling and blowing hot air in the same space at the same time, which greatly increases energy consumption. This problem has not been solved so far.

Method used

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  • Healthy comfortable energy-saving air conditioner and air treating method
  • Healthy comfortable energy-saving air conditioner and air treating method
  • Healthy comfortable energy-saving air conditioner and air treating method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment

[0036] Example: such as Figure 1 to Figure 6As shown, a healthy, comfortable and energy-saving air conditioner includes a combined evaporator 4, a defogging chamber 7, a water mist barrier net 8, a water outlet 9, and a heat exchange cycle device that can provide a heat exchange medium; the internal design of the combined evaporator There are a plurality of intake passages 14 and return air passages 15 adjacent to each other, and the top of the intake passage 14 and the return air passage 15 are correspondingly provided with an intake inlet 17 and a return air outlet 20, and the intake passages The bottom of 14 and the bottom of the return air passage 15 are correspondingly provided with an air intake outlet 19 and a return air inlet 21; the multi-section dehumidification heat pipe 10 runs through the bottom of the air intake passage 14 and the bottom of the return air passage 15, and the multi-section air outlet heat pipe 13 Through the top of the air intake channel 14 and t...

Embodiment 2

[0078] Embodiment 2: as Figure 7 to Figure 11 shown. The air intake inlet 17 and the return air outlet 20 are respectively arranged on the top of the air intake passage and the return air passage, and the air intake outlet 19 and the return air inlet 21 are respectively arranged on the intake passage, the return air passage respectively. the bottom of the channel.

[0079] The central point of the air inlet 17 and the central point of the air intake outlet 19 of each air intake passage is the first connection line, the central point of the return air inlet 21 of the adjacent return air passage of the air intake passage and the return air The connecting line of the central points of the gas outlet 20 is the second connecting line, the first connecting line produces an orthographic projection on the vertical plane passing through the second connecting line, and the orthographic projection intersects the second connecting line. A vertical plane is a plane perpendicular to a ho...

Embodiment 3

[0080] Embodiment 3: The heat exchange cycle circuit of the heat exchange cycle device is composed of a heat exchange cycle main circuit and a heat exchange cycle branch. connect.

[0081] In addition, the walls closest to each other between adjacent air intake passages and return air passages may also be connected into one body. All the other are with embodiment 1.

[0082] Such as Figure 12 As shown, in addition to design needs, multiple columns of intake inlets 17 or intake outlets 19 can also be provided in one intake passage 14 , and a row of return air outlets 20 or return air inlets 21 can be provided in the return air passage 15 . Similarly, multiple rows of return air inlets 21 or multiple rows of return air outlets 20 can also be provided in one return air passage 15 according to design requirements, and a row of air intake outlets 19 or intake inlets 17 can be provided in the air intake passage 14 .

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PUM

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Abstract

The invention discloses a healthy comfortable energy-saving air conditioner which comprises a combined evaporator, a demisting chamber, a water and mist separating net, a water outlet, and a heat-exchange circulating device capable of providing heat exchange medium. A dehumidification heat conduction tube penetrates through lower portions of air inlet channels and air return channels, and the dehumidification heat conduction tube and an air outlet heat conduction tube are respectively connected to a heat-exchange circulation loop of the heat-exchange circulating device. A demisting chamber communicating inside air outlets and returned air inlets is arranged below the combined evaporator, the water and mist separating net for preventing direction communication of the inside air outlets and the returned air inlets is arranged inside the demisting chamber, and the water outlet is communicated with the demisting chamber. The temperature and the humidity of outlet air of the air conditioner can be controlled independently, an air-conditioning mode of 'mainly dehumidification and temperature reduction subsidiary' is realized, healthy and comfortable air with low humidity and suitable temperature is obtained, and environment-friendliness and energy conservation are realized. The invention further discloses an air treating method.

Description

technical field [0001] The invention relates to a healthy, comfortable and energy-saving air conditioner, in particular to an air conditioner capable of independently adjusting the humidity and temperature of the air, which belongs to the technical field of refrigeration. Also relates to the treatment method of air. Background technique [0002] As we all know, using an air conditioner in a hot climate will give people a cool and refreshing feeling, which is due to the fact that the air conditioner reduces the temperature and humidity of the environment. Traditional air conditioners mainly focus on cooling the air. While cooling down, the lower surface temperature of the evaporator is used to dehumidify the passing air. In fact, dehumidification is only a side function of the air conditioner. When the traditional air conditioner cools the air and dehumidifies it, the dehumidification condensation temperature can only follow the outlet air temperature. The temperature of the...

Claims

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Application Information

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IPC IPC(8): F24F3/14F24F13/30
CPCF25B39/02F24F3/14F24F3/147F24F13/30F24F3/1405
Inventor 李贤锡
Owner GUANGDONG PHNIX ECO ENERGY SOLUTION
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