CN216924872U - Refrigerator with a door - Google Patents

Abstract

The utility model provides a refrigerator, which comprises a shell and a refrigerating chamber, wherein the refrigerating chamber is positioned in the shell and is provided with an inner container, an opening is formed in the front side of the refrigerating inner container, and a door body is arranged at the opening; the refrigerator air supply air duct comprises a refrigerator inner container, an air duct plate and an air guide component, wherein the refrigerator inner container is arranged in the refrigerator inner container; the position of the air guide component on the air guide air duct is adjusted to conduct different positions of the air guide air duct, so that cooling air flows to one side of the opening from different air outlets. Independent air supply near the door body of the refrigerating chamber is realized, the cooling rate near the door body is improved, and the temperature control uniformity of the refrigerating chamber is improved. Meanwhile, when the refrigerating chamber is opened, air is discharged from the top air opening to form a cooling air curtain, the cold quantity of the refrigerating chamber is isolated, and the temperature fluctuation after the door of the refrigerating chamber is opened and closed is reduced.

Description

Refrigerator

Technical Field

The utility model belongs to the technical field of refrigerators, and particularly relates to a refrigerator.

Background

In the related art, for refrigerator products, the air port position of the refrigerating chamber of the air-cooled refrigerator influences the flow field distribution in the refrigerating chamber, and further influences the temperature distribution in the refrigerating chamber. When the refrigerator is in a door-closing refrigeration state, the refrigeration air duct and the air outlet of the traditional refrigerator are positioned at the back (rear part) of the refrigeration chamber and are far away from the door body, the air speed is greatly reduced when cooling air blown out from the air inlet at the back reaches the position close to the door body, especially when storage articles are fully placed on each layer of the refrigeration chamber, the storage articles block the cooling air blown to the accessories of the door body from the air inlet at the back, the refrigeration speed near the door body (such as a door shelf) is greatly influenced, and the temperature control uniformity of the whole refrigeration chamber is also influenced. Meanwhile, the leakage of part of cold quantity can be caused at the position of a sealing strip (door seal) on the door body, so that the temperature of the door body accessory is higher than that of other areas, and the refrigeration effect needs to be enhanced. After the door of the refrigerator is opened, the air outlet at the back of the traditional refrigerator stops blowing, and the temperature of the refrigerating chamber rises due to the fact that hot air in the convection action environment can enter the refrigerating chamber of the refrigerator and is mixed with cold air in the refrigerating chamber, so that the temperature in the refrigerating chamber is greatly fluctuated, and the fresh-keeping effect of food is influenced.

The utility model is provided in view of the above.

SUMMERY OF THE UTILITY MODEL

The utility model provides a refrigerator aiming at the technical problems.

In order to achieve the purpose, the utility model adopts the technical scheme that:

a refrigerator, comprising:

a housing;

the refrigerating chamber is positioned in the shell and provided with a refrigerating liner, an opening is formed in the front side of the refrigerating liner, and a door body is arranged at the opening;

the air duct plate is arranged inside the refrigerating inner container;

the air guide duct is arranged on the duct plate, a first air inlet is formed at one side of the air guide duct close to the refrigerating air supply duct, the first air inlet is communicated with the refrigerating air supply duct, and a plurality of air outlets are formed at one side of the air guide duct close to the door body;

and the air guide component is arranged in the air guide duct, and the different positions of the air guide duct are communicated by adjusting the position of the air guide component in the air guide duct, so that cooling air flows to one side of the opening from different air outlets.

Optionally, the air guide duct includes a first air guide duct disposed at the top of the refrigerating liner, the first air guide duct forms at least one first air outlet at a position of the duct plate close to the opening, when the door is closed, the air guide part is located at the first position, the first air guide duct is communicated with the first air inlet, and the cooling air flows into the refrigerating chamber through the first air outlet.

Optionally, the door body further comprises at least one third air guide duct arranged on the side of the opening, the third air guide duct comprises a second air inlet and a plurality of third air outlets, the second air inlet is communicated with the first air outlet, the third air outlets are communicated with the refrigerating chamber, when the door body is closed, the air guide part is located at the first position, and cooling air flows to the refrigerating chamber from the third air outlets through the first air guide duct.

Optionally, the air guide duct further includes a second air guide duct disposed at the top of the refrigerating liner, a second air outlet is disposed on a side of the second air guide duct close to the opening, when the door body is opened and the air guide part is located at the second position, the second air guide duct is communicated with the first air inlet, and the cooling air flows into the refrigerating chamber through the second air outlet.

Optionally, the second air outlet is arranged along the top edge of the opening, when the door body is opened, the air guide part is located at the second position, and cooling air flows to the opening from the second air outlet through the second air guide duct. An air curtain from top to bottom is formed at the door of the refrigerating chamber, so that heat exchange between the refrigerating chamber and the external environment after the door is opened is isolated, the temperature control uniformity of the refrigerating chamber is improved, and temperature fluctuation after the door of the refrigerating chamber is opened and closed is also reduced.

Optionally, the air conditioner further includes a driving component, which is disposed on the air duct plate and connected to the air guiding component, and the driving component drives the air guiding component to move in the air guiding duct, so as to achieve conduction of the first air guiding duct or the second air guiding duct, and enable the cooling air to flow out from the corresponding air outlet.

Optionally, the driving part comprises:

the stepping motor is arranged on the air duct plate;

the screw rod is connected with the stepping motor, the screw rod is connected with the air guide part, and the stepping motor drives the air guide part to move through the screw rod, so that the first air guide air duct or the second air guide air duct is communicated.

Optionally, the wind guide part includes:

the first air guide part blocks one air inlet of the first air guide duct when the door body is closed;

the first air vent is connected with the first air guide part, and is communicated with one air inlet of the first air guide duct when the door body is opened, and is communicated with one air inlet of the second air guide duct when the door body is closed;

the second air guide part blocks the other air inlet of the first air guide duct when the door body is closed;

the second air vent is connected with the second air guide part, when the door body is opened, the first air vent is communicated with the other air inlet of the first air guide duct, and when the door body is closed, the first air vent is communicated with the other air inlet of the second air guide duct;

the third air guiding part is arranged between the first air vent and the second air vent and is connected with the driving part, and when the door body is closed, the third air guiding part blocks the first air inlet and the second air guiding air channel;

and the third air vent is arranged between the first air guide part and the second air guide part and communicated with the first air inlet.

Optionally, the third air guiding duct is formed by connecting a duct main body and a cover plate, a second air inlet is formed at one side of the third air guiding duct close to the first air outlet, and a plurality of third air outlets are arranged on the cover plate.

Optionally, the air duct plate is provided with a mounting position for accommodating the driving component and the air guiding component.

Compared with the related technology, the utility model has the advantages and positive effects that:

the utility model provides a refrigerator, which comprises a shell and a refrigerating chamber, wherein the refrigerating chamber is positioned in the shell and is provided with an inner container, an opening is formed in the front side of the refrigerating inner container, and a door body is arranged at the opening; the refrigerator air supply air duct comprises a refrigerator inner container, an air duct plate and an air guide component, wherein the refrigerator inner container is arranged in the refrigerator inner container; the position of the air guide component on the air guide air duct is adjusted to conduct different positions of the air guide air duct, so that cooling air flows to one side of the opening from different air outlets. The independent air supply to the vicinity of the refrigerating chamber door body is realized, the cooling rate of the vicinity of the door body is improved, and the temperature control uniformity of the refrigerating chamber is improved. Meanwhile, when the refrigerating chamber is opened, air is discharged from the top air opening to form a cooling air curtain, the cold quantity of the refrigerating chamber is isolated, and the temperature fluctuation after the door of the refrigerating chamber is opened and closed is reduced.

Drawings

FIG. 1 is a schematic view of a portion of a refrigerator according to the present invention;

FIG. 2 is a partial exploded view of the fresh food compartment of the refrigerator of the present invention;

FIG. 3 is a schematic view of an assembly structure of the air guide duct and the air guide component when the door body is closed;

FIG. 4 is a schematic view of an assembly structure of the air guide duct and the air guide component when the door body is opened according to the present invention;

fig. 5 is a schematic structural view of a third air guiding duct according to the present invention;

FIG. 6 is a schematic view of the cover plate according to the present invention;

FIG. 7 is a schematic structural view of the main body of the air duct of the present invention;

FIG. 8 is a first schematic view of an air guiding assembly according to the present invention;

FIG. 9 is a second schematic structural view of an air guiding assembly according to the present invention;

FIG. 10 is a first schematic structural view of the air duct board of the present invention;

fig. 11 is a second structural schematic view of the air duct board of the present invention.

In the above figures:

a refrigerated liner 20; an opening 21; an air duct plate 23;

the first air intake 31; a wind guide member 4; a first air guiding duct 32; first air outlet 33

A third air guide duct 5; the second air intake 51; a third air outlet 52; a duct main body 53; a cover plate 54;

a second air guiding duct 34; and a second air outlet 35.

A stepping motor 61; a screw 62; a fixed seat 63;

a first air guiding portion 41; a first ventilation opening 42; a second air guiding portion 43; a second ventilation opening 44; a third air guiding portion 45; a third vent opening 46; a screw hole 47;

Detailed Description

The present invention is further described below in conjunction with specific examples to enable those skilled in the art to better understand the present invention and to practice it, but the scope of the present invention as claimed is not limited to the scope described in the specific embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

It should be noted that all directional indicators (such as up, down, left, right, front, and back) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature.

In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 11, a refrigerator includes an insulated cabinet defining a plurality of insulated storage compartments for storing foods and the like, and having an opening 21 at a front end thereof. In the present embodiment, the storage compartments are a refrigerating compartment located at the upper portion and a freezing compartment located at the bottom portion, respectively; wherein, the refrigerating chamber is provided with a refrigerating inner container 20, and the freezing chamber is provided with a freezing inner container. Openings 21 are formed at the front ends of the refrigerating chamber and the freezing chamber, a door body (not shown in the figure) is further arranged at the opening 21, and a refrigerating air supply duct communicated with the refrigerating chamber through a refrigerating air supply outlet is arranged at the rear side of the refrigerating chamber.

Referring to fig. 2, the refrigerating chamber includes an air duct plate 23 disposed in the refrigerating liner 20, an air guiding duct is disposed on the air duct plate 23, a first air inlet 31 is formed at one side of the air guiding duct close to the refrigerating air supply duct, the first air inlet 31 is communicated with the refrigerating air supply duct, and a plurality of air outlets are formed at one side of the air guiding duct close to the door body; the air guide duct is internally provided with an air guide component 4, and different positions of the air guide duct are communicated by adjusting the position of the air guide component 4 in the air guide duct, so that cooling air flows to one side of the opening 21 from different air outlets. Specifically, the air duct plate 23 is fixedly installed at the top of the refrigerating chamber liner through screws, and the plurality of air outlets are arranged around the opening 21 to supply air to different positions around the door so as to meet the refrigerating requirements of the refrigerating chamber during opening and closing the door under different conditions.

Above setting up, the effectual wind channel structure and the air outlet of having solved current refrigerator arrange and can't carry out air supply alone to door body annex, lead to door body annex cooling rate low, and walk-in temperature homogeneity is poor, can carry out the pertinence air supply to each part near the door body through the setting to the air outlet position.

In some embodiments of the present application, referring to fig. 3 to 4, the wind guiding duct includes a first wind guiding duct 32 disposed at the top of the refrigerating liner 20, the first wind guiding duct 32 forms at least one first wind outlet 33 at a position of the duct plate 23 close to the opening 21, when the wind guiding member 4 is located at the first position, the first wind guiding duct 32 is communicated with the first wind inlet 31, and the cooling wind flows into the refrigerating chamber through the first wind outlet 33. Specifically, the first air guiding duct 32 is formed inside the air duct plate 23, two first air outlets 33 are formed at positions of the air duct plate 23 close to the opening 21, the two first air outlets are specifically arranged at positions close to the opening 21 on two sides of the air duct plate 23, two sub-ducts in the first air guiding duct 32 are arc-shaped ducts, air flowing resistance is reduced, and the first air inlet 31, the first air outlet 33 on the left side and the first air outlet 33 on the right side are respectively communicated. The cooling air in the first air guiding duct 32 flows in from the first air inlet 31, then flows into the two sub-ducts, and flows out through the first air outlets 33 on both sides.

It should be noted that, the first position refers to a position of the air guiding component 4 when the door body is closed, at this time, the air guiding component 4 conducts the first air inlet 31 and the first air guiding duct 32, and blocks the first air inlet 31 and the second air guiding duct 34; the second position refers to a position of the air guide part 4 when the door body is opened, and at this time, the air guide part 4 blocks the first air inlet 31 and the first air guide duct 32 and conducts the first air inlet 31 and the second air guide duct 34.

In some embodiments of the present application, referring to fig. 5, the refrigerator further includes at least one third wind guiding duct 5 disposed at a side of the opening 21, the third wind guiding duct 5 includes a second wind inlet 51 and a plurality of third wind outlets 52, the second wind inlet 51 is communicated with the first wind outlet 33, the third wind outlets 52 are communicated with the refrigerating chamber, when the door body is closed, the wind guiding part 4 is in the first position, and the cooling wind passes through the first wind guiding duct 32 and flows from the third wind outlets 52 to the refrigerating chamber. Specifically, two third air guiding ducts 5 are arranged and are respectively arranged on the left side and the right side of the refrigerating liner 20, wherein the second air inlet 51 of the left third air guiding duct 5 corresponds to the left first air outlet 33, and the second air inlet 51 of the right third air guiding duct 5 corresponds to the right first air outlet 33, so that cooling air from the first air guiding duct 32 respectively enters the left third air guiding duct 5 and the right third air guiding duct 5 through the left first air outlet 33 and the right first air outlet 33 and is blown into the refrigerating chamber through the air outlets of the third air guiding duct 5, and side air outlet is realized; further, the position of the third outlet 52 may correspond to each storage area in the refrigerating compartment.

In some embodiments, the position and ventilation area of the third air outlet 52 may be set to be adjustable to achieve accurate air supply in the refrigerating chamber.

In some embodiments of the present application, referring to fig. 3 to 4, the air guiding duct further includes a second air guiding duct 34 disposed at the top of the refrigerating liner 20, a second air outlet 35 is disposed at a side of the second air guiding duct 34 close to the opening 21, when the air guiding part 4 is located at the second position, the second air guiding duct 34 is communicated with the first air inlet 31, and the cooling air flows into the refrigerating chamber through the second air outlet 35. Specifically, the second air guiding duct 34 is disposed inside the first air guiding duct 32, a connecting portion is disposed between the first air guiding duct 32 and the second air guiding duct 34, the second air guiding duct 34 forms a semicircular-like duct on a side away from the opening 21, a second air outlet 35 is formed on a side close to the opening 21, and cooling air of the second air guiding duct 34 flows into the vicinity of the opening 21 of the refrigerating chamber through the second air outlet 35.

Specifically, the second air outlet 35 is disposed along the top edge of the opening 21, when the door body is opened, the air guiding part 4 is located at the second position, and the cooling air flows from the second air outlet 35 to the opening 21 through the second air guiding duct 34. An air curtain from top to bottom is formed at the door of the refrigerating chamber, heat exchange between the refrigerating chamber and the external environment after the door is opened is isolated, the temperature control uniformity of the refrigerating chamber is improved, and the temperature fluctuation problem after the door of the refrigerating chamber is opened and closed is greatly improved.

In some embodiments of the present application, referring to fig. 8-9, the wind-guiding component 4 comprises a first wind-guiding portion 41, a first ventilation opening 42, a second wind-guiding portion 43, a second ventilation opening 44, a third wind-guiding portion 45, and a third ventilation opening 46, wherein:

when the door body is closed, the first air guiding part 41 blocks one air inlet of the first air guiding duct 32; the first air vent 42 is connected with the first air guiding part 41, when the door body is opened, the first air vent 42 is communicated with one air inlet of the first air guiding duct 32, and when the door body is closed, the first air vent 42 is communicated with one air inlet of the second air guiding duct 34; when the door body is closed, the second air guiding part 43 blocks the other air inlet of the first air guiding duct 32; the second air vent 44 is connected with the second air guiding part 43, when the door body is opened, the first air vent 42 is communicated with the other air inlet of the first air guiding duct 32, and when the door body is closed, the first air vent 42 is communicated with the other air inlet of the second air guiding duct 34; the third air guiding part 45 is arranged between the first air vent 42 and the second air vent 44 and connected with the driving part, and when the door body is closed, the third air guiding part 45 blocks the first air inlet 31 and the second air guiding duct 34; specifically, a penetrating screw hole 47 is formed in the middle of the third air guiding portion 45, and the third air guiding portion 45 is sleeved on the driving component through the screw hole 47. The third air inlet 46 is disposed between the first air guiding portion 41 and the second air guiding portion 43, and the third air inlet 46 is communicated with the first air inlet 31.

Specifically, the first air guiding portion 41 and the second air guiding portion 43 include a shielding portion and a curved portion, the shielding portion is used for contacting with the air inlets of the first air guiding duct 32 and the second air guiding duct 34 to shield the corresponding air inlets, the moving direction of the air guiding component 4 is used as the length, the length of the shielding portion needs to be slightly longer than the length of the air inlet to be shielded, but is shorter than the sum of the lengths of the air inlet of the first air guiding duct 32 and the connecting portion of the first air guiding duct 32 and the second air guiding duct 34, so that the air inlet area of the air inlet is prevented from being shielded, and the air supply efficiency is prevented from being affected.

In some embodiments of the present application, the refrigerator further includes a driving component, which is disposed on the air duct plate 23, the driving component is connected to the air guiding component 4, and the driving component drives the air guiding component 4 to move in the air guiding duct, so as to achieve the conduction of the first air guiding duct 32 or the second air guiding duct 34, and make the cooling air flow out from the corresponding air outlet.

The driving means are further provided as a stepping motor 61 and a screw 62, wherein: the stepping motor 61 is arranged on the air duct plate 23; the screw 62 is connected with the stepping motor 61, and the screw 62 is connected with the air guide part 4, and the stepping motor 61 drives the air guide part 4 to move through the screw 62, so as to realize the conduction of the first air guide duct 32 or the second air guide duct 34. Specifically, the third air guiding portion 45 of the air guiding component 4 is sleeved on the screw rod 62, the screw rod 62 is installed on the air duct plate 23 through the fixing seat 63, and the third air guiding portion 45 moves along the screw rod 62, so that the whole air guiding component 4 is driven to move to conduct different air inlets.

In some embodiments of the present application, referring to fig. 5 to 7, the third wind guiding duct 5 is formed by connecting a duct main body 53 and a cover plate 54, and a second wind inlet 51 is formed on one side of the third wind guiding duct 5 close to the first wind outlet 33, and a plurality of third wind outlets 52 are disposed on the cover plate 54. Specifically, the cover plate 54 is provided with three third air outlets 52, two sides of the cover plate 54 are provided with a plurality of mounting fasteners, the air duct main body 53 is provided with an accommodating space inside for cooling air to circulate, corresponding positions on the side wall of the air duct main body 53 are provided with a plurality of mounting holes, and when the air duct main body 53 and the cover plate 54 are mounted, the mounting fasteners are respectively mounted in the corresponding mounting holes.

In some embodiments of the present application, referring to fig. 10-11, the duct board 23 is provided with mounting locations for receiving the driving component and the wind guiding component 4. Specifically, the air duct plate 23 is provided with a plurality of grooves to form a first air inlet 31, a first air guiding duct 32 and a second air guiding duct 34, the middle of the air duct plate 23 is provided with a rectangular space installation position, the driving part and the air guiding part 4 are installed in the installation part, the driving part drives the air guiding part 4 to move in the installation part, and the refrigeration requirement during door opening and closing is achieved.

It should be noted that the refrigerator has two operation modes:

1. when the refrigerator refrigerating chamber door body is in a closed state, the stepping motor 61 drives the screw rod 62 to rotate, and further drives the air guide part 4 to move to the position shown in fig. 3, at the moment, the first air guide duct is opened, and the second air guide duct 34 is closed. The cooling air flowing in from the first air inlet 31 enters the first air guide duct, flows through the left third air outlet 52 and the right third air outlet 52, respectively enters the left third air guide duct 5 and the right third air guide duct 5, and finally blows towards the door shelf through the left and right third air outlets 52, so that the cooling rate near the door shelf is improved;

2. after the door body of the refrigerating chamber of the refrigerator is opened, the refrigerating chamber cooling fan keeps running, the stepping motor 61 drives the screw 62 to rotate, the air guide part 4 is further driven to move to the position shown in fig. 4, the second air guide duct 34 is opened, and the first air guide duct is closed. The cooling air flowing in from the first air inlet 31 enters the second air guiding duct 34 and is blown to the refrigerating chamber through the second air outlet 35, an air curtain from top to bottom is formed at the door opening of the refrigerating chamber, heat exchange between the refrigerating chamber and the external environment after the door is opened is isolated, the temperature control uniformity of the refrigerating chamber is improved, and temperature fluctuation after the door of the refrigerating chamber is opened and closed is also reduced.

In summary, in the present invention, the air duct plate 23 is fixed to the top of the refrigerating chamber liner to form an air duct. The air duct plate 23 is provided with a first air duct 32 and a second air duct 34, and is provided with an air guiding component 4. The stepping motor 61 rotates to drive the screw 62 to move, and the air guide part 4 is driven by the screw 62 to move back and forth, so that the opening and closing states of the first air guide duct 32 and the second air guide duct 34 are controlled. The refrigerator back refrigeration air supply duct is provided with a top air outlet, part of cooling air flows out of the top air outlet of the back refrigeration air supply duct and then flows into the air guide duct from the first air inlet 31, enters the first air guide duct 32 or the second air guide duct 34 through the flow guide effect of the air guide part 4 and further flows out of the corresponding air outlet.

According to the utility model, the independent air supply is carried out near the door body of the refrigerating chamber, the cooling rate near the door body is improved, the temperature control uniformity of the refrigerating chamber is improved, and the problems that a refrigerating blind area exists near the door body (such as a door shelf) of the refrigerating chamber in the related technology, the cooling rate is slow, and the temperature control uniformity of the refrigerating chamber is poor are solved; meanwhile, when the refrigerating chamber is opened, air is discharged from the top air opening to form a cooling air curtain, the cold quantity of the refrigerating chamber is isolated, and the temperature fluctuation after the door of the refrigerating chamber is opened and closed is reduced.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (10)

1. A refrigerator, characterized by comprising:

a housing;

the refrigerating chamber is positioned in the shell and provided with a refrigerating inner container, an opening is formed in the front side of the refrigerating inner container, and a door body is arranged at the opening;

the air duct plate is arranged inside the refrigerating inner container;

the air guide duct is arranged on the duct plate, a first air inlet is formed at one side of the air guide duct close to the refrigerating air supply duct, the first air inlet is communicated with the refrigerating air supply duct, and a plurality of air outlets are formed at one side of the air guide duct close to the door body;

and the air guide component is arranged in the air guide air duct, and different positions of the air guide air duct are communicated by adjusting the position of the air guide component in the air guide air duct, so that cooling air flows to one side of the opening from different air outlets.

2. The refrigerator as claimed in claim 1, wherein the air guiding duct includes a first air guiding duct disposed at a top of the refrigerating inner container, the first air guiding duct forms at least one first air outlet at a position of the duct plate close to the opening, when the door is closed and the air guiding member is located at the first position, the first air guiding duct is communicated with the first air inlet, and the cooling air flows into the refrigerating chamber through the first air outlet.

3. The refrigerator as claimed in claim 2, further comprising at least a third wind guiding duct disposed at a side of the opening, wherein the third wind guiding duct includes a second wind inlet and a plurality of third wind outlets, the second wind inlet is communicated with the first wind outlet, the third wind outlets are communicated with the refrigerating compartment, when the door is closed, the wind guiding member is in the first position, and the cooling wind passes through the first wind guiding duct and flows from the third wind outlets to the refrigerating compartment.

4. The refrigerator as claimed in claim 2, wherein the air guiding duct further includes a second air guiding duct disposed at a top of the refrigerating inner container, a second air outlet is disposed at a side of the second air guiding duct close to the opening, when the door is opened, the air guiding member is located at a second position, the second air guiding duct is communicated with the first air inlet, and the cooling air flows into the refrigerating chamber through the second air outlet.

5. The refrigerator as claimed in claim 4, wherein the second air outlet is disposed along a top edge of the opening, when the door is opened, the air guiding member is at the second position, and the cooling air passes through the second air guiding duct and flows from the second air outlet to the opening.

6. The refrigerator as claimed in claim 4, further comprising a driving member disposed on the air duct plate and connected to the air guiding member, wherein the driving member drives the air guiding member to move in the air guiding duct, so as to conduct the first air guiding duct or the second air guiding duct, and allow the cooling air to flow out from the corresponding air outlet.

7. The refrigerator according to claim 6, wherein the driving part comprises:

the stepping motor is arranged on the air duct plate;

the screw rod is connected with the stepping motor, the screw rod is connected with the air guide component, and the stepping motor drives the air guide component to move through the screw rod so as to realize the conduction of the first air guide duct or the second air guide duct.

8. The refrigerator of claim 6, wherein the air guide part comprises:

the first air guiding part blocks one air inlet of the first air guiding duct when the door body is closed;

the first air vent is connected with the first air guide part, when the door body is opened, the first air vent is communicated with one air inlet of the first air guide air channel, and when the door body is closed, the first air vent is communicated with one air inlet of the second air guide air channel;

the second air guiding part blocks the other air inlet of the first air guiding duct when the door body is closed;

the second air vent is connected with the second air guide part, when the door body is opened, the first air vent is communicated with the other air inlet of the first air guide duct, and when the door body is closed, the first air vent is communicated with the other air inlet of the second air guide duct;

the third air guiding part is arranged between the first air vent and the second air vent, is connected with the driving part and blocks the first air inlet and the second air guiding air duct when the door body is closed;

and the third air vent is arranged between the first air guide part and the second air guide part, and is communicated with the first air inlet.

9. The refrigerator as claimed in claim 3, wherein the third air guiding duct is formed by connecting a duct main body and a cover plate, the second air inlet is formed at a side of the third air guiding duct close to the first air outlet, and the cover plate is provided with a plurality of third air outlets.

10. The refrigerator as claimed in claim 6, wherein the duct plate is provided with a mounting position for receiving the driving member and the air guiding member.

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