JP2022152559A - unit furniture - Google Patents

Abstract

To provide convenient unit furniture with high designability, which can be accurately assembled.SOLUTION: Unit furniture 10, which is installed in a room 1 comprising at least a floor surface 2 and wall surfaces 3 and 4, includes a floor unit 11 that is provided above a part of the floor surface 2, and a plurality of leg units 12-15 for supporting the floor unit 11. First and second leg units 12 and 13 of the plurality of leg units have lower end surfaces connected together by an L-shaped jig 17 so as to form an orthogonal unit U that assumes an L-shape in plan view.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD The present invention relates to unit furniture that is installed in a room.

2. Description of the Related Art Conventionally, large-sized unit furniture that is used by being placed on a floor constituting a building skeleton is known (see, for example, Patent Document 1).
The unit furniture of Patent Document 1 includes a ceiling unit, a plurality of pillar units and a plurality of wall units attached to the lower surface of the ceiling unit, and a floor of the building and the ceiling unit. and elevating means for The space above the ceiling unit and the space below the ceiling unit are accessible for people to enter and live in.

JP 2014-195486 A

By the way, if the large-sized unit furniture is assembly-type furniture that can be assembled on-site (in a room), basically it will be assembled sequentially from the bottom as in the case of a normal structural frame for construction. Specifically, for example, first, the leg units are assembled and installed, then the leg units are connected to each other, and then the floor unit (in the case of Patent Document 1, the ceiling unit) is placed on the leg units. It will be done.
When installing the leg units, the leg units are installed at predetermined positions with reference to the wall surface of the room, but at that time, the assembly accuracy is reduced unless each leg unit is installed at an accurate position. For example, when connecting two leg units to form an L-shaped orthogonal unit in plan view, if the two leg units are not installed in accurate positions, the orthogonal units (one leg unit and the other leg units that are not orthogonal to each other). However, since it is difficult to accurately establish a right angle in the horizontal direction with reference to the wall surface of the room, it is difficult to install the two leg units at accurate positions. This is particularly difficult when the two leg units are installed away from the walls of the room, or when baseboards are attached to the walls of the room. Therefore, there is a problem that it is difficult to accurately assemble large unit furniture on site.

On the other hand, for example, if a unit furniture is provided with a floorboard material to be laid on the floor surface of the site (room), and the two leg units are installed based on the floorboard material, the two leg units can be positioned accurately. In other words, it is easy to make the two leg units perpendicular to each other with high accuracy. However, in this case, since a step is formed between the floor surface of the room and the upper surface of the floor board material, it is difficult to get in and out of the unit furniture, which is inconvenient, and the design of the unit furniture is deteriorated. Furthermore, since the floor board material is larger than other members, there are problems such as high cost and difficulty in assembly.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide unit furniture that is easy to use, has a high degree of design, and is easy to assemble with high accuracy.

In the invention according to claim 1, for example, as shown in FIGS. 1 to 18,
A unit furniture 10 installed in a room 1 having at least a floor surface 2 and wall surfaces 3 and 4,
a floor unit 11 provided above a portion of the floor surface 2;
and a plurality of leg units 12 to 15 that support the floor unit 11,
Among the plurality of leg units, the first leg unit 12 and the second leg unit 13 are connected at their lower end surfaces by an L-shaped jig 17 to form an L-shaped orthogonal unit U in plan view. Characterized by

According to the first aspect of the invention, since the unit furniture 10 is installed in the room 1, it is not fixed to the frame of the building including the room 1 and is structurally separated. Become. As a result, the unit furniture 10 can be handled as placed furniture.
Among the plurality of leg units that support the floor unit 11, the first leg unit 12 and the second leg unit 13 are connected by an L-shaped jig 17 to form an L-shaped orthogonal unit U in plan view. there is Therefore, by simply attaching the L-shaped jig 17 to the first leg unit 12 and the second leg unit 13, the orthogonal unit U can be formed with high accuracy, and the assembly work and the like can be easily performed on site. Therefore, it is easier to assemble the unit furniture 10 with higher accuracy than the conventional unit furniture.
Furthermore, since the L-shaped jig 17 connects the lower end surfaces of the first leg unit 12 and the second leg unit 13, it may be of a size that fits within the lower end surfaces. Therefore, since there is no difference in level with the floor surface 2 and it is not a large member, the unit furniture 10 is easy to use and has a high designability like the conventional unit furniture.

The invention according to claim 2 is, for example, as shown in FIGS. 1 to 18, in the unit furniture 10 according to claim 1,
A connecting beam 18 that connects the first leg unit 12 and a third tripod unit 14 of the plurality of leg units that faces the first leg unit 12,
The connection beam 18 is characterized by having a floor support portion 183 for receiving the floor unit 11 .

According to the second aspect of the invention, the connection beam 18 connecting the first leg unit 12 and the third tripod unit 14 facing the first leg unit 12 is a floor support for receiving the floor unit 11. It has a receiving portion 183 . That is, the first leg unit 12 and the third tripod unit 14 can be connected by simply attaching the connecting beam 18 to the first leg unit 12 and the third tripod unit 14 without providing a separate member for receiving the floor unit 11 . are connected to each other and the floor unit 11 can be received. Therefore, it is possible to prevent an increase in cost and an increase in the number of assembling steps.

The invention according to claim 3 is, for example, as shown in FIGS. 1 to 18, in the unit furniture 10 according to claim 2,
The floor unit 11 includes a first area (building floor panel 11a) supported by the first leg unit 12 and the third tripod unit 14, the second leg unit 13 and one of the plurality of leg units. a second region (building floor panels 11b to 11d) supported by the fourth leg unit 15 facing the second leg unit 13;
The floor receiving portion 183 is for receiving the second region,
A receiving member 13a for receiving the floor unit 11 is provided on a side surface (west side surface) of the second leg unit 13 so as to be continuous with the floor receiving portion 183 and protrude.

According to the third aspect of the invention, the second leg unit 13 is provided on the side surface of the second leg unit 13 and connected to the floor support portion 183 of the connecting beam 18 by the support member 13a. It receives and supports 11 second regions. Therefore, the second area of the floor unit 11 can be fixed to the second leg unit 13 in a state where the second area of the floor unit 11 is positioned by the side surface of the second leg unit 13, so that assembly work, etc. on site can be performed. is easy to perform, and it is easy to assemble with high accuracy.

The invention according to claim 4 is, for example, as shown in FIGS. 1 to 18, in the unit furniture 10 according to any one of claims 1 to 3,
The orthogonal unit U and the leg units 14 and 15 other than the first leg unit 12 and the second leg unit 13 among the plurality of leg units are arranged to be vibration suppressing means 20 (22 and 23) with respect to the floor surface 2. , 24) in a non-fixed state.

According to the fourth aspect of the invention, the orthogonal unit U and the leg units 14 and 15 are in contact with the floor surface 2 via the vibration suppression means 20 in an unfixed state. Vibration of both surface 2 and units U, 14, and 15 can be suppressed. Therefore, the unit furniture 10 is less susceptible to vibrations generated in the building skeleton.
Furthermore, for example, when the unit furniture 10 shakes, the units U, 14, 15 may rub against the floor surface 2, but the vibration suppressing means 20 is interposed between the units U, 14, 15 and the floor surface 2. As a result, the finish applied to the floor surface 2 is less likely to be damaged.

The invention according to claim 5 is, for example, as shown in FIGS. 1 to 18, in the unit furniture 10 according to any one of claims 1 to 4,
It is characterized in that it is used in a state in which a gap between the wall surfaces 3 and 4 is filled with a filler 21 (first vibration suppressing material 21).

According to the fifth aspect of the invention, the unit furniture 10 is used with the gaps between the wall surfaces 3 and 4 filled with the filler 21 (first vibration suppressing material 21). That is, the filler 21 can close the gap formed between the unit furniture 10 and the wall surfaces 3 and 4, thereby suppressing the transmission of vibration between the unit furniture 10 and the wall surfaces 3 and 4. Therefore, the unit furniture 10 is less likely to be affected by vibrations generated in the building skeleton, and less likely to damage the finishing applied to the wall surfaces 3 and 4.例文帳に追加

ADVANTAGE OF THE INVENTION According to this invention, the unit furniture which is user-friendly, has high designability, and is easy to assemble precisely can be provided.

It is a perspective view which shows unit furniture. It is a top view which shows the unit furniture set still in the room. It is a front view which shows the unit furniture left untouched in the room. FIG. 3 is a cross-sectional view taken along the line AA in FIG. 2; FIG. 3 is a cross-sectional view taken along the line BB in FIG. 2; FIG. 3 is a cross-sectional view taken along line CC in FIG. 2; FIG. 3 is a cross-sectional view taken along line DD in FIG. 2; FIG. 3 is a cross-sectional view taken along line EE in FIG. 2; FIG. 4 is an enlarged cross-sectional view showing a contact portion between the floor unit and the wall surface; It is a figure explaining the structure of the contact part of a wall and a floor surface. It is a figure explaining the structure of the contact part of an orthogonal unit and a floor surface. It is a perspective view which shows the assembly procedure 1 of unit furniture. It is a perspective view which shows the assembly procedure 2 of unit furniture. It is a perspective view which shows the assembly procedure 3 of unit furniture. It is a perspective view which shows the assembly procedure 4 of unit furniture. It is a perspective view which shows the assembly procedure 5 of unit furniture. It is a perspective view which shows the assembly procedure 6 of unit furniture. It is a perspective view which shows the assembly procedure 7 of unit furniture. It is a figure explaining the modification of unit furniture. It is a figure explaining the modification of unit furniture.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the embodiments described below have various technically preferable limitations for carrying out the present invention, but the technical scope of the present invention is not limited to the following embodiments and illustrated examples. do not have.

Reference numeral 1 in FIGS. 2 and 3 indicates a room. This room 1 is arranged inside a building such as a house, and includes at least a floor surface 2 and a pair of wall surfaces 3 and 4 facing each other. Moreover, in this embodiment, another wall surface 5 perpendicular to the pair of wall surfaces 3 and 4 and a ceiling are provided.
Unit furniture 10 as shown in FIG. 1 is installed in such a room 1 .

One wall surface 3 of the pair of wall surfaces 3 and 4 is located on the west side in the direction tentatively attached in FIG. 2, and the other wall surface 4 is located on the east side. Another wall surface 5 is located on the north side. Therefore, in the following description, the wall surface 3 located on the west side will be referred to as the west wall surface 3, the wall surface 4 located on the east side will be referred to as the east wall surface 4, and the other wall surface 5 located on the north side will be referred to as the north wall surface 5.

The wall surfaces 3, 4 and 5 are previously finished with a wall cloth (not shown), a baseboard 40, and a peripheral edge (not shown). A unit furniture 10 is set and provided in a room 1 provided. Therefore, when installing the unit furniture 10 in the room 1, it is necessary to carry out work so as not to damage each finish.
It is also assumed that the floor surface 2 has already been finished with a flooring material, a mat, or the like.

The unit furniture 10 is stationary furniture installed in the room 1, and is not fixed to the building skeleton. That is, the unit furniture 10 is not mechanically joined to the building frame (joined by fasteners such as screws, adhesives, various metal fittings, etc.), and is not built into the building frame. there is In short, although the unit furniture 10 is in contact with the floor and wall surfaces of the room 1, it is simply a piece of furniture that is fixed in the room 1. It can be arranged for rooms in various buildings including commercial buildings such as buildings.
Since the unit furniture 10 is not joined to the building skeleton, the structure of the building in which the unit furniture 10 is installed is not particularly limited. That is, the building frame may be of wooden construction, steel frame construction, RC construction, or SRC construction, and the classification of the construction method (frame construction method, wall construction method, Rahmen construction method, etc.) is not particularly limited. In short, since there is no need to join the unit furniture 10 and the building frame, there is no need to consider compatibility when joining the unit furniture 10 and the building frame.

The unit furniture 10 itself is an assembly type piece of furniture that can be assembled on site, and fasteners such as screws, adhesives, various metal fittings, etc. are appropriately used to join members constituting the furniture together. Moreover, this unit furniture 10 is also configured by an architectural structural framework, and has structural strength comparable to the framework of the building in which it is installed. Therefore, the unit furniture 10 allows not only a person to ride on the upper surface but also a heavy object to be placed on the upper surface.
The architectural structural framework of the unit furniture 10 in this embodiment is composed of wooden architectural panels used in a so-called wooden panel bonding method.
A building panel consists of vertical and horizontal stiles assembled into a rectangular shape, and auxiliary crosspieces are assembled vertically and horizontally inside the rectangular frame to form a frame. It is pasted and has a hollow structure. Furthermore, the internal hollow portion is usually filled with a heat insulating material such as glass wool or rock wool.

FIG. 9 is an enlarged cross-sectional view of end portions of building floor panels 11a to 11d constituting the floor unit 11, which will be described later. A face member 111 affixed to the upper surface of the frame made of is shown. A ceiling finishing material 112 is applied to the lower surface of the frame, and a floor finishing material 34 is applied to the upper surface of the face material 111. - 特許庁That is, each building floor panel 11a to 11d in this embodiment is configured with a frame material 110, a face material 111, and the like.
Further, a plurality of leg units 12, 13, 14, 15 and a partition wall unit 16, which will be described later, are configured by one building wall panel or by assembling a plurality of building wall panels, and are composed of stile materials, face materials, etc. It has In this embodiment, reference numeral K is attached to the stile material that constitutes each architectural wall panel.

In the present embodiment, such a wooden building panel is used as a material constituting the building structural frame, but it is not limited to this, and laminated materials such as CLT (Cross Laminated Timber), Wood-based panels such as load-bearing wall panels used in the two-by-four construction method may be used, or concrete panels with reinforcing bars (RC structure, S structure) may be used.
That is, the structural frame for construction that constitutes the unit furniture 10 has shafts (stiles, crosspieces, reinforcing bars, etc.) arranged inside, closely adheres to the shafts, and is provided so as to cover the periphery of the shafts. , and adopts a structure that can create a "surface" on the outside. The CLT is also applicable because it has a structure in which a vertical laminated plate is used as a shaft member and an orthogonal laminated plate is used as a face member.

Such unit furniture 10 includes a floor unit 11, a plurality of leg units 12 to 15, a partition wall unit 16, and lifting means (not shown). Spaces 10a and 10b are formed above and below the floor unit 11 as a boundary. In this embodiment, the lower space 10a is used as a low-ceiling storage space that can be used from inside the room 1, and the upper space 10b can be used as a room with a sufficient ceiling height. there is
Among the plurality of leg units 12 to 15, the first leg unit 12 and the second leg unit 13 are arranged orthogonally in an L shape in plan view. That is, the first leg unit 12 and the second leg unit 13 form an L-shaped orthogonal unit U in a plan view. The first leg unit 12 and the third tripod unit 14 are arranged parallel and facing each other in plan view, and the second leg unit 13 and fourth leg unit 15 are arranged parallel and facing each other in plan view. It is

The floor unit 11 is composed of floor bodies (construction panels 11a to 11d for floors) and is provided above a part of the floor surface 2, and is slightly wider than the distance between the west wall surface 3 and the east wall surface 4. Set to the short width dimension.
A plurality of building panels 11a to 11d (hereinafter referred to as building floor panels 11a to 11d) for the floor are used, and not the entire floor surface 2 of the room 1, but a part above the floor surface 2 at a predetermined height. is provided. In this embodiment, a plurality of construction floor panels 11a to 11d are provided at height positions where the ceiling height of the lower space 10a is 0.8 to 1.4 meters.
The ceiling height of 0.8 m to 1.4 m is a height range for securing the minimum height at which a person can enter the lower space 10a and work by bending down. be. However, the ceiling height is not limited to this, and the ceiling height may be set arbitrarily. That is, the ceiling height of the lower space 10a is set so that a person can walk and work in a standing posture, and the ceiling height of the upper space 10b is set so that a person can walk and work while bending down. , so that the upper space 10b can be used like a loft. In addition, for example, if the room 1 has an atrium and the ceiling height of the room 1 is high, the ceiling heights of both the lower space 10a and the upper space 10b are set so that a person can walk and work in a standing posture. may Conversely, the ceiling heights of both the lower space 10a and the upper space 10b may be set so that a person can walk and work while bending down. In short, since the unit furniture 10 is just furniture, the vertical heights of the lower space 10a and the upper space 10b are not particularly limited and can be set arbitrarily.

Of the plurality of building floor panels 11a to 11d, the three building floor panels 11b to 11d excluding the east side building floor panel 11a are formed to have approximately the same size and shape, and the east side building floor panel 11a is formed to have substantially the same size and shape. are formed in a size and shape in consideration of lifting means and the like (not shown).
A plurality of building floor panels 11a to 11d are connected to each other using tools such as screws, bolts and nuts, thereby forming a floor unit 11. As shown in FIG.
A ceiling finishing material 112 made of gypsum board, cloth, or the like is applied to the lower surface of the floor unit 11 .
In the present embodiment, the floor unit 11 has a first area where the floor panel 11a on the east side is arranged and a second area where the other floor panels 11b to 11d are arranged, which will be described later. It is divided by connecting beams 18 . Therefore, the plurality of building floor panels 11b to 11d in the second region are connected to each other using tools such as screws, bolts and nuts, but the building floor panel 11a in the first region and the building floor panel 11a in the second region The architectural floor panels 11b-11d are not connected.

The fourth leg unit 15 is configured by a wall (construction panels 15a to 15c for walls), and is provided in an upright position on the lower surface of one end (west end) in the width direction of the floor unit 11. ing. That is, the floor unit 11 is placed on the fourth leg unit 15 .
A plurality of building panels 15a to 15c for walls (hereinafter referred to as building wall panels 15a to 15c) are used. In an embodiment, the height dimension is set to be 0.8-1.4 meters.
A plurality of construction wall panels 15a to 15c are connected to each other using tools such as screws, bolts and nuts, thereby forming a fourth leg unit 15. As shown in FIG.
Also, the plurality of building wall panels 15a to 15c and the floor unit 11 are joined using tools such as screws, bolts and nuts. For example, in the present embodiment, the second area (construction floor panels 11b to 11d) of the floor unit 11 is fixed to the upper ends (stiles K) of the plurality of construction wall panels 15a to 15c by long screws LB. .

The third tripod unit 14 is composed of a wall (construction panel for walls), and stands on the other widthwise end (east end) of the lower surface of the north end of the floor unit 11. It's set up. That is, the floor unit 11 is placed on the third tripod unit 14 .
The third tripod unit 14 is set so that the ceiling height of the lower space 10a is 0.8 to 1.4 meters in this embodiment. That is, the height dimension is set equal to that of the fourth leg unit 15 .
The joint between the tripod unit 14 and the floor unit 11 is performed using tools such as screws, bolts and nuts. For example, in the present embodiment, the first area (construction floor panel 11a) of the floor unit 11 is fixed to the upper end portion (frame member K) of the third tripod unit 14 by a long screw LB.

The second leg unit 13 is configured by a wall (construction panel for walls), and is arranged in a direction parallel to the fourth leg unit 15, and is arranged in the north-south direction in plan view. ing.
The second leg unit 13 is provided with a top rail 32 on its upper end surface and also serves as a handrail wall for lifting means (not shown). is set. That is, the upper portion of the second leg unit 13 protrudes above the floor unit 11 .
The second area of the floor unit 11 is connected to the side surface of the second leg unit 13 using tools such as screws, bolts and nuts.

The first leg unit 12 is configured by a wall (construction panel for walls), and is arranged in a direction parallel to the first tripod unit 14 and orthogonal to the second leg unit 13 .
The west end of the first leg unit 12 (the end on the second leg unit 13 side) is connected to the north end of the second leg unit 13 using tools such as screws, bolts and nuts. Furthermore, the first leg unit 12 and the second leg unit 13 are connected using an L-shaped jig 17, as shown in FIG. 11(a).

The L-shaped jig 17 is formed by cutting out a 12 mm plywood into an L shape, for example. Of the two arms of the L-shaped jig 17, the first arm 17a is arranged in the east-west direction in plan view, and the second arm 17b is arranged in the north-south direction in plan view. Specifically, of the L-shaped jig 17 , a first arm portion 17 a is joined to the first leg unit 12 and a second arm portion 17 b is joined to the second leg unit 13 .
The first arm portion 17a is fixed to the lower end surface of the first leg unit 12 with screws SB, and the second arm portion 17b is fixed to the lower end surface of the second leg unit 13 with screws SB. The dimensions of the L-shaped jig 17 are such that when the L-shaped jig 17 is attached to the first leg unit 12 and the second leg unit 13, the L-shaped jig 17 is the first leg unit 12 and the second leg unit. It is set to a dimension that does not protrude from 13. That is, the width dimension of the first arm portion 17a is set equal to the thickness dimension (for example, 90 mm) of the first leg unit 12, and the length dimension of the first arm portion 17a is the width of the first leg unit 12. It is set equal to the dimension (long dimension in the east-west direction). Further, the width dimension of the second arm portion 17b is set equal to the thickness dimension of the second leg unit 13 (for example, 45 mm), and the length dimension of the second arm portion 17b is the width of the second leg unit 13. It is set equal to the dimension (long dimension in the north-south direction).

In this way, by connecting the first leg unit 12 and the second leg unit 13 using the L-shaped jig 17, it is easy to make the first leg unit 12 and the second leg unit 13 perpendicular to each other with high accuracy. becomes.
Here, in this embodiment, the thickness dimension of the second leg unit 13 (eg, 45 mm) is set shorter than the thickness dimension of the other leg units 12, 14, 15 (eg, 90 mm). Since the second leg unit 13 is set higher in height than the other leg units 12, 14, 15, by making the second leg unit 13 thinner than the other leg units 12, 14, 15, , the weight of the second leg unit 13 is suppressed.

The first leg unit 12 is set to have a height dimension substantially equal to that of the third tripod unit 14 and the fourth leg unit 15 when the L-shaped jig 17 is attached to the first leg unit 12. 11 is placed on the first leg unit 12 .
The joint between the first leg unit 12 and the floor unit 11 is performed using tools such as screws, bolts and nuts. For example, in the present embodiment, the first area of the floor unit 11 is fixed to the upper end portion (stile material K) of the construction wall panel that constitutes the first leg unit 12 with long screws LB.

Also, the first leg unit 12 is connected to the third tripod unit 14 using a connecting beam 18 .
As shown in FIGS. 14(b) to 14(d), the connecting beam 18 includes a beam body 181, reinforcing plates 182, 182 fixed to one side (east side) of the beam body 181, and the beam body 181. and a floor receiving portion 183 fixed to the other side surface (west side surface). Notches 181a are formed at both ends of the beam body 181, and as shown in FIG. there is The reinforcing plate 182 serves to reinforce the notch portion 181a (specifically, to prevent cracks or the like from the L-shaped corner portion of the notch portion 181a). is flush with the end surface of the notch 181a (the surface in contact with the side surfaces of the leg units 12 and 14), and the lower end surface of the reinforcing plate 182 is flush with the lower end surface of the beam body 181. is provided as follows. Also, the floor receiving portion 183 is provided to receive the floor unit 11 .

As shown in FIG. 16( a ), on the west side of the second leg unit 13 , a receiving member 13 a for receiving the floor unit 11 is projected so as to be continuous with the floor receiving portion 183 of the connecting beam 18 . Thus, the floor unit 11 is placed on the floor receiving portion 183 of the connecting beam 18 and the receiving member 13 a of the second leg unit 13 . That is, the second leg unit 13 and the connecting beam 18 move the second area of the floor unit 11 placed on the fourth leg unit 15 to the opposite side of the fourth leg unit 15 by the support member 13 a and the floor support portion 183 . It is designed to receive and support from

The length dimension (length dimension in the north-south direction) of the connecting beam 18 is the length dimension in the north-south direction of the architectural floor panel 11a (the architectural floor panel placed on the first leg unit 12 and the third tripod unit 14). is set equal to
In addition, the height dimension of the upper portion of the connecting beam 18 (the portion that protrudes upward from the upper end surface of the first leg unit 12) It is set equal to the thickness dimension of the building floor panel on which it rests. That is, the height dimension of the connecting beam 18 and the size of the notch 181a are such that the upper end surface of the connecting beam 18 spanning between the first leg unit 12 and the third tripod unit 14 The dimension is set so that it is flush with the upper surface of the building floor panel 11a that is bridged between the tripod unit 14 and the floor panel 11a.

The partition wall unit 16 is composed of walls (construction panels 16a to 16c for walls), and extends in a direction orthogonal to the second leg unit 13 and the fourth leg unit 15 (east-west direction in plan view). are placed. The east end of the partition wall unit 16 is connected to the south end of the second leg unit 13 using tools such as screws, bolts and nuts.
A plurality of building panels 16a to 16c for walls (hereinafter referred to as building wall panels 16a to 16c) are used, and the plurality of building wall panels 16a to 16c are connected together using tools such as screws, bolts and nuts. The partition wall unit 16 is thereby configured.
In addition, the partition wall unit 16 is provided with a coping 32 on the upper end surface, and is set to have a height dimension substantially equal to that of the second leg unit 13 . The second area of the floor unit 11 is connected to the side surface of the partition wall unit 16 using tools such as screws, bolts and nuts.

Furthermore, the partition wall unit 16 is positioned at the south end of the entire unit furniture 10, and is arranged facing a portion of the room 1 where the unit furniture 10 is not placed. That is, the partition wall unit 16 separates the room 1 from the upper and lower spaces 10a and 10b.
The partition wall unit 16 is formed with an opening 160 for entering and exiting, which communicates between the lower space 10a and the space inside the room 1 described above. More specifically, among the plurality of construction wall panels 16a to 16c, the construction wall panel 16b at the position where the opening 160 is formed has a vertical dimension shorter than that of the other construction wall panels 16a and 16c. In addition, since the top surfaces of the plurality of building wall panels 16a to 16c are flush with each other, an opening 160 is formed under the building wall panel 16b having a short vertical dimension. It's becoming

The side surfaces of the lower space 10a of the leg units 12 to 15 and the partition wall unit 16 are appropriately finished with a decorative surface material, wall cloth, baseboard, or the like. These finishes shall not be fixed at all to the building frame side.

The unit furniture 10 has the basic configuration as described above, and is installed on the floor surface 2 of the room 1 . The unit furniture 10 has an east-west dimension slightly shorter than the east-west dimension of the room 1, and is in contact with the floor surface 2 and the wall surfaces 3, 4, and 5 of the room 1 in an unfixed state. In other words, the unit furniture 10 is not fixed to the building frame, but is provided in contact with the room 1 so as to fit (set in) exactly. At that time, a vibration suppression means 20 is interposed between the unit furniture 10 and the floor surface 2 and the wall surfaces 3, 4, and 5 of the room 1 to transmit vibration between the unit furniture 10 and the building frame. can be suppressed.

The vibration suppression means 20 includes a first vibration suppression member 21 , a second vibration suppression member 22 , a third vibration suppression member 23 and a fourth vibration suppression member 24 .
These vibration suppressing means 20 (21-24) are provided at the end of the floor unit 11, the end of the leg units 12-15, and the end of the partition wall unit 16 in the unit furniture 10, respectively. Each vibration suppressing means 20 is not fixed at all to the building frame side, but is only in contact, and is fixed to each part of the unit furniture 10 using fasteners such as screws or double-sided tape.

As shown in FIG. 9, the first vibration suppressing material 21 is provided on the side end surface of the floor unit 11, and blocks the gaps between the wall surfaces 3, 4, and 5 and suppresses the transmission of vibration. .
The first vibration suppressing material 21 is a filler material made of resin (expandable resin material) capable of suppressing vibration such as urethane foam. intervening.

As shown in FIG. 10, the second vibration suppressing member 22 is provided on the lower end surface of each of the third tripod unit 14, the fourth leg unit 15, and the partition wall unit 16. As shown in FIG.
The second vibration suppressing material 22 is made of a vibration suppressing resin having viscosity and elasticity, such as urethane elastomer, and is used for the third tripod unit 14, the fourth leg unit 15, the partition wall unit 16, and the floor. It is possible to suppress transmission of vibration between the surfaces 2 .
10(b) and (c) are enlarged views of the F portion of FIG. 10(a). It is shown that a counterbore 25 is formed and the second vibration suppressing member 22 is provided in the counterbore 25 .
The counterbore 25 is formed by processing the frame material K forming the lower end surfaces of the units 14 to 16, and the second vibration suppressing member 22 is provided so as to be fitted into the counterbore 25. . Therefore, even if the unit furniture 10 shakes or moves, the second vibration suppressing material 22 is less likely to protrude from the counterbore 25 .
Since the second vibration suppressing material 22 has viscosity and elasticity, when a load is applied in contact with the floor surface 2, the function of trying to stay in place (stretching force) works, and the unit furniture 10 is displaced. etc.

As shown in FIG. 10, the third vibration suppressing member 23 is provided at a portion of the lower end surface of each of the third tripod unit 14, the fourth leg unit 15, and the partition wall unit 16 where the counterbore 25 is not formed. ing. That is, the third vibration suppressing member 23 is used together with the second vibration suppressing member 22 as a set.
The third vibration suppressing material 23 is made of EPDM (Ethylene Propylene Diene Monomer), which is ethylene propylene rubber, and has elasticity. On the other hand, when a load is applied, as shown in FIG. Vibration transmission between the leg units 12 to 15, the partition wall unit 16 and the floor surface 2 can be suppressed.

As shown in FIG. 11(b), the fourth vibration suppression member 24 is provided on the lower surface of the L-shaped jig 17, and the orthogonal unit U (the first leg unit 12, the second leg unit 13, and the L-shaped jig) 17) and the floor surface 2 to suppress the transmission of vibration.
The fourth vibration suppressing material 24 is made of EPDM, which is ethylene propylene rubber, and has elasticity, and is interposed between the orthogonal unit U and the floor surface 2 .

By providing each of the vibration suppressing means 20 (21 to 24) as described above in the unit furniture 10, the unit furniture 10 is provided in contact with the room 1 so as to fit snugly. and the building frame is suppressed.

Next, an example of the procedure for assembling the unit furniture 10 will be described with reference to FIGS. 12 to 18. FIG.
First, as shown in FIG. 12(a), the positions of the leg units 12 to 15 are marked on the floor surface 2. As shown in FIG. At that time, the wall edge is set at a predetermined distance from the wall surfaces 3 to 5 (gypsum board surface). Specifically, the position of the east side end surface of the first leg unit 12 and the position of the east side end surface of the third tripod unit 14 are set at positions separated from the east side wall surface 4 by a predetermined distance. Further, the position of the north side surface of the third tripod unit 14 and the position of the north side end surface of the fourth leg unit 15 are set at positions separated from the north side wall surface 5 by a predetermined distance. Also, the position of the west side surface of the fourth leg unit 15 is set at a position separated from the west side wall surface 3 by a predetermined distance. In this embodiment, the predetermined distance is 22 mm. As a result, as shown in FIG. 12(b), even if baseboards 40 are provided on the walls 3 to 5, the width of the gap (22 mm gap) between the leg units 12, 14, 15 and the walls 3 to 5 can be reduced. Since the tree 40 is arranged, it is not necessary to provide the leg units 12, 14, 15 with a step or the like for avoiding the baseboard 40.例文帳に追加

Next, as shown in FIG. 12(a), the building wall panels 15a to 15c are arranged with the finishing surfaces facing downward, and the adjacent building wall panels 15a to 15c are arranged from the opposite side to the finishing surfaces of the building wall panels 15a to 15c. The construction wall panels 15a to 15c are connected to each other by driving screws toward the side ends (stile material K) of the wall panels 15a to 15c. Then, the construction wall panels 15a to 15c are erected toward the west wall surface 3, and the upper end surfaces of the construction wall panels 15a to 15c are attached to the side ends (stile material K) of the adjacent construction wall panels 15a to 15c. The building wall panels 15a to 15c are connected more firmly by screwing them toward each other. Thereby, the fourth leg unit 15 is formed.

Next, as shown in FIG. 13( a ), the third tripod unit 14 is arranged at a predetermined position on the floor surface 2 .
Next, the first leg unit 12 and the second leg unit 13 are assembled in three dimensions. Specifically, as shown in FIGS. 13(a) and 13(b), the first leg unit 12 is placed in a state where the west end surface of the first leg unit 12 and the west side surface of the second leg unit 13 are flush with each other. Screws are driven from the upper end surface toward the side end portion (frame member K) of the adjacent second leg unit 13, and from the lower end surface of the leg units 12, 13 to the side end portion (frame member K) of the adjacent leg units 12, 13. K).
After that, an L-shaped jig 17 is attached to the lower end surfaces of the first leg unit 12 and the second leg unit 13 to obtain a right angle. Specifically, as shown in FIG. 13B, the lower end surface of the first leg unit 12 is aligned with the upper surface of the first arm portion 17a of the L-shaped jig 17, and the second arm portion 17a of the L-shaped jig 17 is With the lower end surface of the second leg unit 13 aligned with the upper surface of the arm portion 17b, screws are driven from the lower surface of the L-shaped jig 17 toward the lower ends of the leg units 12, 13 (frame member K). As described above, in the present embodiment, the first leg unit 12 and the second leg unit 13 can be orthogonalized with high accuracy only by attaching the L-shaped jig 17 .
Then, as shown in FIG. 13(b), the fourth vibration suppression member 24 is attached to the lower surface of the L-shaped jig 17, and as shown in FIG. 13(a), the first leg unit 12 and the second leg unit 13 are connected by an L-shaped jig 17 and arranged at a predetermined position on the floor surface 2 .

Next, confirm that the dimension from the north wall surface 5 (gypsum board surface) to the north side surface of the first leg unit 12 (the surface facing the third tripod unit 14) is a predetermined dimension. Then, as shown in FIG. 14( a ), a connecting beam 18 that connects these leg units 12 and 14 is bridged between the first leg unit 12 and the third tripod unit 14 . Then, as shown in FIGS. 14(a) and 14(b), the upper end surface of the connecting beam 18 (beam body 181) and the west end surfaces of the leg units 12 and 14 are flush with each other. A long screw LB (for example, 150 mm in length) is driven toward the upper ends (stile material K) of the leg units 12 and 14 from the bottom.

Next, as shown in FIG. 15( a ), the building floor panel 11 a is placed on the first leg unit 12 and the third tripod unit 14 . Then, as shown in FIGS. 15(a) and 15(b), while the south end surface of the architectural floor panel 11a and the south side surface of the first leg unit 12 are flush with each other, the upper surface of the architectural floor panel 11a is placed on the first leg. A long screw LB (for example, 150 mm long) is driven toward the upper end of the monopod unit 12 (stile material K). In addition, while the north end surface of the architectural floor panel 11a and the north side surface of the third tripod unit 14 are flush with each other, the upper surface of the architectural floor panel 11a is directed toward the upper end portion (frame member K) of the third tripod unit 14. drive a long screw LB (for example, 150 mm long). Furthermore, as shown in FIG. 15(c), a screw SB (for example, length 65 mm) is installed from the west side of the connecting beam 18 (beam body 181) toward the west end (stile material 110) of the building floor panel 11a. strike.

Next, as shown in FIG. 16(a), the building floor panel 11b is placed on the floor support portion 183 of the connecting beam 18 and the fourth leg unit 15 (building wall panel 15c). Then, as shown in FIG. 16(a), the connection beam 18 is pulled from the upper surface of the construction floor panel 11b while the east side end surface of the construction floor panel 11b and the west side surface of the connection beam 18 (beam body 181) are in contact with each other. A long screw LB (for example, 120 mm in length) is driven toward the floor receiving portion 183 of . In addition, while the west end surface of the building floor panel 11b and the west side surface of the fourth leg unit 15 are flush with each other, the upper surface of the building floor panel 11b is directed toward the upper end (stile K) of the fourth leg unit 15. drive a long screw LB (for example, 150 mm long).
Next, the construction floor panel 11c is placed on the floor support portion 183 of the connecting beam 18 and the fourth leg unit 15 (construction wall panel 15b). Then, while the east end face of the building floor panel 11c and the west side face of the connecting beam 18 (beam main body 181) are in contact with each other, a long screw LB is installed from the upper surface of the building floor panel 11c toward the floor receiving portion 183 of the connecting beam 18. (eg length 120 mm). In addition, while the west end surface of the construction floor panel 11c and the west side surface of the fourth leg unit 15 are flush with each other, the upper surface of the construction floor panel 11c is directed toward the upper end (stile K) of the fourth leg unit 15. drive a long screw LB (for example, 150 mm long).

Next, the building floor panel 11d is placed on the receiving member 13a of the second leg unit 13 and the fourth leg unit 15 (building wall panel 15a). Then, as shown in FIG. 16(c), the second leg unit 13 is moved from the upper surface of the architectural floor panel 11d while the east end surface of the architectural floor panel 11d and the west side surface of the second leg unit 13 are in contact with each other. A long screw LB (for example, 120 mm long) is driven toward the receiving material 13a. In addition, while the west end surface of the architectural floor panel 11d and the west side surface of the fourth leg unit 15 are flush with each other, the upper surface of the architectural floor panel 11d is directed toward the upper end of the fourth leg unit 15 (the stile material K). drive a long screw LB (for example, 150 mm long).
Then, as shown in FIG. 16(b), the adjacent building floor panels 11b to 11d are connected with the floor connection bolts B. As shown in FIG. Thereby, the floor unit 11 is formed.
After that, as shown in FIG. 16(c), a screw SB (for example, 65 mm in length) is driven from the upper surface of the building floor panel 11d toward the inside (filler) of the second leg unit 13, and the building floor panel 11d is mounted. The floor unit 11 is more firmly fixed to the second leg unit 13 by driving a screw SB (for example, 65 mm in length) from the east end of the second leg unit 13 toward the interior (filler) of the second leg unit 13 .
Further, screws SB (for example, 65 mm in length) are driven from the upper surfaces of the architectural floor panels 11b, 11c toward the beam bodies 181 of the connecting beams 18, and the connecting beams 18 are attached from the eastern ends of the architectural floor panels 11b, 11c. A screw SB (for example, 65 mm in length) is driven toward the beam body 181 to more firmly fix the floor unit 11 to the connecting beam 18 .

Next, as shown in FIG. 17(a), with the east end face of the building wall panel 16a flush with the east side face of the second leg unit 13, the second leg unit is removed from the upper end face of the building wall panel 16a. A screw SB (for example, 65 mm in length) is driven toward the side end (frame material K) of 13, and from the upper end surface of the second leg unit 13 toward the side end (frame material K) of the architectural wall panel 16a. drive a screw SB (for example, 65 mm long).
Then, as shown in FIGS. 17(a) to 17(c), from the upper end surface of the architectural wall panel 16a, the upper end surface of the architectural wall panel 16a is flush with the upper end surface of the architectural wall panel 16b. A screw SB (for example, 65 mm in length) is driven toward the side end portion (stile material K) of the building wall panel 16b, and the side end portion of the building wall panel 16a is mounted from the upper end surface and the lower end surface of the building wall panel 16b. A screw SB (for example, 65 mm in length) is driven toward (frame material K).
Moreover, as shown in FIGS. 17(a) and 17(b), when the upper end surface of the architectural wall panel 16b and the upper end surface of the architectural wall panel 16c are flush with each other, the upper end surface of the architectural wall panel 16b and the upper end surface of the architectural wall panel 16c A screw SB (for example, 65 mm in length) is driven from the lower end surface toward the side end portion (stile material K) of the building wall panel 16c, and the side end portion of the building wall panel 16b is driven from the upper end surface of the building wall panel 16c. A screw SB (for example, 65 mm in length) is driven toward (frame material K). As a result, the building wall panels 16a to 16c are connected together to form the partition wall unit 16. As shown in FIG.
After that, as shown in FIG. 17(d), screws SB are driven from the upper surface of the floor unit 11 (construction floor panel 11d) toward the inside (filler) of the partition wall unit 16, and the south side of the construction floor panel 11d is installed. The floor unit 11 is fixed to the partition wall unit by driving a screw SB (for example, 65 mm long) from the end toward the inside (filler) of the partition wall unit 16 . A ceiling finishing material 112 is attached to the lower surface of the floor unit 11 .
Thereby, the main body of the unit furniture 10 is completed.

Next, as shown in FIG. 18, the end face tape 31 is attached to the east end face of the partition wall unit 16 and the upper part of the north end face of the second leg unit 13 (the portion that protrudes upward from the floor unit 11). Also, the top rail 32 is attached to the upper end surfaces of the partition wall unit 16 and the second leg unit 13 . Also, the entrance frame 33 is attached to the end face of the opening 160 of the partition wall unit 16 .
After that, the gap between the floor unit 11 and the walls 3 to 5 is filled with the first vibration suppressing material (filler material) 21, and the upper surface of the floor unit 11 is covered with a floor finishing material 34 such as a carpet or flooring material. A lifting means (not shown) is installed at the corner formed by the first leg unit 12 and the second leg unit 13 . Thereby, the unit furniture 10 is completed.

The elevating means is a staircase, ladder, slope, or the like that connects the floor 2 of the room 1 and the upper surface of the unit furniture 10, and is in contact with the floor 2 of the room 1 in an unfixed state, and It shall be provided in a state not in contact with each wall surface 3 to 5 of the room 1 . That is, the lifting means is fixed (detachably fixed or non-detachably fixed) to the unit furniture 10 and attached as a part of the unit furniture 10, and is in contact with the floor surface 2 that is the building skeleton. , is provided in an unfixed state.

The work of assembling the unit furniture 10 as described above is performed at the site (room 1) by a worker (or a resident of the room 1, etc.).
Building panels (each building floor panel and each building wall panel) constituting the unit furniture 10 are manufactured in advance at a factory and delivered to the site. If it is manufactured in a factory in advance, it is easy to transport, and there is an advantage that the assembly work can be performed immediately without processing at the site.
At the factory, attachments of the building panel such as the receiving material 13a, etc., and finishing materials such as a decorative surface material and a wall cloth are also preliminarily attached to the building panel. That is, pre-installable attachments and finishes are pre-attached to the building panel, transported to the site at the same time as the building panel, and ready for assembly with the building panel. can be done. Similarly, the connecting beams 18 are transported to the site in a completed state (with the notch portion 181a, the reinforcing plate 182, and the floor support portion 183). Assembly work can be done immediately.

According to this embodiment, since the unit furniture 10 is installed in the room 1, it is not fixed to the frame of the building including the room 1 and is structurally separated. As a result, the unit furniture 10 can be handled as placed furniture. Since the unit furniture 10 is made up of a structural frame for construction, it is a standing piece of furniture separated from the building, but it can withstand, for example, people getting on or placing articles on the unit furniture 10. It is possible to demonstrate the same degree of structural strength as the building frame.
At least one of the first leg unit 12, the second leg unit 13, the third tripod unit 14, the fourth leg unit 15, and the partition wall unit 16 may not be configured by the structural framework for construction. For example, it may be configured by storage furniture. Specifically, as shown in FIGS. 19 and 20, the unit furniture 10 is composed of storage shelves 151a to 151c instead of the fourth leg unit 15 composed of architectural wall panels 15a to 15c. A fourth leg unit 151 may be provided. As a result, the space under the floor unit 11 (lower space 10a) can be used more effectively. When at least one of the units 12 to 16 is composed of storage furniture, the storage furniture may be storage furniture that can be used from the lower space 10a as shown in FIGS. It may be storage furniture that can be used from inside the space 10b, or storage furniture that can be used from outside the lower space 10a and the upper space 10b (for example, the front side of the unit furniture 10).

Among the plurality of leg units that support the floor unit 11, the first leg unit 12 and the second leg unit 13 are connected by an L-shaped jig 17 to form an L-shaped orthogonal unit U in plan view. there is Therefore, by simply attaching the L-shaped jig 17 to the first leg unit 12 and the second leg unit 13, the orthogonal unit U can be formed with high accuracy, and the assembly work and the like can be easily performed on site. Therefore, it is easier to assemble the unit furniture 10 with higher accuracy than the conventional unit furniture.
Furthermore, since the L-shaped jig 17 connects the lower end surfaces of the first leg unit 12 and the second leg unit 13, it may be of a size that fits within the lower end surfaces. Therefore, since there is no difference in level with the floor surface 2 and it is not a large member, the unit furniture 10 is easy to use and has a high designability like the conventional unit furniture. In addition, since the L-shaped jig 17 is not a large member, the addition of the L-shaped jig 17 does not cause problems such as high cost and difficulty in assembly.

Further, according to the present embodiment, the connecting beam 18 connecting the first leg unit 12 and the third tripod unit 14 facing the first leg unit 12 is a floor receiving portion for receiving the floor unit 11. 183. That is, the first leg unit 12 and the third tripod unit 14 can be connected by simply attaching the connecting beam 18 to the first leg unit 12 and the third tripod unit 14 without providing a separate member for receiving the floor unit 11 . are connected to each other and the floor unit 11 can be received. Therefore, it is possible to prevent an increase in cost and an increase in the number of assembling steps.

Further, according to the present embodiment, the floor unit 11 includes a first area (construction floor panel 11a) supported by the first leg unit 12 and the third tripod unit 14, the second leg unit 13 and the fourth There is a second area (construction floor panels 11b-11d) supported by the leg unit 15, the floor receiver 183 is for receiving the second area, and the side of the second leg unit 13 , a receiving member 13 a for receiving the floor unit 11 is continuously projected from the floor receiving portion 183 . That is, the second leg unit 13 receives and supports the second region of the floor unit 11 by the support member 13a that protrudes from the side surface of the second leg unit 13 and is continuous with the floor support portion 183 of the connecting beam 18. It is something to do. Therefore, since the floor unit 11 can be fixed to the second area of the second leg unit 13 in a state where the second area of the floor unit 11 is positioned by the side surface of the second leg unit 13, assembly work, etc. on site can be performed. is easy to perform, and it is easy to assemble with high accuracy.

Further, according to the present embodiment, the floor unit 11 is set to have a width dimension slightly shorter than the interval between the pair of wall surfaces 3 and 4, and is non-vibrating with respect to the pair of wall surfaces 3 and 4 via the vibration suppressing means 20. Since they are in contact with each other in a fixed state, the vibration suppression means 20 can suppress the vibration of both the pair of wall surfaces 3 and 4 and the floor unit 11 . Furthermore, since the orthogonal unit U, the third tripod unit 14 and the fourth leg unit 15 are in contact with the floor surface 2 via the vibration suppressing means 20 in an unfixed state, the vibration suppressing means 20 prevents the floor surface 2 from Vibration of both units U, 14 and 15 can be suppressed. Therefore, the unit furniture 10 is less susceptible to vibrations generated in the building skeleton.
Further, for example, when the unit furniture 10 shakes, if the gap between the pair of wall surfaces 3 and 4 and the floor unit 11 remains open, the floor unit 11 and the pair of wall surfaces 3 and 4 come into contact with each other. Although this may damage the finish of the pair of wall surfaces 3 and 4, the gap between the pair of wall surfaces 3 and 4 and the floor unit 11 can be closed by the vibration suppressing means 20. It becomes difficult to damage the finish given to 3 and 4. Furthermore, for example, when the unit furniture 10 shakes, the units U, 14, 15 may rub against the floor surface 2, but the vibration suppressing means 20 is interposed between the units U, 14, 15 and the floor surface 2. As a result, the finish applied to the floor surface 2 is less likely to be damaged.

Further, the unit furniture 10 is used in a state in which the gaps between the wall surfaces 3 to 5 are filled with a filler 21 (first vibration suppressing material 21). That is, the filler 21 can close the gaps formed between the unit furniture 10 and the wall surfaces 3 to 5, thereby suppressing the transmission of vibration between the unit furniture 10 and the wall surfaces 3 to 5. Therefore, the unit furniture 10 is less likely to be affected by vibrations generated in the building frame, and less likely to damage the finish applied to the walls 3-5.

In addition, since the second vibration suppressing material 22 has viscosity and elasticity, when a load is applied to the units 14 to 16, even if the unit furniture 10 shakes, the units 14 to 16 can be held in place. As a result, the swaying of the unit furniture 10 can be reduced. Since the transmission of vibration between the units 14 to 16 and the floor surface 2 can be suppressed by such a second vibration suppressing material 22, the units 14 to 16 are less susceptible to vibrations generated in the building frame. and the finish applied to the floor surface 2 is less likely to be damaged.

A counterbore 25 is formed in a part of the lower end surface of each of the units 14 to 16, and the second vibration suppressing member 22 is provided in the counterbore 25. The third vibration suppressing member 23 is provided on the unit 14 to 16. When a load is applied to the second vibration suppressing member 22, the second vibration suppressing member 22 is compressed to a thickness substantially equal to that of the second vibration suppressing member 22. It will not touch face 2. Therefore, if no load is applied to the units 14 to 16, the force of the second vibration suppressing member 22 does not act on the units 14 to 16, making it easier to move them. easier to go.
In addition, since the second vibration suppressing member 22 is provided in the counterbore 25 formed in a part of the lower end surface of the units 14 to 16, it fits well and is less likely to come off from the lower end surface of the units 14 to 16. .
Furthermore, when a load is applied to the units 14 to 16, the third vibration suppressing member 23 provided at the lower end surface of the units 14 to 16 where the counterbore 25 is not formed acts as the second vibration suppressing member. Since it is compressed to a thickness substantially equal to that of the material 22 and suppresses the transmission of vibration between the units 14 to 16 and the floor surface 2, both the second vibration suppressing material 22 and the third vibration suppressing material 23 provide synergistic effect. A vibration suppression effect can be exhibited.

In addition, since the lifting means (not shown) for climbing to the upper surface of the floor unit 11 is in contact with the floor surface 2 of the room 1 in an unfixed state, it is possible to climb to the upper surface of the floor unit 11 while suppressing wobble. becomes possible.

Moreover, since the partition wall unit 16 separates the upper and lower spaces 10a and 10b in the floor unit 11 from the room 1, the upper and lower spaces 10a and 10b in the floor unit 11 can be treated as separate spaces from the room 1. It becomes possible.

1 Room 2 Floor surface 3 Wall surface 4 Wall surface 10 Unit furniture 11 Floor unit 11a Architectural floor panel: Second region 11b Architectural floor panel: Second region 11c Architectural floor panel: Second region 11d Architectural floor panel: First Region 12 First leg unit 13 Second leg unit 13a Support material 14 Third tripod unit 15 Fourth leg unit 17 L-shaped jig 18 Connecting beam 20 Vibration suppression means 21 First vibration suppression material: filler 22 Second vibration suppression Material 23 Third vibration suppression material 183 Floor support U Orthogonal unit

Claims (5)

Unit furniture that is installed in a room that has at least a floor surface and a wall surface,
a floor unit provided above a portion of the floor surface;
and a plurality of leg units that support the floor unit,
A unit characterized in that, among the plurality of leg units, the first leg unit and the second leg unit are connected at their lower end surfaces by an L-shaped jig to form an L-shaped orthogonal unit in plan view. furniture. In the unit furniture according to claim 1,
a connecting beam that connects the first leg unit and a third tripod unit of the plurality of leg units that faces the first leg unit,
Unit furniture, wherein the connecting beam has a floor receiving portion for receiving the floor unit. In the unit furniture according to claim 2,
The floor unit includes a first area supported by the first leg unit and the third tripod unit, a fourth leg of the second leg unit and the plurality of leg units facing the second leg unit. a second region supported by the unit;
The floor receiving portion is for receiving the second region,
A piece of unit furniture, wherein a receiving member for receiving the floor unit is provided on a side surface of the second leg unit so as to be continuous with the floor receiving portion. In the unit furniture according to any one of claims 1 to 3,
The orthogonal unit and the leg units other than the first leg unit and the second leg unit among the plurality of leg units are in contact with the floor surface in an unfixed state via vibration suppressing means. unit furniture. In the unit furniture according to any one of claims 1 to 4,
Unit furniture characterized by being used in a state in which a gap between the wall surface and the wall surface is filled with a filler.

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