JPH10331267A - Unit building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make effective use possible for an interior space and to simplify the structure for a building unit and a foundation. SOLUTION: A unit building 10 comprises of a building unit 11 that is composed of an upper structural body 12 made up by mounting ceiling beams 15 on the upper ends of columns 14 and a lower structural body 13 made up by installing floor beams 17 to the lower ends of columns 16, and the lower ends of the columns 14 of the upper structural body 12 are joined to the upper ends of the columns 16 of the lower structural body 13, and the lower structural body 13 is laid on a foundation 18. On the laying, the lower structural body 13 is buried underground.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a unit building having no floor beams in an internal space.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 9, a unit building 1 having no floor beams in the interior space has a ceiling beam 3 at the upper end of a column 2 and a floor beam 4 at the lower end.
Is installed on the foundation 6, and then the main part 4A of the floor beam 4 is removed (first prior art).

In this case, the foundation 6 is a rising foundation that protrudes above the ground G, and the pillar 2 of the building unit 5
It is fixed to the foundation 6 by anchor bolts 7A embedded in the foundation 6. Further, the pillar 2 and the floor beam 4 as the rest of the floor beam 4
Is also fixed to the foundation 6 by the anchor bolt 7B embedded in the foundation 6. By fixing the building unit 5 by these anchor bolts 7A and 7B, the building unit 5 has a rigid structure against the rotational moments M ₁ and M ₂ acting in the direction in which the column 2 is tilted.

[0004] The conventional unit building is disclosed in
As shown in -77444, the building unit has an upper structure in which a ceiling beam is mounted on an upper end of a column, and a lower structure in which a floor beam is mounted on a lower end of the column, A structure in which a lower end of a column of an upper structure is joined to an upper end of a column of a lower structure is disclosed, and the lower structure is installed on a foundation (second conventional technique). At this time, the foundation is ground G
Rising foundations projecting above are generally employed.

[0005]

However, in the first prior art, since the joint piece 4B protrudes into the internal space of the unit building 1, the internal space is restricted.

Further, in the first prior art, since the main part 4A of the floor beam 4 is omitted, the strength of the building unit 5 is reduced, and therefore, the building unit 5 must be reinforced. Therefore, the structure of the building unit 5 becomes complicated and costs increase.

Further, in the first prior art, since the foundation 6 is a rising foundation, and the anchor bolts 7A and 7B are juxtaposed to the foundation 6 in order to increase the durability against the rotational moments M ₁ and M ₂ , 6 becomes complicated, and the local construction cost rises.

In the second prior art, since the floor beams are present in the internal space of the unit building, the unit space cannot be used effectively for a garage or the like, and a standing foundation is used as the foundation. This complicates the basic structure.

An object of the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a unit building which can effectively utilize an internal space and can simplify a structure of a building unit and a foundation.

[0010]

According to a first aspect of the present invention, a building unit comprises an upper structure having a ceiling beam mounted on an upper end of a column and a floor beam mounted on a lower end of the column. A lower building having a lower structure and a lower end of the column of the upper structure being joined to an upper end of the column of the lower structure, and the lower structure being installed on a foundation. , The lower structure is buried and provided.

According to a second aspect of the present invention, in the first aspect of the present invention, a reinforcing member is provided at an upper end of the column of the lower structure, and a lower end of the column of the upper structure is attached to the reinforcing member. It has been joined.

According to a third aspect of the present invention, in the second aspect of the present invention, the reinforcing member is connected to an anchor bolt for fixing the lower structure to a foundation, and an upper end of a column of the lower structure. It was installed in.

According to a fourth aspect of the present invention, in the third aspect of the present invention, a lower end of the pillar of the upper structure is connected to an anchor bolt for fixing the lower structure to a foundation together with a reinforcing member. And the reinforcing member.

The invention according to claim 5 is the invention according to claim 3 or 4.
In the invention described in (1), the reinforcing member is fixed to an upper end portion of a column of the lower structure with a reinforcing bolt.

According to a sixth aspect of the present invention, in the first aspect of the present invention, the internal space of the upper structure is used as a garage or a piloti space.

[0016]

The invention described in claim 1 has the following operation.
Since the lower structure joined to the upper structure is buried, a unit building without floor beams in the internal space can be configured. Moreover, since a part of the floor beam is not left in the internal space, a part of the floor beam does not become an obstacle, and the internal space of the unit building can be effectively used.

Further, since the building unit is composed of an upper structure having a ceiling beam and a lower structure having a floor beam, sufficient strength can be secured, and therefore, it is necessary to reinforce the upper structure. And the structure of the building unit can be simplified.

Further, since the lower structure is buried, the lower structure has a basic function. This substructure,
Since the volume is small and the width is small as compared with the rising foundation, a flat foundation can be adopted as the foundation, and the foundation can be simplified and the construction period on site can be shortened, and the accuracy can be improved.

The second aspect of the invention has the following operation. The pillars of the upper structure and the lower structure are joined via a reinforcing member, and since the reinforcing member has excellent cross-sectional performance, the reinforcing member acts in a direction in which the pillar of the upper structure is tilted. High rigidity against rotational moment. Therefore, it is not necessary to increase the strength of the upper structure, and the structure of the upper structure can be simplified, so that the weight, the number of parts, and the cost of the upper structure can be reduced.

Further, since the reinforcing member has a simple structure that fits within the range of the sectional area of the pillar, the reinforcing member does not protrude into the internal space, and the internal space of the unit building can be effectively used.

The third aspect of the invention has the following effects. Since the reinforcing member was connected to the upper end of the pillar of the lower structure with the anchor bolt fixing the lower structure to the foundation,
A dedicated bolt for connecting the reinforcing member to the pillar of the lower structure is not required, and the number of parts can be reduced.

The invention according to claim 4 has the following operation. Since the pillars of the upper structure are fixed to the reinforcing members with anchor bolts that fix the lower structure to the foundation, there is no need for special bolts to fix the columns of the upper structure to the reinforcing members, further reducing the number of parts it can.

The invention described in claim 5 has the following operation. Since the reinforcing member is fixed to the upper end portion of the pillar of the lower structure by the reinforcing bolt and reinforced, the pull-out strength and the torsional strength around the axis of the reinforcing member can be improved.

The invention according to claim 6 has the following operation. Since there are no floor beams in the internal space, the internal space of the unit building can be suitably used as a garage or a piloti space.

[0025]

Embodiments of the present invention will be described below with reference to the drawings. (A) First Embodiment FIG. 1 is a side view showing a first embodiment of a unit building according to the present invention. FIG. 2 is a perspective view showing the building unit of FIG. FIG. 3 is a cross-sectional view showing a joint structure between the lower structure and the foundation in FIG. 1. FIG. 4 is a cross-sectional view showing a joint structure between the upper structure and the lower structure in FIG.

The building unit 11 of the unit building 10 is
As shown in FIG. 1 and FIG.
5 has a lower structure 13 on which a floor beam 17 is mounted on the lower end of a column 16, and a lower end of a column 14 of the upper structure 12 It is joined to the upper end of the column 16 of the structure 13 as described later. In the building unit 11 thus configured, the columns 16 of the lower structure 13 are installed on a foundation 18 as described later.

After the lower structure 13 is installed on the foundation 18 and the upper structure 12 is joined to the lower structure 13, the lower structure 13 is buried in the ground and functions as a foundation. The symbol G in FIG. 1 indicates the ground. Therefore, the lower structure 13 has a strength with which the column 16 can support the load of the upper structure 12, and has a sectional strength equal to or higher than that of the conventional rising foundation 6 (FIG. 9). Also, the lower structure 13
Is bonded with mortar or the like after joining with the upper structure 12.

As shown in FIG. 3, the pillar 16 of the lower structure 13 is a hollow steel pillar, and a lower end plate 19 is provided with a bolt hole 20 and a guide hole 21. Also,
The guide plate 2 having the guide hole 22 is provided in the pillar 16.
3 is fixed.

On the other hand, the foundation 18 is a flat foundation made of reinforced concrete, in which anchor bolts 24 are embedded. An anchor plate 25 is fixed to the lower end of the anchor bolt 24, and the anchor bolt 24 is fixed to the foundation 18 by the presence of the anchor plate 25.
An elastic body 26 made of a synthetic resin foam sheet is wound around the anchor bolt 24. After the concrete of the foundation 18 is solidified, the upper portion of the anchor bolt 24 is movably provided in the horizontal direction due to the compression deformation of the elastic body 26.

The anchor bolt 24 is inserted into a bolt hole 28 of a base plate 27 placed on the upper surface of the foundation 18. This base plate 27 has bolt holes 28
Two guide pins 29 are implanted at point-symmetric positions with respect to
The guide pins 29 are inserted into the guide holes 21 of the lower end plate 19 of the column 16 so that the column 16 can be positioned with respect to the foundation 18.

When the lower structure 13 is installed on the foundation 18, that is, when the pillar 16 of the lower structure 13 is installed on the foundation 18, first, the anchor bolt 24 is inserted into the bolt hole 28 of the base plate 27, and the base plate 27 is Place on the base 18. Next, the guide pin 29 of the base plate 27 is inserted into the guide hole 21 of the lower end plate 19 of the column 16 to position the column 16, and the anchor bolt 24 is inserted into the bolt hole 20 of the lower end plate 19 of the column 16.

Thereafter, a nut tightening tool (not shown) holding the nut 30 is inserted from the upper end of the column 16, the nut 30 is guided to the anchor bolt 24 through the guide hole 22 of the guide plate 23, and the nut tightening tool is used. Nut 3
0 is screwed into the anchor bolt 24. Thereby, the pillar 16 of the lower structure 13 is fixed to the foundation 18, and the lower structure 13 is installed on the foundation 18.

After the lower structure 13 is installed on the foundation 18, the upper structure 12 is joined to the lower structure 13. The pillar 14 of the upper structure 14 is a hollow steel pillar as shown in FIG. 4, and a bolt hole 32 and a guide hole 33 are opened in a lower end plate 31. A guide plate 35 having a guide hole 34 is fixed in the column 14.

On the other hand, after the lower structure 13 is installed on the foundation 18, the joining bolt 3 is attached to the upper end plate 36 of the lower structure 13.
The lower end of 7 is screwed. Further, two guide pins 38 are implanted in the lower end plate 36 at point-symmetric positions with respect to the joining bolt 37.

The lower end plate 31 of the column 14 of the upper structure 12 and the upper end plate 36 of the column 16 of the lower structure 13
A bonding plate 39 is provided between the first and second plates. The joining plate 39 is used for joining between the pillars 16 and the pillars 16 arranged adjacent to the pillars 16 and between the pillars 16 and other members adjacent to the pillars 16. The joint plate 39 is provided with a bolt hole 40 through which the joint bolt 37 can be inserted and a guide hole 41 through which the guide pin 38 can be inserted.

The joint between the lower structure 13 and the upper structure 12, that is, the joint between the column 16 of the lower structure 13 and the column 14 of the upper structure 12, first requires the upper end plate 36 of the column 16 of the lower structure 13. A joining plate 39 is disposed on the upper end plate 3 by inserting a joining bolt 37 and a guide pin 38 into a bolt hole 40 and a guide hole 41 of the joining plate 39, respectively.
Screw it into 6.

Next, the column 14 of the upper structure 12 is lowered, and the guide pin 38 is inserted into the guide hole 33 of the lower end plate 31 of the column 14 so that the column 14 of the upper structure 12 is Position the column 16. afterwards,
Further, the column 14 is lowered, and the joining bolt 37 is inserted into the bolt hole 32 of the lower end plate 31 of the column 14.

Thereafter, a nut tightening tool (not shown) holding the nut 42 is inserted from the upper end of the column 14 of the upper structure 12 through the guide hole 34 of the guide plate 35, and the nut 42 is joined by the nut tightening tool. Screw it to the bolt 37. Thus, the pillars 14 of the upper structure 12 are fixed to the pillars 16 of the lower structure 13, and the upper structure 12 and the lower structure 13 are joined.

In order to prevent deformation of the upper structure 12 during transportation and installation (installation), a temporary floor beam 43 shown by a two-dot chain line in FIG. However, after joining the upper structure 12 to the lower structure 13, the temporary floor beams 43 are removed.

The height H of the lower structure 13 is set to be equal to the height of the rising foundation (neither is shown) of an adjacent building unit.

According to the unit building 10 of the above embodiment, the following effects are obtained. Since the lower structure 13 joined to the upper structure 12 is embedded, the unit building 10 in which the floor beams 17 of the lower structure 13 do not exist in the internal space of the upper structure 12 can be configured. In addition, since a part of the floor beam 17 is not left in the internal space of the lower structure 12, a part of the floor beam 17 does not become an obstacle, and the internal space of the unit building 10, that is, the internal space of the upper structure 12 is effectively used. Available.

The building unit 10 includes an upper structure 12 having a ceiling beam 15 and a lower structure 13 having a floor beam 17.
Therefore, sufficient strength can be ensured. For this reason, there is no need to reinforce the upper structure 12, and the structure of the building unit 10 can be simplified.

Since the lower structure 13 is buried in the ground, the lower structure 13 performs a basic function. Since the lower structure 13 has a smaller volume and a smaller width than the rising foundation, a flat foundation can be adopted as the foundation 18, and the foundation 18 can be simplified to shorten the construction period at the site, and to improve the accuracy. It can also be improved.

The unit building 10, that is, the upper structure 1
Since the floor beams 17 do not exist in the internal space 2, the internal space of the unit building 10 can be effectively used as a garage or a piloti space.

(B) Second Embodiment FIG. 5 is a sectional view showing a joint structure of a foundation, a lower structure and an upper structure in a unit building according to a second embodiment of the present invention. FIG. 6 is a sectional view taken along the line VI-VI in FIG. FIG. 7 is a sectional view taken along line VII-VII in FIG. FIG. 8 is a cross-sectional view showing a modification of the reinforcing member of FIG. 5 and corresponding to FIG. In this embodiment, the same parts as those in the above embodiment are denoted by the same reference numerals, and the description thereof will be omitted.

As shown in FIG. 5, in the unit building 50, the reinforcing member 51 is installed on the upper end plate 36 of the column 16 of the lower structure 13, and the lower end plate 31 of the column 14 of the upper structure 12 is attached to the reinforcing member. The building unit 52 is configured by being joined to the base unit 51, and the columns 16 of the lower structure 13 and the reinforcing members 51 are buried in the ground to function as a foundation.

The reinforcing member 51 is made of, for example, steel. As shown in FIGS. 5 and 7, the space between the top surface 53 and the bottom surface 54 is integrated by a hollow cylindrical portion 55. For example, four flange portions 56 are integrated with the top surface portion 53 and the bottom portion 54 to extend radially, and a lip portion 57 is integrated with the top surface portion 53 and the bottom portion 54 at the tip of each flange portion 56. It is configured.

The reinforcing member 51 has excellent sectional performance such as a second moment of area, and rotational moments M ₁ and M ₂ acting on the column 14 in the direction in which the column 14 of the upper structure 12 is tilted.
It is configured with high rigidity that can withstand (FIG. 1). Further, in the reinforcing member 51, the top surface portion 53 and the bottom surface portion 54 are formed to have a size that falls within the range of the cross-sectional area of the column 16 of the lower structure 13, as shown in FIGS. Further, in the reinforcing member 51, the bolt hole 58 is formed in the bottom surface portion 54, and the cylindrical portion 5 is formed.
For example, four locations are established around 5.

On the other hand, the pillars 16 of the lower
The nut 30 is screwed into a substantially central position in the axial direction of the anchor bolt 24 so that the lower structure 13 is fixed to the foundation 18.
Installed in At this time, the anchor bolt 24 is
6 is inserted through a bolt hole 59 formed in the upper end plate 36 and protrudes upward.

After the lower structure 13 is installed on the foundation 18, the reinforcing member 51 is placed on the upper end plate 36 of the column 16 of the lower structure 13, and the reinforcing bolt 60 is inserted into the bolt hole 58 of the reinforcing member 51 and the column The reinforcing member 51 is fixed to the column 16 of the lower structure 13 by being screwed into a bolt hole 61 formed in the upper end plate 36 of the lower structure 13.

Next, the base plate 27 is placed on the top surface 53 of the reinforcing member 51. At this time, the lower structure 1
The anchor bolt 24 protruding from the third column 16 is inserted into the hollow hole 63 of the cylindrical portion 55 of the reinforcing member 51 and protrudes above the reinforcing member 51.

After that, the column 14 of the upper structure 12 is lowered, and the guide pins 29 of the guide plate 27 are inserted into the guide holes 33 of the lower end plate 31 of the upper structure 14.
The pillar 14 is positioned with respect to the reinforcing member 51, and then the tip of the anchor bolt 24 is inserted into the bolt hole 32 of the lower end plate 31 of the pillar 14.

Finally, a nut tightening tool (not shown) holding the nut 42 is inserted from the upper end of the column 14 of the upper structure 12 through the guide hole 34 of the guide plate 35, and the nut 42 is tightened by the nut tightening tool. Screw it to the tip of the anchor bolt 24. Thus, the reinforcing member 51
Are connected to the anchor bolts 24 and installed on the upper end plate 36 of the column 16 of the lower structure 13, and the column 16 of the upper structure 12 is joined to the reinforcing member 51.

Therefore, the unit building 5 of this embodiment
According to 0, in addition to the above effect, the following effect
Play a fruit. Pillar 14 of upper structure 12 and pillar 16 of lower structure 13
Are joined via a reinforcing member 51, and the reinforcing member 51
Because of its excellent cross-sectional performance, this reinforcing member 5
1 is a rotation acting in the direction in which the column 14 of the upper structure 12 is tilted.
Rolling moment M ₁ , M_Two High rigidity. For this reason,
There is no need to increase the strength of the upper structure 12,
Since the structure of the structure 12 can be simplified,
Weight, number of parts and cost can be reduced.

The reinforcing member 51 is used as the pillar 14 of the upper structure 12.
And since it is a simple structure which fits within the range of the cross-sectional area of the pillar 16 of the lower structure 13, the reinforcing member 51 does not protrude into the unit building 50, that is, the inner space of the upper structure 12, and the inner space of the unit building 50 Can be used effectively.

The reinforcing member 51 is fixed to the lower structure 13 by an anchor bolt 24 for fixing the lower structure 13 to the foundation 18.
Since it is connected to the upper end plate 36 of the column 16, a dedicated bolt for connecting the reinforcing member 51 to the column 16 of the lower structure 13 becomes unnecessary, and the number of parts can be reduced.

Further, since the pillars 14 of the upper structure 12 are fixed to the reinforcing member 51 with the anchor bolts 24, no special bolt for fixing the upper structure 12 to the reinforcing member 51 is required, and the number of parts is reduced. It can be further reduced.

The reinforcing member 51 is connected to the column 1 of the lower structure 13.
6 is fixed to the upper end plate 36 by the reinforcing bolt 60 and reinforced, so that both the pull-out strength of the reinforcing member 51 and the torsional strength around the axis of the reinforcing member 51 can be improved.

The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration of the present invention is not limited to this embodiment, and the design may be changed without departing from the scope of the present invention. The present invention is also included in the present invention. For example, if the reinforcing member 51 has a sectional performance that can withstand the rotational moments M ₁ and M ₂ acting on the columns 14 of the upper structure 12, the lip portion 57 exists at the tip of the flange portion 56 of the reinforcing member 51. The reinforcing member 64 shown in FIG. Furthermore, the internal space of the upper structure 12 in the unit buildings 10 and 50 is not limited to a garage or a piloti space, and may be used for ordinary residential use.

[0060]

As described above, according to the unit building of the present invention, the internal space can be effectively used, and the structure of the building unit and the foundation can be simplified.

[Brief description of the drawings]

FIG. 1 is a side view showing a first embodiment of a unit building according to the present invention.

FIG. 2 is a perspective view showing the building unit of FIG. 1;

FIG. 3 is a cross-sectional view showing a joint structure between a lower structure and a foundation in FIG. 1;

FIG. 4 is a sectional view showing a joint structure between the upper structure and the lower structure in FIG. 1;

FIG. 5 is a sectional view showing a joint structure of a foundation, a lower structure, and an upper structure in a second embodiment of the unit building according to the present invention.

FIG. 6 is a sectional view taken along the line VI-VI of FIG. 5;

FIG. 7 is a sectional view taken along line VII-VII in FIG. 5;

8 shows a modified example of the reinforcing member of FIG. 5, and FIG.
It is sectional drawing corresponding to FIG.

FIG. 9 is a side view showing a conventional unit building.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Unit building 11 Building unit 12 Upper structure 13 Lower structure 14 Column of upper structure 15 Ceiling beam 16 Column of lower structure 17 Floor beam 18 Foundation 24 Anchor bolt 37 Joint bolt 50 Unit building 51 Reinforcement member 60 Reinforcement bolt G Ground

Claims (6)

[Claims] 1. A building unit comprising: an upper structure having a ceiling beam mounted on an upper end of a column; and a lower structure having a floor beam mounted on a lower end of the column. The lower end of the pillar is joined to the upper end of the pillar of the lower structure. In a unit building on which the lower structure is installed on a foundation, the lower structure is embedded and provided. A unit building characterized by the following: 2. The unit building according to claim 1, wherein a reinforcing member is provided at an upper end of the pillar of the lower structure, and a lower end of the pillar of the upper structure is joined to the reinforcing member. 3. The unit building according to claim 2, wherein the reinforcing member is connected to an anchor bolt for fixing the lower structure to a foundation, and is installed at an upper end of a pillar of the lower structure. 4. The unit building according to claim 3, wherein a lower end of the pillar of the upper structure is joined to an anchor bolt for fixing the lower structure to a foundation together with a reinforcing member, and is joined to the reinforcing member. . 5. The unit building according to claim 3, wherein the reinforcing member is fixed to an upper end of a pillar of the lower structure with a reinforcing bolt. 6. The unit building according to claim 1, wherein the internal space of the upper structure is used as a garage or a piloti space.