CN105180556A - Refrigerator - Google Patents

Abstract

The invention provides a refrigerator. The refrigerator comprises a drying chamber, a humidifying chamber, a refrigerating system and a humidity adjusting device, wherein the refrigerating system is used for cooling the drying chamber and the humidifying chamber, and the humidity adjusting device is used for adjusting the humidity of the drying chamber and the humidity of the humidifying chamber. The refrigerating system comprises a cooling chamber, a dry air duct and a wet air duct, the cooling chamber is provided with an evaporator and a fan, and the dry air duct and the wet air duct are communicated with the cooling chamber and used for cooling the drying chamber and the humidifying chamber respectively. The humidity adjusting device comprises a dehumidifying device connected to the dry air duct, a humidifying device connected to the wet air duct, and a water guide structure communicated with the dehumidifying device and the humidifying device. The dehumidifying device is communicated with the evaporator through a heat guide structure. According to the refrigerator, the humidity in the drying chamber and the humidifying chamber is controlled by the dehumidifying device and the humidifying device respectively, and the humidifying chamber or the drying chamber can be used independently and is convenient to control.

Description

Refrigerator

Technical field

The present invention relates to a kind of refrigerator, particularly relate to a kind of refrigerator with hothouse and humidifying chamber.

Background technology

At present, refrigerator is very high in the popularity rate of China, along with the raising of people's living standard, the function of refrigerator has been not only store basic green vegetable and fruit and meat, the food variety that need store gets more and more: wherein have and need the food of high humility as fruit, fresh vegetables etc., wet but humidity in the family way can not be too high rice, steamed bun etc., also have simultaneously and need the dried food and nuts of low humidity as food such as tealeaves, mushroom, ginseng, pilose antler, Cordyceps sinensis.

Existing dry hygroscopic water storage technology is Shi Jianggan district and wet district two spaces of independently opening mostly, between two spaces, relevance is little, the moisture in two spaces can not be fully utilized, thus the moisture in refrigerator can not be utilized to greatest extent, the fresh-keeping of food can not be realized well.

In addition, as CN104501498A Chinese patent discloses a kind of refrigerator, comprise dry district, wet district and humidity control device.Dry district and wet district are positioned at chill space and mutually isolated, do and are formed with spaced walls between district and wet district.Humidity control device is embedded in spaced walls, and humidity control device comprises the cold junction being positioned at dry district and the hot junction being positioned at wet district, and cold junction is for reducing the temperature in dry district to form low-humidity environment, and hot junction is used for heating condensate water to be formed with high humidity environment.But this dry hygroscopic water storage device be utilize one end, semiconductor two ends for the hot junction other end be cold junction, while hot junction intensification heating condensate water makes the humidity in hot junction increase, the temperature in wet district rises.This dry hygroscopic water storage device cost is higher, adds the energy consumption of refrigerator in dehumidifying or humidification process; And the humidification in the dehumidifying in dry district and wet district must carry out simultaneously, so in use there is a lot of problem.

In view of this, be necessary to be improved existing refrigerator, to solve the problem.

Summary of the invention

The object of the present invention is to provide a kind of refrigerator with hothouse and humidifying chamber.

For achieving the above object, the invention provides a kind of refrigerator, comprise hothouse, humidifying chamber, the refrigeration system of cold is provided to described hothouse and humidifying chamber, for regulating the humidity control device of the humidity of hothouse and humidifying chamber, described refrigeration system comprises the cooling chamber being provided with evaporimeter and fan, be connected with described cooling chamber and dry-air blast road and the wet wind road of cold are provided to hothouse and humidifying chamber respectively, described humidity control device comprises the dehydrating unit be connected on dry-air blast road, be connected to the damping device on wet wind road, be communicated with the water guide structure of described dehydrating unit and described damping device, described dehydrating unit is communicated with by conductive structure with described evaporimeter.

A kind of refrigerator, comprising hothouse, humidifying chamber, providing the refrigeration system of cold to described hothouse and humidifying chamber, for regulating the humidity control device of the humidity of hothouse and humidifying chamber, described refrigeration system comprises and is provided with evaporimeter and the cooling chamber of fan, is connected with described cooling chamber and provides dry-air blast road and the wet wind road of cold respectively to hothouse and humidifying chamber, it is characterized in that: described humidity control device comprises the dehydrating unit be connected on dry-air blast road, the damping device be connected on wet wind road, is communicated with the water guide structure of described dehydrating unit and described damping device; Described dehydrating unit is communicated with by conductive structure with described evaporimeter.

As a further improvement on the present invention, described dehydrating unit comprises the first air inlet and the first gas outlet that the first shell made by heat conduction good conductor, the first wire netting being located at the three-dimensional porous structure in the first shell with high-specific surface area, the middle part being located at described first shell or middle and upper part are communicated with described dry-air blast road.

As a further improvement on the present invention, described conductive structure is at least one bonding jumper or the sheet metal that are communicated with described dehydrating unit and described evaporimeter.

As a further improvement on the present invention, described damping device comprises the second housing that heat conduction good conductor makes, the second wire netting being located at the three-dimensional porous structure in described second housing with high-specific surface area, lays the second air inlet and the second gas outlet that the fibrous material absorbed water with the height on the second wire netting, the middle part being located at described second housing or middle and upper part be communicated with wet wind road.

As a further improvement on the present invention, described water guide structure adopts the material of heat conductivility difference to make, or described water guide structure is communicated with described dehydrating unit and/or the thermal insulation of described damping device.

As a further improvement on the present invention, the upper end of water guide structure is connected to middle part or the middle and lower part of described dehydrating unit, and the lower end of water guide structure to be stretched in described damping device and is positioned at the bottom of described damping device.

As a further improvement on the present invention, the middle and lower part of described damping device is provided with discharge outlet, and the setting position of described discharge outlet is higher than the bottom of described water guide structure.

As a further improvement on the present invention, described refrigerator also comprises and is located at drip tray below described evaporimeter, is communicated with described drip tray and described damping device the water in described drip tray to be imported the water pipe of described damping device.

As a further improvement on the present invention, described humidifying chamber and hothouse be same between room.

As a further improvement on the present invention, described refrigerator also has the first air channel being communicated with described cooling chamber and described hothouse, the second air channel being communicated with described cooling chamber and described humidifying chamber.

The invention has the beneficial effects as follows: refrigerator of the present invention controls the humidity in described hothouse and humidifying chamber respectively by dehydrating unit, damping device; And described humidifying chamber or hothouse can be used alone, be convenient to control.In addition, described dehydrating unit is communicated with by conductive structure with described evaporimeter, makes temperature in dehydrating unit substantially close to the temperature of evaporimeter, thus cold air in dry-air blast road is through dehydrating unit, and steam is caught a cold and condensed into condensed water; Flow into described damping device through water guide structure after condensed water collects, described damping device increases the humidity of cold air in described wet wind road by condensed water volatilization, and then improves the humidity of humidifying chamber, reaches user's request.

Accompanying drawing explanation

Fig. 1 is the structural representation of the refrigerator that hothouse of the present invention and humidifying chamber are independently arranged.

Fig. 2 is the structural representation that humidity control device of the present invention matches with refrigeration system.

Fig. 3 is the exploded view of dehydrating unit.

Fig. 4 is the exploded view of damping device.

Fig. 5 is that in another embodiment, hothouse and humidifying chamber are the structural representation of the refrigerator of same chamber.

Fig. 6 is the structural representation that in another embodiment, humidity control device matches with refrigeration system.

Detailed description of the invention

In order to make the object, technical solutions and advantages of the present invention clearly, describe the present invention below in conjunction with the drawings and specific embodiments.

Referring to shown in Fig. 1 ~ Fig. 6, the invention provides a kind of refrigerator 100, comprise hothouse 10, humidifying chamber 20, providing the refrigeration system 30 of cold to described hothouse 10 and humidifying chamber 20, for regulating the humidity control device 40 of the humidity of hothouse 10 and humidifying chamber 20.In the present embodiment, described refrigerator 100 has refrigerating chamber and refrigerating chamber, and described hothouse 10 and described humidifying chamber 20 are for being located in described refrigerating chamber two independently refrigeration compartment.

Described refrigeration system 30 comprises compressor 31, condenser (not shown), capillary (not shown), is located at evaporimeter 32 in cooling chamber and fan 33, is connected with described cooling chamber and provides dry-air blast road 34 and the wet wind road 35 of cold respectively to hothouse 10 and humidifying chamber 20.Described dry-air blast road 34 and wet wind road 35 are in parallel setting, and described dry-air blast road 34 and wet wind road 35 are respectively equipped with dry-air blast door 36 and wet wind door 37, dry-air blast door 36 and wet wind door 37 are independent separately to be controlled, thus hothouse 10 and humidifying chamber 20 can work independently, in use low cost and conveniently.Fan 33 runs cold air around by evaporimeter 32 and is delivered to described hothouse 10 and described humidifying chamber 20 to provide cold to described hothouse 10 and humidifying chamber 20 respectively through described dry-air blast road 34 and wet wind road 35.

Described humidity control device 40 comprises the dehydrating unit 41 be connected on dry-air blast road 34, the damping device 42 be connected on wet wind road 35, is communicated with described dehydrating unit 41 with the water guide structure 43 of described damping device 42, for collecting the gathering-device 45 of evaporimeter defrosting water, being communicated with the aqueduct of described gathering-device 45 and described damping device 42.The steam of cold air in wet wind road 35 is condensed into condensed water by described dehydrating unit 41, thus makes the humidity of the cold air inputted in described hothouse 10 lower, is applicable to storage of dry goods; Described condensed water is delivered to damping device 42 by water guide structure 43; Defrosting water is delivered in damping device 42 by aqueduct by described gathering-device 45, makes damping device 42 have sufficient water source; Described damping device 42, by promoting that the volatilization of described condensed water improves the humidity of cold air in wet wind road 35, to make the cold air humidity that is delivered in humidifying chamber 20 comparatively large, ensures that humidifying chamber 20 has higher humidity, is applicable to depositing fruit and vegetable etc.

Described dehydrating unit 41 is communicated with by conductive structure 44 with described evaporimeter 32, and make temperature in dehydrating unit 41 substantially close to the temperature of evaporimeter 32, thus the cold air in wet wind road 35 is when through dehydrating unit 41, steam is caught a cold and condensed into condensed water; Described damping device 42 is flowed into through water guide structure 43 after condensed water collects.

Particularly, described dehydrating unit 41 comprises the first air inlet 413 and the first gas outlet 414 that the first shell 411 made by heat conduction good conductor, the first wire netting 412 being located at the three-dimensional porous structure in the first shell 411 with high-specific surface area, the middle part being located at described first shell 411 or middle and upper part are communicated with described dry-air blast road 34.

Described conductive structure 44 is be communicated with described first shell 411 and at least one bonding jumper or sheet metal etc. of described evaporimeter 32, can carry out heat exchange fully to make described dehydrating unit 41 with described evaporimeter 32; When bonding jumper or sheet metal are multiple, different bonding jumpers or sheet metal are connected to positions different on the first shell 411, can accelerate heat trnasfer.Described first wire netting 412 can increase the contact area with air, thus makes the cold air through this dehydrating unit 41 can carry out sufficient heat exchange with described dehydrating unit 41, is convenient to dehumidifying.Generally, cold air is at evaporator surface exothermic condensation or sublimate formation aqueous water or solid water; And dehydrating unit and evaporimeter are by after described conductive structure 44 indirect communication, therefore cold air is sublimated in dehydrating unit, the probability of generation solid water is very low, mainly generates the liquid condensation water of low temperature.

Described damping device 42 comprises the second housing 421 that heat conduction good conductor makes, the second wire netting 422 being located at the three-dimensional porous structure in described second housing 421 with high-specific surface area, lays the second air inlet 423 and the second gas outlet 424 that the fibrous material (not shown) absorbed water with the height on the second wire netting 422, the middle part being located at described second housing 421 or middle and upper part be communicated with wet wind road 35.Wherein, described fibrous material is the material having good hygroscopicity and be convenient to moisture evaporation; Described second wire netting 422 expands the specific area of fibrous material, can the contact area of increased fiber material and air, increases the area of volatilization steam.

Described water guide structure 43 and wet wind road 35 adopt the plastic material of heat conductivility difference to make, or described water guide structure 43 is communicated with described dehydrating unit 41 and/or described damping device 42 thermal insulation, thus the temperature difference that can increase between damping device 42 and dehydrating unit 41, evaporimeter 32, reduce dehydrating unit 41 to the impact of damping device 42.In the present embodiment, described dehydrating unit 41 is positioned at the top of described damping device 42, the upper end of water guide structure 43 is connected to middle part or the middle and lower part of described dehydrating unit 41, the lower end of water guide structure 43 to be stretched in described damping device 42 and is positioned at the bottom of described damping device 42, play the effect of water conservancy diversion condensed water, the water simultaneously bottom the lower end of water guide structure 43 and damping device 42 forms the air-block structure of fluid-tight.Certainly, described dehydrating unit 41 also can be set up in parallel with described damping device 42 in same level, and the set-up mode of described water guide structure 43 is constant, only need ensure that the upper end of water guide structure 43 is higher than lower end, is convenient to water guide.

When some period or certain areas use described refrigerator 100, following situation may be there is: dehydrating unit 41 cannot obtain the condensed water of q.s by condensing mode within the regular hour, thus cause the water without q.s in damping device 42, and then causing humidifying chamber 20 humidity low and the situations such as the non-fluid-tight in water guide structure 43 lower end, final hothouse 10 does not reach user's request with humidifying chamber 20.In order to solve above-mentioned situation, the present embodiment arranges the gathering-device 45 for accepting defrosting water below described evaporimeter 32, and the collection mouth of described gathering-device 45 is positioned at immediately below evaporimeter.Described gathering-device 45 is communicated with by water pipe 46 with described damping device 42, and the delivery port 461 of described water pipe 46 is positioned at the middle and lower part of described damping device, and described delivery port 461 is lower than described second air inlet 423.The defrosting water of evaporimeter first enters damping device 42 through water pipe 46, then is expelled to evaporating dish 50 by discharge outlet 425, to ensure having certain water in described humidifying chamber 20.

Further, in order to prevent the dilutional hyponatremia in damping device 42, hindering the circulation of cold air, being provided with discharge outlet 425 in the middle and lower part of described damping device 42, for being discharged by water unnecessary in damping device 42.Described refrigerator 100 is also provided with the evaporating dish 50 be positioned at above described compressor 31, and in described damping device 42, unnecessary water is expelled to evaporating dish 50.Described discharge outlet 425 is lower than described delivery port 461 and higher than the bottom of described water guide structure 43, can ensure that the water that can store q.s in described damping device 42 is with the cold air providing humidity larger to described humidifying chamber 20, can realize the bottom fluid-tight of described water guide structure 43 simultaneously.

Be different from above-described embodiment, described humidifying chamber 20 and described hothouse 10 also can be same between room, room between wet wind road 35 or 34 pairs, dry-air blast road can be opened as required and carry out humidification or drying.In such cases, dehydrating unit 41 when dehumidifying by moisture savings in damping device 42, and when needing humidification again by damping device 42 by moisture evaporation to indoor between described.

In addition, described refrigerator 100 also has the first air channel 38 being communicated with described cooling chamber and described hothouse 10, the second air channel 39 being communicated with described cooling chamber and described humidifying chamber 20.When the hothouse 10 not needing humidity lower, cold wind enters hothouse 10 by the first air channel 38, and now described hothouse 10 is common refrigeration compartment.When the humidifying chamber 20 not needing humidity higher, cold wind enters humidifying chamber 20 by the second air channel 39, and now humidifying chamber 20 is common refrigeration compartment.When the lower hothouse 10 of humidity and the higher humidifying chamber 20 of humidity all do not need, cold wind enters hothouse 10, humidifying chamber 20 respectively by the first air channel 39, air channel 38, second, and now hothouse 10 and humidifying chamber 20 are common refrigeration compartment.Certainly, if when hothouse 10 and humidifying chamber 20 are same chamber, only the first air channel 38 or the second air channel 39 need be set.

In sum, refrigerator 100 of the present invention controls the humidity in described hothouse 10 and humidifying chamber 20 respectively by dehydrating unit 41, damping device 42; And described humidifying chamber 20 or hothouse 10 can be used alone, be convenient to control.In addition, described dehydrating unit 41 is communicated with by conductive structure 44 with described evaporimeter 32, make temperature in dehydrating unit 41 substantially close to the temperature of evaporimeter 32, thus the cold air in dry-air blast road 35 is when through dehydrating unit 41, steam is caught a cold and is condensed into condensed water; Flow into described damping device 42 through water guide structure 43 after condensed water collects, described damping device 42 increases the humidity of cold air in described wet wind road 35 by condensed water volatilization, and then improves the humidity of humidifying chamber 20, reaches user's request.

Above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted, although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to technical scheme of the present invention or equivalent replacement, and not depart from the spirit and scope of technical solution of the present invention.

Claims (10)

1. a refrigerator, comprising hothouse, humidifying chamber, providing the refrigeration system of cold to described hothouse and humidifying chamber, for regulating the humidity control device of the humidity of hothouse and humidifying chamber, described refrigeration system comprises and is provided with evaporimeter and the cooling chamber of fan, is connected with described cooling chamber and provides dry-air blast road and the wet wind road of cold respectively to hothouse and humidifying chamber, it is characterized in that: described humidity control device comprises the dehydrating unit be connected on dry-air blast road, the damping device be connected on wet wind road, is communicated with the water guide structure of described dehydrating unit and described damping device; Described dehydrating unit is communicated with by conductive structure with described evaporimeter.

2. refrigerator according to claim 1, is characterized in that: described dehydrating unit comprises the first air inlet and the first gas outlet that the first shell made by heat conduction good conductor, the first wire netting being located at the three-dimensional porous structure in the first shell with high-specific surface area, the middle part being located at described first shell or middle and upper part are communicated with described dry-air blast road.

3. refrigerator according to claim 1, is characterized in that: described conductive structure is at least one bonding jumper or the sheet metal that are communicated with described dehydrating unit and described evaporimeter.

4. refrigerator according to claim 1, is characterized in that: described damping device comprises the second housing that heat conduction good conductor makes, the second wire netting being located at the three-dimensional porous structure in described second housing with high-specific surface area, lays the second air inlet and the second gas outlet that the fibrous material absorbed water with the height on the second wire netting, the middle part being located at described second housing or middle and upper part be communicated with wet wind road.

5. refrigerator according to claim 1, is characterized in that: described water guide structure adopts the material of heat conductivility difference to make, or described water guide structure is communicated with described dehydrating unit and/or the thermal insulation of described damping device.

6. refrigerator according to claim 1, is characterized in that: the upper end of water guide structure is connected to middle part or the middle and lower part of described dehydrating unit, and the lower end of water guide structure to be stretched in described damping device and is positioned at the bottom of described damping device.

7. refrigerator according to claim 6, is characterized in that: the middle and lower part of described damping device is provided with discharge outlet, and the setting position of described discharge outlet is higher than the bottom of described water guide structure.

8. refrigerator according to claim 1, is characterized in that: described refrigerator also comprises to be located at drip tray below described evaporimeter, to be communicated with described drip tray and described damping device the water in described drip tray to be imported the water pipe of described damping device.

9. refrigerator according to claim 1, is characterized in that: described humidifying chamber and hothouse be same between room.

10. refrigerator according to claim 1, is characterized in that: described refrigerator also has the first air channel being communicated with described cooling chamber and described hothouse, the second air channel being communicated with described cooling chamber and described humidifying chamber.