CN215724412U - But gradevin of automatic cycle humidification - Google Patents

Abstract

The utility model discloses a wine cabinet capable of automatically circulating and humidifying, which comprises a first storage cavity, wherein the first storage cavity is correspondingly provided with a first air duct, the first air duct is provided with a first air inlet and a first air outlet, the first air outlet is arranged below the first air inlet, the first storage cavity and the first air duct are communicated through the first air inlet and the first air outlet, a first evaporator and a first circulating fan are arranged in the first air duct, a first water storage disc is arranged below the first evaporator correspondingly, the first water storage disc is arranged at the lower end of the first air duct, the first circulating fan and the first evaporator are arranged between the first air inlet and the first air outlet, and the first air outlet is arranged at the upper side of the first water storage disc. The wine cabinet has the function of circulating and humidifying, thereby being beneficial to storing wine drinks.

Description

But gradevin of automatic cycle humidification

Technical Field

The utility model relates to the field of wine cabinets, in particular to a wine cabinet capable of automatically circularly humidifying.

Background

At present, an article placing cavity is arranged inside a wine cabinet and is used for placing wine drinks; because under high temperature environment, the grape wine can be ageing with higher speed, the fruity disappearance, the flavor becomes pale, some are not fresh even appear, unpleasant taste, so prior art's gradevin is equipped with refrigerating system, refrigerating system includes the evaporimeter, the air of putting the thing intracavity passes through the evaporimeter cooling, but moisture in the air current also can be by the evaporimeter condensation, the comdenstion water directly discharges outside the gradevin through the drain pipe, the air of putting the thing intracavity becomes dry, when air humidity is too low, let cork dry and lose elasticity easily, can't seal the bottleneck, lead to the air admission beverage bottle too much, make the wine quality impaired, so must utility model a gradevin that the air of ability opposition thing intracavity carries out the humidification.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a wine cabinet capable of automatically circulating and humidifying, which has a circulating and humidifying function and is beneficial to storing wine drinks.

The purpose of the utility model is realized by the following technical scheme.

The utility model discloses a wine cabinet capable of automatically circulating and humidifying, which comprises a first object placing cavity, wherein the first object placing cavity is correspondingly provided with a first air duct, the first air duct is provided with a first air inlet and a first air outlet, the first air outlet is arranged below the first air inlet, the first object placing cavity and the first air duct are communicated through the first air inlet and the first air outlet, a first evaporator and a first circulating fan are arranged in the first air duct, a first water storage disc is arranged below the first evaporator correspondingly, the first water storage disc is arranged at the lower end of the first air duct, the first circulating fan and the first evaporator are arranged between the first air inlet and the first air outlet, and the first air outlet is arranged at the upper side of the first water storage disc.

Preferably, the first storage cavity is connected with a first external ventilation pipe.

Preferably, the wine cabinet further comprises an inner container, the first storage cavity and the first air duct are arranged in the inner container, a first air duct plate is arranged inside the inner container, the first storage cavity and the first air duct are arranged in a separated mode through the first air duct plate, the first air inlet is formed in the upper portion of the first air duct plate, and the first air outlet is formed between the lower end of the first air duct plate and the first water storage tray.

Preferably, a first overflow pipe is arranged in the first water storage tray, and the first overflow pipe penetrates through the bottom of the first water storage tray.

Preferably, a partition plate is arranged in the inner container, a second object placing cavity and a second air duct are formed in the inner container, the second object placing cavity is arranged below the first object placing cavity correspondingly, the first object placing cavity and the second object placing cavity are separated through the partition plate, a second air duct plate is arranged between the second object placing cavity and the second air duct, a second evaporator and a second circulating fan are arranged in the second air duct, a second water storage box is correspondingly arranged at the lower end of the second air duct, the second water storage box is arranged below the second evaporator correspondingly, a second air inlet is formed at the upper part of the second air duct plate, a second air outlet is formed between the lower end of the second air duct plate and the second water storage box, and the second object placing cavity and the second air duct are communicated through the second air inlet and the second air outlet, the second circulating fan and the second evaporator are arranged between the second air outlet and the second air inlet, the second air channel and the first air channel are arranged in a separated mode through the first water storage disc, the first overflow pipe is communicated with the first air channel and the second air channel, the first overflow pipe is arranged above the second water storage box in a corresponding mode, the second air channel is connected with a second external ventilation pipe in a communicated mode, and the second external ventilation pipe is arranged below the second evaporator.

Preferably, a second overflow pipe is arranged in the second water storage box, and the second overflow pipe penetrates through the bottom of the second water storage box.

Preferably, a shell is arranged outside the inner container, the front end of the first external ventilation pipe is connected with the first air duct plate, and the rear end of the first external ventilation pipe is connected with the back of the shell.

Preferably, the front end of the second external ventilation pipe is connected with the back of the inner container, and the rear end of the second external ventilation pipe is connected with the back of the shell.

Preferably, the first circulation fan is correspondingly connected with the first air inlet, and the second circulation fan is correspondingly connected with the second air inlet.

Preferably, the first circulation fan is disposed above the first evaporator, and the second circulation fan is disposed above the second evaporator.

Compared with the prior art, the utility model has the beneficial effects that: the wine cabinet has a circulating humidification function, the air in the first storage cavity is prevented from being too dry, and wine drinks are stored conveniently.

Drawings

Fig. 1 is a schematic perspective sectional view of the wine cabinet of the present invention.

Fig. 2 is an exploded view of the wine cabinet of the present invention.

Fig. 3 is a schematic sectional view of the wine cabinet of the present invention in the right view.

Fig. 4 is a schematic perspective view of a first water storage tray according to the present invention.

Fig. 5 is a schematic perspective view of the liner of the present invention.

Description of reference numerals: 1-a first water storage tray; 11-a first overflow pipe; 2-a first evaporator; 3-a first circulation fan; 4-a first external vent pipe; 5-a second water storage tray; 51-a second overflow tube; 6-a second evaporator; 7-a second circulation fan; 8-a second external ventilation duct; 9-inner container; 901-rear card slot; 902-inner card slot; 91-a first storage chamber; 92-a second storage compartment; 10-a housing; 11-a partition plate; 12-a cabinet door; 13-a first airway plate; 131-a first air duct; 132-a first air inlet; 14-a second air duct plate; 141-a second air duct; 142-a second air inlet; 15-a first air outlet; 16-a second air outlet.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The wine cabinet of the present invention, as shown in fig. 1 and fig. 3 (note that, for convenience of viewing, fig. 3 is a schematic structural diagram), includes a first storage chamber 91, the first storage chamber 91 is used for storing wine beverages, the first storage chamber 91 is correspondingly provided with a first air duct 131, the first air duct 131 is provided with a first air inlet 132 and a first air outlet 15, the first air outlet 15 is arranged below the first air inlet 132, the first storage chamber 91 and the first air duct 131 are communicated with each other through the first air inlet 132 and the first air outlet 15, a first evaporator 2 and a first circulating fan 3 are arranged in the first air duct 131, a first water storage tray 1 is arranged below the first evaporator 2, the first water storage tray 1 is arranged at a lower end of the first air duct 131, the first circulating fan 3 and the first evaporator 2 are arranged between the first air inlet 132 and the first air outlet 15 (on a path through which a circulating air flow formed by the first circulating fan 3 passes), the first air outlet 15 is arranged on the upper side of the first water storage disc 1.

The first evaporator 2 is a component of the refrigeration system of the wine cabinet of the present invention, and the refrigeration system mainly comprises a compressor, a condenser and a capillary tube, and the refrigeration system is the prior art. When the wine cabinet of the present invention is in operation, the first circulation fan 3 is operated, as shown by a dotted arrow in fig. 3, the first circulation fan 3 sucks air in the first storage cavity 91 into the first air duct 131, the air flow enters the upper portion of the first air duct 131 from the first air inlet 132, the air flow then flows downward to the first air outlet 15, the air flow flows back into the first storage cavity 91 through the first air outlet 15, so as to form a circulation air flow, when the refrigeration system is in operation, the refrigerant evaporates and absorbs heat in the first evaporator 2, so that the air flow flowing through the first evaporator 2 is cooled, moisture in the air flow is condensed into water droplets, the water droplets condensed on the outer surface of the first evaporator 2 then drop to the first water storage tray 1, and then water is accumulated in the first water storage tray 1; the wine cabinet disclosed by the utility model continuously works, because the air flow flows from top to bottom in the first air duct 131, and because the first water storage disc 1 is arranged at the lower end of the first air duct 131, the air flow can continuously wash the water surface of the first water storage disc 1 to accelerate the evaporation of water in the first water storage disc 1, so that the air flow can bring the water vapor on the water surface of the first water storage disc 1 back to the first storage cavity 91, the moisture of the air in the first storage cavity 91 can be circularly supplemented, the wine cabinet disclosed by the utility model has an automatic circulating humidification function during working, and an independent ultrasonic humidifier is not required to be additionally arranged, the wine cabinet disclosed by the utility model can prevent the air in the first storage cavity 91 from being too dry, and is favorable for storing wine drinks.

Further, as shown in fig. 1 and 3, the first storage cavity 91 is connected to the first external ventilation pipe 4, and the first external ventilation pipe 4 is used for ventilating the first storage cavity 91 to the outside (i.e. the external space of the wine cabinet of the present invention); in unit time, when the evaporation capacity of the water in the first water storage tray 1 is less than the condensation water amount formed by the first evaporator 2, the air humidity in the first object containing cavity 91 is lower than the external air humidity, the moisture in the external air can be supplemented to the first object containing cavity 91 through the first external ventilation pipe 4, and the first object containing cavity 91 is further prevented from being too dry.

Further, as shown in fig. 1 to 3, the wine cabinet of the present invention further includes an inner container 9, the inner container 9 may be made of plastic, the first storage cavity 91 and the first air duct 131 are disposed in the inner container 9, the inner container 9 is internally provided with a first air duct plate 13, the first storage cavity 91 and the first air duct 131 are separately disposed through the first air duct plate 13, as shown in fig. 2, the first air inlet 132 is formed at the upper portion of the first air duct plate 13, as shown in fig. 3, the first air outlet 15 is formed between the lower end of the first air duct plate 13 and the first water storage tray 1, and the first storage cavity 91 and the first air duct 131 are disposed in the inner container 9, such that the circulating air flow formed by the first circulating fan 3 is within the inner container 9, which is beneficial to reducing the influence of the outside air temperature on the refrigeration effect of the wine cabinet; the first air duct plate 13 is adopted to separate the first object containing cavity 91 and the first air duct 131 in the inner container 9, so that the structure is simple and the manufacture is convenient; through forming first air outlet 15 between the lower extreme of first wind channel plate 13 and first water storage plate 1, be favorable to forcing the air current to blow to the surface of water of first water storage plate 1, be favorable to accelerating the water evaporation in the first water storage plate 1.

Further, as shown in fig. 1 to 3, a shell 10 is arranged outside the inner container 9, the shell 10 may be a sheet metal part, and the cabinet door 12 is hinged to the shell 10; the front end of first outer ventilation pipe 4 is connected with first wind channel board 13, the rear end of first outer ventilation pipe 4 is connected with the back of shell 10, specifically the through-hole of the external diameter of the first outer ventilation pipe 4 of adaptation is seted up respectively to the back of shell 10 and first wind channel board 13, first outer ventilation pipe 4 passes through the back of shell 10 and first wind channel board 13 supports, first wind channel 131 is passed through to the tube of first outer ventilation pipe 4, in other words, the outside steam of gradevin can directly enter into first thing chamber 91 through first outer ventilation pipe 4, because the gradevin is usually for being close to the wall and placing, so foretell first outer ventilation pipe 4 can not influence the outward appearance of gradevin. The first air duct 131 is preferably disposed at the rear side of the first storage cavity 91, which is beneficial to reducing the household space occupied by the wine cabinet of the present invention.

Further, as shown in fig. 1, 3 and 4, a first overflow pipe 11 is disposed in the first water storage tray 1, and the first overflow pipe 11 runs through the bottom of the first water storage tray 1, that is, when the water level of the first water storage tray 1 is higher than the upper end nozzle of the first overflow pipe 11, the water in the first water storage tray 1 overflows from the upper end nozzle of the first overflow pipe 11 to the outside of the lower part of the first water storage tray 1, on one hand, the water level of the first water storage tray 1 is prevented from being too high and overflowing into the first object placing cavity 91, on the other hand, a certain amount of water can be stored in the first water storage tray 1, which is beneficial to making the first water storage tray 1 have enough water for humidifying the air in the first object placing cavity 91.

Further, as shown in fig. 1 and 3, a partition plate 11 is disposed inside the inner container 9, a second storage chamber 92 and a second air duct 141 are formed inside the inner container 9, the second storage chamber 92 is disposed below the first storage chamber 91, the first storage chamber 91 and the second storage chamber 92 are separated by the partition plate 11, a second air duct plate 14 is disposed between the second storage chamber 92 and the second air duct 141, a second evaporator 6 and a second circulating fan 7 are disposed in the second air duct 141, a second water storage box 5 is correspondingly disposed at a lower end of the second air duct 141, the second water storage box 5 is disposed below the second evaporator 6, a second air inlet 142 is formed at an upper portion of the second air duct plate 14, a second air outlet 16 is formed between a lower end of the second air duct plate 14 and the second water storage box 5, the second storage chamber 92 and the second air duct 141 are communicated with each other through the second air inlet 142 and the second air outlet 16, the second circulating fan 7 and the second evaporator 6 are arranged between the second air outlet 16 and the second air inlet 142, the second air channel 141 and the first air channel 131 are arranged in a separated mode through the first water storage disc 1, the first overflow pipe 11 is communicated with the first air channel 131 and the second air channel 141, the first overflow pipe 11 is arranged above the second water storage box 5, the second air channel 141 is connected with the second external ventilation pipe 8 in a communicated mode, the second external ventilation pipe 8 is arranged below the second evaporator 6, so that moisture of outside air can enter the second air channel 141 through the second external ventilation pipe 8, and then can enter the second storage cavity 92; the water overflowing from the first water storage tray 1 to the lower part of the first overflow pipe 11 through the first overflow pipe 4 can drip into the second water storage box 5, so that the water overflowing from the first water storage tray 1 can be continuously evaporated in the second water storage box 5; the outer surface of the second evaporator 6 will also form condensed water, water drops condensed on the outer surface of the second evaporator 6 will also drop to the second water storage box 5, and the circulating air flow generated by the second circulating fan 7 is cooled by the second evaporator 6 and then blown to the water surface of the second water storage box 5, so that the air entering the second storage cavity 92 from the second air outlet 16 is wet. Since the second accommodating chamber 92 is correspondingly provided with the second evaporator 6 and the first accommodating chamber 91 is correspondingly provided with the first evaporator 2, the temperature of the second accommodating chamber 92 and the temperature of the first accommodating chamber 91 can be set independently, and since the function that the temperature of the second accommodating chamber 92 and the temperature of the first accommodating chamber 91 can be set independently is the prior art and is not the key point of the present invention, detailed description is omitted.

Further, as shown in fig. 3, a second overflow pipe 51 is arranged in the second water storage box 5, the second overflow pipe 51 is arranged to penetrate through the bottom of the second water storage box 5, so that when the water level in the second water storage box 5 is higher than the upper end opening of the second overflow pipe 51, the water in the second overflow pipe 51 can overflow to the lower part of the bottom of the second water storage box 5 through the second overflow pipe 51, and by arranging the second overflow pipe 51, on one hand, the water level in the second water storage box 5 is prevented from being too high and overflowing into the second storage cavity 92, on the other hand, a certain amount of water can be stored in the second water storage box 5, which is beneficial for enabling the second water storage box 5 to have enough water for humidifying the air in the second storage cavity 92. As shown in fig. 5, the rear portion of the inner container 9 forms the structure of the second water storage box 5, that is, the inner container 9 is integrally provided with the second water storage box 5, so that the water in the second water storage box 5 can overflow out of the inner container 9 through the second overflow pipe 51.

Further, as shown in fig. 3, the front end of the second external ventilation pipe 8 is connected to the back of the inner container 9, and the rear end of the second external ventilation pipe 8 is connected to the back of the outer container 10, that is, the second external ventilation pipe 8 is supported by the inner container 9 and the back of the outer container 10.

Further, as shown in fig. 1 to fig. 3, the first circulation fan 3 is correspondingly connected to the first air inlet 132, and the second circulation fan 7 is correspondingly connected to the second air inlet 142, specifically, for example, the first air inlet 132 is a circular through hole, the first circulation fan 3 is attached to and aligned to cover the first air inlet 132, and the first circulation fan 3 is connected to the first air duct plate 13 by corresponding screws.

Further, as shown in fig. 1 and 3, the first circulation fan 3 is disposed above the first evaporator 2, and the second circulation fan 7 is disposed above the second evaporator 6, so that water droplets dropping from the outer surface of the first evaporator 2 are prevented from wetting the first circulation fan 3, and water droplets dropping from the second evaporator 6 are also prevented from wetting the second circulation fan 7.

As shown in fig. 5, a rear clamping groove 901 is formed in the rear portion of the inner container 9, as shown in fig. 1 and 3, the rear end of the first water storage tray 1 is fittingly arranged in the rear clamping groove 901, the front end of the first water storage tray 1 is supported by the rear end of the partition plate 11, inner clamping grooves 902 are formed on the inner walls of the left side and the right side of the inner container 9, and the left end and the right end of the partition plate 11 are respectively fittingly inserted into the inner clamping grooves 902.

In summary, the wine cabinet capable of automatically circulating and humidifying according to the present invention is excellent in the performance of storing alcoholic beverages.

Claims (10)

1. The utility model provides a but gradevin of automatic cycle humidification, includes first thing chamber (91) of putting, its characterized in that: the first object placing cavity (91) is correspondingly provided with a first air duct (131), the first air duct (131) is provided with a first air inlet (132) and a first air outlet (15), the first air outlet (15) is arranged below the first air inlet (132), the first object placing cavity (91) and the first air duct (131) are communicated through the first air inlet (132) and the first air outlet (15), a first evaporator (2) and a first circulating fan (3) are arranged in the first air duct (131), a first water storage tray (1) is arranged below the first evaporator (2), the first water storage disc (1) is arranged at the lower end of the first air duct (131), the first circulating fan (3) and the first evaporator (2) are arranged between the first air inlet (132) and the first air outlet (15), the first air outlet (15) is arranged on the upper side of the first water storage disc (1).

2. The wine cabinet capable of automatically circulating and humidifying according to claim 1, wherein: the first object placing cavity (91) is connected with a first external ventilation pipe (4) in a communicating mode.

3. The wine cabinet capable of automatically circulating and humidifying according to claim 2, wherein: still include inner bag (9), first put thing chamber (91) and first wind channel (131) are located within inner bag (9), the inside of inner bag (9) is equipped with first wind channel board (13), first put thing chamber (91) with first wind channel (131) pass through first wind channel board (13) are separated and are set up, first air intake (132) are formed at the upper portion of first wind channel board (13), first air outlet (15) are formed at the lower extreme of first wind channel board (13) with between first water storage dish (1).

4. A wine cabinet with automatic circulation humidification according to claim 3, wherein: a first overflow pipe (11) is arranged in the first water storage disc (1), and the first overflow pipe (11) penetrates through the bottom of the first water storage disc (1).

5. The wine cabinet capable of automatically circulating and humidifying according to claim 4, wherein: the inside of inner bag (9) is equipped with division board (11), the inside of inner bag (9) is formed with the second and puts thing chamber (92) and second wind channel (141), the second is put thing chamber (92) and is located the first corresponding below of putting thing chamber (91), first put thing chamber (91) with the second is put thing chamber (92) and is passed through division board (11) separation setting, the second put thing chamber (92) with be equipped with second wind channel board (14) between second wind channel (141), be equipped with second evaporimeter (6) and second circulating fan (7) in second wind channel (141), the lower extreme correspondence of second wind channel (141) is equipped with second water storage box (5), second water storage box (5) set up the corresponding below of second evaporimeter (6), the upper portion of second wind channel board (14) is formed with second air intake (142), the lower extreme of second wind channel board (14) with be formed with second air-out between second water storage box (5) The second storage cavity (92) and the second air duct (141) are communicated with each other through the second air inlet (142) and the second air outlet (16), the second circulating fan (7) and the second evaporator (6) are arranged between the second air outlet (16) and the second air inlet (142), the second air duct (141) and the first air duct (131) are separated from each other through the first water storage disc (1), the first overflow pipe (11) is communicated with the first air duct (131) and the second air duct (141), the first overflow pipe (11) is arranged above the second water storage box (5), the second air duct (141) is communicated with a second external ventilation pipe (8), and the second external ventilation pipe (8) is arranged below the second evaporator (6).

6. The wine cabinet capable of automatically circulating and humidifying according to claim 5, wherein: and a second overflow pipe (51) is arranged in the second water storage box (5), and the second overflow pipe (51) penetrates through the bottom of the second water storage box (5).

7. The wine cabinet capable of automatically circulating and humidifying according to claim 6, wherein: the outer portion of the inner container (9) is provided with a shell (10), the front end of the first external ventilation pipe (4) is connected with the first air duct plate (13), and the rear end of the first external ventilation pipe (4) is connected with the back of the shell (10).

8. The wine cabinet capable of automatically circulating and humidifying according to claim 7, wherein: the front end of the second external ventilation pipe (8) is connected with the back of the inner container (9), and the rear end of the second external ventilation pipe (8) is connected with the back of the shell (10).

9. The wine cabinet capable of automatically circulating and humidifying according to claim 5, wherein: the first circulation fan (3) is correspondingly connected with the first air inlet (132), and the second circulation fan (7) is correspondingly connected with the second air inlet (142).

10. The wine cabinet capable of automatically circulating and humidifying according to claim 9, wherein: the first circulating fan (3) is arranged above the first evaporator (2), and the second circulating fan (7) is arranged above the second evaporator (6).

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