JP3094338U - Building partition structure - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To be extremely inexpensively constructed as the appearance of various designs. Easy, easy, and efficient construction in buildings with different ceiling heights. SOLUTION: The partition structure of the building includes a vertical column 1 fixed vertically, a horizontal column 2 horizontally connected to an upper end of the vertical column 1, and a connection fitting 3 for connecting the horizontal column 2 to the vertical column 1. And an adjusting screw 4 for connecting the connection fitting 3 to the ceiling 8. The vertical column 1 and the horizontal column 2 are provided with a GRC layer 7 on the surface of the core material 6,
The surface is molded into the shape of natural wood. The partition structure is such that the upper end of the vertical column 1 is inserted into the cylindrical portion 10 of the connecting member 3 and the connecting piece 11 of the connecting member 3 is connected to the connecting groove 2 a of the horizontal column 2.
And the horizontal column 2 is connected to the vertical column 1. Further, the lower end portion of the adjusting screw 4 screwed into the female screw hole 15 of the closing plate 12 of the cylindrical portion 10 is guided to the concave portion 1a of the vertical column 1 and is rotated in the axial direction to move the upper end thereof. It is connected to the ceiling 8 of the building.

Description

[Detailed description of the device]

[0001]

[Technical field to which the device belongs]

  The present invention is an interior design of a building, mainly for interior design of restaurants etc. Related to the partition structure.

[0002]

[Prior art]

  Stores decorated with old-fashioned interiors are often found in restaurants, etc., probably because you can relax. Has been used. In this case, using the old trees that can be created when the old building is demolished , The partition is manufactured. However, the generation amount of old trees is limited Therefore, the actual situation is that they cannot keep up with demand and are very expensive. Also, re-used old trees The time it takes to dismantle the building for use also increases the cost of old trees. is doing. Buildings are generally demolished without considering reusing old wood. This In the case of, since the pillar can be destroyed and dismantled, it can be dismantled efficiently. However, the pillar Very carefully to dismantle so that it can be reused, i.e. not hurt It requires work, and the dismantling time increases dramatically. This is the cost of old wood It is also a cause to raise the. Furthermore, dismantled old wood has nails and metal fittings attached. Therefore, it takes time and effort to remove it and process it so that it can be used.

[0003]

[Problems to be solved by the device]

  The present invention was developed for the purpose of solving such drawbacks. The important purpose of is that the appearance of various designs can be constructed at extremely low cost, and is it easy? Partition structure that can be easily and efficiently installed in buildings with different ceiling heights Is to provide a structure.

[0004]

[Means for Solving the Problems]

  The partition structure of the building of the present invention comprises a column 1 vertically fixed in the interior of the building, and The horizontal pillar 2 connected to the upper end of the vertical pillar 1 in a horizontal posture, and the horizontal pillar 2 Metal fitting 3 that connects to the upper end of the building, and adjustment screw that connects the metal fitting 3 to the ceiling 8 of the building 4 and. The vertical columns 1 and the horizontal columns 2 are made of plastic foam and have a core material 6. On the surface of the material 6, the GRC layer 7 in which the reinforcing fiber is embedded in the cement is provided. It is a GRC column 20 in which the surface of the RC layer 7 is formed into an uneven shape of natural wood. Consolidated money The tool 3 is fixed to the cylindrical portion 10 into which the upper end of the vertical column 1 is inserted and the side surface of the cylindrical portion 10. And a connecting piece 11. The cylindrical portion 10 has the closing plate 12 on the upper end surface. In addition, the closing plate 12 is provided with a female screw hole 15 into which the adjusting screw 4 is screwed. I'm sick. The tubular portion 10 rotates the adjusting screw 4 guided in the female screw hole 15 Are connected so that they can be moved in the axial direction. The vertical column 1 is axially arranged from its upper end. A recess 1a for inserting the adjusting screw 4 is provided so as to extend downward. Horizontal pillar 2 Has a connecting groove 2a into which the connecting piece 11 is fitted, at the tip portion. The upper end of the vertical column 1 is the cylindrical portion 1 0 to insert the connecting fitting 3 into the vertical column 1 and to connect the connecting piece 1 of the connecting fitting 3 together. A connecting groove 2a is provided in 1 to connect the horizontal column 2 to the connecting fitting 3. Furthermore, the tubular portion 1 The lower end of the adjusting screw 4 screwed into the female screw hole 15 of the closing plate 12 of 0 is vertically While guiding it to the concave portion 1a of the pillar 1 and rotating it to move it in the axial direction, The ends are connected to the ceiling 8 of the building.

[0005]   In the partition structure of claim 2 of the present invention, the outer shape of the cylindrical portion 10 of the connecting fitting 3 is defined by the vertical pillar 1. The outer shape of the main body 1B is approximately equal to that of the main body 1B, and the upper end of the vertical column 1 and the cylindrical portion 10 The insertion portion 1A to be inserted is made thinner than the main body portion 1B and is inserted into the tubular portion 10. Further, in the partition structure of claim 3 of the present invention, the closing plate 12 is located on the cylindrical portion 10. The entire edge is completely closed.

[0006]   Further, according to the partition structure of claim 4 of the present invention, the closing plate 12 and the nut 16 are provided. Is fixed and a female screw hole 15 is provided. Further, the partition structure of claim 5 of the present invention. The structure is provided with a through hole 13 through which a set screw 14 is inserted in the connecting piece 11 and the horizontal column 2. The horizontal pillar 2 is fixed to the connecting piece 11 by inserting a set screw 14 into the through hole 13. It In addition, in the partition structure of claim 6 of the present invention, the connecting piece 11 is fixed to the tubular portion 10. It

[0007]   Further, in the partition structure of claim 7 of the present invention, the fixing table 5 is fixed to the floor of the building. And a fitting structure in which the upper surface of the fixed base 5 and the lower end surface of the vertical column 1 are not displaced in the horizontal direction. I am trying. Further, the partition structure of claim 8 of the present invention comprises a vertical column 1 and a horizontal column 2. The surface is molded into an uneven shape of old wood.

[0008]

[Embodiment of device]

  Embodiments of the present invention will be described below with reference to the drawings. However, the examples shown below Is an example of a building partition structure for embodying the technical idea of the present invention. Therefore, the present invention does not specify the partition structure as follows.

[0009]   In addition, this description is provided in order to facilitate understanding of the scope of utility model registration claims. Enter the number corresponding to the member shown in "in the column for the scope of utility model registration request" and " It is added to the members shown in the section of "Means for Solving the Problems". Just a practical new The member indicated in the draft registration claim should never be specified as the member of the embodiment. Yes.

[0010]   The partition of the building shown in Fig. 1 consists of a column 1 that is vertically fixed in the interior of the building, and The horizontal pillar 2 connected to the upper end of the vertical pillar 1 in a horizontal posture, and the horizontal pillar 2 above the vertical pillar 1. A connecting metal fitting 3 connected to the end, and an adjusting screw 4 connecting the connecting metal fitting 3 to the ceiling 8 of the building. Equipped with. Further, the partition of this figure is such that the lower end of the vertical column 1 is connected to the floor 9 by the fixing base 5. is doing.

[0011]   The vertical pillar 1 and the horizontal pillar 2 are made of plastic foam as the core material 6, and the surface of the core material 6 is , GRC layer 7 in which reinforcing fibers are embedded in cement is provided, and the surface of GRC layer 7 is It is a GRC column 20 whose surface is formed into an uneven shape of natural wood. GRC pillar 20 The vertical pillars 1 and horizontal pillars 2 have their surfaces molded into the concave shape of old wood and then worn in the color of old wood. It is colored. However, the vertical columns 1 and the horizontal columns 2 that are the GRC columns 20 have uneven surface. The shape, design, color, etc. can be various designs different from those of old wood.

[0012]   The vertical columns 1 and the horizontal columns 2 which are the GRC columns 20 are formed as shown in FIG. 2 in the following steps. Produced.   First coating step   In this step, the cement paste 2 is embedded in the inner surface of the mold 21 while embedding the reinforcing fiber. 4 is applied to a predetermined thickness. The thickness of the cement paste 24 applied is the GRC column. It is decided in consideration of the size and strength of 20, but in the case of old trees of a building 0.5-3 cm , Preferably 1 to 2 cm. Kneading the reinforcing fiber into the cement paste 24 Reinforced with co-applied or after applying cement paste 24 Alternatively, the cement paste 24 may be applied and then embedded. Use all alkali resistant fibers such as glass fiber as the reinforcing fiber. .

[0013]   The mold 21 is a box-shaped mold whose opening is open at the top and the periphery and bottom are closed. Box type The frame 21 has a rubber-like elastic body 23 on the bottom surface and the periphery to make the natural wood uneven. Formwork 21 preferably has a bottom surface and all surrounding peripheral surfaces having an uneven shape. This type The frame 21 can be formed into a concavo-convex shape of natural wood on the entire circumference and the entire surfaces of both end surfaces. This formwork 2 The GRC column 20 manufactured in No. 1 has a natural surface on all sides consisting of four sides and both ends. Can be made into an uneven shape of wood. However, the formwork should be flat on the peripheral surface that molds both end surfaces of the GRC column. It can also be planar. The formwork 21 for molding old wood has a concave surface on the bottom and both sides. It is also possible to make it convex and to make the peripheral surface of the mold 21 for molding both end surfaces of the old wood flat. Wear. The GRC column 20 molded with this form 21 has a flat surface with no unevenness on both end surfaces. Become.

[0014]   Core material fitting process   This step is performed when the cement paste 24 applied in the first applying step is uncured. The step of putting the core material 6 inside the mold 21 to which the cement paste 24 is applied. Is. For the core material 6, a plastic foam such as Styrofoam is most suitable. The The plastic foam is closed-cell so that the cement paste 24 is not impregnated. Cut into a predetermined shape with a surface and have irregularities due to innumerable bubbles on the surface To use. The core material 6 is light and adheres well to the cement paste 24. Countless The cement paste 24 penetrates into the irregularities caused by the bubbles in the It is. The core material 6 is inserted inside the cement paste 24, and the cement It has such a size that it does not form a gap by closely contacting the inner surface of the paste 24.

[0015]   Second coating step   Reinforcing fibers are further embedded on the upper surface of the core material 6 put in the mold 21 in the core material inserting step. Apply the cement paste 24. This second coating step is also applied in the first coating step. The cement paste 24 is applied in the uncured state. Also in this step, the cement paste 24 in which the reinforcing fibers are kneaded is applied or reinforced. The fibers and the cement paste 24 are separately applied to the surface of the core material. Cement paste 2 The coating amount of 4, that is, the thickness, is determined by pressing the upper die 22 in the next step and Considering the degree of unevenness of natural wood so that the cement paste 24 can penetrate into it Optimal value. In the case of old wood, it is 0.5 to 3 cm, preferably 1 to 2 cm. Second The cement paste 24 applied in the applying step is the cement paste applied in the first applying step. Connected to the paste 24.

[0016]   Closing process   When the cement paste 24 applied in the second applying step is uncured, the mold 21 The upper mold 22 closes the opening. The lower surface of the upper mold 22 has an uneven shape of natural wood. It This upper mold 22 is also made of rubber-like elastic material 23 such as silicone rubber on the bottom surface of It has a convex shape. When the natural wood is old wood, the surface shape of the old wood is used. Upper mold 2 2 is pressed and pressed, the cement applied on the upper surface of the core material 6 in the second application step The top paste 24 is formed into a shape that conforms to the irregularities of the upper mold 22, and further cement Topaste 24 is extruded. In this state, cement paste the entire surface of the core material 6 The whole surface of the cement paste 24 is surrounded by the mold 21 and the upper surface. The mold 22 is formed into a shape of natural wood.

[0017]   Curing process   Hold the upper mold 22 in a state where the opening of the mold 21 is closed, and the cement paste 2 4 is allowed to proceed with the curing reaction. In this process, the cement paste 24 is hardened and deformed. Continue until you don't. In the case of GRC with embedded reinforcing fibers, curing process Is about 1 day.

[0018]   Demolding process   After the cement paste 24 is hardened in the hardening process, the upper mold 22 and the mold 21 are demolded. Then, the molded GRC column 20 is taken out. For removing the mold, after removing the upper mold 22, The frame 21 is opened and the GRC column 20 is separated from the form 21. The formwork 21 is shown in the figure. As described above, the structure in which both sides are opened allows the GRC column 20 to be easily demolded.

[0019]   Through the above steps, as shown in the sectional view of FIG. 3, the plastic foam is used as the core material 6. The GRC layer 7 in which the reinforcing fiber is embedded in the cement is provided on the entire surface of the core material 6. In addition, the surface of the GRC layer 7 is formed into an uneven shape of natural wood. The shaped GRC pillar 20 is manufactured. In the same way, not in the shape of old wood In addition, it is possible to manufacture GRC pillars with an uneven shape like the branches of a natural tree.

[0020]   As shown in the perspective view of FIG. 4, the vertical column 1 which is the GRC column 20 is the upper end portion and is continuous. The insertion portion 1A inserted into the tubular portion 10 of the metal fitting 3 is made thinner than the main body portion 1B, and The portion of is inserted into the cylindrical portion 10. This structure, as shown in FIG. The outer shape of the cylindrical portion 10 can be made substantially equal to that of the main body portion 1B of the horizontal column 2. It However, the vertical columns may have the same thickness as a whole. This vertical column is a consolidated gold The tubular portion of the tool projects from the outer peripheral surface of the vertical column.

[0021]   Further, the vertical column 1 is axially downward from its upper end as shown in FIGS. 1 and 4. A recess 1a for inserting the adjusting screw 4 is provided so as to extend. Adjustment screw 4 Is guided in the recess 1a at the lower end and is moved in the axial direction. Adjust the recess 1a The depth is set so that the screw 4 can be guided to the lowest position. Also, adjust screw 4 The inner shape of the adjusting screw 4 so that it can be freely rotated by guiding it to the recess 1a. I am making it bigger.

[0022]   Further, the vertical pillar 1 is fitted at its lower end to the fixed base 5 that fixes the fixed base 5 to the floor of the building. Wearable structure, that is, the upper surface of the fixed base 5 and the lower end surface of the vertical column 1 are horizontally displaced. There is no fitting structure. The vertical column 1 of FIG. 1 is provided with a recess 1b on the lower end surface thereof. The protrusion 5a to be fitted into the b is provided on the fixed base 5 so that the vertical column 1 does not move in the horizontal plane. Wearing structure.

[0023]   As shown in the perspective view of FIG. 5, the horizontal pillar 2 is fitted with the connecting piece 11 of the connecting fitting 3. The connecting groove 2a is provided at the tip. In the horizontal pillar 2, the connecting piece 11 is put in the connecting groove 2a. And is connected to the connecting piece 11. Furthermore, the horizontal pillar 2 shown in FIG. It is connected to the connecting fitting 3 with the structure shown. The connecting structure of FIG. 6 has a connecting piece 11 and a horizontal column 2. A through hole 13 for inserting the set screw 14 is provided in the and, and the set screw 14 is inserted into the through hole 13. Then, the horizontal column 2 is fixed to the connecting piece 11. The through hole 13 of the connecting piece 11 is The horizontal column 2 is connected to the connecting piece 11 by screwing the tip of the set screw 14 into the female screw. It is firmly fixed to. The partition is constructed by connecting both ends of the horizontal pillar 2 to the vertical pillar 1. To be built. Therefore, the horizontal pillar 2 is connected to the vertical pillar 1 at both ends by the connecting fittings 3. .

[0024]   The connecting fitting 3 includes a tubular portion 10 into which the upper end of the vertical column 1 is inserted, and a side surface of the tubular portion 10. And a protruding connecting piece 11. The connecting fitting 3 shown in FIGS. 1 and 7 is a metal tube. A connecting piece 11 which is a metal plate is welded and fixed to the outside of a certain tubular portion 10. Tube 10 has a closing plate 12 fixed to the upper end surface. The connecting fitting 3 in the figure The periphery of the rate 12 is welded to the tubular portion 10, and the upper surface of the tubular portion 10 is covered with the closing plate 12. It is completely blocked. The closing plate 12 does not necessarily completely close the upper surface of the tubular portion 10. It is not necessary to fix it so that it is closed, but it is fixed so that an opening is provided on the upper surface of the tubular portion 10. You can also do it. The closing plate 12 has a female screw hole for screwing the adjusting screw 4. 15 is provided so as to penetrate therethrough. The closure plate 12 in the figure is fixed by fixing the nut 16 to the female A screw hole 15 is provided. However, it is also possible to provide female threads on the closure plate itself. Wear. For the connection fitting 3, rotate the adjustment screw 4 to adjust the amount screwed into the female screw hole 15. Then, it is moved in and out of the tubular portion 10 and moved in the axial direction.

[0025]   The connecting metal fitting 3 of FIG. 1 has an outer shape of the cylindrical portion 10 substantially equal to that of the main body portion 1B of the vertical column 1. Combing. This connecting metal fitting 3 has a cylindrical insertion portion 1a at the upper end of the vertical column 1. The cylindrical portion 10 and the main body portion 1B of the vertical column 1 can be made flush with each other by being put in the portion 10. Restatement Then, the connecting fitting 3 is connected to the vertical column 1 so that the tubular portion 10 does not protrude from the outer peripheral surface of the vertical column 1. Can be tied.

[0026]   Since the connecting metal fitting 3 of FIG. 7 connects the four horizontal pillars 2 to the vertical pillar 1 which is a prism, The portion 10 has a rectangular tube shape, and the connecting pieces 11 are fixed to the four surfaces. The connecting fitting 3 must have The four horizontal pillars 2 are not always connected to each other. The horizontal part of the connecting bracket is connected to the horizontal column. A connecting piece is fixed to the connecting surface, and a horizontal column is connected to this. Therefore, in the tube , Fix the connecting pieces on the 1st to 3rd surfaces, or 5 pieces on the cylindrical part of the polygonal cylinder, the cylinder, and the elliptic cylinder. It is also possible to fix the above-mentioned connecting pieces and connect the horizontal columns to the respective connecting pieces.

[0027]   The adjusting screw 4 is a threaded rod and is screwed into the female screw hole 15 of the tubular portion 10. Adjustment screw Since 4 projects from the closing plate 12 to the inside of the tubular portion 10, the lower end projecting to the lower surface The part is guided to the concave portion 1a of the vertical column 1. The adjusting screw 4 moves axially when rotated. . The adjusting screw 4 is rotated and moved in the axial direction so that the upper end of the adjusting screw 4 contacts the ceiling 8. Let The adjusting screw 4 presses the ceiling 8 from the lower surface and is connected to a fixed position on the ceiling 8. The adjusting screw 4 can press the ceiling 8 and fix it in place. However, as shown in FIG. Then, the base 17 is fixed to the ceiling 8, and the fitting recess 17a of the base 17 is fitted with an adjusting screw. The head 4a of 4 can be guided and fixed to the ceiling 8 so as not to move further. Also, the figure As shown in FIG. 9, fix the base plate 18 to the head 4a of the adjusting screw 4 and The base plate 18 can be fixed to the ceiling 8 by screwing.

[0028]   The fixed base 5 has its upper surface connected to the lower end surface of the vertical column 1 by a fitting structure that does not shift in the horizontal direction. It is shaped to tie. The fixed base 5 of FIG. And a central hole 5b is provided inside the peripheral wall. Stop at center hole 5b The screw 19 is screwed in and fixed to the floor 9. The peripheral wall is provided on the lower end surface of the vertical column 1. The vertical column 1 is fitted in the recess 1b and connected so as not to be displaced in the horizontal direction.

[0029]   The above partition is constructed as follows. (1) Fix the fixed base 5 to the floor 9. For the fixing base 5, insert the set screw 19 into the center hole 5b. , Is fixed by screwing it onto the floor 9. The fixing table 5 can be fixed to the floor 9 by adhesion. I can do it. (2) Insert the upper end of the vertical column 1 into the tube portion 10 of the connecting fitting 3 into which the adjusting screw 4 is screwed. Then, the lower end is connected to the fixed base 5. At this time, the adjusting screw 4 has the lower end portion of the vertical column 1. When the head 4a hits the ceiling 8 with the vertical column 1 standing vertically in I try not to. (3) With the vertical column 1 in a vertical position, turn the adjusting screw 4 upwards. Let The head 4a of the adjusting screw 4 is brought into contact with the ceiling 8 to fix the column 1 vertically. This In this state, the vertical column 1 is stretched and fixed vertically on the ceiling 8 and the floor 9. At this time, It is also possible to fix the base 17 to the ceiling 8 and connect the adjusting screw 4 thereto. (4) Connect the horizontal pillar 2 to the connecting piece 11 of the connecting fitting 3. The horizontal pillar 2 has a connecting groove 2a. The connecting piece 11 is put in and connected to the connecting fitting 3. At this time, the set screw 14 is attached to the through hole 1 The horizontal column 2 and the connecting piece 11 can be firmly connected to each other by putting them in 3.

[0030]

[Effect of device]

  The partition structure of the building of the present invention can be constructed at an extremely low cost as the appearance of various designs. There is a feature that can be. The partition of the present invention has a vertical column and a horizontal column inside. It is composed of GRC columns containing a core material of tic foam, and is a vertical column that is a GRC column. This is because the pillars and horizontal pillars are connected to the building by connecting them with a connecting bracket with a unique structure. . The connecting metal fitting is one in which the connecting piece is fixed to the cylinder, and the vertical column is inserted into the cylinder of the connecting metal fitting. , The horizontal pillar can be connected to the vertical pillar by inserting the connecting groove of the horizontal pillar into the connecting piece. Furthermore, concatenation Since the metal fitting has a structure that allows the adjustment screw to be screwed into the tubular part to move in the axial direction, You can rotate the adjustment screw to move it up and down and stretch it on the ceiling to easily fix it. This That is, in line with the ability to mass-produce vertical and horizontal columns at low cost, GRC columns will be used as seeds. Realize the features that can be constructed at low cost as various designs.

[0031]   In addition, the partition structure of the present invention is simple, easy, and efficient in terms of ceiling height. Features that can be installed in different buildings are also realized. As mentioned above, The partition puts the vertical pillar in the tube part, and puts the horizontal pillar in the connecting piece to easily make the horizontal pillar and the vertical pillar. Can be securely connected to the building, and the adjustment screw can be raised to securely fix it to the building. Because you can.

[Brief description of drawings]

FIG. 1 is a sectional view showing a partition structure of the building of the present invention.

FIG. 2 is a schematic sectional view showing a manufacturing process of a GRC column.

FIG. 3 is a sectional view of a GRC column.

FIG. 4 is a perspective view of a vertical column.

FIG. 5 is a perspective view of a horizontal column.

FIG. 6 is a cross-sectional view showing a connecting structure of a horizontal column and a connecting fitting.

FIG. 7 is a perspective view of a connecting fitting.

FIG. 8 is a sectional view showing an example of fixing the upper end of the adjusting screw to the ceiling.

FIG. 9 is a cross-sectional view showing another example of fixing the upper end of the adjusting screw to the ceiling.

FIG. 10 is a perspective view of a fixing base.

[Explanation of symbols]

1 ... Vertical column 1A ... Insertion part 1
B ... Main body 1a ... Recessed portion 1b ... Recessed portion 2 ... Horizontal column 2a ... Connection groove 3 ... Connection metal fitting 4 ... Adjustment screw 4a ... Head 5 ... Fixing base 5a ... Convex portion 5
b ... Center hole 6 ... Core material 7 ... GRC layer 8 ... Ceiling 9 ... Floor 10 ... Cylindrical part 11 ... Connecting piece 12 ... Closure plate 13 ... Through hole 14 ... Set screw 15 ... Female screw hole 16 ... Nut 17 ... Base 17a ... Fitting recess 18 ... Base plate 19 ... Set screw 20 ... GRC column 21 ... Form 22 ... Upper mold 23 ... Rubber-like elastic body 24 ... Cement paste

Claims (8)

[Scope of utility model registration request] 1. A vertical column (1) fixed vertically in a room of a building.
A horizontal pillar (2) connected to the upper end of the vertical pillar (1) in a horizontal posture, and a connecting metal fitting (3) connecting the horizontal pillar (2) to the upper end of the vertical pillar (1), Equipped with adjusting screws (4) that connect the fittings (3) to the building ceiling (8), the vertical columns (1) and horizontal columns (2) are made of plastic foam core material (6).
The core material (6) is provided with a GRC layer (7) in which a reinforcing fiber is embedded in cement, and the surface of the GRC layer (7) is molded into an uneven shape of natural wood. It is a pillar (20), and the connecting metal fitting (3) is a cylindrical part (10) into which the upper end of the vertical pillar (1) is inserted,
A connecting piece (11) fixed to the side surface of the tubular portion (10) is provided, and the tubular portion (10) has a closing plate (12) on the upper end surface, and the closing plate (12) has an adjusting screw. It is provided through the female screw hole (15) into which (4) is screwed in.
It is connected so that it can be moved in the axial direction by rotating the adjusting screw (4) that is guided to the vertical column (1), and the column (1) is adjusted so that it extends downward in the axial direction from its upper end. ) Is inserted into the horizontal column (2), and the horizontal column (2) is provided with a connecting groove (2a) into which the connecting piece (11) is fitted. Insert it into (10) and connect the fitting (3) to the vertical column.
In addition to connecting to (1), the connecting groove (2a) is inserted in the connecting piece (11) of the connecting metal fitting (3) to connect the horizontal pillar (2) to the connecting metal fitting (3). Insert the lower end of the adjusting screw (4) screwed into the female screw hole (15) of the closing plate (12) of (10) into the recess (1) of the vertical column (1).
A partition structure for the building, which is guided to a) and is rotated and moved in the axial direction to connect the upper end to the ceiling (8) of the building. 2. The outer shape of the cylindrical portion (10) of the connecting fitting (3) is defined by the vertical pillar (1).
It is almost the same as the outer shape of the main body (1B) of the
Insert the insertion part (1A) that is the upper end of the and is inserted into the tubular part (10),
The partition structure for a building according to claim 1, wherein the partition structure is thinner than the main body portion (1B) and is inserted into the tubular portion (10). 3. The partition structure for a building according to claim 1, wherein the closing plate (12) completely closes the entire upper surface of the tubular portion (10). 4. The partition structure for a building according to claim 1, wherein a nut (16) is fixed to the closing plate (12) to provide a female screw hole (15). 5. A set screw (14) for the connecting piece (11) and the horizontal column (2).
The through hole (13) for inserting the through hole is provided, and the set screw (14) is inserted in the through hole (13) to fix the horizontal column (2) to the connecting piece (11). Partition structure of the building. 6. The partition structure for a building according to claim 1, wherein the connecting piece (11) is fixed to the tubular portion (10). 7. A fixing base (5) is fixed to the floor surface of the building, and the upper surface of the fixing base (5) and the lower end surface of the vertical column (1) have a fitting structure that does not shift in the horizontal direction. The partition structure of the building according to claim 1. 8. The partition structure for a building according to claim 1, wherein the surfaces of the vertical columns (1) and the horizontal columns (2) are formed into an uneven shape of old wood.