JP3887479B2 - Temporary nourishment and building construction method using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a temporary living body suitable for use in building a building and the like, and a building construction method using the same.
[0002]
[Prior art]
As is well known, when a building such as a building is constructed, a temporary living body is usually provided on the outer periphery of the building in order to secure a working scaffold. Temporary living organisms are used not only for securing working scaffolds, but also for the purpose of drop curing, prevention of dust scattering to the outside, and installation of shields such as sheets that cover the entire building for the purpose of soundproofing, etc. It is.
[0003]
Conventionally, general temporary living organisms are most commonly installed on the ground using a so-called framework scaffold, but this requires a great deal of labor to assemble and disassemble the scaffold when building a building or the like. costly. For this reason, a construction method is being used in which a temporary living body is installed not on the ground but supported on a building under construction, and the entire temporary living body is rearranged sequentially upward as the construction progresses.
[0004]
[Problems to be solved by the invention]
By the way, the following temporary problems and the construction method using the same have the following problems.
In other words, the temporary living body used when building a building or the like has been repeatedly assembled and disassembled on each floor in order to rearrange it upwards. There is a problem of incurring longer time and higher costs.
[0005]
For this reason, climbing on the temporary living body itself by standing a plurality of struts (so-called masts) equipped with a climbing function for ascending upward on the building under construction and supporting the temporary living body on these struts A method of providing a function is adopted. However, even with this method, there is a problem that the temporary living body as a whole becomes very large and heavy, and the cost of the system becomes very high.
[0006]
In addition, as another method, there is a method in which the temporary living body is lifted with a crane and rearranged, but this method also has a problem that it takes time and cost to fix or remove the temporary living body from the housing. . In addition, during the replacement of the temporary living body, the material transfer operation by the crane cannot be performed, and the construction is interrupted, leading to a prolonged construction period. In addition, while the temporary living body is being lifted, the crosswind is greatly affected, so that there is a problem that the replacement work cannot be performed in a strong wind.
[0007]
In addition to this, in order to support the temporary living body in the building, for example, there is a method of attaching an anchor member or the like to the side of the building, but in this, the anchor member must be attached and removed outside the building, There is a problem that it takes extra time.
[0008]
  In addition, as another method of supporting the temporary living body in the building,FIG.As shown in (a), there is also a method in which a temporary support body 1 is provided with a support member 3 or the like extending toward the building B, and the tip of the support member 3 is fixed to the balcony 4 of the building B. But,FIG.As shown in (b), in this method, the support member 3 interferes with the balcony 4 when the temporary living body 1 is lifted by a crane, a hoist 5 or the like. In order to prevent the support member 3 from interfering with the balcony 4, the temporary living body 1 must be avoided and lifted, both of which are troublesome.
[0009]
Further, conventionally, when the temporary living body 1 is supported on the building B by the support member 3 or the like, the support member 3 is fixed by using the rising portion 4a of the balcony 4 of the building B, but the upper surface of the rising portion 4a. The side surface is not necessarily a horizontal or vertical surface, and in such a case, it is difficult to securely fix the support member 3 to the building B side. In addition, when a tile or the like is stretched on the surface of the rising portion 4a, there is a possibility that the support member 3 may be scratched. There was also.
[0010]
The present invention has been made in consideration of the above points, and it is an object of the present invention to provide a temporary living body capable of performing refilling work easily and reliably and a method for constructing a building using the temporary living body. .
[0011]
[Means for Solving the Problems]
The invention according to claim 1 is a temporary living organism that is provided so as to cover a building under construction and that is gradually rearranged upward as construction progresses, and the temporary living organism is a construction site in the upper part of the building A living body main body covering at least a side surface of the body and a support member for supporting the living body main body on a building, wherein the body body is combined with a plurality of panel units having a predetermined size. It is characterized by comprising.
[0012]
In this way, by configuring the biological body with a plurality of panel units, the panel units may be replaced one by one when the temporary biological body is replaced.
[0013]
  Also,Each said panel unit is comprised by temporary materials, such as a pipe for scaffolds, It is characterized by the above-mentioned.
[0014]
By using temporary materials such as scaffolding pipes in this way, it is easy to freely set the size of the panel unit. Moreover, each panel unit can be manufactured at a very low cost.
[0015]
  Also,A guide rail extending in the vertical direction is provided at a side end portion of one of the panel units adjacent to each other at a portion where the plurality of panel units constituting the living body are adjacent to each other, and the other panel A slide member that is movable only in the direction along the guide rail is provided at the side end of the unit, and these two adjacent panel units are connected so as to be movable relative to each other in the vertical direction. It is a feature.
[0016]
Thus, when each panel unit is rearranged upward, the panel unit is connected to the adjacent panel unit so as to be relatively movable in the vertical direction via the guide rail and the slide member. It is guided and moved upward.
[0017]
  The support member is rotatable in a horizontal plane.The one end side is foldably connected to the body, and the other end extends from the body side toward the building and is detachably fixed to the building. It is characterized by.
[0018]
  This allows the support member to beRotate horizontally to the bodyIf it is folded, it is possible to avoid interference with protrusions on the building side.
[0019]
In addition, the other end side of the support member is provided with a fixing hardware that is fixed to the upper end portion of the rising portion that rises upward formed in the building.It is characterized by that.
  Thereby, the living body main body can be stably supported and fixed to the rising portion via the support member and the fixing hardware.
[0020]
  Moreover,The fixing hardware includes, on a frame positioned along the upper surface and both side surfaces of the rising portion, a holding bolt that contacts the upper surface of the rising portion, a side contact member that contacts the side surface of the rising portion, A tightening member disposed at a position opposite to the side contact member and moving forward and backward toward the side contact member is provided, and the side contact member swings against the frame. A nut that is movably attached and the holding bolt is integrally welded to the frame, a bolt member that is screwed to the nut, and a support plate that is swingably provided at the tip of the bolt member It is characterized by being composed.
  According to such a fixed hardware, even when there is a level error or the like of the rising portion of each floor, the fixing hardware can be surely set by adjusting the holding bolt according to the level of the rising portion.
[0021]
  Claim 2In the invention according to the present invention, the refilling means is provided with an arm extending in one direction on a cart that is horizontally movable on the building under construction, and a hoist that lifts the temporary living body at a tip portion of the arm It is characterized by having a mechanism.
[0022]
  Thereby, it is not necessary to provide the replacement means in the temporary living body itself, and it is not necessary to use a crane for transporting materials. Further, by moving the carriage, for example, when the biological body is composed of a plurality of panel units, the biological body can be replaced with a minimum number of replacement units.
  Claim 3According to the present invention, the refilling means is configured by a hoist mechanism that is interposed between the fixing hardware and the panel unit to lift the panel unit.
  It is possible to perform the replacement work of each panel unit also by such replacement means.
  Claim 4According to the invention, the support member extends in the vertical direction and is connected to the vertical frame of the panel unit so as to be rotatable in a horizontal plane, and an extension portion extending from the base portion in the horizontal direction And a reinforcing material that reinforces the extending portion.
  Accordingly, the support member can be folded by being rotated in a horizontal plane with respect to the panel unit with a simple configuration.
  Claim 5According to the invention, the support member extends in a horizontal direction from a lower end portion of the base portion that extends in the vertical direction and is rotatably connected to the vertical frame of the panel unit in a horizontal plane. It is characterized by having a triangular shape composed of an extending portion and a reinforcing material that is obliquely installed between the upper end portion of the base portion and the distal end portion of the extending portion and reinforces the extending portion.
  Thereby, it can use suitably, when it is necessary to raise the intensity | strength of a supporting member significantly and to separate a temporary living body from a building.
[0023]
  Claim 6The invention according toClaims 1-5A building construction method using the temporary living body according to any one of the above, wherein the temporary living body is supported by the building with the support member, and the building is constructed from the bottom to the top inside. When the living body is rearranged upward as the construction of the building progresses, the panel units constituting the living body are rearranged one by one upward, and each panel unit is For reordering, after supporting the load of the one panel unit by the reordering means, the support member provided in the panel unit is rotated in a horizontal plane and folded to the side of the biological body, and then the reordering The panel unit is lifted upward by means, and then the support member is extended to support the panel unit on the building.
[0024]
  In this way, the effect of cross winds can be avoided by rearranging the panel units one by one upward. Further, the replacement means can be small. In addition, the support memberRotate in a horizontal plane to the body sideBy folding, it is possible to avoid interference with protrusions on the building side.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, an example of an embodiment of a temporary living body and a building construction method using the same according to the present invention will be described with reference to FIGS. 1 to 8.
The details of the fixing hardware in the temporary living body of the present invention will be described later as the fixing hardware 32 ′ (see paragraph 0061 and FIG. 9). However, in the following embodiments, the fixing is slightly different from the configuration. The basic configuration and function of the hardware 32 will be described as a reference example.
  In these drawings, symbol B indicates a building to be constructed, and numeral 10 indicates a temporary living body used when constructing the building B.
[0026]
As shown in FIGS. 1 and 2, the temporary living body 10 is mainly composed of a living body body 11 that covers the side surface of the upper construction floor of the building B under construction (see FIG. 2).
As shown in FIG. 1, the living body main body 11 is configured by connecting a plurality of substantially rectangular panel units 12 having a predetermined length in the vertical direction in the horizontal direction.
[0027]
Each panel unit 12 is arranged so as to extend in the vertical direction at equal intervals, and is arranged so as to extend in the horizontal direction so as to cross these vertical frames 13, 13,. Are composed of horizontal frames 14, 14,... And reinforcing brace members 15, 15,.
[0028]
The vertical frame 13, the horizontal frame 14, and the brace material 15 are provided with a temporary material K such as a single pipe for a scaffold, and a clamp fitting C for a single pipe at a portion where these are crossed and connected to each other. Is used.
[0029]
Further, among the vertical frames 13, 13,... Other than those positioned at both end portions, reinforcing members 16 made of square pipes extending in the vertical direction are disposed along the vertical frames 13,. ing. The reinforcing member 16 is connected to a horizontal frame 14 intersecting with the reinforcing member 16 by a clamp fitting C. And the connection part reinforcement material 17 which consists of a square pipe is integrally provided in the part to which the two reinforcement materials 16 and 16 are connected up and down.
[0030]
As shown in FIG. 2, each such panel unit 12 includes a bracket 18 for mounting a scaffold and a scaffold plate spanned on the bracket 18 at a predetermined position on the side facing the side of the building B. 19 is provided.
[0031]
Further, a mesh sheet, a curing sheet S, and the like are stretched on the opposite side of each panel unit 12 from the side facing the building B.
[0032]
Here, for example, the panel unit 12A located at the center in FIG. 1 is provided with guide rails (connecting means) 21 along the vertical frames 13A located at both end portions thereof. As shown in FIG. 3, the guide rail 21 is made of a steel channel material or the like having a C-shape in a plan view, and includes one end of mounting members 22, 22,. They are integrally provided at predetermined intervals in the vertical direction. A clamp fitting C for a single pipe is integrally attached to the other end of each attachment member 22, and the guide rail 21 is attached to the vertical frame 13 </ b> A via these clamp fittings C. .
Here, as shown in FIG. 1, the guide rails 21 are provided at the upper and lower portions of each vertical frame 13A.
[0033]
The panel unit 12B adjacent to the panel unit 12A provided with the guide rail 21 has a vertical frame 13A located at both end portions (only one side end portion is shown in FIG. 1). A slide member (connecting means) 24 is provided.
As shown in FIG. 4, the slide member 24 is, for example, a rectangular shape in a plan view, and is accommodated inside the guide rail 21. The outer diameter dimension is set so that a predetermined clearance is formed with the inner peripheral surface of the guide rail 21. Thereby, the slide member 24 can be relatively moved in the vertical direction along the inside of the guide rail 21. One end of a mounting member 25 extending in the horizontal direction is integrally provided on the slide member 24, and a clamp fitting C for a single tube pipe is integrally attached to the other end. The slide member 24 is attached to the vertical frame 13A via the attachment member 25 and the clamp fitting C. As shown in FIG. 1, a plurality of the slide members 24 are provided at predetermined intervals in the vertical direction on each vertical frame 13A. As a result, the slide member 24 is configured to be movable relative to the guide rail 21 in the vertical direction while being housed inside thereof.
[0034]
In this way, the panel units 12A and 12B adjacent to each other to constitute the living body 11 include the guide rail 21 provided in one panel unit 12A and the slide member 24 provided in the other panel unit 12B. Are connected so as to be relatively movable in the vertical direction. For example, when the panel unit 12A moves up and down, the guide rails 21 on both sides of the panel unit 12A are guided by the slide members 24 of the adjacent panel units 12B, respectively. It will move up and down in the state. Conversely, when the panel unit 12B moves up and down, the slide members 24 on both sides are guided by the guide rails 21 of the panel unit 12A adjacent to the panel unit 12B, and the panel unit 12B moves up and down with its both end portions guided. It will be.
[0035]
As shown in FIG. 5, a support member 30 for supporting the panel unit 12 on the building B is provided at a predetermined position of the panel unit 12. The support member 30 is substantially L-shaped and includes a base portion 30a extending in the vertical direction, an extending portion 30b extending from the base portion 30a in the horizontal direction, and a reinforcing member 30c that reinforces the extending portion 30b. A base portion 30a on one end side is connected to the vertical frame 13 via a joint metal D so as to be rotatable in a horizontal plane. As a result, the support member 30 has a configuration in which the extending portion 30b extending in the horizontal direction is rotatable in a horizontal plane and can be folded with respect to the panel unit 12.
[0036]
In order to support each panel unit 12 on the building B, the tip of the extending part 30b of the support member 30 is detachably fixed to a rising part 31 formed at the tip of the balcony 4 of the building B and rising upward. A fixing hardware 32 is provided. As shown in FIGS. 5 and 6, the fixing hardware 32 is attached to a frame 33 using an H-shaped steel composed of a web and flanges at both ends thereof, an upper support member (upper contact member) 34, and side support members. The pressure member (side contact member) 35 and the jack member (tightening member) 36 are provided.
[0037]
As shown in FIG. 6, the upper bearing member 34 is provided on the horizontal portion 33 a (web portion) of the frame 33 positioned along the upper surface of the rising portion 31. Further, the side support member 35 is provided on the vertical portion 33 b (one flange portion) of the frame 33 positioned along the outer surface of the rising portion 31. The upper bearing member 34 and the side bearing member 35 are formed from, for example, rectangular and plate-like bearing plates 34a and 35a and support portions 34b, 34b, 35b, and 35b integrally formed at both ends thereof. Thus, in the support portions 34b, 34b, 35b, and 35b, support holes 37 having an inner diameter of a predetermined dimension are formed at predetermined positions.
[0038]
On the other hand, a shaft-shaped attachment member 38 is integrally welded to each of the horizontal portion 33a and the vertical portion 33b of the frame 33 at predetermined positions. Bolts 39 are screwed into screw holes (not shown) at both ends of the mounting member 38 so that their heads protrude from the frame 33. The head of the bolt 39 is set to have an outer diameter smaller than the support hole 37 by a predetermined dimension.
[0039]
The upper bearing member 34 and the side bearing member 35 are formed so that the support holes 37 and 37 of the support portions 34 b and 34 b and 35 b and 35 b on both sides are formed on the heads of the bolts 39 and 39 fixed to the frame 33. By being locked, the frame 33 is attached to the frame 33. At this time, since the head of the bolt 39 is smaller in diameter than the support hole 37, the upper bearing member 34 and the side bearing member 35 are swingable about the axis of the bolt 39, respectively. The orientation of the pressure bearing plates 34a and 35a that come into contact with the upper surface and the outer surface of the rising portion 31 can be changed.
[0040]
The jack member 36 is provided on the vertical portion 33 c (the other flange portion) of the frame 33 so as to face the side support member 35. The jack member 36 includes a nut 36a integrally welded to the vertical portion 33c of the frame 33, a jack bolt 36b screwed to the nut 36a, and a ball joint (not shown) at the tip of the jack bolt 36b. The bearing plate 36c is provided so as to be swingable. The jack bolt 36b moves forward and backward in the axial direction, that is, toward the side support member 35 by rotating the base end side with a tool.
[0041]
As shown in FIG. 5, such a fixing hardware 32 causes the upper support member 34 to abut on the upper surface of the rising portion 31 of the balcony 4 of the building B, and the side support member 35 is set to the rising portion 31. The jack bolt 36b of the jack member 36 is screwed in a state where the jack member 36 is in contact with the one side surface, and the support pressure plate 36c at the tip is pressed against the other side surface of the rising portion 31 to be fixed to the rising portion 31. Yes. At this time, the upper bearing member 34 and the side bearing member 35 are each swingably provided on the frame 33, and the bearing plate 36c of the jack member 36 is also swingably provided on the jack bolt 36b. . Therefore, even if the upper surface and the side surface of the rising portion 31 are inclined with respect to the horizontal and vertical surfaces, the upper bearing member 34, the side bearing member 35, and the bearing plate 36c follow the upper surface and the side surface of the rising portion 31. It swings and comes into contact with certainty. In addition, the support plate 34a of the upper support member 34, the support plate 35a of the side support member 35, and the support plate 36c are flat on the side contacting the rising portion 31, respectively. On the other hand, it comes into surface contact.
[0042]
The fixing hardware 32 having this configuration is movably attached along the extending portion 30b of the support member 30 via the steel clamps 40, 40, thereby allowing the fixing hardware 32 to be arbitrarily attached to the extending portion 30b. It can be fixed at the position.
[0043]
Next, a reordering device for reordering the temporary living body 10 having such a configuration upward will be described.
As shown in FIG. 2, the refilling device (refilling means) 45 includes a carriage 47 that has wheels 46, 46,... On its lower surface and is movable and a fixing device provided at one end of the carriage 47. A jack 48, an arm 49 extending in the horizontal direction from one end of the carriage 47, and a hoist mechanism 50 provided at the tip of the arm 49 are configured. The hoist mechanism 50 includes a wire 52 provided with a hook 51 at the tip, and a winch 53 that winds and unwinds the wire 52. In addition, this reordering apparatus 45 can be self-propelled on the floor surface of each floor of the building B under construction by rotationally driving the wheels 46 by a drive mechanism 54 such as a motor.
[0044]
Then, the construction method of the building B using the temporary culture body 10 which consists of the said structure is demonstrated.
When constructing the building B, the temporary living body 10 is installed so as to cover at least the outer periphery of the construction floor. For this purpose, the plurality of panel units 12 constituting the biological body 11 are each extended with the respective support members 30 toward the building B, and the fixing hardware 32 at the tip thereof is fixed to the rising portion 31 of the balcony 4. To do. Then, each panel unit 12 will be in the state where each itself was fixed to building B. Furthermore, as shown in FIG. 1, the panel units 12, 12 adjacent to each other are connected to each other by the guide rail 21 and the slide member 24. And by extending the curing sheet S etc. on the outer peripheral surface of each panel unit 12, the outer periphery of the construction floor of the building B is cured over the entire periphery.
[0045]
And when the temporary living body 10 is rearranged upward with the progress of construction, basically, the plurality of panel units 12 constituting the living body 11 of the temporary living body 10 are rearranged one by one. To do. To this end, first, as shown in FIG. 2, the refilling device 45 is moved to the outer peripheral surface side of the building B, is opposed to the panel unit 12 to be refilled, and the fixing jack 48 is extended and fixed. Next, the tip of the arm 49 is positioned outside the rising portion 31 of the balcony 4 and inside the panel unit 12, and the wire 52 of the hoist mechanism 50 is extended to lower the hook 51. Is locked at a predetermined position of the panel unit 12.
[0046]
Next, in the fixing hardware 32 at the tip of each support member 30 shown in FIG. 5, the jack bolt 36 b of the jack member 36 is loosened, and the fixing to the rising portion 31 of the balcony 4 is released.
[0047]
Subsequently, the winch 53 of the hoist mechanism 50 of the reordering device 45 is operated to wind up the wire 52, thereby raising the panel unit 12 to which the hook 51 is locked. At this time, as shown in FIG. 1, since the guide rail 21 and the slide member 24 are slidably connected to the panel unit 12, the panel unit 12 rises while being guided by the adjacent panel units 12 on both sides. It will be.
[0048]
  Then, as shown in FIG. 7, the operation of the winch 53 is temporarily stopped in a state where the fixing hardware 32 is detached from the rising portion 31 of the balcony 4 and is located above the rising portion 31. In this state, each support member 30 isBy rotating 90 ° horizontally and folding it to the panel unit 12 sideIt is in a state along the panel unit 12.
[0049]
Thereafter, the winch 53 is actuated again, and the panel unit 12 is raised to a position slightly above a predetermined position to be replaced. Then, after the winch 53 is stopped, each support member 30 is expanded and protruded toward the building B side. In this state, the winch 53 is operated, this time, the wire 52 is drawn out and the panel unit 12 is lowered. Then, as shown in FIG. 8, the fixing hardware 32 at the tip of each support member 30 fits into the rising portion 31 of the balcony 4 on the upper floor, and the supporting plate 34a of the upper supporting member 34 shown in FIG. At the point of time when the contact with the upper surface of the rising portion 31, the operation of the winch 53 is stopped. Next, the jack bolt 36 b of the jack member 36 is tightened, and the fixing hardware 32 is securely fixed to the rising portion 31.
[0050]
Then, the hook 51 of the hoist mechanism 50 of the reordering device 45 is detached from the panel unit 12 and the wire 52 is wound up, whereby the reordering operation of the panel unit 12 is completed.
[0051]
After that, the panel units 12 are rearranged one by one in the same manner as described above, and when the rearrangement of all the panel units 12 is completed, the reordering device 45 is moved to the upper floor with a crane or the like. Reorder. Thereby, the replacement work of the temporary living body 10 is completed. Thereafter, the building B is constructed up to the top floor by alternately repeating the construction of a new construction floor and the replacement of the temporary living body 10.
[0052]
In the construction method for the temporary living body 10 and the building B described above, the temporary living body 10 can be folded so that the living body 11 composed of a plurality of panel units 12 and the body 11 are supported by the building B. The support member 30 and a refilling device 45 that can be self-propelled on the building B in order to refill the nourishing body 11 are configured. And when such temporary temporary living body 10 is provided in the building B under construction, and the temporary biological body 10 is replaced as the construction progresses, the panel unit 12 is lifted one by one by the reordering device 45 and replaced. It has become.
Thus, the reordering operation can be performed efficiently by rearranging the panel units 12 one by one upward. Therefore, it is possible to contribute to shortening the construction period and reducing the cost of the entire construction. In addition, since the influence of cross wind and the like can be minimized, it is possible to prevent the construction period from being prolonged and to ensure work safety. In addition, the temporary living body 10 having such a simple configuration can be suitably used particularly for a small and medium-sized building.
[0053]
In addition, each panel unit 12 is configured by a temporary material K such as a scaffolding pipe.
Thereby, each panel unit 12 can be manufactured very cheaply, and this can also contribute to cost reduction. Further, since the panel unit 12 can be made lightweight, the refilling operation can be easily performed, and the equipment for lifting the panel unit 12 is not a large-scale device such as a crane, but a simple refilling device 45. Is possible. Therefore, it is possible to avoid the occupation of the crane, which is originally intended for material transportation, and to efficiently perform the entire construction. Further, by using the temporary material K, it is easy to set the size of the panel unit 12 freely, and therefore it is possible to easily cope with the size and shape of the building B. It is possible to transfer the nourishing body 10 to other sites, and the cost performance can be further improved.
[0054]
Further, a guide rail 21 is provided at a side end of one panel unit 12 and a slide member 24 is provided at a side end of the other panel unit 12 at a portion where the plurality of panel units 12 are adjacent to each other. It has a configuration.
Thereby, the panel units 12 and 12 adjacent to each other are connected to each other so as to be relatively movable in the vertical direction. When the panel units 12 are rearranged upward, both side ends thereof are adjacent to the panel units 12 and 12. Can guide. Therefore, each panel unit 12 can be reliably replaced in a stable state, the influence of strong winds or the like can be minimized, the construction period can be prolonged, and work safety can be ensured. Moreover, since it is not necessary to attach the guide rail 21 and the slide member 24 to the building B side, unnecessary labor can be saved.
[0055]
  In addition, the support member 30It can be rotated horizontallySince it is foldable, the support member 30 does not interfere with protrusions such as the balcony 4 when the panel unit 12 is lifted, and the lifting work can be easily performed. In addition, a fixing hardware 32 is provided at the tip of the support member 30 so that the tip of the support member 30 can be detachably fixed to the building B. Therefore, it is not necessary to attach any anchor member or bracket for fixing the temporary living body 10 to the building B side, and the temporary living body 10 can be easily fixed to the building B. However, work efficiency can be improved.
[0056]
Moreover, the fixing hardware 32 is configured such that the upper support member 34, the side support member 35, and the jack member 36 are provided on the frame 33, and the upper support member 34 and the side support member are provided. The member 35 is configured to be swingably attached to the frame 33.
Accordingly, the fixing hardware 32 can be easily fixed to the rising portion 31 of the balcony 4 of the building B only by operating the jack bolt 36 b of the jack member 36. Further, since the upper bearing member 34 and the side bearing member 35 are swingably attached to the frame 33, even when the surface of the rising portion 31 is not a horizontal plane or a vertical plane, the upper bearing member 34 and The side support member 35 can be reliably brought into contact with the surface of the rising portion 31, and the fixing hardware 32 can be reliably fixed. In addition, since the support plate 34a of the upper support member 34, the support plate 35a of the side support member 35, and the support plate 36c of the jack member 36 are in surface contact with the rising portion 31, the rising portion Even when a tile or the like is attached to 31, it can be prevented from being damaged or scratched.
[0057]
Further, the fixing hardware 32 is attached to the extending portion 30b of the support member 30 via the steel clamps 40, 40, and can be fixed at an arbitrary position in the length direction of the extending portion 30b. Yes. Accordingly, when the temporary living body 10 is diverted to another site, the position of the temporary living body 10 and the building B can be changed by changing the position of the fixing hardware 32. It has become.
[0058]
In addition, the temporary living body 10 is provided with a dedicated refilling device 45 for refilling the living body body 11 upward. Thereby, it is not necessary to provide climbing means such as mast in the temporary living body 10 itself, and the temporary living body 10 as a whole can have a light and simple configuration, which can contribute to shortening the construction period and reducing the cost. Moreover, since it is not necessary to use a crane for transporting materials, it is possible to improve the efficiency of equipment use. Furthermore, when the biological body 11 composed of a plurality of panel units 12 is replaced, the replacement unit 45 is moved to move the panel unit 12, that is, the biological body, with the minimum number of replacement units 45. 11 reordering operations can be performed, and further efficiency of the operation and cost reduction can be achieved.
[0059]
  The configuration described in the above embodiment can be changed to other configurations without departing from the gist of the present invention. That is, for example, the structure and materials used for each panel unit 12 areIf you use an appropriate temporary materialThe panel unit 12 may be configured using a frame scaffold instead of a single pipe depending on the scale of the temporary living body 10.
[0060]
  Also,Support member 30Similarly, the shape and materials used are not limited in any way. For example, as shown in FIG. 9, the support member 30 ′ includes a base portion 30 a ′ extending in the vertical direction, an extending portion 30 b ′ extending in the horizontal direction from the lower end portion of the base portion 30 a ′, and an extending portion. In order to reinforce 30b ', it is good also as a thing of the structure which consists of reinforcing material 30c' laid diagonally between the upper end part of base part 30a ', and the front-end | tip part of extension part 30b'. According to such a support member 30 ′, the strength is significantly increased as compared with the support member 30 (see FIG. 5) shown in the above embodiment, and thus the temporary living body 10 needs to be separated from the building B. It can use suitably for etc.
[0061]
  However, for the fixing hardware, a fixing hardware 32 ′ shown in FIG. 9 is adopted instead of the fixing hardware 32 as the reference example described above.The fixing hardware 32 'is provided with a holding bolt 60 in place of the upper bearing member 34 (see FIG. 6). The holding bolt 60 has a structure similar to that of the jack member 36, and is provided so as to be swingable at a nut 60a integrally welded to the frame 33, a bolt member 60b screwed to the nut 60a, and a distal end portion of the bolt member 60b. It is comprised from the supported pressure plate 60c. In the fixing hardware 32 ′ having such a holding bolt 60, even when there is a level error of the rising portion 31 of the balcony 4 on each floor, the holding bolt 60 is adjusted according to the level of the rising portion 31. The fixing hardware 32 ′ can be reliably set.
[0062]
In addition, although the fixing hardware 32 is fixed to the rising portion 31 of the balcony 4 in the above embodiment, it may be fixed to other portions as a matter of course.
Furthermore, the upper bearing member 34 and the side bearing member 35 may be configured such that only one of them can swing depending on the shape of the rising portion 31 to which the fixing hardware 32 is attached.
[0063]
Similarly, as for the configuration of the refilling device 45, the configuration is not questioned as long as it can be moved on the construction floor of the building B.
[0064]
  For example, when the concrete strength of the floor of the building B is insufficient, the refilling device 45Instead ofAs shown in FIG.Replacement meansMay be adopted.this is,A support frame 65 is integrally provided on the frame 33 of the fixing hardware 32 and attached to the rising portion 31 of the balcony 4. And, using this locking frame 66 to this support frame 65As a replacement meansA winch 53 of the hoist mechanism 50 is attached, and a hook 51 is locked to the vertical frame 13 of each panel unit 12 using a hook wire 67. Further, pulleys 68 and 69 are set in the middle of the wire 52. At this time, the pulley 69 is attached to the metal fitting 70 attached to the fixing hardware 32. in this way,As a replacement means between the fixing hardware 32 and the panel unit 12It is possible to replace each panel unit 12 by setting the hoist mechanism 50.is there.
[0065]
Of course, each panel unit 12 may be replaced by other refilling means, such as a crane, depending on the scale of the temporary living body 10 and the usage status of the crane.
[0066]
Other than this, any configuration may be adopted as long as it does not depart from the gist of the present invention, and the configuration as described above, that is, the panel unit 12, the support member 30, the fixing hardware 32, the assembling. Needless to say, the configuration of the replacement device 45 or the like may be appropriately combined and used.
[0067]
【The invention's effect】
As described above, according to the temporary living body according to claim 1, the temporary living body includes the living body main body and the support member that supports the living body to the building, and the living body body includes a plurality of living body bodies. It is configured by combining panel units. Thus, by unitizing a temporary living body, the panel unit should be replaced one by one at the time of replacement of a temporary living body, and the replacement work can be performed efficiently. Therefore, it is possible to contribute to shortening the construction period and reducing the cost of the entire construction. In addition, the temporary living body having such a simple configuration can be suitably used particularly for a small and medium-sized building.
[0068]
  Also,Each panel unit is configured by a temporary material such as a pipe for scaffolding. By using the temporary material in this way, it is easy to freely set the size of the panel unit, and accordingly, it is possible to easily cope with the size and shape of the building. In addition, each panel unit can be manufactured at a very low cost, and this can also contribute to cost reduction. Furthermore, since the panel unit can be made lightweight, the refilling work can be easily performed, and the equipment for lifting it is not a large one such as a crane, but a simple equipment such as a hoist. Is possible. Therefore, occupation of a crane etc. can be avoided and the whole construction can be performed efficiently.
[0069]
  Also,When two or more panel units are adjacent to each other, a guide rail is provided at the side end of one panel unit, and a slide member is provided at the side end of the other panel unit. The units are connected so as to be relatively movable in the vertical direction. As a result, when each panel unit is rearranged upward, both end portions thereof are guided by the adjacent panel unit. Therefore, each panel unit can be reliably replaced in a stable state, the influence of strong winds or the like can be minimized, the construction period can be prolonged, and work safety can be ensured. And since such a guide rail and a slide member do not need to be attached to the building side, an extra effort can be saved.
[0070]
  Also,The temporary nurturing body includes a nurturing body and a support member,In a state where it can rotate in a horizontal planeOne end side is foldably connected to the biological body, and the other end side is detachably fixed to the building. As a result, when changing the body of the biological body upward,Rotate horizontallyBy folding, it is possible to avoid interference with building-side protrusions and the like, and refilling work can be easily performed. In addition, when the body is supported on the building, there is no need to attach an anchor member or the like to the building side, and it can be easily fixed to the building, and also in this respect, work efficiency can be improved. .
[0071]
  Furthermore, since the support member for supporting the biological body of the temporary living body on the building is provided with a fixing hardware, the biological body is stable with respect to the rising portion via the supporting member and the fixing hardware. It can be supported and fixed.
  Moreover,The fixing hardware is configured such that a holding bolt, a side contact member, and a tightening member are provided on a frame positioned along the upper surface and both side surfaces of the rising portion, and the side contact member swings on the frame. It is composed of a nut that is freely attached and a holding bolt is integrally welded to the frame, a bolt member that is screwed to the nut, and a support plate that is swingably provided at the tip of the bolt member. .
  According to such a fixed hardware, even when there is a level error or the like of the rising portion of each floor, the fixing hardware can be surely set by adjusting the holding bolt according to the level of the rising portion.
[0072]
  Claim 2According to the temporary living body according to the present invention, a hoist mechanism for lifting the temporary living body to the arm of a cart that can be moved horizontally on the building is used as a refilling means for rearranging the living body of the temporary living body upward. It is configured to be equipped. Thereby, it is not necessary to provide a replacement means in the temporary living body itself, and the temporary living body itself can have a light and simple configuration, which can contribute to shortening the construction period and reducing the cost. Moreover, since it is not necessary to use a crane for transporting materials, it is possible to improve the efficiency of equipment use. Furthermore, for example, when the living body is composed of a plurality of panel units, it is possible to cope by moving such a carriage. The refilling work can be performed efficiently.
  Claim 3According to the invention according to the present invention, the reordering means is constituted by the hoist mechanism that is interposed between the fixing hardware and the panel unit and lifts the panel unit. It is possible to perform the unit replacement work.
  Claim 4According to the invention, the support member extends in the vertical direction and is connected to the vertical frame of the panel unit so as to be rotatable in a horizontal plane, and the extension extending from the base in the horizontal direction. Since it is made into the substantially L shape which consists of a part and the reinforcement material which reinforces this extension part, a support member can be rotated in a horizontal surface with respect to a panel unit with a simple structure, and can be folded.
  Claim 5According to the invention, the support member extends in the horizontal direction from the lower end portion of the base portion that extends in the vertical direction and is rotatably connected to the vertical frame of the panel unit in a horizontal plane. Since the support member is formed in a triangular shape including an extending portion, and a reinforcing member that is obliquely installed between the upper end portion of the base portion and the distal end portion of the extending portion and reinforces the extending portion, It can be suitably used when it is necessary to greatly increase the strength and separate the temporary living body from the building.
[0073]
  Claim 6According to the building construction method according to the present invention, when the building is built inside the temporary living body and the body is rearranged upward, the load of the panel unit is supported by the refilling means, and then the supporting member is placed on the horizontal plane. Rotate it inside and fold it to the end of the living body, then lift the panel unit upward with refilling means, and then extend the support member to support the panel unit in the building, so that the panel unit is moved upward one by one It is structured to be reordered.
  In this way, the reordering operation can be efficiently performed by rearranging the panel units one by one upward. Therefore, it is possible to contribute to shortening the construction period and reducing the cost of the entire construction. In addition, since the influence of cross wind and the like can be minimized, it is possible to prevent the construction period from being prolonged and to ensure work safety. In addition, since the refilling means is small, the work can be efficiently performed in this respect. Furthermore, by rotating the support member in a horizontal plane and folding it, it is possible to avoid interference with projections on the building side when the panel unit is replaced, and work can be performed easily.
[Brief description of the drawings]
FIG. 1 is a view showing an example of a temporary living body according to the present invention, and is an elevation view showing a state where the temporary living body is attached to a building.
FIG. 2 is a side sectional view showing a state in which the temporary living body is attached to a building.
FIG. 3 is an elevation view and a plan sectional view showing a guide rail provided in the temporary living body.
FIG. 4 is an elevational view and a plan sectional view showing a slide member provided in the temporary living body.
FIG. 5 is a side sectional view showing a structure for fixing the temporary living body to a building.
FIG. 6 is an elevation view and a bottom view showing a fixing hardware used for fixing the temporary living body.
FIG. 7 is a process diagram showing a replacement method of the temporary living body, and shows a state where the temporary living body is lifted and removed from the building.
FIG. 8 is a diagram showing a state in which the temporary living body is changed to the upper floor.
FIG. 9 is a view showing another example of the temporary living body according to the present invention, and is a side sectional view showing another fixing structure of the temporary living body to the building.
FIG. 10 is a side sectional view showing another replacement method for the temporary living body.
FIG. 11 is a process diagram showing an example of a conventional method for replacing a temporary living body.
[Explanation of symbols]
  10 Temporary nutrition
  11 Nutrient body
  12 Panel unit
  13 Vertical frame
  21 Guide rail (connecting means)
  24 Slide member (connection means)
  30,30 '  Support member
  30a, 30a 'base
  30b, 30b 'extension
  30c, 30c 'reinforcement
  32,32 '  Fixing hardware
  33 frames
  34 Upper bearing member (upper contact member)
  35 Side support member (side contact member)
  36 Jack member (clamping member)
  45 Refilling device (refilling means)
  47 trolley
  49 arms
  50 Hoist mechanism(Refilling means)
  60 holding bolt
  60a nut
  60b Bolt member
  60c bearing plate
  B Building
  K temporary material

Claims (6)

A temporary living organism that is provided so as to cover the building under construction and is gradually relocated upward as the construction progresses,
The temporary living body is a living body body that covers at least the side surface of the construction site above the building,
A support member for supporting the biological body in a building;
A refilling means for refilling the living body main body upward,
The biological body is configured by combining a plurality of panel units having a predetermined size,
Each of the panel units is composed of a temporary material such as a pipe for scaffolding,
And the guide rail extended in the up-down direction is provided in the side edge part of one said panel unit adjacent to the mutually adjacent part of the said panel units which comprise the said living body main body mutually. In addition, a slide member that is movable only in the direction along the guide rail is provided at the side end portion of the other panel unit, and these two adjacent panel units can be relatively moved in the vertical direction. Connected to
The support member is rotatably connected in a horizontal plane, and one end side is foldably connected to the living body main body, and the other end side extends from the living body main body side toward the building side. It is configured to be detachably fixed,
And, on the other end side of the support member, a fixing hardware fixed to the upper end portion of the rising portion that rises upward formed in the building is provided,
The fixing hardware includes, on a frame positioned along the upper surface and both side surfaces of the rising portion, a holding bolt that contacts the upper surface of the rising portion, a side contact member that contacts the side surface of the rising portion, A tightening member disposed at a position opposite to the side contact member and moving forward and backward toward the side contact member is provided, and the side contact member swings against the frame. A nut that is movably attached and the holding bolt is integrally welded to the frame, a bolt member that is screwed to the nut, and a support plate that is swingably provided at the tip of the bolt member Temporary nourishment living body characterized by being constituted. The temporary living organism according to claim 1 ,
A configuration in which the refilling means is provided with an arm extending in one direction on a cart that is horizontally movable on the building under construction, and a hoist mechanism that lifts the temporary nutrition is provided at the tip of the arm. Temporary nourishment living body characterized by becoming. The temporary living organism according to claim 1 ,
Temporary living body, wherein the refilling means is constituted by a hoist mechanism that is interposed between the fixing hardware and the panel unit and lifts the panel unit. The temporary living organism according to any one of claims 1 to 3 ,
A base portion extending in a vertical direction and rotatably connected to a vertical frame of the panel unit in a horizontal plane; an extension portion extending horizontally from the base portion; and the extension Temporary nourishment body characterized by being made into the substantially L shape which consists of a reinforcing material which reinforces a part. The temporary living organism according to any one of claims 1 to 3 ,
A base that extends in the vertical direction and is rotatably connected to the vertical frame of the panel unit in a horizontal plane; and an extension that extends in a horizontal direction from a lower end of the base; A temporary nurturing body having a triangular shape comprising a reinforcing material that is obliquely installed between an upper end portion of the base portion and a distal end portion of the extension portion and reinforces the extension portion. It is the construction method of the building using the temporary living body according to any one of claims 1 to 5 ,
The temporary living body is supported on the building by the support member, and the building is constructed from the lower side to the upper side, and the living body body is rearranged upward as the construction of the building progresses. Sometimes, the panel units constituting the living body are rearranged one by one upward, and in order to rearrange each panel unit, the load of one panel unit is supported by the reordering means. After that, the support member provided in the panel unit is rotated in the horizontal plane and folded to the side of the biological body, and then the panel unit is lifted upward by the refilling means, and then the support member is moved in the horizontal plane. The panel unit is supported by the building by rotating and engaging a fixing hardware provided at the tip thereof with the building. Construction method of the object.

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