CN105157325A - Cold storage device - Google Patents

Abstract

The embodiment of the invention provides a cold storage device and relates to the technical field of electrical equipment. The problems that the drainage distance of a steam conveying pipe is long, and the efficiency for melted frost to enter a cold storage chamber through the steam conveying pipe is low in the prior art are solved. The cold storage device comprises a water catching member, a water storing pipe and a water diversion pipe. The water catching member is used for catching the melted frost. The water storing pipe is communicated with the water catching member. The water storing pipe is arranged in a foaming layer of a box body of the cold storage device and arranged close to a condensation pipe of the cold storage device. One end of the water diversion pipe is communicated with the water storing pipe, and the other end of the water diversion pipe extends into the cold storage chamber of the cold storage device. The water diversion pipe is filled with water absorbing materials. The end, located in the cold storage chamber, of the water diversion pipe is provided with an atomization device. The cold storage device can be used for improving the humidity of the cold storage chamber of a refrigerator.

Description

A kind of cold storage plant

Technical field

The present invention relates to technical field of electrical equipment, particularly relate to a kind of cold storage plant.

Background technology

Along with the raising day by day of people's living standard, cold storage plant (as refrigerator) comes into huge numbers of families, become the necessity of family expenses life, air-cooled cold storage plant is due to the good characteristic such as frostless, easy to use, the market proportion of occupying increases year by year, but air-cooled cold storage plant refrigerating chamber humidity is lower, and food is easily air-dry, be unfavorable for preserving fruit and vegetable utilizing, in air-cooled cold storage plant, arrange humidifying structure is thus the key of dealing with problems.

Example, as shown in Figure 1, the cold storage plant adopted in prior art comprises water receiving part 01, closed water storage case 02, atomization transducer 03 and steam transmitting pipe 04, wherein, water receiving part 01 comprises drip tray 011 and mozzle 012, drip tray 011 is for accepting the defrosting water that in refrigerating chamber 06, evaporimeter 05 flows down, mozzle 012 is connected with the delivery port of drip tray 011, for the defrosting water in drip tray 011 is imported closed water storage case 02, water storage case 02 is arranged in compressor bin 08, can prevent the defrosting water in water storage case 02 from again freezing by the heat absorbing compressor bin 08, atomization transducer 03 is arranged at bottom water storage case 02, can be steam by the defrosting water atomization in water storage case 02, the entrance of steam transmitting pipe 04 is aimed on the top of atomization transducer 03, steam after atomization can import refrigerating chamber 07 by steam transmitting pipe 04, thus achieve and adopt refrigerating chamber defrosting water to carry out humidification to refrigerating chamber, structure is simple, and without the need to adding water in addition.

But, because closed water storage case 02 is arranged in compressor bin 08, and distant apart from refrigerating chamber 07 of compressor bin 08, therefore in order to the steam in water storage case 02 is imported refrigerating chamber 07, required steam transmitting pipe 04 passage is longer, easily causes steam to dispel the heat in course of conveying liquefaction, is difficult to be delivered to refrigerating chamber 07, reduce defrosting water enters refrigerating chamber 07 efficiency by steam transmitting pipe 04, thus have impact on the humidifying effect of this structure.

Summary of the invention

Embodiments of the invention provide a kind of cold storage plant, can shorten the distance of water storage apparatus to refrigerating chamber, improve defrosting water enters refrigerating chamber efficiency by aqueduct, thus improve the humidification efficiency of humidifying structure.

For achieving the above object, The embodiment provides a kind of cold storage plant, comprising: water receiving part, described water receiving part is for receiving defrosting water; Standpipe, described standpipe is communicated with described water receiving part, and the condenser pipe in the foaming layer that described standpipe is arranged at cold storage plant casing and near described cold storage plant is arranged; Aqueduct, described aqueduct one end is communicated with described standpipe, and the other end extends in the refrigerating chamber of cold storage plant, is filled with absorbent material in described aqueduct, and one end that described aqueduct is positioned at described refrigerating chamber is provided with atomising device.

A kind of cold storage plant that the embodiment of the present invention provides, in refrigerating chamber during evaporator defrost, produce defrosting water, this defrosting water can be accepted by water receiving part and be guided to standpipe, standpipe is arranged in foaming layer, there is the effect storing defrosting water, defrosting water in standpipe can introduce refrigerating chamber by aqueduct, compared to compressor bin of the prior art, the close together of foaming layer distance cold storage plant refrigerating chamber, therefore aqueduct is compared to steam transmitting pipe of the prior art, diversion passage is shorter, improve defrosting water enters refrigerating chamber efficiency by aqueduct, thus increase the humidity of refrigerating chamber.And when standpipe is arranged at foaming layer, due to compared to compressor bin, the close together of foaming layer distance refrigerating chamber, the defrosting water therefore in standpipe is easily frozen into ice again by the impact of refrigerating chamber medium and low temperature, is unfavorable for aqueduct diversion, therefore, in order to avoid this problem, the condenser pipe of standpipe in foaming layer can be arranged, now standpipe can the heat that distributes of absorption condensation pipe, defrosting water is made to remain liquid, to facilitate aqueduct diversion.Aqueduct diversion is to the atomising device in refrigerating chamber, and particularly, defrosting water to the atomising device in refrigerating chamber, is then atomized as steam by atomising device by absorbent material diversion by aqueduct, and the vegetable and fruit water profit indoor so that Keep cool is fresh.Because the stability of water is than the good stability of steam, therefore vapour is drawn compared in prior art by steam transmitting pipe, higher by the reliability of aqueduct diversion, the efficiency that liquid defrosting water enters refrigerating chamber by aqueduct is higher, thus improves the humidification efficiency of humidifying structure.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of prior art cold storage plant;

Fig. 2 is embodiment of the present invention cold storage plant Facad structure schematic diagram;

Fig. 3 is embodiment of the present invention cold storage plant structure schematic diagram;

Fig. 4 is the structural representation of the first cold storage plant of the embodiment of the present invention;

Fig. 5 is the structural representation of embodiment of the present invention the second cold storage plant;

Fig. 6 is the structural representation of the third cold storage plant of the embodiment of the present invention;

Fig. 7 is the flow chart that embodiment of the present invention cold storage plant humidification controls.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

In describing the invention, it will be appreciated that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the present invention for convenience of description and simplified characterization; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.In describing the invention, except as otherwise noted, the implication of " multiple " is two or more.

Double-door air-cooling refrigerator comprises refrigerating chamber and refrigerating chamber, and refrigerating chamber arrangement concordant with refrigerating chamber, the temperature of refrigerating chamber is-16 DEG C ~ about-26 DEG C, in the process of refrigeration for refrigerator, moisture in refrigerating chamber can condense into frost layer at evaporator surface, hinders evaporator surface exchange heat, thus affects the refrigeration of refrigerating chamber, therefore need defrost when frost layer reaches certain thickness, thus produce defrosting water; And refrigerating chamber is used for fresh-keeping food, temperature is 2 DEG C ~ about 10 DEG C, temperature is reduced by being blown into cold wind, but cold wind easily blows away the moisture in food, be unfavorable for food fresh-keeping, defrosting water in refrigerating chamber can be introduced refrigerating chamber thus, to increase the humidity of refrigerating chamber, in Keep cool room, food is fresh.

With reference to Fig. 2 and Fig. 3, a specific embodiment of Fig. 2 and Fig. 3 to be embodiment of the present invention cold storage plant be refrigerator, refrigerator shown in figure comprises refrigerating chamber and refrigerating chamber, evaporimeter is provided with in refrigerating chamber, position below refrigerating chamber outside, corresponding described evaporimeter is provided with water receiving part 1, and described water receiving part 1 is for receiving defrosting water.Preferably, in the inside of refrigerating chamber, the position of the below of corresponding evaporimeter is also provided with drip tray, for accepting the defrosting water on evaporimeter, and is poured in water receiving part by defrosting water.

Standpipe 2, described standpipe 2 is communicated with described water receiving part 1, and the condenser pipe 10 in the foaming layer 9 that described standpipe 2 is arranged at refrigerator body and near refrigerator is arranged; Aqueduct 4, described aqueduct 4 one end is communicated with described standpipe 2, and the other end extends in the refrigerating chamber 7 of refrigerator, is filled with absorbent material in described aqueduct 4, and one end that described aqueduct 4 is positioned at described refrigerating chamber 7 is provided with atomising device 3.

A kind of cold storage plant that the embodiment of the present invention provides, when in refrigerating chamber 6, evaporimeter 5 defrosts, produce defrosting water, this defrosting water can be accepted by water receiving part 1 and be guided to standpipe 2, standpipe 2 is arranged in foaming layer 9, there is the effect storing defrosting water, defrosting water in standpipe 2 can introduce refrigerating chamber 7 by aqueduct 4, compared to compressor bin 08 of the prior art, foaming layer 9 is apart from the close together of refrigerating chamber 7, therefore aqueduct 4 is compared to steam transmitting pipe of the prior art, diversion passage is shorter, improve defrosting water enters refrigerating chamber 7 efficiency by aqueduct 4, thus increase the humidity of refrigerating chamber 7.And when standpipe 2 is arranged at foaming layer 9, due to compared to compressor bin 8, foaming layer 9 is apart from the close together of refrigerating chamber 6, and the defrosting water therefore in standpipe 2 is easily frozen into ice again by the impact of refrigerating chamber 6 medium and low temperature, is unfavorable for aqueduct 4 diversion, therefore, in order to avoid this problem, the condenser pipe 10 of standpipe 2 in foaming layer 9 can be arranged, now standpipe 2 can the heat that distributes of absorption condensation pipe 10, defrosting water is made to remain liquid, to facilitate aqueduct 4 diversion.Aqueduct 4 diversion is to the atomising device 3 in refrigerating chamber 7, and particularly, defrosting water atomization to the atomising device 3 in refrigerating chamber 7, is then steam by atomising device 3 by absorbent material diversion by aqueduct 4, fresh with the vegetable and fruit water profit in Keep cool room 7.Because the stability of water is than the good stability of steam, therefore vapour is drawn compared in prior art by steam transmitting pipe 04, higher by the reliability of aqueduct 4 diversion, the efficiency that liquid defrosting water enters refrigerating chamber 7 by aqueduct 4 is higher, thus improves the humidification efficiency of humidifying structure.

In the above-described embodiments, water receiving part 1 is positioned at the outside and position below corresponding evaporimeter of refrigerating chamber, to facilitate reception defrosting water.Particularly, water receiving part 1 can be arranged at refrigerating chamber 6 as shown in Figure 3 inner bag bottom foaming layer in.

Wherein, after the delivery port by water receiving part 1 fills water to standpipe 2, the external environment that unnecessary defrosting water can enter refrigerator by other delivery ports or in entering in compressor bin 8 evaporating pan 81, when defrosting water enters evaporating pan 81, the heat that evaporating pan 81 can absorb compressor generation makes defrosting water fast vaporizing, adopts this scheme that defrosting water can be avoided directly to discharge refrigerator body and impact the surrounding environment of refrigerator.Therefore, water receiving part 1 can be made as structure as shown in Figure 4, namely water receiving part 1 is provided with the first delivery port 11 and the second delivery port 12, the setting position of the first delivery port 11 is higher than the setting position of the second delivery port 12, second delivery port 12 is communicated with standpipe 2, defrosting water can enter standpipe 2 by the second delivery port 12 thus, first delivery port 11 is connected with drainpipe 13, when standpipe 2 stores up full water, defrosting water can be discharged refrigerator body or enter in the evaporating pan 81 in compressor bin 8 by the first delivery port 11 thus.

In addition, drainpipe 13 can also be arranged on position as shown in Figure 5, namely standpipe 2 is connected with drainpipe 13 near one end of water receiving part 1, the water inlet in the vertical direction of drainpipe 13 is between described standpipe 2 and described water receiving part 1, between standpipe 2 and drainpipe 13, connecting portion is in " N " type or serpentine, the water inlet of drainpipe 13 is positioned at the position peak (a point as shown in Figure 5) at this position, in standpipe 2, defrosting water liquid level position is concordant with the setting position of drainpipe 13 water inlet, represent that defrosting water has stored up in standpipe 2 full, if and now continue through water receiving part 1 to standpipe 2 and import defrosting water, defrosting water can enter drainpipe 13 by the water inlet of drainpipe 13 and overflow.Certainly, the water inlet of drainpipe 13 can also be arranged in the connecting pipe between water receiving part 1 and standpipe 2, do not limit at this, but the position of the setting position of the water inlet of drainpipe 13 higher than standpipe 2 must be ensured, overflow after just making the full defrosting water of standpipe 2 storage.

Particularly, standpipe 2 is horizontally disposed with, simultaneously, in order to make the diversion of aqueduct 4 distance shorter, improve defrosting water enters refrigerating chamber 7 efficiency by aqueduct 4, preferably aqueduct 4 is vertically arranged, ensure that the diversion distance to refrigerating chamber 7 diversion is the shortest, thus improve defrosting water enters refrigerating chamber 7 efficiency by aqueduct 4.

Again solidify to effectively prevent the water in standpipe 2, preferably standpipe 2 be arranged in parallel with condenser pipe 10 and be fixedly connected with, as this standpipe 2 being fixed together with condenser pipe 10 by band or buckle, make to carry out heat transfer by tube wall between condenser pipe 10 and standpipe 2, thus make condenser pipe 10 and standpipe 2 more effectively can realize exchange heat.

Particularly, with reference to Fig. 4 and Fig. 5, atomising device 3 is atomizer, atomizer comprises absorbent material 31, atomising device 32 and outer cover 33, the defrosting water atomization that aqueduct 4 is introduced refrigerating chamber 7 by atomizer is steam, and steam is disposed in certain drawer in refrigerating chamber 7 or in refrigerating chamber 7, in order to improve humidification efficiency and uniformity, multiple atomizer can be set, give refrigerating chamber 7 humidification by this multiple atomizer simultaneously, improve humidification efficiency, and this multiple atomizer evenly can be arranged in refrigerating chamber 7, improve the uniformity of humidification.Atomising device 32 can make the water atomization introduced by absorbent material 31, and atomising device 32 can be ultrasonic atomization sheet etc., does not limit at this.

In addition, atomising device 3 can also be made as structure as shown in Figure 6, namely atomising device 3 comprises blower fan 34, moisturizing block 35 and shell 36, moisturizing block 35 is arranged at the air side of blower fan 34, defrosting water in standpipe 2 is introduced in moisturizing block 35 by aqueduct 4, produce air-flow by blower fan 34, the water-band in moisturizing block 35 can be gone out by moisturizing block 35, to increase the humidity in refrigerating chamber 7 by this air-flow.Moisturizing block 35 is made by absorbent material, and its material can be water-absorbing sponge or non-woven fabrics etc., and the shape of moisturizing block 35 can be cuboid, cylinder etc., does not limit at this.

It should be noted that, atomising device 3 is except can for except the atomising device structure shown in the atomizer shown in Fig. 4 and Fig. 5 and Fig. 6, can also be other structures, do not limit at this, and the organization plan of this multiple atomising device 3 can solve identical technical problem, and reach identical Expected Results.

Fresh in order to ensure the water profit of vegetable and fruit in cold compartment of refrigerator 7 under normal circumstances, the span of the minimum of a value m of humidity is 90% ~ 95%, the span of the maximum n of humidity is 75% ~ 80%, in order to ensure that humidity value in refrigerating chamber 7 is between m and n, humidity sensor can be set in the refrigerating chamber 7 of refrigerator, when the humidity value in refrigerating chamber 7 is lower than m, open atomising device 3, to improve the humidity of refrigerating chamber 7, when the humidity value in refrigerating chamber 7 reach or more than m time, continue to detect refrigerating chamber humidity; When the humidity value in refrigerating chamber 7 is lower than n, continue to run atomising device 3, with the humidity of Keep cool room 7, when the humidity value in refrigerating chamber 7 reach or more than n time, atomising device 3 can be closed, stop humidification.And, in order to reduce the energy consumption of atomising device 3, liquid level sensor can be set at standpipe 2 and aqueduct 4 link position, when defrosting water in standpipe 2 liquid level higher than or when flushing in the setting position of this liquid level sensor, defrosting water can introduce atomising device 3 by aqueduct 4, putting before this, if when humidity sensor detects that humidity in refrigerating chamber 7 is lower than m, carry out atomizing humidifying performance by atomizer; And when setting position lower than this liquid level sensor of the liquid level of defrosting water in standpipe 2, defrosting water does not introduce atomising device 3 by aqueduct 4, now, although humidity sensor detects that humidity in refrigerating chamber 7 is lower than m value, still do not carry out humidification by atomizer, control the opening and closing of atomizer thus by liquid level sensor and humidity sensor, save energy consumption.

Wherein, the flow chart being controlled cold compartment of refrigerator 7 humidity by liquid level sensor and humidity sensor can for shown in Fig. 7, and see Fig. 7, concrete rate-determining steps is:

Step S1: judge whether water to be detected by liquid level sensor, if so, then enter step S2; If not, then level sensing is repeated;

Step S2: by the humidity in humidity sensor detection refrigerating chamber 7 whether lower than m, if so, then enter step S3; If not, then Humidity Detection is repeated;

Step S3: open atomising device 3 and carry out wet operations;

Step S4: judge whether water to be detected by liquid level sensor, if so, then enter step S5; If not, then atomising device 3 out of service;

Step S5: whether detect humidity in refrigerating chamber 7 higher than n by humidity sensor, if so, then atomising device 3 out of service; If not, then continue to run atomising device 3.

In addition, absorbent material can be the material such as water-absorbing sponge or non-woven fabrics, does not limit at this, and absorbent material can impurity in filtering defrosting water while conveying defrosting water, prevents blocking aqueduct 4 or atomising device 3 and affects humidifying effect.

It should be noted that, the embodiment of the present invention is not only applicable to double-door refrigerator, is also applicable to single open-door refrigerator, three open-door refrigerator, open the door refrigerator more, and other have cold storage function, and the cold storage plant of defrosting water can be produced, as refrigerator simultaneously, wine cabinets etc., do not limit at this.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (9)

1. a cold storage plant, is characterized in that, comprising:

Water receiving part, described water receiving part is for receiving defrosting water;

Standpipe, described standpipe is communicated with described water receiving part, and the condenser pipe in the foaming layer that described standpipe is arranged at cold storage plant casing and near described cold storage plant is arranged;

Aqueduct, described aqueduct one end is communicated with described standpipe, and the other end extends in the refrigerating chamber of cold storage plant, is filled with absorbent material in described aqueduct, and one end that described aqueduct is positioned at described refrigerating chamber is provided with atomising device.

2. cold storage plant according to claim 1, it is characterized in that, described water receiving part comprises the first delivery port and the second delivery port, the setting position of described first delivery port is higher than the setting position of described second delivery port, described second delivery port is communicated with described standpipe, and described first delivery port is connected with drainpipe.

3. cold storage plant according to claim 1, is characterized in that, described standpipe is connected with drainpipe near one end of described water receiving part, and the water inlet in the vertical direction of described drainpipe is between described standpipe and described water receiving part.

4. the cold storage plant according to any one of claims 1 to 3, is characterized in that, described standpipe is horizontally disposed with, and described aqueduct is vertically arranged.

5. the cold storage plant according to any one of claims 1 to 3, is characterized in that, described standpipe is set parallel to each other with the condenser pipe of described cold storage plant and is fixedly connected with, and carries out heat transfer between described standpipe and described condenser pipe by tube wall.

6. the cold storage plant according to any one of claims 1 to 3, is characterized in that, described atomising device is atomizer.

7. the cold storage plant according to any one of claims 1 to 3, is characterized in that, described atomising device comprises blower fan and moisturizing block, and described moisturizing block is arranged at the air side of described blower fan.

8. the cold storage plant according to any one of claims 1 to 3, is characterized in that, is provided with humidity sensor in described refrigerating chamber, and the position that described standpipe is connected with described aqueduct is provided with liquid level sensor.

9. the cold storage plant according to any one of claims 1 to 3, is characterized in that, described absorbent material is water-absorbing sponge or non-woven fabrics.