JP7074317B2 - Distance adjustment jig between building units - Google Patents

Description

The present invention relates to a jig for adjusting the distance between building units.

The following Patent Document 1 discloses a technique relating to a jig used to make a constant gap (distance) between separated building units. In this prior art, hook members are coaxially provided at both ends in the longitudinal direction of the jig via bolts. A pin is fixed to the lower surface of the hook member, and the pin is inserted into a hole formed in a beam of the building unit to change the distance between the pins so that the distance between the building units can be adjusted.

Jitsukaihei 6-37449 Gazette

However, in the above-mentioned prior art, since the pin is inserted into the beam of the building unit and used, it is necessary to drill a hole for insertion in the beam in advance, and the position where this jig is used is limited.

In consideration of the above problems, it is an object of the present invention to obtain a distance adjusting jig between building units which can adjust the distance between separated building units at any position without restriction.

In order to achieve the above object, the distance adjusting jig between building units according to the first aspect is provided along a small beam spanned between opposing girders between building units arranged separately and adjacent to each other. The jig main body to be arranged, a pair of contact portions provided at both ends in the longitudinal direction of the jig main body and in contact with the side surfaces of the girders facing each other, and the jig main body provided on the jig main body. A screw mechanism capable of adjusting the separation distance of the pair of contact portions by converting a rotational force that rotates around an axis along the longitudinal direction of the main body into a force along the longitudinal direction of the jig main body, and the above-mentioned screw mechanism. It is provided on the jig main body and has an idling portion for idling one of the abutting portions with respect to the screw mechanism.

In the distance adjusting jig between building units according to the first aspect, a jig is provided along a beam spanned between opposing girders between building units arranged separately and adjacent to each other (so-called separated units). The main body is placed. A pair of abutting portions are provided at both ends of the jig body in the longitudinal direction, and the pair of abutting portions abut on the side surfaces of the girders facing each other.

Further, the jig body is provided with a screw mechanism. This screw mechanism can adjust the separation distance of the pair of contact portions by converting the rotational force that rotates around the axis along the longitudinal direction of the jig body into the force along the longitudinal direction of the jig body. It is supposed to be. That is, the separation distance between the pair of contact portions is adjusted by moving one contact portion closer to or further from the other contact portion by utilizing the rotational force of the screw mechanism.

Further, the jig main body is provided with an idling portion, and the idling portion allows one of the contact portions to idle with respect to the screw mechanism. In this embodiment, the jig main body of the distance adjusting jig between building units is arranged between the facing girders, and the screw is in a state where the pair of abutting portions are in contact with the side surfaces of the facing girders. The mechanism is rotated so that the separation distance between the pair of contact portions can be adjusted.

Here, when the screw mechanism is rotated, one of the pair of contact portions usually rotates together with the screw mechanism with respect to the other contact portion. However, in this embodiment, since the pair of abutting portions are in contact with the side surfaces of the opposing girders, the idling portion causes one of the abutting portions to idle with respect to the screw mechanism, so that one of the abutting portions is hit. The contact part is prevented from rotating together with the screw mechanism.

As described above, in this embodiment, by preventing the one contact portion from rotating together with the screw mechanism, the pair of contact portions remain in contact with the side surfaces of the facing girders, and the pair of hit portions are contacted. The separation distance of the contact portion can be adjusted. Therefore, the operability of the distance adjusting jig between building units is good.

The distance adjusting jig between building units according to the second aspect is the distance adjusting jig between building units according to the first aspect, and the jig main body has a slide that can be expanded and contracted according to the separation distance between the girders. A mechanism is provided.

In the distance adjusting jig between building units according to the second aspect, the jig main body is provided with a slide mechanism, and the jig main body can be expanded and contracted according to the separation distance between the girders by the slide mechanism. The gap (distance) between the separated units depends on the design of the building. Therefore, by providing a slide mechanism on the jig body, the distance adjustment jig between building units can be expanded and contracted according to the gap between the separated units, and the versatility of the distance adjustment jig between building units is expanded. do.

The distance adjusting jig between building units according to the third aspect is the distance adjusting jig between building units according to the second aspect, and the slide mechanism is inserted into the hollow outer cylinder portion and the outer cylinder portion. It is configured to include an inner cylinder portion that can slide with respect to the outer cylinder portion and a lock mechanism for fixing the inner cylinder portion to the outer cylinder portion.

In the distance adjusting jig between building units according to the third aspect, the slide mechanism includes an outer cylinder portion, an inner cylinder portion, and a lock mechanism, and the outer cylinder portion is formed in a hollow shape. .. The inner cylinder portion is inserted into the outer cylinder portion, and the inner cylinder portion can slide with respect to the outer cylinder portion. The inner cylinder portion is fixed to the outer cylinder portion by a lock mechanism.

The distance adjusting jig between building units according to the fourth aspect is the distance adjusting jig between building units according to the third aspect, in which the lock mechanism is provided in the outer cylinder portion and the sliding direction of the inner cylinder portion. A plurality of first hole portions formed along the above, a second hole portion provided in the inner cylinder portion and capable of communicating with one of the first hole portions among the plurality of first hole portions, and the second hole portion. It is configured to include a hole portion and a pin to be inserted into the first hole portion.

In the distance adjusting jig between building units according to the fourth aspect, the lock mechanism is configured to include a plurality of first hole portions, second hole portions, and pins. The first hole portion is provided in the outer cylinder portion, and a plurality of first hole portions are formed along the slide direction of the inner cylinder portion. Further, the second hole portion is provided in the inner cylinder portion, and can communicate with the first hole portion of one of the plurality of first hole portions. Then, the pin is inserted into the second hole portion and the first hole portion. The inner cylinder portion is fixed to the outer cylinder portion via this pin.

The distance adjusting jig between building units according to the fifth aspect is provided in the pair of contact portions in the distance adjusting jig between building units according to any one of the first to fourth aspects. Further, it has a hooking portion that can be hooked on the upper surface of the girder.

In the distance adjusting jig between building units according to the fifth aspect, a hooking portion is provided for each of the pair of contact portions, and the hooking portion can be hooked on the upper surface of the girder. It is convenient because it is not necessary to support the distance adjusting jig between building units from the lower side when adjusting the separation distance of the contact portion.

The distance adjusting jig between building units according to the sixth aspect is the distance adjusting jig between building units according to any one of the first to fifth aspects, wherein the girder is the upper part of the building unit. It is a ceiling jig arranged in the building unit or a floor jig arranged in the lower part of the building unit.

The distance adjusting jig between building units according to the sixth aspect is arranged between the facing ceiling girders arranged at the upper part of the separated unit and between the facing floor girders arranged at the lower part of the separated unit. The floor.

As described above, the distance adjusting jig between building units according to this embodiment has an excellent effect that the distance between separated building units can be adjusted at any position without restriction.

It is a perspective view which shows the distance adjustment jig between building units which concerns on this embodiment. (A) and (B) are plan views for demonstrating the operation of the distance adjusting jig between building units which concerns on this embodiment. It is a perspective view for demonstrating how to use the distance adjustment jig between building units which concerns on this embodiment. It is a top view for demonstrating the method of using the distance adjustment jig between building units which concerns on this embodiment. It is a perspective view which shows the separated unit.

Hereinafter, an embodiment of the distance adjusting jig between building units according to the present invention will be described with reference to the drawings.

(Composition of distance adjustment jig between building units)
First, the configuration of the distance adjusting jig between building units according to the present embodiment will be described.

As shown in FIG. 1, the distance adjusting jig 10 between building units (hereinafter referred to as “dimension adjusting jig”) 10 according to the present embodiment includes a jig main body 12 having a substantially columnar shape. The jig main body 12 is provided with a slide mechanism 13, which is inserted into the hollow outer cylinder portion 14 and the outer cylinder portion 14 along the axis P of the outer cylinder portion 14. It is configured to include a slidable inner cylinder portion 16.

Holes 18 and 20 (first hole) are formed in the outer cylinder portion 14 as a part of the lock mechanism 15, and holes 18 and 20 (first hole portion) are formed in the inner cylinder portion 16 as another part of the lock mechanism 15. The hole portion 22 (second hole portion) is formed. The hole portion 22 is set to have substantially the same size as the hole portions 18 and 20, and can communicate with the hole portions 18 and 20, respectively. The holes 18 and 20 of the outer cylinder portion 14 are formed at two locations here, but are not limited to the two locations.

Further, a pair of holder portions 26, 28 are provided along the circumferential direction on one end side in the longitudinal direction of the outer cylinder portion 14 (the insertion portion 24 side into which the inner cylinder portion 16 is inserted). One end of the chain 30 is attached to the holder portion 26, and a pin (lock mechanism 15) 32 is attached to the other end of the chain 30. The pin 32 has a columnar shape and is set to have a size that allows it to be inserted into the holes 18, 20, and 22.

On the other hand, one end of the chain 42 is fixed to the holder portion 28, and the pin lock (lock mechanism 15) 44 is fixed to the other end of the chain 42. A through hole 46 is formed at the tip of the pin 32, and the pin lock 44 can be inserted into the through hole 46. With the pin lock 44 inserted into the through hole 46, the pin lock 44 is prevented from coming off from the through hole 46. Therefore, with the pin 32 inserted into the holes 18 and 20 of the outer cylinder portion 14 and the hole portion 22 of the inner cylinder portion 16, the tip portion of the pin 32 is exposed and is formed in the through hole 46. When the pin lock 44 is inserted, the pin 32 is in the locked state.

Then, as shown in FIG. 2A, the pin 32 is set in the holes 20 and 22 in a state where the hole 22 of the inner cylinder 16 communicates with the hole 20 of the outer cylinder 14. When inserted and locked by the pin lock 44, the dimension adjustment jig 10 (jig body 12) is set shorter than the dimension adjustment jig 10 shown in FIG. 2 (B). On the other hand, as shown in FIG. 2B, the pins 32 are provided in the holes 18 and 22 in a state where the hole 22 of the inner cylinder 16 is set at a position where it communicates with the hole 18 of the outer cylinder 14. When inserted and locked by the pin lock 44, the dimension adjusting jig 10 is set longer than the dimension adjusting jig 10 shown in FIG. 2 (A). That is, as shown in FIGS. 2A and 2B, the length of the dimension adjusting jig 10 can be adjusted according to the dimension of the gap 38 between the separated building unit 34 and the building unit 36. It has become.

Further, as shown in FIG. 1, one end (on the outer cylinder portion 14 side) of the dimension adjustment jig 10 (jig main body 12) in the longitudinal direction has a bracket (hook portion) having an inverted L shape when viewed from the side. ) 48 is fixed to the outer cylinder portion 14. The bracket 48 is a contact between a rectangular contact plate 50 fixed to the outer cylinder portion 14 and a contact formed at the upper end of the contact plate 50 and projecting substantially horizontally in a direction away from the jig main body 12. It is configured to include a piece 52 and.

Then, as shown in FIGS. 2A and 2B, the contact piece 52 is the upper wall portion (upper surface) 54A of the girder (ceiling girder, floor girder) 54 constituting a part of the building unit 34. The contact plate 50 can be brought into contact with the side wall portion (side surface) 54B of the girder 54.

Further, as shown in FIG. 1, a bracket (hooking portion) 56 having an inverted L shape in a side view is described later on the other end (inner cylinder portion 16 side) of the dimension adjusting jig 10 in the longitudinal direction. It is fixed to the idling portion 58. The bracket 56 has a rectangular contact plate 60 fixed to the idling portion 58 and a contact piece formed at the upper end of the contact plate 60 and projecting substantially horizontally in a direction away from the jig main body 12. 62 and is configured to include.

Then, as shown in FIGS. 2A and 2B, the contact piece 62 is a girder (ceiling girder, floor girder) that constitutes a part of the building unit 36 arranged to face the building unit 34. ) 64 can be brought into contact with the upper wall portion (upper surface) 64A, and the contact plate 60 can be brought into contact with the side wall portion (side surface) 64B of the girder 64.

That is, with the dimension adjusting jig 10 arranged between the separated building unit 34 and the building unit 36, the contact piece 52 of the bracket 48 is brought into contact with the upper wall portion 54A of the girder 54, and the bracket 56 The contact piece 62 of the above is brought into contact with the upper wall portion 64A of the girder 64. As a result, the dimension adjustment jig 10 is hooked on the girders 54 and 64 via the brackets 48 and 56, and the dimension adjustment jig 10 is supported by the girders 54 and 64.

By the way, as described above, the idling portion 58 is provided at the other end of the dimension adjusting jig 10 (jig main body 12) shown in FIG. 1 in the longitudinal direction. A screw mechanism 66 is provided between 16 along the axis P of the jig main body 12.

The screw mechanism 66 includes a bolt 68 and a female screw member 70 having a female screw portion (not shown) into which a male screw portion 68A of the bolt 68 can be screwed. Therefore, when the bolt 68 is rotated, the bolt 68 moves along the female screw member 70 (axis line P of the jig body 12). That is, by rotating the bolt 68 around the axis P of the jig body 12, the rotational force of the bolt 68 can be converted into a force along the axis P of the jig body 12.

On the other hand, the idling portion 58 has a dome shape and has a shape bulging toward the inner cylinder portion 16 side. Further, a head 68B of the bolt 68 is attached to the central portion of the idling portion 58 so as to be rotatable relative to the idling portion 58. Therefore, even if the head 68B of the bolt 68 is rotated, the idling portion 58 is idle with respect to the bolt 68.

(Action and effect of distance adjustment jig between building units)
Next, the operation and effect of the distance adjusting jig between building units according to the present embodiment will be described.

As shown in FIG. 5, the gap 38 between the separated building unit 34 and the building unit 36 is preset by the housing plan. Then, as shown in FIG. 4, a plurality of small beams 72 are bridged (installed) between the girder 54 of the opposite building unit 34 and the girder 64 of the building unit 36.

That is, one end of the girder 72 in the longitudinal direction is fixed to the side wall portion 54B of the girder 54 of the building unit 34, and the other end of the girder 72 in the longitudinal direction is fixed to the side wall portion 64B of the girder 64 of the building unit 36. Will be done. For example, as shown in FIG. 3, brackets 74 and 76 are fixed to both ends of the beam 72 in the longitudinal direction, and the beam 72 is welded or bolted via the brackets 74 and 76, respectively. It is fixed (installed) to the girders 54 and 64 by 78, respectively.

Originally, it is desirable that the separation distance L between the girder 54 and the girder 64 is substantially constant at any position in the longitudinal direction of the girders 54 and 64, but due to the warp of the girders 54 and 64 and the like, the girders 54 and the girders 64 The separation distance L of 64 may be slightly narrowed. In this case, even if the girder 72 is to be placed between the girder 54 and the girder 64, the girder 72 may not be placed. Therefore, it is necessary to secure the separation distance L between the girder 54 and the girder 64 so that the girder 72 can be arranged.

In such a case, the dimension adjusting jig 10 is arranged between the separated building unit 34 and the building unit 36. Here, a method of using the dimension adjusting jig 10 according to the present embodiment will be described.

First, the length of the dimension adjusting jig 10 is set according to the gap between the separated building unit 34 and the building unit 36. That is, the hole portion 20 (or the hole portion) in a state where the hole portion 22 of the inner cylinder portion 16 of the jig main body 12 of the dimension adjustment jig 10 is communicated with the hole portion 20 (or the hole portion 18) of the outer cylinder portion 14. 18) and the pin 32 are inserted into the hole portion 22, and the pin lock 44 is inserted into the through hole 46 (see FIG. 1) of the pin 32 to lock the pin 32.

Next, the contact piece 52 of the bracket 48 of the dimension adjustment jig 10 is brought into contact with the upper wall portion 54A of the girder 54 of the building unit 34, and the abutment piece 62 of the bracket 56 is placed on the girder 64 of the building unit 36. It is brought into contact with the wall portion 64A. As a result, the dimension adjustment jig 10 is supported by the girder 54 and the girder 64 via the brackets 48 and 56.

In this state, the head 68B of the bolt 68 is rotated to further expose the male screw portion 68A of the bolt 68 from the female screw member 70. As a result, the dimension adjusting jig 10 is extended, and the girder 54 of the building unit 34 and the girder 64 of the building unit 36 pass through the abutting plate 50 of the bracket 48 and the abutting plate 60 of the bracket 56 (see FIG. 1). The space is widened, and the separation distance L between the girder 54 and the girder 64 is finely adjusted so that the girder 72 can be arranged.

As described above, brackets 48 and 56 are provided at both ends of the dimension adjustment jig 10 in the longitudinal direction in the present embodiment, respectively, and the brackets 48 and 56 are the side wall portions of the opposing girders 54 and 64. It is designed to come into contact with 54B and 64B, respectively.

Further, the dimension adjusting jig 10 is provided with a screw mechanism 66, which includes a bolt 68 and a female screw member 70, centering on an axis P along the longitudinal direction of the jig body 12. By rotating the bolt 68, the bolt 68 is moved with respect to the female screw member 70, and the separation distance between the brackets 48 and 56 can be adjusted. That is, the separation distance between the brackets 48 and 56 is adjusted by moving the bracket 48 closer to or further from the bracket 56 by using the rotational force of the bolt 68.

As a result, a predetermined separation distance can be secured in the facing girders 54 and 64 between the separated building units 34 and 36. Therefore, it is possible to correct a slight bending caused by the warp of the girders 54 and 64 and facilitate the erection of the girders 72 connecting the separated building units 34 and 36.

Further, the dimension adjusting jig 10 in the present embodiment is provided with an idling portion 58, and the idling portion 58 causes the bracket 56 to idle with respect to the bolt 68. In the present embodiment, the jig main body 12 of the dimension adjusting jig 10 is arranged between the facing girders 54 and 64 between the separated building units 34 and 36, and the side wall portion 54B and the girder of the facing girders 54 are arranged. With the brackets 48 and 56 in contact with the side wall portion 64B of 64, the bolt 68 is rotated so that the separation distance between the brackets 48 and 56 can be adjusted.

Here, when the bolt 68 is rotated, the bracket 56 usually rotates with the bolt 68 with respect to the bracket 48. However, in the present embodiment, since the brackets 48 and 56 are in contact with the side wall portion 54B of the girder 54 and the side wall portion 64B of the girder 64, respectively, the idling portion 58 causes the bracket 56 to idle with respect to the bolt 68. The bracket 56 is prevented from rotating together with the bolt 68.

By preventing the bracket 56 from rotating together with the bolt 68 in this way, the bracket 48, 56 remains in contact with the side wall portion 54B of the girder 54 and the side wall portion 64B of the girder 64, respectively. The separation distance of 56 can be adjusted. Therefore, the operability of the dimension adjusting jig 10 is good and simple.

That is, the dimension adjusting jig 10 in the present embodiment can adjust the distance between the separated building units 34 and 36 at any position without restriction.

Further, in the present embodiment, in the dimension adjustment jig 10, the jig main body 12 is provided with a slide mechanism 13 by the outer cylinder portion 14 and the inner cylinder portion 16, and the jig main body 12 is provided by the slide mechanism 13. It can be expanded and contracted according to the separation distance L between the girders 54 and 64.

Therefore, by providing the slide mechanism 13 on the jig main body 12, as shown in FIGS. 2A and 2B, between the building units 34 and 36 separated by one type of dimension adjustment jig 10. It can be expanded and contracted according to the gap 38, and the versatility of the dimension adjusting jig 10 is expanded.

Here, in the present embodiment, the slide mechanism 13 includes an outer cylinder portion 14 and an inner cylinder portion 16. The outer cylinder portion 14 is formed in a hollow shape, and the inner cylinder portion 16 is inserted into the outer cylinder portion 14, and the inner cylinder portion 16 is slidable with respect to the outer cylinder portion 14. The inner cylinder portion 16 is fixed to the outer cylinder portion 14 by the pin 32 and the pin lock 44 as a part of the lock mechanism 15.

The slide mechanism 13 is not always necessary in the dimension adjusting jig 10. Further, in the present embodiment, the dimension adjusting jig 10 is not limited to the slide mechanism 13 as long as it can be expanded and contracted. For example, although not shown, the jig body 10 may be formed in a bellows shape.

Further, in the present embodiment, the locking mechanism 15 includes holes 18 and 20 of the outer cylinder portion 14, holes 22 of the inner cylinder portion 16, and pins 32. A plurality of holes 18 and 20 of the outer cylinder portion 14 are formed along the slide direction of the inner cylinder portion 16. Further, the hole portion 22 of the inner cylinder portion 16 can communicate with the holes portions 18 and 20. Then, a pin 32 is inserted into the hole 22 and the holes 18 and 20, and the inner cylinder 16 is fixed to the outer cylinder 14 via the pin 32. The lock mechanism 15 is not limited to this, as long as the inner cylinder portion 16 can be fixed to the outer cylinder portion 14 at a predetermined position.

Further, in the present embodiment, in the dimension adjusting jig 10, the contact pieces 52 and 62 are provided on the upper portions of the brackets 48 and 56, respectively, and the contact pieces 52 and 62 are the upper wall portions of the girders 54 and 64. It comes into contact with 54A and 64A and can be hooked. Therefore, when adjusting the separation distance between the brackets 48 and 56, it is not necessary to support the dimension adjusting jig 10 from the lower side, which is convenient.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above, and one embodiment and various modifications may be used in combination as appropriate, and the present invention does not deviate from the gist of the present invention. Of course, it is possible to carry out various modifications other than the above within the range.

10 Dimension adjustment jig (distance adjustment jig between building units)
12 Jig body 13 Slide mechanism 14 Outer cylinder (slide mechanism)
15 Lock mechanism 16 Inner cylinder (slide mechanism)
18 hole (1st hole, lock mechanism)
20 holes (1st hole, lock mechanism)
22 Hole (2nd hole, lock mechanism)
32-pin (lock mechanism)
34 Building unit 36 Building unit 44 Pin lock (lock mechanism)
48 Bracket (contact part)
50 Contact plate (contact part)
52 Contact piece (hooking part)
54 girders (ceiling girders, floor girders)
54A Upper wall (upper surface of girder)
54B side wall (side of girder)
56 Bracket (contact part)
58 Idling part 60 Contact plate (contact part)
62 Contact piece (hooking part)
64 girders (ceiling girders, floor girders)
64A upper wall (upper surface of girder)
64B side wall (side of girder)
66 Screw mechanism 68 Bolt (Screw mechanism)
70 Female screw member (screw mechanism)
72 beam P axis

Claims (6)

Between the building units that are placed apart and next to each other, the jig body that is placed along the girders that are bridged between the opposing girders, and the jig body.
A pair of contact portions provided at both ends in the longitudinal direction of the jig body and in contact with the side surfaces of the girders facing each other.
A rotational force provided on the jig body and rotating around an axis along the longitudinal direction of the jig body is converted into a force along the longitudinal direction of the jig body to convert the pair of contact portions. With a screw mechanism that can adjust the separation distance,
An idling portion provided on the jig main body, which is provided on one of the abutting portions side of the pair of abutting portions and allows the one abutting portion to idle with respect to the screw mechanism.
Distance adjustment jig between building units. The distance adjusting jig between building units according to claim 1, wherein the jig main body is provided with a slide mechanism that can expand and contract according to the distance between the girders. The slide mechanism is
Hollow outer cylinder and
An inner cylinder portion that is inserted into the outer cylinder portion and can be slid with respect to the outer cylinder portion, and an inner cylinder portion.
A lock mechanism for fixing the inner cylinder to the outer cylinder,
The distance adjusting jig between building units according to claim 2, which is configured to include the above. The lock mechanism is
A plurality of first hole portions provided in the outer cylinder portion and formed along the slide direction of the inner cylinder portion, and
A second hole portion provided in the inner cylinder portion and capable of communicating with the first hole portion of one of the plurality of first hole portions.
A pin to be inserted into the second hole and the first hole,
The distance adjusting jig between building units according to claim 3, which is configured to include the above. The distance adjusting jig between building units according to any one of claims 1 to 4, further provided with a hooking portion that is provided on each of the pair of contact portions and can be hooked on the upper surface of the girder. The distance adjustment jig between building units according to any one of claims 1 to 5, wherein the girder is a ceiling girder arranged at the upper part of the building unit or a floor girder arranged at the lower part of the building unit. Ingredients.

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