Load self-adaption capillary tube air supply tail end system for partition air conditioner
A capillary and self-adaptive technology, applied in heating and ventilation control systems, heating and ventilation safety systems, space heating and ventilation, etc., can solve the problems of low heat transfer efficiency and inability to perform real-time automatic adjustment of the air barrier system, and achieve Improves air barrier effect, reduces stagnation, and improves heat transfer efficiency
Active Publication Date: 2017-09-05
UNIV OF SHANGHAI FOR SCI & TECH
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Problems solved by technology
[0003] The purpose of the present invention is to solve the problem of low heat exchange efficiency of the above-mentioned air barrier system and the incapability of real-time automatic adjustment, and the purpose is to provide a load-adaptive capillary air supply terminal system for partition air conditioning
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[0036] In order to make the technical means, creative features, goals and effects of the present invention easy to understand, the following embodiments are useful for the composition, working principle and benefits of the load-adaptive capillary air supply terminal system for partitioned air conditioners provided by the present invention in conjunction with the accompanying drawings. The effect is described in detail.
[0037] figure 1 It is a structural schematic diagram of the load self-adaptive capillary tube air supply terminal system for zoned air conditioners of the present invention.
[0038] Such as figure 1 As shown, the load-adaptive capillary air supply terminal system 1000 for partitioned air-conditioning in this embodiment includes a load-adaptive control subsystem 200 for real-time automatic adjustment of the temperature of the outer zone, an air supply mixing subsystem 120, and a water supply mixing subsystem 130 and the capillary air supply terminal device 1...
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The invention relates to a load self-adaption capillary tube air supply tail end system for a partition air conditioner. The load self-adaption capillary tube air supply tail end system comprises a control subsystem and a capillary tube air supply tail end device. The capillary tube air supply tail end device comprises a cuboid heat exchanger, two rectangular guide plates, a capillary tube net device, at least one fan, a water dividing and collecting pipe, a return water supply pipe, a supply air mixing subsystem and a return water supply mixing subsystem; a rectangular air supply opening penetrating the long edge is formed in the upper wall of the cuboid heat exchanger, and an upper round water supply hole, a middle round water supply hole and a lower round water supply hole are formed in the front wall of the cuboid heat exchanger; the two rectangular guide plates are vertically fixed to the two sides of the air supply opening in the long edge direction of the rectangular air supply opening; the capillary tube net device is located under the air supply opening; the at least one fan is arranged in a linear manner and is arranged on the left wall or the right wall of the cuboid heat exchanger; the water dividing and collecting pipe is located on the front wall of the heat exchanger, and one end of the water dividing and collecting pipe is communicated with the capillary tube net device; the return water supply pipe is located on the front wall of the heat exchanger and is communicated with the water dividing and collecting pipe; the air outlet end of the supply air mixing subsystem is connected to the middle round water supply hole, and the air inlet end of the supply air mixing subsystem is connected with an internal zone air supply system; and the water inlet end of the return water supply mixing subsystem is connected with an internal zone water supply circulation system, and the water outlet end of the return water supply mixing subsystem is connected to the return water supply pipe.
Description
technical field [0001] The invention relates to a capillary air supply terminal system, in particular to a load self-adaptive capillary air supply terminal system for partition air conditioners, and belongs to the field of building environment and equipment automatic control. Background technique [0002] At present, the zonal air-conditioning system divides the air-conditioning area according to the difference in cooling or heating loads, and realizes the zoning control of the thermal environment in the inner and outer areas. However, with the change of time, the outdoor temperature, solar radiation angle and wind direction all change greatly, resulting in large load fluctuations in the outer area and poor uniformity of temperature distribution. At present, many external air-conditioning systems mainly use ordinary heat exchangers for air treatment, which are responsible for blocking and balancing the cold or heat load of the outer enclosure structure, reducing the indoor c...
Claims
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IPC IPC(8): F24F13/06F24F11/00
CPCF24F13/06Y02B30/70
Inventor 曹双华吴璐张鹏超林菁王宇
Owner UNIV OF SHANGHAI FOR SCI & TECH