KR102092608B1 - Smart modular - Google Patents

Abstract

According to one embodiment of the present invention, a smart modular includes: a frame provided in a square frame shape to form an inner space and installed on an outer wall of a building; an outer layer positioned on an outdoor side of the inner space and coupled to the frame; an inner layer positioned on an indoor side of the inner space and coupled to the frame; a hollow layer formed between the inner layer and the outer layer to be opened or sealed by the inner layer or the outer layer; and a bonding member coupled to the frame and fixing the frame to the outer wall of the building, thereby easily expanding a residential area of the building.

Description

Smart Modular {SMART MODULAR}

The present invention relates to a smart modular, and more particularly, to a smart modular that can be attached and detached to the outer wall of the building.

In general, apartments or villas in the form of apartment houses have balconies (or verandas) that are used for drying laundry or indoor gardens.

Recently, the balcony (or veranda) has been expanded through remodeling, and used as a variety of spaces such as living rooms, bedrooms, playrooms, warehouses as well as existing uses.

In the related art, the balcony (or veranda) of the building was extended through a method of directly placing reinforced concrete in a space to be expanded, or by bonding a separately produced reinforced concrete plate.

However, the above-described method has a problem that the construction is not only complicated, but also requires a long construction time, so that the occupant has to temporarily move to another space, and also has an expensive construction cost.

In addition, in the related art, not only is the building vulnerable to heat insulation due to the expansion of the balcony (or veranda), but also increases the indoor heating and cooling cost, and furthermore, it is difficult to accommodate items such as outdoor air conditioners or pots, as separate storage spaces are removed. There was a problem.

Republic of Korea Utility Model Publication No. 20-0427454 (2006.09.27)

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a smart modular that can easily expand the residential area of a building.

And it is to provide a smart modular that can improve the energy efficiency and space utilization of buildings and create a pleasant indoor environment.

Smart modular according to an embodiment of the present invention for achieving the above object is provided in a square frame shape to form an interior space is installed on the outer wall of the building; An inner layer positioned on the outdoor side of the inner space to join the frame, an inner layer positioned on the indoor side of the inner space to join the frame, and an inner layer formed between the inner layer and the outer layer Alternatively, a hollow layer that is opened or closed by the outer layer and a bonding member that is coupled to the frame to fix the frame to the outer wall of the building may be provided.

The joining member includes a first surface facing the upper portion of the stepped portion of the building, a second surface facing the lower portion of the stepped portion, and a third side facing the outer surface of the stepped portion to connect the first surface and the second surface. Body having a surface; A first joint that is combined with the first surface to face the inner surface of the stepped portion and the slab of the building; A second bonding body vertically coupled to the second surface to increase structural rigidity of the bonding member; And a third joint that vertically engages the third surface and abuts against the lower end of the frame to support the frame. It may be provided.

The first joint includes a first horizontal joint located between an upper portion of the stepped portion and the first surface, a first vertical joint portion extending from the first horizontal joint portion to face the inner surface of the stepped portion, and the first vertical A second horizontal joint extending from the joint and facing the slab of the building may be provided, and a second vertical joint that vertically joins the second horizontal joint to increase the structural rigidity of the joining member.

The third bonding body is provided with a third horizontal bonding portion protruding in the outer direction of the building by being combined with the third surface to form a level with the ground, and the third horizontal bonding portion and the third surface are provided perpendicular to the third horizontal A third vertical joint may be provided to support the joint.

The frame includes a lower surface facing the lower portion of the outer layer and the inner layer, an upper surface corresponding to the lower surface and facing the upper portion of the outer layer and the inner layer, and extending downwardly from the upper surface toward the outdoor side. An inclined inclined surface, a pair of side surfaces facing the longitudinal ends of the outer layer and the inner layer and facing the upper surface, lower surface and inclined surface, and a first aspect provided on the inclined surface to convert sunlight into electrical energy A battery can be provided.

The inclined surface may be provided with an opening in the form of a louver for temperature control and natural ventilation of the hollow layer.

The outer layer is provided in a lattice form in the inner space to divide the inner space into upper layers, intermediate layers, and lower layers, and an outer window frame that forms a plurality of external bonding spaces standardized in the upper, middle, and lower layers, and the outer coupling. It may be provided in the space, and may have an external coupling unit that separates the hollow layer from the outside.

The external coupling unit is provided on the upper floor to open and close to the outdoor side for the temperature control and natural ventilation, the external sliding door provided on the intermediate layer, the external electric opening and closing window and the external sliding window is provided with light High-performance double glass for transmitting, a metal panel provided on the lower layer to exert an insulating effect, a second solar cell provided on the lower layer to convert sunlight into electrical energy, and provided on the lower layer to automatically open and close It may be provided with an open-closed louver.

The inner layer is provided in a lattice form in the inner space to divide the inner space into upper layers, intermediate layers, and lower layers, and an inner window frame forming a plurality of standardized inner bonding spaces in the upper, middle, and lower layers, and the inner coupling It may be provided in the space and may have an internal coupling unit that separates the hollow layer from the interior.

The internal coupling unit is provided on the upper floor to open and close to the indoor side for the temperature control and natural ventilation, and the internal electric sliding window provided on the intermediate layer, the internal electric opening and closing window and the internal sliding window to provide light. Single-layer glass that transmits, electric control blinds provided on one side of the hollow layer side of the single-layer glass to block light, and electric energy produced through the first solar cell and the second solar cell provided on the lower layer. A storage device for storing, a storage space provided on the lower layer to correspond to the metal panel, and an outdoor air conditioner provided on the lower layer to correspond to the electric switch-type louver, located in the center of the inner window frame, in the direction of the hollow layer An air filter protruding and penetrating the upper, middle and lower layers, and the air conditioner outdoor unit and the storage device Are respectively provided on the inner side surface may be provided with a door which is opened and closed toward the interior.

According to the smart modularity of the present invention, the frame is formed of a detachable structure on the outer wall of the building, so construction is easy, construction time is shortened, and construction cost can be reduced, so that the residential area of the building can be easily expanded.

In addition, the hollow layer is formed by the outer layer and the inner layer to improve the cooling and heating effect and space utilization of the building, and to create a comfortable indoor environment.

1 is a perspective view of a state in which a smart modular according to an embodiment of the present invention is installed in a building.
2 is a perspective view of the smart modular shown in Figure 1;
3 is a cross-sectional view of the smart modular illustrated in FIG. 1.
4 is a perspective view showing an outer layer of the smart modular shown in FIG. 1.
5 is a perspective view showing an inner layer of the smart modular shown in FIG. 1.
6 to 8 are perspective views showing a joining member of the smart modular shown in FIG. 1.

Hereinafter, a smart modular according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a state in which a smart modular according to an embodiment of the present invention is installed in a building, FIG. 2 is a perspective view of the smart modular shown in FIG. 1, and FIG. 3 is a cross-sectional view of the smart modular shown in FIG. 1.

1 to 3, the smart modular 10 according to an embodiment of the present invention may include a frame 100, an outer layer 200, an inner layer 300, and a hollow layer 400. .

The frame 100 is provided in a square frame shape so that the interior space 100a is formed, and may be installed in place of the existing windows and chassis installed on the outer surface of the building 20.

The outer layer 200 is located in the inner space 100a and combined with the frame 100, but may be provided in a form that is relatively located on the outdoor side of the inner space 100a and directly exposed to the outside. In addition, the outer layer 200 is manufactured in a module form and may be provided in various forms according to the needs of the occupants.

The inner layer 300, like the outer layer 200, is located in the inner space 100a to be combined with the frame 100, but is relatively located on the indoor side of the inner space 100a, so that the occupants are indoors of the building 20 In the control and manipulation of the inner layer 300. And, like the outer layer 200, it is manufactured in a module form and may be provided in various forms according to the needs of the occupants.

Here, the outer layer 200 and the inner layer 300 are provided in a state spaced apart by a certain distance when located in the inner space 100a, the hollow layer 400 between the outer layer 200 and the inner layer 300 Can be formed. The hollow layer 400 may be opened or closed by the outer layer 200 or the inner layer 300.

Meanwhile, the frame 100 may include a lower surface 110, an upper surface 120, an inclined surface 130, a side surface 140, and a first solar cell 150.

The lower surface 110 may serve to support the outer layer 200 and the inner layer 300 by facing the lower portions of the outer layer 200 and the inner layer 300.

The upper surface 120 may correspond to the lower surface 110 to face the top of the outer layer 200 and the inner layer 300.

The inclined surface 130 may extend from the upper surface 120 toward the outdoor side, and the end may be inclined downward.

The side surface 140 is provided in a pair so as to face both ends of the lower surface 110, the upper surface 120, and the inclined surface 130, and may also face both sides of the outer layer 200 and the inner layer 300.

The first solar cell 150 is provided on the inclined surface 130 and may serve to convert sunlight into electrical energy. As the first solar cell 150 is provided on the inclined surface 130 rather than the upper surface 120 that is horizontal to the ground, it is easier to receive sunlight than when provided on the upper surface 120.

On the other hand, the inclined surface 130 may be provided with an opening 131 in the form of a louver together with the first solar cell 150. The opening 131 may be installed in the form of a louver to allow natural ventilation in connection with the outer layer 200, and exerts an effect of controlling the temperature of the hollow layer 400 through smooth natural ventilation.

The following will be described in detail with respect to the outer layer 200 of the smart modular 10 according to an embodiment of the present invention. In the following description, only different parts from the above-described embodiment are described in detail, and detailed descriptions of the same or extremely similar parts are omitted.

4 is a perspective view illustrating an outer layer of the smart modular shown in FIG. 1.

1 to 4, the outer layer 200 of the smart modular 10 according to an embodiment of the present invention may include an outer window frame 210 and an outer coupling unit 220.

The outer window frame 210 may be provided in a grid shape in the inner space 100a of the frame 100. And it is provided in the inner space (100a) and divides the inner space (100a) into an upper layer (101), an intermediate layer (102) and a lower layer (103), and is standardized in the upper layer (101), the intermediate layer (102), and the lower layer (103). A plurality of external coupling spaces 211 may be formed. The outer coupling space 211 may be formed in various standards in the upper layer 101, the intermediate layer 102, and the lower layer 103, and the upper layer 101 and the intermediate layer 102, the intermediate layer 102 and the lower layer 103 are formed. It may be provided in an integrated form.

The external coupling unit 220 may be provided in the external coupling space 211 to distinguish the outdoor from the hollow layer 400 and exhibit various functions at the same time.

Looking in detail about the external coupling unit 220, the external coupling unit 220 is an external electric switchgear 221, an external sliding window 222, a high-performance double glass 223, a metal panel 224, the second sun A battery 225 and an electric switchable louver 226 may be provided.

The external electric opening / closing window 221 is provided on the upper layer 101 of the interior space 100a and can be opened and closed in the outdoor direction. Accordingly, it is possible to open and close the hollow layer 400 or the temperature of the room and perform natural ventilation without direct manipulation of the occupant.

The external sliding window 222 is provided on the intermediate layer 102 and can be opened and closed directly by the occupants, so that the temperature of the hollow layer 400 or the room can be controlled and naturally ventilated.

The high performance double glass 223 has a high visible light transmittance and a low solar radiation acquisition coefficient, and may be provided in the external electric opening / closing window 221 and the external sliding window 222. And, as shown in the drawing, it is provided directly in the outer coupling space 211 to transmit light.

The metal panel 224 is provided on the lower layer 103 and is filled with an insulating material therein to exhibit an insulating effect.

The second solar cell 225 is provided on the outer surface of the metal panel 224, and may serve to convert sunlight into electrical energy, like the first solar cell 150 provided on the frame 100.

In addition, although no reference numerals are given to the drawings, an auxiliary electric switchgear is provided at the bottom of the metal panel 224, and a second solar cell 225 may also be provided in the auxiliary electric switchgear.

The electric opening and closing type louver 226 is provided on the lower layer 103 and is automatically opened and closed, so that heat or stagnant air generated in the hollow layer 400 is discharged to the outside or the outside air is introduced into the hollow layer 400. can do.

In this embodiment, the external electric switchgear 221 provided in the upper layer 101, the external sliding window 222 provided in the intermediate layer 102, high-performance double glass 223, the metal panel provided in the lower layer 103 ( 224), the second solar cell 225 and the electric switch-type louver 226 have been described, the position of each component or each component may be replaced with various components according to the needs of the occupant, and the location may also be changed.

The following will be described in detail with respect to the inner layer 300 of the smart modular 10 according to an embodiment of the present invention. In the following description, only different parts from the above-described embodiment are described in detail, and detailed descriptions of the same or extremely similar parts are omitted.

5 is a perspective view illustrating an inner layer of the smart modular shown in FIG. 1.

1 to 5, the inner layer 300 of the smart modular 10 according to an embodiment of the present invention may include an inner window frame 310 and an inner coupling unit 320.

The inner window frame 310 may be provided in a grid shape in the inner space 100a of the frame 100 like the outer window frame 210. And it is provided in the inner space (100a) and divides the inner space (100a) into an upper layer (101), an intermediate layer (102) and a lower layer (103), and is standardized in the upper layer (101), the intermediate layer (102), and the lower layer (103). A plurality of internal coupling spaces 311 may be formed. The inner coupling space 311 may be formed in various standards in the upper layer 101, the intermediate layer 102, and the lower layer 103, and the upper layer 101 and the intermediate layer 102, the intermediate layer 102 and the lower layer 103 may be formed. It may be provided in an integrated form.

The internal coupling unit 320 is provided in the internal coupling space 311 to distinguish the hollow layer 400 from the interior and to exhibit various functions.

Looking in detail about the inner coupling unit 320, the inner coupling unit 320 is an internal electric switchgear 321, an internal sliding window 322, a single-layer glass 323, a power control blind 324, a storage device ( 325), a storage space 326, an air conditioner outdoor unit 327 and an air filter 328 may be provided.

The internal electric opening / closing window 321 may be provided on the upper layer 101 of the interior space 100a to be opened and closed in the indoor direction. Accordingly, it is possible to open and close the hollow layer 400 or the temperature of the room and perform natural ventilation without direct manipulation of the occupant.

The inner sliding window 322 is provided on the intermediate layer 102 and can be opened and closed directly by the occupants, so that the temperature of the hollow layer 400 or the room can be controlled and naturally ventilated.

The single-layer glass 323 may be provided in the internal electric switchgear 321 and the internal sliding window 322. And, as shown in the drawing, it is provided directly in the inner coupling space 311 to transmit light.

The electric control blind 324 is provided on one side of the hollow layer 400 of the single-layer glass 323 to block light. As the electric control blind 324 is provided on the hollow layer 400 rather than on the indoor side, the occupants are prevented from directly contacting the blind 324 so that foreign matter or the like touches the blind 324 or is safe due to the blind 324 Accidents can be prevented.

The storage device 325 is provided on the lower layer 103 of the outer coupling unit 220 and is produced through the first solar cell 150 of the frame 100 and the second solar cell 225 of the outer layer 200. Electric energy can be stored. At this time, a metal panel 224 having a second solar cell 225 on its outer surface may be provided on the outer layer 200 in a position corresponding to the storage device 325, and an auxiliary may be provided at the bottom of the metal panel 224. An electric switchgear (unsigned) may be provided. Accordingly, it is possible to exert an effect of lowering the heat generated in the storage device 325 with the introduced air, and the introduced air may be arranged through a ventilation hole (unsigned) formed on the side 140 of the frame 100. .

The storage space 326 is provided on the lower layer 103 so as to correspond to the metal panel 224 of the external coupling unit 220 so that occupants can receive various objects in the room.

The air conditioner outdoor unit 327 may be provided on the lower layer 103 so as to correspond to the electric open / close type louver 226 of the external coupling unit 220. When using an air conditioner (not shown), the electric open / close type louver 226 is opened to allow air discharged from the room to the outside through the air conditioner outdoor unit 327, and when not used, the electric open / close type louver 226 is closed. It can prevent the inflow of outside air.

The air filter 328 is located at the center of the inner window frame, and protrudes in the direction of the hollow layer, and may be provided in a form penetrating the upper, middle, and lower layers. Therefore, the air filter 328 is provided in a form embedded in the inner layer 300, and may serve to filter dust and the like in the air.

The door 329 may be provided on one side of the indoor side of the air conditioner outdoor unit 327 and the storage device 325, respectively. In addition, it can be maintained in a closed state and opened when maintenance such as repair or replacement of the air conditioner outdoor unit 327 or the storage device 325 is required to facilitate maintenance.

In one embodiment of the present invention, the inner electric switchgear 321 provided in the upper layer 101, the inner sliding window 322 provided in the intermediate layer 102, single-layer glass 323, the electric control blind 324, the lower layer Although the storage device 325, the storage space 326, the air conditioner outdoor unit 327, and the air filter 328 provided in the 103 are described, the position of each component or each component may be divided into various components according to the needs of the occupant. It can be replaced and the position can also be changed.

The following will be described in detail with respect to the bonding member of the smart modular 10 according to an embodiment of the present invention. In the following description, only different parts from the above-described embodiment are described in detail, and detailed descriptions of the same or extremely similar parts are omitted.

6 to 8 are perspective views showing a joining member of the smart modular shown in FIG. 1.

1 to 8, the smart modular 10 according to an embodiment of the present invention may include a bonding member 500. The bonding member 500 is fixed to the building 20 and combined with the frame 100 so that the smart modular 10 is fixed to the building 20.

Looking at the bonding member 500 in detail, the bonding member 500 may include a body 510, a first bonding body 520, a second bonding body 530, and a third bonding body 540.

The body 510 has a first surface 511 facing the upper portion of the stepped portion 21, a second surface 412 facing the lower portion of the stepped portion 21, and a first surface 511 and a second surface ( 512) and a third surface 513 facing the outer surface of the stepped portion 21 may be provided.

The first bonding body 520 may be provided in combination with the first surface 511 of the body 510. Looking at the first joint 520 in detail, the first joint 520 is a first horizontal joint 521 and a first horizontal joint 521 located between an upper portion of the stepped portion 21 and the first surface 511. The first vertical joint 522 extending from 521 and facing the inner surface of the stepped portion 21, the second horizontal joint extending from the first vertical joint 522 and facing the slab 22 of the building 20 523 and a second vertical joint 524 vertically coupled to the second horizontal joint 523. The first horizontal joint 521, the first vertical joint 522, the second horizontal joint 523, and the second vertical joint 524 are integrally provided, and in the case of the first horizontal joint 521, the first surface ( 511) is provided in the upper portion of the stepped portion in two layers to increase the structural rigidity of the bonding member 500, the second vertical joint 522 is also vertically coupled to the first vertical joint 522 and the second horizontal joint 523 By doing so, the structural rigidity of the joining member 500 can be increased. Here, although not shown in the drawings, a new concrete for reinforcement is poured into the slab 22 facing the second horizontal joint, so that the smart modular 10 can be easily fixed through the joining member 500. The new concrete for reinforcing can be poured after removing the finish on the top of the existing concrete and refining. In addition, HD13 @ 400 * 400 reinforcing bar is installed in the front section as a shear heat setting material, and is installed using products equal to or higher than Hilti HY-150 (Chemical Anchor).

The second bonding body 530 may be combined to be perpendicular to the second surface 512 to increase the structural rigidity of the bonding member 500.

The third joint 540 is vertically coupled to the third surface 513, and is formed horizontally with the ground, and the third horizontal joint 541 and the third horizontal joint 541 protruding outwardly of the building 20, and A third vertical joint 542 may be provided vertically to the third surface 513 to support the third horizontal joint 541. Here, the lower end of the frame 100 is placed on the third bonding body 540, and the frame 100 may be supported by the third bonding body 540.

In the above, the smart modular according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art to understand the spirit of the present invention can easily propose other embodiments by adding, changing, deleting, adding, or the like components within the scope of the same spirit, but it is also within the scope of the invention. will be.

10: Smart Modular 20: Architecture
21: stepped portion 22: slab
100: frame 100a: interior space
101: upper layer 102: middle layer
103: lower level 110: lower
120: top 130: slope
131: opening 140: side
150: first solar cell 200: outer layer
210: outer window frame 211: outer joining space
220: external coupling unit 221: external electric switchgear
222: external sliding window 223: double glass
224: metal panel 225: second solar cell
226: Louver 300: inner layer
310: inner window frame 311: inner coupling space
320: internal coupling unit 321: internal electric switchgear
322: internal sliding window 323: single-layer glass
324: blind 325: storage
326: storage space 327: air conditioner outdoor unit
328: air filter 329: door
400: hollow layer 500: bonding member
510: body 511: first side
512: page 2 513: page 3
520: first joint 521: first horizontal joint
522: first vertical joint 523: second horizontal joint
524: second vertical joint 530: second joint
540: third joint 541: third horizontal joint
542: third vertical joint

Claims (10)

A frame provided in a square frame shape to form an interior space and installed on the outer wall of the building;
An outer layer positioned on the outdoor side of the inner space and coupled with the frame,
An inner layer positioned on the indoor side of the interior space and coupled with the frame;
A hollow layer formed between the inner layer and the outer layer and opened or closed by the inner layer or the outer layer;
It is provided with a bonding member to be fixed to the outer wall of the building in combination with the frame,
The frame includes a lower surface facing the lower portion of the outer layer and the inner layer, an upper surface corresponding to the lower surface and facing the upper portion of the outer layer and the inner layer, and extending downwardly from the upper surface toward the outdoor side. An inclined inclined surface, a pair of side surfaces facing the longitudinal ends of the outer layer and the inner layer and abutting the upper surface, the lower surface and the inclined surface, and a first aspect provided on the inclined surface to convert sunlight into electrical energy Equipped with a battery,
Smart module, characterized in that the inclined surface is provided with a louver-shaped opening for temperature control and natural ventilation of the hollow layer.
According to claim 1,
The joining member includes a first surface facing the upper portion of the stepped portion of the building, a second surface facing the lower portion of the stepped portion, and a third surface facing the outer surface of the stepped portion to connect the first surface and the second surface. Body having a surface;
A first joint that is combined with the first surface to face the inner surface of the stepped portion and the slab of the building;
A second bonding body vertically coupled to the second surface to increase structural rigidity of the bonding member; And
A third joint that vertically engages the third surface and abuts against the lower end of the frame to support the frame; Smart modular characterized in that it comprises a.
According to claim 2,
The first joined body may include a first horizontal joint located between an upper portion of the stepped portion and the first surface,
A first vertical joining portion extending from the first horizontal joining portion to face the inner surface of the stepped portion,
A second horizontal joint extending from the first vertical joint and facing the slab of the building;
And a second vertical joint that vertically engages the second horizontal joint to increase the structural rigidity of the joint member.
According to claim 3,
The third joint is coupled to the third surface so as to form a level with the ground and a third horizontal joint protruding in the outer direction of the building,
And a third vertical joint provided perpendicularly to the third horizontal joint and the third surface to support the third horizontal joint.
delete delete According to claim 1,
The outer layer is provided in a lattice form in the inner space to divide the inner space into upper layers, middle layers, and lower layers, and an outer window frame that forms a plurality of external bonding spaces standardized in the upper, middle, and lower layers,
Smart modular characterized in that it is provided in the outer coupling space and comprises an outer coupling unit that separates the outdoor and the hollow layer.
The method of claim 7,
The external coupling unit is provided on the upper layer and the external electric switchgear is opened and closed to the outdoor side for temperature control and natural ventilation,
An external sliding window provided on the intermediate layer,
High-performance double glass provided in the external electric switchgear and the external sliding window to transmit light,
A metal panel provided on the lower layer and exerting an insulating effect,
A second solar cell provided on the lower layer to convert sunlight into electrical energy,
Smart modular, characterized in that it is provided on the lower floor having an electric switchgear that is automatically opened and closed.
The method of claim 8,
The inner layer is provided in a lattice form in the inner space to divide the inner space into upper layers, middle layers, and lower layers, and an inner window frame for forming a plurality of internal bonding spaces standardized in the upper, middle, and lower layers,
Smart modular, characterized in that it is provided in the inner coupling space and has an inner coupling unit that separates the hollow layer from the interior.
The method of claim 9,
The internal coupling unit is provided on the upper layer and the internal electric switchgear is opened and closed to the indoor side for temperature control and natural ventilation,
An inner sliding window provided on the intermediate layer,
Single-layer glass provided in the internal electric switchgear and the internal sliding window to transmit light,
An electric control blind provided on one side of the hollow layer side of the single-layer glass to block light;
A storage device provided on the lower layer to store electrical energy produced through the first solar cell and the second solar cell,
A storage space provided in the lower layer so as to correspond to the metal panel,
Air conditioner outdoor unit provided on the lower floor so as to correspond to the electric switchgear,
An air filter located in the center of the inner window frame, protruding in the direction of the hollow layer and penetrating the upper, middle and lower layers;
The smart modular, characterized in that it is provided on each side of the indoor side of the air conditioner outdoor unit and the storage device to open and close to the indoor side.

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