JP2003184184A - Building unit connecting structure and building unit connecting method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a joint structure which facilitates connection of columns of respective upper- and lower-story building units, and to provide a connecting method using the connecting structure. <P>SOLUTION: According to the connecting structure, a lower-story column 11 has a horizontal joint surface 13 on an upper bed thereof, which surface has a through hole 14 formed at the center thereof. The column 11 has a notch 16 formed by cutting away a surface of the column, at a location near the horizontal joint surface, which notch is then reinforced by reinforcing plates 27, 28 stuck onto both sides thereof. An upper-story column 21 has a horizontal joint surface 23 on a lower bed thereof, which surface has a through hole 24 formed at the center thereof. The column 21 has a notch 26 formed by cutting away a surface of the column, at a location near the horizontal joint surface, which notch is then reinforced by the reinforcing plates 27, 28 stuck onto both sides thereof. In implementation of the connecting method, a bolt 15 is inserted into the through holes 14, 24, and a bolt fastening tool is inserted into the interior of the columns 11, 21 from the notches 16, 26, to thereby fasten the columns to each other by bolts 15 and nuts 25. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure for joining building units, and more particularly to a structure and a method for joining building units on upper and lower floors by columns among the columns and beams constituting the building unit. It is a thing.

[0002]

2. Description of the Related Art Conventionally, for example, Japanese Patent Laid-Open No. 2001-254 discloses a structure in which building units on the upper and lower floors are joined by columns.
There is a technique disclosed in Japanese Patent Laid-Open No. 445.
There was a technique disclosed in Japanese Patent No. 316973.

In the former case of the above-mentioned prior art, a long bolt tightening tool is inserted from the upper end of the pillar on the upper floor building unit side, and the bolt is attached at the lower end of the pillar while passing through the hollow inside of the pillar. It is fastened and joined to the upper end of the pillar of the lower floor building unit. And, since the spiral guide rail is provided inside the pillar of the upper floor building unit,
A bolt tightening tool can be inserted through the center of the pillar, and unit connecting bolts are temporarily attached to the bottom of the pillar of the upper floor building unit,
A tool guide for guiding the bolt tightening tool to the unit connecting bolt was provided. Therefore, for tightening the unit connecting bolt, the unit connecting bolt can be easily reached by inserting a bolt tightening tool into the pillar of the upper floor building unit.

On the other hand, in the latter, the ceiling beam of the lower-floor building unit and the floor beam of the upper-floor building unit are joined together, and more specifically, a flange that constitutes the ceiling beam of the lower-floor building unit. The lower part of the part and the upper part of the flange part constituting the floor beam of the upper floor building unit are joined by fastening with bolts, and in the ceiling beam of the lower floor building unit, While mounting the tubular steel in the middle of the upper and lower flanges, fill the interior of the tubular steel with a curable filler, and before the curable filler hardens,
A bolt that penetrates the lower flange portion of the floor beam of the upper-floor building unit is projected into the tubular steel, whereby the tip of the bolt is hardened and joined by a hardenable filler.

[0005]

However, in the former one of the above-mentioned prior arts, since the connection is made by using a long bolt tightening tool inside the pillar of the upper floor building unit, It is not easy to check the tightening state of the unit connecting bolts with the bolt tightening tool.Although there are spiral guide rails and tool guides inside the column, The connection work cannot be performed easily.

In view of this, the latter method of joining between the beams facing each other instead of joining by columns was devised. In this type of prior art, H-shaped steel or C is used as the beam material.
By using the shape steel, it is possible to perform the joining work in the vicinity of the place to be joined, so the work is simple, but the beam will repeatedly bend due to long-term use, and it will hit the column where the weight is concentrated. Since the contact portion may be displaced, it has been necessary to provide sufficient reinforcement to support the weight of the upper-floor building unit.

The present invention has been made in consideration of the above points, and an object thereof is to provide a joining structure and a joining method capable of easily connecting columns of upper and lower floor building units. It is in.

[0008]

Therefore, the present invention relating to a joint structure is a joint structure of a lower-floor building unit and an upper-floor building unit, and the upper end of a lower-floor pillar constituting the lower-floor building unit. And the lower end of the upper floor pillar constituting the upper floor building unit is provided with a horizontal joint surface that abuts each other when stacking both building units, and a through hole is formed in the center of each horizontal joint surface. Provided in the vicinity of the horizontal joint surface of both of the above-mentioned pillar main bodies, a notch portion is formed by notching the surface of the pillar, and the bolts inserted into the through holes are tightened while the horizontal joint surfaces are in contact with each other. The gist is the joint structure of building units.

In the above case, a positioning projection is provided on one of the horizontal joining surfaces of the lower floor column and the upper floor column, and the projecting portion is provided on the other horizontal joining surface. By providing a fitting insertion hole for fitting, it is possible to perform positioning so that the through holes of both horizontal joint surfaces are continuous when the protrusion is fitted into the fitting hole.

The present invention relating to a joint structure is a joint structure of a lower floor building unit and an upper floor building unit,
At the upper end of the lower floor pillar that constitutes the lower floor building unit and the lower end of the upper floor pillar that constitutes the upper floor building unit,
A horizontal joint surface is provided that abuts each other when stacking the two building units, and one of the two horizontal joint surfaces is provided with a male screw portion projecting in the longitudinal direction of the column at the center thereof and the other of the other. A through hole is provided in the center of the horizontal joint surface, and at least the pillar on the side where the through hole is provided is provided with a cutout portion that is cut out near the horizontal joint surface on the surface. A joint structure of a building unit is also characterized in that a horizontal joint surface is brought into contact with the bolt while being inserted, and a nut is mounted with the horizontal joint surface on the side where the through hole is provided sandwiched. is there.

Then, in the case of each of the above-mentioned joint structures,
The columns for the lower floor and the upper floor have a quadrangular cylindrical shape,
It is preferable that the cutout portion is provided on the side surface of the cylindrical column, and a reinforcing plate having a predetermined area is fixed to the side surface near the cutout portion. Further, the cutout portion may be provided continuously on two adjacent side surfaces of the cylindrical column. The reinforcing plate in this case is preferably fixed to both sides of the cutout on the two side surfaces provided with the cutout.

Further, the present invention relating to the joint structure includes a lower floor pillar having a quadrangular cross section and constituting a lower floor building unit, and an upper floor pillar having a quadrangular tubular cross section which constitutes an upper floor building unit. In the joint structure of the building unit to be joined, a notch is formed by notching a predetermined range on the side surface near the lower end of the upper floor pillar, and a reinforcing plate member is fixed to both side surfaces of the notch,
A notch formed by notching a predetermined range symmetrically with the notch provided in the upper floor pillar is provided near the upper end of the lower floor pillar, and reinforcing plate members are fixed to both side surfaces of the notch, both buildings. When the units are stacked, the horizontal joint surfaces provided at the tips of the pillars of the two building units that come into contact with each other are provided so as to face each other, and a through hole is provided at the center of the horizontal joint surfaces, and the notch The bolts and nuts are placed inside the columns for the upper floor and the lower floor via the, and the bolts are inserted into the through holes of the horizontal joint surfaces while tightening between the horizontal joint surfaces. The feature is the joint structure of the building units.

The present invention also relates to a method for joining building units, which is a joining method using the joining structure according to any one of claims 1 to 5, in which horizontal joining of upper and lower building units to be joined is in contact. A bolt is inserted into a through hole provided on the surface, and a bolt and a nut are fastened while inserting a bolt fastening tool from the notch into the inside of the pillar, and a method of joining building units is summarized. To do.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. The present invention relates to a structure and a joining method for joining building units 1 and 2 for constructing a unit house A as shown in FIG. The units 2 are stacked and joined together to construct a two-story or three-story unit house A. The building units 1 and 2 are composed of a plurality of pillars 11 and 21 and beams 12 and 22.
When the two are stacked, the upper end of the lower floor pillar 11 that constitutes the lower floor building unit 1 and the lower end of the upper floor pillar 21 that constitutes the upper floor building unit 2 are joined.

Therefore, as shown in FIG. 2, the lower floor pillar 11 and the upper floor pillar 21 of the present embodiment are formed by so-called square pipes having a square cross section. Horizontal joint surfaces 13 and 23 are provided at the tip. The horizontal joint surfaces 13 and 23 are provided on the entire surface of the open end so as to close the tip of the hollow cylindrical square pipe, and the horizontal joint surfaces 13 and 23 are formed on both the pillars 11 and 12. Is formed in a square shape slightly larger than the cross-sectional shape of, and a through hole 14 is provided in the center thereof.

When the upper floor building unit 2 is stacked above the lower floor building unit 1 by providing the horizontal joint surfaces 13 and 23 on both the lower floor pillar 11 and the upper floor pillar 21 as described above. When the horizontal joint surfaces 13 and 23 come into contact with each other while facing each other, and when the both horizontal joint surfaces 13 and 23 come into contact with each other in a completely coincident manner, the through holes 14 and 24 provided in the centers of the horizontal joint surfaces 13 and 23 are , Will be arranged continuously on the same straight line. Therefore, as shown in the figure, a single bolt 15 can be inserted into both the through holes 14 and 24, and by this insertion, a nut is attached to the tip of the bolt 15 protruding from the lower floor pillar 11 to the upper floor pillar 21. By screwing 25 together, the two horizontal joint surfaces 13 and 2 facing each other
3 can be joined.

Further, as shown in FIG. 2, in the vicinity of the tips of the lower floor pillar 11 and the upper floor pillar 21, notches 16 and 26 are provided in a part of the side surface forming the square pipe. The cutout portions 16 and 26 are cut out so as to reach the hollow inside of the square pipe. Therefore, the bolt 15 or the nut 2 is inserted into the hollow inside of the lower floor pillar 11 and the upper floor pillar 21 through the cutout portion 16.
5 can be arranged.

Now, the structures of the notches 16 and 26 and their surroundings will be described in detail. Since the notch 16 of the lower floor pillar 11 and the upper floor pillar 21 are symmetrical with each other, only the structure of one upper floor pillar 21 will be described. First, the notch portion 26 provided in the upper floor pillar 21.
As described above, is provided near the lower end thereof, and as shown in FIG. 3, side portions located on both sides of one corner forming a square cross section of the upper floor pillar 21 as a center. Are provided continuously. That is, of the four side surfaces forming the square pipe, the cutout portions 26a, 2 are provided on two side surfaces.
6b are provided, and these notches 26a and 26b are provided.
Continuously form a single notch 26 (FIG. 3).
(See (a)). Then, the notches 26a and 26b are formed.
Are notched in the same shape and size,
Its shape is a rectangular shape whose one side is the edge of the square pipe (see FIG. 3B). Further, the size of the cutout portion 26 in this embodiment is the cutout portion 26 provided on each side surface.
Each of a and 26b has a width of about 70 mm and a length of 100 mm
The length when the two notches 26a and 26b are continuous is 100 mm in length, and the width is calculated by multiplying 70 mm by the square root of 2, and thus is about 110 mm. Is configured to be. Since the cutout portion 26 is provided so as to reach the hollow inside by penetrating the side surface of the square pipe forming the upper floor pillar 21, the horizontal joint surface 23 of the horizontal joint surface 23 is provided through the cutout portion 26. The nut 25 (or the bolt 15) can be arranged inside.

Further, as shown in FIG. 3, reinforcing plates 27 and 28 are provided on the two side surfaces on which the above-mentioned cutout portion 26 is provided, respectively. This reinforcing plate 27,
28 is fixed by welding in the vicinity of the notch 26, and has the same shape and size. In the case of this embodiment, the reinforcing plates 27, 2
The shape of 8 is a rectangular shape having a short side of 120 mm and a long side of 150 mm, and the wall thickness is the same as the wall thickness of the square pipe forming the upper floor pillar 21. . Therefore, the reinforcing plates 27, 28 are configured so that the two side surfaces provided with the cutouts 26a, 26b are larger than the portions removed by the cutouts 26a, 26b. Is heavier. Then, the rectangular reinforcing plate 2
One short side of 7, 28 is fixed while being in contact with the horizontal joint surface 23 described above, and is provided so as to form one side surface portion of the square pipe.

By providing the reinforcing plates 27 and 28 as described above, firstly, the reinforcing plates 27 and 28 are fixed to the side surfaces provided with the cutouts 26a and 26b, thereby supplementing the weight of the side surfaces. The position of the center of gravity of the entire upper floor pillar 21 can be aligned with the center line of the pillar 21.
Therefore, as described above, even when the lower floor pillar 11 is joined by the through hole 24 provided in the center of the horizontal joint surface 23,
The entire horizontal joint surfaces 11 and 21 can evenly distribute the weight. Secondly, since the weight of the building unit 2 is concentrated on the lower end of the upper floor pillar 21, and the above weight and the like act on the upper end of the lower floor pillar 11, In order to support the weight and the like, the reinforcing plates 27 and 28 are provided so as to assist the portion that is not supported by the cutout portion 26. That is, a horizontal joint surface 23 is provided at the lower end of the upper floor pillar 21, and all the remaining edges except the cutout portion 26 are fixed to the horizontal joint surface 23. On the side surface where the cutout portion 26 is provided, the portion where the cutout portion 26 is present cannot be fixed to the horizontal joint surface 23, and the weight and the like acting on the end portion of the upper floor pillar 21 is the periphery of the cutout portion 26. Will be concentrated on. Therefore, in order to disperse the weight and the like concentrated here, the edges of the reinforcing plates 27 and 28 are fixed to the horizontal joint surface 23 in addition to the side surfaces existing around the cutout portion 26, so that the reinforcing plate The weight and the like are dispersed in 27 and 28.

As described above, the reinforcing plates 27 and 28 are provided to adjust the center of gravity of the upper floor column 21 and to maintain the strength of the column 21 on which the weight or the like acts. Since the loads acting on the columns 11 and 21 of this type are mainly compressive loads, it is not necessary to consider the stress concentration due to the configuration of the cutout portion 26. Further, judging from the whole of the unit house A (FIG. 1), a large force does not act laterally, so it is sufficient to consider the compressive load in the vertical direction.

The horizontal joint surface 23 provided at the lower end of the upper floor pillar 21 is provided with a fitting hole 29 in addition to the through hole 24, as already shown in FIG. 3 (a). The horizontal joint surface 13 provided at the upper end of the pole 11 can be provided with a protrusion 19 that protrudes upward (see FIG. 2). In this case, when the upper-floor building unit 2 is stacked on the lower-floor building unit 1, the fitting hole 29 is guided to the projecting portion 19 of the lower-floor pillar 11, and the upper-floor pillar 21 can be positioned. To do. That is, the protruding portion 19
The position where the insertion hole 29 is provided and the position where the insertion hole 29 is provided are arranged so as to be equidistant from the through holes 14 and 24, respectively.
When 9 is fitted, both through holes 14 and 24 are just continuous in the vertical direction.

Since the present embodiment has the above-described structure, which two side surfaces of the four side surfaces forming the columns 11 and 21 should be provided with the cutout portion 26 is as follows.
It differs depending on the places where the columns 11 and 21 are provided. Therefore, in consideration of the relationship between adjacent columns 11 and 21 of the same type, four types of modes can be considered as shown in FIG. In these aspects, the same effect can be obtained with respect to the compressive load in the vertical direction in any of the aspects, but as the distance from the center of the unit house A (FIG. 1) increases, a little Since it is expected that the force of 1 will act, it is also effective to adjust the position where the notch 26 is provided. Also, FIG.
In (a) and FIG. 4 (b), adjacent pillars 11,
Since the notches 16 and 36 provided in 31 are in a positional relationship of being close to each other, when the bolt 15 and the nut 25 are arranged inside the pillars 11 and 31, there are widely notched portions. The work for the arrangement becomes easy.

In the above embodiment, as shown in FIG. 4 (a), the beam members 3a, 3b, 4a, 4b are not connected to the side surfaces where the cutouts 16, 36 are to be provided. The notch 26 and the reinforcing plates 27 and 28 as shown in the configuration (FIG. 3) can be provided.
However, in the case of FIGS. 4B and 4C,
Since the beam members 3a, 3b or 4a, 4b are connected to one of the side surfaces on which the cutout portion 26 and the reinforcing plate 27 or 28 should be provided, it is difficult to provide the cutout portion 26 and the reinforcing plate 27 or 28 of sufficient size. Therefore, it can be dealt with by providing the notch 26 on the side face in a small size and the reinforcing plate 27 or 28 corresponding thereto also in a small size. And in FIG.4 (d), since the beam materials 3a, 3b, 4a, 4b are connected to both the notch 26 and the side surface where the reinforcing plate 27 or 28 should be provided, the notch 26 and Reinforcement plate 2
This can be dealt with by reducing 7, 28.

In the above cases, since parallel beams exist in any of the modes, it is possible to join the parallel beams. In this case, as shown in FIG. 2, plate members 31a and 31b of the same kind are fixed to the parallel beams 3a and 3b at positions facing each other by partially protruding and fixed to the protrusions 32a and 32b. Has a through hole,
By joining the joining member 33 that can be joined to both plate-shaped members 31a and 31b at the same time with the bolt 34 and the nut 35, both beams 3a and 3b can be joined. In this way, by joining the parallel beams adjacent to each other, it is possible to cope with a situation in which a lateral force acts on the building units 1 and 2.

Next, a second embodiment relating to the joint structure will be described. In the present embodiment, as shown in FIG. 5, a lower floor pillar 111 that constitutes the lower floor building unit 101.
The present invention relates to a structure for joining the building unit 102 on the upper floor with the building unit 102 on the upper floor, and is substantially the same as that of the first embodiment. Therefore, focusing on the difference, a horizontal joint surface 113 is provided at the upper end of the lower floor pillar 111 of the present embodiment, but the pillar 111 is provided at the center of the horizontal joint surface 113. A tip portion (male screw portion) 115 of the bolt protruding upward along the longitudinal direction of the is provided upright. And
No cutout portion is provided on the side surface of the lower floor pillar 111, and, naturally, no reinforcing plate is provided. On the other hand, the upper floor pillar 121 that constitutes the upper floor building unit 102 is provided with the notch 126 as in the first embodiment, and is also provided with the reinforcing plates 127 and 128 on both sides thereof.

Therefore, when the upper-floor building unit 102 is stacked on the lower-floor building unit 101, the male screw portion 115 protruding from the horizontal joint surface 113 of the lower-floor column 111 is used to horizontally join the upper-floor column 121. By inserting the through hole 124 provided in the surface 123, the center of the lower floor pillar 111 and the center of the upper floor pillar 121 can be joined by the male screw portion 115. Then, the male screw portion 115
Is fixed to the horizontal joint surface 113 of the lower floor pillar 111, and therefore, when the male screw portion 115 and the nut 125 are screwed together, some fastening device is used for the male screw portion 115. Since it is not necessary and a tool for tightening the nut 125 can be used, the tool is
It can be inserted into the inside of the upper floor pillar 121 via the notch 126.

In the second embodiment, the male screw portion 115 and the through hole 124 form the upper and lower floor columns 11.
Since both 1 and 121 can be brought into a state where they should be joined, it is not necessary to provide the protrusion 19 and the fitting hole 29 (FIG. 2) for performing positioning as in the first embodiment. Further, in the above-described second embodiment, the lower floor pillar 1
Although the male screw portion 115 is provided on the horizontal joint surface 113 of 11,
This male screw portion 115 is used for the horizontal joint surface 1 of the upper floor pillar 121.
23, and in this case, the through hole 124 may be provided in the horizontal joint surface 113 of the lower floor pillar 111.

When the male screw portion 115 and the through hole 124 are used for the positioning as described above, FIG.
As shown in (a), a nut contact portion 123b with which the nut 125 can contact the inside of the column 121 of the horizontal joint surface 123a.
The horizontal joint surface 123a has a tapered guide portion 124a, and the nut contact portion 123b has a through hole 124b.
By respectively providing the above, when the male screw portion 115 is inserted into the through hole 124b, the tip of the male screw portion 115 can be guided by the guide portion 124a. Further, similarly, as shown in FIG. 6B, the wall thickness of the horizontal joint surface 123 is increased, and the guide portion 124a and the through hole 124b are integrally provided on the thick horizontal joint surface 123. The tip of the male screw portion 115 can be easily guided to the through hole 124b.

Further, as described above, the guide portions 124a and 1a
According to the configuration including 24b, the building unit 1 on the lower floor
Even when the lower floor pillar 111 of 01 is joined to the anchor bolt provided in the foundation portion of the building, the joining can be similarly performed. That is, as shown in FIG. 6B, a horizontal joint surface 213 provided at the lower end of the lower floor pillar 211.
Is thick, and the through hole 224b through which the anchor bolt 215 can be inserted and the guide portion 224a are integrally configured on the horizontal joint surface 213, so that the anchor bolt 215 is joined to a predetermined position of the lower floor pillar 211. It becomes possible. Since the above-mentioned cutout portion 126 (FIG. 5) is provided near the lower end of the lower floor column 211, the nut 125 can be attached through the cutout portion 126.

The embodiment of the joining structure of the present invention is as described above. In the joining method using the first embodiment, first, the protruding portion 19 provided on the lower floor pillar 11 is first provided. The upper floor unit 2 is stacked on the lower floor unit 1 so that it can be fitted into the fitting hole 29 provided in the upper floor pillar 21. By stacking in this way, the through hole 24 provided in the horizontal joint surface 23 of the upper floor pillar 21 is arranged so as to be continuous with the through hole 14 provided in the horizontal joint surface 13 of the lower floor pillar 11. is there. Then, in this state, the notches 16 and 26 provided in the columns 11 and 12
The bolts 15 or the nuts 25 are arranged inside the columns 11 and 21 by means of, and they are tightly fastened by screwing them together to join the two horizontal joint surfaces 13 and 23. Here, the tightening device (not shown) required for tightening the bolt 15 and the nut 25 is the notch 1
It is used while being inserted into both columns 11 and 12 via 6 and 26.

Although the embodiments of the main body invention are as described above, various modes are possible without departing from the spirit of the present invention. For example, the cutout portion 26 and the reinforcing plates 27 and 28 described in detail in the first embodiment do not need to be rectangular in shape, and the square pipes forming the columns 11 and 21 are also square in cross-sectional shape. It need not be, and other shapes or cylindrical pipes can be used.

[0033]

As described above, according to the present invention relating to the joint structure, the bolt and the nut can be arranged inside the pillar through the notch provided in the vicinity of the joint end of the pillar. The building units can be easily joined by. Further, by providing a protrusion on the horizontal joint surface provided on one of the columns to be joined and providing a fitting hole on the other horizontal joint surface, it is possible to perform positioning in the state to be joined, so that the above-mentioned joined state Can be stabilized. Then, the male screw portion of the bolt may be projected instead of the projecting portion, and the through hole may be used for positioning instead of the fitting hole. Further, according to the present invention relating to the joining method, the bolt and the nut are arranged inside the column to be joined via the notch, which is extremely simple.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of a building unit.

FIG. 2 is an explanatory view showing a joint structure.

FIG. 3 is an explanatory diagram showing the periphery of a cutout portion.

FIG. 4 is an explanatory diagram showing a relationship with adjacent columns and the like at the time of joining.

FIG. 5 is an explanatory diagram showing a second embodiment.

FIG. 6 is an explanatory view showing another example of the horizontal joint surface of the upper floor pillar in the second embodiment.

[Explanation of symbols]

1,101 Lower floor building unit 2,102 Upper floor building unit 11,111 Lower floor pillar 12,22 beams 13,23,113,123 Horizontal joint surface 14,24,124,124b Through hole 15 volts 16,26,126 Notch 19 Projection 21,121 Upper floor pillar 25,125 nuts 26a, 26b Part of notch 27, 28 Reinforcing plate 29 Fitting hole 115 Male thread 124a guidance section A unit house

Claims (7)

[Claims] 1. A joint structure of a lower-floor building unit and an upper-floor building unit, the upper end of a lower-floor pillar constituting the lower-floor building unit and the upper-floor pillar constituting the upper-floor building unit. At the lower end, a horizontal joint surface that abuts each other when stacking both building units is provided, and a through hole is provided at the center of each horizontal joint surface. Is a joint structure of a building unit, characterized in that a notch portion is formed by notching a surface of a pillar, and a bolt inserted into the through hole is fastened while abutting the horizontal joint surface. 2. A protrusion for positioning is provided on one of the horizontal joint surfaces of the lower floor column and the upper floor column, and the protrusion is fitted into the other horizontal joint surface. The joining structure for a building unit according to claim 1, wherein a fitting hole for positioning is provided, and when the projecting portion is fitted into the fitting hole, the through holes of both horizontal joint surfaces are continuous. 3. A joint structure of a lower-floor building unit and an upper-floor building unit, wherein the upper end of the lower-floor pillar constituting the lower-floor building unit and the upper-floor pillar constituting the upper-floor building unit The lower end is provided with a horizontal joint surface that abuts each other when stacking the two building units, and one of the two horizontal joint surfaces is provided with a male screw portion projecting in the longitudinal direction of the column at the center thereof. At the same time, the other horizontal joint surface is provided with a through hole in the center thereof, and at least the pillar on the side where the through hole is provided is provided with a cutout portion that is cut out near the horizontal joint surface on the surface thereof. A joint structure of a building unit, wherein a horizontal joint surface is brought into contact with the through hole while inserting a bolt, and a nut is attached with the horizontal joint surface on the side where the through hole is provided sandwiched. 4. The lower floor pillar and the upper floor pillar are cylindrical pillars having a quadrangular cross section, and the cutout portion is a cutout portion provided on a side surface of the cylindrical pillar, The joint structure for a building unit according to claim 1, wherein a reinforcing plate having a predetermined area is fixed to a side surface near the cutout portion. 5. The lower floor pillar and the upper floor pillar are cylindrical pillars having a quadrangular cross section, and the cutouts are continuously provided on two adjacent side surfaces of the cylindrical pillar. The joint structure for a building unit according to claim 1, wherein the reinforcing member is fixed to both sides of the cutout on two side surfaces provided with the cutout. 6. A joining of building units formed by joining a lower floor pillar having a quadrangular cross-section tubular shape constituting a lower floor building unit and an upper floor pillar having a quadrangular tubular cross section constituting an upper floor building unit. In the structure, a notch is formed by notching a predetermined range on the side surface near the lower end of the upper floor pillar, and reinforcing plate members are fixed to both side surfaces of the notch, and the upper portion near the upper end of the lower floor pillar. A notch provided in a predetermined range symmetrically with a notch provided in a floor pillar, and a reinforcing plate member is fixed to both side surfaces of the notch, and both buildings abutting each other when stacking both building units The horizontal joint surfaces provided at the tips of the pillars of the unit are provided so as to face each other, and a through hole is provided at the center of this horizontal joint surface, and for the upper floor and the lower floor through the cutout portion. Place bolts and nuts inside the pillars, and A joint structure for a building unit, characterized in that both horizontal joint surfaces are tightened while inserting bolts into the through holes of the flat joint surface. 7. A joining method using the joining structure according to any one of claims 1 to 6, wherein a through hole is provided in one or both of the horizontal joining surfaces of the upper and lower floor building units to be joined that come into contact with each other. A method of joining a building unit, comprising inserting a bolt into the column, and inserting a fastening tool into the column from the notch while fastening a nut to the bolt.