CN207987568U - Clothes drying device - Google Patents

Abstract

The utility model provides a kind of clothes drying device, the clothes drying device includes the chamber for housing clothing to be dried and the air channel structure and negative pressure generating device with the chamber, the air channel structure is used for the transporting cold-air stream into the chamber, the cold airflow is for making the moisture in clothing to be dried solidify, the negative pressure generating device for forming subnormal ambient in the cavity, so that the moisture solidified in the clothing to be dried distils under the subnormal ambient.Clothes drying device provided by the present application can effectively prevent clothing the problems such as fold, deformation, fade occur because drying temperature is excessively high, so that drying effect is more preferable, ensure that the clothing quality after drying and shape are constant.Clothes drying device in the application carries out drying using sublimation principle, reduces drying energy consumption, shortens drying and takes, and more environmentally-friendly, drying efficiency higher, signal large-scale promotion uses.

Description

Clothes drying device

Technical field

The utility model is related to drying technical fields, and in particular to a kind of clothes drying device.

Background technology

Along with the intelligent diversified development of household electrical appliances functions, requirement of the people to washing machine is higher and higher, is used to meet I.e. dry demand is washed at family, and washing machine will not only have function of washing clothes, also have clothes drying function, to which washing-drying integral machine is met the tendency of And it gives birth to.

The drying unit being arranged on existing washing-drying integral machine is usually electrical heating type drying system or heat-pump-type drying system System, wherein electrical heating type drying unit heats air using electric heater or electric heating wire, will be by heating using wind turbine Hot-air is sent into roller, realizes clothes drying.But it is big using the energy consumption of electrical heating drying mode, it results in waste of resources, while by It is higher in drying course temperature, accordingly, it is difficult to meet the requirement of thermal sensitivity clothing.

Air is heated using heat-pump-type drying system, the method that clothing is dried using hot-air, with electricity Mode of heating decreases compared to energy consumption, and drying temperature can be adjusted between -20 DEG C to 100 DEG C.But heat pump is drying The drying time period of system generally in 2h or more, takes long.

Utility model content

In view of this, one of the purpose of this utility model is to provide the drying that a kind of rate of drying is fast, drying effect is good Equipment.

In order to achieve the above objectives, the utility model uses following technical scheme：

A kind of clothes drying device, the clothes drying device include chamber for housing clothing to be dried and connect with the chamber Logical air channel structure and negative pressure generating device, the air channel structure are used for transporting cold-air stream, the cold airflow into the chamber For making the moisture in clothing to be dried solidify, the negative pressure generating device is used to form subnormal ambient in the cavity, with So that the moisture solidified in the clothing to be dried distils under the subnormal ambient.

Preferably, the air channel structure is additionally operable to convey thermal current into the chamber, and the thermal current is used for being in Clothing to be dried heating under the subnormal ambient, to promote the distillation of the moisture solidified in the clothing to be dried.

Preferably, the clothes drying device further includes refrigeration section, for being cooled down to the air-flow in the air channel structure； And/or

The clothes drying device further includes heating portion, for being heated to the air-flow in the air channel structure.

Preferably, air inlet and air outlet are provided in the cavity wall of the chamber, the air channel structure includes the first air duct Portion and the second air duct portion；

The first end in first air duct portion is connected to the air outlet, the second end in first air duct portion with it is described into Air port is connected to, and the refrigeration section is set in the inner cavity in first air duct portion；And/or

The first end in second air duct portion is connected to external environment, second end and the air inlet in second air duct portion Mouth connection, the heating portion is set in the inner cavity in second air duct portion.

Preferably, the air channel structure further includes wind inlet channel portion, and the second of first air duct portion and the second air duct portion End is connect with the one end in the wind inlet channel portion, and the other end in the wind inlet channel portion is connect with the air inlet.

Preferably, the clothes drying device further includes switching device, for opening and closing first air duct portion.

Preferably, the clothes drying device further includes air stream drives component, for certain driving air-flow in first air duct portion and It is circulated between the chamber.

Preferably, the clothes drying device further includes heat pump system, is provided on the refrigerant circulation flow path of the heat pump system First Heat Exchanger and the second heat exchanger, the First Heat Exchanger form the refrigeration section, and second heat exchanger forms the system Hot portion.

Preferably, the clothes drying device further includes the Weight detecting device for detecting clothes weight in the chamber；With/ Or,

The clothes drying device further includes the Humidity Detection dress of the gas humidity for detecting the negative pressure generating device extraction It sets.

Preferably, the outside of the Weight detecting device and/or the humidity detector is provided with insulation construction.

Clothes drying device provided by the present application can effectively prevent clothing fold occur because drying temperature is excessively high, deform, take off The problems such as color, ensures that the clothing quality after drying and shape are constant so that drying effect is more preferable.

Clothes drying device in the application carries out drying using sublimation principle, reduces drying energy consumption, shortens drying consumption When, more environmentally-friendly, drying efficiency higher, signal large-scale promotion uses.

Description of the drawings

By referring to the drawings to the description of the utility model embodiment, the above-mentioned and other mesh of the utility model , feature and advantage will be apparent from, in the accompanying drawings：

Fig. 1 shows the side view for the clothes drying device that specific embodiment of the present invention provides；

Fig. 2 shows the connections of the air channel structure and heat pump system of the clothes drying device of specific embodiment of the present invention offer Structural schematic diagram；

Fig. 3 shows the schematic diagram for the clothes drying device control method that specific embodiment of the present invention provides.

In figure,

1, chamber；11, inner cylinder；12, outer barrel；13, air inlet；14, air outlet；

2, air channel structure；21, the first air duct portion；211, first end；212, second end；213, refrigeration section；22, the second air duct Portion；221, first end；222, second end；223, heating portion；23, exhaust air flue portion；24, wind inlet channel portion；

3, negative pressure generating device；

4, switching device；41, baffle；

5, air stream drives component；

6, heat pump system；61, First Heat Exchanger；62, the second heat exchanger；63, throttling set；64, compressor；

7, Weight detecting device；

8, filter device.

Specific implementation mode

The utility model is described below based on embodiment, it should be understood by one skilled in the art that carrying herein The attached drawing of confession is provided to the purpose of explanation, and attached drawing is not necessarily drawn to scale.

Unless the context clearly requires otherwise, "include", "comprise" otherwise throughout the specification and claims etc. are similar Word should be construed as the meaning for including rather than exclusive or exhaustive meaning；That is, being containing for " including but not limited to " Justice.

As shown in Figure 1 and Figure 2, this application provides a kind of clothes drying devices, for clothing to be dried.The clothes drying device It can be used exclusively for the equipment that clothing is dried, such as dryer, can also be combined with laundry facilities Washing-drying integral machine.The clothes drying device includes chamber 1 for housing clothing to be dried and the air duct being connected to the chamber 1 Structure 2 and negative pressure generating device 3, wherein the negative pressure generating device 3 is used to form subnormal ambient in the chamber 1, so that It obtains the moisture solidified in the clothing to be dried to distil under the subnormal ambient, thus by cloth drying.The negative pressure generates Any position between the chamber 1 and clothes drying device shell can be arranged in device 3, as long as by the negative pressure generating device 3 It is connected with the chamber interior.Preferably, as shown in Figure 1, the negative pressure generating device 3 is arranged in the chamber 1 Bottom (orientation shown in referring to Fig.1).When the clothes drying device is washing-drying integral machine, the chamber 1 washes dry one by described The inner cylinder 11 of the roller of machine is constituted, and outer barrel 12 and the washing-drying integral machine in the roller is arranged in the negative pressure generating device 3 Shell between.

In a specific embodiment, the air channel structure 2 is used for the transporting cold-air stream into the chamber 1, described cold Air-flow is for making the moisture in clothing to be dried solidify.After moisture solidification, the shape in the chamber 1 of the negative pressure generating device 3 At subnormal ambient, the water sublimed solidified in clothing to be dried, to achieve the effect that drying.

In a more preferred embodiment, the air channel structure 2 is applied not only to the transporting cold-air into the chamber 1 Stream, is additionally operable to convey thermal current into the chamber 1, and the thermal current is used for the clothing to be dried under the subnormal ambient Object heats, to promote the distillation of the moisture solidified in the clothing to be dried.It can by conveying thermal current into the chamber 1 Drying efficiency is further increased, rate of drying is accelerated, promotes user experience.

Further, the clothes drying device further includes refrigeration section 213 and heating portion 223, and the refrigeration section 213 is used for institute The air-flow stated in air channel structure 2 is cooled down, so that the air channel structure 2 can input cold airflow into the chamber 1.It is described Heating portion 223 is for heating the air-flow in the air channel structure 2, so that the air channel structure 2 can be to the chamber 1 Middle input thermal current.It is, of course, understood that when outdoor environment temperature is relatively low, the cold airflow into the chamber 1 It can not be cooled down by refrigeration section 213, but the air channel structure 2 is directly connected with outdoor environment, by outdoor Cold airflow is introduced into the chamber 1, and the moisture in clothing to be dried is made to solidify.Similarly, when outdoor environment temperature is higher, into Entering the thermal current in the chamber 1 can not also be heated by heating portion 223, but by the air channel structure 2 directly with Outdoor environment is connected, and outdoor thermal current is introduced into the chamber 1.When clothes drying device is in the hygrothermal environment in southern summer In in use, preferably, dehumidification device (not shown) is set in the air channel structure 2, to be introduced into the chamber 1 Dry thermal current, and then ensure drying effect.

Further, air inlet 13 and air outlet 14 are provided in the cavity wall of the chamber 1, the air channel structure 2 wraps Include the first air duct portion 21 and the second air duct portion 22.Wherein, the first end 211 in first air duct portion 21 connects with the air outlet 14 Logical, the second end 212 in first air duct portion 21 is connected to the air inlet 13, and the refrigeration section 213 is set to described first In the inner cavity in air duct portion 21, first air duct portion 21 into the chamber 1 for being passed through cold airflow.Second air duct portion 22 First end 221 be connected to external environment, it is preferable that in order to ensure to enter second air duct portion 22 from external environment In air-flow be all clean, filter device 8 is provided in second air duct portion 22, the filter device 8 is to described Air-flow in two air ducts portion 22 is filtered.The second end 222 in second air duct portion 22 is connected to the air inlet 13, described Heating portion 223 is set in the inner cavity in second air duct portion 22, and second air duct portion 22 into the chamber 1 for being passed through Thermal current.In order to simplify air channel structure 2, reduce 2 occupied space of the air channel structure, the air channel structure 2 further include into The second end 212,222 in wind air duct portion 24 and exhaust air flue portion 23, first air duct portion 21 and the second air duct portion 22 is and institute One end connection in wind inlet channel portion 24 is stated, the other end in the wind inlet channel portion 24 is connect with the air inlet 13.The outlet air The one end in air duct portion 23 is connected with the first end 211 in first air duct portion 21, the other end in the exhaust air flue portion 23 with The air outlet 14 of the chamber 1 connects.

For the ease of being switched between first air duct portion 21 and second air duct portion 22, so that the air duct Structure 2 can either into the chamber 1 transporting cold-air stream, and thermal current, the clothes drying device can be conveyed into the chamber 1 Including switching device 4, the switching device 4 is for opening and closing first air duct portion 21.In a specific embodiment In, as shown in Fig. 2, first air duct portion 21 is tubular structure, the switching device 4 is to be arranged in first air duct portion 21 Tube wall on and the baffle 41 that can be overturn.One end of the baffle 41 and the tube wall in first air duct portion 21 are hinged, The other end of the baffle 41 is free end, can be moved between first position (c points in Fig. 2) and the second position (b points in Fig. 2) It is dynamic.When the free end of the baffle 41 is moved to the first position, the baffle 41 forms first air duct portion 21 A part for tube wall, when the free end of the baffle 41 is moved to the second position, the baffle 41 is by first wind It closes in road portion 21.It is, of course, understood that in carrying out switching process to the baffle 41, namely control the baffle 41 Free end when being switched between the first position and the second position, the control units such as such as electromagnetic relay can be passed through Part controls it, and the electromagnetic relay is connected with the controller of the clothes drying device, with according to different drying ranks The free end that section controls the baffle 41 switches over.

In order to accelerate drying rate, the clothes drying device further includes air stream drives component 5, for certain driving air-flow described the It is circulated between one air duct portion 21 and the chamber 1.In a specific embodiment, the air stream drives component 5 is wind Machine, the wind turbine are preferably provided in first air duct portion 21, so that the cold airflow in first air duct portion 21 can Rapid Circulation.Simultaneously as the first end 221 in second air duct portion 22 is connected to external environment, therefore, the wind turbine is set It sets to avoid the air-flow in external environment being mixed into the cold airflow in first air duct portion 21 and is delivered to institute together It states in chamber 1 and influences the solidification of the moisture in clothing to be dried.

In order to further decrease the energy consumption of clothes drying device, while enhancing the drying effect of the clothes drying device, the drying Equipment includes heat pump system 6.The heat pump system 6 can be different according to the structure inside clothes drying device, are arranged in the chamber 1 Top or bottom, the corresponding needs of the air channel structure 2 are adjusted according to the position of the heat pump system 6.Specifically, institute It states and is provided with First Heat Exchanger 61 and the second heat exchanger 62, the First Heat Exchanger 61 on the refrigerant circulation flow path of heat pump system 6 The refrigeration section 213 is formed, i.e., the described First Heat Exchanger 61 is evaporator；Second heat exchanger 62 forms the heating portion 223, i.e., described second heat exchanger 62 is condenser.It is provided between the First Heat Exchanger 61 and second heat exchanger 62 Throttling set 63, the throttling set 63 are preferably throttle valve.The heat pump system 6 further includes compressor 64, and described first changes Hot device 61 and second heat exchanger 62 are connected with the compressor 64 respectively.The refrigerant exchanges heat in compressor 64, second It is flowed between device 62, throttling set 63, First Heat Exchanger 61, forms refrigerant circulation circuit.

In order to which the clothes drying process to the clothes drying device is precisely controlled, the clothes drying device further includes for detecting The Weight detecting device 7 for stating clothes weight in chamber, with the weight of the clothing to be dried detected according to the Weight detecting device 7 Amount or weight change amount control the clothes drying process.The clothes drying device further includes being generated for detecting the negative pressure The humidity detector (not shown) of the gas humidity of device extraction, with the gas detected according to the humidity detector Humidity judges cloth drying situation.Preferably, the Weight detecting device 7 is arranged on the side wall of the chamber 1, the humidity Detection device is arranged at the vent position of the negative pressure generating device 3.In addition, since the clothes drying device in the application needs It is passed through thermal current and cold airflow into the chamber 1, the Weight detecting device 7 and the humidity detector is caused to be in temperature In the larger environment of difference, therefore, in order to ensure that the Weight detecting device 7 and the humidity detector are not affected by temperature, It can be constantly in stable and accurate working condition, set in the outside of the Weight detecting device 7 and the humidity detector It is equipped with insulation construction.The insulation construction is preferably wrapped in outside the Weight detecting device and the humidity detector Masking foil.

The application also proposed a kind of control method of clothes drying device, for clothes drying device as shown in Figure 1 and Figure 2 into Row control, the clothing to be dried in clothes drying device to be dried.The clothes drying device can be individual clothes drying device, Can be the washing-drying integral machine with laundry facilities one, when the clothes drying device is washing-drying integral machine, the chamber is described The roller of washing-drying integral machine.As shown in figure 3, the clothes drying device in the application carries out cloth drying, figure using sublimation principle Middle OA is to melt line, and OB is distillation line, and OC is boiling line, and the intersection point O points of three lines are three phase point, and at O points, moisture is with solid State, liquid and gaseous state three-phase exist simultaneously.If moisture is solidified as ice, and the air pressure in its local environment is less than the air pressure of O points, this Shi Ruobing is heated, and ice directly distils without liquid as vapor.According to above-mentioned principle, first clothing to be dried is carried out Freezing, makes the moisture in clothing to be dried become solid-state, then forms subnormal ambient in the chamber, realizes the fast of moisture in clothing Speed distillation, to achieve the effect that clothing is dried.Due under normal pressure, the mean free path very little of gas molecule, ice The hydrone generated that distils easily generates collision with other gas molecules in air and turns again to distillation face place, causes normal It is very slow to depress sublimation process.The application forms subnormal ambient, reduces in the cavity by the way that negative pressure generating device is arranged Pressure in chamber, it is ensured that the partial pressure of the vapor in gas in chamber is less than corresponding saturated vapour pressure, to improve distillation Rate accelerates cloth drying speed.

The control method of clothes drying device in the application includes freezing step and sublimation step, in freezing step, to institute Transporting cold-air stream in chamber 1 is stated, so that the moisture solidification in clothing to be dried, in sublimation step, is generated by the negative pressure Device 3 forms subnormal ambient in the chamber 1, so that the water sublimed solidified in clothing to be dried.In order to further add Fast rate of sublimation conveys thermal current in sublimation step into the chamber 1, to promote the moisture solidified in clothing to be dried Distillation.

In a preferred embodiment, clothes drying device includes Weight detecting device 7 and humidity detector, the weight Detection device 7 detects the weight of the clothing to be dried in the chamber 1, and the humidity detector detects the negative pressure and generates dress Set the humidity of the air-flow in the chamber 1 of 3 extractions.In the freezing step, the weight of the clothing to be dried is obtained, when When variable quantity of the weight of the clothing to be dried in the first scheduled duration is less than predetermined variation amount, the clothes drying device is controlled Into the sublimation step.After the clothes drying device enters the second scheduled duration of the sublimation step, the negative pressure production is obtained The gas humidity that generating apparatus 3 is extracted out, when the gas humidity exit less than clothes drying device described in predetermined moisture angle value time control system it is described Sublimation step.Preferably, first scheduled duration ranging from 2 minutes to 5 minutes, the predetermined variation amount are 10 grams to 30 Gram, second scheduled duration is 50 minutes to 70 minutes, and the predetermined moisture angle value is relative humidity 0 to 5%.Of course, it is possible to Understand, there are many ways to judging whether the moisture in the clothing in the chamber 1 becomes ice completely, such as the weight Detection device 7 is weight sensor, when the numerical value of the weight sensor 7 no longer changes whithin a period of time, then described cold Freeze step to complete.

Further, in freezing step, the free end of the baffle 41 is at first position, first air duct portion 21 It is connected respectively with the wind inlet channel portion 24 and the exhaust air flue portion 23, by the cold airflow in first air duct portion 21 It is delivered in the chamber 1.In freezing step, the air stream drives component 5 is opened, the high temperature flowed out in the compressor 64 High pressure refrigerant enters in second heat exchanger 62, and the refrigerant of high temperature and pressure condenses heat release change in second heat exchanger 62 For gas-liquid mixture, then entering heat absorption evaporation in the First Heat Exchanger 61 becomes gaseous coolant, and then flows back into described In compressor 64, refrigerant circulation circuit is formed.Since the First Heat Exchanger 61 is located in first air duct portion 21, described Refrigerant in one heat exchanger 61 exchanges heat with the air-flow in first air duct portion 21, and refrigerant absorbs first air duct portion 21 In air-flow heat, to form cold airflow, the cold airflow is entered by first air duct portion 21, wind inlet channel portion 24 In the chamber 1, so that the moisture in clothing to be dried becomes ice.Air-flow in the chamber 1 after heat exchange enters The exhaust air flue portion 23 then turns again in first air duct portion 21 and exchanges heat again, becomes after cold airflow again It enters in the chamber 1.

In sublimation step, the free end of the baffle 41 is moved to the second position by first air duct by first position Portion 21 closes, and the air stream drives component 5 does not also start.Meanwhile in this step, the negative pressure generating device 3 starts, in institute It states in chamber 1 and forms negative pressure state, to form pressure difference between 1 inside of the chamber and external environment, in pressure difference Under effect, the gas in outdoor environment enters in second air duct portion 22, and then is entered by the wind inlet channel portion 24 Into chamber 1, make solid moisture, i.e. ice in clothing to be dried, directly distillation is gaseous state, and clothing is dried.It is distilling In step, the refrigerant in the second heat exchanger 62 in second air duct portion 22 is carried out with the air-flow in second air duct portion 22 Heating, to accelerate rate of sublimation.

When the clothes drying device in the application in cold district in use, the northeast of such as autumn and winter, the temperature in environment It can reach, subzero 50 DEG C to subzero 5 DEG C, at such a temperature, the moisture in clothing being capable of quick freezing.Therefore, to clothing When being dried, the second heat exchanger 62 without heat pump system 6 carries out cooling to the air-flow entered in the chamber 1 can Clothing in chamber 1 is freezed, energy consumption can be further decreased, economized on resources.

It is, of course, understood that the heat pump system in the application not only includes the structure of foregoing description, can also be Compression, air suction type, semiconductor-type, chemical formula etc., can also by magnetic freeze in the way of to freezing step in enter institute The air-flow stated in chamber is cooled down.

Clothes drying device in the application is dried clothing using Freeze Drying Technique, in the drying process, clothing In object hydrogenesis at ice gradually internally distil by clothing surface, therefore, the shape of clothing script is not It can be affected, the case where clothing deformation would not also occur.Simultaneously as only having the moisture in clothing from clothing in sublimation process Deviate from object, the solute being dissolved in moisture is precipitated without being migrated with water sublimed, and therefore, clothing is not in fade after drying Situations such as, clothing preservation effect is more preferable.

Those skilled in the art will readily recognize that under the premise of not conflicting, above-mentioned each preferred embodiment can be free Ground combination, superposition.

The above is only the preferred embodiment of the present invention, is not intended to limit the utility model, for this field For technical staff, the utility model can have various modifications and changes.All institutes within the spirit and principle of the utility model Any modification, equivalent substitution, improvement and etc. of work, should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of clothes drying device, which is characterized in that the clothes drying device include chamber for housing clothing to be dried and with The air channel structure and negative pressure generating device of the chamber, the air channel structure are used for the transporting cold-air stream into the chamber, For the cold airflow for making the moisture in clothing to be dried solidify, the negative pressure generating device is negative for being formed in the cavity Pressure ring border, so that the moisture solidified in the clothing to be dried distils under the subnormal ambient.

2. clothes drying device according to claim 1, which is characterized in that the air channel structure is additionally operable to defeated into the chamber Thermal current is sent, the thermal current is used to heat the clothing to be dried under the subnormal ambient, described to be dried to promote The distillation of the moisture solidified in clothing.

3. clothes drying device according to claim 2, which is characterized in that the clothes drying device further includes refrigeration section, for pair Air-flow in the air channel structure is cooled down；And/or

The clothes drying device further includes heating portion, for being heated to the air-flow in the air channel structure.

4. clothes drying device according to claim 3, which is characterized in that be provided with air inlet in the cavity wall of the chamber and go out Air port, the air channel structure include the first air duct portion and the second air duct portion；

The first end in first air duct portion is connected to the air outlet, second end and the air inlet in first air duct portion Connection, the refrigeration section are set in the inner cavity in first air duct portion；And/or

The first end in second air duct portion is connected to external environment, and second end and the air inlet in second air duct portion connect Logical, the heating portion is set in the inner cavity in second air duct portion.

5. clothes drying device according to claim 4, which is characterized in that the air channel structure further includes wind inlet channel portion, institute The second end for stating the first air duct portion and the second air duct portion is connect with the one end in the wind inlet channel portion, the wind inlet channel portion The other end is connect with the air inlet.

6. clothes drying device according to claim 4, which is characterized in that the clothes drying device further includes switching device, is used for Open and close first air duct portion.

7. clothes drying device according to claim 4, which is characterized in that the clothes drying device further includes air stream drives component, It is circulated between first air duct portion and the chamber for certain driving air-flow.

8. the clothes drying device according to one of claim 3 to 7, which is characterized in that the clothes drying device further includes heat pump system It unites, First Heat Exchanger and the second heat exchanger, the First Heat Exchanger shape is provided on the refrigerant circulation flow path of the heat pump system At the refrigeration section, second heat exchanger forms the heating portion.

9. the clothes drying device according to one of claim 1 to 7, which is characterized in that the clothes drying device further includes for examining Survey the Weight detecting device of clothes weight in the chamber；And/or the clothes drying device further includes for detecting the negative pressure production The humidity detector of the gas humidity of generating apparatus extraction.

10. clothes drying device according to claim 9, which is characterized in that the Weight detecting device and/or humidity inspection The outside for surveying device is provided with insulation construction.