CN207797258U - A kind of dehumidification heat exchange - Google Patents

Abstract

The utility model is related to a kind of dehumidification heat exchanges, it is characterised in that：Including shell, heat exchanger tube and capillary wick, the shell includes air inlet and air outlet, the heat exchanger tube is U-shaped, heat exchanger tube is fixed in shell, the both sides of U-shaped are separately positioned on air outlet and the air inlet position of shell, and the heat exchange pipe internal surface covers capillary wick, and the advantageous effect generated is, Non-energy-consumption does not need any power part.Pollution-free, environmental protection, which is protected, to be situated between.Without maintenance, self cycle.

Description

A kind of dehumidification heat exchange

Technical field

The utility model is related to indoor air dehumidification field more particularly to a kind of dehumidification heat exchanges.

Background technology

Existing dehumidifying technology is mostly two kinds of freeze drying and rotary wheel dehumidifying, this two kinds dehumidifying is all energy-consuming product, cold Freeze the principle that cool-down dehumidification has been used in dehumidifying, rotary wheel dehumidifying has used the principle of absorption, and heat tube moisture does not need additional energy Consumption achievees the purpose that dehumidifying by the principle of the dehumidifying of spontaneous evaporation absorbing and cooling temperature, autocondensation heat release temperature adjustment.

Utility model content

The purpose of this utility model is to provide one kind.

To achieve the above object, the dehumidification heat exchange of the utility model, it is characterised in that：Including shell, heat exchanger tube and hair Thin liquid-sucking core, the shell include air inlet and air outlet, and the heat exchanger tube is U-shaped, and heat exchanger tube is fixed in shell, U-shaped The both sides of shape are separately positioned on air outlet and the air inlet position of shell, and the heat exchange pipe internal surface covers capillary wick.

Preferably, the capillary wick is that the metallic fibrous layer superimposing braid of reticular structure is knitted.

Further, the U-shaped heat exchanger tube is stacked in shell.

The present apparatus mainly has the advantage that：

1, gas-liquid transfer is realized by liquid-sucking core, has accomplished Non-energy-consumption, has not needed any power part.2, internal cycle nothing Pollution, environmental protection, which is protected, to be situated between.3, without maintenance, self cycle.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model.

In figure：1 is shell, and 2 be heat exchanger tube, and 3 be liquid-sucking core, and 4 be steam channel, and 5 be air inlet, and 6 be air outlet, and 7 are Middle partition board.

Specific implementation mode

As shown in Figure 1, the dehumidification heat exchange of the utility model, is mainly inhaled by shell 1, middle partition board 7, heat exchanger tube 2 and capillary Wick-containing 3 forms, and the both sides of middle casing 1 are respectively equipped with air inlet 5 and air outlet 6, and heat exchanger tube 2 is U-shaped hollow pipe, heat exchanger tube Capillary wick 3 is covered on 2 inner surfaces, capillary wick 3 has the metallic fibrous layer superimposing braid of reticular structure to knit, hollow pipe Central steam channel 4.

Multiple heat exchanger tubes 2 are stacked inside shell 1, and middle partition board 7 is arranged in the centre position of U-shaped heat exchanger tube 2, will Heat exchanger tube 2 divides for upper and lower two parts, and the both sides of heat exchanger tube 2U fonts are divided into evaporator section and condensation segment, and the setting of evaporator section side exists 5 position of air inlet of shell 1, condensation segment side are arranged in 6 position of air outlet.2 outer surface material of heat exchanger tube is copper, aluminium is compound Pipe, inner surface are copper pipe, and heat pipe outer surface is equipped with aluminum fin-stock

In actual use, the higher air of temperature enters from air inlet 5 in shell 1 the utility model, passes through simultaneously The evaporator section of U-shaped heat exchanger tube 2 is crossed, the low-boiling point liquid in evaporator section contacts heat absorption evaporation, air with heat exchanger tube 2 due to air Temperature reduces, and the vapor in air is condensed into drop and convergence of falling, by air dewetting.

At the same time, evaporator section liquid gasification in heat exchanger tube 2, in heat exchanger tube 2 air pressure of evaporator section increase, gas is in air pressure Under effect, the lower condensation segment of air pressure is automatically moved to from steam channel 4.

And the air for passing through evaporator section is reduced to low temperature and pass through condensation segment, low-boiling point liquid, which gasifies, in condensation segment to form Since Cryogenic air and heat exchanger tube 2 contact heat release and be liquefied as liquid, air themperature increases steam, and enters from 6 position of air outlet Interior reaches dehumidifying purpose.

At the same time, the liquid in heat exchanger tube 2 is automatically transferred under the action of capillary wick 3 in capillary wick 3 The less evaporator section of content liquid participates in heat absorption evaporation process, repeats the above process, reach the mesh constantly to air dewetting again 's.

Claims (5)

1. a kind of dehumidification heat exchange, it is characterised in that：Including shell（1）, heat exchanger tube（2）And capillary wick（3）, the shell Including air inlet（5）And air outlet（6）, the heat exchanger tube（2）For U-shaped hollow pipe, heat exchanger tube（2）It is fixed in shell, U-shaped The both sides of shape are separately positioned on air outlet and the air inlet position of shell, and the heat exchange pipe internal surface covers capillary wick, in Heart hollow parts are steam channel（4）.

2. dehumidification heat exchange according to claim 1, it is characterised in that：The capillary wick（3）For reticular structure Metallic fibrous layer superimposing braid is knitted.

3. dehumidification heat exchange according to claim 1, it is characterised in that：The U-shaped heat exchanger tube（2）It is stacked in shell In vivo.

4. dehumidification heat exchange according to claim 1, it is characterised in that：The heat exchanger tube（2）Outer surface material is copper, aluminium Multiple tube, inner surface are copper pipe, and heat pipe outer surface is equipped with aluminum fin-stock.

5. dehumidification heat exchange according to claim 1, it is characterised in that：It further include middle partition board（7）, the middle partition board（7） It is arranged in U-shaped heat exchanger tube（2）Centre position, by heat exchanger tube（2）It is divided into upper and lower two parts.