KR20200134787A - Refrigerator - Google Patents

Abstract

The present invention relates to a refrigerator. According to an embodiment, the refrigerator comprises: a cabinet having a storage space formed therein; a drawer type door opened and closed by withdrawal and retraction of the storage space and providing an accommodation space; a lifting device lifted inside the accommodation space; and a drawer cover provided in the accommodation space and dividing the accommodation space into a front space having the lifting device and a rear space on the rear side. A cover restraint unit restraining the drawer cover while the lifting device is mounted is provided on one side of the lifting device.

Description

Refrigerator {Refrigerator}

The present invention relates to a refrigerator.

In general, refrigerators are home appliances that allow low-temperature storage of food in an internal storage space that is shielded by a door. To this end, the refrigerator is configured to store the stored food in an optimal state by cooling the interior of the storage space using cold air generated through heat exchange with the refrigerant circulating through the refrigeration cycle.

Recent refrigerators are gradually becoming larger and multifunctional in accordance with changes in dietary life and the trend of high-end products, and refrigerators with various structures and convenience devices that enable users' convenience and efficient use of internal space are being released. .

The storage space of the refrigerator can be opened and closed by a door. In addition, it may be classified into various types of refrigerators according to the arrangement of the storage space and the structure of the door opening and closing the storage space.

Refrigerator doors can be classified into a rotating door in which the storage space is opened and closed by rotation, and a drawer door in which the storage space is opened and closed.

In addition, the drawer door is often disposed in the lower area of the refrigerator. When the drawer door is disposed in the lower area of the refrigerator, the waist must be bowed to take out the basket or food accommodated in the drawer door, and the basket or If the weight of the food is heavy, you may feel inconvenient to use the basket or cause injury.

In order to solve this problem, various structures in which a drawer-type door can be elevated have been developed.

Representatively, U.S. Patent No. 9,377,238 discloses a refrigerator provided with a lifting mechanism for lifting a bin provided in a refrigerator compartment.

However, in such a prior art, a lifting mechanism for lifting and lowering has a structure in which the lifting mechanism is disposed on the outside of the bin and is exposed, and this may cause serious safety problems. In addition, there is a problem of poor appearance due to the structure of the lifting mechanism exposed to the outside.

In addition, since the driving unit has a structure in which the driving unit is exposed to the outside, noise during operation of the driving unit may be transmitted to the outside as it is, which may result in user complaints.

In addition, since the lifting mechanism is disposed inside the warehouse, the storage capacity in the warehouse may be remarkably reduced, which may cause a problem in that the storage efficiency is greatly reduced due to the loss of the storage capacity of the refrigerator as a whole.

In addition, there is a problem in that it is impossible to change and use the storage capacity in the storage according to the needs of the user because it is impossible to selectively separate and mount the lifting mechanism.

In addition, since the lifting mechanism is provided inside the cabinet, it is necessary to separate the door and the lifting mechanism in order to service the lifting mechanism, so there is a problem of poor serviceability.

An embodiment of the present invention is to provide a refrigerator in which an electrical device for lifting is provided inside a door part, and a mechanical device for lifting is provided in a drawer part, respectively.

An embodiment of the present invention is to provide a refrigerator capable of varying the internal storage capacity of a drawer door having an elevating function.

An object of the present invention is to provide a refrigerator in which an internal space configuration of a drawer door can be easily adjusted.

An object of the present invention is to provide a refrigerator in which cold air flows smoothly in a drawer.

An embodiment of the present invention aims to provide a refrigerator that can guarantee user safety.

An embodiment of the present invention aims to provide a refrigerator in which a drawer cover can be fixed when an elevating device is mounted.

It is an object of the present invention to provide a refrigerator in which an elevating device is easily detached and mounted.

In one aspect, a refrigerator according to an embodiment of the present invention includes a cabinet in which a storage space is formed; A drawer-type door that opens and closes the storage space by drawing in/out and providing a storage space; An elevating device that is elevated in the storage space; And a drawer cover provided in the storage space and partitioning the storage space into a front space and a rear rear space in which the lifting device is provided, and the drawer cover is restrained at one side of the lifting device while the lifting device is mounted. A cover restraint portion may be provided.

The drawer cover may be rotatably mounted on the bottom surface of the storage space.

The cover restraint portion may restrict rotation of the drawer cover by restricting the lower end of the drawer cover.

When the lifting device is separated from the drawer-type door, the restraint of the lower end of the drawer cover may be released.

The cabinet is partitioned from the storage space and further includes a machine room in which a compressor and a condenser are accommodated, the drawer door is disposed in front of the machine room to form an inclined rear side of the drawer door, and the drawer cover is released from restraint. In this state, it can be in close contact with the rear of the drawer door by rotation.

The drawer cover is in contact with the rear end of the lifting device, and the cover restraining part extends rearward from the rear end of the lifting device to restrain the drawer cover.

The drawer cover may include a vertical portion extending from a bottom surface of the storage space to an upper end of the storage space and partitioning the storage space; It may include a horizontal portion extending from an upper end of the vertical portion to a rear end of the storage space and shielding a portion of the upper surface of the storage space.

The vertical portion and the horizontal portion are axially coupled, and the horizontal portion may be folded toward the vertical portion by a user.

At the rear end of the horizontal portion, a rear restraint portion coupled to the rear upper end of the drawer door may be formed.

A restraining protrusion protruding forward from a position corresponding to the cover restraining part may be formed at a lower end of the vertical part and restrained by the cover restraining part.

The constraining protrusion is formed with a constraining groove opened upward, and the cover constraining portion may be inserted from the top to the bottom.

The lifting device includes a scissor assembly in which a plurality of rods rotatably cross each other; A lower frame coupled to a lower end of the scissor assembly and seated on a bottom surface of the storage space; It is coupled to the upper end of the scissor assembly and includes an upper frame that is raised and lowered, and the cover restraining part may protrude from the lower frame and may be bent to be inserted into the restraining groove.

The vertical portion may include a vertical surface extending vertically from a lower end of the vertical portion to a bottom surface of the storage space, and an inclined surface extending from an upper end of the vertical surface to an upper end of the vertical portion, and inclined toward the rear toward an upward direction. have.

The vertical surface may extend to a height corresponding to the height of the lifting device.

In another aspect, a refrigerator according to an embodiment of the present invention includes a cabinet in which a storage space is formed; A door including a door portion for opening and closing the storage space, and a drawer portion providing a storage space and having an inclined rear surface; A rail connecting the door and the cabinet and for withdrawing the door; A driving device provided on the door to provide power; An elevating device provided inside the drawer and connected to the driving device to move a part of the drawer up and down; And a drawer cover having a lower end rotatably mounted on a bottom surface of the drawer and partitioning the storage space forward and backward, and a cover restraining part for restraining the drawer cover may be formed on one side of the lifting device.

A driving device connection part provided in the driving device and disposed toward the drawer part; It may include a lifting device connection part protruding from the lifting part and penetrating the front surface of the drawer part and inserted into the driving device.

The driving device may include a motor assembly; A screw unit including a screw that is disposed on both sides of the motor assembly and is connected to the motor assembly to operate at the same time, and includes a screw that rotates and a screw holder that moves up and down along the screw; It may include; a lever that is coupled to the screw holder and rotates according to the movement of the screw holder, and is connected to the lifting device to provide power for lifting the lifting device.

The elevating device includes a pair of scissor assemblies disposed on both left and right sides, the scissor side connecting portion being rotated around an axis to elevate and descend; An upper frame coupled to an upper end of the scissor assembly and forming a bottom surface to be raised and lowered in the drawer; It is coupled to the lower end of the scissor assembly, and may include a lower flame seated on the bottom surface of the drawer.

A restraining protrusion protruding forward is formed at a lower end of the drawer cover, and the cover restraining part may protrude rearward and be coupled to the restraining protrusion when the lifting device is mounted.

The drawer cover may be rotated while the lifting device is separated from the inner side of the drawer to be seated on an inclined surface of the drawer.

In the refrigerator according to the proposed embodiment, the following effects can be expected.

A refrigerator according to an embodiment of the present invention is configured to allow a part of the storage space inside the drawer door to be lifted or lowered while the drawer door is pulled out. In addition, a driving device composed of an electric device for providing power is provided inside the door part, and the lifting device for lifting is provided inside the drawer part so that both the driving device and the lifting device are not exposed to the outside. It is possible to ensure stability and improve the appearance.

In addition, it is possible to minimize the loss of storage capacity of the drawer part by arranging the driving device that occupies a significant part of the entire configuration in the door part. In addition, the lifting device or in a lowered state has an advantage of securing a storage capacity in the compartment by having a structure that is compactly folded and accommodated.

Further, the driving device provided in the door part and the lifting device provided in the drawer part have a structure that can be easily separated and coupled through the drive device connection part and the drawer device connection part. In particular, there is an advantage in that it is very easy to mount and detach the lifting device by having a structure in which the drive device connection part and the drawer device connection part are inserted and separated from each other without the need for a separate mechanism or device or disassembly and mounting of additional parts.

In addition, while the driving device is mounted on the door part, there is an advantage that convenience in use can be further improved by providing a structure in which only the lifting device can be easily removed or mounted without a separate complicated operation.

In addition, there is an advantage in that the volume inside the drawer part can be freely adjusted by allowing the lifting device to be separately mounted and used according to the needs of the user.

In addition, the drawer part is provided with a drawer cover that is detachable by the user, and when the drawer cover is mounted, it prevents foreign matter from flowing into the interior of the lifting device, and allows the space inside the drawer to be seen more clearly. In a state in which the drawer cover is separated, there is an advantage of increasing the inner volume of the drawer part.

In particular, when the drawer cover is separated, the space inside the private drawer can be maximized by separating the lifting device together, and the user's convenience in use can be improved by significantly increasing the storage capacity.

And, even if the drawer cover is not completely separated, the vertical plate and the horizontal plate have a structure that can be folded by rotation, so that the space configuration inside the drawer part can be changed and the storage capacity can be adjusted through more convenient operation. There is this.

In addition, when the lifting device is mounted, one side of the lifting device restrains the drawer cover, thereby preventing the drawer cover from being arbitrarily separated or folded. Therefore, there is an advantage of improving safety by preventing a user's hand from getting caught in the gap between the lifting device and the drawer cover. In particular, when the lifting device is mounted, it is possible to ensure the safety of the user by preventing the drawer cover from being separated or folded under any circumstances.

In addition, when the lifting device is lifted to separate the lifting device, the drawer cover is released and the drawer cover can be folded. Accordingly, it becomes easier to secure a space for separating the lifting device, so that the lifting device can be easily separated. There is an advantage to be able to.

In addition, the upper portion of the drawer cover is formed to have an inclination so that the air flowing above the drawer part flows smoothly between the drawer cover and the basket, and improves air flowability, resulting in the growth of subcooling or freezing due to accumulation of cold air. There is an advantage that can prevent the back.

1 is a front view of a refrigerator according to an embodiment of the present invention.
2 is a cross-sectional view schematically illustrating an elevated state of a lower drawer door of a refrigerator according to an embodiment of the present invention.
3 is a perspective view of the container of the lower drawer door separated.
4 is an exploded perspective view of the lower drawer door as viewed from the front in which the drawer part and the door part are separated.
5 is an exploded perspective view of a state in which the lifting device is separated from the drawer door.
6 is a rear view of the door part.
7 is a rear perspective view of the door part with the door cover removed.
8 is a perspective view showing a state in which the driving device and the lifting device are connected.
9 is a perspective view of the driving device.
10 is a perspective view showing the internal structure of the driving device.
11 is a partial enlarged view showing a structure in which power is transmitted to a screw of the driving device.
12 is a perspective view of the drawer.
13 is an exploded perspective view of the drawer part.
14 is a cut-away perspective view of the drawer part.
15 is an exploded perspective view of a drawer cover that is a component of the drawer.
16 is a cross-sectional view taken along line XVI-XVI' of FIG. 14.
FIG. 17 is a cross-sectional view taken along line XVII-XVII' of FIG. 14.
FIG. 18 is a cross-sectional view taken along line XVIII-XVIII' of FIG. 14.
19 is a partially cut-away perspective view showing a constrained state of the lifting device and the drawer cover.
20 is a perspective view of a lifting device according to an embodiment of the present invention.
21 is a view showing a state in which the upper frame of the lifting device is raised.
22 is a partially enlarged view showing a state in which a hole cover and a lifting device are coupled to the lever of the present invention.
23 is a perspective view of the lower drawer door in a closed state.
24 is a perspective view of the lower drawer door completely open.
25 is a cross-sectional view of the drawer door when the container of the lower drawer door is completely lowered.
26 is a perspective view showing the state of the driving device and the lifting device in the state of FIG. 25;
27 is a cross-sectional view of the drawer door when the container of the lower drawer door is completely raised.
28 is a perspective view showing the state of the driving device and the lifting device in the state of FIG. 27;
29 is a cross-sectional view of a state in which the lifting device is mounted.
30 is a cross-sectional view of the lifting device in a separated state.
31 is a cross-sectional view of the drawer cover in a folded state.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the constituent elements of the embodiment of the present invention, terms such as first, second, A, B, (a), (b) may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but another component between each component It should be understood that may be “connected”, “coupled” or “connected”.

1 is a front view of a refrigerator according to an embodiment of the present invention. And, FIG. 2 is a cross-sectional view schematically illustrating an elevated state of a lower drawer door of a refrigerator according to an embodiment of the present invention.

1 and 2, the refrigerator 1 may have an external shape formed by a cabinet 10 forming a storage space and a door 2 shielding the opened front surface of the cabinet 10. have.

The storage space inside the cabinet 10 may be divided into a plurality of spaces. For example, the upper space 11 of the cabinet 10 may be divided into a refrigerating chamber, and the lower space 12 may be divided into a freezing chamber. Of course, the upper space and the lower space may be divided into separate spaces maintained at different temperatures rather than a refrigerating compartment or a freezing compartment, and may be referred to as an upper space and a lower space.

The door 2 may include a rotating door 20 that opens and closes the upper space by rotation, and a drawer door 30 that opens and closes the lower space by drawing in/out. The lower space may be divided up and down again, and the drawer door 30 may include an upper drawer door 30a and a lower drawer door 30b.

In addition, the rotating door 20 and the drawer door 30 are formed of a metal material to form an exterior exposed to the front.

The present invention has been described on the basis of a refrigerator in which the rotating door 20 and the drawer door 30 are disposed together, but the present invention is not limited thereto, and all types of refrigerators provided with a drawer-type door Will be applicable. In addition, the rotary door 20 may be provided at an upper portion and may be referred to as an upper door, and the drawer door 30 may be provided at a lower portion to be referred to as a lower door.

A display 21 may be provided on one front side of the rotating door 20, and the display 21 may include a structure of a liquid crystal display or an 88-segment structure.

In addition, when the exterior of the door 2 is formed of a metal material, the display 21 may be formed such that a plurality of fine holes are perforated to display information by transmitted light.

In addition, an operation unit 22 capable of operating automatic rotation or withdrawal of the upper door 2 or the lower door 2 may be provided on one side of the rotary door 20.

The manipulation unit 22 may be provided integrally with the display 21 and may be operated by a touch method or a button method. The manipulation unit 22 may input/operate a command for the overall operation of the refrigerator 1, and may operate the drawer door 30 to move in/out or to move the drawer door 30 up or down.

An operation unit 301 may also be provided on the drawer door 30. The operation unit 301 may be provided on one side of the lower drawer door 30b positioned at the bottom of the drawer doors 30, and the operation unit 301 may be configured in a touch or button manner. Of course, the manipulation unit 301 may be configured as a sensor that detects the user's proximity or movement, or may be configured to input manipulation by the user's motion or voice.

In addition, as shown in the drawing, a manipulation device 302 is provided at the bottom of the lower drawer door 30b to output a virtual switch by irradiating an image on the bottom surface and input manipulation in a manner that allows the user to approach the area. It could be configured.

Meanwhile, the lower drawer door 30b may be automatically pulled in and out according to the manipulation of the manipulation unit 301. In addition, food or containers provided in the lower drawer door 30b may be raised or lowered in a state in which the lower drawer door 30b is pulled out according to the operation of the operation unit 301.

That is, the lower drawer door 30b may be operated automatically in/out and/or ascending and descending by at least one of a plurality of devices 22, 301, 302, and 303 for manipulation. Of course, only one of the plurality of devices 22, 301, 302, and 303 for manipulation may be provided as needed.

On the other hand, the manipulation devices 22,301,302, 303 may be configured in plural and used for withdrawal and lifting of the drawer door 30, and a combination or sequential manipulation of a plurality of manipulation devices 22,301,302, 303 In/out and lifting may be operated depending on the situation.

In order to store food stored in the lower drawer door 30b, the lower drawer door 30b is pulled forward, and then the container 36 inside the lower drawer door 30b can be operated to lift.

Meanwhile, the container 36 may have a predetermined height. Since the container 36 is seated in the lifting device 80 to be described later, the height of the container 36 may be added to the height of the lifting device 80 when the lifting device 80 is raised. Accordingly, when the lifting device 80 is raised, it may be located at a point where it is very easy for a user to access the container 36 or lift the container 36.

Accordingly, the container 326 can be completely accommodated in the drawer part 32 when the lower drawer door 30b is withdrawn, and is located higher than the lower storage space 12 when the lifting device 80 is raised. It can be formed to be located in.

On the other hand, the shape of the container 36 is not limited, but may be a shape corresponding to the size of the front space (see S1 in FIG. 3), and has a predetermined height even when the lifting device 80 is raised. It would be desirable to be configured so that the food contained therein does not come off.

By such an operation, the food or container 36 inside the drawer door 30 disposed at the lowermost position can be more easily lifted and used.

The lower drawer door 30b is automatically pulled back and forth by a pull-out motor 14 and pinion 141 provided in the cabinet 10 and a pull-out rack 34 provided on the lower surface of the lower drawer door 30. May be worn.

In addition, the container inside the lower drawer door 30b may be raised and lowered by the driving device 40 and the lifting device 80 provided in the lower drawer door 30b.

Hereinafter, configurations for the operation of the lower drawer door 30b and the lower drawer door 30b of the present invention will be described in more detail. Unless otherwise stated, the lower drawer door 30b is Let's call it a door or door.

Meanwhile, the embodiment of the present invention is not limited to the number and shape of drawer doors, and may be applied to all refrigerators provided with a drawer-type door in a lower storage space.

3 is a perspective view of the container of the lower drawer door separated. 4 is an exploded perspective view of the lower drawer door as viewed from the front in which the drawer part and the door part are separated. And, Figure 5 is an exploded perspective view of a state in which the lifting device is separated from the drawer door.

As shown, the door 30 has a door part 31 for opening and closing the storage space, and a drawer part 32 that is coupled to the rear surface of the door part 31 and is drawn in and out with the door part 31 It may include.

The door part 31 may be exposed to the outside of the cabinet 10 to form the exterior of the refrigerator 1, and the drawer part 32 is disposed inside the cabinet 10 to form a storage space. can do. In addition, the door portion 31 and the drawer portion 32 may be combined with each other to be withdrawn in and out of the front and rear directions.

The drawer part 32 is always located on the rear surface of the door part 31 and may form a space in which food or containers for storage are accommodated. The inside of the drawer part 32 may form a storage space that is opened upward, and the outside of the drawer part 32 may be formed by a plurality of plates (391 and 392 in FIG. 13).

The plurality of plates 391 and 392 may be made of a metal material such as stainless steel, and are provided outside as well as inside of the drawer 32 so that the entire drawer 32 has a texture such as stainless steel or stainless steel. Can be formed.

In a state in which the door 30 is retracted, a machine room 3 in which a compressor and a condenser constituting a refrigeration cycle may be disposed behind the door 30. Accordingly, the rear part of the drawer part 32 may have an upper end protruding more than a lower end, and the rear part of the drawer part 32 may include an inclined surface 321.

In addition, draw-out rails 33 that can guide the draw-out of the door 30 may be provided on both side surfaces of the drawer part 32. The door 30 may be mounted to the cabinet 10 so as to be able to be withdrawn and inserted by the withdrawal rail 33. The lead-in/out rail 33 may be shielded by an outer side plate 391 so as not to be exposed to the outside. The draw-out rail 33 may be configured in a rail structure that can be extended in multiple stages.

A rail bracket 331 is provided on the draw-out rail 33, and the rail bracket 331 may extend from one side of the draw-out rail 33 to both sides of the drawer part 32. In addition, the rail bracket 331 may be fixedly coupled to the interior wall of the cabinet. Accordingly, the drawer unit 32, that is, the door 30 may be mounted to the cabinet 10 so as to be retractable by the draw-out rail 33.

In addition, the draw-out rail 33 may be provided at the bottom of both side surfaces of the drawer part 32. In addition, the lower ends of both sides of the drawer part 32 are mounted in a form that is seated above the draw-out rail 33, and thus, the draw-out rail 33 may be referred to as the under rail. .

A pull-out rack 34 may be provided on the lower surface of the drawer part 32. The draw-out rack 34 may be disposed on both sides, and is connected with the drive of the draw-out motor 14 mounted on the cabinet 10 to enable automatic draw-out of the door 30. That is, when the operation unit 22 and 301 inputs an operation, the withdrawal motor 14 is driven so that the door 30 can be withdrawn according to the movement of the withdrawal rack 34. At this time, the door 30 can be stably pulled in and out by the pull-out rail 33.

Of course, the drawer part 32 may not be provided with a draw-out rack 34, and the user is configured to directly draw in/out the door 30 by holding and pushing or pulling one side of the door part 31. It will be possible.

Meanwhile, the inside of the drawer unit 32 may be divided into a front space S1 and a rear space S2. The front space S1 may include a lifting device 80 that is lifted up and down, and a container 36 that is seated in the lifting device 80 and lifted together with the lifting device 80.

The container 36 is shown in the form of a basket with an open top, but may have a closed box structure such as a kimchi container, and a plurality of containers may be stacked or disposed side by side.

In addition, when the door 30 is withdrawn, the entire drawer unit 32 cannot be pulled out of the storage space due to the restriction of the pulling distance of the door 30, and at least the front space S1 is It is drawn out of the storage space and all or part of the rear space S2 is located inside the storage space inside the cabinet 10.

In such a structure, the withdrawal distance of the door 30 may be limited by the draw-out rack 34 or the draw-out rail 33, and the longer the draw-out distance is applied to the door 30 in the withdrawn state. This is because it is difficult to maintain a stable state due to an increase in the losing moment, and deformation or damage of the draw-out rail 33 or the draw-out rack 34 may be caused.

Inside the front space (S1), a lifting device 80 and a container 36 are accommodated, and the lifting device 80 is lifted up and down, while the food or container 36 seated in the lifting device 80 ) Can be raised and lowered together. In addition, the lifting device 80 may be provided under the container 36, and when the container 36 is mounted, the lifting device 80 may be covered by the container 36, thus Any configuration of the lifting device 80 is not exposed to the outside.

A separate drawer cover 37 may be provided in the rear space S2. The front space S1 and the rear space S2 may be partitioned by the drawer cover 37. When the drawer cover 37 is mounted, the front and upper surfaces of the rear space S2 are shielded so that the unused space is not exposed to the outside.

By attaching the drawer cover 37, the rear space S2 is covered when the door 30 is withdrawn, and only the front space S1 is exposed when the door 30 is pulled out, thereby providing a cleaner appearance. It will be able to provide. In addition, the remaining space except for the space in which the lifting device 80 and the container 36 are mounted is covered to prevent problems such as food dropping or getting objects caught in the gap during lifting.

However, when the drawer cover 37 is separated, it becomes accessible to the rear space S2, and food can be stored in the rear space S2. In order to utilize the rear space S2, a separate pocket or a container corresponding to the shape of the rear space may be disposed in the rear space S2.

And, in order to utilize the entire space inside the drawer part 32, the lifting device 80 inside the drawer part 32 can be simply detachably mounted, and the lifting device 80 and the drawer cover 37 By separating the drawer unit 32, the entire inner space may be utilized.

Exteriors of the inner and outer surfaces of the drawer 32 may be formed by plates (see 391 and 392 in FIG. 13), and the external and internal appearances of the drawer part 32 You can make it look neat. The plates (see 391 and 392 in FIG. 17) may be formed in a plurality, and may be formed of stainless steel to provide a more luxurious and clean appearance.

Meanwhile, the door part 31 and the drawer part 32 constituting the door 30 may have a structure that can be separated and coupled to each other. Assembly workability and serviceability may be improved through the detachable structure of the door part 31 and the drawer part 32.

The rear surface of the door part 31 and the front surface of the drawer part 32 may be coupled to each other, and when the door part 31 and the drawer part 32 are combined, the power for lifting the lifting device 80 It can be configured to provide.

A driving device (refer to 40 in FIG. 7) for lifting the lifting device 80 may be disposed on the door part 31, and the door part 31 and the drawer part 32 may be selectively connected. .

In particular, the driving device (refer to 40 in FIG. 7) provided in the door 31 may be configured with components operated by an input of power and components for transmitting power to the lifting device 80. Accordingly, when the service of the driving device (refer to 40 in FIG. 7) is required, the door part 31 can be separated to take action, and only the door part 31 can be replaced to take a simple action.

The door part 31 and the drawer part 32 may be coupled by a pair of door frames 316 provided on both sides.

The door frame 316 includes a door coupling portion 316a extending in the vertical direction and coupled to the door portion 31, and a drawer coupling portion 316b extending rearward from the lower end of the door coupling portion 316a. It may include.

The door coupling portion 316a may be coupled to the door portion 31 by a separate coupling member, or may be coupled to one side of the door portion 31 by a simple coupling structure. Further, the drawer coupling part 316b may be disposed to be inserted into both sides of the drawer part 32 so as to be adjacent to the draw-out rail 33. In addition, the drawer coupling portion 316b may be mounted on the drawer portion 32 in a state coupled to the draw-out rail 33. Can be inserted and placed.

In a state in which the door coupling part 316a is coupled to the door part 31, the drawer coupling part 316b may be inserted into the drawer part 32 to support the drawer part 32. In addition, the drawer coupling portion 316b may be coupled to the drawer portion 32 by a separate coupling member, or may be coupled to each other by a structure that fits each other.

In addition, when the door part 31 and the drawer part 32 are combined, a part of the lifting device 80 is provided on the front of the drawer part 32 so that the driving device 40 and the lifting device 80 can be connected. A drawer opening 35 through which is exposed may be formed.

A scissor-side connection part 842, which is a rotation axis of the lifting device 80, may be exposed inside the drawer opening 35. Accordingly, when the scissor side connection part 842 is connected to the driving device 40, the lifting device 80 may be in an operable state.

In addition, the drawer openings 35 may be formed at both front and left ends of the left and right drawer portions 32. In addition, between the drawer openings 35, a plurality of ventilation holes 381 may be formed to allow air to flow inside and outside the drawer part 32. The vent 381 may be formed lower than the height of the lifting device 80, and thus, the drawer opening 35 and the vent 381 may be covered when the lifting device 80 is mounted.

On the other hand, the lifting device 80 has a structure that can be separated from the drawer 32 according to the user's operation. That is, when the volume inside the drawer part 32 is increased or the lifting function is not used, the lifting device 80 is lifted and separated from the inside of the drawer part 32.

At this time, the scissor side connection part 842 of the lifting device 80 connected to each other and the lever side connection part 422 of the driving device 40 are first separated, and then the lifting device 80 is removed from the drawer part 32. Will be lifted.

A cover restraining part 835 may be formed at the rear end of the lifting device 80. The cover restraining part 835 protrudes rearward from the rear end of the lower frame 83 forming the bottom surface of the lifting device 80. Therefore, when the lifting device 80 is mounted, the drawer cover 37 may be restrained so that the drawer cover 37 is maintained in a fixed state.

On the other hand, the door part 31 is formed to substantially open and close the storage space of the cabinet 10 and at the same time form a front exterior of the refrigerator 1.

The door part 31 includes an outer case 311 forming a part of the front and circumferential surfaces, a door liner 314 forming a rear surface, an upper decor 312 and a lower decor 313 forming the upper and lower surfaces. The appearance can be formed by this. In addition, an insulating material (not shown) may be filled inside the door portion 31 between the outer case 311 and the door liner 314.

Hereinafter, the door portion 31 constituting the door 30 will be described in more detail with reference to the drawings.

6 is a rear view of the door part. And, Figure 7 is a rear perspective view of the door portion of the door cover removed.

As shown, a driving device 40 for operating the lifting device 80 may be provided inside the door part 31. The driving device 40 is disposed inside the door part 31, but is not buried in the heat insulating material, but is provided inside the space formed by the door liner 314, and the door cover 315 It may be configured so as not to be exposed to the outside by being shielded by.

Further, the door liner 314 may be formed with a door recessed portion that is recessed inward. The door depression may be formed in a shape corresponding to the shape of the driving device 40. In addition, the door depression may be formed to further mount electrical components including a door light 318 for illuminating the interior of the chamber.

The door light 318 may be long disposed in the horizontal direction from the left side to the right side of the rear surface of the door 30. The door light 318 is configured such that a plurality of LEDs and light irradiated from the LED are directed toward the inside of the door 30, particularly the drawer part 32, and the door 30 is pulled out and opened. In the state, the inside of the drawer 32 is illuminated.

The door cover 315 is for forming a rear exterior of the door part 31 and shields the driving device 40 mounted on the door part 31. The door cover 315 may be formed in a plate shape, and may shield the rest of the driving device 40 except for the lever-side connection part 422 when the driving device 40 is mounted.

Meanwhile, cover openings 315a may be formed at both sides of the lower end of the door cover 315. The cover opening 315a exposes the drawer-side connection part 422 of the lever 42, which is a component of the driving device 40, to the drawer-side connection part 422 through the cover opening 315a. Access becomes possible. In addition, the cover opening 315a may be located at a position facing the drawer opening 35.

Therefore, when the door part 31 and the drawer part 32 are combined, the cover opening 315a and the drawer opening 35 can communicate with each other, and thus, the cover opening 315a and the drawer opening Through 35, the drawer-side connection part 422 and the scissor-side connection part 842 of the lifting device 80 may be coupled. That is, the driving device 40 and the lifting device 80 may be connected to each other, and the lifting device 80 may be raised or lowered according to the operation of the driving device 40. In addition, it is possible to separate only the lifting device 80 through the separation of the drawer side connection part 422 and the scissor side connection part 842 in a state in which the door part 31 and the drawer part 32 are coupled. will be.

On the other hand, in the center of the lower end of the door cover 315, a cable hole 315e through which cables connected to electrical components such as the driving device 40 provided in the door part 31 and the door light 318 enter and exit is further provided. Can be formed. Wires entering and leaving through the cable hole 315e may pass under the drawer 32 and be connected to the cabinet 10.

A door gasket 317 may be provided along the rear circumference of the door part 31, and when the door 30 is closed, the door gasket 317 may be sealed in contact with the front of the cabinet 10. have.

The driving device 40 may be shielded by the door cover 315 and disposed inside the door part 31. The driving device 40 is connected to the lifting device 80, and the power of the driving device 40 may be transmitted to the lifting device 80. At this time, the driving device 40 simultaneously transmits power to both the left and right sides of the lifting device 80 so that the lifting device 80 is not inclined or biased to one side under any circumstances, and the left and right sides are horizontally elevated and lowered. You can do it.

The driving device 40 includes a motor assembly 60, a pair of screw units 50 disposed on both sides of the motor assembly 60, and a pair of levers connected to each of the screw units 50 (42) may be included. In addition, the screw unit 50 may include a screw 52 and a screw holder 56 which is penetrated by the screw 52 and is raised and lowered along the screw unit 50.

Meanwhile, the lever 42 has a lever-side connection portion 422 formed at one end, and the lever-side connection portion 422 is rotatably fixed to the rear surface of the door portion 31. In addition, a long hole through which the holder connector 562 is fastened may be formed at the other end of the lever extension part 421. Accordingly, the lever 42 is rotated by the screw holder 56 that is raised and lowered when the screw 52 is rotated. The driving device 40 will be described in more detail below.

Hereinafter, a detailed configuration of the driving device 40 will be described with reference to the drawings.

8 is a perspective view showing a state in which the driving device and the lifting device are connected. And, Figure 9 is a perspective view of the driving device. And, Figure 10 is a perspective view showing the internal structure of the driving device. And, Figure 11 is a partial enlarged view showing a structure in which power is transmitted to the screw of the driving device.

As shown, the motor assembly 60 may be located in the center portion in the left and right direction of the door portion 31. Further, it may be configured to enable the operation of the screw units 50 and 50a and the lever 42 on both sides by driving the motor assembly 60 including one driving motor 64.

Particularly, the motor assembly 60 may adjust the amount of deceleration and transmitted force through a combination of a plurality of gears.

In addition, the motor assembly 60 has a structure in which the drive motor 64 and gears are arranged vertically in order to minimize a space that is depressed when mounted on the door part 31, and in particular, the motor assembly 60 It may be formed to widen the width in the left and right directions to minimize the thickness of the material and minimize the thickness in the front and rear directions.

In addition, the drive motor 64 constituting the motor assembly 60 may protrude toward the drawer part 32 to minimize a depression depth of the door part 31 to ensure thermal insulation performance.

The drive motor 64 provides power for the lifting of the lifting device 80 and may be configured to rotate forward and backward. Accordingly, when the lifting signal of the lifting device 80 is input, it is rotated forward and backward, thereby providing power for lifting the lifting device 80. In addition, the drive motor 64 may be stopped when a load of the driving motor 64 or a stop signal is input by detection of a sensor.

The motor assembly 60 includes a motor case 61 in which the driving motor 64 is installed, and a motor cover 62 coupled to the motor case 61 and covering the driving motor 64. I can.

The rotation axis of the drive motor 64 may protrude from the motor case 61 toward the opposite side of the motor cover 62. In addition, the motor assembly 60 may further include a power transmission unit for transmitting the power of the driving motor 64. The power transmission unit may be located on the opposite side of the driving motor 64 with respect to the motor case 61.

In addition, the power transmission unit may be formed of a combination of a plurality of gears, and may be shielded by a cover member 66 mounted on the opposite side of the drive motor 64.

The power transmission unit may include a driving gear 651 connected to the shaft of the driving motor 64 passing through the motor case 61. The power transmission unit may further include a first transmission gear 652 meshed with the driving gear 651 from a lower side of the driving gear 651.

The first transmission gear 652 may be, for example, a multi-stage gear. As an example, the first transmission gear 652 includes a first gear 652a meshed with the driving gear 651 and a second gear 652b having a diameter smaller than that of the first gear 652a. Can include. Each of the first gear 652a and the second gear 652b may be a spur gear.

The power transmission unit may further include a second transmission gear 653 meshing with the first transmission gear 652. The second transmission gear 653 may mesh with the first transmission gear 652 from a lower side of the first transmission gear 652. The second transmission gear 653 includes a first gear 653a meshing with the second gear 652a of the first transmission gear 652, and a first gear having a larger diameter than the first gear 653a. It may include 2 gears 653b.

Each of the first gear 653a and the second gear 653b of the second transmission gear 653 may be a spur gear. In addition, the second gear 653b of the second transmission gear 653 may be located below the first gear 652a of the first transmission gear 652. Accordingly, an increase in the front and rear width of the driving device 60 can be prevented by the first transmission gear 652 and the second transmission gear 653.

The power transmission unit may further include a third transmission gear 654 meshed with the second transmission gear 653. The third transmission gear 654 may mesh with the second gear 653b under the second gear 653b of the second transmission gear 653. The third transmission gear 654 may be a spur gear. A portion of the third transmission gear 654 may be disposed to overlap the second transmission gear 653 in the front-rear direction.

A gear shaft for rotatably supporting the plurality of transmission gears may be provided in the motor case 61.

The power transmission unit may include a pair of cross gears 655 and 656 meshed with the third transmission gear 654. The pair of crossover gears 655 and 656 are arranged to be spaced apart from each other in the left and right direction, and the rotation center is lower than the rotation center of the third transmission gear 654 to be meshed with the third transmission gear 654. have.

Each of the crossed gears (655, 656) is a spur gear (655a, 656a) and a helical gear form so that the cross gears (655, 656) can mesh with the third transmission gear (654). It may include first helical gear units 655b and 656b.

In addition, the rotation center lines of the cross gears 655 and 656 spaced apart from each other may extend horizontally to each other.

The power transmission unit may further include a pair of second helical gear units 657 and 657a meshing with each of the cross gears 655 and 656.

The second helical gear parts 657 and 657a may mesh with the first helical gear parts 655b and 656b. The rotation center lines of the second helical gear units 657 and 657a may be disposed to cross the rotation center lines of the cross gears 655 and 656. Accordingly, the first helical gear units 655b and 656b and the second helical gear units 657 and 657a are intersected with each other, and may be configured to be engaged with each other to transmit rotation.

The rotation center lines of the cross gears 655 and 656 may extend in the front-rear direction, and the rotation center lines of the second helical gear units 657 and 657a may extend in the vertical direction. Further, the rotation center lines of the second helical gear units 657 and 657a disposed on both left and right sides may be inclined in a direction that is further away from each other toward the upper side.

As described above, the use of a pair of crossed helical gears has the advantage that the power transmission direction can be easily switched and the structure for power transmission becomes compact. In particular, even when a large force is transmitted for the lifting of the lifting device 80, a large noise is not generated.

The pair of screw units 50 and 50a may be disposed on both left and right sides of the motor assembly 60.

The pair of screw units (50, 50a) are disposed on both left and right sides of the inside of the door part (31), and the pair of screw units (50, 50a) differ only in their mounting positions, and their structure and shape Are the same.

Power of the driving motor 64 may be transmitted from the lower side of the screw units 50 and 50a.

The screw units 50 and 50a on both sides may be formed to be symmetrical with respect to the motor assembly 60. Accordingly, the motor assembly 60 may be disposed between the screw units 50 and 50a positioned on both sides, and the screw units 50 and 50a disposed on both sides are the distance between the top and bottom. Can be arranged to get closer and closer.

The screw units 50 and 50a may include screws 52 and 52a that are rotated by receiving power from the driving motor 64. The screws 52 and 52a may be inclined to extend in a vertical direction, with an upper end facing the outside and a lower end facing the outside.

The screws 52 and 52a may be connected to the second helical gear units 657 and 657a. That is, the screws 52 and 52a may be rotated together when the second helical gear units 657 and 657a are rotated.

For example, an insertion portion may be formed in the second helical gear portions 657 and 657a, and an accommodation groove in which the insertion portion is accommodated may be formed in the screw 52.

Accordingly, the screws 52 and 52a are also disposed to be symmetrical on both left and right sides with respect to the motor assembly 60, and may be disposed obliquely on the same center line as the center line of the second helical gear units 657 and 657a. . Accordingly, the screws 52 and 52a on both sides of the left and right sides have an arrangement that is farther away from each other as it goes upward.

The screw units 50 and 50a may further include screw holders 56 and 56a through which the screws 52 and 52a are coupled.

The screw holders 56 and 56a may be moved vertically along the screws 52 and 52a when the screws 52 and 52a are rotated. In addition, the lever 42 may be coupled to the screw holders 56 and 56a. When the screw holders 56 and 56a are moved, the lever 42 may be rotated.

In detail, a holder through hole 561 is formed in the center of the screw holders 56 and 56a. The holder through-hole 561 is formed to pass through the screw holders 56 and 56a, and is inserted and mounted so that the screws 52 and 52a pass through the holder through-hole 561. A thread coupled to the screw may be formed on the inner side of the holder through hole 561. Accordingly, when the screws 52 and 52a are rotated, the screw holders 56 and 56a are movable along the screws 52 and 52a.

In addition, guide holes 562 are formed on both left and right sides of the holder penetrating portion 561. The guide hole 562 is a portion through which the guide bars 53 and 54 to be described below pass, and the screw holders 56 and 56a may be moved along the guide bars 53 and 54.

The guide bars 53 and 54 may be formed in a round bar shape, and may be formed of a metal material to stably support the screw holders 56 and 56a.

In addition, a magnet 563 may be provided in the screw holder 56a. As an example, a magnet mounting groove 563a into which a magnet is pressed may be formed in the screw holder 56a, and the magnet 563 may be inserted into the magnet mounting groove 563a.

The magnet 563 is for detecting the position of the screw holder 56a, and when the screw holder 56a is located at the lowest or upper end of the screws 52, 52a, a lift detection device to be described below. 90 will be able to detect this. That is, whether the magnet 563 mounted on the screw holder 56a is sensed, it is possible to determine the completion of the ascending and descending of the lifting device.

Further, although not shown in detail, a holder connector 562 may be mounted on the opposite side of the rear surface of the screw holder 56a on which the magnet 563 is provided, that is, the front surface of the screw holder.

Since the screw units 50 and 50a are disposed on both left and right sides, extension lines of the screws 52 and 52a on both left and right sides may cross outside of the driving device 40.

The lever 42 connects the screw holders 56 and 56a and the lifting device 80, and both ends may be coupled to the screw holders 56 and 56a and the lifting device 70, respectively.

The screw units 50 and 50a may further include a housing 51 accommodating the screws 52 and 52a.

The housing 51 forms an outer shape of the screw units 50 and 50a, and forms a space in which screws 52 and 52a and screw holders 56 and 56a can be accommodated, and is opened. The portion may be shielded by a cover member 66 to be described later.

The housing 51 may be formed by bending a plate-shaped metal material or may be formed of a plastic material.

The housing 51 may include a first accommodating portion 511 accommodating the screws 52 and 52a and a second accommodating portion 512 accommodating the second helical gear portions 657 and 657a. have.

The first accommodation part 511 and the second accommodation part 512 may be partitioned by a partition wall 513. The second accommodating part 512 is located below the first accommodating part 511.

Part of the crossover gears 655 and 656 may be accommodated in the second accommodating part 512. That is, the crossover gears 655 and 656 and the second helical gear parts 657 and 657a may be connected within the second receiving part 512.

The lower side of the screw 52, 52a penetrates the partition wall 513, and the second helical gear portions 657, 657a are coupled to the screws 52, 52a that have penetrated the partition wall 513 do.

One or more guide bars 53 and 54 for guiding the rise of the screw holders 56 and 56a may be provided in the housing 51. The one or more guide bars 53 and 54 extend in parallel with the screws 52 and 52a in a state spaced apart from the screws 52 and 52a.

The motor case 61 and the pair of housings 51 may be integrally formed. In addition, a single cover member 66 may cover the motor case 61 and the pair of housings 51.

That is, the cover member 66 is fastened to the motor case 61 to cover the power transmission unit, and is fastened to the pair of housings 51, the screw 52, 52a, the guide bar 53, 54), the screw holders 56 and 56a can be covered.

Of course, if necessary, the cover member 66 may be composed of a plurality of parts respectively shielding the power transmission unit and the screw units 50 and 50a to be configured to open and close each independently.

In the present embodiment, since the driving device 40 exists in the form of a single module, the driving device 40 is compact, so that the driving device 40 can be easily installed on the door part 31.

In addition, since a single cover member 66 covers the motor case 61 and the pair of housings 51 together, when the cover member 66 is separated, it is easily placed inside the power transmission unit or the housing 51. There is an advantage of being able to access, and service is easy.

Meanwhile, a lift detection device 90 may be provided in the screw unit 50a on one side of the screw units 50 and 50a on both left and right sides. Since the left and right screw units 50a are simultaneously operated by one motor assembly 60, even if the lifting detection device 90 is provided only on one screw unit 50a, the operation of the lifting device 80 is effectively performed. Can be detected. Accordingly, the lift detection device 90 may be provided in either of the left and right screw units 50 and 50a.

The elevating detection device 90 is for determining whether the elevating device 80 has been elevated or not, and determines whether the elevating apparatus 80 has elevated or descended based on the operation of the driving device 40.

The lift detection device 90 may be mounted on the cover member 66 and may be vertically disposed along the screw unit 50a.

The lift detection device 90 may include a pair of detection sensors 92 and 93. As the detection sensors 92 and 93, a sensor that detects the magnet 563 may be used. The detection sensor may be a Hall sensor that detects the position of a magnet. Of course, other sensors or devices for sensing the magnet 563 may be provided in place of the Hall sensor as needed.

In addition, in place of the magnet 563 and the Hall sensor, another configuration or device capable of detecting a specific position of the screw holder 56a may be used.

One of the detection sensors 92 and 93 is mounted at a position corresponding to the position of the magnet 563 when the lifting device 80 is completed, and the magnet when the lifting device 80 is finished descending The other may be mounted at a position corresponding to the position of 563. Accordingly, when any one of the pair of detection sensors 92 and 93 recognizes the magnet, the lifting device 80 determines that the ascending or descending is completed.

Hereinafter, the structure of the drawer part 32 will be described.

12 is a perspective view of the drawer. And, Figure 13 is an exploded perspective view of the drawer.

As shown, the drawer part 32 is provided on the inside of the drawer body 38 and the drawer body 38 to form the overall shape of the drawer part 32 to lift the container and food. It may include a lifting device 80 and a plurality of plates 391 and 392 forming the inner exterior of the drawer 32.

In detail, the drawer body 38 may be injection formed of a plastic material, and forms the overall shape of the drawer part 32. The drawer body 38 has a basket shape with an open top surface to form a food storage space therein. The rear surface of the drawer body 38 may be an inclined surface 321, so that interference with the machine room 3 may not occur.

The door frame 316 may be mounted on both sides of the drawer part 32. The door frame 316 may be coupled to the frame mounting portions 383 on both sides of the lower surface of the drawer unit 32 or the lower left and right sides of the drawer unit 32, and the door frame 316 is coupled to the drawer unit 32 The drawer part 32 and the door part 31 may be integrally coupled to be drawn in and out together.

Draw-out racks 34 may be provided on both left and right sides of the lower surface of the drawer part 32. The drawer part 32 may be withdrawn in the front and rear direction by the withdrawal rack 34. In detail, at least a portion of the drawer part 32 is located inside the storage space while being mounted on the cabinet 10. In addition, the withdrawal rack 34 may be coupled to a pinion gear (141 in FIG. 25) provided on the bottom surface of the storage space. Accordingly, when the pull-out motor 14 is driven, the pinion gear 141 rotates to move the pull-out rack 34, and the door 30 can be pulled out.

Of course, the door 30 is not automatically pulled in and out, and the user may push or pull the door 30 to pull in and out. In this case, the pull-out rack 34 is omitted, and the draw-out rail 33 ), the withdrawal may be guided only.

Rail mounting portions 382 on which draw-out rails 33 for guiding the draw-out of the drawer body 38 are mounted may be formed under both side surfaces of the drawer body 38. The rail mounting portion 382 extends from a front end to a rear end, and a space may be formed therein to accommodate the draw-out rail 33.

Further, the drawer body 38 may be provided with a plurality of plates 391 and 392 made of a plate-shaped metal material such as stainless steel to form at least a part of the interior and exterior of the drawer body 38.

In detail, outer side plates 391 may be provided on both left and right side surfaces outside the drawer body 38. The outer side plates 391 are mounted on both left and right sides of the drawer body 38 to form the exterior of both sides, and in particular, the door frame 316 and the draw-out rails mounted on both sides of the drawer body 38 ( 33) It can be prevented from being exposed to the outside.

A plurality of reinforcing ribs 384 may be formed on both sides of the outer surface of the drawer body 38 to intersect in the horizontal and vertical direction. The reinforcing rib 384 increases the strength of the drawer body 38 itself so that the drawer body 38 is more resistant to the weight of the door increased by the provision of the driving device 40 and the lifting device 80. It can be made to keep its shape firmly.

In addition, the reinforcing ribs 384 may support the outer side plates 391 mounted on both side surfaces, and thus, the appearance of the drawer part 32 may be maintained firmly.

Inner side plates 392 may be provided on both left and right sides of the drawer body 38 inside. The inner side plate 392 is mounted on both left and right side surfaces of the drawer body 38 and may form both left and right side surfaces of the drawer body 38.

Meanwhile, an elevating device 80 may be provided inside the drawer body 38. The lifting device 80 has a structure that is connected to the driving device 40 so as to be able to move up and down, and both left and right sides may be raised and lowered uniformly.

In order to couple the lifting device 80 and the driving device 40, drawer openings 35 are formed at both ends of the lower front side of the drawer part 32. The drawer opening 35 is positioned at a position facing the cover opening 315a and may be formed in a shape corresponding to the cover opening 315a. That is, so as not to interfere with rotation of the scissor side connector 842 having a shape protruding from the rotation axis of the lifting device 80 to one side, the drawer opening 35 has a radius of the scissor side connector 842 It can be formed equal to or larger in size. In addition, the drawer opening 35 may be formed to have a size that can be shielded by the hole cover 43.

On the other hand, the lifting device 80 is configured as a scissor type, and is folded in a lowered state, and unfolded in an elevated state so that the container or food seated on the upper surface is raised and lowered.

In addition, the lifting device 80 may include a support plate 81, and the support plate 81 may provide a seating surface of the container 36 or a surface on which food is seated.

Meanwhile, the height of the drawer opening 35 may be located at a position lower than the upper end of the lifting device 80, that is, the upper surface of the support plate 81. Accordingly, in the state in which the lifting device 80 is mounted, it is possible to prevent the drawer opening 35 from being visible to the inside of the drawer part 32 in any state.

In addition, the support plate 81 has a size and shape corresponding to the front space to prevent foreign matters from penetrating into the lifting device 80 provided below the front space S1, and the lifting device 80 By blocking access to ), safety accidents can be fundamentally prevented.

The drawer cover 37 is bent at an upper end of the vertical portion 371 and the vertical portion 371 partitioning the inside of the drawer body 38 into a front space (S1) and a rear space (S2). It may include a horizontal portion 372 shielding the upper surface of the space (S2).

That is, when the drawer cover 37 is mounted, only the front space S1 in which the lifting device 80 is disposed may be exposed inside the drawer body 38, and the rear space S2 is the drawer. It can be shielded by the cover 37.

Further, a restraining protrusion 375 may be formed at the lower end of the drawer cover 37, and when the lifting device 80 is mounted, the restraining protrusion 375 is restrained so that the drawer cover 37 is fixedly mounted. You can keep it in state.

Hereinafter, the structure of the drawer cover 37 will be described in more detail.

14 is a cut-away perspective view of the drawer part. And, FIG. 15 is an exploded perspective view of a drawer cover that is a component of the drawer. And, FIG. 16 is a cross-sectional view taken along line XVI-XVI' of FIG. 14. And, FIG. 17 is a cross-sectional view XVII-XVII' of FIG. 14. And, FIG. 18 is a cross-sectional view XVIII-XVIII' of FIG. 14. And, FIG. 19 is a partially cut-away perspective view showing a constrained state of the lifting device and the drawer cover.

As shown in the drawing, the drawer cover 37 includes a vertical portion 371 that divides the inside of the drawer portion 32 back and forth, and a rear space of the drawer portion 32 at an upper end of the vertical portion 371. It may include a horizontal portion 372 shielding the upper surface.

The front space partitioned by the drawer cover 37 may be formed to correspond to the size of the lifting device 80. Accordingly, the front surface of the drawer cover 37 may be substantially close to the rear surface of the lifting device 80.

The vertical part 371 may extend upward from the bottom of the drawer part 32. In addition, the vertical portion 371 may include a vertical surface 371a and an inclined surface above the vertical surface 371a. The vertical surface 371a may form a lower end of the vertical part 371, and may extend perpendicularly to the bottom surface of the drawer part 32 while the drawer cover 37 is fixed. In this case, the height H of the vertical surface 371a may correspond to the height of the lifting device 80 in a state in which the lifting device 80 is mounted. Accordingly, when the rear surface of the lifting device 80 faces the vertical surface 371a, the width between the vertical surfaces 371a is formed to be very narrow, so that the user's hand or foreign matter is not interposed therebetween.

The inclined surface 371b extends upward from the upper end of the vertical surface 371a, and may extend in a slightly inclined rearward state. That is, the inclined surface 371b may extend to the upper end of the drawer part 32 in a state inclined rearward by a set angle γ based on the vertical surface 371a. Accordingly, the cool air introduced from the rear of the drawer part 32 may be introduced between the container inside the drawer part 32 and the inclined surface 371b. Through the smooth inflow of cold air, the circulation of cool air inside the drawer 32 may be activated, and cold damage of food due to stagnation of cold air or freezing and frost in the inside and outside of the drawer 32 is prevented.

Meanwhile, the vertical portion 371 and the horizontal portion 372 may be injection formed of a plastic material. The vertical part 371 may have a lower end rotatably coupled to the drawer part 32, and a rear end of the horizontal part 372 may be coupled to a rear upper end of the drawer part 32. In addition, an upper end of the vertical portion 371 and a front end of the horizontal portion 372 may be rotatably coupled.

In addition, a vertical plate 373 and a horizontal plate 374 may be provided on the vertical portion 371 and the horizontal portion 372, respectively. The vertical plate 373 and the horizontal plate 374 may form the outer surface of the drawer cover 37. In addition, the vertical plate 373 and the horizontal plate 374 may be formed of the same stainless material as the outer side plate 391 and the inner side plate 392. Accordingly, the inner space of the drawer 32 may have a metallic texture as a whole.

The vertical plate 373 may be formed to have a size and shape corresponding to the vertical portion 371. A vertical plate hole 374b may be formed at a lower end of the vertical plate 373. The vertical plate hole 374b may be formed by cutting the lower end of the vertical plate 373 so that the constraining protrusion 375 formed at the lower end of the vertical portion 371 passes. A plurality of vertical plate holes 374b may be formed along the lower end of the vertical plate 373, and may be formed at positions corresponding to the constraining protrusions 375.

A plate step 373a may be formed on an upper end of the vertical plate 373. The plate stepped portion 373a may have a corresponding size and shape so that the plate bent portion 374a formed at the front end of the horizontal plate 374 may be seated. Accordingly, in a state in which both the vertical plate 373 and the horizontal plate 374 are mounted, the entire drawer cover 37 has a metallic texture, and a sense of unity with the interior and exterior of the drawer 32 can be obtained.

Meanwhile, as shown in FIG. 16, a vertical step portion on which the plate step portion 373a is seated may be formed on an upper end of the vertical portion 371. Accordingly, the vertical plate 373 may be in close contact with the entire front surface of the vertical portion 371.

In addition, a vertical groove 371c for coupling with the horizontal portion 372 may be formed at an upper end of the vertical portion 371. In addition, a horizontal rotation shaft 372b may be formed below the front end of the horizontal portion 372. The horizontal rotation shaft 372b may be spaced apart from the lower surface of the horizontal part 372 and may be provided at an end of the horizontal connection part 372a extending from the lower surface of the horizontal part 372. The horizontal connection part 372a may support both left and right side ends of the horizontal rotation shaft 372b.

In a state in which the horizontal portion 372 and the vertical portion 371 are coupled, the horizontal portion 372 may be rotated in a clockwise direction around the horizontal rotation shaft 372b. In addition, in the state as shown in FIG. 16, the horizontal portion 372 cannot be rotated counterclockwise due to interference of the plate bent portion 374a of the horizontal plate 374, and the horizontal portion 372 is in a horizontal state. While maintaining it is possible to shield the upper surface of the rear space (S2).

In addition, as shown in FIG. 17, a vertical rotation shaft 371e may be formed at a lower end of the vertical portion 371. The vertical rotation shaft 371e allows the vertical part 371 to be coupled to the drawer part 32 in a rotatable state. The vertical rotation shaft 371e is formed at a position spaced rearward from the rear surface of the vertical portion 371. Further, a vertical connection portion 371d extending rearward is provided at a lower rear surface of the vertical portion 371, and the vertical rotation shaft 371e may be provided at an end of the vertical connection portion 371d. The vertical connection part 371d may support both left and right side ends of the vertical rotation shaft 371e.

Meanwhile, a bottom groove 380a in which the vertical rotation shaft 371e is accommodated may be formed on a bottom surface of the storage space of the drawer part 32, that is, a bottom surface of the drawer body 38. The bottom groove 380a may be formed at a position where the bottom surface and the inclined rear surface of the drawer part 32 meet. In addition, the vertical portion 371 may extend upward from the boundary between the bottom surface and the inclined rear surface of the drawer portion 32. Accordingly, the front space (S1) inside the drawer unit 32 partitioned while the drawer cover 37 is mounted may have a space such as a rectangular parallelepiped without an inclined section, and the lifting device 80 Can be accommodated. In addition, the rear space S2 may be used as a concept of an auxiliary storage space because the rear surface is inclined. The inclined rear surface of the drawer part 32 is due to the arrangement of the machine room 3, and it can be said that the storage space inside the cabinet 10 is efficiently used.

The vertical part 371 is rotatable in a clockwise direction (as seen in FIG. 17) around the vertical rotation shaft 371e. Since the vertical connection part 371d extends rearward from the lower end of the vertical part 371, rotation is restricted due to interference with the bottom surface of the drawer part 32 when the vertical part 371 attempts to rotate clockwise. do.

In addition, when the bottom groove 380a is opened upward and the vertical part 371 is lifted upward, the drawer cover 37 may be separated from the drawer part 32. Of course, the bottom groove 380a is formed in a structure in which the vertical rotation shaft 371e is press-fit, so that the drawer cover 37 needs to be pulled by applying a force equal to or greater than the size set upward to separate the drawer cover 37.

A constraining protrusion 375 extending forward is formed at a lower end of the vertical part 371 to limit rotation of the drawer part 32 and separation of the drawer cover 37. The restraining protrusion 375 is formed at the lower end of the vertical portion 371, and may extend toward the lifting device 80 at a position corresponding to the cover restraining part 835. In addition, when the lifting device 80 is mounted, the restraining protrusion 375 may be pressed from the upper side by the cover restraining part 835.

In detail, the constraining protrusion 375 is formed in a shape protruding from the front surface of the vertical portion 371, and is positioned in the front space through the vertical plate hole 374b of the vertical plate 373. Further, a recessed constraining groove 375a may be formed on the upper surface of the constraining protrusion 375. The restraining groove 375a may be formed to be equal to or larger than the width of the cover restraining part 835 so that the cover restraining part 835 can be inserted.

Further, along the circumference of the constraining groove 375a, an edge portion of the constraining groove may extend upward. Therefore, as shown in FIG. 19, when the end of the cover restraint portion 835 is inserted into the restraining groove 375a, the cover restraint part 835 is prevented from being separated from the restraining groove 375a. Can be. In particular, the cover restraining part 835 is inserted from the upper side to the lower side into the restraining groove 375a, and presses the restraining protrusion 375 from the upper side due to the self-weight of the lifting device 80. Accordingly, it is possible to prevent the cover restraining part 835 from being unintentionally separated from the restraining groove 375a.

When the cover restraining part 835 is pressing the restraining protrusion 375 downward, the vertical part 371 cannot be rotated. Accordingly, in a state in which the lifting device 80 is mounted inside the drawer unit 32, the drawer cover 37 is constrained and cannot be separated or rotated. Accordingly, it is possible to prevent the drawer cover 37 from being arbitrarily separated or rotated and folded during the withdrawal process of the drawer door 30.

Meanwhile, a through hole 375c may be formed in the vertical portion 371 corresponding to the constraining groove 375a. The through hole 375c is formed to have a size corresponding to the restriction groove 375a. Further, the bottom surface 375b of the constraining groove 375a may be formed to have a slope that decreases toward the rear. Due to the structure of the through hole 375c and the bottom surface 375b, it is easy to mold the restraining protrusion 375 when the drawer part 32 is injection-molded.

As illustrated in FIG. 18, a horizontal groove 372d may be formed at a rear end of the horizontal portion 372. The horizontal groove 372d may be formed by a pair of horizontal extension portions 372c extending downward from a lower surface of the horizontal portion, and may be opened downward from a rear end of the horizontal portion 372. In addition, an upper protrusion 380c may be formed on a rear upper end of the drawer part 32. The upper protrusion 380c may be connected to an upper extension part 380b extending from an upper end of the drawer part 32. Both ends of the upper protrusion 380c may be supported by the upper extension part 380b. The horizontal portion 372 may be fixed by shielding the upper surface of the rear space S2 by the horizontal groove 372d and the upper protrusion 380c.

In the case of rotating or separating the drawer cover 37, the rear end of the horizontal portion 372, that is, the horizontal groove 372d and the upper protrusion 380c are separated, and the horizontal portion 372 is removed. It may be folded or the vertical part 371 may be separated from the drawer part 32.

Hereinafter, the structure of the lifting device 80 will be described in more detail with reference to the drawings.

20 is a perspective view of a lifting device according to an embodiment of the present invention. And, Figure 21 is a view showing a state in which the upper frame of the lifting device is raised. And, Figure 22 is a partial enlarged view showing a state in which the hole cover and the lifting device are coupled to the lever of the present invention.

As shown, the lifting device 80 may be provided on the bottom of the inner side of the drawer part 32, and may be detachably provided on the inside of the drawer part 32.

In addition, the lifting device 80 may include an upper frame 82 and a lower frame 83 and a scissor assembly 84 disposed between the upper frame 82 and the lower frame 83.

In detail, the upper frame 82 is formed in a rectangular frame shape corresponding to the size of the inner front space S1 of the drawer part 32, and the support plate 81 may be mounted on the upper surface.

The upper frame 82 is moved in the vertical direction of the lifting device 80 and substantially supports the food or container 36 together with the support plate 81.

The upper frame 82 may include a frame portion 821 forming a circumferential shape of the upper frame 82 as a whole, and a partition portion 822 partitioning the space inside the frame portion 821 into left and right sides. I can.

Since the frame portion 821 and the partition portion 822 are configured to form an outer frame and support the support plate 81, high strength is required. Accordingly, the frame portion 821 and the partition portion 822 are metal It may be formed of a material, and may be formed in a shape in which both ends are bent to increase strength and prevent deformation.

Further, a slide guide 824 for guiding the movement of the scissor assembly 84 may be formed on the lower side of the frame part 821 by receiving the end of the scissor assembly 84.

The scissor assembly 84 may be disposed in the spaces 823 and 824 on both sides of the partition 822, respectively.

The slide guide 824 may define a long hole 824a through which the scissor assembly 84 can pass. Accordingly, the scissor assembly 84 can be moved along the slide guide 824.

The lower frame 83 may have the same or similar structure to the upper frame 82 only in a direction different from that of the upper frame 82.

The lower frame 83 may include a frame portion and a partition portion. In addition, a slide guide 834 may be formed on the upper surface of the lower frame 83 to accommodate the end of the scissor assembly 84 to guide the movement of the scissor assembly 84.

The slide guide 834 may define a long hole 834a through which the scissor assembly 84 can pass. Accordingly, the scissor assembly 84 can be moved along the slide guide 834.

The scissor assembly 84 may be provided on both left and right sides, and both sides of the scissor assembly 84 operate by receiving power from one driving motor 64, so that it can be raised and lowered by the same height at the same time.

Therefore, even when supporting a heavy load, it can be effectively lifted and lowered by a pair of the scissors assembly 84, which is independently applied to both sides, and at this time, the scissors assembly 84 is the upper frame 82, that is, The support plate 81 may be elevated in a horizontal state.

The scissor assembly 84 may include a first scissor frame 841 in the form of a square frame, and a second scissor frame 845 in the form of a rectangular frame rotatably connected to the first scissor frame 841. have.

The left and right widths of the second scissor frame 845 may be smaller than the left and right widths of the first scissor frame 841. Accordingly, the second scissor frame 845 may be connected to the first scissor frame 841 while being positioned within an area formed by the first scissor frame 841.

The first scissor frame 841 may include a lower shaft 841a and an upper shaft 841b extending in a horizontal direction.

The lower shaft 841a is rotatably supported by the lower frame 83, and the upper shaft 841b is disposed to pass through the sliding guide 824 of the upper frame 82.

The first scissor frame 841 may be connected to a first rod 841a extending in a vertical direction and an upper shaft 841b.

The second scissor frame 845 includes a lower shaft 851a and an upper shaft (not shown) extending in a horizontal direction, and a first rod 852a and a second rod 852b extending in the vertical direction. I can.

The first scissor frame 841 may include a scissor-side connecting portion 842 protruding to be connected to the lever 42. The scissor side connection part 842 is formed at an end of the extension part 842b extending from the first scissor frame 841 and the extension part 842b, and has a shape corresponding to the receiving space 422c. (842c) may be included.

The lever 42 may include a lever-side connecting portion 422 for receiving the scissor-side connecting portion 842 for coupling with the scissor-side connecting portion 842. The scissor side connection part 842 may be formed in a shape corresponding to the receiving space 422c of the lever side connection part 422. That is, the scissor-side connection portion 842 may be formed in a shape extending from a circular axis of rotation to one side, and may be formed in a shape corresponding to the rotation boss portion 422b and the lever-side protrusion 422a.

That is, the end of the scissor side connection portion 842 may be formed in a non-circular shape. Therefore, when the lever 42 is rotated while the scissor side connection part 842 is accommodated in the lever side connection part 422, the lever 42 is prevented from spinning with the scissors side connection part 842 Can be. In addition, the scissor-side connection portion 842 may transmit a greater force for the operation of the lifting device 80.

In the scissor side connection part 842, the extension part 842b and the coupling part 842c pass through the drawer opening 35, and the coupling part 842c is the receiving space 422c of the lever-side connection part 422. ) It is inserted into the inside so that the power of the driving device 40 can be transmitted to the lifting device 80.

Hereinafter, a state in which the door 30 of the refrigerator 1 according to an embodiment of the present invention having the above structure is pulled out and moved up and down will be described in more detail with reference to the drawings.

23 is a perspective view of the lower drawer door in a closed state.

Referring to FIG. 23, the refrigerator 1 maintains a state in which both the rotating door 20 and the door 30 are closed when food is stored. In this state, the user can store food by pulling out the door 30.

The door 30 may be provided with a plurality of upper and lower, and may be opened and extended by a user's manipulation.

At this time, the user's operation can be operated by touching the rotating door 20 or the operation unit 301 provided on the front of the door 30, and opening by the operation device 302 provided at the bottom of the door 30 Input of manipulation may be possible.

In addition, the operation unit 301 and the operation device 302 may be configured to individually operate the withdrawal of the door 30 and the lifting and lowering of the lifting device 80, respectively. Of course, it will also be possible for the user to hold the handle of the door 30 and open it.

And, hereinafter, the opening and elevation of the lower drawer door 30b among the doors 30 disposed in the upper and lower directions is described for example, but both the upper and lower doors 30 are withdrawn in the same manner. It will be able to be elevated.

24 is a perspective view of the lower drawer door completely open. 25 is a cross-sectional view of the drawer door in a state in which the container of the lower drawer door is completely lowered. And, Figure 26 is a perspective view showing the state of the driving device and the lifting device in the state of Figure 25.

As shown, the lower drawer door 30b is pulled forward according to the user's pulling out operation of the lower drawer door 30b. The lower drawer door 30b may be pulled out while the pull-out rail 33 is extended.

On the other hand, the lower drawer door 30b may be configured not to be opened by pulling directly by a user, but to be withdrawn by driving the withdrawal motor 14.

The draw-out rack 34 provided on the bottom surface of the lower drawer door 30b may be coupled with a pinion gear 141 that is rotated when the draw-out motor 14 provided in the cabinet 10 is driven, and thus The lower drawer door 30b is pulled in and out as the pull-out motor 14 is driven.

The draw-out distance of the lower drawer door 30b may be extended to at least a distance at which the front space S1 inside the drawer part 32 can be completely exposed to the outside. Accordingly, in such a state, when the lifting device 80 is raised or lowered, the container or food does not interfere with the doors 20 and 30 or the cabinet 10 disposed above.

In this case, the draw-out distance of the lower drawer door 30b may be determined by the draw-out detection device 15 disposed on the cabinet 10 and/or the lower drawer door 30b.

The in/out detection device 15 may be configured as a detection sensor that detects a magnet 389 so that the lower drawer door 30b is completely pulled out or closed.

For example, as shown, a magnet 389 may be provided on the bottom of the drawer 32 and a detection sensor may be provided on the cabinet 10. The withdrawal detection device 15 corresponds to the position of the magnet 389 when the lower drawer door 30b is closed and the position of the magnet 389 when the lower drawer door 30b is completely withdrawn. It can be provided in a position. Accordingly, it is possible to determine the state of the drawing in and out of the lower drawer door 30b by the drawing in/out detecting device 15.

In addition, if necessary, a switch is provided at a position where the lower drawer door 30b is completely retracted and a position at which the lower drawer door 30b is completely retracted, so that the lower drawer door 30b may be sensed withdrawal and/or rotation of the withdrawal motor 14 The number may be counted, or the withdrawal of the lower drawer door 30b may be detected by a sensor measuring a distance between the rear surface of the door 31 and the front end of the cabinet 10.

When the lower drawer door 30b is completely withdrawn, the driving motor 64 is driven to operate the lifting device 80. The elevating device 80 may be configured to be operated in a situation in which the lower drawer door 30b is sufficiently drawn out to ensure a safe elevating of the food or container 36 seated in the elevating device 80.

That is, when the lower drawer door 30b is pulled out and the front space S1 is completely exposed to the outside, the lifting device 80 is operated and the container 36 seated in the lifting device 80 or stored It is possible to prevent food from interfering with the other doors 20 and 30 or the cabinet 10.

Looking in more detail at the state in which the lower drawer door 30b is pulled out, when the lower drawer door 30b is pulled out for lifting, the front space S1 is completely outside the lower storage space 12. It must be withdrawn.

In particular, the rear end (L1) of the front space (S1) must be in a state that is more pulled out than the front end (L2) of the cabinet 10 or the upper door 20, and prevent interference when the lifting device 80 is elevated. In order to prevent it, it must be located in front of the cabinet 10 or the front end L2 of the upper door 20 at least.

In addition, when the lifting device 80 is pulled out to be driven, the entire drawer 32 is not completely pulled out and, as shown in FIG. 24, only to a position to avoid interference during lifting of the lifting device 80. Can be withdrawn. At this time, at least a portion of the rear space S2 of the drawer 32 is located inside the lower storage space 12. That is, the rear end L3 of the drawer part 32 is positioned at least inside the lower storage space 12.

Therefore, even when the weight of the lower drawer door 30b including the driving device 40 and the lifting device 80 is added to the weight of the storage object, the draw-out rail 33 or the lower drawer door 30b ) It is possible to ensure stable withdrawal and lifting operation without sagging or damage of itself.

Before the lifting device 80 is raised, the lever 42 and the screw holder are located in the lowest position. The lifting detection device 90 detects this and determines that the current state is a state in which the lifting device 80 is completely lowered.

When it is determined that the lifting device 80 is in a completely lowered state by the lifting detection device 90, the driving device 40 starts operation when the user manipulates or completely withdraws the lower drawer door 30b. can do.

27 is a cross-sectional view of the drawer door when the container of the lower drawer door is completely raised. And, Figure 28 is a perspective view showing the state of the driving device and the lifting device in the state of Figure 27.

As shown, in a state in which the lower drawer door 30b is withdrawn, when an operation signal of the driving device 40 is input, the driving device 40 is operated, and the lifting of the lifting device 80 is performed. Thus, the state as shown in FIG. 27 may be obtained.

In this embodiment, the lifting of the lifting device 80 means that the upper frame 82 is raised by the scissor assembly 84, and the descending of the lifting device 80 is caused by the scissor assembly 84. This means that the upper frame 82 is lowered.

The driving device 40 is in a state connected to the lifting device 80, and thus, power can be transmitted to the lifting device 80. With the start of the operation of the driving device 40, power is transmitted to the lifting device 80, and the lifting device 80 starts to ascend.

In detail, when the driving motor 64 rotates forward and backward by a rising or falling signal of the lifting device 80, the driving device 40 starts an operation.

Looking at the operation of the lifting device 80 ascending, the driving gear 651 rotates by the driving of the driving motor 64. The rotational force of the drive motor 64 is transmitted to the crossover gears 655 and 656 through the first to third transmission gears 652, 653 and 654 by the rotation of the drive gear 651.

The second helical gear portions 657 and 657a connected to the crossing gears 665 and 656 are rotated by the crossing gears 655 and 656 to change the power transmission direction. In addition, the screws 52 and 52a connected to the second helical gear units 657 and 657a are rotated.

At this time, since the same rotational force is transmitted to the screws 52 and 50a on both sides, the screw holders 56 and 56a are simultaneously raised by the same height.

As the screw holders 56 and 56a rise, the lever 42 connected to the screw holders 56 and 56a rotates. As the lever 42 connected to the screw holders 56 and 56a is rotated, the height of the lever 42 is increased, and a first connected to the lever 42 is increased by increasing the height of the lever 42. 1 The height of the first rod 842a of the scissor frame 841 is increased.

The scissor assembly 84 can be unfolded by increasing the height of the first rod 842a of the first scissor frame 841.

Eventually, as the scissor assembly 84 is unfolded, the upper frame 82 rises, and the container 36 or food seated on the support plate 81 rises, and finally, as shown in FIG. The lifting device 80 is raised to the maximum height.

On the other hand, the lifting device 80 is continuously raised and stops when it is raised to a sufficient height to facilitate access to the food or container 36 mounted on the lifting device 80 as shown in FIG. 27. In such a state, the user can easily lift the food or container 36 without excessively bowing the waist.

When the lifting device 80 is raised, the lever 42 and the screw holder are located at the highest positions, and the lifting detection device 90 detects this and the current state is determined by the lifting device 80 It is judged to be in a completely elevated state.

When it is determined by the lifting detection device 90 that the lifting device 80 is in a fully raised state, the driving motor 64 is stopped. In such a state, the lifting device 80 is located inside the drawer part 32, but the food or container 36 seated in the lifting device 80 is more than the opened upper surface of the drawer part 32. It can be located in a high position, allowing easy access by the user.

In particular, since it is not necessary to bend the waist excessively for lifting the container 36, a safer and more convenient operation is possible.

Looking in more detail at the state in which the lifting device 80 is raised to the maximum, the lifting device 80 is positioned at a lower position than at least the upper end of the drawer part 32.

When the container 36 is seated in the driving device 80 and viewed from the container 36, the upper end H1 of the container 36 is the upper end H2 of the lower storage space 12. ) Can be raised to a higher position. The height at this time is such that the user can reach out and lift the container 36 without bending the waist, and may be the most suitable height for use.

That is, the driving device 40 has a structure that is lifted from the inside of the drawer part 32, but the container 36 is in a state in which the container 36 is seated in the lifting device 80. It can be located at a height that is easily accessible.

After the user's food storage operation is completed, the user may lower the lifting device 80 by operating the operation unit 301. The lowering of the lifting device 80 may be performed by reverse rotation of the driving motor 64, and may be gradually performed through a process opposite to the above-described process.

In addition, when the lifting device 80 is lowered, it is in a state as shown in FIG. 23. At this time, the completion of the descending of the lifting device 80 is also performed by the lifting detection device 90. When the magnet is detected by the detection sensor 93 located below, the lifting device 80 determines that the descending has been completed, and the driving device 40 stops.

In addition, after the drive motor 64 is stopped, the lower drawer door 30b may be retracted. In this case, the lower drawer door 30b may be closed by a user's manipulation, or may be closed by driving the withdrawal motor 14. When the lower drawer door 30b is completely closed, the state as shown in FIG. 23 may be obtained.

On the other hand, the user can separate the lifting device 80 from the drawer part 32 when the lifting device 80 is not in use, and the drawer part 32 using the drawer cover 37 You can also adjust the dose of. Hereinafter, this will be described in more detail with reference to the drawings.

As shown in FIG. 29, when the lifting device 80 is accommodated in the drawer 32, the lifting device 80 is lifted up and down according to the user's operation and seated on the upper surface of the lifting device 80. Containers or food items can be lifted.

In a state in which the lifting device 80 is mounted, the cover restraining part 835 may press the restraining protrusion 375 to restrain it. Accordingly, the drawer cover 37 is not separated or rotated, and maintains a state of dividing the inside of the drawer part 32 into a front space and a rear space.

In particular, the front of the vertical portion 371 of the drawer cover 37 is located close to the rear end of the lifting device 80, so that the user's hand is caught between the lifting device 80 and the drawer cover 37 It can be prevented from getting caught.

And, in a state in which the drawer cover 37 is fixedly mounted and the container is seated in the lifting device 80, the inclined surface 371b of the vertical part 371 is inclined by a set angle γ. The cold air flowing from the upper side of the drawer part 32 is easily introduced between the container 36 and the drawer cover 37 to circulate the inside of the drawer part 32.

In addition, when the user does not use the lifting device 80 or wants to adjust the internal capacity of the drawer part 32, the lifting device 80 is separated from the drawer part 32. In order to separate the lifting device 80, the user lifts the lifting device 80 upward so that the lifting device connection part 842 and the driving device connection part 42 are separated from the inside of the drawer part 32. . At this time, when lifting while slightly rotating the lifting device 80 so that the rear end of the lifting device 80 faces upward, the lifting device 80 may be more easily separated from the drawer part 32.

When the lifting device 80 is completely separated from the drawer part 32 and is in a state as shown in FIG. 30, the interior of the drawer part 32 can be secured as much space as the space occupied by the lifting device 80. In addition, the drawer unit 32 can be used in an expanded capacity.

Meanwhile, the user may further expand the internal capacity of the drawer part 32 by folding the drawer cover 37. In order to fold the drawer cover 37, first, the horizontal groove 372d of the horizontal part 372 and the upper protrusion 380c are separated so that the rear end of the horizontal part 372 is the upper end of the drawer part 32. Separate from

In this state, the horizontal portion 372 is rotated clockwise around the vertical rotation shaft 371e. As the horizontal part 372 rotates, it is folded between the inclined rear surface of the drawer part 32 and the vertical part 371.

In addition, since the vertical portion 371 is in a state in which the restraint by the cover restraining portion 835 of the lifting device 80 is released, free rotation is possible. Accordingly, when the horizontal portion 372 is folded, the user rotates the vertical portion 371 clockwise based on the vertical rotation shaft 371e.

The vertical part 371 may be seated on the inclined rear surface of the drawer part 32 while the horizontal part 372 is folded, and thus the drawer part 32 has an internal capacity as shown in FIG. This can be extended to the maximum.

The drawer cover 37 may be mounted to divide the inside of the drawer 32 again in the reverse order described above. Of course, it will be possible to completely separate the drawer cover 37 from the drawer part 32.

In a state in which the drawer cover 37 is arranged to partition the inside of the drawer part 32, the lifting device 80 can be mounted again, and the lifting device 80 is When mounted inside, the cover restraining part 835 naturally presses the restraining protrusion 375 to keep the drawer cover 37 in a fixed state.

Claims (20)

A cabinet in which a storage space is formed;
A drawer-type door that opens and closes the storage space by drawing in/out and providing a storage space;
An elevating device that is elevated in the storage space; And
And a drawer cover provided in the storage space and partitioning the storage space into a front space provided with an elevating device and a rear space,
And a cover restraining portion for restraining the drawer cover in a state in which the lifting device is mounted on one side of the lifting device.
The method of claim 1,
Wherein the drawer cover is rotatably mounted on a bottom surface of the storage space.
The method of claim 2,
The cover restraint portion restricts rotation of the drawer cover by restricting a lower end of the drawer cover.
The method of claim 3,
When the lifting device is separated from the drawer-type door, the restraint of the lower end of the drawer cover is released.
The method of claim 3,
A machine room partitioned with the storage space in the cabinet and accommodating a compressor and a condenser is further included,
The drawer-type door is disposed in front of the machine room so that the rear surface of the drawer-type door is inclined,
Wherein the drawer cover is in close contact with the rear surface of the drawer-type door by rotation in a releasing state of restraint.
The method of claim 1,
The drawer cover is in contact with the rear end of the lifting device,
The cover restraint portion extends rearward from the rear end of the lifting device to restrain the drawer cover.
The method of claim 1,
The drawer cover,
A vertical portion extending from a bottom surface of the storage space to an upper end of the storage space and partitioning the storage space;
And a horizontal portion extending from an upper end of the vertical portion to a rear end of the storage space and shielding a portion of an upper surface of the storage space.
The method of claim 7,
The vertical part and the horizontal part are axially coupled, and the horizontal part may be folded toward the vertical part by a user.
The method of claim 8,
A refrigerator, characterized in that a rear restraining portion coupled to a rear upper end of the drawer door is formed at a rear end of the horizontal portion.
The method of claim 7,
And a restraining protrusion protruding forward from a position corresponding to the cover restraining part and restrained by the cover restraining part is formed at a lower end of the vertical part.
The method of claim 10,
A refrigerator, characterized in that a restriction groove opened upward is formed in the restriction protrusion, and the cover restriction portion is inserted from an upper side to a lower side.
The method of claim 10,
The lifting device,
A scissor assembly in which a plurality of rods rotatably cross each other;
A lower frame coupled to a lower end of the scissor assembly and seated on a bottom surface of the storage space;
It is coupled to the upper end of the scissor assembly, and includes an upper frame that is raised and lowered,
The cover restraining part protrudes from the lower frame and is bent to be inserted into the restraining groove.
The method of claim 7,
The vertical part,
A vertical surface extending perpendicularly to the bottom surface of the storage space at the lower end of the vertical part,
And an inclined surface extending from an upper end of the vertical surface to an upper end of the vertical part and inclined toward a rearward toward an upward direction.
The method of claim 13,
The vertical surface of the refrigerator, characterized in that extending to a height corresponding to the height of the lifting device.
A cabinet in which a storage space is formed;
A door including a door portion for opening and closing the storage space, and a drawer portion providing a storage space and having an inclined rear surface;
A rail connecting the door and the cabinet and for withdrawing the door;
A driving device provided on the door to provide power;
An elevating device provided inside the drawer and connected to the driving device to move a part of the drawer up and down; And
A lower end is rotatably mounted on the bottom surface of the drawer, and includes a drawer cover that divides the storage space forward and backward,
A refrigerator, characterized in that a cover restraining portion is formed on one side of the lifting device to restrain the drawer cover.
The method of claim 15,
A driving device connection part provided in the driving device and disposed toward the drawer part;
And a lifting device connection part protruding from the lifting part and penetrating the front surface of the drawer part and inserted into the driving device.
The method of claim 16,
The driving device,
Motor assembly;
A screw unit including a screw that is disposed on both sides of the motor assembly and is connected to the motor assembly to operate at the same time, and includes a rotating screw and a screw holder vertically moved along the screw;
And a lever that is coupled to the screw holder and rotates according to the movement of the screw holder, and is connected to the lifting device to provide power for lifting the lifting device.
The method of claim 17,
The lifting device,
A pair of scissor assemblies disposed on both left and right sides, the scissor side connection part being rotated around an axis to elevate;
An upper frame coupled to an upper end of the scissor assembly and forming a bottom surface to be raised and lowered in the drawer;
And a lower flame coupled to a lower end of the scissor assembly and seated on a bottom surface of the drawer.
The method of claim 15,
A restraining protrusion protruding forward is formed at the lower end of the drawer cover,
And the cover restraining part protrudes rearward and is coupled to the restraining protrusion when the lifting device is mounted.
The method of claim 19,
The drawer cover is rotated while the lifting device is separated from the inside of the drawer to be seated on an inclined surface of the drawer.

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