JP5108124B2 - Structure of cast-in-place concrete plate, dismantling method, concrete plate and structure - Google Patents

Description

  The present invention relates to a structure of a cast-in-place concrete plate, a method for dismantling the same, a concrete plate, and a structure.

  For example, in the case of concrete soil in buildings such as houses, offices, stores, etc., after sufficiently rolling the ground surface that has been leveled and crushed stone, arrange crack prevention bars such as wire mesh, and then The concrete is formed in such a manner that concrete of the necessary thickness is placed.

JP 2004-176441 A

  However, although the concrete soil formed as described above is also destined to be demolished, the conventional demolishing method uses a crusher to crush the interstitial concrete and dismantle it while sequentially cutting a wire mesh or the like. Dismantling is extremely troublesome, and environmental problems are caused by noise, dust, etc. during dismantling. Also, there was a problem that after transportation it had to be disposed of.

  In view of the above problems, for example, the present invention is a cast-in-place concrete slab that is easy to dismantle, causes less environmental problems, is easy to transport disassembled concrete, and is easy to recycle and reuse. It is an object of the present invention to provide a structure, a disassembly method thereof, and the like.

The above problem is that a plurality of unit concretes are formed by placing a planar insulating material and setting up a partition so that the concrete is placed on the planar insulating material by the partition so as to be separated and in an independent state. A concrete plate consisting of plates is formed,
Each unit concrete slab is solved by the structure of a cast-in-place concrete slab (first invention) characterized in that each unit concrete slab can be separated and transported when the concrete slab is dismantled.

  In this structure, the concrete slab can be disassembled by transporting the unit concrete slabs constituting the concrete slab separately from each other. Since the concrete that constitutes each unit concrete is partitioned by a partition and is in an independent state, the concrete does not hinder the separation of the unit concrete plate, and the unit concrete plate is dismantled from the concrete plate. Sometimes the partitions can be separated from each other so that the partition does not hinder the separation of the unit concrete slab, and therefore the concrete slab need not be crushed by a crusher or less. The concrete plate can be dismantled easily.

  Moreover, as described above, it is not necessary or little to crush the concrete plate with a crusher, so that environmental problems such as noise and dust are not caused when the concrete plate is disassembled.

  In addition, since the unit concrete slab is dismantled as a unit, transportation after dismantling is also targeted for the unit concrete slab, which is easy to transport and easy to recycle and reuse.

  In addition, since the concrete constituting the unit concrete slab is placed on the planar insulating material, when the lower surface side of the planar insulating material is the ground surface, etc., the unit concrete slab is removed at the time of dismantling and removal. It is possible to easily separate the ground surface from the ground surface without a lot of ground material adhering to the unit concrete slab when lifting.

Said 1st invention WHEREIN: The said planar insulation material consists of a baseplate with which the unit concrete plate unit was equipped, a partition is started up between these baseplates, and concrete is partitioned on each baseplate by the said partition by spot casting. A concrete plate composed of a plurality of unit concrete plates is formed so as to be in an independent state,
Each unit concrete plate is preferably configured to be able to be separated and transported from adjacent unit concrete plates in a state where the bottom plate is integrated when the concrete plate is disassembled (second invention).

  In this case, since the bottom plate is provided in the unit concrete plate unit, the bottom plate does not hinder the separation of the unit concrete plate, and the surface side of the unit concrete plate on the bottom plate side is in a clean finish state. It is easy to recycle and reuse.

  Further, in the first invention, the planar insulating material is a sheet-like material continuously passed to a plurality of unit concrete plates, and the sheet-shaped planar insulating materials are used at the time of dismantling the concrete plate. It may be made of a material that does not hinder the delivery of the unit concrete plate (third invention).

  In this case, the planar insulating material is made of a sheet-like material continuously passed to the plurality of unit concrete plates, so that the planar insulating material can be easily laid. In addition, since the sheet-like planar insulating material does not hinder the delivery of each unit concrete plate when the concrete plate is dismantled, each unit concrete plate can be easily carried out.

1st-3rd invention WHEREIN: The partition contains the combination partition material which combined the 1st partition plate adhering to one unit concrete plate, and the 2nd partition plate adhering to another unit concrete plate so that isolation | separation was possible. And
Each unit concrete slab is separated from each other by separating the first and second partition plates of the combination partition material from each unit concrete slab when the concrete slab is dismantled. It is good to have been made (fourth invention).

  That is, when the partition is of a type that adheres to concrete and cannot be separated, one unit concrete plate adheres to one side of the partition and the other unit concrete plate adheres to the other side. Otherwise, when the concrete plate is dismantled, the separation of each unit concrete plate will be hindered. However, as described above, the structure including the combination partition material in which the first and second partition plates are combined in a separable manner. Therefore, even if each partition plate adheres to the concrete of each unit concrete plate, each unit concrete plate can be separated by separating the first and second partition plates from each other. , Dismantling can be done easily.

Moreover, in said 1st-3rd invention, the partition contains the joint material which can be removed from between unit concrete slabs,
The unit concrete slabs may be configured to be separated from each other and transported when the concrete slab is disassembled with the joint material removed (the fifth invention).

  In this case, the joint material that functions as a partition can be removed from between the unit concrete plates, so that the joint material does not interfere with the separation of the unit concrete plates, and the unit concrete plates are separated from each other. It can be in a state, and dismantling can be performed easily.

  In particular, in the case of joint materials, a space can be formed between the unit concrete slabs by removing them from between the unit concrete slabs. It is possible to prevent the unit concrete slab from cracking and cracking and to collect the unit concrete slab with good quality.

  In the first to third inventions, the partition may be made of a joint material that has elasticity and does not hinder the delivery of each unit concrete slab when the concrete slab is disassembled (sixth invention). In this case, since the joint material does not hinder the separation of each unit concrete plate, each unit concrete plate can be separated from each other without removing the joint material, and dismantling can be easily performed. Moreover, due to the elasticity of the joint material, it is possible to prevent chipping and cracking of the unit concrete plate when carrying out each unit concrete plate, and to collect a unit concrete plate with good quality. .

In the first to third inventions described above, the partition is
A combination partition material in which the first partition plate attached to one unit concrete plate and the second partition plate attached to the other unit concrete plate are combined and weakly joined;
Including joint material that can be removed from between the unit concrete slabs,
Each of the first and second partition plates constituting the combination partition member is connected to the base plate portion protruding to the lower surface side of the unit concrete plate to be attached, and the base plate portion, and rises up the side surface portion of the unit concrete plate. A leg plate part, a joint material receiving plate part connected to the leg plate part and extending along the bottom surface side of the joint material, and a joint material holding plate part connected to the receiving plate part and rising on the side surface side of the joint material;
The first and second partition plates are formed into a weakly joined state with the leg plate portions being brought into contact with each other, and form a groove-shaped joint material holding portion that opens upward between the receiving plate portion and the holding plate portion. The joint material is received and held in the joint material holding portion;
Each unit concrete slab can be transported in a separated state by releasing the weakly joined state of the first and second partition plates with the joint material removed when the concrete slab is dismantled. (7th invention).

  With this structure, the same effects as those of the fourth and fifth inventions are achieved. Not only that, the first and second partition plates constituting the combination partition member include a base plate portion and a leg plate portion, and the leg plate portion is in a weakly joined state in accordance with the contact state. It can be installed stably and firmly between the bottom plates, and the construction for forming the concrete plate can be facilitated.

  In addition to the base plate portion and the leg plate portion, the first and second partition plates include a joint material receiving plate portion and a joint material holding plate portion, and the leg plate portion is brought into a weakly joined state in accordance with the contact state. The receiving plate portion and the holding plate portion form a groove-shaped joint material holding portion that opens upward, and the joint material is received and held in the joint material holding portion. The material can be stably and firmly held, and the construction for forming the concrete plate can be facilitated.

  Further, the present invention provides a cast-in-place concrete slab characterized in that each unit concrete slab is transported in a separated state when the concrete slab is disassembled with respect to the structure of the cast-in-place concrete slab of the first to seventh inventions. The dismantling method (8th invention) is included. According to this dismantling method, dismantling is easy and less likely to cause environmental problems. Moreover, the dismantled unit concrete plate can be easily transported and recycled and reused.

  Furthermore, the present invention includes a concrete plate (the ninth invention) comprising a unit concrete plate obtained by dismantling by the disassembling method of the eighth invention. This concrete plate can be effectively used by being recycled and reused as a precast concrete plate. In that case, the planar insulating material may remain attached to the concrete plate or may be removed.

  In addition, the present invention includes a structure such as a building (tenth invention) made using the concrete plate of the ninth invention, and can provide an environment-friendly structure that does not waste resources.

  Since the present invention is as described above, it is easy to dismantle, hardly causes environmental problems, and it is easy to transport the disassembled concrete, and it is easy to recycle and reuse it.

It is a cross-sectional front view between the concrete soil which is the spot cast concrete slab of 1st Embodiment. Fig. (A) is a perspective view showing the combination partition material in a separated state, Fig. (B) is a perspective view showing the combination partition material and joint material in a separated state, and Fig. (C) is a perspective view of the partition. (D) is a perspective view showing the partition and the keystone plate in a separated state. Drawing (a) and figure (b) are the section front views which show sequentially the construction method between concrete soil with Drawing 4 (c) (d). Drawing (c) and figure (d) are sectional front views which show sequentially the construction method between concrete soil with Drawing 3 (I) (B). Drawing (a) and figure (b) are the section front views which show the dismantling method between concrete soil one by one. Fig. (A) is a sectional side view of a foundation base which is a cast-in-place concrete slab of the second embodiment, and Fig. (B) is a sectional view taken along line I-I in Fig. (I). Drawing (a)-figure (d) are a section side view and a section front view which show the construction method of a foundation base sequentially with Drawing 8 (e)-(h). Drawing (e)-figure (H) are the sectional side views and sectional front views which show the construction method of a foundation base sequentially with Drawing 7 (a)-(d). FIGS. 10A and 10B are a sectional side view and a sectional front view sequentially showing a foundation-based disassembling method together with FIGS. FIGS. (C) and (D) are a cross-sectional side view and a cross-sectional front view sequentially showing a foundation-base disassembly method together with FIGS. Fig. (A) is a sectional side view of a foundation base which is a cast-in-place concrete slab of the third embodiment, and Fig. (B) is a sectional view taken along the line II-II in Fig. (I). Drawing (a) and figure (b) are the sectional side views and sectional front views which show the construction method of a foundation base sequentially with Drawing 13 (a)-(d). Drawing (a)-figure (d) are a section side view and a section front view which show a construction method of a foundation base sequentially with Drawing 12 (a) (b). FIGS. 1A to 1D are a sectional side view and a sectional front view sequentially showing a foundation-based dismantling method.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings.

  The first embodiment shown in FIGS. 1 to 5 is for concrete soil used in buildings such as houses, offices, stores, etc. In FIG. 1, 1 is a steel foundation beam, 2 is a cast-in-place concrete plate As concrete soil.

  The concrete soil gap 2 is laid on the ground surface of the crushed stone industry 3 and the like surrounded by the foundation beam 1 so that a plurality of keystone plates 4 having a planar shape as a planar insulating material and a bottom plate are adjacent to each other. The partition 5 is set up between these keystone plates 4 and the concrete is formed by being cast on each keystone plate 4 by spotting. The concrete on each side sandwiching the partition 5 is The unit concrete plates 6 are formed independently of each other by the partition 5, and the concrete soil space 2 is formed as an aggregate of these unit concrete plates 6.

  And each unit concrete slab 6 ... can be carried out in a mutually separated state at the time of demolition of the concrete soil 2. That is, in this embodiment, in order to realize this, the partition 5 is composed of the combination partition material 7 and the joint material 8.

  As shown in FIG. 2, the combination partition member 7 includes a first partition plate 9 attached to one unit concrete plate 6 sandwiching the partition 5 and a second partition plate 10 attached to the other unit concrete plate 6. In the combined state, each partition plate 9, 10 is manufactured by bending a metal plate such as an iron plate, and a base plate portion 7 a protruding to the lower surface side of the unit concrete plate to be attached, and a base A leg plate portion 7b that is connected to the plate portion 7a and rises from the side surface portion of the unit concrete plate, is connected to the leg plate portion 7b, and is connected to the joint material receiving plate portion 7c and the receiving plate portion 7c along the bottom surface side of the joint material 8. And a joint material holding plate portion 7 d that rises on the side surface side of the joint material 8.

  The first and second partition plates 9 and 10 have the leg plate portions 7b and 7b in contact with each other, and their upper end portions are weakly joined by welding W or soldering. The grooves 7c and 7c and the holding plate portions 7d and 7d form a groove-shaped joint material holding portion 11 that opens upward, so that the joint material 8 is received and held in the joint material holding portion 11. Has been made.

  The joint material 8 is made of a stretchable material such as polyethylene or hard rubber, and is removable from the unit concrete plate, and projects upward into the joint material holding portion 11 of the combination partition material 7. The partition 5 is composed and combined with the combination partition material 7 so as to be in a state, and the partition 5 partitions the lower half portion of the placed concrete with the combination partition material 7, and the upper half portion is jointed It is made to partition with the material 8. FIG.

  The combination partition member 7 is weakly joined by matching the leg plate portions 7b and 7b of the first and second partition plates 9 and 10 to the contact state, and the joint material 8 is held with the receiving plate portions 7c and 7c. Since it is received and held in the groove-shaped joint material holding portion 11 formed by the plate portions 7d and 7d, the joint material 8 can be stably and firmly held by the combination partition material 7, and concrete. Construction of the earthwork 2 can be facilitated.

  As shown in Fig. 3 (a), the construction of the concrete soil 2 is laid on the ground surface where the crushed stone industry 3 etc. are placed so that a plurality of keystone plates 4 are adjacent to each other. As shown in FIGS. 3 (b) and 4 (c), the partition 5 is installed between the adjacent keystone plates 4 and 4, and the crack-preventing streaks 12 on the keystone plates 4 ... Arrange….

  As shown in FIG. 2 (d), the partition 5 is installed by placing one base plate portion 7a of the combination partition member 7 on the upper surface portion of the valley bottom plate at the outermost side of the adjacent one of the keystone plates 4. With the other base plate portion 7a placed on the upper surface of the bottom plate on the outermost side of the other keystone plate 4, the base plate portions 7a, 7a are screwed to the valley bottom plates of the keystone plates 4, 4. This is done by setting it to the state stopped at 13.

  The combination partition member 7 constituting the partition 5 is a combination of the first and second partition plates 9 and 10, and includes a base plate portion 7a and a leg plate portion 7b, and the leg plate portion 7b is adjusted to a contact state. Since it is in a weakly joined state, the partition 5 can be installed between the keystone plates 4 and 4 with good stability and the construction between the concrete soils 2 can be facilitated.

  In addition, it is good to install so that the base board parts 7a and 7a of the combination partition material 7 may be located in the lower surface side of the keystone plate 4 between the keystone plates adjacent in the direction where a mountain and valley extend.

  Thereafter, as shown in FIG. 4 (d), the concrete 14 is placed on each keystone plate 4 ... by spotting, and the top surface height position of the concrete 14 is set to the upper end height of the joint material 8 of the partition 5. The concrete soil between the concrete concrete plates 6 as shown in FIG. 1 is made substantially coincident with the position so that the concrete sandwiching the partition 5 becomes independent from each other and is cured and cured. 2 is formed.

  As shown in FIG. 5 (a), the dismantling of the concrete soil 2 formed in this way uses a suspension piece 15 attached to the upper surface side of the unit concrete plate 6 by removing the joint material 8 from between the unit concrete plates 6. Then, as shown in FIG. 5B, the unit concrete plate 6 may be lifted with a crane and carried out together with the corresponding keystone plate 4.

  As a result of the lifting, the weakly joined portion of the combination partition member 7 is broken, and the first and second partition plates 9 and 10 are separated from each other and do not hinder the separation of the adjacent unit concrete plates 6 and 6. .

  Moreover, since the joint material 8 can be removed in the dismantling, by removing the joint material 8, the space formed between the unit concrete plates 6 escapes and the unit concrete plate 6 is chipped or cracked when lifted. The unit concrete plate with good quality can be collected.

  In this way, according to the above structure, the dismantling of the concrete soil 2 can be carried out by removing the joint material and suspending each unit concrete plate 6 with a crane and carrying it out. Compared to conventional dismantling using a machine, dismantling is very easy, and the occurrence of environmental problems such as noise and dust can be suppressed.

  Moreover, the unit concrete slab 6 carried out by the crane as described above has a rectangular shape and can be loaded so as to be stacked on a truck or the like, and can be efficiently transported. The unit concrete slab 6 obtained by the above dismantling is a concrete slab formed by placing concrete 14 on the keystone plate 4 and is effectively recycled and reused as a precast concrete slab. It can also be used as building floor slabs, wall materials, etc., and by using such methods, we will provide the world with environmentally friendly structures that do not waste resources. Can continue.

  The second embodiment shown in FIGS. 6 to 10 is applied to a continuous foundation of a building. In FIG. 6, 21 is a foundation base as a cast-in-place concrete slab, 22 is a steel foundation beam, and 23 is those. It is an anchor that connects

  The base base 21 is laid on a ground surface such as the crushed stone industry 3 so that a plurality of keystone plates 4 having a plan view shape as a bottom plate are adjacent to each other in a direction in which the foundation extends. The partitions 5 are started up and the concrete is cast on the keystone plates 4 by on-site casting. The concrete on each side sandwiching the partitions 5 is separated from each other by the partitions 5. Thus, unit concrete plates 6 are formed, and the base 21 is formed as an aggregate of these unit concrete plates 6.

  And each unit concrete slab 6 ... is made to be able to be separated and carried out when the foundation base 21 is disassembled. In order to realize this, the partition 5 is the same as in the case of the first embodiment. It is composed of a combination partition member 7 and a joint material 8 having the same structure.

  The construction of the foundation base 21 is adjacent to each other in the direction in which the foundation is extended on the ground surface on which the crushed stone industry 3 is applied, as shown in FIGS. The partition 5 is installed between the adjacent keystone plates 4 and 4. Since the partition 5 is installed at the end of the keystone plate 4 in the direction in which the peaks and valleys extend, the partition 5 may be installed so that the end of the keystone plate 4 overlaps the base plate portion 7a of the combination partition 7. As shown in FIG. 7A, a high nut 28 for connecting the lower end portion of the anchor 23 is attached to the keystone plate 4 in advance by welding or the like.

  Further, as shown in FIGS. 7 (a) and 7 (c), the side frame holding hardware 24, 24 is attached to both sides in the width direction of the keystone plate 4, and the side frame holding hardware 24, 24 is a side made of polystyrene foam or the like. As shown in FIGS. 8 (e) and 8 (f), the side frames 25 and 25 are connected to each other at the upper end portion thereof with a metal fitting 26, and anchored to the high nuts 28 and 28. 23, 23 are connected, and the upper ends of the anchors 23, 23 are connected by the top end plate 27 so that the base base muscles 16 are arranged.

  After that, as shown in FIGS. 8 (G) and 8 (C), the concrete 14 is placed on each keystone plate 4 by on-site driving, and the top surface height position of the concrete 14 is set to the joint material 8 of the partition 5. FIG. 6 shows that the concrete that is substantially coincident with the upper end height position, the concrete sandwiching the partition 5 become independent from each other, and the concrete is cured and hardened, and the joint metal 26 and the top plate 27 of the anchor are removed. A base base 21 made of an aggregate of unit concrete slabs 6 as shown is formed.

  The foundation is formed by connecting a steel foundation beam 22 to the foundation base 21 with an anchor 23, as shown in FIGS. 6 (a) and 6 (b), with respect to the foundation base 21 thus formed.

  For dismantling, the foundation beam 22 is removed, the joint material 8 is removed from between the unit concrete plates 6 as shown in FIG. 9 (b), and is attached to the upper surface side of the unit concrete plate 6 as shown in FIG. 9 (a). The unit concrete plate 6 may be lifted with a crane and carried out together with the corresponding keystone plate 4 as shown in FIGS.

  Thus, also in the structure of this embodiment, the foundation base 21 can be disassembled by removing the joint material 8 and suspending each unit concrete plate 6... Compared to conventional dismantling using a crusher, dismantling is very easy, and environmental problems such as noise and dust can be suppressed.

  Further, the unit concrete slab 6 carried out by the crane as described above has a rectangular shape, and can be loaded so as to be stacked on a truck or the like via a spacer, and can be efficiently transported. The unit concrete slab 6 obtained by the above dismantling is a concrete slab formed by placing concrete 14 on the keystone plate 4 and is effectively recycled and reused as a precast concrete slab. This can be used as a foundation base of a building, or as a floor slab material or a wall material by removing the protrusions of the anchors 23 and 23 as necessary. By doing so, it is possible to provide the world with environmentally friendly structures that do not waste resources.

  The third embodiment shown in FIGS. 11 to 14 is applied to a continuous foundation of a building, as in the second embodiment. As shown in FIG. The sheet-like insulating material 4 formed and continuously passed through a plurality of unit concrete slabs 6 constituting the base base 21 is used. The sheet-like insulating material 4 is a polyethylene film. The unit concrete slabs 6... Are not obstructed when the foundation base 21 is disassembled.

  Further, the joint material 5 is used as a partition between adjacent unit concrete plates 6... The joint material 5 has elasticity, such as polystyrene foam, and each unit concrete plate at the time of dismantling of the base base portion 21. It is made of joint material that does not hinder the removal of 6 ...

  As shown in FIGS. 12 (A) and 12 (B) and FIGS. 13 (A) and 13 (B), the foundation base portion 21 is installed on the discarded concrete 32 in the direction in which the sheet-like planar insulating material 4 extends. The plywood molds 30 and 30 and the joint material 5 are installed on the floor. The joint material 5 is held in a fall-prevented state by guides 31, 31 provided on the inner surfaces of the plywood molds 30, 30. Since the sheet-like planar insulating material 4 is laid so as to be continuously spread over the plurality of unit concrete plates 6..., The laying work of the planar insulating material 4 can be performed efficiently and easily.

  Then, as shown in FIGS. 13 (a) and 13 (d), the anchors 23 are installed in the molds 30 and 30, and the base base bars 16 are arranged. 30, 30 is placed on the sheet-like planar insulating material 4, and the top surface height position of the concrete 14 is lower than the upper end height position of the joint material 5 or the upper end height of the joint material 5. When the concretes sandwiching the joint material 5 are made to be independent from each other substantially in position, and the concrete is cured and hardened and removed from the mold, a set of unit concrete plates 6 as shown in FIG. A base base 21 made of a body is formed.

  The dismantling is performed by removing the foundation beam 22 and using the suspension pieces 15 attached to the upper surface side of the unit concrete plate 6 as shown in FIG. 14 (a), and as shown in FIGS. The unit concrete plate 6 may be lifted with a crane. At that time, the sheet surface insulating material 4 is torn or peeled off from the unit concrete plate 6 to be lifted, so that separation from the adjacent unit concrete 6 is not hindered, and the joint material 5 is made of polystyrene foam or the like. Thus, the unit concrete slabs 6 can be easily carried out by not hindering the separation of the unit concrete slabs 6.

  Further, since the joint material 5 is made of a material having elasticity such as polystyrene foam, the unit concrete slab 6 is not chipped or cracked when the unit concrete slabs 6 are carried out, and the quality is good. The simple unit concrete plate 6 can be collected. Furthermore, since the concrete of the unit concrete plate 6 is struck on the sheet-like planar insulating material 4 laid on the discarded concrete 32, the surface on the side of the planar insulating material 4 is flat. Good unit concrete plate 6 can be collected.

  Although the embodiment of the present invention has been described above, the present invention is not limited to this, and various modifications can be made without departing from the spirit of the invention. For example, in the first and second embodiments described above, the case where the keystone plate 4 is used as the bottom plate has been shown. However, other metal corrugated plates may be used, and the reinforcing ribs are not limited to the corrugated plates but are flat plates. It may be a flat plate with ribs attached thereto, may be a simple flat plate, or may be a metal, resin, wood or the like.

  Moreover, in said 1st, 2nd embodiment, although the case where what combined the combination partition material 7 and the joint material 8 was used as a partition was shown, the partition using only any one is used. There is no limitation on the form and structure of the joint material and the form and structure of the combination partition material. Moreover, the partition in 1st-3rd invention should just be a thing which can make a unit concrete slab mutually isolate | separated at the time of the dismantling of a concrete slab, and is restricted to the above combination partition materials and joint materials. It is not a thing.

  Moreover, although said embodiment has shown the case where a concrete plate is between concrete soil and a foundation base, it is not restricted to these, A concrete floor slab etc. may be sufficient.

2 ... Concrete soil (on-site concrete version)
4 ... Keystone plate (bottom plate, sheet insulation); sheet sheet insulation (sheet insulation)
5 ... Partition, joint material (partition)
6 ... Unit concrete plate 7 ... Combination partition material 8 ... Joint material 9 ... First partition plate 10 ... Second partition plate 11 ... Joint material holding part 21 ... Foundation base (on-site concrete plate)
W ... Weak joint

Claims (5)

A concrete plate made of a plurality of unit concrete plates, in which a planar insulating material is laid and a partition is set up, and concrete is placed on the planar insulating material by the partition so as to be in an independent state. Each unit concrete slab is a structure of a cast-in-place concrete slab that is configured to be separated from each other when the concrete slab is dismantled,
The planar insulating material is a sheet-like material continuously passed to a plurality of unit concrete plates, and the sheet-shaped planar insulating material does not hinder the delivery of each unit concrete plate when the concrete plate is disassembled. It has become from things,
The partition includes a combination partition material in which the first partition plate attached to one unit concrete plate and the second partition plate attached to the other unit concrete plate are detachably combined,
Each unit concrete slab is separated from each other by separating the first and second partition plates of the combination partition material from each unit concrete slab when the concrete slab is dismantled. Structure of cast-in-place concrete slab characterized by being made . A concrete plate made of a plurality of unit concrete plates, in which a planar insulating material is laid and a partition is set up, and concrete is placed on the planar insulating material by the partition so as to be in an independent state. Each unit concrete slab is a structure of a cast-in-place concrete slab that is configured to be separated from each other when the concrete slab is dismantled,
The planar insulating material is a sheet-like material continuously passed to a plurality of unit concrete plates, and the sheet-shaped planar insulating material does not hinder the delivery of each unit concrete plate when the concrete plate is disassembled. It has become from things,
The partition is
A combination partition material in which the first partition plate attached to one unit concrete plate and the second partition plate attached to the other unit concrete plate are combined and weakly joined;
Joint material that can be removed from between the concrete slabs
Contains
Each of the first and second partition plates constituting the combination partition member is connected to the base plate portion protruding to the lower surface side of the unit concrete plate to be attached, and the base plate portion, and rises up the side surface portion of the unit concrete plate. A leg plate part, a joint material receiving plate part connected to the leg plate part and extending along the bottom surface side of the joint material, and a joint material holding plate part connected to the receiving plate part and rising on the side surface side of the joint material;
The first and second partition plates are formed into a weakly joined state with the leg plate portions being brought into contact with each other, and form a groove-shaped joint material holding portion that opens upward between the receiving plate portion and the holding plate portion. The joint material is received and held in the joint material holding portion;
Each unit concrete slab can be transported in a separated state by releasing the weakly joined state of the first and second partition plates with the joint material removed when the concrete slab is dismantled. structure of cast-in-place concrete version, characterized in that is. 3. A method for dismantling a cast-in-place concrete slab, wherein each unit concrete slab is transported in a separated state from each other when the concrete slab is disassembled with respect to the structure of the cast-in-place concrete slab according to claim 1 or 2 . A concrete slab comprising a unit concrete slab obtained by demolition by the demolition method according to claim 3 . A structure such as a building made using the concrete plate according to claim 4 .

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