CN213514584U

CN213514584U - Refrigerator with a door

Info

Publication number: CN213514584U
Application number: CN202022016263.5U
Authority: CN
Inventors: 吕鹏; 张�浩; 李佳明; 崔展鹏; 牟森
Original assignee: Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Current assignee: Qingdao Haier Refrigerator Co Ltd; Haier Smart Home Co Ltd
Priority date: 2020-09-15
Filing date: 2020-09-15
Publication date: 2021-06-22
Anticipated expiration: 2030-09-15

Abstract

The utility model provides a refrigerator, this refrigerator include the box, set up in the main door in the box outside, set up in the vice door in the main door outside, first magnet sets up in the region that box and main door are relative, and the second magnet sets up in the region that vice door and main door are relative, and the electromagnetism subassembly sets up in the main door, configures to controlled ground or operationally produce be used for with the magnetic attraction of first magnet actuation or with the magnetic attraction of second magnet actuation. The utility model discloses utilize the magnetic attraction effect to guarantee that the user is in the closed condition at the door body that the in-process need not open that opens the door to prevent to place article in first storing space or second storing space can not be taken over by inertia, improve user's use and experience and feel, but also can avoid the calorific loss of refrigerator, simple structure easily uses widely.

Description

Refrigerator with a door

Technical Field

The utility model relates to a cold-stored freezing technique especially relates to a refrigerator.

Background

Along with the continuous development of household electrical appliances technology, the folding door refrigerator appears in the market, and the main door and the auxiliary door are arranged outside the refrigerator, so that the storage space is defined in the main door, the user can store common articles conveniently, the frequency of opening the storage space of the refrigerator body by the user is reduced, and the heat loss of the refrigerator is further reduced.

In the prior art, in order to seal a gap between an inner door body and an outer door body, a magnetic sealing strip is generally adopted, so that a main door is adsorbed on a box body through the sealing strip in a door closing state, and an auxiliary door is adsorbed on the main door. However, in the using process, the situation that the auxiliary door is taken out when the main door is opened by a user or the main door is taken out when the auxiliary door is opened often occurs, and the using experience of the user is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome at least one defect among the prior art, provide a refrigerator.

A further object of the present invention is to provide a folding door refrigerator that prevents a user from dropping articles during the opening of a main door or a sub-door.

The utility model discloses another further purpose improves user's use and experiences and feel.

Particularly, the utility model provides a refrigerator, include:

a box body;

the main door is arranged on the outer side of the box body, and the auxiliary door is arranged on the outer side of the main door;

a first magnet disposed at a region of the cabinet opposite to the main door;

a second magnet disposed at a region of the sub door opposite to the main door;

and the electromagnetic assembly is arranged on the main door and is configured to controllably or operably generate magnetic attraction force for attracting with the first magnet or the second magnet.

Further, the electromagnetic assembly includes:

the first electromagnet is arranged on one side, facing the box body, of the main door;

the second electromagnet is arranged on one side, facing the auxiliary door, of the main door; and is

The first electromagnet and the second electromagnet are configured to be controlled to turn on the power of the second electromagnet to generate a magnetic attraction force attracting the second magnet so that the sub door is kept in a closed state, or to turn on the power of the first electromagnet to generate a magnetic attraction force attracting the first magnet so that the main door is kept in a closed state.

Further, the electromagnetic assembly further comprises:

the first control switch is electrically connected with the first electromagnet;

the second control switch is electrically connected with the second electromagnet; and is

The first control switch and the second control switch are configured to receive on-off instructions of a user so as to correspondingly control the on-off of a circuit where the first electromagnet is located and a circuit where the second electromagnet is located.

Further, the first control switch is arranged on the auxiliary door; and is

The second control switch is arranged on the main door.

Further, the electromagnetic assembly includes:

a third electromagnet disposed along a front-rear direction of the main door and configured to change magnetism of both ends of the third electromagnet by changing a direction of a current thereof; and is

The magnetism of the first magnet and the magnetism of the second magnet towards one side of the third electromagnet are the same, so that in the process of changing the current direction of the third electromagnet, a magnetic attraction force is always generated between the third electromagnet and the first magnet or between the third electromagnet and the second magnet.

Further, the electromagnetic assembly includes:

the first touch control unit is arranged on the main door and is configured to receive an instruction of a user for opening the main door;

the second touch unit is arranged on the auxiliary door and is configured to receive an instruction of a user for opening the auxiliary door;

a control unit electrically connected to the first touch unit and the second touch unit, respectively, and configured to:

receiving an instruction signal sent by the first touch unit, and controlling the current of the third electromagnet to flow in a first direction, wherein the third electromagnet generates a magnetic attraction force attracting the second magnet, so that when a user opens the main door, the auxiliary door is in a closed state under the action of the magnetic attraction force; or

And receiving an instruction signal sent by the second touch unit, controlling the current of the third electromagnet to flow in a direction opposite to the first direction, and generating magnetic attraction force attracting the first magnet by the third electromagnet so that the main door is in a closed state under the action of the magnetic attraction force when the auxiliary door is opened by a user.

Further, the main door is provided with a first handle, and the auxiliary door is provided with a second handle;

the first touch unit is arranged on the first handle, and the second touch unit is arranged on the second handle.

Further, a distance between the first handle and the second handle is not less than 3 cm.

Further, magnetic door seals are arranged in the region where the main door is opposite to the box body and the region where the main door is opposite to the auxiliary door, and the magnetic door seals are configured to be attracted with the box body and the auxiliary door by the magnetic door seals in the state that the third electromagnet is not electrified so as to seal gaps between the main door and the auxiliary door and between the main door and the box body.

Further, a first storage space is defined inside the box body, and the first storage space has a first opening toward the front, and the main door is pivotally connected to one side of the box body to open and close the first opening; and is

The main door further defines a second storage space therein, and the second storage space has a second opening facing forward, and the sub-door is pivotally coupled to one side of the main door to open and close the second opening.

The utility model discloses an in the refrigerator, because the box sets up first magnet with the relative region of main door, the region that vice door and main door are relative sets up the second magnet, set up electromagnetic component on the main door, therefore, before main door or vice door are opened in the desire of user, electromagnetic component can be activated, and can produce magnetic attraction, so that the door body that need not open is in the closed condition, in order to prevent to place article in first storing space or second storing space can not be taken over by inertia, improve user's use and experience and feel, and can also avoid the calorific loss of refrigerator.

Further, the utility model discloses an in the refrigerator, the main door sets up the third electro-magnet along the fore-and-aft direction, because first magnet and second magnet are the same towards the magnetism of third electro-magnet one side, therefore, after the third electro-magnet circular telegram, a magnetic attraction that attracts mutually with first magnet or second magnet must appear in the magnetic pole that produces on its iron core, another one then receives magnetic repulsion, utilize this magnetic attraction to make the door body that need not open be in the closed condition, utilize this magnetic repulsion can make the user open the door of wanting to open easily, improve user's experience and feel.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is an exploded view of a refrigerator according to an embodiment of the present invention;

fig. 2 is a sectional view of a refrigerator according to an embodiment of the present invention;

FIG. 3 is an enlarged view at A of FIG. 2;

fig. 4 is an enlarged view of fig. 2 at B.

Fig. 5 is an exploded view of a refrigerator according to another embodiment of the present invention;

fig. 6 is a sectional view of a refrigerator according to another embodiment of the present invention;

FIG. 7 is an enlarged view at C of FIG. 6;

fig. 8 is a block diagram illustrating an operation principle of a refrigerator according to another embodiment of the present invention;

fig. 9 is an enlarged view of fig. 6 at D.

Detailed Description

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "depth", and the like indicate the orientation or positional relationship based on the orientation of the storage device in the normal use state as a reference, and can be determined with reference to the orientation or positional relationship shown in the drawings, for example, "front" indicating the orientation refers to the side of the refrigerator facing the user. This is merely to facilitate the description of the invention and to simplify the description, and does not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be taken as limiting the invention.

Referring to fig. 1, a refrigerator 10 according to the present invention may include a cabinet 100, a main door 200, and a sub-door 300.

The cabinet 100 defines a first storage space 110 therein, the first storage space 110 having a first opening toward the front, and the main door 200 is pivotally coupled to an outer side of the cabinet 100 to open and close the first opening. The interior of the main door 200 may define a second storage space 210, the second storage space 210 having a second opening directed forward, and the sub-door 300 pivotally coupled to the outside of the main door 200 to open and close the second opening.

In the present embodiment, the first storage space 110 inside the box 100 and the second storage space 210 inside the main door 200 may be used for the user to store food, and the user may select to store articles in the first storage space 110 or the second storage space 210 according to the frequency of use or the volume of the articles. For example, a user can store some articles with high use frequency and small occupied space in the second storage space 210 and some articles with low use frequency and large occupied space in the first storage space 110, so that the user can be prevented from frequently opening the door body and reducing heat loss, and the first storage space 110 or the second storage space 210 can divide the storage area of the refrigerator 10, which is beneficial for the user to arrange the articles. In some preferred embodiments, the first storage space 110 may also be a refrigerating compartment of the refrigerator 10.

In this embodiment, the refrigerator 10 may further include a first magnet 120, a second magnet 310, and an electromagnetic assembly.

The first magnet 120 is disposed at a region of the case 100 opposite to the main door 200, the second magnet 310 is disposed at a region of the sub-door 300 opposite to the main door 200, and the electromagnetic assembly is disposed on the main door 200, and the electromagnetic assembly may be further configured to controllably or operatively generate a magnetic attraction force for attracting the first magnet 120 or the second magnet 310.

As described in the background art, in the prior art, in order to seal the gap between the inner and outer door bodies, a magnetic sealing strip is generally used to attach the main door to the cabinet through the sealing strip and attach the sub-door to the main door in the closed state. However, in the using process, the situation that the auxiliary door is taken out when the main door is opened by a user or the main door is taken out when the auxiliary door is opened often occurs, and the using experience of the user is influenced.

In order to overcome the above-mentioned drawbacks of the prior art, in the refrigerator 10 of the present embodiment, a first magnet 120 is provided in a region of the cabinet 100 opposite to the main door 200, a second magnet 310 is provided in a region of the sub-door 300 opposite to the main door 200, and an electromagnetic assembly is provided on the main door 200. When a user wants to open the main door 200 or the sub-door 300, the electromagnetic assembly can be activated and can generate magnetic attraction force, so that the door body which does not need to be opened is in a closed state. For example, before the user wants to open the main door 200, the electromagnetic assembly may generate a magnetic attraction force attracting the sub-door 300, so that the main door 200 and the sub-door 300 form a whole, and the sub-door 300 is not opened when the user opens the main door 200, so as to prevent the articles placed in the second storage space 210 from being taken out by inertia, thereby improving the user experience. For another example, before the user wants to open the sub-door 300, the electromagnetic assembly may generate a magnetic attraction force attracting the main door 200, so that the main door 200 and the cabinet 100 form a whole, and the user does not open the main door 200 in the process of opening the sub-door 300, which not only prevents the articles in the first storage space 110 from being carried out due to inertia, but also prevents heat loss of the refrigerator 10.

Referring to fig. 1-3, in some embodiments of the present disclosure, the electromagnetic assembly may further include a first electromagnet 220 and a second electromagnet 230. The first electromagnet 220 is disposed on a side of the main door 200 facing the cabinet 100, and the second electromagnet 230 is disposed on a side of the main door 200 facing the sub door 300.

Specifically, a mounting groove (not shown) facing the first magnet 120 is formed on a side of the main door 200 facing the cabinet 100, a mounting groove (not shown) facing the second magnet 310 is also formed on a side of the main door 200 facing the sub door 300, and the first and

second electromagnets

220 and 230 are respectively disposed in the mounting grooves.

Before the user wants to open the main door 200, the conducting wire of the second electromagnet 230 is energized, and the second electromagnet 230 and the second magnet 310 are attracted to each other, so that the sub door 300 keeps a closed state; before the user wants to open the sub-door 300, when the wire of the first electromagnet 220 is energized, the first electromagnet 220 is attracted to the first magnet 120, so that the main door 200 maintains a closed state.

In this embodiment, the current directions of the first electromagnet 220 and the second electromagnet 230 during energization may also be configured to be constant, so that the magnetic pole directions generated after energization of the first electromagnet 220 and the second electromagnet 230 are constant. For example, the first electromagnet 220 generates a magnetic pole with an N pole facing the first magnet 120 after being energized, and the magnetic poles of the first magnet 120 opposite to the first electromagnet 220 may be configured to be S pole to achieve mutual attraction after being energized.

Of course, the first electromagnet 220 may also be configured to generate an S-pole of the magnetic pole facing the first magnet 120 after being energized, and the first magnet 120 may be adjusted accordingly, which is not particularly limited in this application. The second electromagnet 230 is the same as the second magnet 310.

In alternative embodiments, the positions of the first magnet 120 and the first electromagnet 220 may be interchanged, and the positions of the second electromagnet 230 and the second magnet 310 may be interchanged. That is, the first magnet 120 and the second magnet 310 are disposed on the main door 200, and the first electromagnet 220 and the second electromagnet 230 are disposed on the box 100 and the sub door 300, respectively, so that the technical effects of the above embodiments can be achieved, and the details are not described herein.

Referring to fig. 4, the electromagnetic assembly may further include a first control switch 240 and a second control switch 250, the first control switch 240 is electrically connected to the first electromagnet 220, the second control switch 250 is electrically connected to the second electromagnet 230, and the first control switch 240 and the second control switch 250 are configured to receive an on-off command from a user to control on-off of a circuit where the first electromagnet 220 is located and a circuit where the second electromagnet 230 is located.

The first control switch 240 and the second control switch 250 may employ a push type switch. Before the user wants to open the main door 200, the second control switch 250 can be operated to close the circuit where the second electromagnet 230 is located, so that the conducting wire of the second electromagnet 230 is electrified; before the user wants to open the sub-door 300, the first control switch 240 is operated to close the circuit of the first electromagnet 220, so that the conducting wire of the first electromagnet 220 is energized.

In this embodiment, the first control switch 240 and the second control switch 250 may be further configured to automatically open the circuit of the first electromagnet 220 and the circuit of the second electromagnet 230 after a user operates the first control switch and the second control switch for a preset time.

For example, before the user wants to open the main door 200, the second control switch 250 is pressed, the conducting wire of the second electromagnet 230 is energized, the main door 200 and the sub door 300 are integrated, after a preset time, the user is acquiescent that the pick-and-place operation is finished, and at this time, the main door 200 and the sub door 300 do not need to be adsorbed together, and at this time, the second control switch 250 can be restored to the state before the operation, so that the circuit where the second electromagnet 230 is located is opened, preparation is made for the next operation, and electricity can be saved. Preferably, the preset time can be set to any value in the range of 5-20 s, such as 5s, 15s or 20 s.

Referring to fig. 4, in the present embodiment, the first control switch 240 may also be disposed on the sub-door 300, and the second control switch 250 may also be disposed on the main door 200.

Since the first electromagnet 220 is controlled by the first control switch 240, when the user opens the sub-door 300, the first electromagnet 220 needs to be attracted to the first magnet 120 arranged on the box 100 after being electrified, and therefore, the first control switch 240 is arranged on the sub-door 300, so that the user can conveniently open the sub-door 300 and operate the first control switch 240 at the same time, a separate operation is not required, and the use experience of the user is improved. Similarly, the second control switch 250 is disposed on the main door 200 based on the above-mentioned concept.

Referring to fig. 5 to 7, in some other embodiments, the electromagnetic assembly may include a third electromagnet 260, the third electromagnet 260 being disposed along the front-rear direction of the main door 200 and configured to change the magnetism of both ends of the third electromagnet 260 by changing the direction of current thereof; and the magnetism of the first magnet 120 and the second magnet 310 towards the side of the third electromagnet 260 is the same, so that a magnetic attraction force is always generated between the third electromagnet 260 and the first magnet 120 or between the third electromagnet 260 and the second magnet 310 in the process of changing the current direction of the third electromagnet 260.

Specifically, the main door 200 is provided with a groove (not shown) along the front-rear direction, and the front end and the rear end of the groove are respectively opposite to the first magnet 120 and the second magnet 310, and the third electromagnet 260 is disposed in the groove. Since the first magnet 120 and the second magnet 310 have the same magnetic property towards the third electromagnet 260, when the third electromagnet 260 is energized, a magnetic attraction force attracting the first magnet 120 or the second magnet 310 is inevitably generated in the magnetic poles generated on the iron core, and the other magnetic repulsion force is applied.

For example, the first magnet 120 has an N-pole facing the third electromagnet 260, and the second magnet 310 has an N-pole facing the third electromagnet 260. When the third electromagnet 260 is energized, if the S pole of the magnetic pole generated on the iron core of the third electromagnet is directed to the first magnet 120, the first magnet 120 and the third electromagnet 260 are attracted, otherwise, the second magnet 310 and the third electromagnet 260 are repelled, and if a user wants to open the sub-door 300, not only the main door 200 and the cabinet 100 can be integrated, but also the user can easily open the sub-door 300 by using the repulsive force of the second magnet 310 and the third electromagnet 260.

Therefore, after the third electromagnet 260 is powered on, no matter how the direction of the current applied to the third electromagnet 260 changes, a magnetic attraction force and a magnetic repulsion force must be generated between the third electromagnet 260 and the first magnet 120 or the second magnet 310, and a user can realize the switching of the acting objects of the magnetic attraction force and the magnetic repulsion force only by controlling the direction of the current applied to the third electromagnet 260.

Further, referring to fig. 8, the electromagnetic assembly may further include a first touch unit 410, a second touch unit 420 and a control unit 430.

The first touch unit 410 is disposed on the main door 200, and configured to receive an instruction from a user to open the main door 200; the second touch unit 420 is disposed on the sub-door 300 and configured to receive an instruction from a user to open the sub-door 300; the control unit 430 is electrically connected to the first touch unit 410 and the second touch unit 420, respectively, and is configured to receive the command signal sent by the first touch unit 410, and control the current of the third electromagnet 260 to flow in the first direction, the third electromagnet 260 generates a magnetic attraction force attracting the second magnet 310, so that the sub-door 300 is in a closed state under the action of the magnetic attraction force when the user opens the main door 200, or receive the command signal sent by the second touch unit 420, and control the current of the third electromagnet 260 to flow in a direction opposite to the first direction, and the third electromagnet 260 generates a magnetic attraction force attracting the first magnet 120, so that the main door 200 is in a closed state under the action of the magnetic attraction force when the user opens the sub-door 300.

Specifically, the first touch unit 410 and the second touch unit 420 may be configured as sensors such as infrared sensors to sense the hand position of the user. When the hand position of the user is close to the sensing area of the first touch unit 410, the first touch unit 410 sends a command signal to the control unit 430 for the user to open the main door 200, and the control unit 430 may be further electrically connected to the power source 440 for the third electromagnet 260 to control the power source 440 to apply a current to the third electromagnet 260 in the first direction. The first direction load current is understood to be a direction in which a magnetic attraction force is generated between the third electromagnet 260 and the second magnet 310 and a magnetic repulsion force is generated with the first magnet 120, the sub-door 300 is attracted to the main door 200 by the magnetic attraction force, and the opening of the main door 200 is assisted by the magnetic repulsion force. Similarly, when the control unit 430 controls the power supply 440 to supply current to the third electromagnet 260 in the second direction, the main door 200 and the box 100 are attracted together, and the magnetic repulsion is used to assist in opening the auxiliary door 300.

Further, the control unit 430 may also be configured to switch off the third electromagnet 260 after a preset time of applying current to the third electromagnet 260. For example, after the first touch unit 410 senses the hand position of the user, the control unit 430 applies a current to the third electromagnet 260, and after a preset time, the user has finished taking and placing the object by default, and then the control unit 430 controls the power supply 440 to be turned off to prepare for the next start. Preferably, the preset time can be set to any value in the range of 2-5 s, such as 2s, 3s or 5 s.

Referring to fig. 9, in the present embodiment, the main door 200 has a first handle 270, and the sub-door 300 has a second handle 320; the first touch unit 410 is disposed on the first handle 270, and the second touch unit 420 is disposed on the second handle 320.

Since the first touch unit 410 and the second touch unit 420 can receive a signal that the user's hand is approaching. Therefore, the first touch unit 410 and the second touch unit 420 are respectively arranged on the first handle 270 and the second handle 320, so that a user can inevitably operate the first handle 270 and the second handle 320 when opening the door, and at this time, the first touch unit 410 and the second touch unit 420 can receive the door opening signal, thereby improving the reliability of opening the door.

Since the first touch unit 410 and the second touch unit 420 are disposed on the first handle 270 and the second handle 320, in order to avoid misoperation, the distance between the first handle 270 and the second handle 320 is configured to be not less than 3cm (e.g., 3cm, 5cm, or 10cm, etc.), thereby further improving reliability when opening the door.

Referring to fig. 7, magnetic door seals 290 are disposed in the region where the main door 200 faces the cabinet 100 and the region where the main door 200 faces the sub-door 300, and the magnetic door seals 290 are configured to be attracted to the cabinet 100 and the sub-door 300 by the magnetic door seals 290 when the third electromagnet 260 is not energized, so as to seal gaps between the main door 200 and the sub-door 300 and between the main door 200 and the cabinet 100.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made, consistent with the principles of the invention, which are directly determined or derived from the disclosure herein, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims

1. A refrigerator, characterized by comprising:

a box body;

a first magnet disposed at a region of the cabinet opposite to the main door;

a second magnet disposed at a region of the sub door opposite to the main door;

2. The refrigerator of claim 1, wherein the electromagnetic assembly comprises:

3. The refrigerator of claim 2, wherein the electromagnetic assembly further comprises:

4. The refrigerator according to claim 3,

the first control switch is arranged on the auxiliary door; and is

The second control switch is arranged on the main door.

5. The refrigerator of claim 1, wherein the electromagnetic assembly comprises:

6. The refrigerator of claim 5, wherein the electromagnetic assembly comprises:

7. The refrigerator according to claim 6,

the main door is provided with a first handle, and the auxiliary door is provided with a second handle;

8. The refrigerator according to claim 7,

the distance between the first handle and the second handle is not less than 3 cm.

9. The refrigerator according to claim 5,

the main door and the area opposite to the box body and the main door and the area opposite to the auxiliary door are both provided with magnetic door sealing strips, and the magnetic door sealing strips are configured to be attracted with the box body and the auxiliary door by using the magnetic door sealing strips under the state that the third electromagnet is not electrified so as to seal gaps between the main door and the auxiliary door and between the main door and the box body.

10. The refrigerator according to claim 1,

a first storage space is defined inside the box body and provided with a first opening towards the front, and the main door is pivotally connected to one side of the box body to open and close the first opening; and is