CN102444012A - Drying apparatus - Google Patents

Abstract

A drying apparatus has drying tub for storing laundry and circulation system of dry air. A circulation system includes a dehumidifier, a blower for sending dry air into a drying tub, and a support element for supporting a dehumidifier. The support element has a drainage port from which water is discharged, a main tilted surface for guiding water toward drainage port, a first tilted surface below the dehumidifier, and a first partition wall protruding from the first tilted surface to the partition first tilted surface into a first upstream tilted surface and a first downstream tilted surface that is closer to the blower than the first upstream tilted surface. The first tilted surface is tilted such that water flows toward the main tilted surface, and the first partition wall extends in transverse direction with respect to dry air flow toward the blower. Via the above structure, higher drying efficiency can be maintained.

Description

Drying unit

Technical field

The present invention relates to a kind of drying unit that is used for drying clothes.

Background technology

Be used for the dryer of drying clothes or on the basis of drying function, also possess the drying units such as laundry apparatus of washing function, generally through drying air supply to the cylinder of accommodating clothing and drying clothes.Open in 2005-52533 number (patent documentation 1) the open communique spy of Japan Patent and to disclose the laundry apparatus that clothing is dried and washed.

Figure 11 roughly representes the internal structure of patent documentation 1 disclosed laundry apparatus.Utilize Figure 11 that the laundry apparatus of patent documentation 1 is described.

Laundry apparatus 900 possesses the circulatory system 920 of washing and drying groove 910 of accommodating clothing and the oven dry air circulation that makes drying clothes.The circulatory system 920 possesses the circulation line 930 of the second end 932 of first end 931 that comprises the bottom surface that is connected in washing and drying groove 910 and the side face that is connected in washing and drying groove 910; Be installed on the pressure fan 940 of the second end 932 of circulation line 930; Remove the filter 950 of Soft flocks (breaking dust compositions such as the end of a thread) from the oven dry air that in circulation line 930, flows; And be arranged at the heat pump 960 between filter 950 and the pressure fan 940.Pressure fan 940 makes in the first end 931 generation negative pressure of circulation line 930, generates malleations at the second end 932.Its result, the first end 931 that the oven dry air in the washing and drying groove 910 is recycled pipeline 930 attracts.Afterwards, the oven dry air is through filter 950.The oven dry air that has passed through filter 950 further passes through heat pump 960, and sends in the washing and drying groove 910 from the second end 932 of circulation line 930.

Heat pump 960 possess be arranged on the heat dump 961 after the filter 950 and be arranged on heat dump 961 and pressure fan 940 between radiator 962.Heat dump 961 cooling oven dry air make to be contained in the airborne moisture dewfall of oven dry.Its result, the oven dry air is dehumidified.The oven dry air that has passed through heat dump 961 is through radiator 962.Radiator 962 heating, drying air.In view of the above, the oven dry air through dehumidification treatments and heat treated is admitted in the washing and drying groove 910 through pressure fan 940 once more.

Circulation line 930 comprises the storage part 933 that is used to store the moisture (dew) that is removed from the oven dry air through heat dump 961.Storage part 933 forms the space of expansion downwards between heat dump 961 and radiator 962.The water of storing in the storage part 933 is discharged through pump (not shown).

The open communique spy of Japan Patent opens 2010-63694 number (patent documentation 2) and spy and opens 2010-64020 number (patent documentation 3) and disclose the circulatory system identical with patent documentation 1.When the circulatory system of above-mentioned patent documentation possesses the pump attraction moisture that the moisture of from the oven dry air, removing is discharged, relax the structure of this attraction to the influence of the mobile generation of oven dry air.

According to the above-mentioned circulatory system, remove and, be sent to downstream by mobile and rolled-up because of the oven dry air of the moisture stored from the oven dry air.

Shown in figure 11, in the patent documentation 1 disclosed circulatory system 920, rolled-up moisture is heated through radiator 962.Radiator 962 makes water evaporates, its drying efficiency deterioration as a result.

Summary of the invention

The object of the present invention is to provide a kind of drying unit that can keep higher drying efficiency.

Drying unit involved in the present invention comprises: the oven dry groove is used to accommodate clothing; And the circulatory system; Let the oven dry air circulation that is used to dry said clothing; Wherein, The said circulatory system possesses removes the dehumidifying assembly that is included in the airborne moisture of said oven dry, attracts to remove said oven dry air behind the moisture and the support component of sending into the air supply plant of said oven dry groove and supporting said dehumidifying assembly by said dehumidifying assembly; Wherein, Said support component possess the outlet that is used to discharge said moisture, with said moisture towards main inclined plane that the mode of said outlet guiding tilts, first inclined plane of the below that is formed on said dehumidifying assembly and outstanding and will said first inclined plane be separated into the first upstream oblique face and compare first partition wall on the inclined plane, first downstream of more approaching said air supply plant with this first upstream oblique face from said first inclined plane; Wherein, Said first inclined plane is inclined to and makes said moisture flow to said main inclined plane, and extend with the direction that flow direction towards the said oven dry air of said air supply plant intersects on the said first partition wall edge.

Description of drawings

Fig. 1 is the approximate three-dimensional map of the related laundry apparatus of an embodiment.

Fig. 2 is the general profile chart of laundry apparatus shown in Figure 1.

Fig. 3 is the general profile chart of laundry apparatus shown in Figure 1.

Fig. 4 is the skeleton diagram of the heat pump of laundry apparatus shown in Figure 1.

Fig. 5 is heat pump shown in Figure 4 and the approximate vertical view that supports the gripper shoe of heat pump.

Fig. 6 is the approximate vertical view of gripper shoe shown in Figure 5.

Fig. 7 is the summary side elevation of gripper shoe shown in Figure 6.

Fig. 8 is the skeleton diagram of the right supporting walls of gripper shoe shown in Figure 6.

Fig. 9 is the skeleton diagram of first partition wall of gripper shoe shown in Figure 6.

Figure 10 is the skeleton diagram of second partition wall of gripper shoe shown in Figure 6.

Figure 11 is the skeleton diagram of the structure of technological in the past related laundry apparatus.

The specific embodiment

Utilize accompanying drawing that the embodiment of drying unit is described below.In addition, below use in the explanation " on ", D score, " left side " term that reach expression directions such as " right sides " only is to explain cheer and brightly in order to make, and the principle of drying unit do not done any qualification.

(overall structure of laundry apparatus)

Fig. 1 is as the related drying unit of an embodiment and by the approximate three-dimensional map of illustrative laundry apparatus.In this embodiment, with the laundry apparatus that has washing function and drying function concurrently as drying unit and illustration.Replace, also can adopt the dryer that will not possess washing function as drying unit.

Laundry apparatus 100 comprises basket 200 and door body 300.Basket 200 is roughly rectangular shape.Basket 200 comprises: erect the face wall 210 that is provided with along the vertical direction; The back face wall 220 of the opposition side of face wall 210; Between face wall 210 and back face wall 220, erect left side wall 230 and the right side wall 240 that is provided with along the vertical direction; Form the roof 250 of the upper surface of basket 200; And the diapire 260 that forms the lower surface of basket 200.

Face wall 210 comprises: the lower part wall 211 that is arranged on the below; Be arranged on the midfeather 212 of the top of lower part wall 211; And the top wall 213 that is arranged on the top of midfeather 212.Midfeather 212 and top wall 213 are also to tilt the closer to the mode of back face wall 220 is crooked to the top more.

Midfeather 212 comprises the concave surface 214 of the ring-type that forms recessed zone, and this recessed zone is the shape that roughly is complementary with roughly discoideus door body 300.Concave surface 214 surrounds the substantial middle that connects midfeather 212 and the input port 215 that forms.Input port 215 is communicated with the washing and drying grooves (afterwards stating) that are housed in basket 200 inside.The user can put into clothing (clothes or similar article) or take out clothings from basket 200 through input port 215 in main basket 200.

Laundry apparatus 100 comprises the hinge arrangement 330 that door body 300 is connected in rotationally basket 200.Through hinge arrangement 330, door body 300 can and be opened between the open position of input port 215 and rotate at the detent position of sealing input port 215.The door body 300 that turns to detent position is housed in the recessed zone that is surrounded by concave surface 214.In addition, door body 300 shown in Figure 1 is positioned at open position.

Fig. 2 is the general profile chart with laundry apparatus 100 of the door body 300 that is in detent position.Configuration of components, shape and structure in the basket 200 shown in Figure 2 should not make an explanation limitedly.Configuration of components, shape and structure in the basket 200 also can be according to washing and drying Design of device and function and suitably decision.Utilize Fig. 1 and Fig. 2 to further specify the overall structure of laundry apparatus 100.

As shown in Figure 2, in basket 200, construct the treating apparatus 400 of drying processing.In this embodiment, treating apparatus 400 is also carried out the washing of clothing C such as carrying out washing treatment, rinsing processing and processed and the processing of baking needed except that carrying out the oven dry processing.Replace, do not possess under the situation of dryer as the washing and drying device of washing function if adopt, treating apparatus also can only be carried out oven dry and handle.

Treating apparatus 400 has and is used to dry and the washing and drying groove 410 of washing clothes C.The washing and drying groove 410 of accommodating clothing C comprises: swing (rock) freely is supported on the tank 420 that basket 200 inner ends have the round-ended cylinder shape; And rotation freely is supported on the swing roller 440 that tank 420 interior ends have the round-ended cylinder shape.Treating apparatus 400 has the suspension (suspension) 490 of resiliency supported washing and drying groove 410.The suspension 490 that is connected with the diapire 260 of basket 200 suitably be absorbed in various processing such as above-mentioned oven dry processing, carrying out washing treatment, rinsing processing and processed during the vibration that produces.In this embodiment, washing and drying groove 410 is as the oven dry groove and by illustration.

Treating apparatus 400 also comprises the motor 430 that makes swing roller 440 rotations.The main part of motor 430 is installed in the outer surface of the diapire 431 of tank 420.In addition, the rotating shaft of motor 430 connects the diapire 431 of tank 420 and is connected in the diapire 432 of swing roller 440.During various processing such as oven dry processing, carrying out washing treatment, rinsing processing and processed, motor 430 makes swing roller 440 rotations.

On the antetheca 433 of the opposition side of the diapire 431 of tank 420, be formed with and the door body 300 of the circular that is positioned at detent position concentric openings portion 434 roughly.Likewise, on the antetheca 435 of the opposition side of the diapire 432 of swing roller 440, be formed with the antetheca 433 that is formed on tank 420 on peristome 434 concentric openings portion 436 roughly.The user can make a body 300 move to open position and pass through input port 215 and in swing roller 440, drop into clothing C.Treating apparatus 400 also comprises the bellows (bellows) 437 between the antetheca 433 of the midfeather 212 that is arranged on basket 200 and tank 420.Tank 420 is connected in basket 200 via bellows 437 elasticity.

As shown in Figure 1, door body 300 comprises: roughly be the transparent window portion 310 that an end has the trapezoidal cone shape in the end; And the carriage 320 that supports the roughly circular plate shape of window portion 310.As shown in Figure 2, when door body 300 was positioned at detent position, window portion 310 was inserted in the input port 215 that is formed on basket 200.Door body 300 be positioned at detent position during, the user can be through the clothing C in the transparent window portion 310 Visual Confirmation washing and drying grooves 410.

Laundry apparatus 100 have be used for to the water system 340 of the used water of washing and drying groove 410 supply washing with make water (rinse water) circulation that is supplied to washing and drying groove 410 and the circulation drainage system 350 of discharging.In this embodiment, water system 340 is formed at the top of the inner space of basket 200.Circulation drainage system 350 is formed at the bottom of the inner space of basket 200.

On the roof 250 of basket 200, for example be formed with the water inlet 253 that can be connected with flexible pipe (not shown).Water system 340 has reception room 341 of accommodating washing agent and first supply channel 342 that is connected water inlet 253 and reception room 341.Reception room 341 is adjacent to the inner surface of the roof 250 of basket 200.Water system 340 also has second supply channel 343 that extends towards tank 420 from reception room 341.

Water via water inlet 253 supplies flows into reception room 341 through first supply channel 342.Water and washing agent mix and are rinse water in reception room 341.Rinse water is provided in the tank 420 through second water-supply line 343.

Be formed with on the tank 420 and be used to discharge the outlet 423 of rinse water and the inflow entrance 424 that rinse water flows into.On the diapire 260 of basket 200, be formed with the water discharge outlet 261 that is used for outside basket 200, discharging rinse water.Circulation drainage system 350 comprises: the discharge pipe line 351 that between the water discharge outlet 261 of the outlet 423 of tank 420 and basket 200, extends; And the draining valve 352 that is installed in discharge pipe line 351.Draining valve 352 is used to control the discharge of the rinse water outside basket 200, opens and closes as required.In this embodiment, circulation drainage system 350 is as drainage system and by illustration.

Circulation drainage system 350 comprises: at the upper reaches of draining valve 352 from the circulation line 353 of discharge pipe line 351 branches; And the circulating pump 354 that is installed in circulation line 353.Circulation line 353 is connected in the inflow entrance 424 of tank 420.When draining valve 352 cuts out, during circulating pump 354 running, the rinse water in the tank 420 are attracted towards circulating pump 354.Afterwards, rinse water is sent to inflow entrance 424 through circulating pump 354, is used in the washing of the clothing C in the washing and drying groove 410.

On tank 420, also be formed with the limiting holes 422 that is used to limit the liquid level in the tank 420.Circulation drainage system 350 also possesses the overflow pipe (overflow pipe) 355 of limiting holes of being connected in 422.Overflow pipe 355 is connected in discharge pipe line 351 at the upper reaches of draining valve 352.When the liquid level of the rinse water in the tank 420 surpassed the water level of appointment, draining valve 352 was opened.Rinse water unnecessary in the tank 420 flows into overflow pipe 355 through limiting holes 422, finally discharges from the water discharge outlet 261 of basket 200.

Circulation drainage system 350 also comprises: the hollow block (hollow block) 356 that is installed in discharge pipe line 351; And the liquid level sensor 357 that is connected in hollow block 356.In the hollow block 356 that is installed between draining valve 352 and the washing and drying groove 410, form and clean water layer and air layer.Hollow block 356 is connected in tank 420 via discharge pipe line 351, so the liquid level interlock of the thickness of the cleaning water layer in the hollow block 356 and the rinse water in the tank 420.The change of the thickness of the cleaning water layer in the hollow block 356 can cause the pressure oscillation of the air layer in the hollow block 356.Liquid level sensor 357 detects the pressure oscillation of the air layer in the hollow block 356.The output of liquid level sensor 357 is used for the liquid level adjustment of the rinse water of tank 420.

Fig. 3 is the general profile chart of laundry apparatus 100.Utilize Fig. 1 and Fig. 3 to further specify the overall structure of laundry apparatus 100.

Laundry apparatus 100 possesses the circulatory system 600 of the oven dry air circulation that is used for making the clothing C that oven dry swing roller 440 accommodates.The circulatory system 600 and washing and drying groove 410 and circulation drainage system 350 the same also constructing in basket 200.

Tank 420 is included in the perisporium cylindraceous 438 that extends between diapire 431 and the antetheca 433.Perisporium 438 at tank 420 is formed with the exhaust outlet 601 that is used for discharging from washing and drying groove 410 the oven dry air.And, on the diapire 431 of tank 420, be formed with the air inlet 643 that is used in washing and drying groove 410, sending into the oven dry air.The circulatory system 600 lets the oven dry air that is used for drying clothes C between exhaust outlet 601 and air inlet 643, circulate.

Be formed with at the diapire 432 of swing roller 440 and be used to impel the bottom outlet 645 of oven dry air in swing roller 440 that gets into from air inlet 643.Swing roller 440 is included in the perisporium cylindraceous 439 that extends between diapire 432 and the antetheca 435.Be formed with at the perisporium 439 of swing roller 440 and be used to impel a plurality of all hole 646 of oven dry air towards the exhaust outlet 601 of the perisporium that is formed on tank 420 438.Promote the clothing C oven dry in the swing roller 440 through the oven dry air that flows to all holes 646 from bottom outlet 645.

The circulatory system 600 comprises: first pipeline 610 that extends and extend along the roof 250 of basket 200 from the exhaust outlet of tank 420 601; The oven dry air of discharging from washing and drying groove 410 is removed the filter 700 of Soft flocks dust compositions such as () broken the end of a thread; Be adjacent to the heat pump 630 of filter 700; And the pressure fan 621 that makes the oven dry air circulation.Gripper shoe of stating after first pipeline 610 comprises and the connecting line 602 that is connected gripper shoe and exhaust outlet 601.In this embodiment, gripper shoe supports filter 700, heat pump 630 and pressure fan 621.Pressure fan 621 is as air supply plant and by illustration.Connecting line 602 is as tube connector and by illustration.

First pipeline 610 will be dried air and guided to pressure fan 621 from washing and drying groove 410.In first pipeline 610, filter 700 is removed Soft flocks from the oven dry air.Heat pump 630 carries out heat exchange with the oven dry air, and the oven dry air is dehumidified and heats.Pressure fan 621 attracts the oven dry air after dehumidifying and the heating, is sent to washing and drying groove 410 then.

The circulatory system 600 also has from second pipeline 620 of pressure fan 621 towards washing and drying groove 410 guiding oven dry air.The oven dry air of seeing off from pressure fan 621 is directed to second pipeline 620, and flows in the washing and drying groove 410 through air inlet 643.

The circulatory system 600 comprises: from the branch line 650 of second pipeline, 620 branches; And the transfer valve 651 that is arranged on the connecting portion of second pipeline 620 and branch line 650.Branch line 650 have with the antetheca that is formed on swing roller 440 435 on the leading section that is communicated with of peristome 436.Transfer valve 651 rotates in the primary importance that flows of interdicting the oven dry air that flows to air inlet 643 from pressure fan 621 and between the second place that flows of the oven dry air that flows to air inlet 643 from pressure fan 621.When transfer valve 651 was positioned at primary importance, the major part of oven dry air was ejected to clothing C through branch line 650 from the peristome 436 of swing roller 440.When transfer valve 651 was positioned at the second place, the major part of oven dry air was towards air inlet 643.Transfer valve 651 is for example handled in the designated duration that begins from oven dry and is set in the second place.Thereafter, transfer valve 651 is set in primary importance till the oven dry processing finishes.In view of the above, can change the oven dry action according to the oven dry degree of clothing C.

(heat pump)

Fig. 4 is an ideograph of roughly representing heat pump 630.Utilize Fig. 3 and Fig. 4 that heat pump 630 is described.

Heat pump 630 possesses circulation pipe 631.Cold-producing medium flows in circulation pipe 631.Heat pump 630 possesses the compressor 632 of compressed refrigerant.Compressor 632 is arranged on the middle part of the circulation pipe 631 that forms the closed-loop path.

The circulation pipe 631 that the cold-producing medium of seeing off from compressor 632 is flowed through projects to first pipeline 610, forms radiator 633.Emit based on the compression of compressor 632 and the radiator 633 of the heat of heated cold-producing medium is included in the circulation pipe 631 that is bent to form in first pipeline 610; And be installed in the fin 638 on this circulation pipe 631.Oven dry air through first pipeline 610 is heated by radiator 633.In this embodiment, radiator 633 is as heating component and by illustration.

Heat pump 630 possesses the pressure reducer 634 that the cold-producing medium that becomes high pressure through compressor 632 is reduced pressure.The cold-producing medium that has passed through radiator 633 is depressurized when device 634 reduces pressure and is cooled.

The circulation pipe that cold-producing medium flowed 631 that has passed through pressure reducer 634 projects in first pipeline 610 once more, forms heat dump 635.The heat dump 635 that the cold-producing medium that utilization is cooled based on the decompression of pressure reducer 634 absorbs heat comprises: crooked circulation pipe 631 in first pipeline 610; And be installed in the fin 636 on this circulation pipe 631.Oven dry air in first pipeline 610 is by heat dump 635 heat absorptions.Its result is dried airborne moisture dewfall on fin 636 and/or circulation pipe 631, and from the oven dry air, is removed.In following explanation, the airborne moisture of oven dry of dewfall is called dew on fin 636 and/or circulation pipe 631.In this embodiment, heat dump 635 is as the dehumidifying assembly and by illustration.

As shown in Figure 3, the circulatory system 600 comprises hydrophobic pipeline 639, and this hydrophobic pipeline 639 is connected to the discharge pipe line 351 of the below that is arranged at heat dump 635 from first pipeline 610.In this embodiment, hydrophobic pipeline 639 is connected in the hollow block 356 that is provided with in the discharge pipe line 351.Hydrophobic pipeline 639 is used for to discharge pipe line 351 guiding dews.

Heat pump 630 is adjacent to the roof 250 of basket 200.Therefore, in hydrophobic pipeline 639, produce the head (water head) of bigger dew.In view of the above, dew suitably flows to discharge pipe line 351 under the gravity effect.

The circulatory system 600 also comprises the check-valves 637 that is installed in the hydrophobic pipeline 639.Based on the running of pressure fan 621, the inner space of first pipeline 610 becomes negative pressure basically.Check-valves 637 is breaking at the subnormal ambient that produces in first pipeline 610 at the middle part of hydrophobic pipeline 639.Its result is suppressed to the mobile of fluid that first pipeline 610 rises from discharge pipe line 351.The installation site of the check-valves 637 in hydrophobic pipeline 639 is set the enough big head pressure that is used for seeing off to discharge pipe line 351 dew between the check-valves 637 and first pipeline 610, to generate aptly.

(gripper shoe)

Fig. 5 is arranged on the approximate vertical view of filter 700, heat pump 630 and pressure fan 621 on the gripper shoe.Fig. 6 is the approximate vertical view of gripper shoe.Fig. 7 is the summary right side view of gripper shoe.Utilize Fig. 3, Fig. 5 to Fig. 7 that gripper shoe is described.

Gripper shoe 500 comprises the diapire 510 that supports filter 700, heat pump 630 and pressure fan 621 and erects the perisporium 520 that is provided with from the periphery of diapire 510.Perisporium 520 comprises the connecting wall 521 that is connected in connecting line 602.On connecting wall 521, be formed with the peristome 522 that is connected in connecting line 602.

Filter 700 is adjacent to connecting wall 521.Therefore, remove the airborne Soft flocks of oven dry that import from peristome 522 by filter 700.Pressure fan 621 is arranged on the diapire 510 with respect to peristome 522 deflection lefts.In addition, in this embodiment, connecting wall 521 is erect setting from the edge portion of the face side of diapire 510.In addition, pressure fan 621 is arranged near the edge portion of rear side of diapire 510.

The heat dump 635 of heat pump 630 is adjacent to filter 700.Heat dump 635 is from just through removing moisture the oven dry air after the filter 700.The right portions 635R of heat dump 635 and peristome 522 are in opposite directions.The left part 635L and the pressure fan 621 that are adjacent to right portions 635R are in opposite directions.In this embodiment, the gripper shoe 500 that supports heat dump 635 is as support component and by illustration.And the right portions 635R of heat dump 635 is as first dehumidification portion and by illustration.The left part 635L of heat dump 635 is as second dehumidification portion and by illustration.

The radiator 633 of heat pump 630 is adjacent to heat dump 635.Be arranged on heat dump 635 and radiator 633 between the pressure fan 621 and roughly be the shape identical size identical with heat dump 635.The right portions 633R of radiator 633 is adjacent to the right portions 635R of heat dump 635.And the left part 633L of radiator 633 is adjacent to the left part 635L of heat dump 635.In this embodiment, the right portions 633R of radiator 633 is as first heating part and by illustration.The left part 633L that is adjacent to right portions 633R is as second heating part and by illustration.

Diapire 510 comprises the main inclined plane 511 of the right edge that is formed at heat dump 635 and radiator 633.The dew that produces from heat dump 635 is directed to main inclined plane 511.Main inclined plane 511 is tilted that direction flows towards the back side in order to make dew on the main inclined plane 511.

Gripper shoe 500 comprises the storage part 530 of the rear side end that is adjacent to main inclined plane 511.More below depression is compared in storage part 530 with main inclined plane 511.Therefore, arrive the dew inflow storage part 530 of the rear side end on main inclined plane 511.Storage part 530 can temporarily store a certain amount of dew.

Gripper shoe 500 comprises the connector 531 of the bottom that is formed at storage part 530.Be used for being connected in the upper end of hydrophobic pipeline 639 from the connector 531 of the dew of gripper shoe 500 discharge storage parts 530.As stated, main inclined plane 511 is tilted to dew being guided to storage part 530.In this embodiment, connector 531 is as outlet and by illustration.

Gripper shoe 500 comprises the cylindrical wall 540 of the compressor 632 that surrounds heat pump 630.Cylindrical wall 540 is adjacent to storage part 530.

Fig. 8 is by the heat dump 635 of gripper shoe 500 supports and the summary right side view of radiator 633.Utilize Fig. 5, Fig. 6 and Fig. 8 that gripper shoe 500 is described.

Gripper shoe 500 comprises the right supporting walls 512 of the right-hand member that supports heat dump 635 and radiator 633.The left border on the main inclined plane 511 of right supporting walls 512 regulations.The left end of heat dump 635 and radiator 633 is suitably supported through the left supporting walls of giving prominence to from the perisporium 520 of gripper shoe 500 513.

The right supporting walls 512 outstanding from the upper surface of diapire 510 comprises: the first right supporting walls 514 that forms along the front edge of the right flank of heat dump 635 and bottom surface edge; Along the part of the back side edge of the right flank of radiator 633 and bottom surface edge and the second right supporting walls 515 that forms; And the 3rd right supporting walls 516 of bottom surface edge that between the first right supporting walls 514 and the second right supporting walls 515, supports the right flank of radiator 633.On right supporting walls 512, be formed with notch part 517,518.Notch part 517 is formed between the first right supporting walls 514 and the 3rd right supporting walls 516.Notch part 518 is formed between the second right supporting walls 515 and the 3rd right supporting walls 516.

As shown in Figure 6, gripper shoe 500 is included between heat dump 635 and the radiator 633 to the outstanding interface wall 541 in top.The diapire 510 of gripper shoe 500 comprises: first inclined plane 542 that is formed at the below of heat dump 635; And second inclined plane 543 that is formed at the below of radiator 633.Right supporting walls 512 is separated the main inclined plane 511 and first inclined plane 542.And right supporting walls 512 is separated the main inclined plane 511 and second inclined plane 543.In this embodiment, right supporting walls 512 outstanding between main inclined plane 511 and first inclined plane 542 and second inclined plane 543 is as supporting walls and by illustration.

Supporting walls 500 has first partition wall 546, and this first partition wall 546 is divided into the first upstream oblique face 544 and (near pressure fan 621) inclined plane, first downstream 545 of comparing with the first upstream oblique face 544 further from connecting wall 521 with first inclined plane 542.Outstanding first partition wall 546 extends along left and right directions (with the direction of reporting to the leadship after accomplishing a task towards the flow direction of the oven dry air of air supply plant 621) from first inclined plane 542.

Supporting walls 500 has second partition wall 549, and this second partition wall 549 is divided into the second upstream oblique face 547 and (near pressure fan 621) inclined plane, second downstream 548 of comparing with the second upstream oblique face 547 further from connecting wall 521 with second inclined plane 543.Outstanding second partition wall 549 extends along left and right directions (with the direction of reporting to the leadship after accomplishing a task towards the flow direction of the oven dry air of air supply plant 621) from second inclined plane 543.

Fig. 9 is the general profile chart of periphery of the connecting portion of the right supporting walls 512 and first partition wall 546.Utilize Fig. 5, Fig. 6 and Fig. 9 that gripper shoe 500 is further described.

The fin 636 of heat dump 635 is provided with along first partition wall 546 continuously.Circulation pipe 631 runs through fin 636.In view of the above, fin 636 fully is cooled through the cold-producing medium that in circulation pipe 631, flows.The oven dry air that contacts with fin 636 and/or circulation pipe 631 is cooled.Its result produces dew on the surface of fin 636 and/or circulation pipe 631.Dew drops onto on first inclined plane 542 (first upstream oblique face 544, inclined plane, first downstream 545) of the below that is formed at heat dump 635.First inclined plane 542 tilt for make the dew that drops onto on first inclined plane 542 to the right supporting walls 512 and main inclined plane 511 (promptly from the below of the left part 635L of heat dump 635 towards the below of right portions 635R) flow.

Near right supporting walls 512, on first partition wall 546, be formed with notch part 551.The notch part 551 of first partition wall 546 allows dews 545 to flow towards inclined plane, first downstream from the first upstream oblique face 544.In addition, the notch part 517 that is formed between the first right supporting walls 514 and the 3rd right supporting walls 516 allows dew to flow from inclined plane, first downstream 545 towards main inclined plane 511.In this embodiment, be formed at notch part 517 between the first right supporting walls 514 and the 3rd right supporting walls 516 as first notch part and by illustration.The notch part 551 of first partition wall 546 is as second notch part and by illustration.

Figure 10 is the general profile chart of periphery of the connecting portion of the right supporting walls 512 and second partition wall 549.Utilize Fig. 4 to Fig. 6 and Figure 10 that gripper shoe 500 is further described.

The fin 638 of radiator 633 is provided with along second partition wall 549 continuously.Circulation pipe 631 runs through fin 638.As combine Fig. 4 illustrated, the cold-producing medium in the radiator 633 is heated through compressor 632 fully.Therefore, be different from heat dump 635, directly do not produce dewfall on fin 638 in the radiator 633 and the circulation pipe 631.But the dew that produces in the heat dump 635 can be attached to fin 638 and the circulation pipe 631 in the radiator 633 potentially along with flowing of oven dry air.In addition; Outstanding interface wall 541 is extended along left and right directions (with the direction of reporting to the leadship after accomplishing a task towards the flow direction of the oven dry air of pressure fan 621) between the inclined plane, first downstream 545 and the second upstream oblique face 547, moves towards radiator 633 from heat dump 635 thereby partly hinder dew.

The dew that is attached to fin 638 and circulation pipe 631 in the radiator 633 drops onto on second inclined plane 543 of the below that is formed at radiator 633 (second upstream oblique face 547, inclined plane, second downstream 548).Second inclined plane 543 tilts, and (promptly from the below of the left part 633L of radiator 633 towards the below of right portions 633R) flows towards right supporting walls 512 and main inclined plane 511 in order to make the dew that drops onto on second inclined plane 543.

Near right supporting walls 512, on second partition wall 549, be formed with notch part 552.The notch part 552 of second partition wall 549 allows dews 548 to flow towards inclined plane, second downstream from the second upstream oblique face 547.In addition, the notch part 518 that is formed between the second right supporting walls 515 and the 3rd right supporting walls 516 allows dew to flow from inclined plane, second downstream 548 to main inclined plane 511.In this embodiment, be formed at notch part 518 between the second right supporting walls 515 and the 3rd right supporting walls 516 as the 3rd notch part and by illustration.The notch part 552 of second partition wall 549 is as the 4th notch part and by illustration.

(discharge of dew)

Utilize Fig. 2, Fig. 3 and Fig. 6 that the discharge operation of dew is described.

The dew that drops onto on first inclined plane 542 and/or second inclined plane 543 is directed to main inclined plane 511.Afterwards, dew is collected at storage part 530.Accumulate in the storage part 530 dew and flow into hydrophobic pipeline 639 at any time.Its result produces higher head and presses between check-valves 637 in being installed in hydrophobic pipeline 639 and the connector 531.Higher head is pressed the subnormal ambient that running produced of resisting pressure fan 621, and impels dew to flow towards the below of check-valves 637.In view of the above, dew is sent to the hollow block 356 of the below that is positioned at check-valves 637 at any time.

In this embodiment, dew is realized based on the gravity effect to flowing of hollow block 356 from gripper shoe 500.Therefore, the circulation of the oven dry air that the running based on pressure fan 621 is realized of flowing of dew does not constitute influence basically.

In technology in the past, flowing of dew realizes through pump.The attraction of pump usually constitutes influence to the circulation of oven dry air, but in this embodiment, the mobile circulation that is independent of the oven dry air of dew.

Dew thickeies the cleaning water layer in the hollow block 356 to the inflow of hollow block 356 potentially.Liquid level sensor 357 also can detect dew to the inflow of hollow block 356 and the change of the air pressure in the hollow block 356 that causes.In addition, draining valve 352 also can be opened according to the increase of the air pressure in the hollow block 356.Its result, dew is discharged to outside the basket 200.Replace, also can be when opening draining valve 352 according to being used to realize the program of various operations such as washing procedure, rinsing process or dehydration procedure, dew is discharged from rinse water.

The related laundry apparatus 100 of this embodiment need increase parts or program hardly, just can suitably discharge dew.In addition, no longer need be specifically designed to the pumping unit in the past of discharging dew.

Above-mentioned embodiment mainly comprises the drying unit with following structure.Drying unit with following structure can be kept higher drying efficiency.

The drying unit that the one side of above-mentioned embodiment is related comprises: the oven dry groove is used to accommodate clothing; And the circulatory system; Let the oven dry air circulation that is used to dry said clothing; Wherein, The said circulatory system possesses removes the dehumidifying assembly that is included in the airborne moisture of said oven dry, attracts to remove said oven dry air behind the moisture and the support component of sending into the air supply plant of said oven dry groove and supporting said dehumidifying assembly by said dehumidifying assembly; Wherein, Said support component possess the outlet that is used to discharge said moisture, with said moisture towards main inclined plane that the mode of said outlet guiding tilts, first inclined plane of the below that is formed on said dehumidifying assembly and outstanding and will said first inclined plane be separated into the first upstream oblique face and compare first partition wall on the inclined plane, first downstream of more approaching said air supply plant with this first upstream oblique face from said first inclined plane; Wherein, Said first inclined plane is inclined to and makes said moisture flow to said main inclined plane, and extend with the direction that flow direction towards the said oven dry air of said air supply plant intersects on the said first partition wall edge.

According to said structure, the circulatory system lets and is used to dry the oven dry air circulation that is housed in the clothing in the oven dry groove.The dehumidifying assembly is removed and is included in the airborne moisture of oven dry.Air supply plant attraction is removed the oven dry air behind the moisture and sends into the oven dry groove.The support component that supports the dehumidifying assembly possesses the outlet that is used to discharge moisture.Main inclined plane guides moisture towards outlet.Below the dehumidifying assembly, be formed with first inclined plane.Outstanding first partition wall is separated into the first upstream oblique face and the inclined plane of comparing with the first upstream oblique face more near air supply plant, first downstream with first inclined plane from first inclined plane.First inclined plane makes moisture flow to main inclined plane.Extend with the direction that flow direction towards the oven dry air of air supply plant intersects on the first partition wall edge, so it is rolled-up and situation that be sent to downstream takes place to be suppressed at the moisture that flows on the first upstream oblique face.Therefore, the amount of the airborne moisture of oven dry that is admitted to the oven dry groove through air supply plant can be kept lower degree.In view of the above, drying unit can be kept higher drying efficiency.

In said structure; Comparatively it is desirable to; Said support component is included in the supporting walls of giving prominence to and support said dehumidifying assembly between said main inclined plane and said first inclined plane, is formed with first notch part that allows said moisture to flow to said main inclined plane from said first inclined plane at said supporting walls.

According to said structure, outstanding supporting walls supports the dehumidifying assembly between the main inclined plane and first inclined plane.First notch part that is formed on the supporting walls allows moisture to flow to main inclined plane from first inclined plane.In view of the above, the moisture that on first inclined plane, flows flows to main inclined plane through first notch part, discharges from outlet at last.

In said structure, comparatively it is desirable to, be formed with the said moisture of permission from second notch part of the said first upstream oblique surface current at said first partition wall to inclined plane, said first downstream.

According to said structure, be formed on second notch part on first partition wall allow moisture from the first upstream oblique surface current to inclined plane, first downstream.In view of the above, flow into inclined plane, first downstream at the moving moisture of the first upstream oblique surface current through second notch part.

In said structure, comparatively it is desirable to, said first notch part allows said moisture to flow to said main inclined plane from inclined plane, said first downstream.

According to said structure, first notch part allows moisture to flow to main inclined plane from inclined plane, first downstream.Therefore, flow into the moisture on inclined plane, first downstream through second notch part and directly be received in inclined plane, first downstream from the dehumidifying assembly moisture flow to main inclined plane through first notch part.Afterwards, moisture is discharged from outlet.

In said structure; Comparatively it is desirable to; The said support component that supports said air supply plant comprises connecting wall, is formed with the peristome of the said oven dry air that importing attracts to said dehumidifying assembly from said oven dry groove by said air supply plant at this connecting wall, said dehumidifying assembly comprise with said peristome in opposite directions first dehumidification portion and with second dehumidification portion of this first dehumidification portion adjacency; Wherein, said second dehumidification portion and said air supply plant are in opposite directions.

According to said structure, the support component that supports air supply plant comprises the connecting wall of the peristome that is formed with the oven dry air that importing attracts towards the dehumidifying assembly from the oven dry groove by air supply plant.The dehumidifying assembly comprise with peristome in opposite directions first dehumidification portion and with second dehumidification portion of the first dehumidification portion adjacency.Second dehumidification portion and air supply plant are in opposite directions.Therefore, towards the oblique dehumidifying assembly and flowing that passes of the oven dry air of air supply plant.In view of the above, can guarantee to be used to dry the long time of air, can improve dehumidification rate through the dehumidifying assembly.

In said structure, comparatively it is desirable to, the said first upstream oblique face tilt become to make the said moisture that said second dehumidification portion is removed flow to said first dehumidification portion below.

According to said structure, moisture that second dehumidification portion is removed along the inclination of the first upstream oblique face and flow to first dehumidification portion below.

In said structure, comparatively it is desirable to, inclined plane, said first downstream be inclined to make the said moisture that said second dehumidification portion is removed flow to said first dehumidification portion below.

According to said structure, moisture that second dehumidification portion is removed along the inclination on inclined plane, first downstream and flow to first dehumidification portion below.

In said structure, comparatively it is desirable to, said second notch part be formed on said supporting walls near.

According to said structure, the moisture on the first upstream oblique face flows to the below of first dehumidification portion.Therefore, below first dehumidification portion, it is higher that the water level of moisture becomes easily, therefore impels moisture to pass through second notch part and flow into inclined plane, first downstream.Based on moisture flow into through second notch part and receive on inclined plane, first downstream from the flowing of the moisture of dehumidifying assembly, moisture flows to main inclined plane via first notch part.Near supporting walls is not subject to obliquely pass the dehumidifying assembly and the influence of flowing of mobile oven dry air.Therefore, below first dehumidification portion, even the water level of moisture is higher, moisture can be rolled by the oven dry air hardly.Its result, the amount that is admitted to the airborne moisture of oven dry of oven dry groove through air supply plant can be kept lower degree.In view of the above, drying unit can be kept higher drying efficiency.

In said structure; Comparatively it is desirable to; Also comprise the heating component that is used to heat said oven dry air; Wherein, said supporting walls supports and is arranged on the said heating component between said dehumidifying assembly and the said air supply plant, said heating component possess with first heating part of the said first dehumidification portion adjacency and with second heating part of the said second dehumidification portion adjacency.

According to said structure, the heating component that supported wall supports between dehumidifying assembly and air supply plant heats the oven dry air.Heating component comprise with first heating part of the first dehumidification portion adjacency and with second heating part of the second dehumidification portion adjacency.Therefore, towards the oblique dehumidifying assembly and flowing that passes of the oven dry air of air supply plant.In view of the above, the long time of air can be guaranteed to dry, the efficiency of heating surface can be improved through heating component.

In said structure; Comparatively it is desirable to; Said support component possesses second inclined plane that is formed on said heating component below and is outstanding and will said second inclined plane be divided into the second upstream oblique face and compare second partition wall on the inclined plane, second downstream of more approaching said air supply plant with this second upstream oblique face from this second inclined plane; Wherein, extend with the direction that flow direction towards the said oven dry air of said air supply plant intersects on the said second partition wall edge.

According to said structure, below heating component, be formed with second inclined plane.Along with the mobile moisture that moves to heating component of drying air is received by second inclined plane.Outstanding second partition wall is divided into the second upstream oblique face and the inclined plane of comparing with this second upstream oblique face more near air supply plant, second downstream with second inclined plane from second inclined plane.Extend with the direction that flow direction towards the oven dry air of air supply plant intersects on the second partition wall edge, so it is rolled-up and situation that be sent to downstream takes place to be suppressed at the moving moisture of the second upstream oblique surface current.Therefore, the amount of the airborne moisture of oven dry that is admitted to the oven dry groove through air supply plant can be kept lower degree.In view of the above, drying unit can be kept higher drying efficiency.

In said structure, comparatively it is desirable to, said second inclined plane is inclined to and makes the said moisture that is positioned at below, said second heating part flow to the below of said first heating part.

According to said structure, the moisture of below that is positioned at second heating part is along the inclination on second inclined plane and flow to the below of first heating part.

In said structure, comparatively it is desirable to, on the said supporting walls of separating between said main inclined plane and said second inclined plane, be formed with the 3rd notch part that allows said moisture to flow to said main inclined plane from said second inclined plane.

According to said structure, the 3rd notch part that on the supporting walls of separating between the main inclined plane and second inclined plane, forms allows moisture to flow to main inclined plane from second inclined plane.Therefore, the moisture that flows towards the below of first heating part flows to main inclined plane along the inclination on second inclined plane and through the 3rd notch part.

In said structure, comparatively it is desirable to, be formed with the said moisture of permission from four notch part of the said second upstream oblique surface current at said second partition wall to inclined plane, said second downstream.

According to said structure, be formed on the 4th notch part on second partition wall allow moisture from the second upstream oblique surface current to inclined plane, second downstream.

In said structure, comparatively it is desirable to, said the 3rd notch part allows said moisture to flow to said main inclined plane from inclined plane, said second downstream.

According to said structure, the 3rd notch part allows moisture to flow to main inclined plane from inclined plane, second downstream.

In said structure, comparatively it is desirable to, said the 4th notch part be formed on said supporting walls near.

According to said structure, the moisture on the second upstream oblique face flows to the below of first heating part.Therefore, below first heating part, it is higher that the water level of moisture becomes easily, therefore impels moisture to pass through the 4th notch part and flow into inclined plane, second downstream.Based on moisture flow into through the 4th notch part and receive on inclined plane, second downstream from the flowing of the moisture of heating component, moisture flows to main inclined plane via the 3rd notch part.Near supporting walls is not subject to obliquely pass heating component and the influence of flowing of mobile oven dry air.Therefore, below first heating part, even the water level of moisture is higher, moisture can be rolled by the oven dry air hardly.Its result, the amount that is admitted to the airborne moisture of oven dry of oven dry groove through air supply plant can be kept lower degree.In view of the above, drying unit can be kept higher drying efficiency.

In said structure; Comparatively it is desirable to; Said support component is included between said inclined plane, first downstream and the said second upstream oblique face outstanding interface wall, the direction extension that said interface wall edge and flow direction towards the said oven dry air of said air supply plant intersect.

According to said structure; Extend with the direction that flow direction towards the oven dry air of air supply plant intersects on outstanding interface wall edge between the inclined plane, first downstream and the second upstream oblique face, so it is rolled-up and be sent to the situation generation in downstream to be suppressed at the moisture that flows on inclined plane, first downstream.Therefore, the amount of the airborne moisture of oven dry that is admitted to the oven dry groove through air supply plant can be kept lower degree.In view of the above, drying unit can be kept higher drying efficiency.

Utilizability on the industry

The principle of this embodiment possesses the device of drying function applicable to laundry apparatus or dryer etc.

Claims (16)

1. drying unit is characterized in that comprising:

The oven dry groove is used to accommodate clothing; And

The circulatory system lets the oven dry air circulation that is used to dry said clothing, wherein,

The said circulatory system possesses removes the dehumidifying assembly that is included in the airborne moisture of said oven dry, attracts to remove said oven dry air behind the moisture and the support component of sending into the air supply plant of said oven dry groove and supporting said dehumidifying assembly by said dehumidifying assembly; Wherein

Said support component possess the outlet that is used to discharge said moisture, with said moisture towards main inclined plane that the mode of said outlet guiding tilts, first inclined plane of the below that is formed on said dehumidifying assembly and outstanding and will said first inclined plane be separated into the first upstream oblique face and compare first partition wall on the inclined plane, first downstream of more approaching said air supply plant with this first upstream oblique face from said first inclined plane; Wherein

Said first inclined plane is inclined to and makes said moisture flow to said main inclined plane,

Extend with the direction that flow direction towards the said oven dry air of said air supply plant intersects on the said first partition wall edge.

2. drying unit according to claim 1 is characterized in that:

Said support component is included in the supporting walls of giving prominence to and support said dehumidifying assembly between said main inclined plane and said first inclined plane,

Be formed with first notch part that allows said moisture to flow to said main inclined plane from said first inclined plane at said supporting walls.

3. drying unit according to claim 2 is characterized in that:

Be formed with the said moisture of permission from second notch part of the said first upstream oblique surface current at said first partition wall to inclined plane, said first downstream.

4. drying unit according to claim 3 is characterized in that:

Said first notch part allows said moisture to flow to said main inclined plane from inclined plane, said first downstream.

5. drying unit according to claim 4 is characterized in that:

The said support component that supports said air supply plant comprises connecting wall, is formed with the peristome of the said oven dry air that importing attracts to said dehumidifying assembly from said oven dry groove by said air supply plant at this connecting wall,

Said dehumidifying assembly comprise with said peristome in opposite directions first dehumidification portion and with second dehumidification portion of this first dehumidification portion adjacency, wherein,

Said second dehumidification portion and said air supply plant are in opposite directions.

6. drying unit according to claim 5 is characterized in that:

The said first upstream oblique face tilt become to make the said moisture that said second dehumidification portion is removed flow to said first dehumidification portion below.

7. drying unit according to claim 6 is characterized in that:

Inclined plane, said first downstream be inclined to make the said moisture that said second dehumidification portion is removed flow to said first dehumidification portion below.

8. drying unit according to claim 6 is characterized in that:

Said second notch part be formed on said supporting walls near.

9. according to each described drying unit in the claim 5 to 8, it is characterized in that, also comprise the heating component that is used to heat said oven dry air, wherein,

Said supporting walls supports and is arranged on the said heating component between said dehumidifying assembly and the said air supply plant,

Said heating component possess with first heating part of the said first dehumidification portion adjacency and with second heating part of the said second dehumidification portion adjacency.

10. drying unit according to claim 9 is characterized in that:

Said support component possesses second inclined plane that is formed on said heating component below and is outstanding and will said second inclined plane be divided into the second upstream oblique face and compare second partition wall on the inclined plane, second downstream of more approaching said air supply plant with this second upstream oblique face from this second inclined plane; Wherein

Extend with the direction that flow direction towards the said oven dry air of said air supply plant intersects on the said second partition wall edge.

11. drying unit according to claim 10 is characterized in that:

Said second inclined plane is inclined to and makes the said moisture that is positioned at below, said second heating part flow to the below of said first heating part.

12. drying unit according to claim 11 is characterized in that:

On the said supporting walls of separating between said main inclined plane and said second inclined plane, be formed with the 3rd notch part that allows said moisture to flow to said main inclined plane from said second inclined plane.

13. drying unit according to claim 12 is characterized in that:

Be formed with the said moisture of permission from four notch part of the said second upstream oblique surface current at said second partition wall to inclined plane, said second downstream.

14. drying unit according to claim 13 is characterized in that:

Said the 3rd notch part allows said moisture to flow to said main inclined plane from inclined plane, said second downstream.

15. drying unit according to claim 13 is characterized in that:

Said the 4th notch part be formed on said supporting walls near.

16. drying unit according to claim 13 is characterized in that:

Said support component is included in interface wall outstanding between said inclined plane, first downstream and the said second upstream oblique face,

Extend with the direction that flow direction towards the said oven dry air of said air supply plant intersects on said interface wall edge.

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