CN103212277A - Dehumidifier - Google Patents

Abstract

The invention discloses a dehumidifier which comprises a dehumidifying fan, a regenerated fan and a humidity absorption rotary disc, wherein the front side and the rear side of the humidity absorption rotary disc are provided with energy recovery devices; each energy recovery device comprises a heat exchanger for heat recovery and a heat exchanger for condensation; the length of a pipe bundle for heat recovery in the heat exchanger for heat recovery is smaller than the length of a pipe bundle for condensation; and the heat exchanger for heat recovery and the heat exchanger for condensation are communicated through a communication hole in a baffle plate. The dehumidifier has high heat exchange efficiency, further increases the surface area of heat exchange through increasing the lengths of the pipe bundle for condensation and the pipe bundle for heat recovery much conveniently, improves the heat exchange efficiency, meanwhile enables the connection between a motor shaft and the fan to become elastic connection by utilizing a rubber ring, reduces shock, and lowers noise.

Description

A kind of dehumidifier

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Technical field

The present invention relates to a kind of dehumidifier, belong to the dehumidifier field.

Background technology

As shown in Figure 1, for a long time, dehumidifier all is to adopt the structure with dehumidifying path X and regeneration path Y, and has by electric motor driven rotatable moisture absorption rotating disk 2.The air that this dehumidifying path X should dehumidify by means of dehumidifying fan 3 (i.e. dehumidifying air) imports in the dehumidifier 1 from the outside, dehumidify by moisture absorption rotating disk 2, and the air after will dehumidifying is discharged.This regeneration path Y is used in and allows the regeneration of moisture absorption rotating disk 2 regeneration be circulated with air, and constantly takes and be condensed into the moisture in the moisture absorption rotating disk 2 out of condensed water.

This regeneration path Y has the regeneration fan 4 of the regeneration of driving with the air seal circulation, to the heater 5 that heats with air by the regeneration before the moisture absorption rotating disk 2, and cooling by the regeneration after the moisture absorption rotating disk 2 with air and the condensation that makes its condensation with heat exchanger 6.In addition, in regeneration path Y, be provided with recuperation of heat heat exchanger 7, this recuperation of heat utilizes by the high temperature of the regeneration after the moisture absorption rotating disk 2 with air with heat exchanger 7, gives by the regeneration air heat before the moisture absorption rotating disk 2, reduces the electric power that heater 5 consumes.

Moisture absorption rotating disk 2 is contained in the disk shell 31, with given speed rotation.Disk shell 31 is divided into dehumidifying and uses peristome 39 with peristome 38 with regenerating, and dehumidifying is passed through wherein respectively with air with regenerating with air.Dehumidifying with peristome 38 in the path way of dehumidifying path X, along the given angle scope opening of the rotor rotary area of moisture absorption rotating disk 2.Regeneration uses peristome 39 in the path way of regeneration path Y, along given angle scope opening.

When dehumidifying sucks in the dehumidifier 1 with air by dehumidifying path X, with peristome 38, at this moment,, dehumidify, then it is discharged to the outside by 2 moisture absorptions of moisture absorption rotating disk by dehumidifying.On the other hand, moisture absorption the rotation of part by moisture absorption rotating disk 2 of moisture of moisture absorption rotating disk 2 enter regeneration with peristome 39 from dehumidifying with peristome 38, whereby, and utilize regeneration air to regenerate, the moisture of moisture absorption is dispersed.Moisture after being dispersed by moisture absorption rotating disk 2 becomes steam, and through the internal flow of regeneration path, by condensation with heat exchanger 6 coolings, become condensed water after, drip to downwards on the condensed water pallet, collect by water storage tank 26.

Existing dehumidifier with said structure, its recuperation of heat is less with the contact area of heat exchanger 6 with heat exchanger 7 and condensation, causes cold and hot air can not finish heat exchange fully in heat exchanger, and recovery with the air waste heat is unfavorable for regenerating.Especially condensation can not fully be come out regeneration with heat exchanger 6 with airborne condensate moisture.Regeneration has a large amount of moisture after passing through moisture absorption rotating disk 2 with air, the recuperation of heat that these moisture are positioned in existing dehumidifier above the moisture absorption rotating disk 2 just may condense into condensed water and fall back to the moisture absorption rotating disk downwards with heat exchanger 7, influences the effect of the regeneration of moisture absorption rotating disk.And the employed fan of existing dehumidifier is without any glissando, and vibrations are bigger when causing its rotation.

Summary of the invention

Goal of the invention: the present invention proposes a kind of dehumidifier, can realize better dehumidifying with the heat exchange between air and the regeneration usefulness air.

Technical scheme: the technical solution used in the present invention is a kind of dehumidifier, comprise dehumidifying fan, regeneration fan and moisture absorption rotating disk, axial side at the moisture absorption rotating disk is provided with energy recycle device, this energy recycle device comprises recuperation of heat heat exchanger and condensation heat exchanger, described recuperation of heat is shorter with tube bank than condensation with the length of tube bank with the recuperation of heat in the heat exchanger, recuperation of heat with heat exchanger and condensation with being communicated with between the heat exchanger.

As a further improvement on the present invention, described energy recycle device comprises framework, and this framework is in the form of annular discs, and its sectional area is identical with the moisture absorption rotating disk.Be provided with dividing plate in the described framework, recuperation of heat is respectively charged in the space that is separated out by dividing plate with heat exchanger with heat exchanger and condensation, and is communicated with by the intercommunicating pore that is positioned on the dividing plate.

As a further improvement on the present invention, this dehumidifier also has the second dehumidifying blower-casting.Be provided with the groove of parabolic shape in the described second dehumidifying blower-casting, with direct dehumidified flowing with air.

Further improve as of the present invention, described dehumidifying fan and regeneration fan are fixed on the machine shaft by flexibly connecting.Described flexibly connecting to connecting by rubber ring.

Beneficial effect: condensation of the present invention with heat exchanger and recuperation of heat with the heat exchanger energy recycle device of all packing into, this energy recycle device is corresponding with the front side or the rear side of moisture absorption rotating disk, and regeneration can be flowed with short distance between energy recycle device and moisture absorption rotating disk with air with air and dehumidifying.Because with between heat exchanger and the moisture absorption rotating disk bigger relative area being arranged, making regenerates can more fully finish heat exchange with dehumidifying with air with air with heat exchanger and recuperation of heat in condensation.In actual production, the present invention can further increase the surface area of heat exchange comparatively easily by increasing condensation tube bank and the recuperation of heat length of tube bank, improves heat exchanger effectiveness.Simultaneously, existing recuperation of heat is installed in moisture absorption rotating disk top with heat exchanger, and energy recycle device of the present invention is installed in the front side of moisture absorption rotating disk, avoided existing recuperation of heat with a small amount of condensate return that produces in the heat exchanger in the moisture absorption rotating disk.The present invention uses rubber ring that being connected between motor shaft and the fan become the elasticity connection, has reduced vibrations and has reduced noise.

Description of drawings

Fig. 1 is the fundamental diagram of existing dehumidifier;

Fig. 2 is the decomposition diagram of dehumidifier of the present invention;

Fig. 3 is the decomposition diagram from the dehumidifier of the present invention of front side observation;

Fig. 4 is the decomposition diagram of dehumidifier body of the present invention;

Fig. 5 is the structural representation after each module assembling in the dehumidifier of the present invention;

Fig. 6 is the rearview of flat part of the present invention and moisture absorption rotating disk;

Fig. 7 is the decomposition diagram of energy recycle device of the present invention;

Fig. 8 is the decomposition diagram of energy recycle device of the present invention, moisture absorption rotating disk and flat part;

Fig. 9 is the dehumidify decomposition diagram of fan, discharger and the second dehumidifying blower-casting of the present invention;

Figure 10 is the dehumidify structural representation of fan and regeneration fan of the present invention.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, further illustrate the present invention, should understand these embodiment only is used to the present invention is described and is not used in and limit the scope of the invention, after having read the present invention, those skilled in the art all fall within the application's claims institute restricted portion to the modification of various equivalents of the present invention.

In specification, Figure of description and claims, except offering some clarification on, suck a side that dehumidifies with air with respect to moisture absorption rotating disk 2 and be called " preceding ", " front ", " the place ahead ", " front side " etc.Be called " back ", " back ", " rear ", " rear side " etc. and discharge a side that dehumidifies with air with respect to moisture absorption rotating disk 2.To be called " side ", " side " etc. with the parallel sides of front side and rear side.Institute's drawings attached has all marked the airflow direction of dehumidifying path X with dotted arrow, solid arrow has marked the airflow direction of regeneration path Y.

As shown in Figure 2, dehumidifier of the present invention has protecgulum 21, bonnet 22 and dehumidifier body 30.Protecgulum 21 and bonnet 22 are bolted together mutually and constitute a horizontal wide framework of complete lengthwise, and dehumidifier body 30 just is installed in this framework.The equal opening in the top of protecgulum 21 and bonnet 22 is to hold the outlet 25 that dehumidifying is discharged with air.Be provided with water storage tank 26 below protecgulum 21, this water storage tank 26 is used for storing condensed water.Bonnet 22 is provided with the suction inlet 24 that extraneous air is sucked dehumidifier, and the airflow direction of suction is shown in arrow among Fig. 2, and the air-flow of this suction is the dehumidifying air, and therefore the side with its inflow is defined as " preceding ", as the arrow sign of Fig. 2 bottom.Fig. 3 has provided the exploded view of the dehumidifier of observing from the front side of the present invention.Dehumidifier body 30 is provided with the energy recycle device 67 that is fixed on flat part 35 front sides towards the one side of bonnet 22.Energy recycle device 67 belows are condensed water pallets 34.

As shown in Figure 4, the foremost of dehumidifier body 30 is energy recycle devices 67, and this energy recycle device 67 is installed in the front side of flat part 35.Flat part 35 has the space of the front and back perforation that can hold moisture absorption rotating disk 2, also has corresponding support in this space so that discoid moisture absorption rotating disk 2 to be installed.Rear side at flat part 35 is equipped with the second dehumidifying blower-casting 32b.The space that accommodates dehumidifying fan 3 that connects before and after being provided with in the second dehumidifying blower-casting 32b, the shape size of this spatial accommodation is all corresponding with moisture absorption rotating disk 2.Engages before and after the first dehumidifying blower-casting 32a at the second dehumidifying blower-casting 32b and its rear, will dehumidify fan 3 and be contained in wherein with the coaxial drive motors (not shown) of the fan 3 of dehumidifying.Rear side at the first dehumidifying blower-casting 32a also is equipped with the second regeneration fan housing 33b.The second regeneration fan housing 33b engages and the spatial accommodation of portion's formation within it with the first regeneration fan housing 33a front and back at its rear, and regeneration fan 4 is contained in wherein.The second regeneration fan housing 33b and the first dehumidifying blower-casting 32a are all along the radially corresponding peristome that is provided with perforation, to make things convenient for being connected of drive motors and regeneration fan 4.The second dehumidifying blower-casting top also is equipped with discharger 125.These discharger 125 inside are outlets 25 of up/down perforation, also are provided with the blade of control wind direction in the outlet 25.Fig. 5 has showed the structural representation after dehumidifier body 30 associated components engage.

As shown in Figure 6, the space that connects before and after flat part 35 inside have, this space has held discoid moisture absorption rotating disk 2.Be provided with honeycomb-like part in the framework of moisture absorption rotating disk 2, maintain dehumidizers such as zeolite, silica gel, lithium chloride, calcium chloride in this honeycomb-like part.Moisture absorption rotating disk 2 can radially rotate (rotation in common a minute 1 circle) with slower speed in the axle center around it.A bottoming hole 42 is arranged above flat part 35.Regeneration through heating is passed through from this bottoming hole 42 with air.And regeneration air intake duct 40 and regeneration exhaust duct 41 pass through from flat part 35 sides.

Fig. 7 has showed the composition structure of energy recycle device 67.This energy recycle device 67 has comprised framework 50.Framework 50 is circular ring structures of a hollow, and the part of hollow is divided into three equal spaces by three dividing plates 53, wherein also is provided with rectangular intercommunicating pore 51 on two dividing plates.Recuperation of heat is housed with heat exchanger and condensation heat exchanger in the framework 50.Heat exchanger comprises that recuperation of heat is with heat exchanger and condensation heat exchanger.Condensation is made up of identical two parts with heat exchanger, and each part is respectively charged in other interior two spaces of framework 50.Each condensation with heat exchanger by condensation with 47, condensations of tube bank before supporting wall 46 after supporting wall 49 and the condensation.Along more forward, condensation just can cover intercommunicating pore 51 with tube bank 47 to supporting wall 49 like this than the front of intercommunicating pore 51 before the condensation.Recuperation of heat with heat exchanger by recuperation of heat with restrain 48, before the recuperation of heat after supporting wall 54 and the recuperation of heat supporting wall 55 form.Wherein recuperation of heat is shorter with tube bank 47 than condensation with tube bank 48.This recuperation of heat is packed into not containing the dividing plate of intercommunicating pore 51 in the adjacent space with heat exchanger, and supporting wall 54 just aligns with the back edge of intercommunicating pore 51 before its recuperation of heat, make recuperation of heat with tube bank 48 at the rear of intercommunicating pore 51, it can not covered.After the recuperation of heat after supporting wall 55 and the condensation supporting wall 46 be positioned at same plane.In the place ahead of framework 50 radiator grille 44 is installed, this radiator grille 44 and framework 50 be corresponding also to be divided into three parts that equate.Wherein two parts connect before and after being, and corresponding with heat exchanger with condensation, and another part is equipped with baffle plate 45.This baffle plate 45 has blocked recuperation of heat and has used heat exchanger the place ahead, has formed the space that is surrounded by supporting wall before the recuperation of heat 54, baffle plate 45, framework 50 and dividing plate 53.Only there is an outlet in this space, is positioned at the intercommunicating pore 51 on the dividing plate 53 exactly.In the side of framework 50, also offer two through holes with recuperation of heat with the corresponding part of heat exchanger, offered a through hole with condensation with the corresponding part of heat exchanger.The through hole that is positioned at framework 50 tops is communicated with heating chamber 52, in the heating chamber 52 electric heater is installed.Regeneration air intake duct 40 is connected to recuperation of heat heat exchanger with recuperation of heat with the corresponding through hole of heat exchanger by what be positioned at framework 50 sides.Regeneration exhaust duct 41 is connected to condensation heat exchanger with condensation with the corresponding through hole of heat exchanger by what be positioned at framework 50 sides.Heating chamber 52 with regeneration air intake duct 40 all be and recuperation of heat with the internal communication of heat exchanger, just with recuperation of heat before after supporting wall 54 and the recuperation of heat part between the supporting wall 55 be communicated with.Can see that in conjunction with Fig. 4 the sectional area of framework 50 is identical with the sectional area of moisture absorption rotating disk 2 in the energy recycle device 67, and the back is installed, and both abut against together.So just shortened regeneration and used air and dehumidifying, reduced the loss of heat in flowing of regenerating with air with the distance of air between motion.This discoid energy recycle device 67 of while, the surface area of its heat exchange is big.And in actual production, can further increase the surface area of heat exchange, improve heat exchanger effectiveness comparatively easily by increasing condensation tube bank 47 and the recuperation of heat length of tube bank 48.Simultaneously, energy recycle device 67 is installed in the front side of moisture absorption rotating disk 2, also can avoid recuperation of heat to use the condensate return of a small amount of generation in the heat exchanger in moisture absorption rotating disk 2.

Introduce the operation principle of dehumidifier of the present invention below based on Fig. 8.By background technology as can be known, the gas passage in the dehumidifier is divided into dehumidifying path X and regeneration path Y.In Fig. 8, marked the airflow direction of dehumidifying path X with dotted arrow, solid arrow has marked the airflow direction of regeneration path Y.In dehumidifying path X, at first dehumidifying is drawn into supporting wall 46 before the condensation with air from the place ahead.Because stopping of baffle plate 45, dehumidifying can not enter the recuperation of heat heat exchanger with air, and can only enter condensation with in the tube bank 47 by behind the supporting wall 46 before the condensation that is positioned at framework.Finish heat exchange in pipe after, dehumidifying is left energy recycle device 67 with air supporting wall 46 after the condensation.When being installed in the moisture absorption rotating disk in the flat part 35, its moisture is siphoned away by dehumidizer with air in the dehumidifying of leaving energy recycle device 67.It should be noted that dehumidifying has only been passed through with air and corresponding moisture absorption rotating disk 2 parts of condensation usefulness heat exchanger, just 2/3rds moisture absorption rotating disk 2 areas.Dried dehumidifying continues to describe in next section through the path behind the flat part 35 with air.In regeneration path Y, regeneration enters into recuperation of heat with in the heat exchanger with air by regeneration air intake duct 40, carries out heat exchange by recuperation of heat with the outer surface and the inner air tube of restraining 48.Improve with air themperature through the regeneration after the heat exchange, become high-temperature gas after the heating of the electric heater by being positioned at heating chamber 52 again.The regeneration of this high temperature enters kuppe 59 with air by bottoming hole 42.Under the guiding of kuppe 59, regeneration is with air flows downward and turn to the moisture absorption rotating disk 2 in the place ahead.The regeneration of high temperature is pulled away the moisture in this part moisture absorption rotating disk 2 with the other one-third of the area of air by moisture absorption rotating disk 2.Enter recuperation of heat with tube bank 48 in air through supporting wall 55 after the recuperation of heat by the regeneration after the moisture absorption rotating disk 2, carry out heat exchange with air with the regeneration of the low temperature that enters from regeneration air intake duct 40 before.Leave recuperation of heat with after restraining 48, regeneration enters the aforesaid space that is surrounded by supporting wall before the recuperation of heat 54, baffle plate 45, framework 50 and dividing plate 53 with air, enters into the condensation heat exchanger by intercommunicating pore 51 afterwards.In heat exchanger was used in condensation, regeneration was carried out heat exchange with the outer surface of tube bank 47 and the dehumidifying of the interior low temperature that has just sucked of pipe with air by condensation with air.The regeneration that loses heat further reduces with air themperature, and its steam that is full of also is liquefied as condensed water.Condensed water splashes into condensed water pallet 34 by osculum 56 under the effect of self gravitation, and collects in the water storage tank 26.Leave energy recycle device 67 with air by regeneration exhaust duct 41 through condensed regeneration.

Continue to introduce the motion of dehumidifying below in conjunction with Fig. 9 with air.The preceding paragraph has been introduced dehumidifying and has been left moisture absorption rotating disk 2 with air.Through the second dehumidifying blower-casting 32b, dehumidifying enters in the dehumidifying fan 3 with air afterwards.Under the effect of dehumidifying fan, dehumidifying is upwards flowed with the groove 60 of air by the second dehumidifying blower-casting 32b, one side, leaves dehumidifier through the outlet 25 that is positioned at discharger 125 upper surfaces.Wherein the shape of groove 60 for adapt to dehumidifying with the parabolic flow of air to, also make parabolic shape, and upper opening is bigger.

Dehumidifying fan 3 and regeneration fan 4 all are same structures, and the present invention also improves these two fans, describes below in conjunction with Figure 10.Fan body 61 is by the motor shaft driven rotary that is positioned at its center.Between prior motor axle and the fan body 61 is to be rigidly connected, and shakes bigger.The present invention has increased rubber ring 64 in the motor shaft outside.Motor shaft is fixed on the center of fan body 61 again by packing ring 62 and retainer plate 63.So just being connected between motor shaft and the fan body 61 become the elasticity connection, reduced vibrations and reduced noise.

Claims (7)

1. dehumidifier, comprise dehumidifying fan (3), regeneration fan (4) and moisture absorption rotating disk (2), it is characterized in that, axial side at moisture absorption rotating disk (2) is provided with energy recycle device (67), this energy recycle device (67) comprises recuperation of heat heat exchanger and condensation heat exchanger, described recuperation of heat is shorter with tube bank (47) than condensation with the length of tube bank (48) with the recuperation of heat in the heat exchanger, recuperation of heat with heat exchanger and condensation with being communicated with between the heat exchanger.

2. dehumidifier according to claim 1 is characterized in that, described energy recycle device (67) comprises framework (50), and this framework (50) is in the form of annular discs, and its sectional area is identical with moisture absorption rotating disk (2).

3. dehumidifier according to claim 2, it is characterized in that, be provided with dividing plate (53) in the described framework (50), recuperation of heat is respectively charged in the space that is separated out by dividing plate (53) with heat exchanger with heat exchanger and condensation, and is communicated with by the intercommunicating pore (51) that is positioned on the dividing plate (53).

4. according to any described dehumidifier in the claim 1 to 3, it is characterized in that this dehumidifier also has the second dehumidifying blower-casting (32b).

5. dehumidifier according to claim 4 is characterized in that, is provided with the groove (60) of parabolic shape in the described second dehumidifying blower-casting (32b), with direct dehumidified flowing with air.

6. according to any described dehumidifier in the claim 1 to 3, it is characterized in that described dehumidifying fan (3) and regeneration fan (4) are fixed on the machine shaft by flexibly connecting.

7. dehumidifier according to claim 6 is characterized in that, described flexibly connecting to connecting by rubber ring (64).

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