CN101231009A - Dehumidifier - Google Patents

Abstract

The invention provides a dehumidifier, which comprises a body which is provided with a dehumidification part, a body shell which forms the exterior of the body and a water bucket which is arranged at the lower side of the body and is used for accumulating condensed water produced during the heat exchange; the body shell is composed of the front and the rear panels, the left and the right panels as well as the upper panels of the body, the upper panels are alternatively arranged at the upper side of the body shell provided with a certain distance, discharge outlets which are used for discharging the dehumidified air are formed at the clearances between the upper end of the body shell and the upper plates, and suction inlets which suck air in are respectively arranged at the lateral surfaces of the body shell. The invention has the advantages that the dehumidifier which has the structure can enable extraneous air to flow into the interior from the sides, and the extraneous air is re-discharged into the interior space through the upper end of the body shell. The discharge outlets which are used for discharging the dehumidified air are formed by utilizing the clearances between the upper panels and the surrounding panels, thus the appearance of the dehumidifier is more beautiful. The dehumidifier disperses the discharge outlets, so as to enable the air to be discharged through the clearances among the panels, thereby avoiding the phenomenon that the discharged air is directly blown onto a user, and improving the satisfaction degree of the user.

Description

Dehumidifier

Technical field

The present invention relates to dehumidifier, relate in particular to the side inflow of air, and air is by the dehumidifier of the housing slit discharge of upper end from the body housing.

Background technology

In general, dehumidifier is to suck the humid air of the interior space to the inside of housing, and makes it to flow through and by flowing the condenser of refrigerant and the heat exchanger that evaporimeter constitutes are arranged, thereby reduces after the humidity, again the air after the interior space is discharged dehumidifying reduces the device of indoor humidity thus.

Fig. 1 is the exploded perspective view of prior art dehumidifier.

As shown in the figure, the dehumidifier of prior art comprises: be formed with suction inlet (not shown) in order to suck room air in the back, and the housing 1 of filter 4 is installed on this suction inlet; Be positioned at the place ahead of the filter 4 that is installed in described housing 1, and carry out heat exchange, thereby carry out the heat exchanger 20 of exsiccation with room air; Be positioned at the place ahead of described heat exchanger 20, make the fan component 10 of room air forced flow; Be formed on the bottom of described heat exchanger 20, and collect the water receiver 30 of condensed water; Constitute the outward appearance of front, and be formed with the front panel 3 of outlet 3a.

But there is following problem in the dehumidifier of prior art as mentioned above.That is, the dehumidifier of prior art is formed with outlet 3a on described front panel 3, therefore can influence the attractive in appearance of front, and owing to discharge air from the place ahead, therefore to generally having a rest or the user of work in the place ahead of dehumidifier, discharge air can directly blow to cause on one's body uncomfortable.

Summary of the invention

To have problems in the prior art in order solving as mentioned above, to the purpose of this invention is to provide a kind of air and flow into from the side of body, and the air dehumidifier of discharging by the slit of housing.

For achieving the above object, technical solution of the present invention provides a kind of dehumidifier, comprises the body that is provided with the dehumidifying parts; Form the body housing of body outward appearance; Be arranged on the downside of described body, and the water receiver of the condensed water that produces when accumulating heat exchange; Wherein: the front and back panel that constitutes body of described body housing, left and right sides panel and top panel, described top panel is arranged on the top of described body housing at a certain distance at intervals, on separately slit between the upper end of described body housing and the described top panel, formation makes the outlet of dehumidifying back air, is respectively equipped with the suction inlet that sucks air in the side of described body housing.

Between described top panel and described body housing, be provided with and make described top panel and body housing space protrusion separately.

Described suction inlet is formed with a plurality of on the right panel of described body housing.

Described a plurality of suction inlet can along up and down or about be provided with and be shape of slit.

The downside of described body housing is provided with the body base and seals, and divides the dividing plate of the inner space of described body before and after described body base is provided with.

Be provided with the air-supply guide part of the air that makes the blowing fan forced conveyance above guiding on one side of described dividing plate.

Effect of the present invention is that the dehumidifier of this structure makes extraneous air flow into inside from the side, and the upper end by the body housing is discharged into outside (interior space) again.The outlet of dehumidifying back air is to utilize top panel to form with the slit between the panel on every side, compares in the past the structure of plate formation outlet in front, and the outward appearance of this dehumidifier is more attractive in appearance.This dehumidifier has disperseed outlet, and discharge in the slit that air is passed through between the panel, has avoided having the air blast of discharging air directly to blow and has been mapped to the user's phenomenon on one's body that is positioned at the place ahead, and the user is felt comfortably cool, and therefore improves user's satisfaction.

Description of drawings

Fig. 1 is the exploded perspective view of prior art dehumidifier;

Fig. 2 is the stereoscopic figure of dehumidifier embodiment of the present invention;

Fig. 3 a is the exploded perspective view of dehumidifier shown in Figure 2;

Fig. 3 b is an exploded perspective view of observing dehumidifier shown in Figure 2 in the other direction;

Fig. 4 is the place ahead stereogram of embodiment of the invention internal structure;

Fig. 5 is the rear perspective view of embodiment of the invention internal structure;

Fig. 6 is the body casing of the embodiment of the invention and the exploded perspective view of top panel;

Fig. 7 is the inboard heat exchanger of the embodiment of the invention

Among the figure:

100. body 110. body housings

120. top panel 122. outlets

124. space protrusion 130. dividing plates

132. rear depressed part 134. central openings

136. 138. absorption motor accommodation sections, motor support portion

140. heater accommodation section 150. body bases

152. drain pan accommodation section 154. side patchholes

156. the place ahead patchhole 158. inboard patchholes

160. regeneration assembly 170. heater assemblies

180. absorbent module 182. adsorption elements

184. absorption housing 190. absorption frameworks

192. hot gas guide part 200. inboard heat exchangers

210. preceding square heat-exchanger 220. side heat exchangers

222. the 1st heat exchanger 224. the 2nd heat exchanger

226. the 3rd heat exchanger 230. baffle plates

240. air supply motor 246. blowing fans

250. drain pan

The specific embodiment

Below, the embodiment to dehumidifier of the present invention makes a detailed description with reference to accompanying drawing.

Fig. 2 is the stereoscopic figure of dehumidifier embodiment of the present invention.Fig. 3 a and Fig. 3 b are respectively the exploded perspective view of dehumidifier structure of the present invention, and Fig. 3 a is the exploded perspective view when the direction identical with Fig. 2 observed dehumidifier, the exploded perspective view when Fig. 3 b be rear side (opposition side) observation dehumidifier at Fig. 2.Fig. 4 and Fig. 5 are respectively the stereogram of body interior structure.Fig. 6 is the exploded perspective view of body housing and top panel.Fig. 7 is the rear perspective view of the inboard heat exchanger of the embodiment of the invention.

As shown in the figure, dehumidifier of the present invention comprises: inside is equipped with the body 100 for the critical piece that dehumidifies; Be arranged on the bucket 300 of downside of described body 100 and brace table 310 etc.

The outward appearance of described body 100 is determined with being installed in the top panel 120 of described body housing 110 upsides by the body housing 110 of the open box shape in top and the bottom.

Described body housing 110 forms the outward appearance of the front, rear, left and right of described body 100, and it is made of the front panel 112 that forms the front outward appearance and the rear board 114 that forms the back outward appearance and right panel 116 that forms the right flank outward appearance and Left-Hand Panel 118 grades that form the left surface outward appearance.

Described front panel 112, rear board 114, Left-Hand Panel 118 and right panel 116 should be integrally formed, and after described front panel 112, rear board 114, Left-Hand Panel 118 and right panel 116 were integrally formed, described body housing 110 was open up and down.Open up and down as mentioned above body housing 110, its downside will be sealed by body base 150 described later, and described top panel 120 is installed in last side.

Described top panel 120 forms the top outward appearance of described body 100, it the be separated by upper end certain distance of described body housing 110 of position, the outlet 122 of the slit formation discharged air between the upper end of described body housing 110 and the top panel 120 be set.

The upper end of the edge of described top panel 120 and described body housing 110 is certain distance and being provided with separately, as shown in the figure, form certain slit between the edge of described top panel 120 and described front panel 112, rear board 114, Left-Hand Panel 118 and the right panel 116, the slit between described each panel constitutes the outlet 122 of discharging dehumidifying back air.

Below, for the facility that illustrates, the present invention flow into after the inside to the outside from dehumidifier, the air that is dehumidified and be discharged into outside (interior space) once more is called for short air, to be circulated in will a plurality of heat exchangers 200,210,220 described later and the air of regeneration assembly 160 and heater assembly 170 etc. be called for short circulating air, distinguished with this.

Have between described top panel 120 and the described body housing 110 and make top panel 120 and body housing 110 space protrusion 124 separately.Described space protrusion 124 has certain height, and supports described top panel 120, thereby makes described top panel 120 keep from the upper end of described body housing 110 state of certain distance separately.

Described space protrusion 124 is protruded and is formed from the upper end of described body housing 110 to upside, and described space protrusion 124 is formed on the position of described body housing 110 each corner, and has the shape of thin ring rod.That is, it is respectively formed on four angles of the described body housing of quadrangle form 110 upper ends.On four angles, the bottom surface of described top panel 120, be formed with and the corresponding projecting slot 126 in the upper end of described space protrusion 124, connect described space protrusion 124 thereby insert.

One side (right flank) of described body housing 110 is formed with suction inlet 128, is formed with a plurality of suction inlets 128 on the described right panel 116.Described suction inlet 128 is that () air flow into the path of body housing 110 inside in general, the interior space of building, and as shown in the figure, it is formed with a plurality of, and has the long shape of slit of left and right directions in described body housing 110 outsides.Described Left-Hand Panel 118 and right panel 116 also can be respectively equipped with the suction inlet 128 that sucks air.

Described suction inlet 128 can have the long shape of left and right directions as shown in the figure, also can have the long shape of above-below direction.Described suction inlet 128 can connect as shown in the figure and is formed on the described right panel 116, also can form independent suction grid and is releasably attached on the described right panel 116.

Divide the dividing plate 130 of its inner space before and after described body 100 has, be provided with dividing plate 130 in the inside of described body housing 110, thereby its volume inside is divided in front and back.Described dividing plate 130 has the repeatedly shape of bending, as shown in the figure, is when observing from the top Shape and divide before and after the space.”

At the right-hand end of described dividing plate 130, also be formed with the inclined end portion 130a of lateral buckling certain angle backward.Described inclined end portion 130a, the extraneous air that can guide the suction inlet 128 by described right panel 116 to flow into flow into the place ahead of described dividing plate 130.

Be formed with a certain size rear depressed part 132 at described dividing plate 130, near the central authorities of described dividing plate 130, rearward cave in and form can hold will absorbent module 180 described later rear depressed part 132.On described rear depressed part 132, being provided with will heater assembly 170 described later and blowing fan 246 and inboard heat exchanger 200 etc.

The central portion of described rear depressed part 132 connects with front and back and forms central openings 134, and described central openings 134 is paths that the air in described dividing plate 130 the place aheads moves to the rear.

The central portion of described central openings 134 is formed with motor support portion 136, described motor support portion 136 be install will air supply motor 240 described later, blowing fan 246 etc. and position that heater assembly 170 1 ends are installed.

Side in described motor support portion 136 also is formed with absorption motor accommodation section 138, as shown in the figure, at the left side of described central openings 134 first half, is formed with the absorption motor accommodation section 138 of drum.Described absorption motor accommodation section 138 is to hold the position that installation will absorption motor 176 described later, as shown in the figure, has the drum of front openings.

Have heater accommodation section 140 on the described rear depressed part 132, described heater accommodation section 140 is to hold the position that installation will heater assembly 170 described later, and it is formed on the left side of described rear depressed part 132.Upper end and bottom in described heater accommodation section 140, from the preceding face forward of described rear depressed part 132 protrude respectively be formed with supporting will heater assembly 170 described later the upper end and the heater guide part 142 of bottom.

Upside in described heater accommodation section 140 also is formed with regeneration accommodation section 144, the upside of the heater guide part 142 of described dividing plate 130 forms certain space and constitutes regeneration accommodation section 144, and be provided with will regeneration assembly 160 described later and hold on this regeneration accommodation section 144.

Described dividing plate 130 forwards opening is formed with air outflow port 146, described air outflow port 146 is places of discharge cycle air, it is formed on the bottom, right side of the rear depressed part 132 of described dividing plate 130, the circulating air that is discharged into the place ahead by described air outflow port 146 can flow into will inboard heat exchanger 200 described later inside.

Be formed with air inflow aperture 146 ' at the right side of described dividing plate 130 part protrusion, as shown in the figure, in the bottom, right side of described dividing plate 130, the circulating air that to protrude air inflow aperture 146 ' the described air inflow aperture 146 ' be formed with drum be guiding in the side to the right discharges from inside that will side described later heat exchanger 220 flows into the position of the inside of dividing plate 130.

Described air inflow aperture 146 ' is interconnected with air outflow port 146, and the circulating air that flow into described dividing plate 130 inside by described air inflow aperture 146 ' is discharged from once more by described air outflow port 146.

The back of described dividing plate 130 is formed with air- supply guide part 148, and 148 guiding of described air-supply guide part are flowed by air that will blowing fan 246 forced conveyance described later, guide blowing fan 246 into the left side top to the circumferencial direction air discharged.

The lower end of described dividing plate 130 is provided with body base 150, and described body base 150 constitutes with the quadrangle writing board shape, plays the effect of supporting a plurality of parts that comprise described dividing plate 130 when it forms the bottom outward appearance of described body 100.

On described body base 150, be formed with drain pan accommodation section 152, near the right-hand end of described body base 150, be formed with upward the drain pan accommodation section 152 of protruding, and the downside in this drain pan accommodation section 152 accommodate will drain pan 250 described later.

Described drain pan accommodation section 152 becomes to have a plurality of patchholes 154,156,158 with breakthrough form up and down.Described a plurality of patchhole the 154,156, the 158th inserts respectively to install and is formed at a plurality of irrigating gates 206,216,222 ', 224 ' that will a plurality of heat exchangers described later 200,210,220 bottoms, 226 ' place.

Be formed with side patchhole 154 above the right side of described drain pan accommodation section 152, described side patchhole 154 is to insert side irrigating gate that installation will side described later heat exchanger 220 222 ', 224 ', 226 ' place respectively, begins to connect successively from its right side to be formed with the 1st patchhole 154a, the 2nd patchhole 154b, the 3rd patchhole 154c.On described the 1st patchhole 154a, the 2nd patchhole 154b, the 3rd patchhole 154c, insert installing respectively will the 1st irrigating gate 222 ' described later, the 2nd irrigating gate 224 ', the 3rd irrigating gate 226 '.

The left side of described side patchhole 154 connects and is formed with the place ahead patchhole 156, described the place ahead patchhole 156 be insert install will be described later before the place of square irrigating gate 216 before the square heat-exchanger 210.

The left side of described the place ahead patchhole 156 also is formed with inboard patchhole 158, described drain pan accommodation section 152 is with stepped formation, its left side is compared the right side and will be hanged down relatively, and lower relatively place connects and is formed with inboard patchhole 158 in this left side, described inboard patchhole 158 be insert install will inboard heat exchanger 200 described later within the place of side irrigating gate 206.

The front of described dividing plate 130 is equipped with regeneration assembly 160, near the described regeneration accommodation section 144 that is formed at described dividing plate 130 upper ends, regeneration assembly 160 is installed from the place ahead.

Described regeneration assembly 160 is embraced by housing, though diagram not is respectively arranged with regeneration fan and generator again in the inside of described regeneration assembly 160, the front of described regeneration assembly 160 is formed with recovery stream inlet 162, and the left side is formed with the outlet 164 of regenerating.

Described recovery stream inlet 162 be formed on will inboard heat exchanger 200 described later inboard inflow entrance 204 correspondingly circularly constitute.Described regeneration outlet 164 protrude to prolong and forms in the below to the left from described regeneration assembly 160, have can insert be set to will heater inflow entrance 174 described later the quadrangular prism profile.

The front of described dividing plate 130 is equipped with fan-shaped heater assembly 170,170 pairs of described heater assemblies be circulated in will heat exchanger described later 200,210,220 inside circulating air heat.After being provided with the outside power supply of connection, the inside of described heater assembly 170 can give out the heater (not shown) of heat, by the circulating air of described heater assembly 170 heating, supplying to will adsorption element 182 described later, thereby evaporates the moisture that is adsorbed on the adsorption element 182.

The front of described heater assembly 170 is formed with heater outlet 172 as shown in the figure, and the back is formed with heater inflow entrance 174.Described heater outlet 172 be flow through described heater assembly 170 inside and high temperature circulation air after being heated is discharged into the place in the place ahead of heater assembly 170, described heater inflow entrance 174 is the places of inserting the regeneration outlet 164 that connects described regeneration assembly 160, and described heater outlet 172 has fan shape as shown in the figure.

The right-hand end rear side of described heater assembly 170 is equipped with absorption motor 176, and described absorption motor 176 be to will absorbent module 180 described later providing rotary power, and holds 138 li of absorption motor accommodation sections that are arranged on described dividing plate 130.As the absorption axle 176 ' of the rotating shaft of described absorption motor 176, connect the right-hand end of described heater assembly 170 after, forwards protrude and be provided with.At the front end of this absorption axle 176 ', fixed installation will absorbent module 180 described later.

The place ahead of described dividing plate 130 is provided with absorbent module 180, and described absorbent module 180 constitutes by remove the adsorption element 182 of water in air branch and the absorption housing 184 of the described adsorption element 182 of fixed support etc. by absorption.

Described adsorption element 182 generally constitutes with paper material, as shown in the figure, the rounded on the whole shape of described adsorption element 182, the front and back perforation is formed with a plurality of through holes and inside is with the honeycomb shape formation.

Described adsorption element 182 is folding and form after a plurality of through holes with honeycomb shape with 2 layers paper substrate, utilizes permeability that adsorption liquid is dipped into the surface.Owing to be soaked with the adsorption liquid of adsorbed moisture on the surface of described adsorption element 182, therefore airborne moisture is adsorbed parts 182 absorption and removes.

Described absorption housing 184 is made of edge part 184a outside the adsorption element 182 of embracing described circle and central portion 184b and a plurality of connecting portion 184c that are connected described edge part 184a and central portion 184b etc. that support the central portion of described adsorption element 182.

Described central portion 184b is fixedly connected with the front end of the absorption axle 176 ' of described absorption motor 176, and by the revolving force of described absorption motor 176, described adsorption element 182 and absorption housing 184 are with certain speed rotation.

Described adsorption element 182 and absorption housing 184 are fixedly mounted on the described dividing plate 130 by absorption framework 190, described absorption framework 190 is holding in inside under the state of described adsorption element 182 and described absorption housing 184, is fixed to the front of described dividing plate 130 by screw etc.

Left part at described absorption framework 190 is formed with hot gas guide part 192, described hot gas guide part 192 with described heater assembly 170 corresponding fan-shaped formations, forwards protrude again from the front of described absorption framework 190 and form.

Described hot gas guide part 192 play make heated circulating air when flowing through described heater assembly 170 flow into will be described later before the effect of square heat-exchanger 210, the rear opening of described hot gas guide part 192 forms, thereby circulating air is flowed into, right side and bottom also opening form, thus make heated circulating air flow into will be described later before the place ahead inflow entrance 212 of square heat-exchanger 210.

The upper end of described hot gas guide part 192 and bottom are provided with seal member 194 respectively, in the upper end and the back, bottom of fan-shaped described hot gas guide part 192, are provided with the seal member 194 that constitutes with the rubber elastomeric material.

Described seal member 194 plays the effect in the slit between sealing described absorption framework 190 and the described adsorption element 182, and the circulating air that prevents the high temperature that flowing by described hot gas guide part 192 is revealed the slit between described absorption framework 190 and adsorption element 182.

Also be provided with inboard heat exchanger 200 on the described dividing plate 130, the right side part of square depressed part 132 after described dividing plate 130, as shown in the figure with upper and lower to being provided with inboard heat exchanger 200.Described inboard heat exchanger 200 can make between air that the central openings 134 by described dividing plate 130 rearward flowing and the circulating air within the inboard heat exchanger 200 and carry out heat exchange, on this inboard heat exchanger 200, become to have the air through hole of a plurality of shape of slit that can ventilate with the upper and lower synform.

Be formed with inboard inflow entrance 202 and the inboard flow export 204 that air is come in and gone out respectively in the back of described inboard heat exchanger 200.

Described inboard inflow entrance 202 is formed on the lower end, back of described inboard heat exchanger 200, and should be connected the air outflow port 146 that is formed at described dividing plate 130 by inboard inflow entrance 202, described inboard inflow entrance 202 has and described air outflow port 146 corresponding sizes, and guiding flows into the inside of described inboard heat exchanger 200 by the circulating air of described air outflow port 146 dischargings.

Described inboard flow export 204 is formed on the upper end, back of described inboard heat exchanger 200, the circulating air that guides described inboard heat exchanger 200 inside flows into by the recovery stream inlet 162 of described regeneration assembly 160, described inboard flow export 204 and described recovery stream inlet 162 have the size and the shape of mutual correspondence, and combine thus.

The lower end of described inboard heat exchanger 200 also is formed with inboard irrigating gate 206, in the right side, lower end of described inboard heat exchanger 200 (being the left side among Fig. 7) portion, protrudes the inboard irrigating gate 206 that is formed with drum downwards.The external diameter of described inboard irrigating gate 206 have with described drain pan accommodation section 152 within the corresponding size of external diameter of side patchhole 158, described inboard irrigating gate 206 inserts and is installed on the described inboard patchhole 158.

The place ahead of described dividing plate 130 also is provided with preceding square heat-exchanger 210, as shown in the figure, square heat-exchanger 210 is arranged on the place ahead of described absorption framework 190 before described, embrace the right side part of absorption framework 190, the extraneous air that flow into described absorbent module 180 is flowed through and is carried out heat exchange square heat-exchanger 210 time before described.

After square heat-exchanger 210 its right-hand ends rearward bend before described, be when observing from the top

The feeding shape on the square heat-exchanger 210, is formed with a plurality of along the air openings of left and right directions than long shape of slit before described.

The left-hand end central portion of square heat-exchanger 210 part that caves in to the right before described, and be formed with the place ahead inflow entrance 212 in this left side central portion perforation.Described the place ahead inflow entrance 212 is corresponding with the right-hand end and the bottom of described hot gas guide part 192, described the place ahead inflow entrance 212 closely connects mutually with the right-hand end and the bottom of the hot gas guide part 192 of described absorption framework 190, thereby the heated circulating air that guiding is being flowed by described hot gas guide part 192 flows into the inside of described preceding square heat-exchanger 210.

The right flank upper end of square heat-exchanger 210 is formed with the place ahead flow export 214 before described, described before the right-hand end of square heat-exchanger 210 rearward crooked and form, and be formed with circular the place ahead flow export 214 in this right flank upper end that is bent part.By described the place ahead flow export 214 discharge flow into by described the place ahead inflow entrance 212 before the circulating air of square heat-exchanger 210 inside, the air of discharging by described the place ahead flow export 214 can flow into will side described later heat exchanger 220.

The lower end, right side of square heat-exchanger 210 before described is protruded downwards and is formed with the place ahead irrigating gate 216.The side directed downwards condensed water that is formed within the described preceding square heat-exchanger 210 of described the place ahead irrigating gate 216, its inserts 156 li of the place ahead patchholes being set to described drain pan accommodation section 152, and the external diameter of described the place ahead irrigating gate 216 is to constitute with the corresponding drum of the internal diameter of described the place ahead patchhole 156.

Right side, the front branch of described dividing plate 130 is provided with side heat exchanger 220, and the right side of described preceding square heat-exchanger 210 is provided with side heat exchanger 220.Described side heat exchanger 220 makes the air of inside and outside portion carry out heat exchange mutually with described inboard heat exchanger 200 and preceding square heat-exchanger 210.

Described side heat exchanger 220 makes by suction inlet 128 leaked-in airs of described right panel 116 are disposable and carries out heat exchange, it constitutes with 3 heat exchangers, and the 1st heat exchanger the 222, the 2nd heat exchanger 224 and the 3rd heat exchanger 226 that be provided with constitute described side heat exchanger 220 by aliging upright.

As shown in the figure, described the 1st heat exchanger 222 is quadrangle form, is formed with the 1st flow export 222a at left surface lower end rear side.Described the 1st flow export 222a is the place of the circulating air within described the 1st flow export 222a of discharging, and the air inflow aperture 146 ' of the circulating air of discharging by the 1st flow export 222a by described dividing plate 130 flows into, described the 1st flow export 222a and described air inflow aperture 146 ' have corresponding shape and size, and are connected with this.

The left surface front end upside of described the 1st heat exchanger 222 is formed with the 1st inflow entrance 222b, on the diagonal of described the 1st flow export 222a, be formed with the 1st inflow entrance 222b, flow into the inlet of described the 1st heat exchanger 222 inside and the 1st inflow entrance 222b is a circulating air.

Be provided with the 2nd heat exchanger 224 in the left side of described the 1st heat exchanger 222, the right flank upper end leading section of described the 2nd heat exchanger 224 is formed with the 2nd flow export 224a.Discharge the circulating air of described the 2nd heat exchanger 224 inside by described the 2nd flow export 224a, the 2nd flow export 224a combines with it with the size corresponding to described the 1st inflow entrance 222b, flow into the inside of described the 1st heat exchanger 222 through described the 1st inflow entrance 222b by the circulating air of described the 2nd flow export 224a discharge.

The left surface rear side upper end of described the 2nd heat exchanger 224 is formed with the 2nd inflow entrance 224b, and described the 2nd inflow entrance 224b makes circulating air flow into the inside of described the 2nd heat exchanger 224 with will the 3rd flow export 226a described later corresponding and form.

Be provided with the 3rd heat exchanger 226 in the left side of described the 2nd heat exchanger 224, described the 3rd heat exchanger 226 has and described the 2nd heat exchanger 224 corresponding shapes, is formed with the 3rd flow export 226a in left surface rear side upper end.Described the 3rd flow export 226a connects to be attached thereto with described corresponding size of the 2nd inflow entrance 224b and shape, flow into the inside of described the 2nd heat exchanger 224 through described the 2nd inflow entrance 224b by the circulating air of described the 3rd flow export 226a discharge.

The left surface front end upper end of described the 3rd heat exchanger 226 is formed with the 3rd inflow entrance 226b, described the 3rd inflow entrance 226b is the inlet that circulating air flows into described the 3rd heat exchanger 226 inside, it with described before the place ahead flow export 214 corresponding shapes of square heat-exchanger 210 and size be attached thereto and connect.

Lower end at described side separately heat exchanger 220, protrude the side irrigating gate 222 ', 224 ', 226 ' that is formed with thin drum respectively downwards, in the leading section lower end of described the 1st, 2,3 heat exchangers 222,224,226, be formed with the side irrigating gate 222 ', 224 ', 226 ' that forms with certain-length prolongation downwards respectively.

The condensed water that described side irrigating gate 222 ', 224 ', 226 ' guiding condense in heat exchanger 220 inside, described side drips downwards, and they insert respectively and are arranged on 154 li of the side patchholes that breakthrough form is formed in the drain pan accommodation section 152 of described body base 150, and described side irrigating gate 222 ', 224 ', 226 ' external diameter have and described the 1st patchhole 154a, the 2nd patchhole 154b and the corresponding size of the 3rd patchhole 154c.

Described side irrigating gate 222 ', 224 ', 226 ' is made of the 1st irrigating gate 222 ' and the 2nd irrigating gate 224 ' and the 3rd irrigating gate 226 ', described the 1st irrigating gate 222 ' protrudes and forms from the lower ends downward of described the 1st heat exchanger 222, and inserts and be arranged in described the 1st patchhole 154a; Described the 2nd irrigating gate 224 ' protrudes and forms from the lower ends downward of described the 2nd heat exchanger 224, and insert and be arranged in described the 2nd patchhole 154b, described the 3rd irrigating gate 226 ' protrudes and forms from the lower ends downward of described the 3rd heat exchanger 226, and inserts and be arranged in described the 3rd patchhole 154c.

The place ahead of described dividing plate 130 also is provided with divides the baffle plate 230 in space up and down, and as shown in the figure, described baffle plate 230 is made of flat board, and to divide the front space of described dividing plate 130 up and down.

Slit between described dividing plate 130 described front panels 112 of elimination and the dividing plate 130 and the slit between described right panel 116 and the dividing plate 130, thereby the mixing mutually that prevents to suck air and discharge air.That is, play the effect that is not mixed mutually by described suction inlet 128 outside (interior space) air that flows into and the air that are thrown into outside (interior space) by described outlet 122.

The rear side of described dividing plate 130 is provided with air supply motor 240, and described air supply motor 240 utilizes the outside power supply of supplying with to providing rotary power by blowing fan 246 described later, and it is arranged on the rear side of the motor support portion 136 of described dividing plate 130.Described air supply motor 240 rearward protrudes to be formed with rotary power is delivered to outside motor shaft 242.

And supported, the air supply motor 240 of described drum is fixed to the rear side of described dividing plate 130 to described air supply motor 240 by motor fixing frame 244 by motor fixing frame 244.As shown in the figure, described motor fixing frame 244 is embraced described air supply motor 240, and is fixedly installed to the back of described dividing plate 130 by screw, and described air supply motor 240 is contained under the state of described motor fixing frame 244, is fixed to the rear side of described dividing plate 130.

The arranged outside of described air supply motor 240 has blowing fan 246, described blowing fan 246 flows force air, it rotates by the revolving force of described air supply motor 240, described blowing fan 246 is fixedly mounted on the described motor shaft 242 that forms to the rear of described air supply motor 240 protrusion, thereby rotates according to the described blowing fan 246 of the rotation of described motor shaft 242 thereupon.

The downside of described drain pan accommodation section 152 holds and is provided with drain pan 250,250 pairs of described drain pans by described irrigating gate 206,216,222 ', 224 ', 226 ' separately downwards the condensed water of drippage catchment, it has and described drain pan accommodation section 152 corresponding shapes.

Connect to be formed with in the back of described drain pan 250 and make the water of accumulating in inside (condensed water) be discharged into the osculum 252 of 300 li of described water receivers, this osculum 252 can optionally be opened and closed by draining bar 254.

Described draining bar 254 constitutes with the lever shape, and when described water receiver 300 was installed on the described brace table 310, its open described osculum 252 was when described water receiver 300 is drawn out and when not being installed on the described brace table 310, it closes described osculum 252.

The downside of described body base 150 is respectively arranged with described water receiver 300 and brace table 310.

Described water receiver 300 is the places of accumulating the water (condensed water) that results from described a plurality of heat exchanger 200,210,220, condenses to form water droplet and drop onto described water receiver 300 by described drain pan 250 and stored on described a plurality of heat exchangers 200,210,220.

Described water receiver 300 be arranged on will brace table 310 described later front end support portion 314 ' and support portion, rear end 314 " between, described water receiver 300 should be provided with to (left side or right side) pull ground, side, and constitutes with the box shape of top opening.

Described brace table 310 is supporting described body 100, and it is made of base for supporting 312 and support portion 314.Described base for supporting 312 directly contacts with the bottom surface of building, and it is made of four jiaos of flat boards.

Described support portion 314 is by and the front end support portion 314 ' that form protruding upward from the leading section of described base for supporting 312 and and rear end support portion 314 that form protruding upward from the rearward end of described base for supporting 312 " etc. formation.

The upper end of described brace table 310 is provided with drain pan 250, the right-hand end of described front end support portion 314 ' is provided with drain pan 250, thereby the water (moisture) that results from described a plurality of heat exchanger 200,210,220 that will condense is guided described water receiver 300 into, after irrigating gate 206,216,222 ', 224 ', the 226 ' water that drips that is formed at described a plurality of heat exchanger 200,210,220 lower ends gathers the inside of described drain pan 250, drop to 300 li of described water receivers again.

Below, the effect of the dehumidifier of the present invention of structure describes to having as mentioned above.

As shown in Figure 2, dehumidifier of the present invention at first flow into the inside of dehumidifier by side (right flank) outside (interior space) air, and be discharged into outside (interior space) by the air after dehumidifying again by the upper end in the inside of dehumidifier, be discharged into the outside by the slit between described top panel 120 and other panels.

The described air supply motor of supplying with from the outside 240 of power drives, and begin rotation according to the described blowing fan 246 of revolving force that this air supply motor 240 is produced.

The power supply of supplying with from the outside also drives described absorption motor 176, thereby described absorbent module 180 is rotated, the regeneration fan (not shown) that is arranged on described regeneration assembly 160 inside also is rotated, thereby circulating air is flowed, the revolving force that results from described absorption motor 176 compare result from described air supply motor 240 or again the revolving force of generator (not shown) be low speed, described absorbent module 180 is with low speed rotation.

The heater (not shown) that is arranged on described heater assembly 170 inside is also because external power source and distribute heat.

According to the rotation of described blowing fan 246, produce suction in the inside of dehumidifier, because the effect of this suction, the air of outside (interior space) flow into the inside of described body housing 110 by the suction inlet 128 of described right panel 116.

The extraneous air that the flow into described body housing 110 inside described side heat exchanger 220 of will flowing through, the air openings of the shape of slit that is formed on described the 1st heat exchanger the 222, the 2nd heat exchanger 224 and the 3rd heat exchanger 226 of flowing through successively.

Carry out heat exchange between the extraneous air of described side heat exchanger 220 and the inner air (circulating air), colder relatively extraneous air is subjected to the thermal cycle air influence of heat exchanger 220 inside, described side, and its temperature can rise.

The air that has passed through described side heat exchanger 220 will flow through described before square heat-exchanger 210, extraneous air flow to the rear in right side side and the place ahead of square heat-exchanger 210 before described.This moment, inside and outside air of described preceding square heat-exchanger 210 carried out heat exchange mutually also as the situation of the described side heat exchanger 220 of flowing through.

Passed through described before the air of the square heat-exchanger 210 described absorbent module 180 of will flowing through, this moment, airborne moisture can be adsorbed to the surface of described adsorption element 182.

The air that the has passed through described adsorption element 180 described inboard heat exchanger 200 of will flowing through, at described inboard heat exchanger 200, also as the situation of described side heat exchanger 220 and preceding square heat-exchanger 210, carry out heat exchange between inside and outside the air and become the more air of high temperature.

The air of described inboard heat exchanger 200 of flowing through moves to the rear side of dividing plate 130 by the central openings 134 of described dividing plate 130, move to the air of described dividing plate 130 rear sides, because the work of described blowing fan 246 is discharged in order to radiation shape and guided by described air-supply guide part 148.Because described air-supply guide part 148 is embraced the outside of described blowing fan 246, its left-hand end prolongs and forms to upside simultaneously, and the therefore air carried of described blowing fan 246 can rise to the top, left side of described dividing plate 130.

Also can move to the place ahead of described dividing plate 130 by the air of described air-supply guide part 148 risings, flowing in the below of the baffle plate 230 cut-out air in described dividing plate 130 the place aheads, thereby prevents that the air of being guided into upside by described air-supply guide part 148 from flowing into described absorbent module 180 again.

The air dispersion that moves to upside continuously is to each marginal portion of described top panel 120 and discharge to the outside, as shown in Figure 2, be discharged into the outside by the outlet 122 that is formed on the slit between described top panel 120 and front panel 112/ rear board 114/ Left-Hand Panel 118/ right panel 116, the mode that air is discharged by each slit of shape of slit is also referred to as linear diffusion way.

Mobility status to the circulating air that continues to be flowing in described a plurality of heat exchanger 200,210,220 inside describes.

The stream that flows in the circulating air of described a plurality of heat exchanger 200,210,220 inside constitutes the loop circuit, be different from aforesaid air (flowing into the air of dehumidifier inside from the interior space), the circulating air of described heat exchanger 200,210,220 inside can be by alternately, and when continuing the same loop of circulation and air outside carry out heat exchange.

Circulating air from described regeneration assembly 160 is sent by the described heater inflow entrance 174 that is connected with described regeneration outlet 164, flow into the inside of described heater assembly 170.

The circulating air that flow into described heater assembly 170 inside after reaching a high temperature, is flow to the place ahead by described heater outlet 172 by heater (not shown) heating.The circulating air that is discharged into the place ahead by the described heater outlet 172 described adsorption element 182 of will flowing through, the circulating air of the high temperature that gives off by described heater outlet 172 can evaporate the moisture attached to described adsorption element 182.

Because described heater outlet 172 has aforesaid fan shape, therefore be subjected to having and heater outlet 172 corresponding fan shape by the adsorption element 182 that the high temperature circulation air that described heater outlet 172 is discharged influences, because described adsorption element 182 is under the effect of described absorption motor 176, with low speed rotation, therefore after after a while, the integral body of described adsorption element 182 can contact with the high temperature circulation air of discharging by described heater outlet 172.

The circulating air of described adsorption element 182 of flowing through flows into after the hot gas guide part 192 of described absorption framework 190, by the place ahead inflow entrance 212 of square heat-exchanger 210 before described, be transported to described before the inside of square heat-exchanger 210.

The circulating air and the air outside that flow into described preceding square heat-exchanger 210 inside are carried out heat exchange, as previously mentioned, carry out heat exchange with the extraneous air that flows into and flow in outside the described preceding square heat-exchanger 210 by described suction inlet 128.

External air temperature wants high because the circulating air of described preceding square heat-exchanger 210 inside compares, therefore the circulating air of the square heat-exchanger 210 inside transfer of air heat outside the heat exchanger 210 forwards before described, in this process, the temperature of the circulating air of square heat-exchanger 210 inside can descend before described, drips downwards thereby the moisture in the circulating air can be condensed.

The circulating air that has passed through described preceding square heat-exchanger 210 flows into the inside of described side heat exchanger 220, the circulating air of square heat-exchanger 210 inside flow into the inside of the 3rd heat exchanger 226 before described by the 3rd inflow entrance 226b of described the place ahead flow export 214, described the 3rd heat exchanger 226, inside this moment of described the 2nd heat exchanger 224 and the 1st heat exchanger 222 flow through again successively also as aforementioned, circulating air transmits heat to described side heat exchanger 220 air outside, thereby the moisture in the circulating air can be condensed.

The air that has passed through described side heat exchanger 220 flow into described inboard heat exchanger 200, the circulating air that the 1st flow export 222a by described the 1st heat exchanger 222 discharges, flow into the inside of dividing plate 130 by the air inflow aperture 146 ' that is formed at described dividing plate 130, and this circulating air flow into the inboard inflow entrance 202 of described inboard heat exchanger 200 by described air outflow port 146.

Flow into the circulating air of described inboard heat exchanger 200 inside, as at aforesaid side heat exchanger 220 and preceding square heat-exchanger 210, carry out heat exchange with extraneous air, passed through after the described adsorption element 182, the air that moves to dividing plate 130 rear sides with central openings 134 by described dividing plate 130 carries out heat exchange.

In this process, the circulating air of described inboard heat exchanger 200 inside is cooled and wherein moisture is condensed, and is discharged into the below afterwards again.

The circulating air that has passed through described inboard heat exchanger 200 can flow into described regeneration assembly 160, because the inboard flow export 204 of described inboard heat exchanger 200 combines with the recovery stream of described regeneration assembly 160 inlet 162, therefore the circulating air of described inboard heat exchanger 200 inside can flow into the inside of described regeneration assembly 160.

The circulating air that flow into described regeneration assembly 160 inside can be reproduced fan (not shown) forced conveyance, thereby re-moves the inside of described heater assembly 170 by described regeneration outlet 164.By aforesaid process, the circulating air circulation comprises the loop circuit of a plurality of heat exchangers 200,210,220, thereby forms a circulation stream.

Aforesaid extraneous air and circulating air are carried out heat exchange and the condensed water that produces, and the user will in time remove.

Process to this moment is elaborated as follows.

In the inside of described a plurality of heat exchangers 200,210,220, the condensed water that produces because of temperature difference can drip to downside along the internal face of heat exchanger 200,210,220, gathers 250 li of described drain pans afterwards.Promptly, be formed with irrigating gate 206,216,222 ', 224 ', 226 ' owing to protruding respectively downwards in the lower end of described a plurality of heat exchangers 200,210,220, and this irrigating gate 206,216,222 ', 224 ', 226 ' is under the state of the patchhole 154,156,158 that is inserted in described drain pan accommodation section 152, be connected with the inside of described drain pan 250, so the condensed water of heat exchanger 200,210,220 inside can gather 250 li of described drain pans by described irrigating gate 206,216,222 ', 224 ', 226 '.

The condensed water that gathers 250 li of described drain pans drops to the inside of described water receiver 300, accumulates in the condensed water of 250 li of described drain pans, can drop to the inside of described water receiver 300 by the hole that perforation is formed on a side.

Through aforesaid process, the inside of described water receiver 300 accumulate certain condensed water is arranged after, the user pulls out this water receiver 300 and remove its inner water to the side.

Scope of the present invention is not confined on the aforesaid embodiment, can be in the present technique scope, and the those of ordinary skill in constructed field is made multiple other distortion.

For example, in the above-described embodiment, described space protrusion 124 is formed on the upper end of described body housing 110, be formed with and described space protrusion 124 corresponding projecting slot 126 in the bottom surface of described top panel 120, also can be in contrast, described space protrusion 124 is integrally formed in the bottom surface of described top panel 120, forms described projecting slot 126 different structures such as grade in the upper end of described body housing.

Claims (6)

1. a dehumidifier comprises the body that is provided with the dehumidifying parts; Form the body housing of body outward appearance; Be arranged on the downside of described body, and the water receiver of the condensed water that produces when accumulating heat exchange; It is characterized in that:

The front and back panel that constitutes body of described body housing (110) (112,114), left and right sides panel (118,116) and top panel (120), described top panel (120) is arranged on the top of described body housing (110) at a certain distance at intervals, on separately slit between the upper end of described body housing (110) and the described top panel, formation makes the outlet (122) of dehumidifying back air, is respectively equipped with the suction inlet (128) that sucks air in the side of described body housing.

2. dehumidifier according to claim 1 is characterized in that: be provided with between described top panel (120) and described body housing (110) and make described top panel (120) and body housing (110) space protrusion (124) separately.

3. dehumidifier according to claim 1 is characterized in that: described suction inlet (128) is formed with a plurality of on the right panel (116) of described body housing (110).

4. dehumidifier according to claim 3 is characterized in that: described a plurality of suction inlets (128) can along up and down or about be provided with and be shape of slit.

5. dehumidifier according to claim 1 is characterized in that: the downside of described body housing (110) is provided with body base (150) and seals, and divides the dividing plate (130) of the inner space of described body before and after described body base (150) is provided with.

6. dehumidifier according to claim 5 is characterized in that: be provided with the air-supply guide part (148) that the air that makes the blowing fan forced conveyance is guided the top on a side of described dividing plate (130).

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