CN204385474U - Wash a dry body washer - Google Patents

Abstract

The utility model discloses one and wash a dry body washer.Wash a dry body washer to comprise: inner core, inner core has container cavity, and container cavity has moisture outlet; Precooling passage, one end of precooling passage is communicated with moisture outlet, and precooling passage is provided with precooling cooling water inlet; Cooling duct, the first end of cooling duct and precooling channel connection, the second end of cooling duct is communicated with container cavity, and cooling duct is provided with cooling water supply import, cooling water by cooling duct towards precooling channel flow; And fan.A dry body washer is washed according to of the present utility model, by utilizing precooling passage, preliminary precooling is carried out to the gas of humidity, cooling twice is carried out to the gas through preliminary precooling in recycling cooling duct, and then the more vaporous waters in moist gas can be made to be condensed into aqueous water, the gas entered in container cavity is made to become drier, thus decrease gas cycle-index, reduce energy consumption.

Description

Wash a dry body washer

Technical field

The utility model relates to household electrical appliance technical field, and specifically, particularly one washes a dry body washer.

Background technology

Existingly wash a dry body washer mainly by a blower fan apparatus, heated drying air after heating devices heat is entered in the washing machine inner tub of opposing seal by a pipeline drum, and by the rotation of interior bucket and driver plate, stirring and drying is carried out to the clothing in bucket, the dry air of after heat become Hot wet air heating, after condensation pipe water-cooled, the humidity and temperature of air is reduced, become the Cryogenic air with water vapour, condensed water is discharged washing machine; And condensed air is entered in heater by circulating line and heated, so circulate.In prior art, condensed water and the last washings of washing a dry body washer well do not utilize, and namely outside discharge machine, increase water consumption; For once water-cooled, cooling effect is not ideal enough; Condensation pipe is optimized not, and current are too fast, air and water short for contact time, cooling effect is not good.

Utility model content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.For this reason, the utility model proposes one and wash a dry body washer, described in wash the advantage that a dry body washer has the high and low energy consumption of operating efficiency.

Wash a dry body washer according to the one that the utility model provides, comprising: inner core, described inner core has container cavity, and described container cavity has moisture outlet; Precooling passage, one end of described precooling passage is communicated with described moisture outlet, and described precooling passage is provided with precooling cooling water inlet; Cooling duct, the first end of described cooling duct and described precooling channel connection, second end of described cooling duct is communicated with described container cavity, and described cooling duct is provided with cooling water supply import, described cooling water by described cooling duct towards described precooling channel flow; And fan, described fan is located at the position of the second end of contiguous described cooling duct to drive container cavity described in the gas flow in described cooling duct.

A dry body washer is washed according to of the present utility model, by utilizing precooling passage, preliminary precooling is carried out to the gas of humidity, cooling twice is carried out to the gas through preliminary precooling in recycling cooling duct, and then the more vaporous waters in moist gas can be made to be condensed into aqueous water, the gas entered in container cavity is made to become drier, thus the more humid air that can absorb around wet wash, thereby reduce gas cycle-index, shorten the time of drying clothes, improve the efficiency of drying clothes, thus reduce energy consumption, improve the satisfaction of user.

According to an embodiment of the present utility model, described precooling cooling water inlet is located at the position of one end away from described moisture outlet of contiguous described precooling passage.

According to an embodiment of the present utility model, the position that described cooling water supply import is located at the second end of contiguous described cooling duct is with to supply cooling water in described cooling duct.

Further, wash a dry body washer and also comprise water storage device, described water storage device has water chamber, described water chamber has aqueous vapor import, delivery port and exhaust outlet, described exhaust outlet is located at the top of described delivery port, described aqueous vapor import is communicated with described moisture outlet, and described exhaust outlet is communicated with one end of the close described moisture outlet of described precooling passage, and described delivery port is in communication with the outside.

Preferably, described water storage device is provided with water discharge outlet, described in wash a dry body washer and also comprise water pump, described water pump is by being connected between described water discharge outlet and described precooling cooling water inlet communicating pipe.

Preferably, described water discharge outlet is located at the below of described delivery port.

Preferably, described cooling duct and described precooling passage extend all along the vertical direction, and described cooling duct is positioned at the top of described precooling passage.

According to an embodiment of the present utility model, in described precooling passage, the position of contiguous described precooling cooling water inlet is provided with atomising device.

Alternatively, multiple water retaining ribs is provided with in described precooling passage and/or described cooling duct.

According to embodiments more of the present utility model, wash a dry body washer and comprise heater further, described heater is located at the outlet air end place of described fan.

Accompanying drawing explanation

Fig. 1 is the structural representation washing a dry body washer according to an embodiment of the present utility model, and wherein, realize the flow direction that arrow is gas, dotted arrow is the flow direction of liquid.

Reference numeral:

Wash a dry body washer 100,

Inner core 110, container cavity 111, moisture outlet 112,

Water storage device 120, water chamber 121, aqueous vapor import 122, delivery port 123, exhaust outlet 124, water discharge outlet 125,

Precooling passage 130, the first end 131 of precooling passage, the second end 132 of precooling passage,

Precooling cooling water inlet 133, atomising device 134,

Cooling duct 140, the first end 141 of cooling duct, the second end 142 of cooling duct,

Cooling water supply import 143, water retaining ribs 144,

Water pump 150, communicating pipe 151,

Fan 160, outlet air end 161.

Detailed description of the invention

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

Describe in detail referring to Fig. 1 and wash a dry body washer 100 according to the utility model embodiment.Wherein, realize the flow direction that arrow is gas, dotted arrow is the flow direction of liquid.

As shown in Figure 1, wash a dry body washer 100 according to the utility model embodiment, comprising: inner core 110, precooling passage 130, cooling duct 140 and fan 160.

Specifically, inner core 110 has container cavity 111, and container cavity 111 has moisture outlet 112.Container cavity 111 may be used for holding laundry item, and moisture outlet 112 may be used for discharge water and malaria.It should be noted that, the position for moisture outlet 112 is not specifically limited, and such as, moisture outlet 112 can be located on the sidewall of container cavity 111; For another example, as shown in Figure 1, moisture outlet 112 can also be located on the diapire of container cavity 111, and the water in washing machine and malaria can be discharged from moisture outlet 112.

One end of precooling passage 130 is communicated with moisture outlet 112.Such as, as shown in Figure 1, the first end 131 of precooling passage is communicated with moisture outlet 112.It should be noted that, the gas of being discharged by moisture outlet 112 contains a large amount of steam, and precooling passage 130 may be used for carrying out preliminary precooling to the gas containing a large amount of steam.Precooling cooling water inlet 133 is located on precooling passage 130, for passing into cooling water in precooling passage 130, to carry out preliminary precooling to the gas in precooling passage 130, and then makes the vaporous water in gas be condensed into aqueous water.

As shown in Figure 1, the first end 141 of cooling duct is communicated with precooling passage 130, and the first end 141 of such as cooling duct is communicated with the second end 132 of precooling passage, and the second end 142 of cooling duct is communicated with container cavity 111.Cooling duct 140 may be used for carrying out cooling twice to the gas in precooling passage 130.Cooling water supply import 143 is located on cooling duct 140, for passing into cooling water in cooling duct 140, cooling water towards precooling channel flow, to carry out cooling twice to the gas in cooling duct 140, and then makes the vaporous water in gas be condensed into aqueous water by cooling duct.The gas of being discharged by exhaust outlet 124 first carries out condensation through precooling passage 130, cooling twice is carried out again through cooling duct 140, the vaporous water in the gas of being discharged by exhaust outlet 124 can be made thus to be fully condensed into aqueous water, thus improve condensation efficiency, make the gas that enters in container cavity 111 drier, and then the operating efficiency of washing a dry body washer 100 can be improved.

Fan 160 is located at the position of the second end 142 of contiguous cooling duct to drive the gas flow container cavity 111 in cooling duct 140.In other words, fan 160 can provide power for the internal gas flow washing a dry body washer 100, circulates in container cavity 111, precooling passage 130 and cooling duct 140 to enable gas.

In precooling passage 130, existing gas circulates therein, cooling water is had again to circulate therein, in order to prevent the condensation efficiency reducing precooling passage 130 because liquid water transitions in cooling water is vaporous water, when gas and cooling water flow in precooling passage 130, the separately flowing of gas and cooling water, gas does not contact with cooling water, and cooling water cools gas by reducing the temperature of its surrounding environment.Similarly, in cooling duct 140, gas and cooling water be separately flowing also, and gas does not contact with cooling water, and cooling water cools gas by reducing the temperature of its surrounding environment.Also it should be noted that, washing in a dry body washer 100, the structure that water, gas are separately circulated of precooling passage 130 and cooling duct 140 is well-known to those skilled in the art, is no longer described in detail here.

Describe in detail referring to Fig. 1 and wash a dry body washer 100 according to the utility model embodiment, in drying course, the flow process of gas and cooling water.

The first, start fan 160 and constantly enter in container cavity 111 with driving gas, time around the wet wash of gas in container cavity 111, the gas of the humidity around wet wash is pulled away, and is discharged by moisture outlet 112;

Second, direction as shown in arrow a in Fig. 1, moist gas enters in precooling passage 130 by the first end 131 of moisture outlet 112, precooling passage, cooling water enters in precooling passage 130 by precooling cooling water inlet 133, moist gas with precooling passage 130 in carry out preliminary precooling, vaporous water condensation in wet gas becomes aqueous water, and the aqueous water (aqueous water herein comprises cooling water and become liquid water after vaporous water condensation) in precooling passage 130 flows along the direction of arrow b in Fig. 1;

3rd, through the gas of preliminary precooling through the second end 132 of precooling passage, the first end 141 of cooling duct enters in precooling passage 130 (direction as shown in Fig. 1 arrow a), cooling water enters in cooling duct 140 by cooling water supply import 143, gas through preliminary precooling carries out cooling twice in cooling duct 140, aqueous water is condensed into further to make the vaporous water in gas, aqueous water (aqueous water herein comprises cooling water and become liquid water after vaporous water condensation) in cooling duct 140 flows along the direction of arrow b in Fig. 1,

4th, the gas of being discharged by moisture outlet 112 is after cooling twice, most of vaporous water condensation of gas interior becomes aqueous water, the gas of being discharged from the second end 142 of cooling duct becomes drier gas, and under the driving of fan 160, again enter into container cavity 111, absorb the humid air around wet wash.

Reciprocal thus, the wet wash in container cavity 111 can be made to become dry.

In correlation technique, moist gas is discharged rear only through a condensation by moisture outlet 112, just turn back in container cavity 111 again, circulate to carry out drying to the clothing in container cavity 111 thus.Gas is through moisture only through a condensation, condensation process is thorough not, and the gas again turned back in container cavity 111 contains a large amount of vaporous waters, needs more circulation just can make clothing bone dry thus, and then extend the time of drying clothes, reduce the efficiency of drying clothes.

A dry body washer 100 is washed according to the utility model embodiment, by utilizing precooling passage 130, preliminary precooling is carried out to the gas of humidity, cooling twice is carried out to the gas through preliminary precooling in recycling cooling duct 140, and then the more vaporous waters in moist gas can be made to be condensed into aqueous water, the gas entered in container cavity 111 is made to become drier, thus the more humid air that can absorb around wet wash, thereby reduce gas cycle-index, shorten the time of drying clothes, improve the efficiency of drying clothes, thus reduce energy consumption, improve the satisfaction of user.

As shown in Figure 1, according to an embodiment of the present utility model, precooling cooling water inlet 133 is located at the position of one end away from moisture outlet 112 of contiguous precooling passage 130.In other words, precooling cooling water inlet 133 is located at the position of the second end 132 of contiguous precooling passage, and to pass into cooling water in precooling passage 130, cooling water flows to the first end 131 of precooling passage by the second end 132 of precooling passage.Thus, the flow path of cooling water can be extended, and then the time that prolongation cooling water stops in precooling passage 130, reduce the temperature in precooling passage 130, improve the cooling effectiveness of precooling passage 130.Similarly, cooling water supply import 143 is located at the position of the second end 142 of contiguous cooling duct, with to supply cooling water in cooling duct 140.Thus, cooling water can be flowed to the first end 141 of cooling duct by the second end 142 of cooling duct, and then the time that the flow path of cooling water and cooling water stop in cooling duct 140 can be extended, reduce temperature in cooling duct 140, improve the cooling effectiveness of cooling duct 140.Be understandable that, when the flow direction of cooling water in precooling passage 130 and cooling duct 140 is when flowing to the first end 131 of precooling passage by the second end 142 of cooling duct, precooling passage 130 and cooling duct 140 can be improved further to the condensation efficiency of the gas of its inside.

As shown in Figure 1, wash a dry body washer 100 and can also comprise water storage device 120, water storage device 120 has water chamber 121, and water chamber 121 has aqueous vapor import 122, delivery port 123 and exhaust outlet 124, and exhaust outlet 124 is located at the top of delivery port 123, aqueous vapor import 122 is communicated with moisture outlet 112, delivery port 123 is in communication with the outside, and exhaust outlet 124 is communicated with one end of the close moisture outlet 112 of precooling passage 130, such as, as shown in Figure 1, the first end 131 of exhaust outlet 124 and precooling passage.The water of being discharged by moisture outlet 112 and malaria enter into the water chamber 121 of discharging device by aqueous vapor import 122, and the malaria in water chamber 121 is discharged by exhaust outlet 124, and the water in water chamber 121 can be disposed to the external world by delivery port 123.Here " external world " can refer to, with the sewer washed a dry body washer 100 and be connected, also can refer to apparatus for recovering or other water treatment facilities.By arranging water storage device 120 at moisture outlet 112 place, the water of being discharged by container cavity 111 can be collected, thus can the water in water chamber 121 be recycled, to reach water-saving object.

As shown in Figure 1, water storage device 120 can also be provided with water discharge outlet 125, wash a dry body washer 100 and can also comprise water pump 150, water pump 150 was connected between water discharge outlet 125 and precooling cooling water inlet 133 by communicating pipe 151.It should be noted that, the water pump 150 in water chamber 121 can enter in precooling passage 130 by water pump 150, and then carries out precooling to the gas in precooling passage 130.Thus, can realize recycling the water in water chamber 121, thus reach water-saving object.Preferably, water discharge outlet 125 is located at the below of delivery port 123.Thus, when water storage device 120 reaches predetermined water capacity, too much water can be discharged by delivery port 123.

As shown in Figure 1, for improving the condensation efficiency of precooling passage 130 pairs of wet gas further, in precooling passage 130, the position of contiguous precooling cooling water inlet 133 is provided with atomising device 134.That is, cooling water was first atomized before entering into precooling passage 130, then flowed to the first end 131 of precooling passage by the second end 132 of precooling passage.Thus, the moist condensation efficiency of gas in precooling passage 130 can be improved.

As shown in Figure 1, cooling duct 130 and precooling passage 140 all along the vertical direction (above-below direction as shown in Figure 1) extend, and cooling duct 140 is positioned at the top of precooling passage 130.Thus, cooling duct 140 and precooling passage 130 inner cooling water from top to bottom can flow under the effect of self gravitation.Further, multiple water retaining ribs 144 is provided with in precooling passage 130 and/or cooling duct 140.In other words, be provided with multiple water retaining ribs 144 in precooling passage 130, or in cooling duct 140, be also provided with multiple water retaining ribs 144, or be equipped with multiple water retaining ribs 144 in precooling passage 130 and cooling duct 140.Thus, the flowing velocity of the cooling water in precooling passage 130 and/or cooling duct 140 can be delayed, to reduce the temperature in precooling passage 130 and/or cooling duct 140 fully, and then the condensation efficiency of gas in precooling passage 130 and/or cooling duct 140 can be improved.

For improving the operating efficiency of washing a dry body washer 100 further, wash a dry body washer 100 and can also comprise heater (scheming not shown), heater is located at outlet air end 161 place of fan 160.Thus, the air-flow driven by fan 160 can first heat through heater before entering into container cavity 111, thus through the gas of heating through wet wash, the aqueous water vaporization can accelerated on wet wash becomes vaporous water, diffuse to around wet wash, the gas containing more vaporous waters around wet wash can be taken away by gas in flow process, and then the cycle-index of clothes drying process can be reduced, shorten drying time, thus the drying efficiency washing a dry body washer 100 can be improved.

It should be noted that, wash a dry body washer 100 in laundry processes, the slurry in container cavity 111 is disposed in water storage device 120 by moisture outlet 112, and when water storage device 120 reaches predetermined water capacity, too much water is discharged by delivery port 123.Be known by the art personnel for the laundry processes of washing a dry body washer 100, be not described in detail here.The clothes drying process washing a dry body washer 100 according to the utility model embodiment is described in detail referring to Fig. 1.Wherein, in FIG, solid arrow a is expressed as the flow direction of gas, and dotted arrow b is expressed as the flow direction of liquid.

The first, start fan 160, heater, the gas through heating blows to in container cavity 111 by fan 160, carries out drying to the clothing in container cavity 111.Wet gas around the clothing wet wash of gas in container cavity 111 is pulled away, and is discharged by moisture outlet 112;

The second, moist gas enters in water chamber 121 by the aqueous vapor import 122 of water storage device 120, the direction as shown in arrow a in Fig. 1, and enters in precooling passage 130 by the first end 131 of exhaust outlet 124, precooling passage;

3rd, water pump 150 in water chamber 121 enters to precooling cooling water inlet 133 by water pump 150, water in water chamber 121 enters in precooling passage 130 as cooling water by precooling cooling water inlet 133, moist gas with precooling passage 130 in carry out preliminary precooling, to make the vaporous water condensation in wet gas become aqueous water, the aqueous water (aqueous water herein comprises cooling water and become liquid water after vaporous water condensation) in precooling passage 130 flows along the direction of arrow b in Fig. 1;

4th, through the gas of preliminary precooling through the second end 132 of precooling passage, the first end 141 of cooling duct enters in precooling passage 130 (direction as shown in Fig. 1 arrow a), cooling water enters in cooling duct 140 by cooling water supply import 143, gas through preliminary precooling carries out cooling twice in cooling duct 140, aqueous water is condensed into further to make the vaporous water in gas, aqueous water (aqueous water herein comprises cooling water and become liquid water after vaporous water condensation) in cooling duct 140 flows along the direction of arrow b in Fig. 1,

5th, the gas of being discharged by moisture outlet 112 is after the second to the 4th step, successively through cooling twice, most of vaporous water condensation of gas interior becomes aqueous water, the gas of being discharged from the second end 142 of cooling duct becomes drier gas, drier gas, under the driving of fan 160, again turns back in container cavity 111 after heater, and again absorbs the humid air around wet wash.

Reciprocal thus, the wet wash with moisture in container cavity 111 can be made to become dry.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In description of the present utility model, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection or each other can communication; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this description or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (10)

1. wash a dry body washer, it is characterized in that, comprising:

Inner core, described inner core has container cavity, and described container cavity has moisture outlet;

Precooling passage, one end of described precooling passage is communicated with described moisture outlet, and described precooling passage is provided with precooling cooling water inlet to pass into cooling water in described precooling passage;

Cooling duct, the first end of described cooling duct and described precooling channel connection, second end of described cooling duct is communicated with described container cavity, described cooling duct is provided with cooling water supply import with to supply cooling water in described cooling duct, described cooling water by described cooling duct towards described precooling channel flow; And

Fan, described fan is located at the position of the second end of contiguous described cooling duct to drive container cavity described in the gas flow in described cooling duct.

2. according to claim 1ly wash a dry body washer, it is characterized in that, described precooling cooling water inlet is located at the position of one end away from described moisture outlet of contiguous described precooling passage.

3. according to claim 1ly wash a dry body washer, it is characterized in that, described cooling water supply import is located at the position of the second end of contiguous described cooling duct.

4. according to claim 1ly wash a dry body washer, it is characterized in that, comprise water storage device further, described water storage device has water chamber, described water chamber has aqueous vapor import, delivery port and exhaust outlet, and described exhaust outlet is located at the top of described delivery port, and described aqueous vapor import is communicated with described moisture outlet, described exhaust outlet is communicated with one end of the close described moisture outlet of described precooling passage, and described delivery port is in communication with the outside.

5. according to claim 4ly wash a dry body washer, it is characterized in that, described water storage device is provided with water discharge outlet, described in wash a dry body washer and also comprise water pump, described water pump is by being connected between described water discharge outlet and described precooling cooling water inlet communicating pipe.

6. according to claim 5ly wash a dry body washer, it is characterized in that, described water discharge outlet is located at the below of described delivery port.

7. according to claim 1ly wash a dry body washer, it is characterized in that, described cooling duct and described precooling passage extend all along the vertical direction, and described cooling duct is positioned at the top of described precooling passage.

8. according to claim 1ly wash a dry body washer, it is characterized in that, in described precooling passage, the position of contiguous described precooling cooling water inlet is provided with atomising device.

9. according to claim 1ly wash a dry body washer, it is characterized in that, in described precooling passage and/or described cooling duct, be provided with multiple water retaining ribs.

10. according to any one of claim 1-9, wash a dry body washer, it is characterized in that, comprise heater further, described heater is located at the outlet air end place of described fan.