CN111351312A - Uniform-temperature wine cabinet and control method - Google Patents

Abstract

The invention discloses a temperature-equalizing wine cabinet and a control method thereof.A plurality of first air supply outlets for supplying air to a first storage area of each layer, a second air supply outlet for supplying air to a second storage area and a third air supply outlet for supplying air to a third storage area are arranged on an air duct. The air supply mode of the first air supply outlet is that air is supplied to the left side and the right side of the back of the first storage area respectively in the horizontal direction, and cold air sinks through the two sides and the front of the first storage area and flows back to the first air return opening and the second air return opening to form an airflow circulation route. Compare with traditional gradevin air conditioning from the gradevin rear portion to blowing to the front portion, the air supply mode of the left and right sides avoids air conditioning to blow the beverage bottle directly, reduces the beverage bottle local temperature fluctuation. The double-air-return-opening structure enables airflow circulation inside the wine cabinet to be smoother, and improves temperature uniformity. Thereby realize the inside samming of gradevin, improve the storage environment of red wine, improve user and use experience.

Description

Uniform-temperature wine cabinet and control method

Technical Field

The invention relates to the technical field of refrigeration equipment, in particular to a temperature-equalizing wine cabinet and a control method.

Background

The traditional air-cooled wine cabinet forms a simple air duct through an evaporator, an evaporation fan and a fan cover to form refrigeration cycle, and refrigeration of red wine is completed. An air suction opening of the traditional wine cabinet is positioned at the top, and cold air sinks to be unfavorable for air return, so that the temperature difference inside the wine cabinet is large; the number of the air outlets is only 1, so that air circulation in the wine cabinet is poor, and the temperature difference is large; the air outlet direction is generally from the rear portion of the wine cabinet to the front portion, and the wine bottle is directly blown, so that the local temperature fluctuation of the wine bottle is large. With the improvement of living standard, the requirement of consumers on red wine storage is higher and higher, and the requirement on the temperature uniformity of wine cabinets is higher and higher.

Disclosure of Invention

The invention aims to solve the technical problems and provides a temperature-equalizing wine cabinet and a control method, so that the temperature equalization inside the wine cabinet is realized, and the storage environment of red wine is improved.

The technical scheme provided by the invention is that the temperature-equalizing wine cabinet comprises a cabinet body and an air duct arranged in the cabinet body, wherein a plurality of first storage areas, second storage areas and third storage areas for placing red wine are vertically arranged in the cabinet body along the height direction of the cabinet body, an evaporation fan and an evaporator are arranged in the air duct, first air supply outlets for supplying air to each layer of first storage area in the left-right horizontal direction, second air supply outlets for supplying air to the second storage areas and third air supply outlets for supplying air to the third storage areas are arranged on the left side and the right side of the upper portion of the air duct, and the air duct is also provided with first return air inlets and second return air inlets for returning air to the first storage areas, the second storage areas and the third storage areas.

Further, the first air return opening is located between the second air supply opening and the third air supply opening, and the second air return opening is located below the third air supply opening.

Furthermore, a fourth air supply outlet is arranged at the top of the air duct, and cold air blown out from the fourth air supply outlet flows from top to bottom through the front side surface inside the cabinet body.

Further, the second air supply outlet comprises a second air supply outlet A and a second air supply outlet B which are arranged on the left and right, and the third air supply outlet comprises a third air supply outlet A and a third air supply outlet B which are arranged on the left and right.

Further, the second air supply opening a and the third air supply opening a are respectively provided with an air guide piece a for blowing cold air output from the second air supply opening a to the left side of the second storage area and blowing cold air output from the third air supply opening a to the left side of the third storage area; the second air supply port B and the third air supply port B are respectively provided with an air guide piece B for blowing cold air output from the second air supply port B to the right side of the second storage area and blowing cold air output from the third air supply port B to the right side of the third storage area.

Further, an air duct cover plate is arranged in the cabinet body, the air duct is formed between the air duct cover plate and the inner wall of the cabinet body, and the first air supply outlet, the second air supply outlet, the third air supply outlet, the fourth air supply outlet, the first air return opening and the second air return opening are formed in the air duct cover plate.

Further, the air duct cover plate comprises an upper air duct cover plate and a lower air duct cover plate, the upper air duct cover plate is provided with the first air supply outlet and the fourth air supply outlet, and the lower air duct cover plate is provided with the second air supply outlet, the third air supply outlet, the first air return opening and the second air return opening; an upper air supply channel is formed between the upper air duct cover plate and the inner wall of the cabinet body, and the first air supply outlet and the fourth air supply outlet are respectively communicated with the upper air supply channel; and a left air supply channel and a right air supply channel are formed between the lower air duct cover plate and the inner wall of the cabinet body, the second air supply outlet A and the third air supply outlet A are communicated with the left air supply channel, and the second air supply outlet B and the third air supply outlet B are communicated with the right air supply channel.

Furthermore, the upper air duct cover plate comprises a first vertical part and a horizontal part, the first vertical part is provided with the first air supply opening, the horizontal part is provided with the fourth air supply opening, a vertical air supply channel is formed between the first vertical part and the inner wall of the cabinet body, a top horizontal air supply channel is formed between the horizontal part and the inner wall of the cabinet body, the first air supply opening is communicated with the vertical air supply channel, and the fourth air supply opening is communicated with the top horizontal air supply channel.

Furthermore, a cold accumulation device is arranged in the horizontal part.

Further, the lower air duct cover plate comprises a second vertical part and an arc-shaped part, the second vertical part is provided with the second air supply outlet, the third air supply outlet and the first air return opening, the left air supply channel and the right air supply channel are formed between the second vertical part and the inner wall of the cabinet body, and the first air return channel communicated with the first air return opening is formed in the second vertical part; and a second air return channel communicated with the second air return inlet is formed between the arc-shaped part and the inner wall of the cabinet body.

Furthermore, an evaporation cavity is formed between the second vertical part and the inner wall of the cabinet body, the evaporator is arranged in the evaporation cavity, and the first air return channel and the second air return channel are communicated with the bottom of the evaporation cavity respectively.

Further, a fan volute is arranged on the second vertical portion, the fan volute is provided with an air inlet and three air outlets, the evaporation fan is a centrifugal fan, the centrifugal fan is arranged in the fan volute, the air inlet of the fan volute is communicated with the upper portion of the evaporation cavity, the first air outlet of the fan volute is communicated with the vertical air supply channel, the second air outlet of the fan volute is communicated with the left air supply channel, and the third air outlet of the fan volute is communicated with the right air supply channel.

Furthermore, the bottom of the cabinet body is provided with a plurality of raised supporting ribs, and a bottom ventilation channel is formed between every two adjacent supporting ribs.

The invention also provides a control method of the samming wine cabinet, the cool air exchanged heat by the evaporator in the air duct is respectively output through the first air supply outlet, the second air supply outlet, the third air supply outlet and the fourth air supply outlet under the driving action of the evaporation fan, wherein the cool air output from the first air supply outlet downwards enters the first air return inlet and the second air return inlet through the two sides of the back part, the two sides and the front part of the first storage area of each layer of the first storage area, the cool air output from the second air supply outlet downwards enters the first air return inlet and the second air return inlet through the back part, the two sides and the front part of the second storage area, the cool air output from the third air supply outlet enters the first air return inlet and the second air return inlet through the back part, the two sides, the front part and the bottom part of the third storage area, and the cool air output from the fourth air supply outlet sequentially passes through the front part, the front part and the front part, The front of the third storage area enters the first return air opening and the second return air opening.

Compared with the prior art, the invention has the advantages and positive effects that:

the invention provides a temperature-equalizing wine cabinet and a control method thereof.A plurality of first air supply outlets for supplying air to each layer of first storage area, a second air supply outlet for supplying air to a second storage area and a third air supply outlet for supplying air to a third storage area are arranged on an air duct. The air supply mode of the first air supply outlet is that air is supplied to the left side and the right side of the back of the first storage area respectively in the horizontal direction, and cold air sinks through the two sides and the front of the first storage area and flows back to the first air return opening and the second air return opening to form an airflow circulation route. Compare with traditional gradevin air conditioning from the gradevin rear portion to blowing to the front portion, the air supply mode of the left and right sides avoids air conditioning to blow the beverage bottle directly, reduces the beverage bottle local temperature fluctuation. The double-air-return-opening structure enables airflow circulation inside the wine cabinet to be smoother, and improves temperature uniformity. Thereby realize the inside samming of gradevin, improve the storage environment of red wine, improve user and use experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of a temperature-equalizing wine cabinet of the present invention;

FIG. 2 is a sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic side view of the temperature-equalizing wine cabinet according to the embodiment of the present invention;

FIG. 4 is a sectional view taken along line B-B of FIG. 3;

FIG. 5 is a side cross-sectional view of an embodiment of an upper duct cover according to the present invention;

FIG. 6 is a side cross-sectional view of a lower duct cover embodiment of the present invention;

FIG. 7 is a front cross-sectional view of an embodiment of a lower duct cover according to the present invention.

Wherein, 110-a first storage area, 120-a second storage area, 130-a third storage area, 200-a cabinet, 300-an upper air supply channel, 310-a vertical air supply channel, 320-a top horizontal air supply channel, 410-a left air supply channel, 420-a right air supply channel, 500-an upper air duct cover plate, 510-a first vertical part, 511-a first air supply outlet, 520-a horizontal part, 521-a fourth air supply outlet, 600-a lower air duct cover plate, 610-a second vertical part, 611-a second air supply outlet, 6111-a second air supply outlet A, 6112-a second air supply outlet B, 612-a third air supply outlet, 6121-a third air supply outlet A, 6122-a third air supply outlet B, 613-a first air return outlet, 620-an arc part, 621-a second air return outlet, 630-second return air channel, 640-first return air channel, 700-evaporator, 800-evaporation fan and 900-cold storage device.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention discloses a temperature-equalizing wine cabinet, which comprises a cabinet body 200 and an air duct arranged in the cabinet body 200, wherein a plurality of first storage areas 110, second storage areas 120 and third storage areas 130 for placing red wine are vertically arranged in the cabinet body 200 along the height direction of the cabinet body, an evaporation fan 800 and an evaporator 700 are arranged in the air duct, the left side and the right side of the upper part of the air duct are provided with a first air supply opening 511 for supplying air to the left and the right of each layer of first storage area 110, a second air supply opening 611 for supplying air to the second storage area 120 and a third air supply opening 612 for supplying air to the third storage area 130, and the air duct is also provided with a first air return opening 613 and a second air return opening 621 for returning air to the first storage area 110, the second storage area 120 and the third storage area 130.

Specifically, for the first air supply opening 511, the air duct supplies cool air to the back of each layer of the first storage area 110 in the horizontal direction from the left side to the right side through the first air supply opening 511, the cool air flows to the front through the left side and the right side of the first storage area 110, and the cool air sinks, and since the first air return opening 613 and the second air return opening 621 are located below the first air supply opening 511, the cool air enters the first air return opening 613 and the second air return opening 621 under the suction force of the first air return opening 613 and the second air return opening 621, so as to form a circulation loop of the air flow. Compared with the traditional wine cabinet air conditioning, the air conditioning is directly blown to the front part from the rear part of the wine cabinet, the horizontal air supply modes on the left side and the right side avoid the air conditioning to directly blow wine bottles, the local temperature fluctuation of the wine bottles is reduced, the internal temperature equalization of the wine cabinet is realized, the storage environment of red wine is improved, and the use experience of a user is improved.

As for the second blowing port 611, the duct supplies cool air to the second storage area 120 through the second blowing port 611, the cool air sinks through the front of the second storage area 120, and enters the first return air port 613 and the second return air port 621 by the suction force of the first return air port 613 and the second return air port 621, forming a circulation loop of the air flow. Similarly, regarding the third blowing port 612, the duct supplies cool air to the third storage area 130 through the third blowing port 612, and the cool air sinks through the front portion of the third storage area 130 and enters the first return air port 613 and the second return air port 621 by the suction force of the first return air port 613 and the second return air port 621, thereby forming a circulation loop of the air flow.

Further, in order to improve the circulation fluidity of the air flow and facilitate the return air, the first return air opening 613 is located between the second supply air opening 611 and the third supply air opening 612, and the second return air opening 621 is located below the third supply air opening 612. Thus, after the cold air output from the plurality of first air supply ports 511 and the second air supply ports 611 at the upper part sinks, a part of the cold air enters the first air return port 613 under the suction effect of the first air return port 613, and the other part of the cold air enters the second air return port 621 under the suction effect of the second air return port 621, so that all the cold air after heat exchange of the wine storage bottle can flow back to the evaporator 700 to enter the next air flow circulation. Meanwhile, the cold air output from the third air supply outlet 612 enters the second air return opening 621 under the suction effect of the second air return opening 621, and flows back to the evaporator 700 to enter the next air flow cycle. The structural design of two return air inlets makes the inside air current circulation of gradevin more smooth and easy, can guarantee that all air conditioning after the heat transfer of storage beverage bottle can both flow back to the evaporimeter and get into next air current circulation, is favorable to improving the inside temperature homogeneity of gradevin.

Further, the second air blowing port 611 includes a second air blowing port a 6111 and a second air blowing port B6112 which are arranged left and right, and the third air blowing port 612 includes a third air blowing port a 6121 and a third air blowing port B6122 which are arranged left and right. The cold air output from the second air outlet a 6111 flows to the front through the back and left sides of the second storage area 120, and the cold air output from the second air outlet B6112 flows to the front through the back and right sides of the second storage area 120. The cold air output from the third air outlet a 6121 flows to the front through the back and left side of the third storage area 130, and the cold air output from the third air outlet B6122 flows to the front through the back and right side of the third storage area 130. The air supply outlet mode of arranging about avoids air conditioning to blow the beverage bottle directly to the front portion by the rear portion, reduces beverage bottle local temperature and undulant, is favorable to realizing the inside samming of gradevin, improves the storage environment of red wine, improves user and uses experience.

Further, in order to guide the airflow, air guide fins a (not shown) are respectively provided on the second air outlet a 6111 and the third air outlet a 6121, and are used for blowing the cold air output from the second air outlet a 6111 to the left side of the second storage area 120 and blowing the cold air output from the third air outlet a 6121 to the left side of the third storage area 130; air guide fins B (not shown) are provided in the second air outlet B6112 and the third air outlet B6122, respectively, for blowing the cold air output from the second air outlet B6112 to the right of the second storage area 120 and blowing the cold air output from the third air outlet B6122 to the right of the third storage area.

Further, the top of the air duct further has a fourth air supply outlet 521, and the cool air blown out from the fourth air supply outlet 521 flows from top to bottom through the front side surface inside the cabinet 200, and finally enters the first air return opening 613 and the second air return opening 621 under the suction effect of the first air return opening 613 and the second air return opening 621. Because the cool air output from the first, second and third air supply outlets 511, 611 and 612 flows from the back of the wine cabinet to the two sides, then flows to the front, sinks and flows back to the first and second air return openings 613 and 621, the temperature of the front of the wine cabinet is slightly higher than that of the back of the wine cabinet, and the temperature difference is compensated by the fourth air supply outlet 521, so as to further improve the temperature uniformity inside the wine cabinet.

The air duct may be an air supply structure completely independent of the cabinet body, or may be formed by matching an air duct cover plate installed in the cabinet body 200 with the inner wall of the cabinet body 200. Specifically, for example, an air duct cover is installed in the cabinet 200 to form an air duct, the cabinet 200 is provided with the air duct cover, the air duct is formed between the air duct cover and the inner wall of the cabinet 200, and the air duct cover 200 is provided with a first air supply outlet 511, a second air supply outlet 611, a third air supply outlet 612, a fourth air supply outlet 521, a first air return opening 613, and a second air return opening 621. Specifically, the air duct cover plate may be mounted to the inner wall of the cabinet 200 in a clamping manner. The evaporator 700 and the evaporation fan 800 are located between the cover plate of the air duct and the inner wall of the cabinet 200, and during air supply and air return of the air duct, cold air formed after heat exchange by the evaporator 700 is output from the first air supply outlet 511, the second air supply outlet 611, the third air supply outlet 612 and the fourth air supply outlet 521 under the action of the evaporation fan 800, and then flows back to the air duct from the first air return opening 613 and the second air return opening 621 located at the lower part to continuously exchange heat with the evaporator 700, so that the circulation flow of air is realized.

Further, in order to ensure that the air outlet of the air supply opening and the return air of the return air opening do not affect each other, the air duct cover plate includes an upper air duct cover plate 500 and a lower air duct cover plate 600, the upper air duct cover plate 500 is provided with a first air supply opening 511 and a fourth air supply opening 521, and the lower air duct cover plate 600 is provided with a second air supply opening 611, a third air supply opening 612, a first return air opening 613 and a second return air opening 621. An upper air supply channel 300 is formed between the upper air duct cover plate 500 and the inner wall of the cabinet body 200, and the first air supply outlet 511 and the fourth air supply outlet 521 are respectively communicated with the upper air supply channel 300; a left air supply channel 410 and a right air supply channel 420 are formed between the lower air duct cover plate 600 and the inner wall of the cabinet body 200, a second air supply outlet A6111 and a third air supply outlet A6121 are communicated with the left air supply channel 410, and a second air supply outlet B6112 and a third air supply outlet B6122 are communicated with the right air supply channel 420.

The upper duct cover 500 includes a first vertical portion 510 and a horizontal portion 520, the first vertical portion 510 is provided with a first air supply outlet 511, the horizontal portion 520 is provided with a fourth air supply outlet 521, a vertical air supply channel 310 is formed between the first vertical portion 510 and the inner wall of the cabinet 200, a top horizontal air supply channel 320 is formed between the horizontal portion 520 and the inner wall of the cabinet 200, the first air supply outlet 511 is communicated with the vertical air supply channel 310, and the fourth air supply outlet 521 is communicated with the top horizontal air supply channel 320. The lower duct cover 600 includes a second vertical portion 610 and an arc portion 620, the second vertical portion 610 is provided with a second air supply outlet 611, a third air supply outlet 612 and a first air return opening 613, a left air supply channel 410 and a right air supply channel 420 are formed between the second vertical portion 610 and the inner wall of the cabinet 200, and a first air return channel 640 communicated with the first air return opening 613 is formed in the second vertical portion 610; a second return air passage 630 communicating with the second return air inlet 621 is formed between the arc portion 620 and the inner wall of the cabinet 200.

Specifically, referring to a side sectional view of the upper duct cover 500 shown in fig. 5, the upper duct cover 500 includes a first vertical portion 510 and a horizontal portion 520 connected to each other, both sides of the first vertical portion 510 have a burring structure, a plurality of first blowing ports 511 are sequentially arranged up and down in a height direction of the burring, each layer of the first storage area 110 corresponds to two first blowing ports 511, the first blowing port 511 on the left side horizontally blows air to the left side of the back of the first storage area 110, and the first blowing port 511 on the right side horizontally blows air to the right side of the back of the first storage area 110. The cold air after heat exchange by the evaporator 700 flows through the vertical air supply passage 310 and the top air supply passage 320 in sequence under the action of the evaporation fan 800, and is output from the first air supply outlet 511 and the fourth air supply outlet 521 respectively. Referring to a side view cross-sectional view of the lower duct cover 600 shown in fig. 6 and a front view cross-sectional view of the lower duct cover 600 shown in fig. 7, the lower duct cover 600 includes a second vertical portion 610 and an arc portion 620 connected to each other, a second air supply opening a 6111 is opened on the left side of the upper portion of the second vertical portion 610, a second air supply opening B6112 is opened on the right side, a third air supply opening a 6121 is opened on the left side of the lower portion of the second vertical portion 610, a third air supply opening B6122 is opened on the right side, and a first air return opening 613 is opened in the middle portion of the second vertical portion 610. A left air supply channel 410 and a right air supply channel 420 are formed between the second vertical portion 610 and the inner wall of the cabinet body 200, the second air supply outlet a 6111 and the third air supply outlet a 6121 are communicated with the left air supply channel 410, and the second air supply outlet B6112 and the third air supply outlet B6122 are communicated with the right air supply channel 420. A first return air passage 640 communicating with the first return air port 613 is formed in the second vertical portion 610. A second return air passage 630 communicating with the second return air inlet 621 is formed between the arc portion 620 and the inner wall of the cabinet 200.

The horizontal portion 520 is provided therein with a cold storage device 900, and the cold storage device 900 is fixedly mounted in the horizontal portion 520 by a fixing bracket (not shown). After the fan is started, the cold air blown out from the evaporator 700 is blown out again through the cold accumulation device 900, so that the cold accumulation device 900 is cooled to a lower temperature by the cold air in the air duct when the temperature-equalizing wine cabinet is in a normal refrigeration cycle process. Thus, when the temperature of the evaporator 700 rises during the shutdown defrosting of the even temperature wine cabinet, the wind blows over the surface of the cold accumulation device 900, due to the cold accumulation characteristic of the cold accumulation material, the wind blown out through the cold accumulation device 900 can still keep low temperature and then blows into the wine cabinet, so that the problem of temperature rising caused by the shutdown defrosting of the compressor is offset, and the uniformity of the temperature in the wine cabinet is further facilitated.

Further, an evaporation cavity (not labeled) is formed between the second vertical portion 610 and the inner wall of the cabinet 200, the evaporator 700 is disposed in the evaporation cavity, and the first return air channel 640 and the second return air channel 630 are respectively communicated with the bottom of the evaporation cavity, so that the air sucked from the first return air inlet 613 and the second return air inlet 621 enters the evaporator 700 for the next air flow circulation.

Further, a fan volute is arranged on the second vertical portion 610, the fan volute has an air inlet and three air outlets, the evaporation fan 800 is a centrifugal fan, the centrifugal fan is arranged in the fan volute, the air inlet of the fan volute is communicated with the upper portion of the evaporation cavity, a first air outlet of the fan volute is communicated with the vertical air supply channel 310, a second air outlet of the fan volute is communicated with the left air supply channel 410, and a third air outlet of the fan volute is communicated with the right air supply channel 420. The cold air exchanged heat by the evaporator 700 flows into the vertical air supply channel 310, the left air supply channel 410 and the right air supply channel 420 respectively and simultaneously, so that the air supply efficiency and the wine cabinet refrigeration efficiency are improved.

Further, a plurality of protruding support ribs (not shown) are arranged at the bottom of the cabinet 200, a bottom ventilation channel is formed between two adjacent support ribs, the bottom ventilation channel is communicated with the second air return opening 621, and cold air flowing down from the front portion of the third storage area 130 flows back to the second air return opening 621 through the bottom ventilation channel, so that air returns from the bottom of the third storage area 130 conveniently.

In the method for controlling a wine cabinet with uniform temperature according to this embodiment, the cold air in the wind channel, which is heat exchanged by the evaporator 700, is driven by the evaporator fan 800 to pass through the first air supply opening 511, the second air supply opening 611, the third air supply opening 612 and the fourth air supply opening 521 respectively, wherein the cold air output from the first air supply opening 511 enters the first air return opening 613 and the second air return opening 621 via the two sides of the back, the two sides and the front of each layer of the first storage area 110, the cold air output from the second air supply opening 611 enters the first air return opening 613 and the second air return opening 621 via the back, the two sides and the front of the second storage area 120, the cold air output from the third air supply opening 612 enters the first air return opening 613 and the second air return opening 621 via the back, the two sides, the front and the bottom of the third storage area 130, and the cold air output from the fourth air supply opening 521 sequentially passes through the front, the front of the first storage area 110, the second, The front of the second storage area 120 and the front of the third storage area 130 enter the first and second return air openings 613 and 621.

Specifically, the cold air output by the first air supply outlet 511 will flow transversely around the first storage area 110, the cold air output by the second air supply outlet 611 will flow transversely around the second storage area 120, and the cold air output by the third air supply outlet 612 will flow transversely around the third storage area 130, so that the cold air is prevented from directly blowing the wine bottles from the back to the front, the local temperature fluctuation of the wine bottles is reduced, the internal temperature equalization of the wine cabinet is facilitated, the storage environment of the red wine is improved, and the use experience of a user is improved.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (14)

1. A samming gradevin, includes the cabinet body and establishes the wind channel in the cabinet body, it has a plurality of first storage area, second storage area and the third storage area that are used for placing red wine to arrange from top to bottom along its direction of height in the cabinet body, be equipped with evaporating fan and evaporimeter in the wind channel, its characterized in that, the upper portion left and right sides in wind channel have to each layer first storage area left and right horizontal direction air supply's first supply-air outlet, to the second storage area second supply-air outlet and to the third storage area air supply's third supply-air outlet, the wind channel still has confession first storage area, the second storage area and the first return air inlet and the second return air inlet of third storage area return air.

2. A spirit cabinet according to claim 1 wherein the first return air opening is located between the second supply air opening and the third supply air opening, the second return air opening being located below the third supply air opening.

3. The temperature equalizing wine cabinet of claim 2, wherein a fourth air supply outlet is further formed at the top of the air duct, and cold air blown from the fourth air supply outlet flows from top to bottom through the front side surface of the interior of the cabinet body.

4. A samming wine cabinet as claimed in claim 3, wherein the second air supply outlet comprises a second air supply outlet a and a second air supply outlet B arranged left and right, and the third air supply outlet comprises a third air supply outlet a and a third air supply outlet B arranged left and right.

5. The temperature equalizing wine cabinet according to claim 4, wherein air guide pieces A are respectively provided on the second air supply opening A and the third air supply opening A, and are used for blowing cold air output from the second air supply opening A to the left side of the second storage area and blowing cold air output from the third air supply opening A to the left side of the third storage area; the second air supply port B and the third air supply port B are respectively provided with an air guide piece B for blowing cold air output from the second air supply port B to the right side of the second storage area and blowing cold air output from the third air supply port B to the right side of the third storage area.

6. The temperature-equalizing wine cabinet of claim 4, wherein an air duct cover plate is arranged in the cabinet body, the air duct is formed between the air duct cover plate and the inner wall of the cabinet body, and the air duct cover plate is provided with the first air supply outlet, the second air supply outlet, the third air supply outlet, the fourth air supply outlet, the first air return opening and the second air return opening.

7. The temperature-equalizing wine cabinet of claim 6, wherein the air duct cover plate comprises an upper air duct cover plate and a lower air duct cover plate, the upper air duct cover plate is provided with the first air supply outlet and the fourth air supply outlet, and the lower air duct cover plate is provided with the second air supply outlet, the third air supply outlet, the first air return opening and the second air return opening; an upper air supply channel is formed between the upper air duct cover plate and the inner wall of the cabinet body, and the first air supply outlet and the fourth air supply outlet are respectively communicated with the upper air supply channel; and a left air supply channel and a right air supply channel are formed between the lower air duct cover plate and the inner wall of the cabinet body, the second air supply outlet A and the third air supply outlet A are communicated with the left air supply channel, and the second air supply outlet B and the third air supply outlet B are communicated with the right air supply channel.

8. The samming wine cabinet of claim 7, wherein the upper duct cover comprises a first vertical portion and a horizontal portion, the first vertical portion has the first air supply opening, the horizontal portion has the fourth air supply opening, a vertical air supply channel is formed between the first vertical portion and the inner wall of the cabinet body, a top horizontal air supply channel is formed between the horizontal portion and the inner wall of the cabinet body, the first air supply opening is communicated with the vertical air supply channel, and the fourth air supply opening is communicated with the top horizontal air supply channel.

9. The temperature equalizing wine cabinet of claim 8, wherein a cold storage device is disposed in the horizontal portion.

10. The temperature-equalizing wine cabinet of claim 8, wherein the lower duct cover plate comprises a second vertical portion and an arc portion, the second vertical portion is provided with the second air supply outlet, the third air supply outlet and the first air return opening, the left air supply channel and the right air supply channel are formed between the second vertical portion and the inner wall of the cabinet body, and the first air return channel communicated with the first air return opening is formed in the second vertical portion; and a second air return channel communicated with the second air return inlet is formed between the arc-shaped part and the inner wall of the cabinet body.

11. The temperature equalizing wine cabinet of claim 10, wherein an evaporation cavity is formed between the second vertical portion and the inner wall of the cabinet body, the evaporator is arranged in the evaporation cavity, and the first air return channel and the second air return channel are respectively communicated with the bottom of the evaporation cavity.

12. The temperature equalizing wine cabinet of claim 11, wherein a fan volute is disposed on the second vertical portion, the fan volute has an air inlet and three air outlets, the evaporation fan is a centrifugal fan, the centrifugal fan is disposed in the fan volute, the air inlet of the fan volute is communicated with the upper portion of the evaporation cavity, the first air outlet of the fan volute is communicated with the vertical air supply channel, the second air outlet of the fan volute is communicated with the left air supply channel, and the third air outlet of the fan volute is communicated with the right air supply channel.

13. A spirit cabinet according to any one of claims 1 to 12 wherein the bottom of the cabinet body is provided with a plurality of raised support ribs, and a bottom ventilation channel is formed between two adjacent support ribs.

14. A control method for a samming wine cellar as claimed in any one of claims 3-13, wherein the cool air exchanged heat from the evaporator in the air passage is driven by the evaporator fan to be output through the first air supply opening, the second air supply opening, the third air supply opening and the fourth air supply opening, wherein the cool air output from the first air supply opening is downwardly supplied into the first air return opening and the second air return opening through both sides of the back, both sides and the front of the first storage area of each layer of the first storage area, the cool air output from the second air supply opening is downwardly supplied into the first air return opening and the second air return opening through the back, both sides and the front of the second storage area, the cool air output from the third air supply opening is supplied into the first air return opening and the second air return opening through the back, both sides, the front and the bottom of the third storage area, and the cool air output from the fourth air supply opening is sequentially supplied into the front of the first storage area, The front part of the second storage area and the front part of the third storage area enter the first air return opening and the second air return opening.

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