WO2021177547A1 - Space-customized refrigerator system - Google Patents

Abstract

An embodiment of the present invention relates to a space-customized refrigerator system comprising: a case which is positioned in a space separated from a wall, and of which the front and rear surfaces are opened; a plurality of refrigerators provided in the case, and exposed through the opened front or rear surface of the case; and storage members provided inside the case, and exposed through the same surface as the plurality of refrigerators, wherein at least one of the plurality of refrigerators is disposed to be approachable in the opposite direction of the other refrigerators.

Description

Spatial Refrigerator System

The present invention relates to a space arrangement type refrigerator system.

BACKGROUND ART In general, a refrigerator is a home appliance that is provided to store various foods for a long time with cold air generated by using a circulation of a refrigerant according to a refrigeration cycle.

In such a refrigerator, one or a plurality of storage compartments for freezing and storing storage objects are provided while being partitioned from each other. In this case, the storage chamber may be a storage chamber that is opened and closed by a rotary door, or may be a storage chamber that can be taken out or stored in a drawer type.

The storage compartment may include a freezer compartment for freezing storage of a storage object and a refrigerating compartment for refrigeration storage of an object to be stored, and may include two or more freezing compartments or two or more refrigerating compartments.

Recently, due to changes in kitchen environments and lifestyles, refrigerators that are installed by embedding the refrigerator in furniture or a wall, such as a built-in installation, and refrigerators that are composed of a module type and assembled with each other have been developed.

Representatively, Korean Patent Laid-Open Publication No. 10-2010-0000512 discloses a built-in type refrigerator installed to be accommodated inside a furniture cabinet.

In addition, Korean Patent Laid-Open No. 10-2012-0000642 discloses a modular refrigerator in which a cooling unit having a cooling device and a plurality of connection units having independent storage spaces are stacked and connected in various ways.

However, such refrigerators are arranged in a limited position on the wall in the indoor space, so there is a limitation in utilization and space composition.

An object of the present invention is to provide a space-arranged refrigerator system in which space utilization is increased through various combinations.

An object of the present invention is to provide a space-arranged refrigerator system with improved usability in a kitchen space.

An object of the present invention is to provide a space-arranged refrigerator system having an improved appearance by being configured to have a sense of unity with furniture in a kitchen space.

An object of the present invention is to provide a space-arranged refrigerator system in which different types of refrigerators are combined to increase usability in kitchens and living spaces.

An object of the present invention is to provide a space-arranged refrigerator system in which an additional device is provided on a top plate to further improve utilization in a kitchen space.

It is an object of the present invention to provide a space-arranged refrigerator system in which the interior is visualized and the stored article can be easily checked.

In the space arrangement type refrigerator system according to the embodiment of the present invention, a plurality of refrigerators are disposed inside a case spaced apart from a wall surface of an indoor space and opened to the front and rear, and the plurality of refrigerators are exposed in different directions to the user. can be placed accessible to

An accommodating member may be further provided in the inner space of the case, and front and rear exteriors may be formed by the accommodating member and the plurality of refrigerators.

The front surface of the refrigerator and the front surface of the accommodating member may be disposed on the same plane, and the door of the refrigerator and the exterior of the door of the accommodating member may be formed to have the same size and shape.

The plurality of refrigerators and the accommodating member may have the same horizontal width and may be disposed in combination inside the case.

The plurality of refrigerators are of different types, and a refrigerator suitable for a space in which each surface is in contact may be arranged.

An additional device that can be used for cooking may be disposed on the upper plate forming the upper surface of the case, and the additional device may be disposed in an area outside the vertical upper region of the refrigerator disposed below the upper plate.

At least a portion of the door of the refrigerator facing the indoor space among the plurality of refrigerators may be formed of a material capable of seeing through the inside.

A space arrangement type refrigerator system according to an embodiment of the present invention includes: a case located in a space away from a wall and having front and rear openings; a plurality of refrigerators provided inside the case and exposed to the open front or rear of the case; and a storage member provided inside the case and exposed on the same surface as the plurality of refrigerators, wherein at least one of the plurality of refrigerators may be disposed to be accessible from the opposite direction to the other refrigerators.

The case may be formed such that both sides between the front and rear are shielded.

The accommodating member may be provided in plurality, and may form the front or rear surface together with the refrigerator.

The plurality of refrigerators and the accommodating member may be continuously arranged so that side surfaces thereof are in contact with each other.

The plurality of refrigerators and the storage member may have the same size of space occupied inside the case.

The plurality of refrigerators includes two types of refrigerators each having a door structure different from each other, and different types of refrigerators may be disposed on the front and rear surfaces of the refrigerator.

The plurality of refrigerators may include: a first refrigerator including a first cabinet forming a first storage space and a first door rotatably mounted to the cabinet to open and close the first storage space; It may include a second refrigerator configured with a second cabinet forming a second storage space, and a second door mounted on the second cabinet so as to be able to be drawn in and out of the second cabinet to open and close the second storage space.

The first refrigerator and the second refrigerator may be arranged such that the first door and the second door are exposed in opposite directions.

A plurality of the first refrigerator or the second refrigerator may be provided on the same surface.

A plurality of the first refrigerator or the second refrigerator may be sequentially arranged with each other.

At least a portion of the first door may form a transparent see-through part so that the inside can be seen through.

The second door may be disposed at a position facing the wall of the room where the cooking appliance is disposed.

When the spatially disposed refrigerator system is disposed in an indoor space, the indoor space may be divided such that the second space exposed by the second door is narrower than the first space in the room viewed by the first door.

In another aspect, a space arrangement type refrigerator system according to an embodiment of the present invention includes: a top plate disposed above an indoor floor surface; a pair of side plates extending downward from the lower surface of the upper plate and spaced apart from each other in the transverse direction to form an accommodating space opened in the front-rear direction; a first refrigerator disposed on the open front of the accommodating space; a second refrigerator disposed on the opened rear surface of the accommodation space; and a plurality of accommodating members disposed on the front and rear surfaces of the first refrigerator and the second refrigerator together with the first refrigerator and the second refrigerator to form external appearances on the front and rear surfaces, wherein the first refrigerator and the second refrigerator have the same unit length. It is formed to have a horizontal width, and the horizontal width of the accommodating space may be formed to be an integer multiple of the unit length.

The first refrigerator and the second refrigerator may be disposed to contact each other based on a center line extending in the horizontal direction of the accommodation space.

The first refrigerator and the second refrigerator may be disposed to be spaced apart from each other based on a center line extending in the horizontal direction of the accommodation space.

Based on a center line extending in a horizontal direction through the accommodation space, the inserted ends of the first refrigerator and the second refrigerator may be disposed to pass through the center line by a set distance, respectively.

Based on a center line extending in the horizontal direction of the accommodation space, the first refrigerator and the second refrigerator may be arranged to cross the center line.

The storage member may be disposed on opposite sides of each of the first refrigerator and the second refrigerator.

The accommodating member may be provided in plurality, and may be formed to have a horizontal width equal to the unit length as that of the first refrigerator and the second refrigerator.

The first refrigerator, the second refrigerator, and the outer surfaces of the storage member may be the same as the outer end of the upper plate or may be located in the inner side.

The first refrigerator, the second refrigerator, and outer surfaces of the accommodating member may be disposed on the same plane.

An exposed surface of the first refrigerator may be formed by a first door opened and closed by rotation, and an exposed surface of the second refrigerator may be formed by a drawer-type second door that is drawn in and out.

The accommodating member may include: a first accommodating member including a rotatable accommodating door formed in the same size as the first door; and a second accommodating member formed to have the same size as the second door and including a drawer that is drawn in and out.

The first refrigerator, the second refrigerator, and the accommodating member may be formed to have the same vertical width in a direction in which they are inserted into the accommodating space.

Any one of the pair of side plates may be arranged to be in contact with the wall surface of the indoor space.

A machine room for accommodating a compressor and a condenser is formed at lower ends of the first refrigerator and the second refrigerator, and a suction port through which air sucked into the machine room is introduced and air inside the machine room are formed on the front surface of the machine room exposed to the front and rear surfaces. A discharge port through which is discharged may be formed.

The machine room may have exactly the same structure and shape in the first refrigerator and the second refrigerator.

A front surface of the machine room is provided with a grill cover in which the intake and discharge ports are formed, and a lower decoration extending along the lower end of the storage member is provided at the lower front end of the storage member, the lower decoration having the same height as the grill cover may be formed to have

The first refrigerator and the second refrigerator and the accommodating member may be insertedly or detachably mounted through the opened front and rear surfaces.

In another aspect, a space arrangement type refrigerator system according to an embodiment of the present invention includes: an upper plate forming an upper surface; a pair of side plates extending downward from the lower surface of the upper plate and forming an accommodating space opened to the front and rear surfaces; a plurality of refrigerators disposed inside the accommodation space and exposed to the front and rear surfaces; a storage member disposed inside the accommodation space and exposed to the front and rear surfaces together with the plurality of refrigerators; and an additional device mounted through the upper plate and operable from the upper side of the upper plate, wherein the additional device may be disposed on one side of the upper plate deviated from the vertical upper region of the plurality of refrigerators.

The attachment device may be disposed on one side of the upper plate corresponding to an upper region of the accommodating member.

The height of the accommodating member may be lower than the height of the refrigerator.

A boundary line between the plurality of refrigerators and the side surfaces of the storage member may be arranged to coincide with a boundary line between the unit areas.

The upper plate may be formed such that a plurality of unit areas are continuously arranged in one direction, and a width of each of the unit areas may be formed to correspond to a width of the refrigerator.

The attachment device may have a size disposed inside one unit area.

The additional device may be a cooktop unit exposed to the upper surface of the upper plate to heat and cook food.

The additional device may be a water purifying device that protrudes upward of the upper plate and extracts purified water.

The additional device may be a wireless power supply that is exposed to the upper surface of the upper plate and supplies power to the home appliance in an induced electromotive force method.

The attachment device may be a sink bowl that is depressed downward from the upper surface of the upper plate to wash food.

The space arrangement type refrigerator system according to an embodiment of the present invention can expect the following effects.

According to an embodiment of the present invention, when the spatially arranged refrigerator system is disposed in an indoor space, the space can be divided by the spatially arranged refrigerator system, and there is an advantage that the user can use the space more effectively. .

In particular, there is an advantage in that a refrigerator suitable for the divided space is provided in the spatial arrangement type refrigerator system to enable more effective activities in the divided space.

That is, the drawer-type refrigerator is disposed on the side facing the kitchen space of the space arrangement type refrigerator system so that the user can store and take out food necessary for cooking in the kitchen space with a minimum movement line, thereby increasing the utilization of the kitchen space. There is this.

In addition, the drawer-type refrigerator disposed toward the kitchen space is configured in a drawer type for easy storage of food when cooking food, and is divided into a plurality of compartments to accommodate food suitable for the corresponding compartment, thereby allowing cooking work in the kitchen space. There is an advantage that can further improve the convenience of

In addition, in the space arrangement type refrigerator system, a refrigerator having a rotating door is disposed on the side facing the indoor space, that is, the living space, so that drinks, water, wine, etc. that are frequently required by the user in the living space where the user resides are minimized. It has the advantage of improving the usability in the living space as it can be stored and taken out through the movement of the

In addition, since the door of the refrigerator having the rotary door is made transparent or selectively transparent, it is possible to intuitively check the inside of the rotary door in the living space, thereby further improving usability.

In addition, even if the refrigerator having the rotary door is provided in the low-level space arrangement type refrigerator system, it is possible to automatically open the refrigerator by the door opening device, thereby further improving the usability.

In addition, the space arrangement type refrigerator system may include a plurality of accommodating members on the same surface as the refrigerator. Accordingly, the space-arranged refrigerator system can store items that do not require low-temperature storage, and the space in which the spatially-arranged refrigerator system is disposed can be used more efficiently.

In addition, the refrigerator provided on one side of the space arrangement type refrigerator system has a rotating door, and the storage member provided on the corresponding side is arranged with a storage member having a rotating door having the same size, so that the appearance has a sense of unity and a neat appearance. There are advantages that can be provided.

In addition, the refrigerator provided on the other side of the space arrangement type refrigerator system has a drawer-type door, and the storage member provided on the corresponding side has a storage member having a drawer having the same size to provide a neat appearance with a sense of unity. There are advantages that can be In addition, the drawer and the drawer-type door of the refrigerator may be formed of the same material or have the same texture to further improve the appearance.

Meanwhile, the storage member and the refrigerators may have the same horizontal width as a unit length. Accordingly, the user can arrange a plurality of refrigerators and a plurality of storage members in various combinations in configuring the space arrangement type refrigerator system, and there is an advantage in that it is possible to maximize convenience of use and maximize space utilization.

In particular, the accommodating member and the refrigerators have a structure in which they can be inserted into and disposed on the front and rear surfaces of the refrigerators that are opened by the upper plate and the side plate. Accordingly, there is an advantage in that it is possible to easily implement a combination suitable for the purpose and usage habit required by the user. In addition, there is an advantage that a flexible space can be redesigned by disposing an additional refrigerator and a storage member or changing a location as needed.

In addition, the refrigerator disposed in the space arrangement type refrigerator system is arranged below the cabinet of the machine room to arrange the storage space upward as much as possible, so that the convenience of use in the space arrangement type refrigerator system with a relatively low installation position can be improved. There is an advantage.

In addition, the machine room is opened to the front, and the suction port for sucking in the air of the machine room and the discharge port for discharging the air of the machine room are disposed on the front side of the refrigerator to prevent a problem due to heat dissipation in the space arrangement type refrigerator system from occurring. And there is an advantage of guaranteeing the operating performance of the refrigerator.

In addition, a top plate is provided on the upper surface of the spatially arranged refrigerator system, so that even if the spatially arranged refrigerator system is disposed in an indoor space, it can be used as a cooking work space without loss of space, further improving space utilization can do it

In addition, additional devices such as a cooktop unit, a wireless power supply unit, a water purifier, and a sink bowl can be selectively disposed on the upper surface of the top plate, thereby maximizing ease of use and space utilization.

1 is a perspective view showing an interior of a space-arranged refrigerator system according to an embodiment of the present invention.

2 is a plan view showing an interior of the space-arranged refrigerator system.

3 is a plan view illustrating another interior in which the spatially disposed refrigerator system is provided.

4 is a perspective view of the space arrangement type refrigerator system viewed from the front.

5 is a perspective view of the space arrangement type refrigerator system as viewed from the rear.

6 is an exploded perspective view of the space arrangement type refrigerator system.

7 is an exploded perspective view in which the upper plate of the space arrangement type refrigerator is separated.

8 is a perspective view illustrating a second embodiment of a top plate of the space-arranged refrigerator system.

9 is a perspective view illustrating a third embodiment of a top plate of the space-arranged refrigerator system.

10 is a perspective view illustrating a fourth embodiment of a top plate of the space-arranged refrigerator system.

11 is a perspective view illustrating a fifth embodiment of a top plate of the space-arranged refrigerator system.

12 is a front view illustrating a first embodiment of the front configuration of the space-arranged refrigerator system.

13 is a front view illustrating a second embodiment of the front configuration of the space-arranged refrigerator system.

14 is a front view illustrating a third embodiment of the front configuration of the space-arranged refrigerator system.

15 is a rear view illustrating a first embodiment of a rear configuration of the spatially disposed refrigerator system.

16 is a rear view illustrating a second embodiment of the rear configuration of the spatially-arranged refrigerator system.

17 is a rear view illustrating a third embodiment of the rear configuration of the spatially disposed refrigerator system.

18 is a diagram illustrating an arrangement structure of unit components of the spatial arrangement type refrigerator system according to a first embodiment.

19 is a diagram illustrating an arrangement structure of unit components of the spatial arrangement type refrigerator system according to a second embodiment.

20 is a diagram illustrating a third embodiment of an arrangement structure of unit components of the spatial arrangement type refrigerator system.

21 is a diagram illustrating a fourth embodiment of the arrangement structure of the unit components of the system of the space arrangement type refrigerator.

22 is a view showing a fifth embodiment of the arrangement structure of the unit components of the spatial arrangement type refrigerator system.

23 is a perspective view of a front part refrigerator in the unit configuration of the space arrangement type refrigerator system.

24 is a perspective view showing an open door of the front refrigerator.

25 is an exploded perspective view of the front refrigerator.

26 is a cross-sectional view of the front refrigerator.

27 is an exploded perspective view of the cabinet of the front refrigerator;

28 is a perspective view of a machine room of the front refrigerator.

29 is a view showing the flow of air inside the machine room of the front refrigerator.

30 is a perspective view of a rear refrigerator in the unit configuration of the space-arranged refrigerator system.

31 is a perspective view with a drawer of the rear refrigerator pulled out.

32 is a cross-sectional view of the rear refrigerator.

Hereinafter, a space arrangement type refrigerator system according to an embodiment of the present invention will be described with reference to the drawings.

1 is a perspective view showing an interior of a space-arranged refrigerator system according to an embodiment of the present invention. And, FIG. 2 is a plan view showing the interior of the space arrangement type refrigerator system.

As shown in the drawing, a wall surface 4 is configured in an indoor space such as a kitchen, and a space arrangement type according to an embodiment of the present invention on the floor surface 5 of the space away from at least one wall surface 4 A refrigerator system 1 may be arranged.

In detail, on the wall 4 of the kitchen, furniture such as the sink 2 may be arranged along the wall 4 . In addition, a gas range 3 and a hood may be disposed in the sink 2 of the kitchen. In addition, home appliances such as a refrigerator, an oven, and a microwave oven may be disposed on the wall 4 or furniture of the kitchen.

The spatial arrangement type refrigerator system 1 may be arranged in a space away from the wall surface 4 of the kitchen. That is, a space accessible by a user may be formed on a peripheral side of the spatially arranged refrigerator system 1 based on the spatially arranged refrigerator system 1 . Further, the refrigerators 100 and 300 are disposed on at least one surface and the opposite surface of the spatially disposed refrigerator system 1 , and thus the user may access the refrigerators 100 and 300 through at least two spaces.

In this case, different types of refrigerators 100 and 300 may be installed in the refrigerators 100 and 300 arranged in the space arrangement type refrigerator system 1 according to the characteristics of the spaces in contact with them. That is, the spatially arranged refrigerator system 1 may serve as a criterion for classifying indoor spaces, and refrigerators 100 and 300 suitable for a user's living or working environment are arranged based on the spatially arranged refrigerator system 1 . can be

Hereinafter, for explanation, a direction and a space will be defined with respect to the space arrangement type refrigerator system 1 .

A direction in which the sink 2 and the gas range 3 are arranged with respect to the spatial arrangement type refrigerator system 1 may be referred to as a rear direction, and may also be referred to as a kitchen side direction and a wall direction. In addition, one side of the spatially disposed refrigerator system 1 facing the sink 2 and the gas range 3 may be referred to as a rear surface, and may also be referred to as a kitchen side surface or a wall side surface.

In addition, the direction opposite to the direction in which the sink 2 and the gas range 3 are arranged with respect to the spatial arrangement type refrigerator system 1 may be referred to as a front direction, and may also be referred to as a living room side direction or an indoor direction. In addition, the opposite side facing the rear of the spatially disposed refrigerator system 1 may be referred to as a front side, and may also be referred to as a living room side surface or an indoor side surface.

In addition, the space between the space-disposed refrigerator system 1 and the wall surface 4 on which the sink 2 and the gas range 3 are disposed may be referred to as a rear space S1 or a kitchen space S1. In addition, the space in front of the spatial arrangement type refrigerator system 1 may be referred to as a front space S2 , a living space S2 , or a living space S2 . In general, the front space S2 may be a space outside the kitchen, or may be another space in the room, such as a living room where a person lives.

In addition, the left and right sides of the spatial arrangement type refrigerator system 1 may be referred to as a left space S3 and a right space S4, respectively. Any one of the left space S3 and the right space S4 may face the other wall surface 4 other than the wall surface 4 on which the sink 2 is installed.

In this way, a space in which the user can move may be arranged on all of the circumferential surfaces based on the space arrangement type refrigerator system 1 . That is, the spatially arranged refrigerator system 1 may be disposed at any position in an indoor space including a kitchen, and a user performs various tasks, including cooking, in a space divided based on the spatially arranged refrigerator system 1 . will be able to perform

On the other hand, in the refrigerators 100 and 300 arranged in the space arrangement type refrigerator system 1 , the refrigerators 100 and 300 having an appropriate shape may be arranged according to the arrangement characteristics of the space. That is, the refrigerators 100 and 300 are respectively exposed to the front and rear surfaces of the spatially arranged refrigerator system 1 that are exposed to the front space S2 and the rear space S1 divided based on the spatially arranged refrigerator system 1 . may be provided. In addition, these refrigerators 100 and 300 may have a structure reflecting the characteristics of the accommodation space. The structure of the refrigerators 100 and 300 will be described in more detail below.

In addition to the refrigerators 100 and 300 , a plurality of accommodating members 31 and 32 may be provided in the spatially disposed refrigerator system 1 . The accommodating members 31 and 32 serve to store food or objects, and a plurality of the accommodating members 31 and 32 may be disposed in combination with the refrigerators 100 and 300 in the space arrangement type refrigerator system 1 . As an example, the refrigerators 100 and 300 exposed to the outside of the space arrangement type refrigerator system 1 and the accommodating members 31 and 32, particularly the outer surfaces of the doors 31b and 32b of the accommodating member, may be formed of the same material. Even if it is formed of different materials, it may have a similar color or texture, and may have a harmonious appearance as a whole.

1 and 2 , the spatial arrangement type refrigerator system 1 has a structure in which it is disposed at a position separated from the wall surface 4 disposed at the rear and sides. Accordingly, the user can be accessible from all spaces on the front, rear, left, right, and right sides of the spatially arranged refrigerator system 1 , and the refrigerators 100 and 300 and the storage members 31 and 32 of the spatially arranged refrigerator system 1 are use becomes possible.

Meanwhile, the spatial arrangement type refrigerator system 1 may have various arrangement structures in addition to the arrangement structure described above. This will be described in more detail with reference to the drawings.

3 is a plan view illustrating another interior in which the spatially disposed refrigerator system is provided.

As shown in FIG. 3 , the spatially disposed refrigerator system 1 may be disposed between the kitchen space S1 and the living space S2 , and one side of the left and right side surfaces is the wall surface 4 of the room. ) can be placed in contact with In this case, the structure of the spatially disposed refrigerator system 1 itself may be the same as that of FIGS. 1 and 2 described above.

In addition, the wall surface 4 in contact with the side surface of the spatial arrangement type refrigerator system 1 may be connected to the wall surface on which the sink 2 is disposed in a state where it intersects. Of course, the wall surface 4 in contact with the side surface of the spatially disposed refrigerator system 1 may be configured separately from the wall surface 4 on which the sink 2 is disposed.

Therefore, when viewed with respect to the spatially arranged refrigerator system 1 , the rear space S1 may be formed between the wall 4 on which the sink 2 is disposed and the spatially arranged refrigerator system 1 . can In addition, the front space S2 may be formed opposite, ie, in front, of the rear space S1 with respect to the spatially disposed refrigerator system 1 .

In addition, the right side of the left and right side surfaces of the spatially arranged refrigerator system 1 may be in contact with the wall surface 4 to be covered, and the left side may be exposed to the indoor space. Accordingly, a left space S3 may be formed on the left side of the spatially disposed refrigerator system 1 . Of course, if necessary, the wall surface 4 may be configured to be in contact with the left side of the spatially disposed refrigerator system 1 .

Even in the space arrangement type refrigerator system 1 as shown in FIG. 3 , the refrigerators 100 and 300 may be exposed to the front space S2 and the rear space S1 , and the user can cook in the kitchen space S1 or Access to the spatial arrangement type refrigerator system 1 is possible during living in the living space S2.

As such, the space arrangement type refrigerator system 1 is arranged so that at least a front space S2 and a rear space S1 are formed, and serves to divide an indoor space into a kitchen space S1 and a living space S2. can

Hereinafter, the structure of the spatially disposed refrigerator system 1 will be described in more detail with reference to the drawings.

4 is a perspective view of the space arrangement type refrigerator system viewed from the front. And, Figure 5 is a perspective view of the space arrangement type refrigerator system viewed from the rear. And, FIG. 6 is an exploded perspective view of the space arrangement type refrigerator system.

As shown, the spatially disposed refrigerator system 1 may include, as a whole, a top plate 10 forming an upper surface, and side plates 20 forming left and right side surfaces. In addition, an accommodation space may be formed between the upper plate 10 and the side plate 20 . The accommodating space may be filled with a plurality of refrigerators 100 and 300 and accommodating members 31 and 32 . Of course, if necessary, the side plate 20 may be omitted, and only one side plate 20 may be provided. A configuration that provides the accommodating space in which the refrigerators 100 and 300 and the accommodating members 31 and 32 are disposed including the top plate 10 and the side plate 20 may be referred to as a case.

In detail, the top plate 10 is formed in a rectangular plate shape, and can be used as a space for a user to cook or to put an object on. The top plate 10 may be formed of various materials, such as stone, wood, or synthetic resin, depending on the shape of the exterior.

The upper plate 10 may form the entire upper surface of the space-arranged refrigerator system 1, and may be formed to shield the plurality of refrigerators 100 and 300 and the storage members 31 and 32 from above. . That is, the top plate 10 may be positioned upwardly away from the bottom surface ( 5 in FIG. 1 ) on which the spatially disposed refrigerator system 1 is installed. In addition, a space in which the refrigerators 100 and 300 and the accommodating members 31 and 32 can be arranged is provided below the upper plate 10 .

In addition, the upper plate 10 is formed to be equal to or larger than the sum of the top surface areas of at least the plurality of refrigerators 100 and 300 and the accommodating members 31 and 322, so that a plurality of the refrigerators 100 and 300 and the accommodating members 31 and 32 are formed. All of the upper plate 10 may be arranged inside the lower space.

In addition, an additional configuration for assisting the operation on the top plate 10 may be further disposed on the top plate 10 if necessary. Accordingly, the top plate 10 may have a predetermined thickness, and if necessary, the plurality of refrigerators 100 and 300 and the upper surfaces of the receiving members 31 and 32 are spaced apart from each other to mount additional components on the top plate 10 . You may be able to reserve space for it. Various configurations of the top plate 10 will be described in more detail below.

Side plates 20 extending downward may be provided at left and right both ends of the upper plate 10 . The side plate 20 forms the left and right sides of the spatially disposed refrigerator system 1 . In addition, it may be formed to cover the plurality of refrigerators 100 and 300 and the accommodating members 31 and 32 provided in the space arrangement type refrigerator system 1 from the sides.

A height H3 of the side plate 20 may correspond to a height H3 of the refrigerator and the storage members 31 and 32 . In addition, the vertical width D of the side plate 20 may have a size corresponding to the vertical width D of the top plate 10 . In addition, the vertical width D of the side plate 20 is at least that of the refrigerators 100 and 300 or the accommodating members 31 and 32 disposed to face each other on the front and rear surfaces of the spatially disposed refrigerator system 1 . It may be formed to correspond to the vertical width (depth D1).

Accordingly, in the state in which the space-arranged refrigerator system 1 is disposed in an indoor space, the plurality of refrigerators 100 and 300 and the accommodating members 31 and 32 include the top plate 10 and the pair of side plates 20 . It may be disposed inside the space to be formed. That is, in a state in which the upper plate 10 and the pair of side plates 20 are coupled, the front and rear surfaces facing each other may be opened, and the refrigerators 100 and 300 and the storage member 31 may be opened through the front and rear openings. , 32) can be installed. In a state in which the refrigerators 100 and 300 and the accommodating members 31 and 32 are mounted, the front and rear surfaces of the space-arranged refrigerator system 1 are the refrigerators 100 and 300 and the accommodating members 31 and 32, respectively. can be formed by

The refrigerators 100 and 300 and the accommodating members 31 and 32 do not protrude from the outer end of the upper plate 10 and the outer side of the side plate 20 , and the front and rear surfaces of the space-arranged refrigerator system 1 . The exterior can be formed by filling the gaps without gaps.

The front side refrigerator 100 may be provided on the front side of the spatially disposed refrigerator system 1 .

The front refrigerator 100 is a refrigerator used in the living space S2 separated from the kitchen space S1, and may be configured so that the user can check the inside while the door 130 is closed. To this end, the door 130 of the front refrigerator 100 may have a structure that is opened and closed by rotation.

In the front refrigerator 100 , alcoholic beverages or beverages such as wine and champagne, and food products for use by the user of the living space S2, such as water, may be stored. To this end, the front refrigerator 100 may be configured to maintain the storage temperature of the image. For example, the front refrigerator 100 may maintain a storage space temperature of approximately 4°C to 18°C.

In addition, a rear refrigerator 300 may be provided on the rear surface of the spatially disposed refrigerator system 1 .

The rear refrigerator 300 may be provided at the rear of the spatially disposed refrigerator system 1 facing the sink 2 , and may be disposed to be accessible from the kitchen space S1 . In addition, the rear refrigerator 300 can be mainly used for cooking food in the kitchen space S1, so it has a drawer-type drawer door 330 structure, and a plurality of drawer doors 330 are arranged up and down. It may be configured to be able to separate and store a plurality of foods.

The rear refrigerator 300 allows a user of the kitchen to take out or store foods used for cooking, and foods directly used for cooking, such as meat, seafood, vegetables, and fruits, may be stored. To this end, the rear refrigerator 300 may be configured to maintain a temperature above zero and below zero. For example, the rear refrigerator 300 may be partitioned into a plurality of upper and lower spaces, and each partitioned space may be configured to be adjustable at a temperature above zero or below zero to store various foods at a suitable temperature. . Accordingly, various ingredients used for cooking in the kitchen can be stored in an optimal state using the rear refrigerator 300 .

Meanwhile, the front refrigerator 100 and the rear refrigerator 300 may be formed to have the same size, and thus may have the same mounting structure in the space-arranged refrigerator system 1 , and may be mounted on each other. It can also be installed by changing the position.

The front refrigerator 100 and the rear refrigerator 300 may have the same external structure of the cabinets 101 and 103 and the structure of the machine room 201 except for the front door 130 and 330 and the internal configuration. In particular, the machine room 201 and the machine room frame 200 have a single structure, and the front refrigerator 100 and the rear refrigerator 300 are in the machine room 201 having the same structure. (101, 301) can be configured by changing the internal structure.

The front refrigerator 100 may be referred to as a first refrigerator 100 , 300 to distinguish it from the rear refrigerator 300 , and the rear refrigerator 300 may be referred to as a second refrigerator 100 , 300 . In addition, the cabinet of the front refrigerator 100 is called a first cabinet 101, the door is called a first door 130, the cabinet of the rear refrigerator 300 is called a second cabinet 301, and the door is called a second door ( 330) can also be called.

In addition, the machine room frame 200 forming the machine room 201 of the refrigerators 100 and 300 may be provided below the cabinets 101 and 301 , that is, at the lower end of the refrigerators 100 and 300 . The machine room 201 is a space in which components such as a compressor 261 0 and a condenser 262 constituting a refrigeration cycle for cooling the refrigerators 100 and 300 are disposed, and is disposed below the cabinets 101 and 301 and is located in front can be opened with

The front of the machine room 201 is formed on the grill cover 220, and the grill cover 220 has an inlet 225a and an outlet 225b, so that air can be sucked into and discharged into the machine room 201. can be configured to That is, the refrigerators 100 and 300 are disposed inside the space-arranged refrigerator system 1 and come in contact with other refrigerators 100 and 300 , the storage members 31 and 32 and the side plate 20 , so that the remaining surfaces except for the front surface. Even in this blocked state, the inflow and discharge of air into and out of the machine room 201 can be made smoothly, and cooling of the compressor 261 and heat exchange with the condenser 262 can be facilitated.

Due to such a structure, the refrigerators 100 and 300 mounted inside the spatially arranged refrigerator system 1 can operate normally even if a separate air flow space is not formed inside the spatially arranged refrigerator system 1 . have.

Meanwhile, the height H3 of the side plate 20 may be equal to the height H2 of the front surface of the machine room 201 exposed to the front plus the height H1 of the door 130 . At this time, the height H1 of the door 130 is the vertical height H1 of the rotary door 130 of the front refrigerator 100 and the upper end of the drawer 32b from the lower end of the drawer 32b of the rear refrigerator 300 . It can correspond to the height H1 of up to .

In addition, the space arrangement type refrigerator system 1 may further include a plurality of storage members 31 and 32 providing independent storage spaces in addition to the front refrigerator 100 and the rear refrigerator 300 . The accommodating members 31 and 32 may be arranged side by side with the front refrigerator 100 and the rear refrigerator 300 , and the space arrangement type together with the front refrigerator 100 and the rear refrigerator 300 . It can form the front and rear exterior of the refrigerator system 1 .

In this case, the storage members 31 and 32 have the same size as the front refrigerator 100 or the rear refrigerator 300, and have a similar external structure to the space-arranged refrigerator system 1 in a mounted state. It forms an exterior in harmony with the installed front refrigerator 100 and the rear refrigerator 300 .

For example, the accommodating member 31 may include a accommodating body 31a forming an accommodating space, and a accommodating door 31b for shielding the opened front surface of the accommodating body 31a. The accommodating member 31 including the accommodating body 31a and the accommodating door 31b may be referred to as a first accommodating member 31 .

The storage door 31b may be formed to have the same size as the door 130 of the front refrigerator 100 . In addition, the storage door 31b may be formed of the same material as the door 130 in size and shape, and the front surface of the refrigerator 100 and the storage member 31 are the same when viewed from the front. Or you can make it look similar.

In addition, a lower decor 33 forming a front exterior of the storage body 31a may be further formed on a lower surface of the storage door 31b. The lower decor 33 may have the same height H2 as the front height H2 of the machine room 201 , that is, the grill cover 220 .

Therefore, as shown in FIG. 4 , the front refrigerator 100 and the first storage member 31 disposed on the front of the space-arranged refrigerator system 1 have the size of the door 130 and the storage door 31b. is the same, and the height (H2) of the machine room 201 and the height (H2) of the lower decoration 33 are configured to be the same, so that it can have a sense of unity as a whole.

In addition, the accommodating member 32 may include a accommodating body 32a for forming a accommodating space and a drawer 32b for shielding the open front of the accommodating body. The accommodating member 32 including the accommodating body 32a and the drawer 32b may be referred to as a second accommodating member 32 .

The size of the front portion of the drawer 32b may be formed to have a size corresponding to that of the drawer door 330 of the rear refrigerator 300 . In addition, the distance from the upper end to the lower end of the drawer door 330 disposed up and down may be formed to correspond to the distance from the upper end to the lower end of the drawer 32b. In addition, the size of each of the drawers 32b disposed up and down may be the same as the size of the drawer door 330 disposed up and down. In addition, the outer surface of the drawer 32b and the outer surface of the drawer door 330 may be formed to have the same color or texture. In addition, the outer surface of the drawer 32b and the outer surface of the drawer door 300 may be formed of the same material so that the exterior of the space-arranged refrigerator system 1 has a more unity.

In addition, the lower decor 33 is formed at the lower front end of the second housing member 32, and is formed to have the same height H2 as the front surface of the machine room 201, so that the lower exterior can be harmonized. .

Accordingly, as shown in FIG. 5 , the rear refrigerator 300 and the second accommodating member 32 disposed on the rear side of the space-arranged refrigerator system 1 are the front portions of the drawer door 330 and the drawer 32b. The size is the same, and the height H2 of the machine room 201 and the height H2 of the lower decoration 33 are configured to be the same, so that it can have a sense of unity as a whole.

In this way, the front refrigerator 100 and the rear refrigerator 300 and the plurality of storage members 31 and 32 disposed inside the space-arranged refrigerator system 1 have the same height, horizontal and vertical widths. It can be configured to have Accordingly, the front refrigerator 100 and the rear refrigerator 300 and the plurality of accommodating members 31 and 32 may be disposed in combination with each other in a module type.

That is, the position of the front refrigerator 100 is not limited to the left end as shown in FIG. 4 , but may be located in the middle or right end. In addition, a plurality of the front refrigerator 100 may be provided.

In addition, the position of the rear refrigerator 300 is not limited to the center as shown in FIG. 5 , but may be located at both left and right ends. In addition, a plurality of the rear refrigerator 300 may be disposed.

As such, the space arrangement type refrigerator system 1 can be configured by disposing the front refrigerator 100, the rear refrigerator 300, and the storage members 31, 32, 34, 35 in various combinations according to the user's preference. can In addition, the structure of the upper plate 10 may also have various forms.

7 is an exploded perspective view in which the upper plate of the space arrangement type refrigerator is separated.

As shown in the drawing, the front refrigerator 100, the rear refrigerator 300, and the accommodating members 31 and 32 may all have the same unit length and horizontal width W1. The front refrigerator 100, the rear refrigerator 300, and the storage members 31 and 32, which form the interior of the spatially disposed refrigerator system 1 and provide variously combined structures, are referred to as unit configurations. In addition, the horizontal width W1 of these unit components may be formed to have the same unit length.

Accordingly, the number of unit lengths varies according to the number of the front refrigerator 100 or the rear refrigerator 300 continuously arranged in the horizontal direction and the number of the storage members 31 and 32 to be combined. The overall transverse width W of the refrigerator system 1 may be determined.

And, the top plate 10 may be configured in a flat plate shape. The first embodiment of the top plate 10 provides a flat working space in a plate shape without adding additional components to the top plate as shown, and the user can cook simple or eat food on the top plate 10 . be able to put it up. Accordingly, the top plate 10 may be called a working table in consideration of the fact that work such as cooking is performed.

The vertical width of the top plate 10 may be equal to or slightly larger than the vertical width D of the side plate 20 . In addition, the horizontal width Wt of the upper plate 10 may be equal to or larger than the horizontal width W between the pair of side plates 20 . In addition, the upper plate 10 may be divided into a plurality of unit areas A1 , A2 , and A3 having the same horizontal width Wt in the horizontal direction.

The number of the plurality of unit areas A1, A2, and A3 may be determined according to the number of the front refrigerator 100 and the rear refrigerator 300 and the storage members 31 and 32 arranged in the horizontal direction. The horizontal width Wt of one unit area A1 , A2 , A3 of the upper plate 10 is the horizontal width W1 of the front refrigerator 100 , the rear refrigerator 300 , and the storage members 31 and 32 . ), that is, it may be formed equal to or somewhat larger than the unit length. At least, the boundary of each unit area A1, A2, A3 of the upper plate 10 should coincide with the boundary between the front refrigerator 100, the rear refrigerator 300, and the storage members 31 and 32 in contact with each other. can Accordingly, the front refrigerator 100, the rear refrigerator 300, and the housing members 31 and 32 may each be located in the inner area of the unit areas A1, A2, and A3, and the unit area ( A1, A2, A3) may be located vertically below.

Meanwhile, the upper plate 10 may further include an additional device 15 for performing a cooking operation on the upper plate or improving the utilization of the upper plate. A specific example of the additional device 15 will be described in more detail below.

The attachment device 15 may be mounted inside the top plate 10 . In addition, the attachment device 15 may further protrude downward through the upper plate 10 . Accordingly, when the additional device 15 is mounted on the upper plate 10 , the additional device 15 and the front refrigerator 100 and the rear refrigerator 300 may be mounted so as not to interfere with each other.

That is, the additional device 15 may be disposed in unit areas A1 and A2 other than the vertical upper area of the front refrigerator 100 and the rear refrigerator 300 . In other words, the front refrigerator 100 and the rear refrigerator 300 may not be disposed vertically below the unit area A3 in which the additional device 15 is mounted.

The additional device 15 may be disposed to be located inside one unit area, but unit areas A1, A2, A3 that are not positioned vertically above the front refrigerator 100 and the rear refrigerator 300 If there are a plurality of these additional devices 15 , the additional device 15 may be disposed over a plurality of unit areas A1 and A2 . Of course, if there are a plurality of unit areas A1, A2, and A3 that are not positioned vertically above the front refrigerator 100 and the rear refrigerator 300, a plurality of unit areas A1, A2, and A3 are added to the plurality of unit areas A1, A2, and A3. It would also be possible for the device 15 to be arranged.

Meanwhile, since the internal storage capacity and volume of the front refrigerator 100 and the rear refrigerator 300 are fixed, a predetermined height H3 can be maintained. In addition, in a state in which the front refrigerator 100 and the rear refrigerator 300 are disposed, the additional device 15 may not be mounted on the front refrigerator 100 and the rear refrigerator 300 .

In addition, the height H4 of the storage member may be lower than the height H3 of the front refrigerator 100 and the rear refrigerator 300 . In this case, even if the attachment device 15 is disposed vertically above the accommodation members 31 and 32 , the accommodation members 31 and 32 and the attachment device 15 do not interfere with each other. That is, a predetermined space may be provided between the accommodation body of the accommodation member and the attachment device. Of course, among the plurality of accommodating members 31 and 32, only the accommodating members 31 and 32 located at positions facing the attachment device 15 may be formed to have a corresponding height H4.

In addition, although not shown, the structure of the storage body 31 and 32 of the storage members 31 and 32 is omitted in whole or in part, and the storage door 31b or the drawer 32b is located inside the corresponding space. It may be configured to be mounted. That is, a storage space may be provided inside the storage door 31b and the drawer 32b, but the upper surface is opened so that the attachment device 15 does not interfere with the attachment device 15 even when the attachment device 15 is mounted. have.

Hereinafter, various combinations and configurations of the spatially arranged refrigerator system 1 will be described. First, a structure in which various additional devices 15 are disposed on the upper plate 10 will be described with reference to the drawings.

8 is a perspective view illustrating a second embodiment of a top plate of the space-arranged refrigerator system.

As shown in the drawing, in the second embodiment of the top plate 10 , a cooktop unit 11 may be provided on one side of the top plate 10 as an example of the additional device 15 . The cooktop unit 11 is for heating and cooking food and may be mounted to be exposed to the upper surface through the upper plate 10 . For example, the cooktop unit 11 may be configured by induction, and a highlight and a gas range may be disposed. A plurality of induction ports 11a may be disposed in the cooktop unit 11 to enable a plurality of cooking.

The top plate 10 may be divided into three unit areas A1 , A2 , and A3 in the horizontal direction, and in this case, the cooktop unit 11 may be disposed in the third unit area A3 . The front refrigerator 100 and the rear refrigerator 300 are not disposed vertically below the third unit area A3 in which the cooktop unit 11 is disposed. That is, the cooktop unit 11 may be disposed on a vertical extension line different from that of the front refrigerator 100 and the rear refrigerator 300 . In the arrangement of the cooktop unit 11 as shown in FIG. 8 , the front refrigerator 100 and the rear refrigerator 300 may be positioned vertically below the first unit area A1 and the second unit area A2. have.

Meanwhile, the cooktop unit 11 may have a size that can be disposed inside the unit areas A1 , A2 , and A3 . Accordingly, the cooktop unit 11 may be configured in any one of the spaces of the upper plate 10 divided into a plurality of unit areas A1, A2, and A3 in consideration of the positions of the front refrigerator 100 and the rear refrigerator 300. It may be disposed on one side.

As such, by arranging the cooktop unit 11 on the upper plate 10 , the spatial arrangement type refrigerator system 1 can be combined with the cooktop unit 11 , and the space arrangement type refrigerator system 1 is There is an advantage in that it is possible to cook using the cooktop unit 11 together with the front refrigerator 100 , the rear refrigerator 300 or the storage members 31 and 32 within the space in which they are arranged.

9 is a perspective view illustrating a third embodiment of a top plate of the space-arranged refrigerator system.

As shown in the drawing, in the third embodiment of the upper plate 10 , a water purifying device 13 may be provided on one side of the upper plate 10 as an example of the additional device 15 . The water purifying device 13 includes a filter 13b for purifying supplied water, and an outlet 13a for taking out the water purified by the filter 13b from above the upper plate 10 . can do.

In addition, the filter 13b and pipes for water supply may be disposed in a space below the upper plate 10, and only the outlet 13a from which water is taken out may be mounted to protrude from the upper surface of the upper plate 10. have.

Therefore, when the user needs water for cooking on the top plate 10 or the user needs water for drinking, he operates the ejection unit 13a to receive purified water through the space arrangement type refrigerator system. be able to receive

The discharge part 13a may be disposed in various positions, but a predetermined space may be required below the upper plate 10 for the arrangement of the filter 13b and the water supply pipes connected to the discharge part 13a. . In this case, the water purifying device 13 is disposed on different vertical lines that do not overlap with the front refrigerator 100 or the rear refrigerator 300 so that the water purifying device 13 and the front refrigerator 100 or the rear portion Interference with the refrigerator 300 can be prevented.

In detail, the upper plate 10 may be divided into three unit areas A1 , A2 , and A3 in the horizontal direction, and in this case, the extraction part 13a may be disposed in the first unit area A1 . The front refrigerator 100 and the rear refrigerator 300 are not disposed vertically below the first unit area A1 in which the take-out part 13a is disposed. That is, the ejection portion 13a may be disposed on a vertical extension line different from that of the front refrigerator 100 and the rear refrigerator 300 . In the arrangement of the ejection unit 13a as shown in FIG. 9 , the front refrigerator 100 and the rear refrigerator 300 may be positioned vertically below the second unit area A2 and the third unit area A3. have.

Meanwhile, the ejection portion 13a may be formed to have a size that can be disposed inside the unit areas A1 , A2 , and A3 . Therefore, the take-out part 13a is any one of the spaces of the upper plate 10 divided into a plurality of unit areas A1, A2, A3 in consideration of the positions of the front refrigerator 100 and the rear refrigerator 300. It may be disposed on one side.

10 is a perspective view illustrating a fourth embodiment of a top plate of the space-arranged refrigerator system.

As shown in the drawing, in the fourth embodiment of the top plate 10 , a wireless power supply unit 12 may be provided on one side of the top plate 10 as an example of the additional device 15 . The wireless power supply unit 12 is capable of supplying or charging power to the electronic devices 12a and 12b by induced electromotive force, and may be configured to generate an induced electromotive force therein.

The wireless power supply unit 12 may be mounted to be exposed to the upper surface through the upper plate 10 . Accordingly, when a small home appliance such as a coffee pot 12a or a blender is placed on the wireless power supply unit 12, power is supplied and can be operated. In addition, when an electronic device capable of wireless charging, such as a mobile phone 12b, is placed on the wireless power supply unit 12, charging may be performed.

The top plate 10 may be divided into three unit areas A1, A2, and A3 in the horizontal direction, and in this case, the wireless power supply unit 12 may be disposed in the first unit area A1. The front refrigerator 100 and the rear refrigerator 300 are not disposed vertically below the first unit area A1 in which the wireless power supply unit 12 is disposed. That is, the cooktop unit 11 may be disposed on a vertical extension line different from that of the front refrigerator 100 and the rear refrigerator 300 . In the arrangement of the cooktop unit 11 as shown in FIG. 10 , the front refrigerator 100 and the rear refrigerator 300 may be positioned vertically below the second unit area A2 and the third unit area A3. have.

On the other hand, the wireless power supply unit 12 may be formed in a size that can be arranged inside the unit areas (A1, A2, A3). Accordingly, the wireless power supply 12 is a space of the upper plate 10 divided into a plurality of unit areas A1, A2, A3 in consideration of the positions of the front refrigerator 100 and the rear refrigerator 300. It may be disposed on either side.

11 is a perspective view illustrating a fifth embodiment of a top plate of the space-arranged refrigerator system.

As shown in the drawing, in the fifth embodiment of the top plate 10 , a sink bowl 14 may be provided on one side of the top plate 10 as an example of the attachment device 15 . The sink bowl 14 may have a structure in which a space recessed downward from the upper surface of the upper plate 10 is provided, and a water supply part 14a is provided on one side and a drain part 14b is provided on the other side. .

Therefore, it is possible to clean and organize food for cooking through the sink bowl 14 . The sink bowl 14 may be formed to have a predetermined depth, and a predetermined space may be required under the upper plate 10 for pipe connection between the water supply part 14a and the drain part 14b. . In this case, the sink bowl 14 is disposed at a position that does not overlap the front refrigerator 100 or the rear refrigerator 300 so that the sink bowl 14 and the front refrigerator 100 or the rear refrigerator 300 are disposed. ) can be prevented from interfering with

In detail, the upper plate 10 may be divided into three unit areas A1 , A2 , and A3 in the horizontal direction, and in this case, the sink bowl 14 may be disposed in the second unit area A2 . The front refrigerator 100 and the rear refrigerator 300 are not disposed vertically below the second unit area A2 in which the sink bowl 14 is disposed. That is, the sink bowl 14 may be disposed on a vertical extension line different from that of the front refrigerator 100 and the rear refrigerator 300 . In the arrangement of the sink bowl 14 as shown in FIG. 11 , the front refrigerator 100 and the rear refrigerator 300 may be positioned vertically below the first unit area A1 and the third unit area A3. have.

Meanwhile, the sink bowl 14 may have a size that can be disposed inside the unit areas A1 , A2 , and A3 . Therefore, the sink bowl 14 is any one of the spaces of the upper plate 10 divided into a plurality of unit areas A1, A2, A3 in consideration of the positions of the front refrigerator 100 and the rear refrigerator 300. It may be disposed on one side.

As such, by arranging the sink bowl 14 on the top plate 10 , the spatial arrangement type refrigerator system 1 can be combined with the cooktop unit 11 , and the space arrangement type refrigerator system 1 is There is an advantage in that it is possible to cook using the sink bowl 14 together with the front refrigerator 100 , the rear refrigerator 300 , or the storage members 31 and 32 in the arranged space.

Meanwhile, in the space arrangement type refrigerator system 1 , the front refrigerator 100 , the rear refrigerator 300 and the storage members 31 and 32 may be arranged in various combinations in the space below the upper plate 10 . .

Hereinafter, various combinations of the spatial arrangement type refrigerator system 1 will be described in more detail with reference to the drawings.

12 is a front view illustrating a first embodiment of the front configuration of the space-arranged refrigerator system.

As shown in the figure, side plates 20 are disposed on both sides of the front surface of the space-arranged refrigerator system 1, and the front refrigerator 100 has three unit lengths between the side plates 20. and two first accommodating members 31 may be provided.

Only one of the front refrigerator 100 may be disposed in the space arrangement type refrigerator system 1 , and may be disposed at one end among left and right both ends. As shown as an example, the front refrigerator 100 may be disposed on the leftmost side so as to be in contact with the side plate 20 disposed on the left side.

In this case, the door 130 of the front refrigerator 100 may be opened by rotating the rotating shaft around the left end. Accordingly, even when the door 130 of the front refrigerator 100 is opened, the opening and closing of the adjacent accommodating members 31 and 32 can be prevented from being interfered with.

Two of the first accommodating members 31 may be sequentially disposed on the side of the front refrigerator 100 . Accordingly, the entire width W between the side plates 20 can be filled by the front refrigerator 100 and the first accommodating members 31 .

In this case, the first accommodating member 31 may have a horizontal width W1 equal to the same unit length as that of the front refrigerator 100 , and may have the same height H3 . In addition, the storage door 31b of the first storage member 31 and the door 130 of the front refrigerator 100 may have the same size. Accordingly, when viewed from the front, the front surface of the spatially arranged refrigerator system 1 may have a uniform overall appearance and a neat appearance.

Meanwhile, the front door 130 of the front refrigerator 100 may be formed of a transparent material such as glass so that the inside can be seen through. In addition, a coating or a film may be attached to the door 130 so that the inside of the front refrigerator 100 may be selectively viewed or controlled not to be seen.

The front of the spatially arranged refrigerator system 1 faces the space in which the user lives or stays, such as the front space S2, that is, the living space S2, so that the front refrigerator 100 is always recognized by the user. can In such a state, when beverages, alcoholic beverages, water, etc. frequently used by the user are stored, the user can easily check through the door 130 of the front refrigerator 100, and the front space where the user stays ( In S2), it is possible to immediately access the food inside the refrigerator 100 in the front part.

In addition, in order to maximize user convenience, the front refrigerator 100 may automatically open the door 130 by the door opening device 180 . In this case, the door opening device 180 may be operated by a user's proximity sensing by a sensing device provided in the front refrigerator 100 , or may be operated by a touch manipulation of the door 130 . have.

In addition, a machine room 201 may be provided at the lower end of the front refrigerator 100 , and the machine room 201 has an inlet and an outlet 225b formed in the grill cover 220 forming the front, respectively. Air may be introduced into the 201 , and the air inside the machine room 201 may be discharged to the front. That is, even in a state in which the front refrigerator 100 and the first accommodating members 31 are installed in the space-arranged refrigerator system 1 in a state in which they are in close contact with each other in the horizontal direction, the front refrigerator 100 can be operated normally. It is possible to ensure an air flow structure in the machine room 201 for operation.

Meanwhile, the storage door 31b forming the front surface of the first storage member 31 may also have a structure that is opened and closed by rotation like the front refrigerator 100 . In this case, the rotation direction of the storage door 31b may be such that one side far from the front refrigerator 100 is rotated as a rotation axis. Accordingly, even when the door 130 and the storage door 31b of the front refrigerator 100 are opened together, the inside of the front refrigerator 100 may not be covered.

In addition, the storage door 31b may be formed to have the same size as the door 130 of the front refrigerator 100 so that the exterior has a sense of unity. In addition, the storage door 31b and the door 130 may be formed of the same material or the same material so that the exterior of the space-arranged refrigerator system 1 has a more unity.

13 is a front view illustrating a second embodiment of the front configuration of the space-arranged refrigerator system.

As shown in the figure, side plates 20 are disposed on both sides of the front surface of the space-arranged refrigerator system 1, and the front refrigerator 100 has three unit lengths between the side plates 20. It may have a structure in which two and one first accommodating member 31 are provided.

Two of the front refrigerators 100 may be sequentially disposed in the space-arranged refrigerator system 1 , and may be sequentially disposed at one end of both left and right ends. As an example, the front refrigerator 100 includes one front refrigerator 100 so as to be in contact with the side plate 20 disposed on the left side, and successively another front refrigerator 100. can be placed.

The front refrigerator 100 that is continuously arranged may have the same structure as each other. However, the door 130 of the front refrigerator 100 disposed on the left has a rotation shaft disposed at the left end, and the door 130 of the front refrigerator 100 disposed on the right side has a rotation shaft disposed at the right end. and can be opened while rotating in opposite directions to each other.

Accordingly, even when the door 130 of one of the front refrigerators 100 is opened, the other front refrigerator 100 is not covered, so that it is possible to prevent inconvenience to use. In addition, even when the doors 130 of the front refrigerator 100 on the left and right sides are all opened, the front refrigerator 100 on the left and right sides is not covered, thereby making it easier to use.

One of the first accommodating members 31 may be disposed on the side of the front refrigerator 100 , that is, at a position in contact with the side plate 20 on the right side. Accordingly, the entire width W between the side plates 20 can be filled by the two front refrigerators 100 and one first storage member 31 .

In this case, the first accommodating member 31 may have a horizontal width W1 equal to the same unit length as that of the front refrigerator 100 , and may have the same height H3 . In addition, the storage door 31b of the first storage member 31 and the door 130 of the front refrigerator 100 may have the same size. Accordingly, when viewed from the front, the front surface of the spatially arranged refrigerator system 1 may have a uniform overall appearance and a neat appearance.

14 is a front view illustrating a third embodiment of the front configuration of the space-arranged refrigerator system.

As shown in the figure, side plates 20 are disposed on both sides of the front surface of the space-arranged refrigerator system 1, and the front refrigerator 100 has three unit lengths between the side plates 20. It may have a structure in which two and one first accommodating member 31 are provided.

Two of the front refrigerators 100 may be disposed in the spatially disposed refrigerator system 1 , and may be disposed on both left and right sides so as to be in contact with the left and right side plates 20 . In addition, the outer surfaces of the front refrigerator 100 disposed on the left and right sides may be in contact with the side plate 20 positioned on the left side and the side plate 20 positioned on the right side, respectively.

The front refrigerator 100 disposed on both sides may have the same structure as each other. However, the door 130 of the front refrigerator 100 disposed on the left has a rotation shaft disposed at the left end, and the door 130 of the front refrigerator 100 disposed on the right side has a rotation shaft disposed at the right end. and can be opened while rotating in opposite directions to each other.

In addition, the first accommodating member 31 may be provided between the front refrigerator 100 disposed on both left and right sides. The side surfaces of the front refrigerator 100 may be disposed on both sides of the first accommodating member 31 to be in contact with each other. Accordingly, the entire width W between the side plates 20 can be filled by the two front refrigerators 100 and one first storage member 31 .

In this case, the first accommodating member 31 may have a horizontal width W1 equal to the same unit length as that of the front refrigerator 100 , and may have the same height H3 . In addition, the storage door 31b of the first storage member 31 and the door 130 of the front refrigerator 100 may have the same size. Accordingly, when viewed from the front, the front surface of the spatially arranged refrigerator system 1 may have a uniform overall appearance and a neat appearance.

Meanwhile, in the space-arranged refrigerator system 1 , the horizontal width W may be increased by an integer multiple of the unit length according to the number of the front refrigerator 100 and the first accommodating member 31 arranged in the horizontal direction. . That is, the number of the front refrigerator 100 and the number of the first accommodating members 31 may be determined according to the user's needs, and the overall size of the space-arranged refrigerator system 1 may be determined.

15 is a rear view illustrating a first embodiment of a rear configuration of the spatially disposed refrigerator system.

As shown in the drawing, side plates 20 are disposed on both sides of the rear surface of the space-arranged refrigerator system 1, and the rear refrigerator 300 2 having three unit lengths between the side plates 20 It may have a structure in which dogs and one of the second accommodating members 32 are provided.

Two of the rear refrigerators 300 may be sequentially disposed in the space-arranged refrigerator system 1 , and may be sequentially disposed at one end of both left and right ends. As an example, the rear refrigerator 300 is provided with one rear refrigerator 300 so as to be in contact with the side plate 20 disposed on the left side, and another rear refrigerator 300 is continuously disposed. can

The rear refrigerator 300 arranged in series may have the same structure as each other. In addition, due to the characteristics of the structure of the drawer door 330 that is drawn out and drawn out in the front, it may have a structure in which the drawer door 330 can be drawn in and out without any interference with the adjacent rear refrigerator 300 and the second storage member 32 .

In addition, a machine room 201 may be provided at the lower end of the rear refrigerator 300, and the machine room 201 has an intake port 225a and an outlet port 225b formed in the grill cover 220 forming the front side, respectively. Air may be introduced into the machine room 201 , and the air inside the machine room 201 may be discharged forward. That is, even when the rear refrigerator 300 and the second accommodating member 32 are mounted in the space-arranged refrigerator system 1 in a state in which they are in close contact with each other in the horizontal direction, the normal operation of the rear refrigerator 300 is performed. It is possible to ensure an air flow structure in the machine room 201 for

Meanwhile, one second accommodating member 32 may be disposed on the side of the rear refrigerator 300 , that is, at a position in contact with the side plate 20 on the right side. Accordingly, the entire width W between the side plates 20 can be filled by the two rear refrigerators 300 and one second accommodating member 32 .

In this case, the second accommodating member 32 may have a horizontal width W1 equal to the same unit length as that of the rear refrigerator 300 , and may have the same height H3 . In addition, the front of the drawer of the second storage member 32 may have the same size as the drawer door 330 of the rear refrigerator 300 , and is disposed on the side at the same height. Accordingly, when viewed from the front, the rear surface of the spatially arranged refrigerator system 1 may have a uniform appearance as a whole, and the exterior may be seen neatly.

Meanwhile, in the spatial arrangement type refrigerator system 1 , the horizontal width W may be increased by an integer multiple of the unit length according to the number of the rear refrigerator 300 and the second accommodating member 32 arranged in the horizontal direction. That is, the number of the rear refrigerator 300 and the number of the second accommodating members 32 may be determined according to the user's needs, and the overall size of the space-arranged refrigerator system 1 may be determined.

16 is a rear view illustrating a second embodiment of the rear configuration of the spatially-arranged refrigerator system.

As shown in the drawing, on the rear surface of the space arrangement type refrigerator system 1, side plates 20 are disposed on both sides, and a rear refrigerator 300 having three unit lengths between the side plates 20 and It may have a structure in which two second accommodating members 32 are provided.

Only one rear refrigerator 300 may be disposed in the spatially disposed refrigerator system 1 , and may be disposed at one end among left and right both ends. As shown as an example, the rear refrigerator 300 may be disposed on the leftmost side so as to be in contact with the side plate 20 disposed on the left side.

In addition, two of the second accommodating members 32 may be sequentially disposed on the side of the rear refrigerator 300 . Accordingly, the entire width W between the side plates 20 can be filled by the front refrigerator 100 and the second accommodating members 32 .

In this case, the second accommodating member 32 may have a horizontal width W1 equal to the same unit length as that of the front refrigerator 100 , and may have the same height H3 . Further, the drawer door 330 of the front side refrigerator 300 and the drawer 32b of the second storage member 32 may have the same size. Accordingly, when viewed from the front, the rear surface of the spatially arranged refrigerator system 1 may have a uniform appearance as a whole, and the exterior may be seen neatly.

17 is a rear view illustrating a third embodiment of the rear configuration of the spatially disposed refrigerator system.

As shown in the drawing, on the rear surface of the space arrangement type refrigerator system 1, side plates 20 are disposed on both sides, and a rear refrigerator 300 having three unit lengths between the side plates 20 and It may have a structure in which the two second accommodating members 32 are provided.

The rear refrigerator 300 may be disposed in the center of the rear of the space-arranged refrigerator system 1 . In addition, the second accommodating members 32 may be respectively disposed on both left and right sides of the rear refrigerator 300 , and may be disposed on both left and right sides so as to be in contact with the left and right side plates 20 . In addition, the outer surfaces of the second accommodating member 32 disposed on the left and right sides may be in contact with the side plate 20 positioned on the left side and the side plate 20 positioned on the right side, respectively.

The second accommodating members 32 disposed on both sides may have the same structure as each other. In addition, the second housing member 32 may have a horizontal width W1 equal to the same unit length as that of the rear refrigerator 300 , and may have the same height H3 .

In addition, the front of the drawer of the second storage member 32 may have the same size as the drawer door 330 of the rear refrigerator 300 , and is disposed on the side at the same height. Accordingly, when viewed from the front, the rear surface of the spatially arranged refrigerator system 1 may have a uniform appearance as a whole, and the exterior may be seen neatly.

Meanwhile, the spatial arrangement type refrigerator system 1 may have the above-described front and rear arrangement structures, and may have various arrangement structures by a combination of the unit structures disposed on the front and rear surfaces.

In addition, according to the arrangement of the front refrigerator 100 and the arrangement of the rear refrigerator 300 , a disposable position of the additional device 15 of the upper plate 10 may be determined. Accordingly, the arrangement of the additional device 15 and the front refrigerator 100 and the rear refrigerator 300 are correlated with each other, and the overall arrangement of the space arrangement type refrigerator system 1 is taken in consideration of their arrangement. configuration can be made.

Hereinafter, the arrangement structure of the unit components of the space arrangement type refrigerator system will be described with reference to the drawings.

18 is a diagram illustrating an arrangement structure of unit components of the spatial arrangement type refrigerator system according to a first embodiment.

As shown in the drawing, the spatially arranged refrigerator system 1 has a unit configuration that constitutes the front surface of the spatially arranged refrigerator system 1 in front, respectively, based on a center line C crossing the center in the front-rear direction. are arranged, and unit components constituting the rear surface of the spatially arranged refrigerator system 1 may be arranged at the rear.

The unit components, that is, the front refrigerator 100 and the first accommodating members 31 provided on the front side of the space arrangement type refrigerator system 1 may be formed to have the same horizontal width W1, that is, a unit length. can

In this case, the front refrigerator 100 and the first accommodating members 31 arranged on the front have a vertical width D1 from the center line C to the front end of the space-arranged refrigerator system 1 . can be formed. In this case, the vertical width D1 may be formed to be half the size of the vertical width D of the entire spatially arranged refrigerator system 1 .

Meanwhile, the unit components, that is, the rear refrigerator 300 and the second accommodating members 32 provided at the rear of the spatially arranged refrigerator system 1 are formed to have the same horizontal width W1, that is, a unit length. can be

In this case, the rear refrigerator 300 and the second accommodating members 32 arranged at the rear are formed to have a vertical width D1 from the center line C to the rear end of the space-arranged refrigerator system 1 . can be In this case, the vertical width D1 may be formed to be half the size of the vertical width D of the entire spatially arranged refrigerator system 1 , and the front refrigerator 100 and the first storage unit disposed on the front side It may be formed to be the same as the vertical width D1 of the member 31 .

In such a structure, the inner ends of the unit components provided on the front side and the inner ends of the unit components provided on the rear side may be in contact with each other. In addition, the interior of the space-arranged refrigerator system 1 may be completely filled with the front refrigerator 100 , the rear refrigerator 300 , and the storage members 31 and 32 .

For example, the front surface of the spatially disposed refrigerator system 1 may have a structure as shown in FIG. 12 , and the rear surface may have a structure as shown in FIG. 17 . Of course, the spatial arrangement type refrigerator system 1 may be a combination of all arrangements disclosed in FIGS. 12 to 17 .

19 is a diagram illustrating an arrangement structure of unit components of the spatial arrangement type refrigerator system according to a second embodiment.

As shown, the space portion 21 may be formed in the center of the space arrangement type refrigerator system 1 according to the embodiment of the present invention. The space portion 21 may be formed along a center line C crossing the center of the space arrangement type refrigerator system 1 in the front-rear direction.

In addition, unit components constituting the front surface of the spatially arranged refrigerator system 1 are respectively arranged in the front with respect to the center line C, and the units constituting the rear of the spatially arranged refrigerator system 1 are arranged in the rear. Configurations may be deployed.

In this case, the front refrigerator 100 and the rear refrigerator 300 may be positioned to face each other. Even if the front refrigerator 100 and the rear refrigerator 300 are arranged to face each other, the space 21 is formed between the front refrigerator 100 and the rear refrigerator 300 to form the machine room 201 . ), some of the internal heat can be discharged.

Meanwhile, the unit components, that is, the front refrigerator 100 , the rear refrigerator 300 , the first accommodating member 31 and the second accommodating member provided on the front and rear surfaces of the spatially arranged refrigerator system 1 , are provided. (32) may be formed with the same width, that is, a unit length (W1).

In addition, the front side refrigerator 100 and the first accommodating members 31 disposed on the front of the space arrangement type refrigerator system 1 are connected to the front end of the space arrangement type refrigerator system 1 from the space unit 21 . It may be formed to have a constant vertical width D1 up to . In addition, the rear refrigerator 300 and the second accommodating members 32 disposed at the rear have a vertical width D1 from the space 21 to the rear end of the space arrangement type refrigerator system 1 . can be formed.

In this case, the spatial arrangement type refrigerator system 1 corresponds to the sum of the unit components of the front and rear units having the same vertical width D1 and the vertical width D2 of the space unit 21 disposed therebetween. It may be configured to have a vertical width (D'). Accordingly, the vertical width D ′ of the spatially disposed refrigerator system may be formed to be larger by the vertical width D2 of the space 21 than the vertical width D in the above-described embodiment.

20 is a diagram illustrating a third embodiment of an arrangement structure of unit components of the spatial arrangement type refrigerator system.

As shown in the drawing, the spatially arranged refrigerator system 1 has a unit configuration that constitutes the front surface of the spatially arranged refrigerator system 1 in front, respectively, based on a center line C crossing the center in the front-rear direction. are arranged, and unit components constituting the rear surface of the spatially arranged refrigerator system 1 may be arranged at the rear.

The unit components, that is, the front refrigerator 100, the rear refrigerator 300, the first accommodating member 31, and the second accommodating member ( 32) and the third accommodating member 34 may be formed to have the same horizontal width W1, that is, a unit length.

In this case, the front refrigerator 100 disposed at the front and the rear refrigerator 300 disposed at the rear may be formed to have the same vertical width D1. In addition, the vertical width D1 of the front refrigerator 100 and the rear refrigerator 300 may be formed to be longer than the distance from the front and rear surfaces of the spatially arranged refrigerator system 1 to the center line C. .

Accordingly, the front refrigerator 100 and the rear refrigerator 300 may not be positioned to face each other, and may be displaced from each other on the front and rear surfaces. Accordingly, the front refrigerator 100 and the rear refrigerator 300 may be disposed so that the inner part passes through the center line C in the mounted state. That is, the center line (C) may have a structure that overlaps with at least a portion of the front refrigerator 100 and the rear refrigerator 300 .

In addition, the first accommodating member 31 and the second accommodating member 32 may be disposed on sides of the front refrigerator 100 and the rear refrigerator 300 . The first accommodating member 31 and the second accommodating member 32 may be disposed on the front and rear surfaces, respectively, and may have a vertical width D4 equal to the distance from the front and rear surfaces to the central axis C. . In addition, if the vertical width D4 of the two first and second accommodating members 31 and 32 arranged in the front-rear direction is added, it can correspond to the overall vertical width D'' of the space-arranged refrigerator system. have.

In addition, a third accommodating member 34 may be provided at the rear of the front refrigerator 100 and at the front of the rear refrigerator 300 , respectively. The third accommodating member 34 may be formed to correspond to the size of the space remaining after the front refrigerator 100 and the rear refrigerator 300 are disposed. Accordingly, the vertical width D2 of the third accommodating member 34 may be smaller than the vertical width D4 of the first accommodating member 31 and the second accommodating member 32 . In addition, when the vertical width D1 of the front refrigerator 100 or the rear refrigerator 300 and the vertical width D3 of the third storage member 34 are added, the overall length of the space-arranged refrigerator system 1 is It can correspond to the width (D'').

In such a structure, the inner ends of the unit components provided on the front side and the inner ends of the unit components provided on the rear side may be in contact with each other. In addition, the interior of the space arrangement type refrigerator system 1 may be completely filled with the front refrigerator 100 , the rear refrigerator 300 , and the storage members 31 , 32 , and 34 .

In addition, the front refrigerator 100 and the rear refrigerator 300 have a vertical width D1 greater than that of the storage members 31, 32 and 34, so that the front refrigerator 100 and the rear refrigerator ( 300) has the advantage of sufficiently securing a storage capacity. In addition, the accommodating members 31 , 32 , and 34 are configured to have different vertical widths D3 and D4 , so that foods of various sizes can be stored separately in the space arrangement type refrigerator system 1 . It may be possible to classify and selectively store accordingly.

21 is a diagram illustrating a fourth embodiment of the arrangement structure of the unit components of the system of the space arrangement type refrigerator.

As shown in the drawing, the spatially arranged refrigerator system 1 is a first component constituting a front part of the spatially arranged refrigerator system 1 in front with respect to a center line C crossing the center in the front-rear direction, respectively. One unit components may be disposed, and first unit components constituting a part of the rear surface of the spatially disposed refrigerator system 1 may be disposed at a rear side. In addition, the spatial arrangement type refrigerator system 1 may have a second unit configuration constituting a portion of the space arrangement type refrigerator system 1 .

The first unit components, that is, the front refrigerator 100 provided on the front side of the space arrangement type refrigerator system 1 , the first storage member 31 , and the rear surface of the space arrangement type refrigerator system 1 . The rear refrigerator 300 and the second accommodating members 32 provided in the refrigerator may be formed to have the same width, that is, a unit length W1.

In addition, the second unit components, that is, the fourth housing member 35 disposed on the front and rear surfaces of the spatially disposed refrigerator system 1 may have a width different from that of the first unit configuration. For example, the fourth accommodating member 35 may have a lateral width W2 smaller than the lateral width W1 of the first unit configuration.

In detail, the front refrigerator 100 and the first and fourth storage members 31 and 35 disposed in the front are the same as the distance from the center line to the front end of the spatially arranged refrigerator system 1 . It may be formed to have a vertical width D1. In this case, the vertical width D1 may be formed to be half the size of the vertical width D of the entire spatially disposed refrigerator system 1 .

In addition, the front refrigerator 100 and the first accommodating member 31 have the same width, and the fourth accommodating member 35 is smaller than the front refrigerator 100 and the first accommodating member 31 . It can have a width. However, when the horizontal width W2 of the front refrigerator 100, the first storage member 31, and the fourth storage member 35 are all added, the horizontal width W' between the side plates 20 corresponds to Thus, it is possible to completely fill the front surface of the space arrangement type refrigerator system 1 . Of course, the positions of the front refrigerator 100, the first accommodating member 31, and the fourth accommodating member 35 may be interchangeable.

The rear refrigerator 300 and the second accommodating member 32 and the fourth accommodating member 35 disposed at the rear are the same as the distance from the center line C to the rear end of the spatially disposed refrigerator system 1 . It may be formed to have a vertical width D1. In this case, the vertical width D1 may be formed to be half the size of the vertical width D of the entire spatially arranged refrigerator system 1 , and the front refrigerator 100 and the first storage unit disposed on the front side The member 31 and the fourth accommodating member 35 may be formed to have the same vertical width D1.

In addition, the rear refrigerator 300 and the second accommodating member 32 have the same horizontal width W1 , and the fourth accommodating member 35 is larger than the rear refrigerator 300 and the second accommodating member 32 . It may have a small horizontal width W2. However, if the widths of the rear refrigerator 300, the second storage member 32, and the fourth storage member are all added, it corresponds to the horizontal width W' between the side plates 20, and the space arrangement type refrigerator. The back of the system 1 can be filled without gaps. Of course, the positions of the rear refrigerator 300 , the second accommodating member 32 , and the fourth accommodating member 35 may be interchangeable.

Meanwhile, the fourth accommodating member 35 may be disposed on the front and rear surfaces of the spatially disposed refrigerator system 1 to have the same size. In addition, the horizontal width of the fourth housing member 35 may be set to various sizes according to the horizontal width W between the entire side plates 20 . The size of the entire space-arranged refrigerator system 1 may be determined by using the fourth storage member 35 according to various sizes of indoor spaces and user preferences and uses.

22 is a view showing a fifth embodiment of the arrangement structure of the unit components of the spatial arrangement type refrigerator system.

As shown in the drawing, the spatially arranged refrigerator system 1 has a unit configuration that constitutes the front surface of the spatially arranged refrigerator system 1 in front, respectively, based on a center line C crossing the center in the front-rear direction. are arranged, and unit components constituting the rear surface of the spatially arranged refrigerator system 1 may be arranged at the rear.

The unit components, that is, the front refrigerator 100, the rear refrigerator 300, the first storage member 31 and the second storage member ( 32) may be formed with the same horizontal width W1, that is, a unit length.

In this case, the front refrigerator 100 disposed at the front and the rear refrigerator 300 disposed at the rear may be formed to have the same vertical width D1. In addition, the vertical width D1 of the front refrigerator 100 and the rear refrigerator 300 may be formed to be longer than the distance from the front and rear surfaces of the spatially arranged refrigerator system 1 to the center line C. .

Accordingly, the front refrigerator 100 and the rear refrigerator 300 may not be positioned to face each other, and may be displaced from each other on the front and rear surfaces. Accordingly, the front refrigerator 100 and the rear refrigerator 300 may be disposed so that the inner part passes through the center line C in the mounted state. That is, the center line (C) may have a structure that overlaps with at least a portion of the front refrigerator 100 and the rear refrigerator 300 .

In addition, a third accommodating member 34 may be provided at the rear of the front refrigerator 100 and at the front of the rear refrigerator 300 , respectively. The third accommodating member 34 may be formed to correspond to the size of the space remaining after the front refrigerator 100 and the rear refrigerator 300 are disposed. Accordingly, the vertical width D4 of the third accommodating member 34 may be smaller than the vertical width D1 of the front refrigerator 300 and the rear refrigerator 300 . In addition, if the vertical width D4 of the front refrigerator 100 or the rear refrigerator 300 and the third storage member 34 is added, the total vertical width D of the space-arranged refrigerator system 1 may correspond to can

In such a structure, the inner ends of the unit components provided on the front side and the inner ends of the unit components provided on the rear side may be in contact with each other. In addition, the interior of the space arrangement type refrigerator system 1 may be completely filled with the front refrigerator 100 , the rear refrigerator 300 , and the storage members 34 .

In addition, the horizontal width W ″ between the side plates 20 may be the same as the addition of the horizontal width W1 of the front refrigerator 100 and the rear refrigerator 300 . In addition, the horizontal width W'' between the side plates 20 is equal to the horizontal width W1 of the front refrigerator 100 or the rear refrigerator and the horizontal width W1 of the third housing member 34. It can be equal to plus

Through such a structure, the space arrangement type refrigerator system 1 has a compact structure, so that a space that can be arranged in a narrow room can be secured. In addition, the front refrigerator 100 and the rear refrigerator 300 have a vertical width D1 greater than that of the third storage member 34, so that the front refrigerator 100 and the rear refrigerator 300 are separated. There is an advantage of being able to secure sufficient storage capacity.

Hereinafter, the detailed structure of the aforementioned front refrigerator 100 will be described with reference to the drawings.

23 is a perspective view of a front part refrigerator in the unit configuration of the space arrangement type refrigerator system. And, FIG. 24 is a perspective view of the front refrigerator door opened. And, Figure 25 is an exploded perspective view of the front refrigerator. And, Figure 26 is a cross-sectional view of the front refrigerator. And, FIG. 27 is an exploded perspective view of the cabinet of the front refrigerator.

As shown, the front refrigerator according to an embodiment of the present invention largely includes a cabinet 101, a machine room frame 200, a barrier 150, a bed 140, and grill pan assemblies 160a and 160b. do. Among them, the bed 140 , the barrier 150 , and the grill pan assemblies 160a and 160b are installed inside the cabinet 101 , and the door 130 is assembled on the front surface of the cabinet 101 . And the machine room 201 is assembled under the cabinet 101 .

Looking at this in more detail, the cabinet 101 forms the exterior of the refrigerator, and may be formed to have a height lower than that of a general refrigerator so that it can be mounted inside the space-arranged refrigerator system having a low height. Therefore, not only the internal capacity but also the space in which each component can be installed is small. Therefore, it is necessary to effectively arrange the parts in order to utilize a small and low installation space. For this, the control module 264 is installed inside the machine room in this embodiment. This structure will be described below.

The cabinet 101 is formed as a cylindrical body open to the front, and the cabinet 101 is composed of a plurality of parts, and largely includes an outer case 110 forming an outer wall surface and an inner case 120 forming an inner wall surface. include The front of the cabinet 101 is selectively shielded by the door 130 in an open state, and when the door 130 is opened, the storage space 121 is opened forward.

The outer case 110 has a substantially hexahedral shape open front and rear and downward, and the inner case 120 is installed inside the outer case 110 to be spaced apart from the outer case 110 . And the back plate 115 is assembled on the rear surface of the outer case 110, the front frame 118 is assembled on the front surface, the cover plate 250 is assembled on the bottom surface.

In a state in which the back plate 115, the front frame 118, and the cover plate 250 are each assembled to the outer case 110 in a state in which the inner case 120 is located inside the outer case 110, the inner case 110 is A foam insulation material (not shown) is filled into the space between the case 120 and the outer case 110 .

There is a storage space 121 inside the inner cabinet 101 . The storage space 121 is a space in which food is stored, and the storage space 121 may be divided into a plurality of compartments by the bed 140 . A guide rail 122 is provided on the inner wall surface of the storage space 121 , and is coupled to the plurality of beds 140 so that the beds 140 can be mounted to be drawn in and out in the front and rear directions.

A door 130 is provided on the front side of the cabinet 101 . The door 130 is for opening and closing the storage space 121 of the cabinet 101, and in this embodiment, the door 130 has a structure that opens and closes through rotation. More precisely, the door 130 is in close contact with the front frame 118 of the cabinet 101 to shield the storage space 121, or to open the storage space 121 away from the front frame 118 through rotation. .

That is, the refrigerator according to the embodiment of the present invention forms the sealed storage space 121 by the door 130 . In particular, the sealed storage space 121 can store food while maintaining a constant temperature without loss of cool air by the grill pan assemblies 160a and 160b and the air conditioning module. In this embodiment, at least a portion of the door 130 is made of a transparent see-through window 142 structure, so that the storage space 121 can be checked from the outside.

Next, the machine room frame 200 constituting the machine room 201 will be described. The machine room frame 200 is provided to form the lower structure of the refrigerator according to the embodiment of the present invention. The machine room frame 200 may provide a space in which some components constituting the refrigeration cycle, including a compressor and a condenser, are installed. In addition, the opened upper surface of the machine room frame 200 may be combined with the lower surface of the cabinet 101 to be shielded.

The machine room frame 200 is installed under the outer case 110 and may be formed in a substantially rectangular frame shape. In addition, the front of the machine room frame 200 is opened and may be shielded by the grill cover 220 in which the suction port 225a and the discharge port 225b are formed. The inside of the machine room frame 200 and the machine room 201 will be looked at in more detail below.

On the other hand, the rear portion of the cover plate 250 that shields the upper surface of the machine room frame 200 protrudes upward from other portions, and the rear portion inside the machine room 201 is formed higher than other portions. That is, in consideration of the protruding heights of the heat dissipation fan 263 and the compressor 261 installed in the machine room 201 , the rear portion is formed higher than other portions. In particular, in the present embodiment, since the compressor 261 has the highest height, a protrusion 255 is formed on the cover plate 250 to correspond to the height of the compressor 261 .

The cover plate 250 has an opening device installation part 253 in which the door opening device 180 is installed. The opening device installation part 253 is provided in front of the cover plate 250 , that is, in front of the door 130 , and protrudes upward to secure a space below, but is opened downward. The opening device installation part 253 protrudes upward similarly to the upwardly protruding portion of the rear side of the cover plate 250, but in the present embodiment, the degree to which the opening device installation part 253 protrudes is determined by the cover plate ( 250) is lower than the extent to which the posterior portion protrudes upward.

For reference, FIG. 24 shows the open bar 181 constituting the door opening device 180 in a protruding state. The open bar 181 protrudes from the door opening device 180 to the inside of the door 130 . Push the contact part (B) on the surface.

The cover plate 250 is provided with a connector housing 257 . The connector housing 257 is a part in which a wire harness extending from a control module 264 to be described below is embedded, and serves to guide the extension direction of the wire harness. Specifically, the connector housing 257 guides the wire harness extending upward from the lower control module 264 toward the rear side, that is, the rear plate 213 .

Next, referring to the bed 140 , the bed 140 is installed in the storage space 121 to divide the storage space 121 into several layers. However, the bed 140 does not divide the storage space 121 of several layers into completely independent spaces, but allows each layer to communicate with each other. To this end, in the present embodiment, the bed 140 has a gap opened in the vertical direction.

The bed 140 is formed in a flat plate or tray structure having a peripheral wall so that food or the like can be seated on its upper surface. In particular, cylindrical or bottle-shaped foods such as wine and beverages may have a stackable structure.

The bed 140 is composed of a plurality of, the barrier 150 may be located in the middle. The barrier 150 is installed in parallel with the bed 140 across the storage space 121 , and partitions the storage space 121 . Unlike the bed 140 , the barrier 150 divides the storage space 121 into spaces independent from each other. Accordingly, the upper and lower portions of the barrier 150 are different from each other. Accordingly, the upper space and the lower space of the barrier 150 may be independently controlled to have different temperatures.

A display module 151 is installed on the front surface of the barrier 150 . The display module 151 is configured to display each state of the refrigerator and perform various controls. Each state displayed through the display module 151 may be a temperature in the storage space 121, an operation mode display, and the like.

Next, looking at the grill pan assemblies 160a and 160b , the grill pan assemblies 160a and 160b are configured to circulate air in the storage space 121 . These grill fan assemblies 160a and 160b are provided in front of the rear wall forming the inner case 120 , and after sucking air from the lower side in the storage space 121 , the air is moved upward in the storage space 121 . is configured to discharge. At this time, the upper and lower sides in the storage space 121 are determined based on the height of the middle side of the storage space 121 .

On the other hand, the grill pan assemblies 160a and 160b may be provided one for each storage space 121 , and one grill pan assembly 160a, 160b is used to control air circulation for all the storage spaces 121 . It may be configured to As shown in FIG. 5 , in the embodiment of the present invention, it is assumed that one of the grill pan assemblies 160a and 160b is provided for each storage space 121 . That is, the grill pan assemblies 160a and 160b are respectively installed in the lower storage space 121a and the upper storage space 121b partitioned based on the barrier 150 .

Although not shown, the grill fan assemblies 160a and 160b may include a blowing fan, a shroud, and a grill plate. Among them, the blowing fan is a fan driven to blow air, and air is axially It consists of a centrifugal fan that sucks in and blows it radially. In FIG. 26, arrows indicate the flow of air circulating in the upper storage space 121 and the lower storage space 121 by the respective grill pan assemblies 160a and 160b.

The air conditioning module is configured for temperature control in the storage space 121 of the inner case 120 . Such an air conditioning module may include an air conditioner including a compressor 261 , a condenser 262 , and evaporators 190a and 190b . That is, the temperature of the air circulating in the storage space 121 can be controlled by the above-described air conditioner.

The compressor 261 and the condenser 262 are provided in the machine room 201 in the machine room frame 200 . Here, the condenser 262 is located on the side to which air is introduced among both sides divided by the separation partition wall 230 in the machine room frame 200 , and the compressor 261 is the air that has passed through the condenser 262 . is located in the area through which In particular, the compressor 261 is located on the side where the air is discharged.

This structure allows the air introduced into the machine room 201 of the machine room frame 200 to pass through the condenser 262 preferentially. That is, considering that the compressor 261 is configured to generate a large amount of heat, when the air is configured to exchange heat with the condenser 262 after passing through the compressor 261 , the heat exchange efficiency may be reduced. Accordingly, it is preferable to configure the air to pass through the condenser 262 before the compressor 261 .

At the same time, the condenser 262 is located on the front side (the side adjacent to the open front) in the machine room 201 , and the compressor 261 is located on the rear side (the rear plate 213 ) in the machine room 201 . adjacent side). This structure is to reduce the influence of the high-temperature heat of the compressor 261 on the condenser 262 by making the positions of the compressor 261 and the condenser 262 spaced apart as much as possible.

In addition, a heat dissipation fan 263 is provided on the air inlet side of the compressor 261 so that air is sucked and discharged into the machine room 201 and radiates heat from the compressor 261 . This heat dissipation fan 263 performs a function of effectively blocking the area where the compressor 261 is located from the air inlet side where the condenser 262 is located, so that the high-temperature heat of the compressor 261 affects the condenser 262. impact can be reduced.

Hereinafter, the structure of the machine room will be described in more detail with reference to the drawings.

28 is a perspective view of a machine room of the front refrigerator. And, FIG. 29 is a view showing the air flow inside the machine room of the front refrigerator.

The machine room frame 200 is configured to include a lower plate 211 forming a floor, side plates 212 forming both side walls, and a rear plate 213 forming a rear surface. And a cover plate 250 is coupled to the upper portion of the machine room frame 200 to shield the machine room 201 inside. In this embodiment, the cover plate 250 is assembled to the lower part of the cabinet 101 and may be viewed as a part of the cabinet 101 , but since it also constitutes the upper part of the machine room frame 200 , it may be viewed as a part of the machine room frame 200 . have.

A heat dissipation hole 214 is formed through the rear plate 213 of the machine room frame 200 . The heat dissipation hole 214 is a hole formed for discharging (or sucking) the air that radiates heat from the compressor 261 to be described later. That is, through the additional formation of the heat dissipation hole 214, the air can be discharged more smoothly. Although not shown, a discharge hole for discharging the air that radiates heat from the compressor 261 may be further formed in the bottom plate 211 of the machine room frame 200 .

At this time, the machine room frame 200 and the inner case 120 are spaced apart from each other, and the side plates 212 and the back plate 213 of the machine room frame 200 are both sides and the back of the outer case 110 . It may be configured to be connected to

There is a machine room 201 inside the machine room frame 200 . The machine room 201 is an empty space that is a kind of installation space, in which a part of the apparatus constituting the air conditioning module is installed. The machine room 201 is a separate space independent from the storage space 121 described above, and provides a space in which the air conditioning module can be installed and operated.

Although not shown, the inner case 120 and the machine room frame 200 may be composed of one part. In this case, a separate wall for partitioning is provided between the storage space 121 and the machine room 201 . Thus, the storage space 121 and the machine room 201 can be separated from each other.

A grill cover 220 is provided on the open front of the machine room frame 200 that is the front of the machine room 201 . The grill cover 220 guides the flow of air sucked into the machine room 201 from the outside of the machine room 201 or air discharged from the inside of the machine room 201 to the outside of the machine room 201 while guiding the flow of the machine room 201 . It plays the role of blocking the open front.

In addition, the above-described grill cover 220 is formed with an inlet (225a) and an outlet (225b). At this time, the suction port 225a and the discharge port 225b are provided at positions separated from each other by a separation partition wall 230 to be described later, and in the embodiment of the present invention, the suction port 225a and the It is divided by the outlet 225b on the right side, but vice versa.

A partition wall 230 dividing the machine room 201 into two spaces is further provided in the machine room frame 200 . That is, a flow path through which air is sucked into the machine room 201 and a flow path through which air is discharged can be divided by the separation partition wall 230 . The air inlet 225a of the grill cover 220 is positioned as the flow path through which air is sucked into the machine room 201 , and the air outlet 225b of the grill cover 220 is discharged in the flow path through which air is discharged from the machine room 201 . ) is located.

At the same time, the left and right spaces in the machine room 201 separated by the separation partition wall 230 are connected to each other at the rear of the machine room 201 , that is, at a position close to the rear plate 213 . In addition, the separation barrier rib 230 may be formed in a straight line or may be formed in an inclined or bent structure. In an embodiment of the present invention, the separation barrier rib 230 has a bent structure. That is, by bending a portion of the separation partition wall 230 , it is possible to secure as much space as possible in which the condenser 262 to be described later is installed.

The height of the separation partition wall 230 may be greater than or equal to the height of the condenser 262 . Accordingly, the partition wall 230 may prevent the introduced air from flowing directly in the direction of the compressor 261 without passing through the heat dissipation fan 263 .

A defrost water tray 240 is provided in the machine room 201 of the machine room frame 200 . At this time, the defrost water tray 240 is located on the floor of the machine room 201 on the side where air is introduced through the suction port 225a and receives the defrost water flowing down from the evaporators 190a and 190b to be described later. In addition, it serves to fix the condenser 262 in the machine room 201 .

Referring to FIG. 29, the flow of air inside the machine room will be described.

The temperature of the machine room 201 is increased by the driving of the air conditioning module. In particular, the temperature of the compressor 261 and the condenser 262 increases significantly, and in this embodiment, the temperature increase can be suppressed through the air flow inside the machine room 201 .

Specifically, when the heat dissipation fan 263 operates, the heat dissipation fan 263 sucks in external air. Here, when the air from the outside (the place where the refrigerator is installed) flows into the suction space I through the grill cover 220 (in the direction of the arrow ①), the air directly meets the condenser 262 . In particular, in the present embodiment, the inlet 225a, which is the inlet of the suction space I, is wider than the outlet 225b, which is the outlet of the discharge space O. As shown in FIG. That is, the intake port 225a is widened to increase the amount of initially introduced air, thereby effectively cooling the condenser 262 .

At this time, the suction space (I) is closed except for the suction port (225a), so that the introduced outside air can be concentrated only in the direction of the heat dissipation fan (263) through the condenser (262). Accordingly, it is possible to more effectively cool the condenser 262 .

And, the introduced air may evaporate a part of the defrost water as it passes over the defrost water tray 240 . (arrow ② direction) At this time, the introduced air is guided by the separation partition wall 230 . That is, the introduced air does not flow toward the discharge space O including the compressor 261 , but is guided toward the heat dissipation fan 263 along the partition wall 230 . At this time, a heat dissipation fan 263 is installed at the rear end of the separation bulkhead 230 , and the heat dissipation fan 263 becomes a part of the barrier wall 230 .

When the introduced air passes through the heat dissipation fan 263 (arrow ③ direction), it is discharged to the compressor 261 facing the heat dissipation fan 263 to cool the compressor 261 . Since the heat dissipation fan 263 is open, the intake space I and the exhaust space O are connected to each other based on the heat dissipation fan 263, but when the heat dissipation fan 263 is operated, air is drawn from the intake space (I). Since it flows into the discharge space O, it is difficult for air to flow in the opposite direction. Accordingly, it is possible to effectively prevent the heat of the compressor 261 from being transferred to the condenser 262 .

At this time, there is a flow guide surface 245 between the defrost water tray 240 and the heat dissipation fan 263 , so that the heat dissipation fan 263 is covered by the defrost water tray 240 to prevent the efficiency from falling. That is, the introduced air is naturally guided in the direction of the heat dissipation fan 263 through the downwardly inclined surface of the flow guide surface 245 . The flow guide surface 245 may eliminate a kind of dead space that prevents air from flowing between the defrost water tray 240 and the heat dissipation fan 263 or generates a vortex.

The air passing through the compressor 261 passes through the discharge space O. (arrow ④ direction) At this time, since the control module 264 is located above the discharge space O, the bottom surface of the control module 264 is The discharge space O is formed between the bottom surface of the machine room frame 200 and the air passes through this portion. A portion through which air passes under the control module 264 is indicated by a dotted line.

Finally, the cooled air is discharged to the outside through the outlet 255b. (arrow ⑤ direction) As described above, in this embodiment, since the introduced air flows only along a predetermined predetermined path, effective cooling is possible. In particular, the suction space (I) is blocked except for the suction port (225a), so that the introduced outside air can be concentrated only in the direction of the heat dissipation fan (263) through the condenser (262), whereas after cooling, the air is It can be ejected in several directions.

That is, in the discharge space O of the machine room 201 formed between the heat dissipation fan 263 and the outlet 225b, a part of the floor, side or rear surface is opened through the heat dissipation holes 211 ′ and 214 to communicate with the outside. Connected. Therefore, the initial inflow of outside air is limited to a specific direction, that is, toward the condenser 262, but once heat is dissipated from the condenser 262 and the compressor 261, it can be discharged in various directions, thereby improving the heat dissipation performance of the machine room.

Hereinafter, the detailed structure of the rear refrigerator 200 will be described with reference to the drawings.

30 is a perspective view of a rear refrigerator in the unit configuration of the space-arranged refrigerator system. And, FIG. 31 is a perspective view with the drawer of the rear refrigerator pulled out. And, FIG. 32 is a cross-sectional view of the rear refrigerator.

As shown, the exterior of the refrigerator 300 at the rear part may be configured by a cabinet 301 as a whole and a drawer door 330 mounted to the cabinet 301 so as to be retractably mounted on the cabinet 301 . The rear refrigerator 300 may include a machine room frame 200 provided below the cabinet 301 and an air conditioning module provided inside the cabinet 301 .

In detail, the cabinet 301 forms the exterior of the refrigerator, and may be formed in the same size as the cabinet 101 of the front refrigerator 100 described above, and may have the same exterior configuration. Therefore, the detailed description of the same configuration will be omitted.

The cabinet 100 is formed of a cylindrical body open to the front, and the cabinet 100 is composed of a plurality of parts, largely comprising an outer case 310 forming an outer wall surface and an inner case 320 forming an inner wall surface. include In addition, a heat insulating material may be filled between the outer case 310 and the inner case 320 .

In addition, the machine room frame 200 constituting the machine room 201 may be formed below the cabinet 301 . The structures of the machine room 201 and the machine room frame 200 are the same as those of the front refrigerator 100 described above, and detailed descriptions thereof will be omitted and will be denoted using the same reference numerals.

The inner case 320 forms upper and lower storage spaces 121a and 121b, and evaporators 390a and 390b are provided at the rear of the storage spaces 121a and 121b, respectively, so that the storage spaces 121a and 121b are provided. ) can be cooled independently.

The storage space may be composed of an upper storage space 121a and a lower storage space 121b. The upper storage space 121a is provided with an upper drawer door 330a, and the lower storage spaces 121a and 121b have lower portions. A drawer door 330b may be provided. In addition, the upper drawer door and the lower drawer door may be mounted to be drawn in and out of the front, and may have a structure in which food can be stored therein.

In detail, the upper drawer door 330a is formed in the form of a drawer, and is installed to be drawn in and out of the upper storage space 121a. Food and food containers are stored and stored inside the upper drawer door 330a. The upper drawer door 330a includes a door part 331a and a drawer body part 332a, and the lower drawer door 330b may have the same structure.

In addition, an upper drawer 333 may be further provided in the upper storage space 121a. The upper drawer 333 may be disposed above the drawer body 332a of the upper drawer door 330a, and may be located inside the upper storage space 121a. Therefore, in order to take out the upper drawer 333, the upper drawer door 330a must be opened first. That is, the upper storage space 121a may be provided with drawers that can be drawn in and out of two stages, but only the upper drawer door 330a may be exposed when viewed from the outside.

A lower drawer door 330b is installed inside the lower storage space 121b. The lower drawer door 330b is formed in the form of a drawer, and is installed to be drawn in and out of the lower storage space 121b. Food and food containers are stored and stored inside the lower drawer door 330b. The lower drawer door 330b includes a door part 331b and a drawer body part 332b.

Meanwhile, the temperature in the upper drawer door 330a and the lower drawer door 330b may be set differently from each other. For example, the upper drawer door 330a may be used as a freezer, and the lower drawer door 330b may be used as a refrigerator, and vice versa. Such temperature control may be performed through the control module 264 .

A grill pan assembly may be provided at the inner rear of the upper storage space 121a and the lower storage space 121b. The grill pan assembly may have the same structure as that of the front refrigerator 100 described above. However, there may be some differences in the flow direction of air and the inflow and outflow structures.

The grill pan assembly may include a grill plate 360 , a blowing fan 381 , and a shroud 382 .

Hereinafter, since the grill pan assembly may be disposed in the same structure in the upper storage space 121a and the lower storage space 121a and 121b, the grill plate 360 installed in the upper storage space 121a is described below. It will be explained based on

The grill plate 360 is made of a rectangular wall and divides the upper storage space 121a into a space in which the upper drawer door 330a is provided and a space in which the evaporators 390a and 390b are provided. Accordingly, the grill plate 360 may shield the evaporators 390a and 390b in a mounted state.

Discharge portions 361 and 362 and air inlet holes 363 for discharging air to the upper storage space are formed on the front surface of the grill plate 360 . The discharge units 361 and 362 include an upper discharge unit 361 and a central discharge unit 362 . An upper discharge part 361 is formed on the front upper side of the grill plate 360 . The upper discharge part 361 includes a plurality of discharge holes penetrating back and forth through the front surface of the grill plate 360 .

A central discharge portion 362 is formed in the central portion of the grill plate 360 . The central discharge unit 362 includes a plurality of discharge holes penetrating back and forth through the front central portion of the grill plate 360 , and is arranged in a line at the front center of the grill plate 360 . The central discharge portion 362 is a portion that is formed through the front and rear of the central portion of the grill plate 360 to discharge cold air toward the center of the storage spaces 121a and 121b.

An air inlet 272 is formed on the lower front surface of the grill plate 360 . The air inlet 272 may be formed to be long left and right to form an inlet through which air is introduced into the evaporator 390a 390b.

A grill pan module 380 is installed on the rear surface of the grill plate 360 . The grill fan module 380 may include a blowing fan 381 and a shroud 382 . The blower fan may be provided at the rear of the grill plate 360, and may be driven by a motor to forcibly circulate air in the storage space to exchange heat with the evaporators 390a and 390b.

In addition, the shroud is provided on the rear surface of the grill plate 360 and may be configured to accommodate at least a portion of the blowing fan 381 . Accordingly, it is possible to effectively discharge the hole at the rear of the grill plate 360 to the front of the grill plate 360 .

The evaporators 390a and 390b are provided in the rear of the storage space, and are disposed in the rear space of the grill fan module 380 . That is, during the circulation operation of sucking air from the lower side in the storage spaces 121a and 121b by the operation of the grill fan module 380 and then discharging the air to the upper side in the corresponding storage spaces 121a and 121b, the air is transferred to the evaporator. (390a, 390b) to be able to heat exchange while passing.

These evaporators 390a and 390b are composed of plate evaporators 390a and 390b so that they can be stably installed in front of the rear wall of the inner case 320 while improving heat exchange performance in a narrow space. let it be

Since space utilization and usability of the space arrangement type refrigerator system according to the embodiment of the present invention are improved, industrial applicability is high.

Claims (15)

1. The case is located in a space away from the wall, the front and rear openings;

   a plurality of refrigerators provided inside the case and exposed to the open front or rear of the case; and

   It is provided inside the case and includes a storage member exposed on the same surface as the plurality of refrigerators,

   At least one of the plurality of refrigerators is disposed to be accessible from a direction opposite to that of the other refrigerator.
2. The method of claim 1,

   The refrigerator is

   a first refrigerator disposed on the open front of the accommodating space;

   and a second refrigerator disposed on an open rear surface of the accommodating space.
3. 3. The method of claim 2,

   The first refrigerator,

   A first cabinet forming a first storage space in which food is stored at a low temperature, and a first door rotatably mounted to the cabinet to open and close the first storage space,

   The second refrigerator,

   A space arrangement type refrigerator system comprising: a second cabinet forming a second storage space in which food is stored at a low temperature; and a second door mounted in and out of the second cabinet to open and close the second storage space.
4. 4. The method of claim 3,

   The first refrigerator and the second refrigerator are disposed such that the first door and the second door are exposed in opposite directions.
5. 4. The method of claim 3,

   The space arrangement type refrigerator system in which the first door forms a transparent see-through part at least partially so that the inside can be seen through.
6. 6. The method of claim 5,

   and the second door is disposed at a position facing an indoor wall where the sink is disposed.
7. 7. The method of claim 6,

   In the space arrangement type refrigerator system being disposed in an indoor space,

   A space arrangement type refrigerator system for dividing an indoor space so that a second space exposed by the second door is narrower than a first space in the room viewed by the first door.
8. 3. The method of claim 2,

   The first refrigerator and the second refrigerator are formed to have the same unit length and horizontal width,

   In the case, a horizontal width of an accommodating space formed to accommodate the first refrigerator, the second refrigerator, and an accommodating member is an integer multiple of the unit length.
9. 9. The method of claim 8,

   Based on the center line extending in the horizontal direction of the receiving space,

   The space arrangement type refrigerator system in which the first refrigerator and the second refrigerator are arranged to be in contact with each other.
10. 9. The method of claim 8,

    Based on the center line extending in the horizontal direction of the receiving space,

    The space arrangement type refrigerator system in which the first refrigerator and the second refrigerator are alternately arranged to pass through the center line, respectively.
11. 11. The method of claim 10,

    A space arrangement type refrigerator system in which the storage member is disposed on opposite sides of the first refrigerator and the second refrigerator, respectively.
12. 9. The method of claim 8,

    The storage member is provided in plurality, and the space arrangement type refrigerator system is formed to have a horizontal width equal to the unit length as that of the first refrigerator and the second refrigerator.
13. 4. The method of claim 3,

    The storage member,

    a first accommodating member including a rotatable accommodating door formed in the same size as the first door; and

    A space arrangement type refrigerator system including a; a second storage member formed in the same size as the second door and including a drawer to be drawn in and out.
14. 4. The method of claim 3,

    A machine room in which a compressor and a condenser are accommodated is formed at lower ends of the first refrigerator and the second refrigerator,

    A space arrangement type refrigerator system in which both an intake port through which air sucked into the machine room is introduced and an outlet port through which air inside the machine room is discharged are formed on one surface of the machine room exposed to the front and rear sides.
15. The method of claim 1,

    The case is

    an upper plate forming an upper surface; and

    a pair of side plates extending downward from the lower surface of the upper plate and opening to the front and rear to form an accommodating space for accommodating the first refrigerator, the second refrigerator, and a storage member; and

    It is mounted through the upper plate and includes an additional device that can be operated from the upper side of the upper plate,

    wherein the additional device is disposed on one side of the upper plate deviating from a vertically upper region of the first refrigerator and the second refrigerator.

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