CN106480680A - Dryer - Google Patents

Abstract

The invention discloses a kind of dryer, wherein, dryer includes body, door body, fan assembly and heat-exchange system, body is provided with circulation air inlet, circulation air outlet, cooling air inlet, cooling air outlet, heat-exchange system has the first import with the first heat exchanging chamber conducting respectively, first outlet and respectively the second import and the second outlet with the second heat exchanging chamber conducting, first import is turned on cooling air inlet, first outlet and cooling air outlet conducting, second import and circulation air outlet conducting, second outlet and circulation air inlet conducting, outside air is imported the first heat exchange intracavity from the first import and discharges from first outlet extraneous by the first blower fan of fan assembly, the damp-heat air of the intracavity that works is imported the second heat exchange intracavity from the second import and drains into working chamber through heat exchange and from second outlet by the second blower fan.The structure of dryer according to embodiments of the present invention is simple, easy for installation, running noises are little, and condensation efficiency and heat exchange efficiency are high, is easy to soft flocks cleaning and condensation water collection.

Description

Dryer

Technical field

The present invention relates to dryer equipment manufacturing technology field, more particularly, to a kind of dryer.

Background technology

Commonly used with equipment such as air-conditioning, refrigerator, dryers, the overall efficiency of equipment increasingly receives publicity, and The heat exchange efficiency of heat exchanger exactly determines one of key factor of overall efficiency.However, at present, runner in the heat exchanger of dryer Setting and fin arrangement often unreasonable, cause fluid flow resistance in runner larger, so lead to dryer work During noise larger, and the heat transfer effect of dryer is poor, condensation efficiency is low and energy consumption is big.

Content of the invention

It is contemplated that at least solving one of above-mentioned technical problem to a certain extent.

For this reason, the present invention proposes a kind of dryer, the structure of this dryer is simple, easy for installation, running noises are little, permissible Realize function of recovering waste heat, effectively improve condensation efficiency and heat exchange efficiency, and be easy to soft flocks cleaning and condensation water collection.

Dryer according to embodiments of the present invention, including body, defines working chamber arranged spaced apart in described body And installation cavity, the side of described working chamber opens wide, described body be provided with circulation air inlet, circulation air outlet, cooling air inlet, Cooling air outlet；Door body, described door body is movably located to be opened with opening and closing the side of described working chamber on described body Mouthful；Heat-exchange system, described heat-exchange system is located at described installation intracavity, defines the first heat exchanging chamber and second in described heat-exchange system Heat exchanging chamber, described heat-exchange system have respectively with described first heat exchanging chamber conducting the first import, first outlet and respectively with institute State the second import and the second outlet of the second heat exchanging chamber conducting, described first import and the conducting of described cooling air inlet, described the One outlet and described cooling air outlet conducting, described second import and described circulation air outlet conducting, described second outlet and institute State circulation air inlet conducting；Fan assembly, described fan assembly includes the first blower fan and the second blower fan, and described first blower fan will be outer Boundary's air imports described first heat exchange intracavity from described first import and discharges extraneous, described second blower fan from described first outlet The damp-heat air of described work intracavity is imported described second heat exchange intracavity through heat exchange and from described the from described second import Two outlets drain into described working chamber.

Dryer according to embodiments of the present invention, by arranging heat-exchange system installing intracavity, and by heat-exchange system First heat exchanging chamber and cooling air inlet, cooling air outlet conducting, by the second heat exchanging chamber of heat-exchange system and circulation air inlet, circulation Air outlet conducting is so that the damp-heat air of the extraneous air and entrance the second heat exchanging chamber that enter the first heat exchanging chamber vertically countercurrently changes Heat, thus effectively improving heat exchange efficiency and the space availability ratio of heat exchanger, and then the drying efficiency of raising dryer, reduce dry The noise of clothing machine running, meanwhile, heat-exchange system is vertically arranged it is also possible to realize the quick collection of condensed water and soft flocks from clear Clean function, compared to straight-line dryer, so that the air moisture-free that cooling air outlet is discharged, it is to avoid impact is indoor wet Degree.Therefore, the structure of this dryer is simple, easy for installation, running noises are little, and drying efficiency is high, and be easy to soft flocks cleaning and Condensation water collection.

In addition, dryer according to embodiments of the present invention, can also have the technical characteristic adding as follows：

According to one embodiment of present invention, described heat-exchange system also includes：Heating element heater, described heating element heater is located at institute State between second outlet and described circulation air inlet.

According to one embodiment of present invention, described heat-exchange system includes：Shell, described inside the shell defines air channel, institute State shell and there is described first import, first outlet, the second import and second outlet；First Heat Exchanger, described First Heat Exchanger It is located in described air channel, and described First Heat Exchanger has spaced apart and adjacently positioned described first heat exchanging chamber and described second Heat exchanging chamber.

According to one embodiment of present invention, described First Heat Exchanger includes：First housing；Multiple first heat exchanger fins are many Individual described first heat exchanger fin along the axially spaced arrangement of described first housing, between two neighboring described first heat exchanger fin, position In both sides described first heat exchanger fin limit and the opposing sidewalls of described first housing between respectively multiple arranged spaced apart Described first heat exchanging chamber and the second heat exchanging chamber, multiple described first heat exchanging chambers and multiple described second heat exchanging chamber are along described first shell The axial direction of body is alternately arranged, and the fluid flow direction of described first heat exchanging chamber is contrary with the fluid flow direction of described second heat exchanging chamber.

According to one embodiment of present invention, described dryer also includes：Second heat exchanger, limit in described second heat exchanger Surely have and be spaced apart and the 3rd adjacently positioned heat exchanging chamber and the 4th heat exchanging chamber, described 3rd heat exchanging chamber and described second heat exchanging chamber and Described second import conducting, described 4th heat exchanging chamber and described second heat exchanging chamber and the conducting of described second outlet.

According to one embodiment of present invention, described second heat exchanger includes：Second housing；Multiple second heat exchanger fins are many Individual described second heat exchanger fin along the axially spaced arrangement of described second housing, between two neighboring described second heat exchanger fin, position In both sides described second heat exchanger fin limit and the opposing sidewalls of described second housing between respectively multiple arranged spaced apart Described 3rd heat exchanging chamber and the 4th heat exchanging chamber, multiple described 3rd heat exchanging chambers and multiple described 4th heat exchanging chamber are along described second shell The axial direction of body is alternately arranged, and the fluid flow direction of described 3rd heat exchanging chamber flow to the fluid of described 4th heat exchanging chamber intersect inverse Stream.

According to one embodiment of present invention, described fan assembly is located at described inside the shell, and described first blower fan is neighbouring Described first import setting, described second blower fan is adjacent to described second import setting.

According to one embodiment of present invention, described first import and described second import are respectively provided at the bottom of described shell Portion, described first outlet and described second outlet are arranged on the top of described shell.

According to one embodiment of present invention, described dryer also includes：Filter, described filter is in airflow direction Above, it is located between described working chamber and described loop exit.

According to one embodiment of present invention, it is provided with the baffle plate extending along its short transverse, described baffle plate in described body Limit described working chamber and the described installation cavity that left and right is spaced apart with described body respectively.

According to one embodiment of present invention, described heat-exchange system also includes：Condensation integrator, described condensation integrator with Described second heat exchanging chamber connection；Condensation water box, described condensation water box are detachably arranged in installs the bottom of intracavity and cold with described Coagulation is grown up to be a useful person and is turned on by water pipe.

According to one embodiment of present invention, the top of described work intracavity is provided with hanger bar.

The additional aspect of the present invention and advantage will be set forth in part in the description, and partly will become from the following description Obtain substantially, or recognized by the practice of the present invention.

Brief description

The above-mentioned and/or additional aspect of the present invention and advantage will become from reference to the description to embodiment for the accompanying drawings below Substantially and easy to understand, wherein：

Fig. 1 is the structural representation of dryer according to embodiments of the present invention；

Fig. 2 is the another structural representation of dryer according to embodiments of the present invention；

Fig. 3 is the heat-exchange system of dryer according to embodiments of the present invention and the assembling figure of fan assembly；

Fig. 4 is the heat-exchange system of dryer according to embodiments of the present invention and the explosive view of fan assembly.

Reference：

100：Dryer；

10：Body；

11：Working chamber；12：Installation cavity；121：Circulation air inlet；122：Circulation air outlet；

123：Cooling air inlet；124：Cooling air outlet；

20：Door body；

30：Heat-exchange system；

31：First Heat Exchanger；311：First housing；312：First heat exchanger fin；

32：Second heat exchanger；321：Second housing；322：Second heat exchanger fin；

33：Shell；

331：First import；332：First outlet；333：Second import；334：Second outlet；

34：Baffle plate；35：Condensation integrator；36：Condensation water box；

40：Fan assembly；41：First blower fan；42：Second blower fan；

50：Heating element heater；

60：Hanger bar.

Specific embodiment

Embodiments of the invention are described below in detail, the example of described embodiment is shown in the drawings, wherein from start to finish The element that same or similar label represents same or similar element or has same or like function.Below with reference to attached The embodiment of figure description is exemplary it is intended to be used for explaining the present invention, and is not considered as limiting the invention.

Specifically describe dryer 100 according to embodiments of the present invention below in conjunction with the accompanying drawings.

As shown in Figures 1 to 4, dryer 100 according to embodiments of the present invention includes body 10, door body 20, fan assembly 40 and heat-exchange system 30.

Specifically, working chamber 11 arranged spaced apart and installation cavity 12, the side of working chamber 11 are defined in body 10 Open wide, body 10 is provided with circulation air inlet 121, circulation air outlet 122, cooling air inlet 123, cooling air outlet 124, door body 20 are movably located to open and close a side opening of working chamber 11 on body 10, and heat-exchange system 30 is located at installation cavity 12 Interior, define the first heat exchanging chamber and the second heat exchanging chamber in heat-exchange system 30, heat-exchange system 30 has is led with the first heat exchanging chamber respectively Logical the first import 331, first outlet 332 and the second import 333 and the second outlet 334 with the second heat exchanging chamber conducting respectively, First import 331 and cooling air inlet 123 turn on, first outlet 332 with cooling air outlet 124 turn on, the second import 333 with follow Ring air outlet 122 turns on, and second outlet 334 is turned on circulation air inlet 121, and fan assembly 40 includes the first blower fan 41 and second Blower fan 42, outside air is imported the first heat exchange intracavity and from first outlet 332 is discharged from the first import 331 by the first blower fan 41 Boundary, the second blower fan 42 by the damp-heat air in working chamber 11 from the second import 333 import the second heat exchange intracavity through heat exchange and from Second outlet 334 drains into working chamber 11.

In other words, this dryer 100 is mainly made up of body 10, door body 20, fan assembly 40 and heat-exchange system 30.Body 10 vertically (above-below direction as shown in Figure 1) extensions, body 10 is generally formed into rectangular structure, limits in body 10 There are the unlimited working chamber 11 in side and the installation cavity 12 for accommodating heat-exchange system 30, working chamber 11 and installation cavity 12 along length side Arranged spaced apart to (left and right directions as shown in Figure 1), the working chamber 11 medial wall lower end (working chamber 11 as shown in Figure 1 of body 10 Right side wall lower end) it is provided with circulation air outlet 122, the working chamber 11 medial wall upper end of body 10 is (on the right side of working chamber 11 as shown in Figure 1 Wall upper end) it is provided with circulation air inlet 121, the installation cavity 12 lateral wall lower end of body 10 is (under installation cavity 12 antetheca as shown in Figure 1 End) it is provided with cooling air inlet 123, the installation cavity 12 lateral wall upper end (installation cavity 12 upper wall as shown in Figure 1) of body 10 is provided with cold But air outlet 124, meanwhile, door body 20 is movably installed at the unlimited side of the working chamber 11 of body 10 to open or to close work Make chamber 11, for example, door body 20 can be connected with body 10 by hinged or other similar fashion, when user needs medicated clothing is dried When, open door body 20, medicated clothing is suspended in working chamber 11, be then shut off door body 20, run dryer 100 and realize to medicated clothing Drying function.

Further, heat-exchange system 30 is located in installation cavity 12, defines arranged spaced apart first in heat-exchange system 30 Heat exchanging chamber and the second heat exchanging chamber, vertically (above-below direction as shown in Figure 3) extends, before heat-exchange system 30 heat-exchange system 30 Lower end is provided with the first import 331, and front upper end is provided with first outlet 332, and posterior end is provided with the second import 333, and rear upper end is provided with Two outlets 334, the first heat exchanging chamber is turned on the first import 331 and first outlet 332, the second heat exchanging chamber and the second import 333 and Second outlet 334 turns on, and meanwhile, the first import 331 and cooling air inlet 123 turn on, first outlet 332 and cooling air outlet 124 conductings, the second import 333 and circulation air outlet 122 turn on, second outlet 334 is turned on circulation air inlet 121, that is, Say, the first heat exchanging chamber indirectly with cooling air inlet 123, cooling air outlet 124 turn on, the second heat exchanging chamber indirectly with recycle Air port 122, circulation air inlet 121 turn on.

Furthermore, fan assembly 40 is mainly made up of the first blower fan 41 and the second blower fan 42, and fan assembly 40 is located at heat exchange system The lower end of system 30, and the first blower fan 41 arranges adjacent to the first import 331, and the second blower fan 42 is arranged adjacent to the second import 333, from And make the first blower fan 41 pass through the first import 331 and outside air is imported the first heat exchange intracavity so that the second blower fan 42 passes through Damp-heat air in working chamber 11 is imported the second heat exchange intracavity by the second import 333, then, enters the extraneous empty of the first heat exchanging chamber Gas carries out countercurrent flow with the damp-heat air entering the second heat exchanging chamber in heat-exchange system 30, forms heat empty after outside air heat exchange Gas, forms cold dry air after damp-heat air condensation, finally, hot-air discharges the external world from first outlet 332, cold dry air is from second Outlet 334 drains into working chamber 11, thus effectively improving heat exchange efficiency and the space availability ratio of heat-exchange system 30, and then improves dry The drying efficiency of clothing machine 100, reduces and runs noise, meanwhile, compared to straight-line dryer 100, the external world of the first heat exchange intracavity The damp-heat air of air and the second heat exchange intracavity carries out non-direct contact heat exchange, so that discharged outer by first outlet 332 The hot-air water content on boundary is constant, and then avoids affecting indoor humidity.

Thus, dryer 100 according to embodiments of the present invention, by arranging heat-exchange system 30 in installation cavity 12, and First heat exchanging chamber of heat-exchange system 30 is turned on cooling air inlet 123, cooling air outlet 124, by the second of heat-exchange system 30 Heat exchanging chamber is turned on circulation air inlet 121, circulation air outlet 122 so that entering the extraneous air of the first heat exchanging chamber and entrance the The vertical countercurrent flow of damp-heat air of two heat exchanging chambers, thus effectively improving heat exchange efficiency and the space availability ratio of heat exchanger, enters And improve the drying efficiency of dryer 100, reduce the noise of dryer 100 running, meanwhile, the vertical cloth of heat-exchange system 30 Put it is also possible to realize quick collection and the soft flocks self-cleaning function of condensed water, compared to straight-line dryer 100, so that The air moisture-free that cooling air outlet 124 is discharged, it is to avoid impact indoor humidity.Therefore, the structure of this dryer 100 simple, Easy for installation, running noises are little, and drying efficiency is high, and are easy to soft flocks cleaning and condensation water collection.

Advantageously, heat-exchange system 30 also includes：Heating element heater 50, heating element heater 50 be located at second outlet 334 and circulate into Between air port 121.

Specifically, as shown in Figure 3 and Figure 4, heating element heater 50 is located between second outlet 334 and circulation air inlet 121, from And using heating element heater 50, the cold dry air being formed after the second heat exchanging chamber heat exchange is heated, form heated dry air, enter And the wet clothes in working chamber 11 are dried.

In certain specific embodiments of the invention, heat-exchange system 30 includes shell 33 and First Heat Exchanger 31, shell Air channel is defined, shell 33 has the first import 331, first outlet 332, the second import 333 and second outlet 334 in 33, the One heat exchanger 31 is located in air channel, and First Heat Exchanger 31 has spaced apart and the first adjacently positioned heat exchanging chamber and the second heat exchange Chamber.

With reference to Fig. 3 and Fig. 4, heat-exchange system 30 has shell 33 and First Heat Exchanger 31, defines for flowing in shell 33 The air channel that body (as extraneous air, damp-heat air etc.) flows, the front lower end of shell 33 is provided with the first import 331, and front upper end is provided with First outlet 332, posterior end is provided with the second import 333, and rear upper end is provided with second outlet 334, and First Heat Exchanger 31 is located at air channel Middle part, the first heat exchanging chamber and the second heat exchanging chamber are along axial direction (left and right directions as shown in Figure 3) interval of First Heat Exchanger 31 Open arrangement, meanwhile, the first heat exchanging chamber is turned on the first import 331 and first outlet 332, the second heat exchanging chamber and the second import 333 Turn on second outlet 334, so that entering the outside air in First Heat Exchanger 31 and the damp-heat air entering heat exchanger Carry out contactless homonymy countercurrent flow, and then both can improve the heat exchange efficiency of heat exchanger, can avoid outer after heat exchange again Boundary's air produces impact to indoor humidity.

Wherein, First Heat Exchanger 31 includes the first housing 311 and multiple first heat exchanger fin 312, multiple first heat exchanger fins 312 Along the axially spaced arrangement of the first housing 311, the first heat exchanger fin between two neighboring first heat exchanger fin 312, positioned at both sides 312 limit multiple first heat exchanging chambers arranged spaced apart and the second heat exchange respectively and the opposing sidewalls of the first housing 311 between Chamber, multiple first heat exchanging chambers and multiple second heat exchanging chamber are alternately arranged along the axial direction of the first housing 311, and the stream of the first heat exchanging chamber Direction of flow is contrary with the fluid flow direction of the second heat exchanging chamber.

As shown in figure 3, First Heat Exchanger 31 is mainly by the first housing 311 and multiple first heat exchanger fin 312, the first housing 311 section is generally formed into octagon, the cross sectional shape of multiple first heat exchanger fins 312, the cross section substantially with housing for the size Shape, equivalently-sized, multiple first heat exchanger fins 312 are respectively along the axial direction (right and left as shown in Figure 3 of the first housing 311 To) the first heat exchanger fin in the first housing 311, between two neighboring first heat exchanger fin 312, positioned at both sides arranged spaced apart 312 respectively with the opposing sidewalls (i.e. the left and right opposing sidewalls of the first housing 311 and in front and back opposing sidewalls) of the first housing 311 it Between limit multiple first heat exchanging chambers arranged spaced apart and the second heat exchanging chamber, multiple first heat exchanging chambers and the second heat exchanging chamber are along The axial direction (left and right directions as shown in Figure 3) of one housing 311 is alternately superimposed on, and, the first heat exchanging chamber fluid flow direction under Flow up, the fluid of the second heat exchanging chamber flows from the top down, so that the fluid of First Heat Exchanger 31 forms homonymy adverse current Exchanging, thus improving heat exchange efficiency and the space availability ratio of First Heat Exchanger 31, and entering the damp-heat air of the second heat exchanging chamber Be formed as cold dry air, the water that condensation condenses can lean on gravity and wind-force acts on the of lower edge First Heat Exchanger 31 after heat exchange condensation The cavity wall of two heat exchanging chambers flows down, and meanwhile, the soft flocks in First Heat Exchanger 31 can also be in the comprehensive function of waterpower, gravity and wind-force The lower automatically cleaning realizing First Heat Exchanger 31.For example, as shown in figure 3, in the present embodiment, multiple adjacent first heat exchanger fins 312 Limit 9 the first heat exchanging chambers arranged spaced apart and the second heat exchanging chamber, wherein, first with the opposing sidewalls of the first housing 311 The quantity of heat exchanging chamber is 5 and is located at the odd-level counting from the top down, the quantity of the second heat exchanging chamber is 4 and is located at from the top down The even level of number, the first heat exchanging chamber of odd-level and the second heat exchanging chamber of even level are in axial direction alternately superimposed on.Meanwhile, first Heat exchanging chamber, the particular number of the second heat exchanging chamber can be adjusted by increasing or decreasing the quantity of the first heat exchanger fin 312, with full The heat exchange efficiency of sufficient First Heat Exchanger 31 and the requirement of space availability ratio, this is appreciated that for a person skilled in the art 's.

In other specific embodiments of the present invention, heat-exchange system 30 also includes the second heat exchanger 32, the second heat exchange Define in device 32 and be spaced apart and the 3rd adjacently positioned heat exchanging chamber and the 4th heat exchanging chamber, the 3rd heat exchanging chamber and the second heat exchanging chamber and Second import 333 turns on, and the 4th heat exchanging chamber is turned on the second heat exchanging chamber and second outlet 334.

With reference to Fig. 3 and Fig. 4, heat-exchange system 30 is mainly made up of First Heat Exchanger 31 and the second heat exchanger 32, the first heat exchange Device 31 be located at the first import 331, shell 33 air channel of first outlet 332 homonymy in, the second heat exchanger 32 is located at and enters with second Mouthfuls 333, in shell 33 air channel of second outlet 334 homonymy, the second heat exchanger 32 defines and is spaced apart the 3rd being alternately arranged and changes Hot chamber and the 4th heat exchanging chamber, the 3rd heat exchanging chamber is turned on the upper end of the second heat exchanging chamber and the second import 333, the 4th heat exchanging chamber and The lower end of two heat exchanging chambers and second outlet 334 turn on.

Operationally, in working chamber 11, damp-heat air enters the 3rd heat exchanging chamber by the second import 333 to dryer 100, with Pre- heat exchange is carried out by the cold dry air that the condensation that the second heat exchanging chamber enters the 4th heat exchange intracavity finishes, then enters back into second The cold air of heat exchange intracavity and the first heat exchange intracavity carries out further heat exchange, that is, form the residual neat recovering system of double heat exchanger, Damp-heat air before flowing into the second heat exchanging chamber of First Heat Exchanger 31, first in the second heat exchanger 32 with the 4th heat exchange intracavity Carrying out heat exchange through the cold dry air of condensation process, reducing uniform temperature, thus improving damp-heat air in First Heat Exchanger 31 In condensation efficiency, meanwhile, the condensed cold dry air of the 4th heat exchange intracavity and the steam warp having just enter into the 3rd heat exchange intracavity After crossing heat exchange, temperature obtains certain raising, then heats through heating element heater 50, improves uniform temperature further, thus dropping The heating energy consumption of low dryer 100.

That is, the damp-heat air in working chamber 11 passes sequentially through the second import 222, the 3rd heat exchanging chamber, the second heat exchange Chamber, the 4th heat exchanging chamber, second outlet 334, wherein damp-heat air are carried out twice in the 3rd heat exchanging chamber and the second heat exchange intracavity respectively Cooling, ultimately forms cold dry air, and cold dry air heats up through twice at the 4th heat exchanging chamber, the position of heating element heater 50, Ultimately form heated dry air and enter in working chamber 11, and so on.

Wherein, the second heat exchanger 32 includes the second housing 321 and multiple second heat exchanger fin 322, multiple second heat exchanger fins 322 Along the axially spaced arrangement of the second housing 321, the second heat exchanger fin between two neighboring second heat exchanger fin 322, positioned at both sides 322 limit multiple 3rd heat exchanging chambers arranged spaced apart and the 4th heat exchange respectively and the opposing sidewalls of the second housing 321 between Chamber, multiple 3rd heat exchanging chambers and multiple 4th heat exchanging chamber are alternately arranged along the axial direction of the second housing 321, and the stream of the 3rd heat exchanging chamber Direction of flow flows to cross-counterflow with the fluid of the 4th heat exchanging chamber.

As shown in figure 3, the second heat exchanger 32 is mainly by the second housing 321 and multiple second heat exchanger fin 322, the second housing 321 section is generally formed into octagon, the cross sectional shape of multiple second heat exchanger fins 322, the cross section substantially with housing for the size Shape, equivalently-sized, multiple second heat exchanger fins 322 are respectively along the axial direction (right and left as shown in Figure 3 of the second housing 321 To) the second heat exchanger fin in the second housing 321, between two neighboring second heat exchanger fin 322, positioned at both sides arranged spaced apart 322 respectively with the opposing sidewalls (i.e. the left and right opposing sidewalls of the second housing 321 and in front and back opposing sidewalls) of the second housing 321 it Between limit multiple 3rd heat exchanging chambers arranged spaced apart and the 4th heat exchanging chamber, multiple 3rd heat exchanging chambers and the 4th heat exchanging chamber are along The axial direction (left and right directions as shown in Figure 3) of two housings 321 is alternately superimposed on, and, the fluid of the 3rd heat exchanging chamber flows to from rear Under upper forward flow, the fluid of the 4th heat exchanging chamber from front lower backward flowing so that the fluid of the second heat exchanger 32 is formed Cross-counterflow exchanges, and then improves heat exchange efficiency and the space availability ratio of the second heat exchanger 32, meanwhile, to entrance the 3rd heat exchanging chamber Cold dry air and enter the 4th heat exchanging chamber the pre- heat exchange of damp-heat air, thus improving condensation efficiency and the reduction of damp-heat air Drying energy consumption.

Alternatively, fan assembly 40 is located in shell 33, and the first blower fan 41 is arranged adjacent to the first import 331, the second wind Machine 42 is arranged adjacent to the second import 333.

Specifically, as shown in Figure 3 and Figure 4, fan assembly 40 is located at shell 33 top, and the first blower fan 41 is adjacent to first Import 331 is arranged, and the second blower fan 42 is arranged adjacent to the second import 333, thus the work using the first blower fan 41 and the second blower fan 42 With it is ensured that the cycle heat exchange process of damp-heat air in outside air and working chamber 11.

Wherein, the first import 331 and the second import 333 are respectively provided at the bottom of shell 33, and first outlet 332 and second goes out Mouth 334 is arranged on the top of shell 33.

See figures.1.and.2, the first import 331 is located at the bottom front of body 10 shell 33, the second import 333 is located at outer Shell 33 bottom interior wall and turning on working chamber 11, first outlet 332 is located at shell 33 top, and second outlet 334 is located at shell 33 The top of medial wall and second outlet 334 is turned on working chamber 11, so that outside air flows from bottom to top, damp-heat air Flow from the top down, and then condense the collection of the condensed water of condensation, meanwhile, after being easy to damp-heat air heat exchange in the second heat exchanging chamber Soft flocks in one heat exchanger 31 can also realize the certainly clear of First Heat Exchanger 31 under the comprehensive function of waterpower, gravity and wind-force Clean.

Alternatively, dryer 100 also includes filter, filter in the direction of the air flow, be located at working chamber 11 and recycling Between air port 122.

Specifically, as shown in figure 1, filter is located on the inwall of shell 33, and it is located at working chamber 11 and circulation air outlet Between 122, thus being filtered to the soft flocks in the damp-heat air entering circulation air outlet 122 using filter, to ensure to do The operational reliability of the heat-exchange system 30 of clothing machine 100.

Preferably, it is provided with the baffle plate 34 extending along its short transverse in body 10, baffle plate 34 is limited respectively with body 10 Working chamber 11 and installation cavity 12 that left and right is spaced apart.

As shown in figure 1, baffle plate 34 along body 10 short transverse (above-below direction as shown in Figure 1) extend and be located at body 10 Interior, baffle plate 34 limits, with body 10, working chamber 11 and the installation cavity 12 that left and right is spaced apart respectively, so that in installation cavity 12 Heat-exchange system 30 be spaced apart with working chamber 11, it is to avoid damp-heat air in working chamber 11 and soft flocks enter installation cavity 12, enter And flow out from cooling wind inlet or cooling air outlet, thus affect the operational reliability of heat-exchange system 30, reduce dryer 100 Drying efficiency.

In addition, heat-exchange system 30 also includes condensing integrator 35 and condensation water box 36, condensation integrator 35 and the second heat exchange Chamber connects, the bottom that is detachably arranged in installation cavity 12 of condensation water box 36 and being turned on by water pipe with condensation integrator 35.

With reference to Fig. 3 and Fig. 4, condensation integrator 35 is located at heat-exchange system 30 bottom and is turned on the second heat exchanging chamber, condensed water Box 36 is removably mounted on the bottom in installation cavity 12, and condense water box 36 pass through pipeline with condense integrator 35 connect, So that the condensed water of the second heat exchange intracavity and soft flocks can be collected by condensing integrator 35, and import condensation water box 36, and detachably arrange, also allow for the timely cleaning of condensed water and soft flocks, to ensure the heat exchange efficiency of heat-exchange system 30.

Alternatively, the top in working chamber 11 is provided with hanger bar 60.

As shown in figure 1, hanger bar 60 is located at the top of working chamber 11, consequently facilitating wet wash is suspended on working chamber 11 Interior, thus increasing the contact area of wet wash and the heated dry air entering working chamber 11 from circulation air inlet 121, and then improve dry Clothing efficiency.

Other of dryer 100 according to embodiments of the present invention constitute and operate for those of ordinary skill in the art Speech is all known, is not detailed herein.

In describing the invention it is to be understood that term " " center ", " longitudinal ", " horizontal ", " length ", " width ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertical ", " level ", " top ", the orientation of instruction or the position such as " bottom " The relation of putting is based on orientation shown in the drawings or position relationship, is for only for ease of the description present invention and simplifies description, rather than Indicate or the hint device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not It is interpreted as limitation of the present invention.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or hint relative importance Or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include one or more this feature.In describing the invention, " multiple " are meant that two or more, Unless otherwise expressly limited specifically.

In the present invention, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection ", " fixation " etc. Term should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or is integrally connected；It can be machine Tool connects or electrically connects；Can be to be joined directly together it is also possible to be indirectly connected to by intermediary, can be two units Connection within part.For the ordinary skill in the art, above-mentioned term can be understood as the case may be at this Concrete meaning in bright.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or the spy describing with reference to this embodiment or example Point is contained at least one embodiment or the example of the present invention.In this manual, to the schematic representation of above-mentioned term not Necessarily refer to identical embodiment or example.And, the specific features of description, structure, material or feature can be any One or more embodiments or example in combine in an appropriate manner.

Although embodiments of the invention have been shown and described above it is to be understood that above-described embodiment is example Property it is impossible to be interpreted as limitation of the present invention, those of ordinary skill in the art is in the principle without departing from the present invention and objective In the case of above-described embodiment can be changed within the scope of the invention, change, replace and modification.

Claims (12)

1. a kind of dryer is it is characterised in that include：

Body, defines working chamber arranged spaced apart and installation cavity, the side of described working chamber is opened wide, described in described body Body is provided with circulation air inlet, circulation air outlet, cooling air inlet, cooling air outlet；

Door body, described door body is movably located on described body to open and close a side opening of described working chamber；

Heat-exchange system, described heat-exchange system is located at described installation intracavity, defines the first heat exchanging chamber and in described heat-exchange system Two heat exchanging chambers, described heat-exchange system have respectively with described first heat exchanging chamber conducting the first import, first outlet and respectively with Second import of described second heat exchanging chamber conducting and second outlet, described first import and described cooling air inlet conducting, described First outlet with described cooling air outlet conducting, described second import with described circulation air outlet conducting, described second outlet with Described circulation air inlet conducting；

Fan assembly, described fan assembly includes the first blower fan and the second blower fan, and described first blower fan is by outside air from described First import imports described first heat exchange intracavity and simultaneously discharges from described first outlet extraneous, and described second blower fan is by described working chamber Interior damp-heat air imports described second heat exchange intracavity from described second import and drains into institute through heat exchange and from described second outlet State working chamber.

2. dryer according to claim 1 is it is characterised in that described heat-exchange system also includes：Heating element heater, described plus Thermal element is located between described second outlet and described circulation air inlet.

3. dryer according to claim 1 is it is characterised in that described heat-exchange system includes：

Shell, described inside the shell defines air channel, and described shell has described first import, first outlet, the second import and Two outlets；

First Heat Exchanger, described First Heat Exchanger is located in described air channel, and described First Heat Exchanger have be spaced apart and adjacent Described first heat exchanging chamber of arrangement and described second heat exchanging chamber.

4. dryer according to claim 3 is it is characterised in that described First Heat Exchanger includes：

First housing；

Multiple first heat exchanger fins, multiple described first heat exchanger fins are along the axially spaced arrangement of described first housing, two neighboring Described first heat exchanger fin between described first heat exchanger fin, positioned at both sides limits respectively and the opposing sidewalls of described first housing between Make multiple described first heat exchanging chambers arranged spaced apart and the second heat exchanging chamber, multiple described first heat exchanging chambers and multiple described Two heat exchanging chambers are alternately arranged along the axial direction of described first housing, and the fluid flow direction of described first heat exchanging chamber and described second heat exchange The fluid flow direction in chamber is contrary.

5. dryer according to claim 3 is it is characterised in that also include：Second heat exchanger, in described second heat exchanger Define spaced apart and the 3rd adjacently positioned heat exchanging chamber and the 4th heat exchanging chamber, described 3rd heat exchanging chamber and described second heat exchanging chamber With described second import conducting, described 4th heat exchanging chamber and described second heat exchanging chamber and the conducting of described second outlet.

6. dryer according to claim 5 is it is characterised in that include：

Second housing；

Multiple second heat exchanger fins, multiple described second heat exchanger fins are along the axially spaced arrangement of described second housing, two neighboring Described second heat exchanger fin between described second heat exchanger fin, positioned at both sides limits respectively and the opposing sidewalls of described second housing between Make multiple described 3rd heat exchanging chambers arranged spaced apart and the 4th heat exchanging chamber, multiple described 3rd heat exchanging chambers and multiple described Four heat exchanging chambers are alternately arranged along the axial direction of described second housing, and the fluid flow direction of described 3rd heat exchanging chamber and described 4th heat exchange The fluid in chamber flows to cross-counterflow.

7. dryer according to claim 3 is it is characterised in that described fan assembly is located at described inside the shell and described , adjacent to described first import setting, described second blower fan is adjacent to described second import setting for first blower fan.

8. dryer according to claim 3 is it is characterised in that described first import and described second import are respectively provided at The bottom of described shell, described first outlet and described second outlet are arranged on the top of described shell.

9. dryer according to claim 1 is it is characterised in that also include：Filter, described filter is in airflow direction Above, it is located between described working chamber and described circulation air outlet.

10. dryer according to claim 1 is it is characterised in that be provided with described body along the extension of its short transverse Baffle plate, described baffle plate limits, with described body, described working chamber and the described installation cavity that left and right is spaced apart respectively.

11. dryers according to claim 1 are it is characterised in that described heat-exchange system also includes：

Condensation integrator, described condensation integrator is connected with described second heat exchanging chamber；

Condensation water box, described condensation water box are detachably arranged in the bottom installing intracavity and pass through water pipe with described condensation integrator Conducting.

12. dryers according to claim 1 are it is characterised in that the top of described work intracavity is provided with hanger bar.