CN102733150A - Clothes processor - Google Patents
Clothes processor Download PDFInfo
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- CN102733150A CN102733150A CN2012100890199A CN201210089019A CN102733150A CN 102733150 A CN102733150 A CN 102733150A CN 2012100890199 A CN2012100890199 A CN 2012100890199A CN 201210089019 A CN201210089019 A CN 201210089019A CN 102733150 A CN102733150 A CN 102733150A
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- water
- basket
- dehumidifying
- oven dry
- dry air
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Abstract
The invention provides a clothes processor. The clothes processor comprises a main basket body accomodating the driving source of a processing tank accomodating clothes and a driving processing tank, a support part damping the vibration, a drainage system discharging clothes washing water outside the main basket body and a circulating system for circulating the drying air. The circulating system comprises a dehumidifying part for dehumidifying the drying air and a sensing component measuring the drying degree of clothes. A guide pipe specifying the flow path for the air to flow comprises an inflow port for the washing water supplied to the processing tank and the drying air to flow therein. The drainage system comprises a drainage pipe guiding the clothes washing water towards the outside of the main basket body and a connecting part connecting the inflow port and the drainage pipe. The drainage pipe comprises a fixing part fixed on the main basket body. The sensing component comprises a temperature sensor for measuring the temperature of dehumidifying water flowed into the fixing part through the connecting part. In this way, the sensing component can be stably retained.
Description
Technical field
The present invention relates to device for clothing processing to clothing is done washing and oven dry etc. is handled.
Background technology
The device for clothing processing that clothing is carried out laundry treatment or oven dry processing typically comprises the circulatory system that makes the oven dry air circulation that supplies drying clothes.The circulatory system for example comprises the heat exchanger that carries out heat exchange with the oven dry air.
Patent documentation 1 discloses a kind of device for clothing processing that comprises tube type heat exchanger.The dehumidifying water that use is supplied in the heat exchanger dehumidifies to the oven dry air.Thereafter, the oven dry air supply through heater heating is to the treatment trough that contains clothing.
According to the disclosure of patent documentation 1, use the temperature sensor of the temperature that is used to measure dehumidifying water for the oven dry degree that detects washings.
Patent documentation 1 disclosed temperature sensor has been measured just the temperature of carrying out the dehumidifying water after the heat exchange with the oven dry air for the oven dry degree that detects washings.Therefore, temperature sensor is installed near the oven dry groove of drying clothes.
The oven dry groove comprises the rotary part (for example impeller or swing roller) that clothing is rolled.Vibration from rotary part makes being installed in of temperature sensor physically become unstable.Unsettled being equipped with of temperature sensor possibly cause temperature measurement accuracy to reduce.
Patent documentation 1: Japan Patent open communique spy open 2000-397 number
Summary of the invention
The object of the present invention is to provide a kind of device for clothing processing of structure of the sensing element with the dryness fraction that can stably be kept for measuring clothing.
Device for clothing processing involved in the present invention comprises: treatment trough is used to accommodate clothing; Drive source drives said treatment trough; Main basket is accommodated said treatment trough and said drive source; Support component supports said treatment trough and decay are passed to said main basket from said treatment trough vibration; Drainage system, outside said main basket, discharge be used to wash or the said treatment trough of rinsing in the laundry water of said clothing; And the circulatory system; Make the oven dry air circulation of the said clothing in the said treatment trough of oven dry; Wherein, The said circulatory system comprises dehumidifying parts that said oven dry air is dehumidified and the sensing element of measuring the dryness fraction of said clothing, and said dehumidifying parts comprise: the guiding tube that comprises the inner face of the mobile stream of the said oven dry air of regulation; And the feed water inlet that is used in said stream the dehumidifying water that supply is used for said oven dry air is dehumidified; Wherein, Said guiding tube comprises the inflow entrance that the said laundry water that is supplied to said treatment trough and said oven dry air are flowed into, and said drainage system comprises: the drainpipe of the said laundry water of guiding outside said main basket; And the attaching parts that connect said inflow entrance and said drainpipe; Wherein, Said drainpipe comprises the fixed part that is fixed in said main basket, and said sensing element comprises and is used for measuring the temperature sensor of temperature that flows into the said dehumidifying water of said fixed part through said attaching parts.
According to said structure, device for clothing processing involved in the present invention can stably be kept for measuring the sensing element of the dryness fraction of clothing.
Description of drawings
Fig. 1 is the approximate three-dimensional map of the dryer of an embodiment.
Fig. 2 is the front view of dryer shown in Figure 1.
Fig. 3 is the vertical view of dryer shown in Figure 1.
Fig. 4 is the stereogram of the internal structure of expression dryer shown in Figure 1.
Fig. 5 is the general profile chart of the internal structure of expression dryer shown in Figure 1.
Fig. 6 is the vertical view of the internal structure of expression dryer shown in Figure 1.
Fig. 7 is the side view of the heat exchanger that dryer had shown in Figure 1.
Fig. 8 is the general configuration diagram of the filter that dryer had shown in Figure 1, pipe assembly, pressure fan, heater and pipeline.
Fig. 9 is the heat exchanger that dryer had shown in Figure 1 and the rearview of filter.
Figure 10 is the cutaway view of the filter that dryer had shown in Figure 1.
Figure 11 is the cutaway view of the downside assembly that filter had shown in Figure 10.
Figure 12 is the vertical view of dryer shown in Figure 1.
Figure 13 is the stereogram of the upside assembly that filter had shown in Figure 10.
Figure 14 is the cutaway view of upside assembly shown in Figure 13.
Figure 15 is the front view of upside assembly shown in Figure 13.
Figure 16 is the right side view of first basket that had of upside assembly shown in Figure 13.
Figure 17 is the general profile chart of upside assembly shown in Figure 13.
Figure 18 is the outline elevation of upside assembly shown in Figure 13.
Figure 19 representes first basket that upside assembly shown in Figure 13 is had and rotates the figure of projection.
Figure 20 is expression second basket that had of upside assembly shown in Figure 13 and the figure of support tube.
Figure 21 is expression first basket that had of upside assembly shown in Figure 13 and the figure of second basket.
Figure 22 is that first support tube of expression second basket shown in Figure 21 rotates the figure of projection with first of first basket.
Figure 23 is the general profile chart of second basket shown in Figure 21.
Figure 24 is the stereogram of upside assembly shown in Figure 13.
Figure 25 is the figure of expression upside assembly shown in Figure 24.
Figure 26 is the skeleton diagram of heat exchanger shown in Figure 7.
Figure 27 is the approximate three-dimensional map of second shell body of heat exchanger shown in Figure 26.
Figure 28 (a) is the enlarged drawing of the first rib of second shell body shown in Figure 27.
Figure 28 (b) is the general profile chart of second shell body shown in Figure 27.
Figure 29 is the outline elevation of second shell body shown in Figure 27.
Figure 30 is the summary longitudinal section of heat exchanger shown in Figure 26.
Figure 31 is that the summary on the top of heat exchanger shown in Figure 30 amplifies longitudinal section.
Figure 32 is the summary sectional elevation on the top of heat exchanger shown in Figure 30.
Figure 33 is the summary enlarged drawing of the bottom of second shell body shown in Figure 27.
Figure 34 is the summary amplification view of the syndeton between tank and the heat exchanger.
Figure 35 is the summary right side view of the filter assemblies that dryer had shown in Figure 1.
Figure 36 is the general profile chart along the filter assemblies of A-A line shown in Figure 35.
Figure 37 is the curve map of relation of roughly representing installation site and the detection sensitivity of temperature sensor.
The specific embodiment
Below, describe with reference to the embodiment of accompanying drawing device for clothing processing.In addition, below employed expression in the explanation " on ", the term of D score, " left side " or directions such as " right sides " only is to be used to offer some clarification on, and is not used for limiting the principle of device for clothing processing.
(overall structure of device for clothing processing)
Fig. 1 is the approximate three-dimensional map that except that drying function, also has the dryer of laundry function.Fig. 2 is the front view of dryer shown in Figure 1.Fig. 3 is the vertical view of dryer shown in Figure 1.
In this embodiment, Fig. 1 to dryer shown in Figure 3 100 as the device for clothing processing of clothing being dried various processing such as processing, laundry treatment and by illustration.
Fig. 4 is the stereogram that expression is arranged on the dryer 100 of each parts in the main basket 110.Dryer 100 shown in Figure 4 has been removed face wall 111, back face wall 112, left side wall 113, right side wall 114 and roof 115.Fig. 5 is the general profile chart that expression is arranged on the dryer 100 of each parts in the main basket 110.Utilize Fig. 1, Fig. 4 and Fig. 5 further dryer 100 to be described.
As shown in Figure 4, dryer 100 comprises the treatment trough 200 of accommodating clothing.Be formed with input port 201 at treatment trough 200 to face wall 111 openings.As describing relatively with Fig. 1, the user can beat opening door body 130, in treatment trough 200, drops into clothing via input port 201.Perhaps, the user can beat opening door body 130, takes out clothing via input port 201 from treatment trough 200.
As shown in Figure 5, treatment trough 200 comprises: the tank 210 of storing the laundry water that is used for washing clothes; And be arranged on the swing roller 220 in the tank 210.Swing roller 220 comprise perisporium 221 roughly cylindraceous and with input port 201 diapire 222 in opposite directions.Tank 210 comprises: the perisporium 211 roughly cylindraceous that surrounds the perisporium 221 of swing roller 220; And along the diapire 222 of swing roller 220 and the diapire 212 that forms.Swing roller 220 and the roughly concentric setting of tank 210.
As shown in Figure 4, dryer 100 also comprises: connect the diapire 116 of main basket 110 and the damping means 240 of treatment trough 200; And connect the roof 115 of main basket 110 and the sprung parts 245 of treatment trough 200.In main basket 110, the damping means 240 and the sprung parts 245 that support treatment trough 200 make the vibration generated by rotation decay of treatment trough 200 along with swing roller 220.Therefore, the vibration from treatment trough 200 can be passed to main basket 110 hardly.In this embodiment, damping means 240 and sprung parts 245 are as support component and by illustration.
As shown in Figure 4, dryer 100 also comprises control device 250.The exercises of control device 250 control dryers 100.For example, when the user operates guidance panel 120 and indicates dryer 100 to dry when action, output control signal and make CD-ROM drive motor 230 work.
As shown in Figure 1, dryer 100 also comprises the feed water inlet 301 that is used for supply water in main basket 110.In this embodiment, feed water inlet 301 appears at by the formed corner of the left border of the back side edge of roof 115 117 and roof 115 118 portion.
As shown in Figure 4, dryer 100 also wraps the water supply assembly 300 that mouth is arranged on roof 115 belows.Water supply assembly 300 comprises control valve 310 that is connected with feed water inlet 301 and the basket 320 that comprises the outside that is fixed with control valve 310.In basket 320, be formed with the stream (not shown) that is used for to treatment trough 200 supply water.
Dryer 100 also comprises and the oven dry air carries out heat exchange, to drying the heat exchanger 400 that air dehumidifies.In the basket 320 of water supply assembly 300, not only be formed with the stream that is used for to treatment trough 200 supply water, but also be formed with the stream that is used to supply employed dehumidifying water when the oven dry air dehumidified.Control valve 310 supplies water in basket 320 from feed water inlet 301 in switching under the control of control device 250 and perhaps stops to supply water.In addition, control valve 310 opens and closes and is used for to the stream of treatment trough 200 supply water and is used to supply the stream of dehumidifying water.For example, when the user operates guidance panel 120 and indicates beginning during washing procedure, control valve 310 allows the inflow of water in the basket 320 under the control of control device 250.And control valve 310 is opened the stream that is used for to treatment trough 200 supply water.Its result, water is supplied in the treatment trough 200.Perhaps, when the user operates guidance panel 120 and indicates beginning during baking operation, control valve 310 allows the inflow of water in the basket 320 under the control of control device 250.And control valve 310 is opened the stream that is used for heat exchanger 400 supply dehumidifying water.Its result, dehumidifying water is supplied in the heat exchanger 400, and the oven dry air is dehumidified.
As shown in Figure 1, accepting box 330 comprises the handle portion 331 that forms with the mode that can insert user's finger.The user can use handle portion 331 in basket 320, to pull out accepting box 330.Its result, expose to main basket 110 inside of accepting box 330.Thereafter, the user can drop into washing agent or softener and accepting box 330 is pushed in the basket 320 in accepting box 330.
When the control valve of explaining relatively with Fig. 4 310 was opened the stream that is used for to treatment trough 200 supply water, the water that flow in the basket 320 mixed with accepting box 330 interior washing agent or softeners.Its result, in washing procedure, the washings that the water of washing agent in the accepting box 330 and 301 supplies from the feed water inlet mixes are supplied to treatment trough 200.In addition, in rinsing process, the mixed liquor that the water of softener in the accepting box 330 and 301 supplies from the feed water inlet mixes is supplied to treatment trough 200.
As shown in Figure 5, dryer 100 also comprises the water supply pipe 350 on the top of the diapire 212 that connects water supply assembly 300 and tank 210.When control valve 310 was opened the stream that is used for to treatment trough 200 supply water, the water of 301 supplies was supplied in the treatment trough 200 through water supply pipe 350 from the feed water inlet.
As shown in Figure 4, be formed with water discharge outlet 362 in diapire 116 sides of main basket 110.Drainpipe 360 is communicated to water discharge outlet 362.When draining valve 361 was opened drainpipe 360, the water in the treatment trough 200 was expelled to outside the main basket 110 via water discharge outlet 362.In this embodiment, drainpipe 360, draining valve 361 and water discharge outlet 362 are as drainage system and by illustration.
As shown in Figure 5, heat exchanger 400 is connected in the bottom of the diapire 212 of tank 210.Therefore, the dehumidifying water that is supplied to heat exchanger 400 from water supply assembly 300 finally flows in the treatment trough 200.When draining valve 361 was opened drainpipe 360, employed dehumidifying water also was expelled to outside the main basket 110 via water discharge outlet 362 in the dehumidifying of oven dry air.
As shown in Figure 5, filter element 510 comprises the handle portion of giving prominence to face wall 111 511.As shown in Figure 1, face wall 111 comprises the over cap 251 of Coverage Control device 250 and is installed in rotation on the door portion 252 on the over cap 251.Filter assemblies 500 is fixed in over cap 251.Handle portion 511 exposes when the user beats door opening portion 252.The user can pinch handle portion 511 and take out filter element 510.
Like Fig. 4 and shown in Figure 5, pipeline 615 is connected in the perisporium 211 of tank 210 near input port 201.When pressure fan 610 work, the oven dry air flows in the treatment trough 200 through pipeline 615.620 pairs of heaters heat from the oven dry air that pressure fan 610 flows to treatment trough 200, therefore the clothings in the treatment trough 200 are blown out temperature than higher oven dry air.Its as a result moisture evaporate from clothing.
The oven dry air that comprises moisture evaporated flows into the heat exchanger 400 that is connected with the diapire 212 of tank 210 subsequently.As stated, the dehumidifying water of supplying from water supply assembly 300 flows down in heat exchanger 400, so the oven dry air in the inflow heat exchanger 400 are dehumidified.In this embodiment, heat exchanger 400 is as the dehumidifying parts and by illustration.
The circulatory system 600 also comprises the filter 700 that is arranged between pressure fan 610 and the heat exchanger 400.Heat exchanger 400 comprises the bellows 414 that is connected with filter 700.Soft flocks separate from the clothing that is blown the oven dry air.The Soft flocks that separate flow to filter 700 through heat exchanger 400 and bellows 414 subsequently.Filter 700 is removed Soft flocks from the oven dry air.
As shown in Figure 5, the circulatory system 600 comprises that also guiding flows to the pipe assembly 660 of the oven dry air of pressure fan 610 from filter 700.Pressure fan 610 makes in the pipe assembly 660 becomes negative pressure, and therefore, the oven dry air of removing Soft flocks through filter 700 flows to pressure fan 610 through pipe assembly 660.In view of the above, the circulatory system 600 forms the circulating path of oven dry air in main basket 110.
(syndeton of filter and heat exchanger)
Fig. 6 is the vertical view of the internal structure of expression dryer 100.Utilize Fig. 1 and Fig. 6 that the decomposition method of the main basket 110 of dryer 100 is described.
The fixtures such as top roof 115 use screws that form main basket 110 are fixed on the perisporiums such as face wall 111, back face wall 112, left side wall 113 and right side wall 114.Operator to dryer 100 places under repair or maintenance can unload fixture and remove roof 115 from the perisporium of main basket 110.In view of the above, the operator can observe the inside of dryer 100.
Fig. 7 is the side view of heat exchanger 400.Utilize Fig. 5 and Fig. 7 that the mobile of oven dry air that flows to filter 700 from heat exchanger 400 described.
Heat-exchange tube 410 comprises inflow entrance 412 and the exhaust outlet 413 that is formed on the top of inflow entrance 412.Heat-exchange tube 410 extends to roof 115 between inflow entrance 412 and exhaust outlet 413.As shown in Figure 5, the inflow entrance 412 that is formed on the lower end of heat exchanger 400 is connected in the diapire 212 of tank 210.In baking operation, flow in the heat-exchange tube 410 through inflow entrance 412 to the oven dry air that treatment trough 200 is seen off.In addition, during washing procedure or rinsing process, be supplied to water in the treatment trough 200 (washings or comprise the aqueous solution of softener) and flow in the heat-exchange tubes 410 through inflow entrance 412.
The oven dry air that flows in the heat-exchange tube 410 is discharged from the exhaust outlet 413 of the upper end that is formed on heat-exchange tube 410.Thereafter, the oven dry air is back to treatment trough 200 through filter 700, pressure fan 610 and heater 620.
Fig. 8 is the general configuration diagram of filter 700, pipe assembly 660, pressure fan 610, heater 620 and pipeline 615.Utilize Fig. 1, Fig. 4 to Fig. 8 that the supply of dehumidifying water heat exchanger 400 is described.
Through the oven dry processing and the heat exchange in heat exchanger 400 of the clothing in treatment trough 200, the temperature of oven dry air is lower than the temperature of the oven dry air after firm heater via 620 heating.Therefore, the path till filter 700 to pressure fan 610, be easy to generate dewfall.
In filter 700 dew of dewfall because of the gravity effect and the oven dry air drip to managing assembly 660.Thereafter, dew flows down along the diapire 661 of pipe assembly 660, finally is supplied to heat exchanger 400 through tube connector 662 and the 3rd feed water inlet 423 as dehumidifying water.
As describing relatively with Fig. 4, the water of 301 supplies is discharged through the basket 320 outstanding adjutages 321 from water supply assembly 300 as dehumidifying water from the feed water inlet.The tube connector that is connected with adjutage 321 is connected to first feed water inlet 421 and second feed water inlet 422 of heat exchanger 400.
The dehumidifying waterside that is supplied in the heat exchanger 400 is carried out heat exchange by inner face 411 leading edges of heat-exchange tube 410 with the oven dry air.Its result, the oven dry air is dehumidified.Dehumidifying water along the inner face 411 of heat-exchange tube 410 flows down is finally discharged from heat exchanger 400 via the inflow entrance 412 of heat exchanger 400 lower ends.
As shown in Figure 6, heat exchanger 400 comprises first shell body 430 and is arranged on second shell body 440 between the back face wall 112 of first shell body 430 and main basket 110.Second shell body 440 is provided with along back face wall 112.As shown in Figure 7, second shell body 440 is overlapped in first shell body 430 and forms heat-exchange tube 410.Inflow entrance 412 and exhaust outlet 413 are formed on first shell body 430.Feed water inlet 420 is formed on second shell body 440.
The centre line L 1 that horizontal line HL has been shown among Fig. 7 and has been exhaust outlet 413 roughly cylindraceous.Heat exchanger 400 comparatively it is desirable to be arranged in the main basket 110 with the centre line L 1 of exhaust outlet 413 and the mode of horizontal line approximate vertical.Therefore, form along the back face wall 112 of main basket 110 with the upper portion of second shell body 440 of centre line L 1 almost parallel of exhaust outlet 413.
Fig. 9 is the rearview of the syndeton between expression heat exchanger 400 and the filter 700.Utilize Fig. 1, Fig. 6, Fig. 7 and Fig. 9 that the syndeton between heat exchanger 400 and the filter 700 is described.
As shown in Figure 9, connect exhaust outlet 413 and use fixed band 416 to be fixed on exhaust outlet 413 with the lower end of the bellows 414 of filter 700.Likewise, the upper end of bellows 414 also uses fixed band 417 to be fixed on the filter 700.
Like Fig. 6 and shown in Figure 9, filter 700 is provided with to horizontal direction (leaving the direction of right side wall 114) skew with respect to the centre line L 1 of exhaust outlet 413.As relevant with Fig. 6 describing, the operator can unload roof 115.Thereafter, the operator can unload employed fixed band 416,417 in bellows 414 fixing and remove bellows 414.
As shown in Figure 9, dryer 100 also comprises the conductive sensor 450 and earth electrode 460 of the rerum natura that is used to measure laundry water.Conductive sensor 450 and earth electrode 460 project to the inside of heat-exchange tube 410.As stated, the laundry water that contains the oven dry air of Soft flocks or contain Soft flocks flows in the heat-exchange tube 410.Soft flocks in oven dry air or the laundry water are easy to be deposited on the conductive sensor 450 and earth electrode 460 that projects to heat-exchange tube 410 inside.
(filter)
Figure 10 is the cutaway view of the filter 700 that is connected with bellows 414.Utilize Fig. 1, Fig. 8 and Figure 10 that filter 700 is described.
Figure 11 is the cutaway view of downside assembly 710.Utilize Figure 10 and Figure 11 that downside assembly 710 is described.
Shown in figure 10, in the US of upside space, accommodate upside assembly 720.Upside assembly 720 comprises upside filter house 725.Upside filter house 725 is adjacent to downside filter house 735.In addition, upside filter house 725 and downside filter house 735 almost parallels.
The oven dry air inflow that flows into from inflow entrance 731 is arranged in the upside assembly 720 in the US of upside space.Flow into oven dry air in the upside assembly 720 along flowing towards the first direction FD of left side wall 733 direction of back face wall 112 (promptly along).
The coupling part of downside filter house 735 and left side wall 733 is formed on the top of the coupling part of downside filter house 735 and right side wall 732.Therefore; Downside filter house 735 and the upside filter house 725 parallel with downside filter house 735; With respect to the flow direction of the oven dry air of first direction FD and tilt (in Figure 10,0 °<θ<90 ° (θ is the angle of inclination of upside filter house 725 with respect to first direction FD)).
Figure 12 is a vertical view of removing the dryer 100 of upside assembly 720.Utilize Fig. 3, Figure 10 to Figure 12 that the cleaning method of downside filter house 735 is described.
Shown in figure 12, the roof 115 of main basket 110 be formed with to above the conveying end 701 of opening.Upside assembly 720 inserts upside space US through conveying end 701 and is installed on main basket 110.When through conveying end 701 when main basket 110 takes out upside assemblies 720, downside filter house 735 will expose.
As stated, downside filter house 735 is connected in the right side wall 732 and left side wall 733 of filter 700, so the user can easily observe downside filter house 735 through conveying end 701.Therefore, the user can easily find and remove the Soft flocks that are deposited on the downside filter house 735.
Utilize Fig. 5, Fig. 6, Figure 10 and Figure 11 that the mobile of oven dry air in the filter 700 described.
Shown in figure 10, the oven dry air that flows into upside space US from inflow entrance 731 flows along first direction FD (from the direction of right side wall 732 towards left side wall 733).Thereafter, the oven dry air flows towards lower direction DD.
As shown in Figure 5, pipe assembly 660 extends to frontal from filter 700.Therefore, flow into the oven dry air flow frontal direction of left side wall 733 (promptly along) of lower side space LS and arrive pressure fan 610.In following explanation, will be called second direction SD from the flow direction that filter 700 flows to the oven dry air of pressure fan 610.
Fig. 6 roughly representes the flowing of oven dry air of first direction FD and second direction SD.As stated, the oven dry air flows to first direction FD, and downward direction DD flows thereafter.After this, the oven dry air is directed to the second direction SD with first direction FD approximate vertical by the basket 730 of downside assembly 710 and pipe assembly 660.This oven dry air flow reverse occur in upside filter house 725 and downside filter house 735 around.Its result, around upside filter house 725 and downside filter house 735, the mobile of oven dry air becomes complicated, thus the accumulation position easy change of Soft flocks on upside filter house 725 and downside filter house 735.Because Soft flocks suitably disperse on upside filter house 725 and downside filter house 735, therefore, the frequency that the mesh of upside filter house 725 and downside filter house 735 stops up reduces.
Like Figure 10 and shown in Figure 11, lower side space LS from the right side wall 732 of the basket 730 of downside assembly 710 left sidewall 733 enlarge gradually.As stated, for reversing flowing of mobile oven dry air, near the expansion of the lower side space LS left side wall that is positioned at centrifugal direction 733 helps to reduce the pressure loss of oven dry air.
(upside assembly)
Figure 13 is the stereogram of upside assembly 720.Figure 14 is the cutaway view of upside assembly 720.Utilize Fig. 3, Figure 10, Figure 12 to Figure 14 that upside assembly 720 is described.
As describing relatively, be formed with conveying end 701 at the roof 115 of main basket 110 with Figure 12.As shown in Figure 3, lid 750 covers conveying end 701.
Shown in figure 13, being roughly, first basket 760 of cam box shape comprises inclined plane 761.Inclined plane 761 is clathrate.The filter screen that uses as upside filter house 725 is installed on the cancellate inclined plane 761.As describing relatively with Figure 10, inclined plane 761 and downside filter house 735 almost parallels.
Figure 15 is the front view of upside assembly 720.Utilize Figure 13 and Figure 15 further upside assembly 720 to be described.
Figure 16 is the right side view of first basket 760.Utilize Figure 10, Figure 13 and Figure 16 that first basket 760 is described.
Shown in figure 10, first basket 760 all is housed in the US of upside space.Shown in figure 16, first basket 760 comprises the right side wall 764 that is formed with peristome 763.Oven dry air through inflow entrance 731 flows in first basket 760 through peristome 763.The upside filter house 725 that is installed on the cancellate inclined plane 761 is caught the airborne Soft flocks of oven dry.
Shown in figure 13, when the left end that is positioned at this first basket 760 at first basket 760 was connected in the primary importance of second basket 770, first basket 760 and 770 cooperations of second basket were formed for accommodating the receiving space of the Soft flocks of being caught by upside filter house 725.
Figure 17 is the general profile chart with upside assembly 720 of first basket 760 that rotates to the right.Utilize Figure 13, Figure 16 and Figure 17 that the method for removing of removing Soft flocks from upside assembly 720 is described.
When first basket 760 when rotating, can be removed the Soft flocks of being caught by upside filter house 725 to the departure direction (in Figure 17, being the right side) that the left end of first basket 760 leaves second basket 770.
Figure 18 is the outline elevation that has further the upside assembly 720 of first basket 760 that rotates to departure direction.Utilize Figure 15 to Figure 18 that the rotation of first basket 760 is described.
Show first basket 760 that rotates to departure direction to greatest extent from second basket 770 when when second basket 770 is removed lid 750 with chain-dotted line among Figure 18.Shown in figure 18, when when second basket 770 is removed lid 750, first basket 760 can further rotate to departure direction from the second place.Second basket 770 be included in being connected of lid 750 in employed connecting portion 772.Connecting portion 772 is outstanding laterally.After second basket 770 is removed lid 750, when first basket 760 to greatest extent when departure direction rotates, the right side wall 764 of first basket 760 is contacted with the connecting portion 772 of second basket 770.
(syndeton of first basket and second basket)
Figure 19 representes the rotation projection 762 of first basket 760.Figure 19 (a) is the right side view of first basket 760.Figure 19 (b) is the partial elevation view to the outstanding rotation projection 762 of frontal, the end surface shape of expression rotation projection 762.Figure 19 (c) is the partial rear view of expression to the end surface shape of the outstanding rotation projection 762 of back side direction.Utilize Figure 19 that rotation projection 762 is described.
The side face of the first rotation projection 765 of D shape cutting process comprises tabular surface 767.Second tabular surface 769 that tabular surface 767 comprises first tabular surface 768 and is formed on the opposition side of first tabular surface 768.Second tabular surface 769 and first tabular surface, 768 almost parallels.The side face of the first rotation projection 765 also comprises the arcuation face 781 between first tabular surface 768 and second tabular surface 769.
Figure 20 representes the support tube 771 of second basket 770.Figure 20 (a) is the right side view of second basket 770.Figure 20 (b) is the part sectioned view from second basket 770 of the observation of the arrow A direction shown in Figure 20 (a), and the support tube 771 of the first rotation projection 765 is inserted in expression.Figure 20 (c) is the part sectioned view from second basket 770 of the observation of the arrow B direction shown in Figure 20 (a), and the support tube 771 of the second rotation projection 766 is inserted in expression.Utilize Figure 19 and Figure 20 that support tube 771 is described.
Second support tube 774 comprises and first support tube 773 forward surface 776 in opposite directions.First support tube 773 comprise with forward surface 776 at interval first distance B 1 first 777 and with forward surface 776 second portion 778 of second distance D2 at interval.In addition, second distance D2 is longer than first distance B 1.
First 777 comprises that regulation is formed on the edge portion 779 of the borderline space part G between first 777 and the second portion 778.Space part G is that benchmark is towards the radial direction opening with the rotating shaft RX of rotation projection 762.
Figure 21 representes to be installed on first basket 760 of second basket 770.The first rotation projection 765 of first support tube 773 that Figure 22 representes second basket 770 shown in Figure 21 and first basket 760 shown in Figure 21.Utilize Figure 18, Figure 20 to Figure 22 that first basket 760 and second being connected of basket 770 are described.
The position of rotation of first basket 760 shown in Figure 21 is corresponding to the position of first basket of representing with chain-dotted line among Figure 18 760.At the position of rotation of first basket 760 shown in Figure 21, first basket 760 is connected in second basket 770.After first basket 760 is connected in second basket 770, lid 750 is installed on second basket 770.In following explanation, the position of rotation of first basket 760 shown in Figure 21 is called the installation site.
As describing relatively with Figure 18, lid 750 hinders first basket 760 to rotate to the installation site.Therefore, only otherwise remove lid 750, just can keep being connected of first basket 760 and second basket 770 from second basket 770.
Shown in figure 22, the edge portion 779 of the G of voids portion comprises the lower lip portion 783 on downside border of last side edge part 782 and the G of voids portion of the boundary of the G of voids portion.Distance between last side edge part 782 and the lower lip portion 783 is defined as first tabular surface 768 and the distance between second tabular surface 769 that is substantially equal to the first rotation projection 765.When first basket, 760 arrival installation sites, tabular surface 767 and the conduct boundary face B approximate vertical that quilt is stipulated through the face of last side edge part 782 and lower lip portion 783.
Distance between first tabular surface 768 and second tabular surface 769 is the shortest in the section size of the first rotation projection 765.Therefore, when first basket 760 was positioned at other positions beyond the installation site, edge portion 779 hindered the first rotation projection 765 to insert first support tube 773 or unloads the first rotation projection 765 from first support tube 773.On the other hand, when first basket, 760 arrival installation sites, the first rotation projection 765 is inserted first support tube 773 through space part G, and perhaps the first rotation projection 765 breaks away from through the space part G and first support tube 773.
In this embodiment, the second rotation projection 766 has and the different section shape of the first rotation projection 765.Replace, the second rotation projection also can have and the identical shaped section of the first rotation projection.In addition, second support tube 774 has the shape different with first support tube 773.Replace, second support tube also can form image shape with respect to first support tube.
(from the heat radiation of filter)
Figure 23 is the general profile chart of second basket 770.Utilize Figure 23 that second basket 770 is described.
The perisporium 792 that second basket 770 comprises the diapire 791 of horizontal traverse, extend to be provided with to the top from diapire 791 and be formed on above the diapire 791 on rib 793.The disk-shaped on the whole shape of second basket 770, diapire 791 and perisporium 792 form with respect to lid 750 and the recessed zone of depression.Be formed on rib 793 extension above perisporium 792 above the diapire 791.
Figure 24 is the stereogram of upside assembly 720.Utilize Fig. 1, Figure 12, Figure 23 and Figure 24 that upside assembly 720 is described.
Shown in figure 24, first basket 760, second basket 770 and lid 750 links together and one turns to upside assembly 720.As describing relatively with Figure 12, lid 750 covers the conveying end 701 on the roof 115 that is formed on main basket 110 partly.
The lid 750 that is installed on second basket 770 also covers the recessed zone by diapire 791 with perisporium 792 defineds of second basket 770 partly.On lid 750, be formed with peristome 754.Lid 750 comprises: have from outside that main basket 110 exposes (above) mainboard 752; And project to by the handle wall 753 in the recessed zone of the diapire of second basket 770 791 and perisporium 792 defineds.Handle wall 753 projects to the recessed zone that is arranged with respect to main basket 110 from the edge portion of peristome 754.
Figure 25 representes upside assembly 720.Figure 25 (a) is the vertical view of upside assembly 720.Figure 25 (b) is the cutaway view along the C-C line shown in Figure 25 (a).Utilize Fig. 5 and Figure 25 that the heat radiation from upside assembly 720 is described.
As describing relatively with Fig. 5, the oven dry air is by heater 620 heating.Shown in Figure 25 (b), the diapire 791 of second basket 770 and perisporium 792 separate between first basket 760 and the lid 750.In addition, diapire 791 and perisporium 792 and 760 cooperations of first basket are formed for accommodating the receiving space of Soft flocks.The oven dry air of heater via 620 heating flows into receiving space shown in the arrow of Figure 25 (b).
Because of the heat conduction from the oven dry air, diapire 791 and perisporium 792 are heated.The peristome 754 of lid 750 and the top rib 793 that is formed on lid 750 diapire 791 in opposite directions and perisporium 792 promote from diapire 791 and perisporium 792 heat radiations.Therefore, can suppress diapire 791 and perisporium 792 excessively heats up.
The user can insert finger in the peristome 754 of lid 750 and removes upside assembly 720 from main basket 110.As stated owing to can suppress diapire 791 and perisporium 792 excessively heats up, even if so user's finger be contacted with diapire 791 or perisporium 792, it is overheated that the user can not feel yet.Therefore, the dryer 100 with higher security can be provided.
(heat exchanger)
Utilize Fig. 5 and Fig. 9 that heat exchanger 400 is described once more.
As shown in Figure 5, heat exchanger 400 is connected in tank 210.Therefore, for example in the laundry operation, laundry water flows in the heat-exchange tube 410 through inflow entrance 412.
As shown in Figure 9, on second shell body 440 of heat exchanger 400, conductive sensor 450 is installed.Conductive sensor 450 is used to detect the foaming degree that flows into the laundry water in the heat-exchange tube 410.For the detection method of the foaming degree of using conductive sensor 450, also can use known method.In addition, also can use conductive sensor 450 to measure other rerum naturas of laundry water.
In this embodiment, conductive sensor 450 comprises first electrode 451 and second electrode 452 that is installed in the top of first electrode 451 in the roughly centre position that is installed in heat-exchange tube 410.Conductive sensor 450 is for example measured the impedance of laundry water between first electrode 451 and second electrode 452.First electrode 451 and second electrode 452 are outstanding from the inner face 411 of heat-exchange tube 410 for the rerum natura of measuring laundry water.Therefore, on first electrode 451 and second electrode 452, be easy to tangle Soft flocks.After the technology of the supply stated and direct dehumidified water promote to remove the Soft flocks of catching by first electrode 451 and second electrode 452.
Figure 26 is the skeleton diagram of heat exchanger 400.The figure of central authorities of Figure 26 is a side view of diagrammatically representing heat exchanger 400.The left figure of Figure 26 is the skeleton diagram of the inner face structure (i.e. the inner face structure of first shell body 430) of the heat exchanger 400 observed of the A-A direction from Figure 26.The right figure of Figure 26 is the skeleton diagram of the inner face structure (i.e. the inner face structure of second shell body 440) of the heat exchanger 400 observed of the B-B direction from Figure 26.Figure 27 is the approximate three-dimensional map of second shell body 440.Utilize Fig. 4, Fig. 8, Figure 26 and Figure 27 to further specify heat exchanger 400.
As describing relatively with Fig. 4, dehumidifying water is supplied to first feed water inlet 421 and second feed water inlet 422 from the adjutage 321 of water supply assembly 300.In addition, as describing relatively with Fig. 8, dew is supplied to the 3rd feed water inlet 423 through the tube connector 662 that extends from pipe assembly 660 as dehumidifying water.
Shown in figure 27, on the water storage wall 442 of second shell body 440, be formed with notch part 443.The dehumidifying water that is stored in the water storage room that is formed by water storage wall 442,432 flows down through the inner face 411 of notch part 443 along second shell body 440.On the water storage wall 432 of first shell body 430, also be formed with identical notch part (not shown).The dehumidifying water that is stored in the water storage room that is formed by water storage wall 442,432 flows down through the inner face 411 that is formed on notch part edge first shell body 430 on the water storage wall 432.
Second feed water inlet 422 and the 3rd feed water inlet 423 make dehumidifying water flow in the heat-exchange tube 410 near the top of second electrode 452 the base end part that is installed in exhaust outlet 413.Therefore, use 411 pairs of oven dry of roughly whole inner face air of heat-exchange tube 410 to dehumidify.
Shown in figure 27, on dividing plate 444, be formed with peristome 445.The dehumidifying water that is stored in the water storage room that is formed by dividing plate 444 flows down through the inner face 411 of peristome 445 along second shell body 440.On the dividing plate 444 of first shell body 430, also be formed with identical peristome (not shown).The dehumidifying water that is stored in the water storage room that is formed by dividing plate 444 flows down through the inner face 411 that is formed on peristome 445 edges first shell body 430 on the dividing plate 444.
Heat-exchange tube 410 comprises the first side wall 425 that is formed with first feed water inlet 421 and second feed water inlet 422, and the first side wall 425 second sidewall 426 and the main wall 427 between the first side wall 425 and second sidewall 426 in opposite directions.Diffusion rib 470 comprises first rib 471 that extends to second sidewall 426 from the first side wall 425 along main wall 427 and the second rib 472 that extends to the first side wall 425 from second sidewall 426 along main wall 427.First rib 471 and second rib 472 are roughly alternately arranged along the length direction of heat-exchange tube 410.
Water storage wall 442,432 forms the water storage room that stores dehumidifying water with the first side wall 425.First rib 471 comprises the leading section 474 of opposition side of base end part 473 and the base end part 473 of the dehumidifying water that receives the water storage room that free water storage wall 442,432 and the first side wall 425 form.Leading section 474 more is positioned at the below than base end part 473.Therefore, the dehumidifying water of arrival first rib 471 flows to leading section 474 from base end part 473.In view of the above, dehumidifying water along continuous straight runs diffusion.In addition, be formed on the water storage room that forms by water storage wall 442,432 and the first side wall 425 under the base end part 473 of first rib 471 receive the relatively dehumidifying water of volumes.Therefore, the base end part 473 of first rib 471 comparatively it is desirable to comprise the side rib 475 that extends along the inner face 411 approximate horizontal ground of the first side wall 425.
In this embodiment, second rib 472 receives the dehumidifying water that flows down from the first rib 471 of the top.In addition, the first rib 471 of below receives the dehumidifying water that flows down from second rib 472.
Figure 28 (a) is the enlarged drawing of the first rib 471 of the top.Figure 28 (b) is the general profile chart of second shell body 440.Utilize Figure 26 to Figure 28 (b) that diffusion rib 470 is described.
Shown in figure 27, at base end part 473,476 and leading section 474, between 477, on diffusion rib 470, be formed with slot part 478.
Flowing of the dehumidifying water of roughly having represented among Figure 26 and Figure 28 (a) to flow down along inner face 411.As stated, arrive the dehumidifying current direction leading section 474,477 of diffusion rib 470.The part that slot part 478 allows to flow to the dehumidifying water of leading section 474,477 flows down.In view of the above, dehumidifying water spreads on the whole inner face 411 of main wall 427.
Shown in Figure 27 and Figure 28 (b), diffusion rib 470 is taper, so base end part 473,476 is from the overhang of the inner face 411 of main wall 427 overhang greater than leading section 474,477.As stated, a part that flows to the dehumidifying water of leading section 474,477 flows down through slot part 478, and the amount that therefore spreads the dehumidifying water that rib 470 flatly guide is along with towards leading section 474,477 and minimizing gradually.Therefore, even if be the diffusion rib 470 of taper, also can give full play to horizontal proliferation function to dehumidifying water.In addition, can not apply unnecessary resistance towards the minimizing of the overhang of leading section 474,477 to oven dry air mobile.Therefore, the cycle efficieny of oven dry air is difficult for reducing.
Shown in figure 26, the oven dry air flows into and discharges from the exhaust outlet 413 of top from inflow entrance 412.Shown in figure 27, diffusion rib 470 comprises with along with towards the top and overhang becomes the inclined plane 479 of the general planar that big mode tilts gradually.Therefore, diffusion rib 470 can invalidly not apply bigger resistance to the oven dry air.Therefore, the cycle efficieny of oven dry air is difficult for reducing.
Shown in figure 26, heat-exchange tube 410 forms the stream that is bowing from inflow entrance 412 to exhaust outlet 413.The diffusion rib 470 that is formed on first shell body 430 is positioned at entad side on the stream of bending.In addition, the diffusion rib 470 that is formed on second shell body 440 is positioned at centrifugal side.Therefore, in following explanation, the diffusion rib 470 that is formed on first shell body 430 can be called entad rib 481 as required.In addition, the diffusion rib 470 that is formed on second shell body 440 can be called centrifugal rib 482 as required.
Represented horizontal line HL among Figure 26, entad rib 481 is with respect to the tilt angle theta 1 of horizontal line HL and centrifugal rib 482 tilt angle theta 2 with respect to horizontal line HL.Shown in figure 26, the tilt angle theta 2 of centrifugal rib 482 is less than the tilt angle theta 1 of rib 481 entad.The flow velocity of the dehumidifying water that the flow velocity of the dehumidifying water that therefore, flows down along the inner face 411 of second shell body 440 flows down less than the inner face 411 along first shell body 430.
The flow velocity of the inner face 411 of second shell body 440 of the centrifugal side in oven dry air edge is greater than drying the entad flow velocity of the inner face 411 of first shell body 430 of side of air edge.As stated, the flow velocity of the dehumidifying water that the inner face 411 of edge second shell body 440 flows down is slow, and therefore can dry air faster with flow velocity suitably carries out heat exchange.And, because the relative velocity reduction between the oven dry air of the inner face 411 of dehumidifying water that the inner face 411 of edge second shell body 440 flows down and edge second shell body 440, thereby dehumidifying water is difficult for rolled-up.
Figure 29 is the outline elevation of second shell body 440.Utilize Fig. 7, Figure 26, Figure 27 and Figure 29 that the cleaning of conductive sensor 450 is described.
Shown in figure 27, on the main wall 427 of second shell body 440, be formed with the peristome 453 that supplies to insert conductive sensor 450.Like Fig. 7 and shown in Figure 27, second shell body 440 comprises outstanding to the inside stationary magazine creel 455, to screw togather with the fixtures such as screw 454 (with reference to Fig. 7) that are used for conductive sensor 450 is fixed on second shell body 440.In this embodiment, between a pair of stationary magazine creel 455, be formed with peristome 453.
Shown in figure 29, the leading section 477 of second rib 472 be formed on first electrode 451 directly over (on the plumb line).Therefore, the dehumidifying water by second rib 472 guidings and arrival leading section 477 flow on first electrode 451.In view of the above, suitably removed attached to the Soft flocks on first electrode 451.Replace, also can directly over conductive sensor, form the slot part of diffusion rib.The dehumidifying water that flows down through slot part directly is contacted with conductive sensor, so Soft flocks suitably are removed.
Above second rib 472, be formed with 2 first ribs 471.Be formed on slot part 478 on the first rib 471 of the top be positioned at time leading section 474 of the first rib 471 of top directly over.Therefore, the flow velocity of the dehumidifying water that flows down via the first rib 471 of inferior top increases, and therefore this dehumidifying water also is easy to collide first electrode 451.
Figure 30 is the summary longitudinal section of heat exchanger 400.Utilize Figure 30 that the mobile of dehumidifying water that flows down from dividing plate 444 described.
As stated, dividing plate 444 is formed for the temporary transient water storage room that stores the dehumidifying water that is supplied to second feed water inlet 422 (and the 3rd feed water inlet 423).The water storage room that is formed by dividing plate 444 is along the direction expansion of the flow direction that crosses the oven dry air, and the inner face 411 that the water that therefore dehumidifies is supplied to heat exchanger 400 in a big way.
Figure 31 is that the summary on the top of heat exchanger 400 amplifies longitudinal section.Figure 32 is the summary sectional elevation on the top of heat exchanger 400.Utilize Fig. 4, Fig. 5, Figure 29 to Figure 32 that dividing plate 444 is described.
As stated, heat exchanger 400 comprises first shell body 430 and second shell body 440 overlapping with first shell body 430.Dividing plate 444 comprises and is formed on first dividing plate 446 on first shell body 430 and is formed on the second partition 447 on second shell body 440.
Shown in figure 32, first dividing plate 446 comprises and the second partition 447 first edge portion 448 in opposite directions.Second partition 447 comprises the second edge portion 449 of the first edge portion 448 that is connected in.In this embodiment, the first edge portion 448 and the second edge portion 449 utilize ultrasonic wave and are engaged.In view of the above, dividing plate 444 formation are across the water storage room of first shell body 430 and second shell body 440.
Like Figure 30 and shown in Figure 31, on dividing plate 444, be formed with a plurality of peristomes 445.Dehumidifying water is discharged from dividing plate 444 formed water storage room through peristome 445.
Figure 32 has roughly represented to be formed on the configuration of the peristome 445 on the dividing plate 444.Figure 32 has also represented the section of exhaust outlet 413.The part of exhaust outlet 413 is as dividing plate 444.On the tube wall of exhaust outlet 413, be formed with pair of openings portion 445.Shown in figure 30, the dehumidifying water that flows out from these peristomes 445 mainly flows to the inner face 411 of the main wall 427 of first shell body 430.
Shown in figure 32, on second partition 447, be formed with 4 peristomes 445 arranging along the inner face 411 of the main wall 427 of second shell body 440.Shown in figure 30, the inner face 411 of the main main wall 427 along second shell body 440 of the dehumidifying water that flows out from these peristomes 445 and flowing.
Shown in figure 32, be formed with notch part at the first edge portion, 448 two ends of first dividing plate 446.When connecting the first edge portion 448 and the second edge portion 449, form respectively and the first side wall 425 of heat exchanger 400 and the peristome 445 of second sidewall, 426 adjacency.Borderline these peristomes 445 that are formed on the first edge portion 448 and the second edge portion 449 allow dehumidifying water to flow down along the sidewall (the first side wall 425 and second sidewall 426) of heat exchanger 400.
Shown in figure 29, second electrode 452 inner face 411 from the main wall 427 of second shell body 440 between the first rib 471 of the top and dividing plate 444 is outstanding.In the peristome of arranging along the inner face 411 of the main wall 427 of second shell body 440 445 one is formed on the plumb line VL of second electrode 452.Therefore, from directly over the dehumidifying water that flows down of peristome 445 directly clean second electrode 452, suitably remove Soft flocks.
As stated, control device 250 control water supply assemblies 300, the oven dry air in heat-exchange tube 410, flow during, through the 422 pairs of heat exchangers in first feed water inlet 421 and second feed water inlet, 400 supply dehumidifying water.Also can be as required, water supply assembly 300 is also being supplied the dehumidifying water to heat exchanger 400 in the laundry operation of treatment trough 200 supply laundry water under the control of control device 250.
(ground structure)
Utilize Fig. 5 and Figure 29 that the ground structure of dryer 100 is described.
Shown in figure 29, earth electrode 460 is arranged on the below of feed water inlet 420, and projects in the heat-exchange tube 410 formed streams.Therefore earth electrode 460 is arranged near the lower end of heat-exchange tube 410 formed streams, is contacted with from the feed water inlet the 420 dehumidifying water that flow down and the laundry water both sides that flow into from inflow entrance 412.Earth electrode 460 is electrically connected on earth connection 101.
Utilize the conductive sensor 450 of work about electric power to project in the heat-exchange tube 410 formed streams; It is contacted with laundry water or dehumidifying water; Earth electrode 460 directly is contacted with the water in the heat-exchange tube 410 afterwards, therefore can directly carry out ground connection processing to the water in the heat-exchange tube 410.Therefore, the security of dryer 100 improves.
Figure 33 is the summary enlarged drawing of the bottom of second shell body 440.Utilize Fig. 5, Figure 29 and Figure 33 further ground structure to be described.
Figure 34 is the summary amplification view of the syndeton between tank 210 and the heat exchanger 400.Utilize Fig. 5, Fig. 7, Figure 26, Figure 29 and Figure 34 further ground structure to be described.
As describing relatively with Fig. 7, the top rear face of second shell body 440 forms along the back face wall 112 of main basket 110.Like Fig. 7 and shown in Figure 34, the bottom of heat exchanger 400 is crooked to frontal.Its result, inflow entrance 412 is connected in tank 210.
Be formed with inner face 411 bending slightly downwards of second shell body 440 in water storage zone 461.In addition, water storage zone 461 is with respect to inner face 411 and recessed setting.Therefore, dehumidifying water and laundry water are easy to be stored in the water storage zone 461.Represented to be stored in the water in the water storage zone 461 among Figure 34.
Shown in figure 34, earth electrode 460 protrudes in the water storage zone 461.Therefore, earth electrode 460 suitably is contacted with the water that is stored in the water storage zone 461.
Shown in figure 34, water storage zone 461 and inflow entrance 412 are in opposite directions.Therefore, when discharging dehumidifying water or laundry water through water discharge outlet 362, the water that contacts with heat exchanger 400 interior conductive sensors 450 is discharged from heat exchanger 400 via inflow entrance 412 after being contacted with earth electrode 460.Therefore, the water that has suitably carried out the ground connection processing is discharged from dryer 100.In view of the above, the security of dryer 100 improves.
(drainage system)
Utilize Fig. 4, Fig. 5 and Figure 34 to describe to being used for outside main basket 110 discharging the laundry water that is used to do washing and being used for and drying the drainage system that air carries out the dehumidifying water of heat exchange.
As stated, the water that has carried out the ground connection processing through earth electrode 460 flows out from inflow entrance 412 when draining valve 361 is opened, thereafter the tank 210 arrival drainpipes 360 through connecting drainpipe 360 and heat exchanger 400.In this embodiment, tank 210 is as attaching parts and by illustration.
As shown in Figure 5, dryer 100 comprises the sensing element 800 of the dryness fraction of the clothing in the measurement processing groove 200.Sensing element 800 comprises and is arranged on first temperature sensor 805 after the heater 620 and is installed in second temperature sensor 810 on the filter assemblies 500.First temperature sensor 805 is measured the temperature of carrying out clothing oven dry oven dry air before.Second temperature sensor 810 is measured the temperature that flows into the dehumidifying water of filter assemblies 500 through tank 210.Estimate the oven dry degree of clothing according to the difference of the temperature of measuring by sensing element 800.About detect the method for dryness fraction, applicable known method based on temperature difference.In this embodiment, second temperature sensor 810 is as temperature sensor and by illustration.
As describing relatively with Fig. 4 and Fig. 5, the vibration that is caused by treatment trough 200 is through damping means 240 and sprung parts 245 and by suitably decay.Therefore, the face wall 111 that is fixed with filter assemblies 500 can be vibrated hardly.Therefore, the structure that is used for fixing second temperature sensor 810 becomes simple.
Figure 35 is the summary right side view of filter assemblies 500.Figure 36 is the general profile chart along the filter assemblies 500 of A-A line shown in Figure 35.Utilize Fig. 4, Fig. 5, Figure 35 and Figure 36 that the mounting structure of 810 pairs of filter assemblies 500 of second temperature sensor is described.
Like Fig. 4 and shown in Figure 5, drainpipe 360 comprises the tube connector 363 that connects filter assemblies 500 and tank 210.As shown in Figure 5, draining valve 361 is installed on the tube connector 363.
Like Figure 35 and shown in Figure 36, filter assemblies 500 comprises the connecting cylinder 520 chimeric with tube connector 363.Shown in figure 36, connecting cylinder 520 comprises the tube wall 525 of outside wall surface 522 of opposition side of internal face 521 and the internal face 521 on the draining road with regulation dehumidifying water flows.The heat that flows into the dehumidifying water of connecting cylinder 520 is passed to outside wall surface 522.
Connecting cylinder 520 comprises base end part 513 that is connected in receiving cartridge 512 and the maintenance tube of giving prominence to from the outside wall surface 522 of base end part 513 514.Keep tube 514 to surround and maintenance measuring cell 811.
Connecting cylinder 520 also comprises from the upright installation rib 515 of outside wall surface 522.Holding wire 812 uses suitable fixture 516 to be fixed on and installs on the rib 515.The interval till fixture 516 to measuring cell 811, holding wire 812 is with the mode strain to outside wall surface 522 pushing measuring cells 811.Keeping being formed with on the tube 514 slit 517 that forms with the mode of the strain of inhibit signal line 812 suitably.Holding wire 812 is inserted in the slit 517.
Figure 37 is the curve map of relation of roughly representing installation site and the detection sensitivity of temperature sensor.Utilize Fig. 5, Figure 35 to Figure 37 that the installation site of temperature sensor and the relation of detection sensitivity are described.
As describing relatively with Figure 35 and Figure 36, second temperature sensor 810 of this embodiment is installed on the filter assemblies 500 that separates with heat exchanger 400.Its result, second temperature sensor 810 is arranged in the main basket 110 with simple mounting structure.On the other hand, second temperature sensor 810 was opened the detection sensitivity that might cause temperature in 400 minutes with heat exchanger and is reduced, and present inventors have studied the influence that second temperature sensor 810 and heat exchanger were opened in 400 minutes.
Present inventors have carried out 2 times and have measured.In first measured, as describing relatively with Figure 35 and Figure 36, present inventors were installed in temperature sensor on the filter assemblies and measure the temperature of dehumidifying water.In second measures, for the temperature of measuring the dehumidifying water after just discharging from heat exchanger is arranged on temperature sensor near the tank (being tube connector 363 and the connecting portion of tank 210).
" warming up period " shown in Figure 37 for baking operation begun just that the back occurs during, during this period, the temperature of dehumidifying water has the tendency of increase.The oven dry progress of the temperature rising expression clothing of the dehumidifying water in the warming up period rapidly.
" permanent rate phase " shown in Figure 37 appears at " warming up period " afterwards, and during this period, the temperature of dehumidifying water remains on constant.The variations in temperature of the constant in " permanent rate phase " representes that the oven dry of clothing carries out.
" the lapse rate phase " shown in Figure 37 appears at " permanent rate phase " afterwards, and during this period, the temperature of dehumidifying water presents the tendency of reduction.The oven dry that the temperature of the dehumidifying water in " lapse rate phase " reduces the expression clothing has been tending towards roughly accomplishing.
Shown in figure 37, measure and second roughly the same measuring first from the tendency of the variations in temperature of " permanent rate phase " dehumidifying water when " lapse rate phase " shifts and opportunity.This means second temperature sensor 810 that is installed on the filter assemblies 500 can be installed in the variations in temperature that near the tank 210 roughly the same sensitivity of sensor detect dehumidifying water.Therefore, control device 250 can be based on the dryness fraction of suitably judging clothing from the temperature signal that is installed in second temperature sensor 810 on the filter assemblies 500.
Above-mentioned embodiment mainly comprises the device for clothing processing with following structure.Device for clothing processing with following structure can stably be kept for measuring the sensing element of the dryness fraction of clothing.
Device for clothing processing involved in the present invention comprises: treatment trough is used to accommodate clothing; Drive source drives said treatment trough; Main basket is accommodated said treatment trough and said drive source; Support component supports said treatment trough and decay are passed to said main basket from said treatment trough vibration; Drainage system, outside said main basket, discharge be used to wash or the said treatment trough of rinsing in the laundry water of said clothing; And the circulatory system; Make the oven dry air circulation of the said clothing in the said treatment trough of oven dry; Wherein, The said circulatory system comprises dehumidifying parts that said oven dry air is dehumidified and the sensing element of measuring the dryness fraction of said clothing, and said dehumidifying parts comprise: the guiding tube that comprises the inner face of the mobile stream of the said oven dry air of regulation; And the feed water inlet that is used in said stream the dehumidifying water that supply is used for said oven dry air is dehumidified; Wherein, Said guiding tube comprises the inflow entrance that the said laundry water that is supplied to said treatment trough and said oven dry air are flowed into, and said drainage system comprises: the drainpipe of the said laundry water of guiding outside said main basket; And the attaching parts that connect said inflow entrance and said drainpipe; Wherein, Said drainpipe comprises the fixed part that is fixed in said main basket, and said sensing element comprises and is used for measuring the temperature sensor of temperature that flows into the said dehumidifying water of said fixed part through said attaching parts.
According to said structure, drive source drives the treatment trough of accommodating clothing.Main basket is accommodated treatment trough and drive source.The support component that supports treatment trough makes the vibration attenuation that is passed to main basket from treatment trough.Therefore, the vibration that produces because of the driving of treatment trough can be passed to main basket hardly.
Drainage system is discharged the laundry water that is used for the clothing in the carrying out washing treatment groove outside main basket.The sensing element that makes the circulatory system of the oven dry air circulation of the clothing of oven dry in the treatment trough comprise the dehumidifying parts that the oven dry air is dehumidified and be used to measure the dryness fraction of clothing.The dehumidifying parts comprise the guiding tube of the inner face with the mobile stream of regulation oven dry air and will be used for the dehumidifying water that the oven dry air dehumidifies is supplied to the feed water inlet in the stream.Drainage system comprises drainpipe that outside main basket, guides laundry water and the attaching parts that connect inflow entrance and drainpipe.Drainpipe comprises the fixed part that is fixed in main basket.As stated, the vibration that produces because of the driving of treatment trough can be passed to main basket hardly, so fixed part is also stably kept by main basket.Sensing element comprises and is used for measuring the temperature sensor of temperature that flows into the dehumidifying water of fixed part through attaching parts.Therefore, the temperature sensor that is used to measure the dryness fraction of clothing can stably be measured the temperature of dehumidifying water.
In said structure; Comparatively it is desirable to; Said temperature sensor comprises: thus measure the measuring cell of the temperature of said fixed part with the contact of said fixed part: and the holding wire that is connected with said measuring cell; Said fixed part keeps said holding wire, and said holding wire is to push the mode strain of said measuring cell to said fixed part.
According to said structure, thereby temperature sensor comprises measuring cell that contacts the temperature of measuring fixed part with fixed part and the holding wire that is connected in measuring cell.Fixed part keeps to push the holding wire of the mode strain of measuring cell to fixed part.Measuring cell stably contacts with fixed part, and the temperature sensor that therefore is used to measure the dryness fraction of clothing can stably be measured the temperature of dehumidifying water.
In said structure, comparatively it is desirable to, said fixed part comprises tube wall, and said tube wall comprises: the internal face of stipulating the draining road of said dehumidifying water flows; And by the outside wall surface of said measuring cell pushing, said measuring cell is measured the temperature of the said dehumidifying water that transmits through said tube wall.
According to said structure, the tube wall of fixed part comprises internal face and the outside wall surface of measured element pushing on the draining road of regulation dehumidifying water flows.The measuring cell that holding wire through strain is urged to outside wall surface is measured the temperature of the dehumidifying water that transmits through tube wall, and the temperature sensor that therefore is used to measure the dryness fraction of clothing can stably be measured the temperature of dehumidifying water.
In said structure, comparatively it is desirable to, said fixed part comprises the maintenance tube that protrudes in said outside wall surface and keep said measuring cell, wherein, forms the slit that is used to insert said holding wire at the said tube that keeps.
According to said structure, the maintenance tube of fixed part is outstanding and maintenance measuring cell from outside wall surface.Keep being formed with the slit that is used to insert holding wire on the tube, so temperature sensor can suitably be kept through simple maintenance structure.
In said structure, comparatively it is desirable to, said fixed part comprises the filter element of from the laundry water through said drainage system, removing Soft flocks.
According to said structure, be used to keep the fixed part of temperature sensor to remove Soft flocks from laundry water, therefore discharge the laundry water that contains a spot of Soft flocks from main basket.
Utilizability on the industry
The present invention can be suitable for the device of drying clothes.
Claims (5)
1. device for clothing processing is characterized in that comprising:
Treatment trough is used to accommodate clothing;
Drive source drives said treatment trough;
Main basket is accommodated said treatment trough and said drive source;
Support component supports said treatment trough and decay are passed to said main basket from said treatment trough vibration;
Drainage system, outside said main basket, discharge be used to wash or the said treatment trough of rinsing in the laundry water of said clothing; And
The circulatory system makes the oven dry air circulation of drying the said clothing in the said treatment trough, wherein,
The said circulatory system comprises dehumidifying parts that said oven dry air is dehumidified and the sensing element of measuring the dryness fraction of said clothing,
Said dehumidifying parts comprise: the guiding tube that comprises the inner face of the mobile stream of the said oven dry air of regulation; And the feed water inlet that is used in said stream the dehumidifying water that supply is used for said oven dry air is dehumidified, wherein, said guiding tube comprises the inflow entrance that the said laundry water that is supplied to said treatment trough and said oven dry air are flowed into,
Said drainage system comprises: the drainpipe of the said laundry water of guiding outside said main basket; And the attaching parts that connect said inflow entrance and said drainpipe, wherein, said drainpipe comprises the fixed part that is fixed in said main basket,
Said sensing element comprises and is used for measuring the temperature sensor of temperature that flows into the said dehumidifying water of said fixed part through said attaching parts.
2. device for clothing processing according to claim 1 is characterized in that:
Said temperature sensor comprises: thus measure the measuring cell of the temperature of said fixed part with the contact of said fixed part: and the holding wire that is connected with said measuring cell,
Said fixed part keeps said holding wire, and said holding wire is to push the mode strain of said measuring cell to said fixed part.
3. device for clothing processing according to claim 2 is characterized in that:
Said fixed part comprises tube wall,
Said tube wall comprises: the internal face of stipulating the draining road of said dehumidifying water flows; And by the outside wall surface of said measuring cell pushing,
Said measuring cell is measured the temperature of the said dehumidifying water that transmits through said tube wall.
4. device for clothing processing according to claim 3 is characterized in that:
Said fixed part comprises the maintenance tube that protrudes in said outside wall surface and keep said measuring cell, wherein,
Form the slit that is used to insert said holding wire at the said tube that keeps.
5. according to claim 3 or 4 described device for clothing processing, it is characterized in that:
Said fixed part comprises the filter element of from the laundry water through said drainage system, removing Soft flocks.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2011-073842 | 2011-03-30 | ||
JP2011073842A JP5799267B2 (en) | 2011-03-30 | 2011-03-30 | Clothing processing equipment |
Publications (2)
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CN201210089019.9A Active CN102733150B (en) | 2011-03-30 | 2012-03-29 | Clothes processor |
CN2012201269948U Expired - Fee Related CN202543628U (en) | 2011-03-30 | 2012-03-29 | Clothes processing device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103485139A (en) * | 2013-07-26 | 2014-01-01 | 无锡小天鹅股份有限公司 | Clothes drying machine and control method thereof |
CN111051600A (en) * | 2017-09-01 | 2020-04-21 | 夏普株式会社 | Clothes treating device |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
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JP5799267B2 (en) * | 2011-03-30 | 2015-10-21 | パナソニックIpマネジメント株式会社 | Clothing processing equipment |
WO2014116001A1 (en) * | 2013-01-25 | 2014-07-31 | Lg Electronics Inc. | Laundry treatment apparatus |
JP6111428B2 (en) * | 2013-09-11 | 2017-04-12 | パナソニックIpマネジメント株式会社 | Drum washing machine |
JP6691028B2 (en) * | 2016-09-12 | 2020-04-28 | 日立グローバルライフソリューションズ株式会社 | Washing machine |
JP7149461B2 (en) * | 2019-02-08 | 2022-10-07 | パナソニックIpマネジメント株式会社 | washing machine |
CN112501868A (en) * | 2019-08-29 | 2021-03-16 | 松下家电(中国)有限公司 | Fluid temperature measuring device of clothes treatment equipment and clothes treatment equipment |
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JP2000000397A (en) * | 1998-06-17 | 2000-01-07 | Nippon Kentetsu Co Ltd | Washing and drying machine |
JP2001269495A (en) * | 2000-03-24 | 2001-10-02 | Sharp Corp | Drum type washing machine |
CN1673442A (en) * | 2004-03-26 | 2005-09-28 | 三星电子株式会社 | Drying machine |
KR100652606B1 (en) * | 2005-09-24 | 2006-12-01 | 엘지전자 주식회사 | Condensing type washing-drying machine |
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CN103485139A (en) * | 2013-07-26 | 2014-01-01 | 无锡小天鹅股份有限公司 | Clothes drying machine and control method thereof |
CN103485139B (en) * | 2013-07-26 | 2017-02-01 | 无锡小天鹅股份有限公司 | Clothes drying machine and control method thereof |
CN111051600A (en) * | 2017-09-01 | 2020-04-21 | 夏普株式会社 | Clothes treating device |
Also Published As
Publication number | Publication date |
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CN102733150B (en) | 2015-01-21 |
JP2012205774A (en) | 2012-10-25 |
CN202543628U (en) | 2012-11-21 |
JP5799267B2 (en) | 2015-10-21 |
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