EP0943742A1 - Structure panel and method of connecting same - Google Patents
Structure panel and method of connecting same Download PDFInfo
- Publication number
- EP0943742A1 EP0943742A1 EP97944084A EP97944084A EP0943742A1 EP 0943742 A1 EP0943742 A1 EP 0943742A1 EP 97944084 A EP97944084 A EP 97944084A EP 97944084 A EP97944084 A EP 97944084A EP 0943742 A1 EP0943742 A1 EP 0943742A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- jointing
- panels
- panel
- concave
- jointing element
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
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Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/38—Connections for building structures in general
- E04B1/61—Connections for building structures in general of slab-shaped building elements with each other
- E04B1/6108—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together
- E04B1/612—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces
- E04B1/6145—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces with recesses in both frontal surfaces co-operating with an additional connecting element
- E04B1/6158—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces with recesses in both frontal surfaces co-operating with an additional connecting element the connection made by formlocking
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/38—Connections for building structures in general
- E04B1/61—Connections for building structures in general of slab-shaped building elements with each other
- E04B1/6108—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together
- E04B1/612—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces
- E04B1/6125—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces with protrusions on the one frontal surface co-operating with recesses in the other frontal surface
- E04B1/6137—Connections for building structures in general of slab-shaped building elements with each other the frontal surfaces of the slabs connected together by means between frontal surfaces with protrusions on the one frontal surface co-operating with recesses in the other frontal surface the connection made by formlocking
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/84—Walls made by casting, pouring, or tamping in situ
- E04B2/86—Walls made by casting, pouring, or tamping in situ made in permanent forms
- E04B2/8635—Walls made by casting, pouring, or tamping in situ made in permanent forms with ties attached to the inner faces of the forms
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/84—Walls made by casting, pouring, or tamping in situ
- E04B2/86—Walls made by casting, pouring, or tamping in situ made in permanent forms
- E04B2/8635—Walls made by casting, pouring, or tamping in situ made in permanent forms with ties attached to the inner faces of the forms
- E04B2/8641—Walls made by casting, pouring, or tamping in situ made in permanent forms with ties attached to the inner faces of the forms using dovetail-type connections
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/84—Walls made by casting, pouring, or tamping in situ
- E04B2/86—Walls made by casting, pouring, or tamping in situ made in permanent forms
- E04B2/8658—Walls made by casting, pouring, or tamping in situ made in permanent forms using wire netting, a lattice or the like as form leaves
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/84—Walls made by casting, pouring, or tamping in situ
- E04B2/86—Walls made by casting, pouring, or tamping in situ made in permanent forms
- E04B2002/867—Corner details
Definitions
- the present invention relates to panels for construction (hereinafter referred to as construction panels) which are used for walls surrounding buildings, outer and inner walls or partition walls of buildings, supporting walls, and also for concrete structures such as engineering buildings and a method of jointing the same.
- the conventional method using such frameworks has problems that firstly it reads assembling and disassembling works; secondly, a finishing work has to be performed by tiles, etc., by making the surface of concrete fine or beautiful, thereby requiring much time and labor; thirdly, the work per se requires skilled technique, thereby leading to high construction cost, and delay of the construction together with latest shortage of skilled workers.
- the conventional method using concrete block and pre-cast concrete requires time for positioning these members, which causes another problem that working efficiency is deteriorated and the construction invite danger because of handling heavy objects. Still further, finished moats and supporting walls frequently expose the ground of concrete, which causes still other problem that the surface of concrete becomes blackish by contamination caused by exhaust gas of automobiles, by the sticking of mold and moss caused by moisture, which spoils the beauty of the construction and is difficult to remove.
- the construction panel of the present invention is characterized in comprising a pair of jointing elements provided on a panel body at upper, lower and back surfaces thereof for jointing panels for construction which are piled vertically, wherein one jointing element is a concave jointing element and another concave member is a convex jointing element.
- One jointing element is a box-shaped concave jointing element and another jointing member is a pillar-shaped convex jointing element.
- each of the pair of jointing elements comprise a concave jointing element which are provided on the panel body at upper and lower end surfaces thereof in advance, and wherein one jointing element is a concave jointing element as it is while another jointing element is a convex jointing element which is formed by fixing a separately prepared convex jointing element to said concave jointing element so as to protrude therefrom.
- cylindrical bodies are provided to extend from the bottom surface of said concave jointing element to a lower end of said panel body, and convex jointing elements disposed inside said cylindrical bodies for engaging with concave jointing element of lower stage panel.
- the construction panel of the present invention further comprises a jointing plate provided at either surface where the concave and convex jointing elements contact or at one of or both surfaces where one panel body contacts another panel body.
- connecting members may be provided for connecting opposing construction panels or for connecting the consecution panel with a temporary member.
- a jointing element and/or jointing plate may be provided for jointing construction panels which adjoin with each other in a lateral direction.
- the construction panel of the present invention is not limited to the flat-plate shape but it my be L-shaped or curved, and the panel body may be formed of a framework. Further, a shielding plate may be mounted on said panel body at one of or both of front and back surfaces of said panel body, and a decorative plate may be mounted on a front surface of said panel body.
- the method of jointing construction panels according to the present invention is characterized in comprising preparing a pair of jointing elements provided on a panel body at upper, lower and back surfaces thereof for jointing panels for construction which are piled vertically, wherein one jointing element is a concave jointing element and another jointing element is a convex jointing element, placing an upper stage panel on a lower stage panel so that end surfaces thereof flush with each other, and engaging the concave jointing element with said convex jointing element so as to joint the upper stage panel and lower stage panel.
- the method comprises preparing panels for construction comprising a pair of jointing elements each composed of a box-shaped concave jointing element and a pillar-shaped convex jointing element, and engaging said convex jointing element with said concave jointing element so as to joint said upper stage panel with said lower stage panel.
- a concave jointing element is embedded in an upper end surface of said panel body, and a cylindrical body is provided in said concave jointing element which extends from a bottom surface of said concave jointing element to said lower end of said panel body, and a convex jointing element is provided in said cylindrical body, placing said upper stage panel and lower stage panel vertically, and lowering the convex jointing element provided in the cylindrical body of the upper stage panel to engage in the concave jointing element of the lower stage panel so as to joint the upper stage panel with lower stage panel.
- a pair of jointing elements each composed of a box-shaped concave jointing element and a pillar-shaped convex jointing element, and a jointing plate provided on the concave and convex jointing elements at either portion where said concave and convex jointing elements contact each other, or at one of or both of portions where adjoining panel bodies contact each other so as to joint the upper stage panel with lower stage panel.
- the opposing construction panels or the construction panel and a temporary member are connected with each other by jointing members provided at the back surface of the panel body. Further, the panels which adjoin with one another in a lateral direction are jointed with one another by jointing members or jointing plates which are provided at both lateral ends or at neighboring portions thereof. More still further, the panels are assembled with one another with assistance of temporary member of the panel body. Further, a filling material is filled between the opposing panels for construction.
- a construction panel P shown in Figs. 1 to 3 comprises a panel body 1 having a rectangular flat plate shape, wherein the panel body 1 has an upper end surface 1a having concave jointing elements 2 which are disposed at two sections of the upper end surface 1a and extend to the right and left for jointing with an upper stage construction panel, and cylindrical bodies 3 which are embedded in the panel body 1 and extends from the bottom surfaces of the concave jointing elements 2 to the lower end surface of the panel body 1, and convex jointing elements 4 for jointing with a lower stage construction panel.
- a concave jointing element 5 and a convex jointing member 6 are respectively provided at the right and left end surfaces 1a, 1b of the panel body 1 for engaging with opposing convex jointing member 6 and concave jointing element 5 so as to connect with the right and left construction panels P.
- the concave jointing elements 2 may be provided at the entire surface thereof.
- Concave jointing elements 7 are provided at the back surface 1c of the panel body 1 at the upper and lower portions thereof and extend to the right and left, and a concave stage portion 1d is formed on the back surface 1c of the panel body 1 at the upper edge thereof and a convex stage portion 1e is formed likewise on the lower edge thereof.
- the concave stage portion 1d and convex stage portion 1e are respectively formed for preventing concrete from leaking outside and for enhancing excellent transmission of stress between the upper and lower construction panels P when concrete is filled between the opposing construction panels, and they can be formed depending on a thickness of the panel body 1, as the need arises.
- the concave jointing element 5 and convex jointing member 6 for jointing the construction panels P, and the concave jointing elements 7 provided at the back surface of the panel body 1 are respectively separately formed and they are embedded in the panel body 1 for enhancing accuracy of dimensions thereof, the concave and convex may be directly provided on the panel body 1.
- the concave jointing elements 2 are embedded in the base B or a base anchor 8 is embedded into the base B before or after concrete is filled in the base B.
- the convex stage portion 1e formed at the lower edge of the panel body 1 may be cut to be flat in advance or a groove corresponding to the shape of the convex stage portion 1e may be defined in the base B. If the concave jointing elements 2 are embedded in the base B, the convex jointing elements 4 are mounted previously in the panel body 1.
- an L-shaped fixing plate 8a is fixed to the top of the base anchor 8, and a tenon 8b in which a dovetail is engaged may be fixed to the L-shaped fixing plate 8a by an attaching bolt 8c using the concave jointing elements 7 provided at the back surface 1c of the panel body 1.
- the right and left construction panels P are respectively jointed with each other by sliding the convex jointing member 6 of one construction panel P along the concave jointing element 5 of another construction panel P so as to engage the convex jointing member 6 in the concave jointing element 5.
- the concave jointing element 5 and convex jointing member 6 are respectively provided at the right and left end surfaces of the panel body 1, but they may be provided at the back surface adjacent to the end edge of the panel body 1.
- connection rods 9 having tenons 9a at both ends which engage with each other in the concave jointing elements 7 provided at the back surface of the panel body 1.
- Turn buckles 10 may be disposed at the middle portion of the connecting rods 9 for finely adjusting the interval between the opposing construction panels P.
- first stage construction panel P After the first stage construction panel P is disposed, second and third stage panels are assembled like the first stage panel P.
- the upper and lower construction panels P are respectively jointed with each other by inserting the convex jointing elements 4 in the concave jointing elements 2 to hold the convex jointing elements 4 by the concave jointing elements 2.
- construction panels P are assembled in zigzag, namely, the joints at the right and left end edge of the construction panels P do not continue linearly, but the construction panels P may be assembled vertically in parallel with one another so that the joints thereof continue linearly, namely, arrange in straight. Further, the construction panels P may be assembled at random when the concave jointing elements 2 embedded in the upper end surface of the panel body 1 extend to the right and left of the panel body 1 as shown in Fig. 1, or the convex jointing elements are increased by the number corresponding to the concave jointing elements which are embedded plurally in the narrow without right and left.
- the concave jointing elements and the convex jointing elements 4 are prevented from being broken owing to a bending moment or shearing force which are generated at the jointing boundaries of construction panels P providing attaching members 11 at the back surface 1c of the panel body which bridge over the vertically jointed construction panels P.
- the supporting member 12 serves to restrain the deviation of the attaching member 11 when the stress is applied to each attaching member 11. Accordingly, the supporting member 12 is used as the need arises, and it is used when a large stress applies to the attaching member 11.
- the supporting member 12 is fixed to the wall surface of the panel body 1 by a bolt, an anchor, etc.
- a filling material e.g. concrete is filled between the opposing construction panels so as to complete the construction of the construction panels P for use in a wall, an outer wall, an inner wall, a partition wall, a supporting wall, etc.
- the surface of the construction panel P may be omitted to decorate if a decorative layer is directly formed on the surface 1d of the construction panel P in advance by the material of the panel body 1 or if the decorative layer is formed on the surface of the construction panel P by sticking a decorative plate made of a different material onto the surface of the construction panel P.
- the concave jointing elements 2 are embedded into the upper end surface of the lower construction panel P.
- the concave jointing element 2 comprises a dovetail 2b which is formed by digging each panel body 1 from the upper end surface, and side walls 2a provided between the dovetails 2b and open ends.
- the convex jointing elements 4 are held inside the cylindrical bodes 3 which extend from the bottom surfaces 2c of the concave jointing elements 2 to the lower end surfaces of the panel body 1.
- the cylindrical body 3 is divided into an upper portion 3a and a cylindrical lower portion 3b which is larger than the upper portion 3a, a body 13 of the convex jointing element 4 is accommodated into the cylindrical lower portion 3b.
- the inner width of the cylindrical lower portion 3b of the cylindrical body 3 is substantially the same as the interval of the side walls 2a of the concave jointing element 2.
- a shaft 14 penetrates the body 13 and a rotary holding member 15 is attached to the lower end of the shaft 14, and a recess such as a cross hole for turning a driver is defined in the shaft 14 at the upper end thereof.
- the rotary holding member 15 has a shape of a tenon, and has conical tables 15a about the shaft 14 at two sections. As shown in Fig. 4 (B), the rotary holding member 15 is fixed to the body 13 at a screw portion 15c to be turned freely, and side surfaces 15b of the rotary holding member 15 which are narrow in width are flush with the side surface of the body 13.
- a method of jointing the upper and lower construction panels P by the concave jointing element 2 and convex jointing element 4 are described with reference to Fig. 5.
- a nut 16 to be screwed into a head of the shaft 14 is employed, and a pin or screw portion 15d is inserted into the shaft 14 as a fixing member 17 for keeping the position of the body 3.
- a nut or a plate may be feed to shaft 14 instead of the pin.
- the nut 16 positioned in the concave jointing element 2 of the upper stage panel Pb is pressed downward toward a bottom surface 20c of the concave jointing element 2 so that the body 13 is inserted into the concave jointing element 2 of the lower stage panel Pa.
- the shaft 14 is turned 90 degrees to turn the rotary holding member 15, then the shaft 14 is raised by turning the nut 16, thereafter the concave jointing element 2 of the lower stage panel Pa and the convex jointing element 4 of the upper stage panel Pb are fastened
- a ring spring 15d is provided in a space between the shaft 14 and body 13 instead of providing the screw portion 15c to the rotary holding member 15, so that the rotary holding member 15 can be turned smoothly.
- the body 13 can withstand a large stress when the latter applies to the former.
- a gap may be defined between the body 13 of the convex jointing element 4 and the cylindrical lower portion 3b of the cylindrical body 3.
- the shape of the body 13 may be columnar or cylindroid as well as parallel piped, and if the body 13 is columnar or cylindroid, the cylindrical lower portion 3b may have a shape corresponding to the body 13.
- the shape of the rotary holding member 15 may be of any shape as well as the shape as shown in Fig. 4 (A).
- the concave jointing element 2 needs to have a shape corresponding to the shape of the rotary holding member 15.
- a conical table 15a may be provided, as the need arises while the concave jointing element 2 is formed of a box shape as shown in Fig. 10, and a top 20h of the concave jointing element 2 and the top surface 15f of the rotary holding member 15 shown in Fig. 4 (A) contact each other.
- the cylindrical lower portion 3b and body 13 are respectively formed of parallel piped bodies which extend to the right and left, and the rotary holding member 15 and shaft 14 and cylindrical lower portion 3b corresponding to the rotary holding member may be provided at plural sections.
- the rotary holding member 15 may be formed directly on the panel body 1 depending on the shape of the cylindrical lower portion 3b without using separately manufactured product.
- the convex jointing element 4 comprises of a head 20, a shaft portion 21, a body portion 22, and a spring 23 which is attached to the head 20 and which members are all columnar.
- the outer peripheral surface of the body portion 22 and the side wall 2a of the concave jointing element 2 have male screw 22a and screw 2e respectively screwed therein.
- the screw 2e of the side wall 2a is different from a female screw provided on the inner surface of a normally circular hole, and it extends vertically on the paper surface of the drawing. Accordingly, crests of male screws 22a provided in the body portion 22 merely partially contact the screws 2e of the side walls 2a. Accordingly, it is preferable that the heights of the crests of and the depths of grooves of the screws 2e and the male screws 22a to be large.
- the convex jointing element 4 is held inside the cylindrical lower portion 3b by the spring 23 before construction panels P are jointed as shown in Fig. 6 (A).
- a driver having a long shaft is inserted through the open end of the cylindrical body 3 so as to insert in the recess 20a of the head 20 of the convex jointing element 4, thereafter the driver pushes the convex jointing elements 4 until the male screw 22a of the head 20 contacts the screw 2e of the concave jointing element 2.
- the convex jointing element 4 is turned so as to screw the male screw 22a and screw 2e until the lower surface 20b of the head 20 contacts a shoulder 3c of the cylindrical lower portion 3b so that the concave jointing element 2 is engaged with the convex jointing element 4, and hence the lower stage panel Pa and upper stage panel Pb are jointed with each other as shown in Fig. 6 (B).
- concave jointing element 2 and convex jointing element 4 upon completion of the engagement between the concave jointing element 2 and the convex jointing element 4, if there occurs a case that gaps 4x and 4y are defined as shown in these figures between the shaft portion 21 of the convex jointing element 4 and the cylindrical lower portion 3b, concave jointing element 2 and convex jointing element 4 respectively embedded into lower stage panel Pa and upper stage panel Pb can be adjusted even if they are slightly deviated in position at the front and back of the lower stage panel Pa and upper stage panel Pb so that concave jointing element 2 and convex jointing element 4 engage with each other without any obstruction.
- the screw 2e of the side wall 2a of the concave jointing element 2 extends vertically on the surface of the drawing, namely, they extend to the right and left of the construction panel P so that the deviation involved in the embedding of the convex jointing element 4 in the construction panel P to the right and left is not at all obstructed Further, it is possible to engage the convex jointing element 4 into one concave jointing element 2.
- the concave jointing element 2 may be cylindrical and the screws 2e provided in the side walls 2a may be formed of ordinary female screws.
- the gaps 4x and 4y of the construction panel P at the right and left may be slightly defined if the construction panels P are jointed with each other as shown in Fig. 6 (B) so that the positioning of the concave jointing members and the convex jointing members need to be correctly performed when they are manufactured in the mill.
- Fig. 7 shows another embodiment.
- Fig. 7 (A) is a sectional view showing a state where the upper stage panel Pb is placed on the lower stage panel Pa wherein the concave jointing element 2 and convex jointing element 4 are not engaged with each other. From this state, the driver, etc. inserted in the recess 14b is turned after the shaft 14 is pressed by an operation member such as a driver to push down convex jointing element 4 so as to permit a nail screw 14a provided at the upper portion of shaft 14 to contact the screw 3d provided at the cylindrical upper portion 3a.
- an operation member such as a driver to push down convex jointing element 4
- a state where the lower stage panel Pa and upper stage panel Pb are jointed with each other is shown in Fig. 7(B).
- it is preferable that at least one of concave/convex portions 25a and 2f may be formed of an elastic body.
- Fig. 8 shows another embodiment.
- the convex jointing element 4 comprises a body 26 accommodated in the cylindrical lower portion 3b of cylindrical body 3 and a shaft 27 which is attached to the upper portion of the body 26 so as to be turned freely.
- a screw provided on the outer periphery of the shaft 27 is screwed into a screw provided on the inner periphery of the cylindrical upper portion 3a of cylindrical body 3 so that they are held inside the cylindrical body 3.
- the body 26 has a hollow portion 26a at the lower half portion thereof since it is columnar and light weighted, it may be formed of a solid body having no hollow portion.
- Recesses 26b are defined on the body 26 at the opposing outer surfaces thereof.
- the concave jointing element 2 has a hollow portion for receiving a lower half portion of the body 26 of the convex jointing element 4 and has a box shaped body having the open end of cylindrical body 3 at the bottom surface thereof and which is embedded into upper end surface 1a of the panel body 1.
- the concave jointing element 2 has an elastically deformable protrusion 28 which protrudes from the inner surface of the box-shaped body at a position corresponding of the recesses 26b of the body 26 when the convex jointing element 4 is inserted into the concave jointing element 2 in a predetermined position.
- the driver is inserted from the open end of the cylindrical body 3 of the upper stage panel Pb after the upper stage panel Pb is placed on the lower stage panel Pa, then shaft 27 is turned to lower the convex jointing element 4 so as to engage the lower half portion of the body 26 into the hollow portion of the concave jointing element 2 of the lower stage panel Pa, thereby permitting the protrusion 28 to engage in the recess 26b.
- the shaft 27 is reversely turned by the driver to slightly raise the body 26 so that the concave jointing element 2 and convex jointing element 4 respectively firmly engage with each other, thereby jointing the lower stage panel Pa and upper stage panel Pb as shown in Fig. 8 (B).
- the body 26 of the convex jointing element 4 contacts the side surface of the concave jointing element 2 and the inner surface of cylindrical lower portion 3b at a jointing boundary 29 between the lower stage panel Pa and the upper stage panel Pb, and the protrusion 28 of the concave jointing element 2 and the recesses 26b of the body 26 inserted into the concave jointing element 2 are disposed to extend in the longitudinal direction of the panel body 1, the lower stage panel Pa and upper stage panel Pb which are jointed with each other by the concave jointing element 2 and the convex jointing element 4 operate effectively when they receive positive and negative moments at the jointing boundary 29.
- the protrusion 28 of the concave jointing element 2 may be formed of a separately prepared steel spring.
- the recesses 26b corresponding to the protrusion 28 provided in either of the concave jointing members and convex jointing members may be the concave/convex portions 25a and 2f as shown in Fig. 7.
- the concave jointing element 2 and the convex jointing element 4 may be formed of a synthetic resin, iron, nonferrous metal, ceramics, rubber, etc. Carbon fiber or glass fiber may be added for reinforcing the concave jointing element 2 and convex jointing element 4 or the fiber per se is hardened by a resin or a compound material will be used. Further, after the requisite portions are manufactured by a separate material, they are integrated with these jointing elements by an embedding means at necessary portions.
- concave and convex portions such as a collar, a protrusion, a recess or a groove may be provided on the concave jointing element 2 and the outer periphery of the cylindrical body 3 so as to firmly joint with the material of the panel body 1 when they are embedded in the panel body 1.
- Fig. 10 shows a different embodiment.
- the convex jointing element 4 in this embodiment is divided into two parallel legs at the lower portion of the body 31, and each protrusion 31a protrudes outward from the lower end of each leg.
- a bolt-shaped junction shaft 32 is fixed to the upper portion of the body 31, and a head 33 is screwed into the junction shaft 32. Since two legs are pressed into the cylindrical lower portion 3b of the cylindrical body 3 inner dimensions of which are small against the resiliency thereof so that the convex jointing element 4 is held inside the cylindrical body 3 as shown in Fig. 10 (A).
- the operation member is inserted through the open end of the cylindrical body 3 of the upper stage panel Pb to lower the convex jointing element 4 after the upper stage panel Pb is placed on the lower stage panel Pa, thereby permitting the head 33 to contact the shoulder 3c of the cylindrical lower portion 3b.
- each protrusion 31a of the leg of the body 31 is released in the recess 2h of the concave jointing element 2.
- a gap is defined between each protrusion 31a and recess 2h.
- the head 33 of the convex jointing element 4 is turned by the operation member, the body 31 is raised so that each protrusion 31a is brought into contact with the upper wall 20h of the recess 2h as shown in Fig. 10 (B).
- the concave jointing element 2 and convex jointing element 4 engage with each other, so that the lower stage panel Pa and upper stage panel Pb are jointed with each other.
- the rising of the body of the convex jointing element is performed by raising the shaft of the head, but it can be performed by the following embodiment.
- a bolt-shaped junction shaft 35 is fixed to the upper portion of the body 34 and a head 36 for raising the shaft is screwed into the junction shaft 35.
- a wing-shaped holding spring 34a is attached to the lower portion of the body 34.
- the holding spring 34a holds the convex jointing element 4 inside the cylindrical body 3 while the wing thereof is folded inside the cylindrical body 3.
- the convex jointing element 4 is pushed downward to permit the holding spring 34a to be inserted into the recess 2h of the concave jointing element 2 so that the holding spring 34a is released to spread its wing as shown in Fig. 11 (B).
- the body 34 is raised so that the tip end of the holding spring 34a contacts the upper wall of recess 2h of the concave jointing element 2.
- both the jointing elements 2, 4 engage with each other so that the lower and upper panels Pa, Pb are jointed with each other.
- the convex jointing element 4 is held inside the cylindrical body 3 by the resiliency of the holding spring 34a of the body 34, however, it is preferable that a spring 36b be attached to the head 36 to press the inner surface of the cylindrical body 3 to prevent the lower portion of body 34 from protruding through the panel body as shown in Fig. 11 (A). This may be provided in other embodiments, as the need arises.
- Shapes of the jointing member and convex jointing member employed by the present invention are not limited to those in the previous embodiments but may be of various ones.
- forked leg 37a provided at the lower portion of a body 37 of the convex jointing element 4 is respectively bent inward at the tip end thereof, and a protrusion 38 of the concave jointing element 2 has a recessed shape toward the bottom corresponding to the shape of the forked leg 37a, and holding hooks are respectively formed at the inner and outer surfaces of the forked leg 37a, outer surface of the protrusion 38 and inner surface of the concave jointing element 2 so as to enlarge the engaging area between both the jointing elements 2, 4, thereby enforcing the engaging force thereof.
- a spring 37b for preventing deviation is attached to the upper portion of the body 37 of the convex jointing element 4.
- an expansion portion 39a is provided under a body 39 of the convex jointing element 4 and a protrusion 40 is provided in the hollow portion of the concave jointing element 2 so that the concave jointing element 2 and convex jointing element 4 engage with each other when holding hooks formed on the inclined surface of the expansion portion 39a and the tip end of the protrusion 40 mesh with each other.
- a spring 39b for preventing deviation is attached to the upper portion of the body 39 of the convex jointing element 4.
- the hollow portion of the concave jointing element 2 has a dovetail shape, and a holding hook 2i provided at the inclined surface thereof which is enlarged toward the bottom surface thereof and another holding hook provided at the outer surface of a forked leg 41a provided at the lower portion of a body 41 of the convex jointing element 4 mesh with each other, so that the inserted convex jointing element 4 engages with the concave jointing element 2.
- a spring 41b for preventing deviation is attached at the upper portion of the body 41 of the convex jointing element 4.
- a protrusion 42a incorporated into a lower portion of a body 42 of the convex jointing element 4 is put into a recess 2j of the concave jointing element 2 by the resiliency of a spring 42b so that both the jointing elements 2, 4, engage with each other.
- a wedge-shaped holding hole 43a penetrating a body 43 is defined at the upper portion of the body 43 of the convex jointing element 4.
- At least the lower portion of the body 43 is made of an elastic material and it is divided into two legs 43c by a cut 43b. Outwardly protruding protrusions are provided on each of them, and each leg 43c is held in the lower portion 3b of the cylindrical body 3 in a state where each leg 43c is contracted.
- a hollow portion is defined in the concave jointing element 2 for receiving the lower portion of the body 43 of the convex jointing element 4 while it is released or spread at the lower portion thereof.
- the upper stage panel Pb is placed on the lower stage panel Pa, and an operation member is inserted from an open end of the cylindrical body 3 of the upper stage panel Pb to lower a shaft 44 so that the legs 43c of the body 43 of the convex jointing element 4 are released or spread in the hollow portion of the concave jointing element 2, and the outwardly protruding protrusions engage in the recess of the concave jointing element 2, as shown in Fig. 16 (B).
- each leg 43c of the body 43 of the convex jointing element 4 is determined by the elasticity of a material of the body 43, and also the shape of the hollow portion of the concave jointing element 2 is determined by the elasticity of the material of the body 43.
- the cut 43b may be omitted depending on the material of the body 43.
- a body 47 of the convex jointing element 4 engages in the concave jointing element 2, but both of them have no engaging means. Accordingly, the lower portion of the body 47 and the lower stage panel Pa engage with each other by inserting a wedge 48 which penetrates the concave jointing element 2 like the previous drawing. Meanwhile, the upper portion of the body 47 and the upper stage panel Pb engage with each other by a bolt 49 which penetrates the lower portion 3b of the cylindrical body 3. The lower and upper panels Pa, Pb are jointed with each other by way of the body 47 as set forth above.
- the jointing between the opposing construction panels will be next described.
- the jointing between the opposing panels aims to design the concave jointing element and convex jointing element economically, and to maintain the interval between the opposing panels. This is different from the conventional method using the frameworks in that the panels are embedded under the ground and hence the connecting rods cannot be provided by penetrating the panels according to the present invention.
- a first process of the method of jointing the construction panels of the present invention comprises providing the concave jointing elements 7 at the back surface of the panel body 1 and engaging the tenons 9a fixed to both ends of the connecting rods 9 in the dovetails of the concave jointing elements 7, as explained with reference to Fig. 1 to Fig. 3.
- the rotary holding member 15 as explained in Fig. 4 is employed at both ends of the connecting rods 9 and the construction may be carried out by the method shown in Fig. 1 to Fig. 3.
- a convex jointing element 51 provided at the back surface 1c of the panel body 1 is utilized
- the both ends of connecting rods 52 has concave jointing elements 53 respectively having dovetails.
- a concave jointing element 54 having a dovetail is also possible to use, as shown in the lower portion thereof.
- concave jointing members 55 are provided vertically on the panel body 1 at the back surface 1c. Also in this case, it is possible to use convex jointing members 56 which protrude from the back surface 1c of the panel body 1 and extend vertically.
- the jointing members may be respectively fixed type which is provided at proper positions of the back surface of the panel body.
- An example thereof is illustrated in Fig. 20.
- a method of engaging a ring-shaped connecting member 58 which is screwed into a turn buckle 57 serving as a jointing rod in an L-rod shaped jointing element 56 which is embedded into the back surface 1c of the panel body 1 and is exposed at the other end thereof and another method of screwing a connecting member 61 which is screwed into both ends of a jointing rod 60 into a rod-shaped jointing element 59 which is screwed therearound and is embedded into the back surface 1c of the panel body 1.
- Fig. 21 (A) shows a state where a tenon like that shown in Fig.
- a tenon 63 similar to that is inserted into a dovetail of the concave jointing member 7 embedded into the back surface 1c of the panel body 1, and a flat-plate shaped jointing element 65a having a hook portion at the tip end thereof is inserted into a wing bolt 64 of the tenon 63 and the wing bolt 64 is fastened by a wing nut 66.
- jointing members 65a and 65b are fixed to the panel body 1 by way of the concave jointing member 7
- the jointing members 65a and 65b may be fastened by the wing nut 66 by way of a bolt and a nut directly embedded into the panel body 1.
- the bolt it is preferable to use the bolt in the case of embedding nut.
- the embodiment shown in Fig. 22 comprises defining a cut 7a in the concave jointing member 7 provided at the back surface 1c of the panel body 1, inserting a clamp-shaped jointing member 67 into the cuts 7a of the panel bodies 1 and bridging thereover so as to joint the right and left panels P. Further, it comprises defining an insertion hole at the portion close to the center of the jointing member 67, and inserting a wing bolt 64 of a tenon 63 so as to be fastened by the wing nut 66 as shown in Fig. 21.
- the panel body 1 is rectangular, it is not limited thereto, and it is not limited to the use for construction of panels having one kind of shape.
- the rectangular panel P may be replaced by a cross panel P1, a modified cross panel P2, a convex panel P3, and also it may be replaced by combination thereof as shown in Fig. 23.
- Fig. 23 since the jointing boundaries in the lateral direction do not continue, the resistance against a bending stress is enhanced, and various patterns can be formed.
- the panel bodies of the aforementioned panels are all flat plate-shaped, they may be replaced by L-shaped panel bodies, and such L-shaped panel bodies form panels using various jointing elements, jointing members and connecting members, thereby making it possible to construct the structures by jointing these panels.
- An example of the L-shaped panel P used in a corner part is illustrated in Fig. 24.
- the panel P shown in this figure is for use in an inner corner, and an inverse L-shaped construction panel P may be used for an outer corner.
- the panels of the present invention are not limited to flat plate-shaped ones but they may be of any shape such as a curved panel which is formed by cutting a cylinder longitudinally as shown in Fig. 25, and they may be used for the outer or inner corners and for the construction of an outer wall-of a tank by combining them.
- a decorative layer 68 is not limited to an inner round surface side, but may be provided to an outer round surface side.
- Fig. 26 is a perspective view of a panel P according to another embodiment of the invention.
- the panel P of this embodiment comprises a frame body composed of upper and lower receiving plates 71 and of frames 72 for connecting these receiving plates 71 and a mesh body 73 made of metals or synthetic resin which is attached to the frame body.
- Each receiving plate 71 is made of metal or synthetic resin and has a channel-rail shape which is substantially U-shaped in cross section, namely, the concave jointing elements 2 each having an open end are arranged side by side on the upper end surface of the upper portion of the receiving plate 71, namely, at the upper end surface of the panel body.
- Each frame 72 is square and cylindrical and incorporates therein a cylindrical body, an accommodation box, and a convex jointing member.
- the upper and lower panels can be jointed with each other by various concave jointing members and convex jointing members as explained above. Since a square pillar body inserted into one end of each receiving plate 71 forms a convex jointing element 74, and another end thereof forms a concave jointing member wherein the square pillar body is fixed between the right and left receiving plates 71 by a wing nut 75, so that the right and left panels can be jointed with each other. Further, the opposing panel bodies are jointed with each other by a jointing rod 76.
- the mesh body 73 and the receiving plate 71 can be integrally manufactured by extrusion.
- the sectional shape of each receiving plate 71 and each frame 72 is not limited to U-shape but may be of a square pipe, a round pipe or an L-shape. Further, there are the L-shaped panel with reference to Fig. 24 and the cylindrical type panel with reference to Fig. 25 as the frame type panel.
- various shielding plates are frequently attached to the civil engineering structures
- the process of attaching the various shielding plates comprises filling concrete in a framework after providing the framework, drilling a hole in concrete body at proper positions after concrete is hardened, inserting an anchor into the hole and fixing it by an adhesive, etc., attaching the shielding plate to the anchor, and attaching an outer wall member, etc. onto the shielding plate, which takes much labor and construction time.
- the attachment of the outer wall member, etc. belongs to an inside construction, there is a drawback that a reliable construction in a narrow spot cannot be expected Since such construction takes much time and labor and also the work per se requires skilled technique, there occurs a problem that construction cost is high and the construction time is delayed together with latest shortage of skilled workers.
- a reservoir tank for storing therein moisture, cold and hot liquid, gas, and solid or structures which require attaching thereto members for preventing chemicals, radioactivity, noise, radio wave, vibration and which require shielding the influence by other factors are respectively constructed by the same manner as set forth above, the construction cannot be performed with reliability as designed, thereby leaking storage energy, influencing on the life of the structures, and of leading to high construction cost of the structures and of delaying of the construction time.
- FIGs. 27 to 30 examples of the construction panels to which the shielding plate is attached are illustrated in Figs. 27 to 30.
- a shielding plate F is attached to the back surface 1c of the panel body 1 shown in Fig. 1 except the portions where the concave jointing elements 7 are directly used.
- the method of assembling the construction panels P each having the shielding plate F is the same as the method of assembling the construction panels P which is explained with reference to Fig. 3, but the former is different from the latter in that a foaming or solid shielding plate F a is inserted into a shielding plate gap portions F 1 at the portion corresponding to the concave jointing elements 7 after the connecting rods 9 are connected with the opposing panels P.
- the method of attaching the shielding plate F to the panel body 1 comprises filling a material of the panel body 1 into the shielding plate F, or attaching the shielding plate F to the panel body 1 or attaching shielding plate F to the panel body 1 by screws, nails, etc. or using appropriate means.
- the shielding plate F is attached to the surface of the panel body 1 and a decorative plate may be fixed to the shielding plate F.
- the shielding plates F are attached to the back surfaces of the construction panels P set forth above.
- Each shielding plate F serves to shield energy emitted from moisture, cold or hot liquid, vapor, and solid, and heat-insulating member which are presently used serves as such shielding plate.
- Shielding plates are frequently and widely used for housings, storing facilities, etc.
- the present invention is also applied to the attachment of members for shielding radioactivity, radio wave, vibration, and also to the attachment of a solar battery plate, etc. to the wall surface.
- the surface of the construction panel P may have grain of concrete or that of a panel body, but a decorative plate E such as tile, glass, natural stone, bamboo, timber or brick, ceramic, mesh or the like which are conventionally used may be attached to the panel body for the purpose of enhancing external appearance of the construction panel or the shielding plate as set forth above may be used as the member.
- a decorative plate E such as tile, glass, natural stone, bamboo, timber or brick, ceramic, mesh or the like which are conventionally used may be attached to the panel body for the purpose of enhancing external appearance of the construction panel or the shielding plate as set forth above may be used as the member.
- the shielding plate F may be formed of iron, non-ferrous metal, resin, cement plate, rubber, paper, leathers, or woven cloth, non-woven cloth, a net formed of fibers made of inorganic material such as carbon and glass and organic material such as alamide, and the compound material thereof in addition to the material used in the decorative plate as set forth above. That is, as the material for the decorative plate and shielding plate, these materials are utilized independently or shielding plates of different materials are used in combination, or shielding plates are used in combination with the decorative plates set forth above, depending on the object of the panels.
- a joint F 2 which is formed when the panel is placed on the lower panel may be processed in the various processes. That is, as a first process, the shielding plates F contact each other at the end surfaces thereof. As a second process, either of an adhesive, a foaming adhesive, chemicals which react with water or other liquid is applied, or a joint material F b such as a packing is interposed between the panels so that it reacts with water or other liquid to stop the leakage of water adhere both panels, or leakage of water is stopped or both panels are adhered by welding both panels, if there is a space for welding.
- a cut space is formed in the longitudinal direction of the shielding plates F which contact each other vertically, and the shielding plates F are brought into contact by the aforementioned first and second processes, then a filling member F c which is a mixture of a solution of the material of panel body or shielding plate such as the foaming material, mortar, resin, rubber, lead, aluminum, and a material which is the same as or different from the solution set forth above is filled in the joint F 2 , thereby enhancing stopping of leakage of water or adhesion.
- the positions of the joint F 2 and cut space are not limited to the concave stage portion 1d or convex stage portion 1e of the panel body 1, and it is needless to say that the former may be deviated from the latter properly.
- Fig. 29 is a sectional view showing a state where the shielding plates F are mounted on the back surfaces of the opposing panels P, then these panels are assembled in the same manner shown in Fig. 3, and the filling material C is filled in these panels P.
- the filling material C in addition to concrete is used as the material of the filling member F c .
- Fig. 30 is a sectional view showing that three pieces of panels P are arranged in parallel with one another and which shows a state where an intermediate panel G is interposed between two panels P of Fig. 29.
- the intermediate panel G includes jointing members for jointing upper and lower panels P, and those for jointing the panels in lateral direction which are provided as the need arises, and concave jointing members jointing with the opposing panels, which are respectively provided at one side or both sides like the outer panels P.
- the intermediate panel G may be disposed at two or more sections between the outer panels P, and the shielding plate F may be provided at one surface or both surfaces thereof.
- the filling material C at right and left sides of the intermediate panel G is not limited to the same material but it may be different material between the right and left sides. In the case of providing a plurality of intermediate panels G, they may be made of the same materials as the various panel bodies set forth above or may be made of different materials, and further the jointing members may be partially omitted.
- the method of constructing the construction panels is performed in the same manner as the construction panel P shown in Fig. 3. That is, the left side concave jointing member of the intermediate panel G and the concave jointing member of the left outside panel P are jointed with each other with connecting rods after the lower stage left outside panel P and the lower stage intermediate panel G are respectively provided in this figure.
- the right side panel is constructed in the same method as the left side panel. However, the construction may start either from the left or right panel.
- the jointing between the connecting rods may start first or the jointing in the lateral direction may start later, which is however determined by the panels P. That is, if the construction panels P are jointed by the jointing members as shown in Fig. 1, the jointing in the lateral direction starts first, while if the construction panels P are jointed by the jointing members as shown in Figs. 21 and 22, the jointing in the lateral direction may start first or later.
- a convex/concave joint G a may be provided between the upper and lower end surfaces of the intermediate panel G to enhance the integration of the contact surfaces of the intermediate panel G, as shown in the figure.
- the filling material is filled in the panels after the right and left outside panels P and the intermediate panels G are assembled to reach given stages.
- the filling material is not filled in the construction panels depending on the object of the panels, thereby permitting the space between the panels to be vacant. Further, the materials of the construction panel P and shielding plate F, as set forth before, are used for those of the intermediate panel G and another shielding plate F g .
- a secondary shielding plate Fa which is the same as or different from the shielding plate F explained with reference to Figs. 27 and 28 is filled with a frame work material or foaming material after the construction panels P are decisively positioned by the connecting rods. It is needless to say that the shielding plate may be attached to the surface and/or back surface of the construction panel P shown in Figs. 1 to 26, as the need arises.
- jointing members for jointing the opposing panels or jointing the panel and a temporary member are respectively provided on the opposing surfaces.
- the jointing member for jointing the opposing panels is already explained with reference to Figs. 2 and 3, and hence the jointing of the panel and the temporary member will be now described hereafter.
- one side is constructed by panels P which are respectively decorated at the surfaces thereof and the other side which is not required to be attractive in appearance is constructed by a framework 80.
- the framework 80 is supported by round pipes 81 provided at the outside of the framework. Since the round pipes 81 are connected with the connecting rods 9 by way of a spectacle washer 82, the interval between the construction panel P and framework 80 is maintained correctly when concrete is filled therebetween. The framework 80 is removed upon completion of the concrete work operation.
- the shielding plate F is attached to the back surface 1c of the construction panel P as need arises.
- the shielding plate F having a regular size may be attached as it is, but it is preferable that small pieces of shielding plate Fa be used on the entire back surface 1c of the construction panel P.
- Such a shielding plate F may be attached not only to the back surface 1c of the construction panel P but to the front surface of the construction panel P or the back and front surfaces of the construction panel P.
- Such a shielding plate F may be applied to the construction panel P shown in Figs. 2 and 3.
- both sides are constructed by the panels P respectively decorated on the surfaces thereof.
- the construction panels P can be assembled as they are.
- an auxiliary member is used in case that the jointing between the concave jointing member and the convex jointing member is close to a pin connection, since the jointing portions are likely to deviate at the front or back thereof in such a case.
- the round pipe as the auxiliary member can be constructed as follows. For example, first, pipe-bases 91 are installed, then vertical round pipes 92 are provided upright on the pipe bases 91 while making them contact with the construction panel P.
- auxiliary member is temporarily constructed in the lateral direction as well as in the upper direction.
- the temporary construction of the auxiliary member may also start from the provision of the lateral round pipes 94.
- the auxiliary member is not limited to the round pipe but the shape thereof is selected from a square-shape, H-shape or L-shape or other appropriate shapes, and it may be used at one side alone, depending on cases, separators may be omitted depending on the kind of the auxiliary member or that of the jointing member.
- the panel bodies are assembled in the same method as explained in Fig. 3.
- reinforcing members such as reinforcements and reinforcing fibers are embedded in the panel body, since the panel body 1 is of a pre-cast concrete or product similar thereto and it is advantageous that a thickness of the panel body is as thin as possible particularly when concrete is filled between the opposing panels.
- the panel body is formed of a building material such as a mesh, a metal mesh, woven cloth, non-woven cloth, timber, iron, non-ferrous metal, stone, ceramic, leather in addition to concrete.
- a decorative layer is made by finishing mortar alone, by sticking stone such as marble or granite, or by sticking tiles or finishing by terrazzo-mix using building materials set forth above, or the like.
- the material thereof may be of various synthetic-resins and of various metal materials, but particularly an optimum material as the material of the jointing member is selected from the various synthetic resins, considering a tensile strength required by the construction, the expected amount of positional deviation between the jointing members.
- the concave jointing members are provided at the upper end surface of the panel body and the convex jointing members are provided on the lower end surface of the panel body, they may be provided vice-versa.
- Each member of the jointing members set forth in the above embodiment is exemplified but it may be replaced by other known members which serve the same operation.
- the utilization of the dovetail and tenon provided in the jointing member or the connecting member is explained, but the dovetail may be replaced by a C-shaped channel and the tenon is replaced by a T-shaped member in cross section, or a C-shaped engaging portion may be formed of a wall and L-shaped member by embedding one side of the L-shaped member into the back surface of the panel body.
- Figs. 33 to 39 are a first type jointing elements, wherein the convex jointing members are manually pressed downward to engage with the concave jointing members, and thereafter some operations are performed so as to joint upper and lower panels with each other.
- the upper stage panel Pb is placed on the lower stage panel Pa, then the convex jointing element 4 which is held in the cylindrical body 3 by the screw 23 is pressed downward by operation member and there after a screw shaft 101 is raised by turning the head 20 by the operation member. Since the screw shaft 101 penetrates a body 100 of the convex jointing element 4, and a leg 103 provided at the lower portion of the body 100 is spread when a lower end conical portion 102 rises, so that the spread leg 103 contacts a tapered surface of the concave jointing element 2, and hence two panels Pa and Pb are jointed with each other as shown in Fig. 33 (B). Meanwhile the body 100 is made of an elastic material.
- the upper stage panel Pb is placed on the lower stage panel Pa, then the convex jointing element 4 which is held by the cylindrical body 3 by the screw 23 is pressed downward by an operation member and thereafter a screw shaft 101 is raised by turning the head 20 by the operation member.
- the tip end of the body 100 of the convex jointing element 4 and the tip end of the screw shaft 101 are respectively fixed by a holding member 104, the body 100 made of an elastic material expands in the concave jointing element 2, and hence two panels Pa and Pb are jointed with each other as shown in Fig. 34 (B).
- a bolt 105 is turned by an operation member. Since the bolt 105 passes through a pipe 107 which penetrates a body 106 of the convex jointing element 4, then it is screwed into a nut 108 fixed to the tip end of the pipe 107, a bending portion 107a provided at the lower portion of the pipe 107 expands in the concave jointing element 2 as the bolt 105 turns, and hence two panels Pa and Pb are jointed with each other as shown in Fig. 35 (B). A portion denoted by ⁇ h of the lower stage panel Pa shown in Fig. 35 (A) may be omitted.
- the convex jointing element 4 is pressed downward to insert a hook member 111 attached to the tip end of a shaft 110 into the concave jointing element 2. Thereafter, the shaft 110 of the convex jointing element 4 is turned by an operation member.
- the 110 has a screw provided thereon and a plate 112 screwed in this screw and the hook member 111 are respectively fastened to stepped portions 113 and 114. At this time, the fastening is not performed if the plate 112 is turned.
- a spring 112a is provided on the plate 112 to prevent it from being turned by strengthening the friction between itself and the wall surfaces, or the plate 112 has a shape other than a circular shape and the wall surface has a shape conforming to such shape of the plate 112. Meanwhile, they may be fastened by a plate 115 and the hook member 111 without providing the plate 112.
- a bag body is utilized. That is, as shown in Fig. 37 (A), an enlarged recess 120 is formed in the concave jointing element 2 and a bag body 130 is attached to the lower portion of the body 4a of the convex jointing element 4.
- a filling pipe 131 communicates with the bag body 130 through the upper portion of the cylindrical body 3. After the upper stage panel Pb is placed on the lower stage panel Pa, the body 4a of the convex jointing element 4 is pressed downward along the filling pipe 131 and inserted into the concave jointing element 2, as shown in Fig. 37 (B).
- the filling material C is introduced through the filling pipe 131, so that the bag body 130 is expanded in the enlarged recess 120, as shown in Fig. 37 (C).
- two panels Pa and Pb are jointed with each other.
- Denoted by 122 is an air discharge hole for escaping air as the filling material is introduced
- the jointing between the upper stage panel Pb and convex jointing element 4 may be performed by a nut which screws into a screw provided at the head of the filling pipe 131 in the same manner as shown in Figs. 33 to 36.
- a bag body is also utilized.
- the bag body 130 is made of a flexible material which is different from or the same as that of the body 4a of the convex jointing element 4, and the former is integrated with the latter. Irregularities are formed on the inner surface of the concave jointing element 2.
- the jointing procedure is the same as the previous embodiment, that is, after the upper stage panel Pb is placed on the lower stage panel Pa, the body 4a of the convex jointing element 4 is pressed downward into the concave jointing element 2 by the upper filling pipe 131, thereafter the filing material C is introduced through the filling pipe 131 so that the bag body 130 is expanded in the concave jointing element 2 as shown in Fig.
- the bag body 130 is made of a material which is different or the same as that of the body 4a, and the former is separately made from the latter.
- two panels are jointed with each other in the manner that the surfaces of the panel bodies where two panel bodies contact or a part of surfaces where the concave jointing element and convex jointing element contact is thermally melted, then the contacting surfaces are cooled to joint two panels or contacting surfaces are connected with each other by an adhesive to joint two panels.
- the method of constructing this embodiment is as follows. First, the lower end surface of the upper stage panel Pb is brought into contact with the upper end surface of the lower stage panel Pa in the same manner as the previous embodiment.
- a handle 140h fixed to the upper portion of the body 4a of the convex jointing element 4 is pressed downward manually or by an operating rod from the upper portion of the upper stage panel Pb so that the body 4a engages in the concave jointing element 2 as shown in Fig. 39 (B).
- a known Nichrome wire may be used or those made of a mixture of rubber, silicon or carbon particles (used for electrothermic carpet, etc.) may be used. Since a cylindrical lower portion 4e and the concave jointing element 2 are made of resin, when heat is generated in the electrothermic plates, contacting portions 140j, 140j between electrothermic plates 140i, 140i and the contacting portions 141j, 411j, 141j between the electrothermic plates 141i, 411i and 141i are respectively melted by heat and these contacting portions are in a state to be adhered, while if the current is cut off in this state to cool the contacting portions, the contacting portions are adhered to each other, thereby jointing the concave jointing element 2 and convex jointing element 4.
- This embodiment can be variously modified.
- a wire is routed in the cylindrical shaft 44 of the construction panel shown in Fig. 16, etc. and the shaft 44 is pressed downward to joint the concave jointing element and convex jointing element with each other, thereby making the handle 140h unnecessary.
- the concave jointing element 2 and the body 4a may engage with each other in a state where they contact each other, and they are jointed by an electrothermic plate 142i provided at the lower portion of the body 4a, or the protrusion 140d may be omitted.
- the concave jointing element 2 and convex jointing element 4 are made of other materials, resin may be attached to a surface where the concave jointing element 2 and the convex jointing element 4 contact the electrothermic plate. Further, the electrothermic plate may be provided between the surfaces of the panels where they contact each other. An adhesive may be used instead of the electrothermic plate. The jointing plate may be provided at both end surfaces of the panels by the electrothermic plate or adhesive.
- Figs. 40 to 44 are a second type jointing elements, in which the convex jointing element is embedded into the lower portion of the panel body so that the jointing portion of the convex jointing element protrudes from the lower end surface while a concave jointing element is embedded into the upper end surface of the panel body at the position corresponding to the convex jointing element, thereby jointing the upper and lower panels with each other.
- the concave jointing element 2 and the convex jointing element 4 having the same function as those shown in Figs. 8 and 9 are used.
- the different point is that a portion to be embedded 151 of the convex jointing element 4 is embedded into the lower portion of the panel body 1, and an anchor collar 152 having an appropriate shape is provided for enforcing the convex jointing element 4, as the need arises.
- a bottom plate corresponding to the convex jointing element 4 is provided in the concave jointing element 2.
- Protrusions 28 of the concave jointing element 2 are separately provided from the concave jointing element 2.
- the embodiment shown in Fig. 41 is an applied example of that shown in Fig. 7.
- a horizontal holding pawl 153 or a perpendicular holding pawl 154 is provided on the inner surface of the concave jointing element 2 which is embedded into the upper portion of the panel at the position corresponding to the convex jointing element 4, while a horizontal pawl 155 or a perpendicular holding pawl 156 is provided on the convex jointing element 4 corresponding to the holding pawls 153 or 154.
- the convex jointing element 4 is hollow and is elastically deformable.
- the holding pawls 153 and 155 of the concave jointing element 2 may be provided at both sides thereof.
- the concave jointing element 2 and the convex jointing element 4 having the same function as those shown in Figs. 13 and 14 are employed.
- the concave jointing element 2 and the convex jointing element 4 in Fig. 42 (A) are respectively halved.
- Holding pawls 157, 158 and 159 are respectively provided in the concave jointing element 2, as the need arises, and holding pawls 160, 161 and 162 are respectively provided in the convex jointing element 4, as the need arises.
- the two panels are jointed with each other by two operations.
- the concave jointing element 2 has a box shape and the bottom surface of a hollow portion 170 thereof is enlarged in trapezoidal shape to form a dovetail-shaped recess 171, and a part of the box is cut to form a guide passage 172.
- the convex jointing element 4 has a tenon-shaped protrusion 174 which is enlarged in a trapezoidal shape at the tip end of a body 173 thereof.
- the body 173 of the convex jointing element 4 which protrudes from the lower end of the panel Pb is inserted into the hollow portion 170 of the concave jointing element 2 along the guide passage 172 of the lower stage panel Pa, then the body 173 is moved to the right and left of the panel body 1 so that a protrusion 174 and the recess 171 of the concave jointing element 2 engage with each other.
- the engagement operation between these concave jointing element 2 and the convex jointing element 4 the upper and lower panels Pa and Pb are jointed with each other. According to this method, since concave jointing element 5 and convex jointing member 6 shown in Fig.
- crescents 175 and 176 as shown in Fig. 43 are used, or another method for jointing the right and left panels at the back surfaces of the panel bodies 1, described later, may be employed.
- the concave crescent 175 and the convex crescent 176 are respectively fixed to the concave jointing elements 7 by a tenon 177, a bolt 178 and a wing nut 179, but they may be fixed directly to the panel body 1 by a bolt and a nut without resorting to the concave jointing member.
- the jointing method comprises permitting the right and left end surfaces of the adjoining panels to be brought into contact with each other, then turning the convex crescent 176 to engage the tip end thereof into the hole of the concave crescent 175, and fastening them by the wing nut 179.
- a known crescent which is used for a wind frame can be used.
- the embodiment shown in Fig. 46 is an applied example of the jointing method shown in Fig. 17.
- the convex jointing element 4 is fixed to the panel body at the upper portion thereof, and has a hole having a proper shape in which a wedge 180 is inserted around the tip end thereof.
- the wedge 180 may have a proper shape such as a tapered shape, a hook shape, a rod shape or a screw shape.
- the jointing procedure is as follows. First, the upper stage panel Pb is placed on the lower stage panel Pa, then one or more than two of the convex jointing elements 4 which protrude from the lower end surface of the upper stage panel Pb enter the concave jointing element 2 provided at the upper end surface of the lower stage panel Pa.
- the wedge 180 is inserted into the hole 181 defined in the panel body 1 and the concave jointing element 2 of the lower stage panel Pa or that defined in the lower stage panel Pa and then fixed to the hole of the convex jointing element 4.
- the hole 181 has a laterally lengthwise shape, and the surfaces of the panels Pa and Pb and the lateral direction thereof are respectively dusted by the hole 181, thereafter they are fastened by a nut 182. Since there is a gap between the concave jointing element 2 and the convex jointing element 4, they can be adjusted by the gap. If there is a stage or difference between the back surfaces of the lower stage panel Pa and upper stage panel Pb, a packing 183 may be interposed in the stage or difference.
- a jointing rod 184 like the attaching members 11 in Fig. 2 may be used to enforce the jointing between the upper and lower panels Pa and Pb.
- the positional adjustment between the upper and lower panels Pa and Pb may be used in the jointing methods which have been already described or will be described later.
- Fig. 47 to Fig. 52 are a third type jointing elements, wherein the concave jointing member is embedded into the upper end surface or the lower end surface of the panel body 1, then a convex jointing element 4 is fixed to either of the concave jointing element on the upper end or lower surface of the panel body to protrude therefrom at the side, thereby forming the convex jointing element, and thus formed convex jointing element and another concave jointing element of another panel engage with each other to joint the panels.
- This type of jointing element is excellent in that conveyance and storage of the panels are easy, and that the lower stage panel can be jointed with the upper stage panel by merely hanging and lowering the upper stage panel.
- Fig. 47 which are applied example of those shown in Figs. 8, 9 and 40, wherein the function and material of the former is the same as those of the latter.
- the concave jointing element 2 having the same shape is embedded into the upper end surface or the lower end surface of the panel body 1 at one section or more than 2 sections.
- the directions of recesses 200 of a convex jointing element 4' are differentiated along the boundary of the center line a for preventing the convex jointing element 4' from being dropped when the convex jointing element 4' engage in the concave jointing element 2.
- the convex jointing element 4' engage in the concave jointing element 2 of the upper stage panel Pb to form the convex jointing element 4 as shown in Fig. 47 (B)
- the convex jointing element 4 and the concave jointing element 2 of the lower stage panel Pa engage with each other to joint the upper and lower panels Pa and Pb with each other.
- the embodiment shown in Fig. 48 is an applied example of the jointing member shown in Fig. 47 and Fig. 14.
- the concave jointing elements 2 respectively used for the lower stage panel Pa and the upper stage panel Pb are different from each other in shape. Even if the concave jointing elements 2 used in the upper end surface and lower end surface of the panels may have different shapes, the convex jointing element 4 is formed by using the convex jointing element 4' having the shape corresponding to the shapes of the concave jointing elements 2.
- the embodiment shown in Fig. 49 is an applied example of the jointing member shown in Fig. 16.
- the concave jointing element 2 and the convex jointing element 4' in this embodiment are circular in horizontal section.
- a body 210 of the convex jointing element 4' comprises an upper portion 211 and a lower portion 212 which are respectively separately provided, wherein the outer periphery of the upper portion 211 having a male screw is screwed in a female screw of the lower portion 212.
- These upper and lower portions 211 and 212 may have the same or different material.
- Such a convex jointing element 4' is screwed into a concave jointing element 2' which is attached to the lower portion of the panel body 1 to form the convex jointing element 4.
- the lower portion 212 of the convex jointing element 4 engages in the concave jointing element 2 of the lower panel, so that a recess 213 and a protrusion 214 engage with each other to joint the upper and lower panels.
- a screw is not provided on the inner wall of the concave jointing element 2' of the upper stage panel Pb, but a filling space 214 is provided between the upper portion 211 of the convex jointing element 4' and the inner wall of the concave jointing member 2', and further a filling hole 215 communicating with the filling space is provided from the outside.
- the filling material C is introduced into the filling space 214 through the filling hole 215 so that the hardened filling material C engages with the male screw 211a of the upper portion 211 of the convex jointing element 4' to fix the convex jointing element 4' to the concave jointing element 2'.
- the filling material C may be the same as that explained in Fig. 37 or may be replaced by an adhesive.
- a protrusion 217 of the concave jointing element 2 engaging with a recess 216 of the convex jointing element 4 is separately manufactured.
- the upper portion 211 of the convex jointing element 4' is fixed to the inner surface of the concave jointing element 2' by an adhesive.
- the lower portion 212 of the convex jointing element 4' has an elastic leg 220, and the holding pawl provided at the tip end thereof and a holding pawl 222 of the concave jointing element 2 engage with each other so that the convex jointing element 4 and concave jointing element 2 are jointed with each other.
- the convex jointing element 4' may be provided in the concave jointing element 2' which is directly formed on the panel body 1 without using a molded concave jointing element 2'.
- jointing members The shape and function of the jointing members are explained by exemplifying the first to third types of jointing elements. Although all the combinations thereof are not illustrated, it is possible to use all types of jointing elements by appropriately combining them.
- a pawl 300a provided at the lower end of an attaching member 300 engages with a pawl 302 provided at the molded product 301 constituting a dovetail of a concave jointing member at the back surface of the lower stage panel Pa.
- the attaching member 300 serves as the jointing member of the upper and lower panels Pa and Pb, and can restrain the lower end of the attaching member 300 from moving downward or upward when it receives a positive or a negative bending moment at the jointing boundaries between the back surfaces of the upper and lower panels Pa and Pb, so that it can withstand against the bending stress which the upper and lower panels Pa and Pb receive.
- the attaching member 300 alone may be used without using the concave jointing element 2 and the convex jointing element 4 or the concave jointing element 2 and the convex jointing element 4 and the attaching member 300 may be used together.
- a decorative layer M which is formed by sticking tiles is provided on the surfaces of the upper and lower panels Pa and Pb.
- the attaching member 300 is fixed to the panel body 1 by a bolt 304 which is embedded into a tenon 303 which engages in the dovetail of the concave jointing elements 7, if it is fastened by an eye nut 305, the opposing panels can be jointed with each other by a jointing rod 306 by way of an eye hook and the like as a joint.
- An attaching member 310 in this example is fixed to the dovetail of the concave jointing elements 7 of the upper stage panel Pb by a tenon 311 and a wing nut 312, and it is brought into close contact with the back surface of the panel body 1.
- a recess 313 is provided on a pillar like the convex jointing element 4 shown in Fig. 8.
- a bottomless box body 317 provided with a protrusion 316 like the concave jointing element 2 shown in Fig. 8 is attached to the back surface of the panel body 1 by a tenon 314 inserted into a dovetail of a concave jointing elements 7' of the lower panel Pa and by a wing nut 315.
- the attaching member 310 and box body 317 may be directly attached to the panel body 1 by a bolt, etc. without using one of or both of the concave jointing elements 7 and 7'.
- the recess 313 of the attaching member 310 and the protrusion 316 of the box body 317 engage with each other. Accordingly, even if the jointing boundary between the upper and lower panels Pa and Pb receive a large negative moment, it can cope with such moment since the attaching member 310 is brought into close contact with the back surfaces of the upper and lower panels Pa and Pb and the recess 313 and protrusion 316 engage with each other.
- a step portion 318 is provided at the middle portion of the attaching member 310 in the vertical direction, and the attaching member 310 engages in the box body 317 so that the step portion 318 contacts an upper side end surface 319 of the box body 317, it is possible to restrain the attaching member 310 from being moved downward particularly when the attaching member 310 receives a positive moment.
- a horizontal concave jointing member or a tenon is provided on the back surface of the panel body 1 at one section or more than two sections
- the position of these members are not limited thereto but they may be provided at one or more than two sections in the perpendicular direction.
- the box body 317 and attaching member 310, or a jointing rod may be provided at upper and lower ends thereof, as the need arises.
- respective members may be provided at one or more than two sections and the horizontal and perpendicular directions thereof may be combined with each other.
- Fig. 56 shows a method of jointing right and left panels. That is, a convex jointing member 62a having a shape of tenon is provided on a side surface end of one side or both sides of a construction panel P, then a convex jointing element 4 is provided at the lower end thereof. A groove-shaped convex jointing member 62 is fixed to the side surface end of another construction panel P. Further, a concave jointing element 2 is provided on the central upper end surface of the panel body 1. When adjoining construction panels P are jointed with each other, the convex jointing member 62a and the convex jointing element 4 provided thereunder respectively engage in the groove of the convex jointing member 62.
- the convex jointing element 4 and the concave jointing element 2 are jointed with each other by elastic operation.
- the assembling method is limited to a zigzag arrangement.
- the concave jointing element 2 is provided on the upper end of the convex jointing member 62, the through joint can be assembled Accordingly, it is possible to assemble various joint patterns by combining a plurality of concave jointing members and convex jointing members. Further, it is also possible to use the panel alone which panel has the convex jointing member 62 having the concave jointing element 2 at the upper end thereof and the convex jointing member 62a.
- the upper and lower panels are jointed with each other using the concave jointing members provided at the back surface of the panel body.
- An attaching member 320 having a trapezoidal expanded portion 320a provided at the lower end of the pillar shaped body portion is prepared.
- the attaching member 320 is inserted into a bolt 322 of a tenon 321 which is also inserted into a dovetail of the concave jointing member, not shown, and it is fastened by a wing nut 323, then it is fixed to the panel body.
- a fixing member 324 having a recess 324a for receiving the expanded portion 320a of the attaching member 320 is prepared. When the attaching member 320 engages in the fixing member 324, the upper and lower panels are jointed with each other by the engaging operation between the recess 324a and the expanded portion 320a.
- Attaching members which have been explained with reference to Figs. 53 to 57, also serve to joint upper and lower panels.
- Fig. 58 is a perspective view of a construction panel P according to another embodiment.
- the construction panel P of this embodiment comprises a framework composed of upper and lower receiving plates 341 and frames 342 for connecting the upper and lower receiving plates 341 and a mesh body 343 made of metal or synthetic resin is attached to the framework.
- Each of the upper and lower receiving plates 341 is made of metal or synthetic resin and has a U-shaped channel rail shaped in cross section, concave jointing means 344 are defined on the upper surface of the upper receiving plate 341, namely, on end edge surface of the construction panel P wherein the concave jointing means 344 are arranged in parallel with each other to be opened, while convex jointing means 345 are fixed to the lower surface of the lower receiving plate 341 by bolts 346 at the positions corresponding to the concave jointing means 344.
- Pillar-shaped bodies 347 inserted into respective ends of the upper and lower receiving plates 341 form convex jointing means for connecting right and left panels, while the other respective ends of the receiving plates 341 form concave jointing means, wherein the pillar-shaped bodies 347 are fixed by wing nuts 348 by way of grooves 347a which are provided depending on the necessity.
- the opposing panels are jointed with each other by jointing rods 9.
- the mesh body 343 and the receiving plates 341 can be formed integrally by molding.
- the lower portion 350 of the convex jointing element 4 is pillar-shaped and has recesses 350a and also has protrusions 350b. Ribs 360a protrude from the pillar-shaped upper portion 360 of the convex jointing element 4.
- the concave jointing element 2 is a bottomless box and protrusions 371 protrude from the inner surface of the hollow portion 21 of the concave jointing element 2.
- the concave jointing element 2 is fixed to the back surface of the panel body 1 in the same manner as set forth above by a tenon 381 and a wing nut 382 utilizing the concave jointing elements 7.
- the concave jointing element 2' is a box having a bottom and it is fixed to the back surface of the panel body 1' likewise by a tenon and a wing nut.
- the lower portion 350 of the convex jointing element 4 is inserted into the recess of the concave jointing element 2 attached to the lower stage panel Pa until the protrusions 350 of the lower portion 350 contacts the upper end surface 372 of the concave jointing element 2, so that the recesses 350a engage with protrusions 371, thereby engaging the concave jointing element 2 with the convex jointing element 4.
- the upper stage panel Pb is lowered to insert the concave jointing element 2' attached to the upper stage panel Pb into the protruding upper portion 360 of the convex jointing element 4, then a filling material is introduced through a grout introduction hole 361 and hardened, so that the upper and lower concave jointing elements 2 and 2' engage with each other by way of the convex jointing element 4.
- the upper and lower panels Pa and Pb are jointed with each other.
- the lower portion 350 may be inserted into the concave jointing element 2 after the upper portion 360 of the convex jointing element 4 engages in the concave jointing element 2' in advance while the gap therebetween is filled with the filling material.
- Figs. 54 to Fig. 59 explain an example of first to third types of jointing elements, they can be variously selected and independently used or used in combination together with the first to third types of jointing elements. Further, a shielding plate or a decorative plate may be provided. Accordingly, it is needless to say that the techniques which are explained with reference to Figs. 1 to 59 can be selected and combined with one another depending on the condition of the site, and they can be modified appropriately within the scope of the technical concept.
- the construction panel P of the present invention can be easily assembled, and the jointing strength between panels is high, and hence they can be suitably used for the walls surrounding buildings, outer and inner walls or partition walls of buildings, supporting walls, and also for construction of concrete structures such as engineering buildings.
- the advantage for constructing the panels of the invention is to joint the upper and lower and right and left and opposing panels with one another simply and quickly without using instruments or auxiliary material and without resorting to skilled workers, and to assemble the panels with high accuracy and precision, since the jointing members and connecting members engage with one another, thereby enhancing economical effect.
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Abstract
A structure panel comprises a concave connection member
(2) embedded in an upper end surface of a panel body (1), a
cylinder body (3) internally provided to extend from a bottom
surface of the concave connection member to a lower end surface
of the panel body, and a convex connection member (4) held in the
cylinder body. After the panels are arranged vertically, the convex
connection member held in the cylinder body of the upper-stage
structure panel is made to descend to engage with the concave
connection member of the lower-stage structure panel. Thus the
upper and lower panels can be connected to each other.
Accordingly, it is possible to perform installation in a short time
without the need of skilled worker's skill and labor, obtain a
structure of great strength and provide a clean finished face.
Description
- The present invention relates to panels for construction (hereinafter referred to as construction panels) which are used for walls surrounding buildings, outer and inner walls or partition walls of buildings, supporting walls, and also for concrete structures such as engineering buildings and a method of jointing the same.
- For construction of the above-mentioned structures, there has been conventionally taken a method comprising assembling frameworks, filling up concrete in the frameworks, removing the frameworks, sticking decorative material such as tiles onto the surface of concrete or finishing the surface of concrete with mortar, as the need arises. There has been taken another method comprising preparing concrete blocks or pre-cast concrete, inserting reinforcement in hollow portions thereof, and assembling them.
- However, the conventional method using such frameworks has problems that firstly it reads assembling and disassembling works; secondly, a finishing work has to be performed by tiles, etc., by making the surface of concrete fine or beautiful, thereby requiring much time and labor; thirdly, the work per se requires skilled technique, thereby leading to high construction cost, and delay of the construction together with latest shortage of skilled workers.
- Further, the conventional method using concrete block and pre-cast concrete requires time for positioning these members, which causes another problem that working efficiency is deteriorated and the construction invite danger because of handling heavy objects. Still further, finished moats and supporting walls frequently expose the ground of concrete, which causes still other problem that the surface of concrete becomes blackish by contamination caused by exhaust gas of automobiles, by the sticking of mold and moss caused by moisture, which spoils the beauty of the construction and is difficult to remove.
- Accordingly, it is an object of the invention to provide construction panels capable of constructing structures in a short time, of achieving the structures of high rigidity and of finishing surfaces of structures finely without requiring technique of skilled person and time and labor, and a method of jointing the same.
- To achieve the above objects, the construction panel of the present invention is characterized in comprising a pair of jointing elements provided on a panel body at upper, lower and back surfaces thereof for jointing panels for construction which are piled vertically, wherein one jointing element is a concave jointing element and another concave member is a convex jointing element.
- One jointing element is a box-shaped concave jointing element and another jointing member is a pillar-shaped convex jointing element. In this case, each of the pair of jointing elements comprise a concave jointing element which are provided on the panel body at upper and lower end surfaces thereof in advance, and wherein one jointing element is a concave jointing element as it is while another jointing element is a convex jointing element which is formed by fixing a separately prepared convex jointing element to said concave jointing element so as to protrude therefrom.
- As another example, cylindrical bodies are provided to extend from the bottom surface of said concave jointing element to a lower end of said panel body, and convex jointing elements disposed inside said cylindrical bodies for engaging with concave jointing element of lower stage panel.
- Further, the construction panel of the present invention further comprises a jointing plate provided at either surface where the concave and convex jointing elements contact or at one of or both surfaces where one panel body contacts another panel body. Still further, connecting members may be provided for connecting opposing construction panels or for connecting the consecution panel with a temporary member. Further, a jointing element and/or jointing plate may be provided for jointing construction panels which adjoin with each other in a lateral direction.
- The construction panel of the present invention is not limited to the flat-plate shape but it my be L-shaped or curved, and the panel body may be formed of a framework. Further, a shielding plate may be mounted on said panel body at one of or both of front and back surfaces of said panel body, and a decorative plate may be mounted on a front surface of said panel body.
- The method of jointing construction panels according to the present invention is characterized in comprising preparing a pair of jointing elements provided on a panel body at upper, lower and back surfaces thereof for jointing panels for construction which are piled vertically, wherein one jointing element is a concave jointing element and another jointing element is a convex jointing element, placing an upper stage panel on a lower stage panel so that end surfaces thereof flush with each other, and engaging the concave jointing element with said convex jointing element so as to joint the upper stage panel and lower stage panel.
- Concretely, the method comprises preparing panels for construction comprising a pair of jointing elements each composed of a box-shaped concave jointing element and a pillar-shaped convex jointing element, and engaging said convex jointing element with said concave jointing element so as to joint said upper stage panel with said lower stage panel.
- Alternatively, a concave jointing element is embedded in an upper end surface of said panel body, and a cylindrical body is provided in said concave jointing element which extends from a bottom surface of said concave jointing element to said lower end of said panel body, and a convex jointing element is provided in said cylindrical body, placing said upper stage panel and lower stage panel vertically, and lowering the convex jointing element provided in the cylindrical body of the upper stage panel to engage in the concave jointing element of the lower stage panel so as to joint the upper stage panel with lower stage panel.
- Still alternatively, a pair of jointing elements each composed of a box-shaped concave jointing element and a pillar-shaped convex jointing element, and a jointing plate provided on the concave and convex jointing elements at either portion where said concave and convex jointing elements contact each other, or at one of or both of portions where adjoining panel bodies contact each other so as to joint the upper stage panel with lower stage panel.
- In either of the methods set forth above, the opposing construction panels or the construction panel and a temporary member are connected with each other by jointing members provided at the back surface of the panel body. Further, the panels which adjoin with one another in a lateral direction are jointed with one another by jointing members or jointing plates which are provided at both lateral ends or at neighboring portions thereof. More still further, the panels are assembled with one another with assistance of temporary member of the panel body. Further, a filling material is filled between the opposing panels for construction.
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- Fig. 1 is a perspective view showing an example of a construction panel according to the present invention, Fig. 2 is a perspective view showing a state where construction panels in Fig. 1 are assembled, Fig. 3 is a vertical sectional view of the construction panels which are assembled.
- Fig. 4 is perspective views of one example of convex jointing members.
- Fig. 5 is a sectional view for explaining an example of jointing upper and lower construction panels by concave and convex jointing members.
- Figs. 6 to 17 are sectional views showing concave and convex jointing members according to other embodiments of the invention.
- Figs. 18 to 20 are perspective views for explaining a method of jointing opposing construction panels.
- Figs. 21 and 22 are perspective views for explaining a method of jointing right and left construction panels.
- Fig. 23 is a view for explaining an assembling pattern according to another example.
- Fig. 24 is a perspective view showing an example of an L-shaped construction panel.
- Fig. 25 is a perspective view showing an example of a curved construction panel.
- Fig. 26 is a perspective view showing an example of a construction panel formed of frames.
- Fig. 27 is a perspective of a construction panel having a shielding plate as viewed from the back thereof, a portion of which is cut off.
- Fig. 28 is a perspective sectional view showing a main portion of the state where construction panels each having a shielding plate according to another example are assembled.
- Figs. 29 and 30 are sectional views each showing the state where construction panels each having a shielding plate according to still another examples are assembled.
- Fig. 31 is a perspective view for explaining a method of jointing construction panels and temporary members opposing the construction panels.
- Fig. 32 is a perspective view showing an example where the construction panels are constructed using auxiliary members in a state where the auxiliary members and construction panels oppose one another.
- Figs. 33 to 39 are views for explaining respectively a first type jointing member.
- Figs. 40 to 44 are views for explaining respectively a second type jointing member.
- Fig. 45 is a sectional view showing an applied example of concave and convex jointing members in Fig. 5.
- Fig. 46 is sectional and rear views for explaining a method of jointing construction panels to which the jointing method of Fig. 17 is applied.
- Figs. 47 to 52 are views for explaining respectively a third type jointing member.
- Fig. 53 is a sectional view showing a method of reinforcing jointed upper and lower panels using an attaching member.
- Fig. 54 is perspective views showing the attaching member, and Fig. 55 is a perspective view for explaining a method of reinforcing construction panels by the attaching member.
- Fig. 56 is a sectional view for explaining a method of jointing the construction panels laterally as well as vertically.
- Fig. 57 is a perspective view showing members for jointing upper and lower panels utilizing concave jointing members provided at the back surface of a panel body.
- Fig. 58 is a perspective view of a construction panel according to another embodiment of the invention.
- Fig. 59 is a perspective view showing another method of jointing upper and lower panels utilizing concave jointing members provided at the back surface of a panel body.
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- A construction panel P shown in Figs. 1 to 3 comprises a
panel body 1 having a rectangular flat plate shape, wherein thepanel body 1 has anupper end surface 1a havingconcave jointing elements 2 which are disposed at two sections of theupper end surface 1a and extend to the right and left for jointing with an upper stage construction panel, andcylindrical bodies 3 which are embedded in thepanel body 1 and extends from the bottom surfaces of theconcave jointing elements 2 to the lower end surface of thepanel body 1, and convexjointing elements 4 for jointing with a lower stage construction panel. Aconcave jointing element 5 and aconvex jointing member 6 are respectively provided at the right andleft end surfaces panel body 1 for engaging with opposing convex jointingmember 6 andconcave jointing element 5 so as to connect with the right and left construction panels P. Theconcave jointing elements 2 may be provided at the entire surface thereof. -
Concave jointing elements 7 are provided at theback surface 1c of thepanel body 1 at the upper and lower portions thereof and extend to the right and left, and aconcave stage portion 1d is formed on theback surface 1c of thepanel body 1 at the upper edge thereof and aconvex stage portion 1e is formed likewise on the lower edge thereof. Theconcave stage portion 1d andconvex stage portion 1e are respectively formed for preventing concrete from leaking outside and for enhancing excellent transmission of stress between the upper and lower construction panels P when concrete is filled between the opposing construction panels, and they can be formed depending on a thickness of thepanel body 1, as the need arises. - Although the
concave jointing element 5 and convex jointingmember 6 for jointing the construction panels P, and theconcave jointing elements 7 provided at the back surface of thepanel body 1 are respectively separately formed and they are embedded in thepanel body 1 for enhancing accuracy of dimensions thereof, the concave and convex may be directly provided on thepanel body 1. - As shown in Fig. 3, when the construction panels P are assembled, concrete is cast filled in a base B, and the
concave jointing elements 2 are embedded in the base B or abase anchor 8 is embedded into the base B before or after concrete is filled in the base B. In this case, theconvex stage portion 1e formed at the lower edge of thepanel body 1 may be cut to be flat in advance or a groove corresponding to the shape of theconvex stage portion 1e may be defined in the base B. If theconcave jointing elements 2 are embedded in the base B, theconvex jointing elements 4 are mounted previously in thepanel body 1. When thebase anchor 8 is employed, an L-shaped fixing plate 8a is fixed to the top of thebase anchor 8, and a tenon 8b in which a dovetail is engaged may be fixed to the L-shaped fixing plate 8a by an attaching bolt 8c using theconcave jointing elements 7 provided at theback surface 1c of thepanel body 1. - The right and left construction panels P are respectively jointed with each other by sliding the convex jointing
member 6 of one construction panel P along theconcave jointing element 5 of another construction panel P so as to engage the convex jointingmember 6 in theconcave jointing element 5. In the embodiment shown in these figures, theconcave jointing element 5 and convex jointingmember 6 are respectively provided at the right and left end surfaces of thepanel body 1, but they may be provided at the back surface adjacent to the end edge of thepanel body 1. - The jointing between the opposing construction panels P is performed using connecting
rods 9 having tenons 9a at both ends which engage with each other in theconcave jointing elements 7 provided at the back surface of thepanel body 1. Turn buckles 10 may be disposed at the middle portion of the connectingrods 9 for finely adjusting the interval between the opposing construction panels P. - After the first stage construction panel P is disposed, second and third stage panels are assembled like the first stage panel P. The upper and lower construction panels P are respectively jointed with each other by inserting the
convex jointing elements 4 in theconcave jointing elements 2 to hold theconvex jointing elements 4 by theconcave jointing elements 2. - Although the construction panels P are assembled in zigzag, namely, the joints at the right and left end edge of the construction panels P do not continue linearly, but the construction panels P may be assembled vertically in parallel with one another so that the joints thereof continue linearly, namely, arrange in straight. Further, the construction panels P may be assembled at random when the
concave jointing elements 2 embedded in the upper end surface of thepanel body 1 extend to the right and left of thepanel body 1 as shown in Fig. 1, or the convex jointing elements are increased by the number corresponding to the concave jointing elements which are embedded plurally in the narrow without right and left. - Further, as shown in Figs. 2 and 3, it is possible to prevent the concave jointing elements and the
convex jointing elements 4 from being broken owing to a bending moment or shearing force which are generated at the jointing boundaries of construction panels P providing attachingmembers 11 at theback surface 1c of the panel body which bridge over the vertically jointed construction panels P. Still further, if the lower end of the attachingmember 11 is supported by a supporting member 12, the supporting member 12 serves to restrain the deviation of the attachingmember 11 when the stress is applied to each attachingmember 11. Accordingly, the supporting member 12 is used as the need arises, and it is used when a large stress applies to the attachingmember 11. The supporting member 12 is fixed to the wall surface of thepanel body 1 by a bolt, an anchor, etc. - Upon completion of the assembling of the construction panels P, a filling material, e.g. concrete is filled between the opposing construction panels so as to complete the construction of the construction panels P for use in a wall, an outer wall, an inner wall, a partition wall, a supporting wall, etc. The surface of the construction panel P may be omitted to decorate if a decorative layer is directly formed on the
surface 1d of the construction panel P in advance by the material of thepanel body 1 or if the decorative layer is formed on the surface of the construction panel P by sticking a decorative plate made of a different material onto the surface of the construction panel P. - Although a method of assembling the construction panels P is explained roughly, the concave jointing members and the convex jointing members for connecting the upper and lower construction panels P will be now described in detail.
- Referring to Fig. 3, the
concave jointing elements 2 are embedded into the upper end surface of the lower construction panel P. Theconcave jointing element 2 comprises adovetail 2b which is formed by digging eachpanel body 1 from the upper end surface, andside walls 2a provided between the dovetails 2b and open ends. On the other hand, theconvex jointing elements 4 are held inside the cylindrical bodes 3 which extend from the bottom surfaces 2c of theconcave jointing elements 2 to the lower end surfaces of thepanel body 1. Thecylindrical body 3 is divided into anupper portion 3a and a cylindricallower portion 3b which is larger than theupper portion 3a, abody 13 of theconvex jointing element 4 is accommodated into the cylindricallower portion 3b. The inner width of the cylindricallower portion 3b of thecylindrical body 3 is substantially the same as the interval of theside walls 2a of theconcave jointing element 2. Ashaft 14 penetrates thebody 13 and arotary holding member 15 is attached to the lower end of theshaft 14, and a recess such as a cross hole for turning a driver is defined in theshaft 14 at the upper end thereof. - As shown in Fig. 4 (A), the
rotary holding member 15 has a shape of a tenon, and has conical tables 15a about theshaft 14 at two sections. As shown in Fig. 4 (B), therotary holding member 15 is fixed to thebody 13 at ascrew portion 15c to be turned freely, and side surfaces 15b of therotary holding member 15 which are narrow in width are flush with the side surface of thebody 13. - A method of jointing the upper and lower construction panels P by the
concave jointing element 2 andconvex jointing element 4 are described with reference to Fig. 5. In this example, anut 16 to be screwed into a head of theshaft 14 is employed, and a pin orscrew portion 15d is inserted into theshaft 14 as a fixingmember 17 for keeping the position of thebody 3. A nut or a plate may be feed toshaft 14 instead of the pin. First of all, an upper stage panel Pb is placed on a lower stage panel Pa. Then, thenut 16 positioned in theconcave jointing element 2 of the upper stage panel Pb is pressed downward toward abottom surface 20c of theconcave jointing element 2 so that thebody 13 is inserted into theconcave jointing element 2 of the lower stage panel Pa. In this state, theshaft 14 is turned 90 degrees to turn therotary holding member 15, then theshaft 14 is raised by turning thenut 16, thereafter theconcave jointing element 2 of the lower stage panel Pa and theconvex jointing element 4 of the upper stage panel Pb are fastened Meanwhile, when the fixingmember 17 is fixed, aring spring 15d is provided in a space between theshaft 14 andbody 13 instead of providing thescrew portion 15c to therotary holding member 15, so that therotary holding member 15 can be turned smoothly. - Further, if the
side walls 2a are jointed by bolts at some sections to prevent thepanel body 1 from being deformed at the open end thereof before theconcave jointing element 2 are embedded into thepanel body 1, thebody 13 can withstand a large stress when the latter applies to the former. - In the previous embodiment, a gap may be defined between the
body 13 of theconvex jointing element 4 and the cylindricallower portion 3b of thecylindrical body 3. With the provision of the gap, the positional deviation which occurs when theconcave jointing element 2 and cylindricallower portion 3b are embedded into thepanel body 1 can be absorbed. Further, the shape of thebody 13 may be columnar or cylindroid as well as parallel piped, and if thebody 13 is columnar or cylindroid, the cylindricallower portion 3b may have a shape corresponding to thebody 13. Further, the shape of therotary holding member 15 may be of any shape as well as the shape as shown in Fig. 4 (A). In this case, theconcave jointing element 2 needs to have a shape corresponding to the shape of therotary holding member 15. For example, a conical table 15a may be provided, as the need arises while theconcave jointing element 2 is formed of a box shape as shown in Fig. 10, and a top 20h of theconcave jointing element 2 and thetop surface 15f of therotary holding member 15 shown in Fig. 4 (A) contact each other. Still further, the cylindricallower portion 3b andbody 13 are respectively formed of parallel piped bodies which extend to the right and left, and therotary holding member 15 andshaft 14 and cylindricallower portion 3b corresponding to the rotary holding member may be provided at plural sections. Therotary holding member 15 may be formed directly on thepanel body 1 depending on the shape of the cylindricallower portion 3b without using separately manufactured product. - In the embodiment shown in Fig. 6, the
convex jointing element 4 comprises of ahead 20, ashaft portion 21, abody portion 22, and aspring 23 which is attached to thehead 20 and which members are all columnar. The outer peripheral surface of thebody portion 22 and theside wall 2a of theconcave jointing element 2 havemale screw 22a and screw 2e respectively screwed therein. Meanwhile, thescrew 2e of theside wall 2a is different from a female screw provided on the inner surface of a normally circular hole, and it extends vertically on the paper surface of the drawing. Accordingly, crests ofmale screws 22a provided in thebody portion 22 merely partially contact thescrews 2e of theside walls 2a. Accordingly, it is preferable that the heights of the crests of and the depths of grooves of thescrews 2e and themale screws 22a to be large. - The
convex jointing element 4 is held inside the cylindricallower portion 3b by thespring 23 before construction panels P are jointed as shown in Fig. 6 (A). A driver having a long shaft is inserted through the open end of thecylindrical body 3 so as to insert in therecess 20a of thehead 20 of theconvex jointing element 4, thereafter the driver pushes theconvex jointing elements 4 until themale screw 22a of thehead 20 contacts thescrew 2e of theconcave jointing element 2. Further, theconvex jointing element 4 is turned so as to screw themale screw 22a and screw 2e until thelower surface 20b of thehead 20 contacts ashoulder 3c of the cylindricallower portion 3b so that theconcave jointing element 2 is engaged with theconvex jointing element 4, and hence the lower stage panel Pa and upper stage panel Pb are jointed with each other as shown in Fig. 6 (B). - In this embodiment, upon completion of the engagement between the
concave jointing element 2 and theconvex jointing element 4, if there occurs a case thatgaps 4x and 4y are defined as shown in these figures between theshaft portion 21 of theconvex jointing element 4 and the cylindricallower portion 3b,concave jointing element 2 andconvex jointing element 4 respectively embedded into lower stage panel Pa and upper stage panel Pb can be adjusted even if they are slightly deviated in position at the front and back of the lower stage panel Pa and upper stage panel Pb so thatconcave jointing element 2 andconvex jointing element 4 engage with each other without any obstruction. - Further, as mentioned above, the
screw 2e of theside wall 2a of theconcave jointing element 2 extends vertically on the surface of the drawing, namely, they extend to the right and left of the construction panel P so that the deviation involved in the embedding of theconvex jointing element 4 in the construction panel P to the right and left is not at all obstructed Further, it is possible to engage theconvex jointing element 4 into oneconcave jointing element 2. - Still further, according to this embodiment, the
concave jointing element 2 may be cylindrical and thescrews 2e provided in theside walls 2a may be formed of ordinary female screws. In this case, although the cost of material of the female screws may be reduced, but thegaps 4x and 4y of the construction panel P at the right and left may be slightly defined if the construction panels P are jointed with each other as shown in Fig. 6 (B) so that the positioning of the concave jointing members and the convex jointing members need to be correctly performed when they are manufactured in the mill. - Fig. 7 shows another embodiment. Fig. 7 (A) is a sectional view showing a state where the upper stage panel Pb is placed on the lower stage panel Pa wherein the
concave jointing element 2 andconvex jointing element 4 are not engaged with each other. From this state, the driver, etc. inserted in therecess 14b is turned after theshaft 14 is pressed by an operation member such as a driver to push downconvex jointing element 4 so as to permit anail screw 14a provided at the upper portion ofshaft 14 to contact thescrew 3d provided at the cylindricalupper portion 3a. As a result, a concave/convex portion 25a provided at the lower portion of abody 25 of theconvex jointing element 4 engages with a concave/convex portion 2f provided on theside wall 2a ofconcave jointing element 2 so that theconcave jointing element 2 andconvex jointing element 4 engage with each other. A state where the lower stage panel Pa and upper stage panel Pb are jointed with each other is shown in Fig. 7(B). At this time, it is preferable that at least one of concave/convex portions - Fig. 8 shows another embodiment. As shown in Fig. 8 (A), the
convex jointing element 4 comprises abody 26 accommodated in the cylindricallower portion 3b ofcylindrical body 3 and ashaft 27 which is attached to the upper portion of thebody 26 so as to be turned freely. A screw provided on the outer periphery of theshaft 27 is screwed into a screw provided on the inner periphery of the cylindricalupper portion 3a ofcylindrical body 3 so that they are held inside thecylindrical body 3. Although thebody 26 has ahollow portion 26a at the lower half portion thereof since it is columnar and light weighted, it may be formed of a solid body having no hollow portion.Recesses 26b are defined on thebody 26 at the opposing outer surfaces thereof. - Meanwhile, the
concave jointing element 2 has a hollow portion for receiving a lower half portion of thebody 26 of theconvex jointing element 4 and has a box shaped body having the open end ofcylindrical body 3 at the bottom surface thereof and which is embedded intoupper end surface 1a of thepanel body 1. Theconcave jointing element 2 has an elasticallydeformable protrusion 28 which protrudes from the inner surface of the box-shaped body at a position corresponding of therecesses 26b of thebody 26 when theconvex jointing element 4 is inserted into theconcave jointing element 2 in a predetermined position. - Accordingly, the driver is inserted from the open end of the
cylindrical body 3 of the upper stage panel Pb after the upper stage panel Pb is placed on the lower stage panel Pa, thenshaft 27 is turned to lower theconvex jointing element 4 so as to engage the lower half portion of thebody 26 into the hollow portion of theconcave jointing element 2 of the lower stage panel Pa, thereby permitting theprotrusion 28 to engage in therecess 26b. Subsequently, theshaft 27 is reversely turned by the driver to slightly raise thebody 26 so that theconcave jointing element 2 andconvex jointing element 4 respectively firmly engage with each other, thereby jointing the lower stage panel Pa and upper stage panel Pb as shown in Fig. 8 (B). - In this example, since the
body 26 of theconvex jointing element 4 contacts the side surface of theconcave jointing element 2 and the inner surface of cylindricallower portion 3b at ajointing boundary 29 between the lower stage panel Pa and the upper stage panel Pb, and theprotrusion 28 of theconcave jointing element 2 and therecesses 26b of thebody 26 inserted into theconcave jointing element 2 are disposed to extend in the longitudinal direction of thepanel body 1, the lower stage panel Pa and upper stage panel Pb which are jointed with each other by theconcave jointing element 2 and theconvex jointing element 4 operate effectively when they receive positive and negative moments at thejointing boundary 29. - In the embodiment as shown in Fig. 9, the
recess 26b of theconcave jointing element 2 and theprotrusion 28 of thebody 26 of theconvex jointing element 4 engage with each other and the lower stage panel Pa and upper stage panel Pb are disposed to extend in the width direction thereof in the manner opposite to the embodiment shown in Fig. 8. However, also in this embodiment, since theconcave jointing element 2 and theconvex jointing element 4 engage with each other at the right and left thereof, namely, at the front and back of thepanel body 1, they can effectively operate upon reception of the positive and negative moments at the jointing boundary. Further, theprotrusion 28 of theconcave jointing element 2 may be formed of a separately prepared steel spring. Therecesses 26b corresponding to theprotrusion 28 provided in either of the concave jointing members and convex jointing members may be the concave/convex portions - The
concave jointing element 2 and theconvex jointing element 4 may be formed of a synthetic resin, iron, nonferrous metal, ceramics, rubber, etc. Carbon fiber or glass fiber may be added for reinforcing theconcave jointing element 2 andconvex jointing element 4 or the fiber per se is hardened by a resin or a compound material will be used. Further, after the requisite portions are manufactured by a separate material, they are integrated with these jointing elements by an embedding means at necessary portions. Further, concave and convex portions such as a collar, a protrusion, a recess or a groove may be provided on theconcave jointing element 2 and the outer periphery of thecylindrical body 3 so as to firmly joint with the material of thepanel body 1 when they are embedded in thepanel body 1. - Fig. 10 shows a different embodiment. The
convex jointing element 4 in this embodiment is divided into two parallel legs at the lower portion of thebody 31, and eachprotrusion 31a protrudes outward from the lower end of each leg. A bolt-shapedjunction shaft 32 is fixed to the upper portion of thebody 31, and ahead 33 is screwed into thejunction shaft 32. Since two legs are pressed into the cylindricallower portion 3b of thecylindrical body 3 inner dimensions of which are small against the resiliency thereof so that theconvex jointing element 4 is held inside thecylindrical body 3 as shown in Fig. 10 (A). - The operation member is inserted through the open end of the
cylindrical body 3 of the upper stage panel Pb to lower theconvex jointing element 4 after the upper stage panel Pb is placed on the lower stage panel Pa, thereby permitting thehead 33 to contact theshoulder 3c of the cylindricallower portion 3b. At this time, eachprotrusion 31a of the leg of thebody 31 is released in therecess 2h of theconcave jointing element 2. However, in this state, a gap is defined between eachprotrusion 31a andrecess 2h. Then, when thehead 33 of theconvex jointing element 4 is turned by the operation member, thebody 31 is raised so that eachprotrusion 31a is brought into contact with theupper wall 20h of therecess 2h as shown in Fig. 10 (B). In such a manner, theconcave jointing element 2 andconvex jointing element 4 engage with each other, so that the lower stage panel Pa and upper stage panel Pb are jointed with each other. - In the embodiment of Figs. 10, the rising of the body of the convex jointing element is performed by raising the shaft of the head, but it can be performed by the following embodiment.
- In the embodiment shown in Figs. 11, a bolt-shaped
junction shaft 35 is fixed to the upper portion of thebody 34 and ahead 36 for raising the shaft is screwed into thejunction shaft 35. A wing-shapedholding spring 34a is attached to the lower portion of thebody 34. The holdingspring 34a holds theconvex jointing element 4 inside thecylindrical body 3 while the wing thereof is folded inside thecylindrical body 3. In the case of jointing between the panels Pa, Pb, when theconvex jointing element 4 is pushed downward to permit the holdingspring 34a to be inserted into therecess 2h of theconcave jointing element 2 so that the holdingspring 34a is released to spread its wing as shown in Fig. 11 (B). Successively, when the operation member is turned while it is inserted in anoperating hole 36a of thehead 36 of theconvex jointing element 4, thebody 34 is raised so that the tip end of the holdingspring 34a contacts the upper wall ofrecess 2h of theconcave jointing element 2. When thebody 34 is raised further by a predetermined amount, both thejointing elements - As mentioned above, before the panels are jointed with each other, the
convex jointing element 4 is held inside thecylindrical body 3 by the resiliency of the holdingspring 34a of thebody 34, however, it is preferable that aspring 36b be attached to thehead 36 to press the inner surface of thecylindrical body 3 to prevent the lower portion ofbody 34 from protruding through the panel body as shown in Fig. 11 (A). This may be provided in other embodiments, as the need arises. - Shapes of the jointing member and convex jointing member employed by the present invention are not limited to those in the previous embodiments but may be of various ones.
- In the embodiment in Fig. 12, forked
leg 37a provided at the lower portion of abody 37 of theconvex jointing element 4 is respectively bent inward at the tip end thereof, and aprotrusion 38 of theconcave jointing element 2 has a recessed shape toward the bottom corresponding to the shape of the forkedleg 37a, and holding hooks are respectively formed at the inner and outer surfaces of the forkedleg 37a, outer surface of theprotrusion 38 and inner surface of theconcave jointing element 2 so as to enlarge the engaging area between both thejointing elements spring 37b for preventing deviation is attached to the upper portion of thebody 37 of theconvex jointing element 4. - In the embodiment shown in Fig. 13, an
expansion portion 39a is provided under abody 39 of theconvex jointing element 4 and aprotrusion 40 is provided in the hollow portion of theconcave jointing element 2 so that theconcave jointing element 2 andconvex jointing element 4 engage with each other when holding hooks formed on the inclined surface of theexpansion portion 39a and the tip end of theprotrusion 40 mesh with each other. Further, also in this embodiment, aspring 39b for preventing deviation is attached to the upper portion of thebody 39 of theconvex jointing element 4. - In the embodiment shown in Fig. 14, the hollow portion of the
concave jointing element 2 has a dovetail shape, and aholding hook 2i provided at the inclined surface thereof which is enlarged toward the bottom surface thereof and another holding hook provided at the outer surface of a forkedleg 41a provided at the lower portion of abody 41 of theconvex jointing element 4 mesh with each other, so that the insertedconvex jointing element 4 engages with theconcave jointing element 2. Also in this embodiment, aspring 41b for preventing deviation is attached at the upper portion of thebody 41 of theconvex jointing element 4. - In the embodiment shown in Fig. 15, a
protrusion 42a incorporated into a lower portion of abody 42 of theconvex jointing element 4 is put into arecess 2j of theconcave jointing element 2 by the resiliency of aspring 42b so that both thejointing elements - In the embodiment of Fig. 16, a wedge-shaped
holding hole 43a penetrating abody 43 is defined at the upper portion of thebody 43 of theconvex jointing element 4. At least the lower portion of thebody 43 is made of an elastic material and it is divided into twolegs 43c by acut 43b. Outwardly protruding protrusions are provided on each of them, and eachleg 43c is held in thelower portion 3b of thecylindrical body 3 in a state where eachleg 43c is contracted. A hollow portion is defined in theconcave jointing element 2 for receiving the lower portion of thebody 43 of theconvex jointing element 4 while it is released or spread at the lower portion thereof. - The upper stage panel Pb is placed on the lower stage panel Pa, and an operation member is inserted from an open end of the
cylindrical body 3 of the upper stage panel Pb to lower ashaft 44 so that thelegs 43c of thebody 43 of theconvex jointing element 4 are released or spread in the hollow portion of theconcave jointing element 2, and the outwardly protruding protrusions engage in the recess of theconcave jointing element 2, as shown in Fig. 16 (B). - Although both the
jointing elements convex jointing element 4 and the upper stage panel Pb do not engage with each other. Accordingly, a wedge-shaped throughhole 45 defined in the panel body and the holdinghole 43a defined in thebody 43 are permitted to communicate with each other, then awedge 46 is inserted into the communicated holes so that both the panels Pa, Pb are jointed with each other. - In this embodiment, the shape of each
leg 43c of thebody 43 of theconvex jointing element 4 is determined by the elasticity of a material of thebody 43, and also the shape of the hollow portion of theconcave jointing element 2 is determined by the elasticity of the material of thebody 43. Thecut 43b may be omitted depending on the material of thebody 43. - In the embodiment shown in Fig. 17 which is similar to the example as shown in the previous drawing, a
body 47 of theconvex jointing element 4 engages in theconcave jointing element 2, but both of them have no engaging means. Accordingly, the lower portion of thebody 47 and the lower stage panel Pa engage with each other by inserting awedge 48 which penetrates theconcave jointing element 2 like the previous drawing. Meanwhile, the upper portion of thebody 47 and the upper stage panel Pb engage with each other by abolt 49 which penetrates thelower portion 3b of thecylindrical body 3. The lower and upper panels Pa, Pb are jointed with each other by way of thebody 47 as set forth above. - The jointing between the opposing construction panels will be next described. The jointing between the opposing panels aims to design the concave jointing element and convex jointing element economically, and to maintain the interval between the opposing panels. This is different from the conventional method using the frameworks in that the panels are embedded under the ground and hence the connecting rods cannot be provided by penetrating the panels according to the present invention.
- Accordingly, a first process of the method of jointing the construction panels of the present invention comprises providing the
concave jointing elements 7 at the back surface of thepanel body 1 and engaging the tenons 9a fixed to both ends of the connectingrods 9 in the dovetails of theconcave jointing elements 7, as explained with reference to Fig. 1 to Fig. 3. Alternatively, therotary holding member 15 as explained in Fig. 4 is employed at both ends of the connectingrods 9 and the construction may be carried out by the method shown in Fig. 1 to Fig. 3. - In the embodiment shown in Fig. 18, a
convex jointing element 51 provided at theback surface 1c of thepanel body 1 is utilized The both ends of connectingrods 52 hasconcave jointing elements 53 respectively having dovetails. Also in this case, it is also possible to use aconcave jointing element 54 having a dovetail, as shown in the lower portion thereof. - In the embodiment shown in Fig. 19,
concave jointing members 55 are provided vertically on thepanel body 1 at theback surface 1c. Also in this case, it is possible to useconvex jointing members 56 which protrude from theback surface 1c of thepanel body 1 and extend vertically. - The jointing members may be respectively fixed type which is provided at proper positions of the back surface of the panel body. An example thereof is illustrated in Fig. 20. As shown in this figure, there are a method of engaging a ring-shaped connecting
member 58 which is screwed into aturn buckle 57 serving as a jointing rod in an L-rod shapedjointing element 56 which is embedded into theback surface 1c of thepanel body 1 and is exposed at the other end thereof, and another method of screwing a connectingmember 61 which is screwed into both ends of ajointing rod 60 into a rod-shapedjointing element 59 which is screwed therearound and is embedded into theback surface 1c of thepanel body 1. - A case where the jointing members for connecting the right and left construction panels P are provided on both lateral end surfaces of the
panel body 1 has been already explained with reference to Fig. 1 and Fig. 2, and although a groove-shapedconcave jointing member 62 and a T-shapedconvex jointing member 62a are respectively disclosed in Fig. 19 as the application of the above case, another example will be now described with reference to Fig. 21. Fig. 21 (A) shows a state where a tenon like that shown in Fig. 4 or atenon 63 similar to that is inserted into a dovetail of theconcave jointing member 7 embedded into theback surface 1c of thepanel body 1, and a flat-plate shapedjointing element 65a having a hook portion at the tip end thereof is inserted into awing bolt 64 of thetenon 63 and thewing bolt 64 is fastened by awing nut 66. When thejointing element 65a is jointed with ajointing element 65b having the shape which is asymmetrical with thejointing element 65a, respective hook portions of thejointing element 65a and that of thejointing element 65b engage with each other as shown in Fig. 21 (B), so that thejointing elements jointing members panel body 1 by way of theconcave jointing member 7, thejointing members wing nut 66 by way of a bolt and a nut directly embedded into thepanel body 1. However, it is preferable to use the bolt in the case of embedding nut. As an applied example, there are a crescent which is attached to the window by building a metal fitting and a known hook jointing member. - The embodiment shown in Fig. 22 comprises defining a
cut 7a in theconcave jointing member 7 provided at theback surface 1c of thepanel body 1, inserting a clamp-shapedjointing member 67 into thecuts 7a of thepanel bodies 1 and bridging thereover so as to joint the right and left panels P. Further, it comprises defining an insertion hole at the portion close to the center of the jointingmember 67, and inserting awing bolt 64 of atenon 63 so as to be fastened by thewing nut 66 as shown in Fig. 21. - Although it is explained that in the embodiments set forth above the
panel body 1 is rectangular, it is not limited thereto, and it is not limited to the use for construction of panels having one kind of shape. The rectangular panel P may be replaced by a cross panel P1, a modified cross panel P2, a convex panel P3, and also it may be replaced by combination thereof as shown in Fig. 23. In the embodiment shown in Fig. 23, since the jointing boundaries in the lateral direction do not continue, the resistance against a bending stress is enhanced, and various patterns can be formed. - Further, although the panel bodies of the aforementioned panels are all flat plate-shaped, they may be replaced by L-shaped panel bodies, and such L-shaped panel bodies form panels using various jointing elements, jointing members and connecting members, thereby making it possible to construct the structures by jointing these panels. An example of the L-shaped panel P used in a corner part is illustrated in Fig. 24. The panel P shown in this figure is for use in an inner corner, and an inverse L-shaped construction panel P may be used for an outer corner.
- Still further, the panels of the present invention are not limited to flat plate-shaped ones but they may be of any shape such as a curved panel which is formed by cutting a cylinder longitudinally as shown in Fig. 25, and they may be used for the outer or inner corners and for the construction of an outer wall-of a tank by combining them. A
decorative layer 68 is not limited to an inner round surface side, but may be provided to an outer round surface side. - Fig. 26 is a perspective view of a panel P according to another embodiment of the invention. The panel P of this embodiment comprises a frame body composed of upper and
lower receiving plates 71 and offrames 72 for connecting these receivingplates 71 and amesh body 73 made of metals or synthetic resin which is attached to the frame body. Each receivingplate 71 is made of metal or synthetic resin and has a channel-rail shape which is substantially U-shaped in cross section, namely, theconcave jointing elements 2 each having an open end are arranged side by side on the upper end surface of the upper portion of the receivingplate 71, namely, at the upper end surface of the panel body. Eachframe 72 is square and cylindrical and incorporates therein a cylindrical body, an accommodation box, and a convex jointing member. Accordingly, the upper and lower panels can be jointed with each other by various concave jointing members and convex jointing members as explained above. Since a square pillar body inserted into one end of each receivingplate 71 forms aconvex jointing element 74, and another end thereof forms a concave jointing member wherein the square pillar body is fixed between the right and left receivingplates 71 by awing nut 75, so that the right and left panels can be jointed with each other. Further, the opposing panel bodies are jointed with each other by ajointing rod 76. - The
mesh body 73 and the receivingplate 71 can be integrally manufactured by extrusion. The sectional shape of each receivingplate 71 and eachframe 72 is not limited to U-shape but may be of a square pipe, a round pipe or an L-shape. Further, there are the L-shaped panel with reference to Fig. 24 and the cylindrical type panel with reference to Fig. 25 as the frame type panel. - Generally, various shielding plates are frequently attached to the civil engineering structures The process of attaching the various shielding plates comprises filling concrete in a framework after providing the framework, drilling a hole in concrete body at proper positions after concrete is hardened, inserting an anchor into the hole and fixing it by an adhesive, etc., attaching the shielding plate to the anchor, and attaching an outer wall member, etc. onto the shielding plate, which takes much labor and construction time. Particularly, since the attachment of the outer wall member, etc. belongs to an inside construction, there is a drawback that a reliable construction in a narrow spot cannot be expected Since such construction takes much time and labor and also the work per se requires skilled technique, there occurs a problem that construction cost is high and the construction time is delayed together with latest shortage of skilled workers.
- Meanwhile, since a reservoir tank for storing therein moisture, cold and hot liquid, gas, and solid or structures which require attaching thereto members for preventing chemicals, radioactivity, noise, radio wave, vibration and which require shielding the influence by other factors are respectively constructed by the same manner as set forth above, the construction cannot be performed with reliability as designed, thereby leaking storage energy, influencing on the life of the structures, and of leading to high construction cost of the structures and of delaying of the construction time.
- To cope with these problems, examples of the construction panels to which the shielding plate is attached are illustrated in Figs. 27 to 30.
- In the embodiment shown in Fig. 27, a shielding plate F is attached to the
back surface 1c of thepanel body 1 shown in Fig. 1 except the portions where theconcave jointing elements 7 are directly used. The method of assembling the construction panels P each having the shielding plate F is the same as the method of assembling the construction panels P which is explained with reference to Fig. 3, but the former is different from the latter in that a foaming or solid shielding plate Fa is inserted into a shielding plate gap portions F1 at the portion corresponding to theconcave jointing elements 7 after the connectingrods 9 are connected with the opposing panels P. - The method of attaching the shielding plate F to the
panel body 1 comprises filling a material of thepanel body 1 into the shielding plate F, or attaching the shielding plate F to thepanel body 1 or attaching shielding plate F to thepanel body 1 by screws, nails, etc. or using appropriate means. The shielding plate F is attached to the surface of thepanel body 1 and a decorative plate may be fixed to the shielding plate F. - In the embodiment shown in Fig. 28, the shielding plates F are attached to the back surfaces of the construction panels P set forth above. Each shielding plate F serves to shield energy emitted from moisture, cold or hot liquid, vapor, and solid, and heat-insulating member which are presently used serves as such shielding plate. Shielding plates are frequently and widely used for housings, storing facilities, etc. The present invention is also applied to the attachment of members for shielding radioactivity, radio wave, vibration, and also to the attachment of a solar battery plate, etc. to the wall surface.
- Although the surface of the construction panel P may have grain of concrete or that of a panel body, but a decorative plate E such as tile, glass, natural stone, bamboo, timber or brick, ceramic, mesh or the like which are conventionally used may be attached to the panel body for the purpose of enhancing external appearance of the construction panel or the shielding plate as set forth above may be used as the member.
- It is needless to say that the shielding plate F may be formed of iron, non-ferrous metal, resin, cement plate, rubber, paper, leathers, or woven cloth, non-woven cloth, a net formed of fibers made of inorganic material such as carbon and glass and organic material such as alamide, and the compound material thereof in addition to the material used in the decorative plate as set forth above. That is, as the material for the decorative plate and shielding plate, these materials are utilized independently or shielding plates of different materials are used in combination, or shielding plates are used in combination with the decorative plates set forth above, depending on the object of the panels.
- A joint F2 which is formed when the panel is placed on the lower panel may be processed in the various processes. That is, as a first process, the shielding plates F contact each other at the end surfaces thereof. As a second process, either of an adhesive, a foaming adhesive, chemicals which react with water or other liquid is applied, or a joint material Fb such as a packing is interposed between the panels so that it reacts with water or other liquid to stop the leakage of water adhere both panels, or leakage of water is stopped or both panels are adhered by welding both panels, if there is a space for welding. As a third process, a cut space is formed in the longitudinal direction of the shielding plates F which contact each other vertically, and the shielding plates F are brought into contact by the aforementioned first and second processes, then a filling member Fc which is a mixture of a solution of the material of panel body or shielding plate such as the foaming material, mortar, resin, rubber, lead, aluminum, and a material which is the same as or different from the solution set forth above is filled in the joint F2, thereby enhancing stopping of leakage of water or adhesion. The positions of the joint F2 and cut space are not limited to the
concave stage portion 1d orconvex stage portion 1e of thepanel body 1, and it is needless to say that the former may be deviated from the latter properly. - Fig. 29 is a sectional view showing a state where the shielding plates F are mounted on the back surfaces of the opposing panels P, then these panels are assembled in the same manner shown in Fig. 3, and the filling material C is filled in these panels P. The filling material C in addition to concrete is used as the material of the filling member Fc.
- Fig. 30 is a sectional view showing that three pieces of panels P are arranged in parallel with one another and which shows a state where an intermediate panel G is interposed between two panels P of Fig. 29. The intermediate panel G includes jointing members for jointing upper and lower panels P, and those for jointing the panels in lateral direction which are provided as the need arises, and concave jointing members jointing with the opposing panels, which are respectively provided at one side or both sides like the outer panels P. The intermediate panel G may be disposed at two or more sections between the outer panels P, and the shielding plate F may be provided at one surface or both surfaces thereof. The filling material C at right and left sides of the intermediate panel G is not limited to the same material but it may be different material between the right and left sides. In the case of providing a plurality of intermediate panels G, they may be made of the same materials as the various panel bodies set forth above or may be made of different materials, and further the jointing members may be partially omitted.
- The method of constructing the construction panels is performed in the same manner as the construction panel P shown in Fig. 3. That is, the left side concave jointing member of the intermediate panel G and the concave jointing member of the left outside panel P are jointed with each other with connecting rods after the lower stage left outside panel P and the lower stage intermediate panel G are respectively provided in this figure. The right side panel is constructed in the same method as the left side panel. However, the construction may start either from the left or right panel.
- Although the jointing in the lateral direction is performed, in this jointing construction, the jointing between the connecting rods may start first or the jointing in the lateral direction may start later, which is however determined by the panels P. That is, if the construction panels P are jointed by the jointing members as shown in Fig. 1, the jointing in the lateral direction starts first, while if the construction panels P are jointed by the jointing members as shown in Figs. 21 and 22, the jointing in the lateral direction may start first or later. A convex/concave joint Ga may be provided between the upper and lower end surfaces of the intermediate panel G to enhance the integration of the contact surfaces of the intermediate panel G, as shown in the figure.
- The filling material is filled in the panels after the right and left outside panels P and the intermediate panels G are assembled to reach given stages. The filling material is not filled in the construction panels depending on the object of the panels, thereby permitting the space between the panels to be vacant. Further, the materials of the construction panel P and shielding plate F, as set forth before, are used for those of the intermediate panel G and another shielding plate Fg.
- A secondary shielding plate Fa which is the same as or different from the shielding plate F explained with reference to Figs. 27 and 28 is filled with a frame work material or foaming material after the construction panels P are decisively positioned by the connecting rods. It is needless to say that the shielding plate may be attached to the surface and/or back surface of the construction panel P shown in Figs. 1 to 26, as the need arises.
- Described next is a case where the jointing members for jointing the opposing panels or jointing the panel and a temporary member are respectively provided on the opposing surfaces. The jointing member for jointing the opposing panels is already explained with reference to Figs. 2 and 3, and hence the jointing of the panel and the temporary member will be now described hereafter.
- In the embodiment shown in Fig. 31, one side is constructed by panels P which are respectively decorated at the surfaces thereof and the other side which is not required to be attractive in appearance is constructed by a
framework 80. Theframework 80 is supported byround pipes 81 provided at the outside of the framework. Since theround pipes 81 are connected with the connectingrods 9 by way of aspectacle washer 82, the interval between the construction panel P andframework 80 is maintained correctly when concrete is filled therebetween. Theframework 80 is removed upon completion of the concrete work operation. - In Fig. 31, the shielding plate F is attached to the
back surface 1c of the construction panel P as need arises. In this case, the shielding plate F having a regular size may be attached as it is, but it is preferable that small pieces of shielding plate Fa be used on theentire back surface 1c of the construction panel P. Such a shielding plate F may be attached not only to theback surface 1c of the construction panel P but to the front surface of the construction panel P or the back and front surfaces of the construction panel P. Such a shielding plate F may be applied to the construction panel P shown in Figs. 2 and 3. - In the embodiment shown in Fig. 32, both sides are constructed by the panels P respectively decorated on the surfaces thereof. The construction panels P can be assembled as they are. However, an auxiliary member is used in case that the jointing between the concave jointing member and the convex jointing member is close to a pin connection, since the jointing portions are likely to deviate at the front or back thereof in such a case. The round pipe as the auxiliary member can be constructed as follows. For example, first, pipe-
bases 91 are installed, thenvertical round pipes 92 are provided upright on the pipe bases 91 while making them contact with the construction panel P. Afterseparators 93 are erected at the position of the joint between the given panels P, thenlateral round pipes 94 are erected and the connections thereof are fastened by fasteningmetal fittings 95. In such a manner, an auxiliary member is temporarily constructed in the lateral direction as well as in the upper direction. The temporary construction of the auxiliary member may also start from the provision of thelateral round pipes 94. - The auxiliary member is not limited to the round pipe but the shape thereof is selected from a square-shape, H-shape or L-shape or other appropriate shapes, and it may be used at one side alone, depending on cases, separators may be omitted depending on the kind of the auxiliary member or that of the jointing member. The panel bodies are assembled in the same method as explained in Fig. 3.
- In the construction panel of the present invention, it is preferable that reinforcing members such as reinforcements and reinforcing fibers are embedded in the panel body, since the
panel body 1 is of a pre-cast concrete or product similar thereto and it is advantageous that a thickness of the panel body is as thin as possible particularly when concrete is filled between the opposing panels. The panel body is formed of a building material such as a mesh, a metal mesh, woven cloth, non-woven cloth, timber, iron, non-ferrous metal, stone, ceramic, leather in addition to concrete. A decorative layer is made by finishing mortar alone, by sticking stone such as marble or granite, or by sticking tiles or finishing by terrazzo-mix using building materials set forth above, or the like. - If the separately manufactured products are used as the jointing members and connecting members, the material thereof may be of various synthetic-resins and of various metal materials, but particularly an optimum material as the material of the jointing member is selected from the various synthetic resins, considering a tensile strength required by the construction, the expected amount of positional deviation between the jointing members. In these embodiments, although the concave jointing members are provided at the upper end surface of the panel body and the convex jointing members are provided on the lower end surface of the panel body, they may be provided vice-versa.
- As shown in Fig. 2, it is possible to prevent the jointing members from being damaged owing to a bending moment or a shearing force generated at the boundary portion between the jointing panels P by sticking the attaching
members 11 on theback surface 1c of thepanel body 1 bridging over the boundary of the jointing panels P. - Each member of the jointing members set forth in the above embodiment is exemplified but it may be replaced by other known members which serve the same operation. For example, the utilization of the dovetail and tenon provided in the jointing member or the connecting member is explained, but the dovetail may be replaced by a C-shaped channel and the tenon is replaced by a T-shaped member in cross section, or a C-shaped engaging portion may be formed of a wall and L-shaped member by embedding one side of the L-shaped member into the back surface of the panel body.
- The other embodiments of the invention are described next with reference to the drawings.
- Examples shown in Figs. 33 to 39 are a first type jointing elements, wherein the convex jointing members are manually pressed downward to engage with the concave jointing members, and thereafter some operations are performed so as to joint upper and lower panels with each other.
- In the embodiment shown in Fig. 33, the upper stage panel Pb is placed on the lower stage panel Pa, then the
convex jointing element 4 which is held in thecylindrical body 3 by thescrew 23 is pressed downward by operation member and there after ascrew shaft 101 is raised by turning thehead 20 by the operation member. Since thescrew shaft 101 penetrates abody 100 of theconvex jointing element 4, and aleg 103 provided at the lower portion of thebody 100 is spread when a lower endconical portion 102 rises, so that thespread leg 103 contacts a tapered surface of theconcave jointing element 2, and hence two panels Pa and Pb are jointed with each other as shown in Fig. 33 (B). Meanwhile thebody 100 is made of an elastic material. - Also in the embodiment shown in Fig. 34, the upper stage panel Pb is placed on the lower stage panel Pa, then the
convex jointing element 4 which is held by thecylindrical body 3 by thescrew 23 is pressed downward by an operation member and thereafter ascrew shaft 101 is raised by turning thehead 20 by the operation member. In this embodiment, since the tip end of thebody 100 of theconvex jointing element 4 and the tip end of thescrew shaft 101 are respectively fixed by a holdingmember 104, thebody 100 made of an elastic material expands in theconcave jointing element 2, and hence two panels Pa and Pb are jointed with each other as shown in Fig. 34 (B). - In the embodiment shown in Fig. 35, after the
convex jointing element 4 is pressed downward in the same manner as set forth above, abolt 105 is turned by an operation member. Since thebolt 105 passes through apipe 107 which penetrates abody 106 of theconvex jointing element 4, then it is screwed into anut 108 fixed to the tip end of thepipe 107, a bendingportion 107a provided at the lower portion of thepipe 107 expands in theconcave jointing element 2 as thebolt 105 turns, and hence two panels Pa and Pb are jointed with each other as shown in Fig. 35 (B). A portion denoted by Δh of the lower stage panel Pa shown in Fig. 35 (A) may be omitted. - In the embodiment shown in Fig. 36, after the upper stage panel Pb is placed on the lower stage panel Pa as shown in Fig. 36 (A), the
convex jointing element 4 is pressed downward to insert ahook member 111 attached to the tip end of ashaft 110 into theconcave jointing element 2. Thereafter, theshaft 110 of theconvex jointing element 4 is turned by an operation member. The 110 has a screw provided thereon and aplate 112 screwed in this screw and thehook member 111 are respectively fastened to steppedportions plate 112 is turned. Accordingly, aspring 112a is provided on theplate 112 to prevent it from being turned by strengthening the friction between itself and the wall surfaces, or theplate 112 has a shape other than a circular shape and the wall surface has a shape conforming to such shape of theplate 112. Meanwhile, they may be fastened by aplate 115 and thehook member 111 without providing theplate 112. - In the embodiment shown in Fig. 37, a bag body is utilized. That is, as shown in Fig. 37 (A), an
enlarged recess 120 is formed in theconcave jointing element 2 and abag body 130 is attached to the lower portion of thebody 4a of theconvex jointing element 4. A fillingpipe 131 communicates with thebag body 130 through the upper portion of thecylindrical body 3. After the upper stage panel Pb is placed on the lower stage panel Pa, thebody 4a of theconvex jointing element 4 is pressed downward along the fillingpipe 131 and inserted into theconcave jointing element 2, as shown in Fig. 37 (B). Thereafter, the filling material C is introduced through the fillingpipe 131, so that thebag body 130 is expanded in theenlarged recess 120, as shown in Fig. 37 (C). As a result, two panels Pa and Pb are jointed with each other. Denoted by 122 is an air discharge hole for escaping air as the filling material is introduced The jointing between the upper stage panel Pb andconvex jointing element 4 may be performed by a nut which screws into a screw provided at the head of the fillingpipe 131 in the same manner as shown in Figs. 33 to 36. - In the embodiment shown in Fig. 38, a bag body is also utilized. In this embodiment, the
bag body 130 is made of a flexible material which is different from or the same as that of thebody 4a of theconvex jointing element 4, and the former is integrated with the latter. Irregularities are formed on the inner surface of theconcave jointing element 2. The jointing procedure is the same as the previous embodiment, that is, after the upper stage panel Pb is placed on the lower stage panel Pa, thebody 4a of theconvex jointing element 4 is pressed downward into theconcave jointing element 2 by theupper filling pipe 131, thereafter the filing material C is introduced through the fillingpipe 131 so that thebag body 130 is expanded in theconcave jointing element 2 as shown in Fig. 38 (B) to permit thebag body 130 engage with the irregularities of the inner surfaces. Further, the filling material is also introduced through alower filling pipe 121 to fill the gap. Thebag body 130 is made of a material which is different or the same as that of thebody 4a, and the former is separately made from the latter. - In the embodiment shown in Fig. 39, two panels are jointed with each other in the manner that the surfaces of the panel bodies where two panel bodies contact or a part of surfaces where the concave jointing element and convex jointing element contact is thermally melted, then the contacting surfaces are cooled to joint two panels or contacting surfaces are connected with each other by an adhesive to joint two panels. The method of constructing this embodiment is as follows. First, the lower end surface of the upper stage panel Pb is brought into contact with the upper end surface of the lower stage panel Pa in the same manner as the previous embodiment. Thereafter, a
handle 140h fixed to the upper portion of thebody 4a of theconvex jointing element 4 is pressed downward manually or by an operating rod from the upper portion of the upper stage panel Pb so that thebody 4a engages in theconcave jointing element 2 as shown in Fig. 39 (B). Since anelectric wire 140a having ananode 140b and acathode 140c penetrates thebody 4a, when a current flows to a terminal 140g of theelectric wire 140a which is exposed on aprotrusion 140d of theconcave jointing element 2 of the lower stage panel Pa in a state where thebody 4a engages in theconcave jointing element 2, the current flows to theelectric wire 140a of the upper stage panel Pb, then it also flows to upper electrothermic plates 140i, 140i embedded into thebody 4a and to electrothermic plates 141i, 141i, and 141i at the bottom end, and hence heat is generated. As the electrothermic plates, a known Nichrome wire may be used or those made of a mixture of rubber, silicon or carbon particles (used for electrothermic carpet, etc.) may be used. Since a cylindricallower portion 4e and theconcave jointing element 2 are made of resin, when heat is generated in the electrothermic plates, contactingportions concave jointing element 2 andconvex jointing element 4. - This embodiment can be variously modified. For example, a wire is routed in the
cylindrical shaft 44 of the construction panel shown in Fig. 16, etc. and theshaft 44 is pressed downward to joint the concave jointing element and convex jointing element with each other, thereby making thehandle 140h unnecessary. Further, theconcave jointing element 2 and thebody 4a may engage with each other in a state where they contact each other, and they are jointed by an electrothermic plate 142i provided at the lower portion of thebody 4a, or theprotrusion 140d may be omitted. If theconcave jointing element 2 andconvex jointing element 4 are made of other materials, resin may be attached to a surface where theconcave jointing element 2 and theconvex jointing element 4 contact the electrothermic plate. Further, the electrothermic plate may be provided between the surfaces of the panels where they contact each other. An adhesive may be used instead of the electrothermic plate. The jointing plate may be provided at both end surfaces of the panels by the electrothermic plate or adhesive. - The examples shown in Figs. 40 to 44 are a second type jointing elements, in which the convex jointing element is embedded into the lower portion of the panel body so that the jointing portion of the convex jointing element protrudes from the lower end surface while a concave jointing element is embedded into the upper end surface of the panel body at the position corresponding to the convex jointing element, thereby jointing the upper and lower panels with each other.
- In the embodiment shown in Fig. 40, the
concave jointing element 2 and theconvex jointing element 4 having the same function as those shown in Figs. 8 and 9 are used. The different point is that a portion to be embedded 151 of theconvex jointing element 4 is embedded into the lower portion of thepanel body 1, and ananchor collar 152 having an appropriate shape is provided for enforcing theconvex jointing element 4, as the need arises. A bottom plate corresponding to theconvex jointing element 4 is provided in theconcave jointing element 2.Protrusions 28 of theconcave jointing element 2 are separately provided from theconcave jointing element 2. - The embodiment shown in Fig. 41 is an applied example of that shown in Fig. 7. A
horizontal holding pawl 153 or aperpendicular holding pawl 154 is provided on the inner surface of theconcave jointing element 2 which is embedded into the upper portion of the panel at the position corresponding to theconvex jointing element 4, while ahorizontal pawl 155 or aperpendicular holding pawl 156 is provided on theconvex jointing element 4 corresponding to the holdingpawls convex jointing element 4 is hollow and is elastically deformable. The holdingpawls concave jointing element 2 may be provided at both sides thereof. - In each embodiment shown in Fig. 42, the
concave jointing element 2 and theconvex jointing element 4 having the same function as those shown in Figs. 13 and 14 are employed. In the embodiment in Fig. 42 (B), theconcave jointing element 2 and theconvex jointing element 4 in Fig. 42 (A) are respectively halved. Holdingpawls concave jointing element 2, as the need arises, and holdingpawls convex jointing element 4, as the need arises. - In the embodiments shown in Fig. 44, the two panels are jointed with each other by two operations. In these embodiments, the
concave jointing element 2 has a box shape and the bottom surface of ahollow portion 170 thereof is enlarged in trapezoidal shape to form a dovetail-shapedrecess 171, and a part of the box is cut to form aguide passage 172. Meanwhile, theconvex jointing element 4 has a tenon-shapedprotrusion 174 which is enlarged in a trapezoidal shape at the tip end of abody 173 thereof. Accordingly, thebody 173 of theconvex jointing element 4 which protrudes from the lower end of the panel Pb is inserted into thehollow portion 170 of theconcave jointing element 2 along theguide passage 172 of the lower stage panel Pa, then thebody 173 is moved to the right and left of thepanel body 1 so that aprotrusion 174 and therecess 171 of theconcave jointing element 2 engage with each other. By the engagement operation between theseconcave jointing element 2 and theconvex jointing element 4, the upper and lower panels Pa and Pb are jointed with each other. According to this method, sinceconcave jointing element 5 andconvex jointing member 6 shown in Fig. 1 cannot be used for jointing the laterally adjoining panels,crescents panel bodies 1, described later, may be employed. In the embodiment shown in Fig. 43, theconcave crescent 175 and theconvex crescent 176 are respectively fixed to theconcave jointing elements 7 by atenon 177, abolt 178 and awing nut 179, but they may be fixed directly to thepanel body 1 by a bolt and a nut without resorting to the concave jointing member. The jointing method comprises permitting the right and left end surfaces of the adjoining panels to be brought into contact with each other, then turning theconvex crescent 176 to engage the tip end thereof into the hole of theconcave crescent 175, and fastening them by thewing nut 179. As another method, a known crescent which is used for a wind frame can be used. - In the embodiment shown in Fig. 45 which is an applied example of the concave jointing element and the convex jointing element shown in Fig. 5, the cylindrical
lower portion 3b is removed and theconvex jointing element 4 engages in theconcave jointing element 2 while theconvex jointing element 4 is exposed so that the upper and lower panels Pa and Pb are jointed with each other. - The embodiment shown in Fig. 46 is an applied example of the jointing method shown in Fig. 17. The
convex jointing element 4 is fixed to the panel body at the upper portion thereof, and has a hole having a proper shape in which awedge 180 is inserted around the tip end thereof. Thewedge 180 may have a proper shape such as a tapered shape, a hook shape, a rod shape or a screw shape. The jointing procedure is as follows. First, the upper stage panel Pb is placed on the lower stage panel Pa, then one or more than two of theconvex jointing elements 4 which protrude from the lower end surface of the upper stage panel Pb enter theconcave jointing element 2 provided at the upper end surface of the lower stage panel Pa. Then thewedge 180 is inserted into thehole 181 defined in thepanel body 1 and theconcave jointing element 2 of the lower stage panel Pa or that defined in the lower stage panel Pa and then fixed to the hole of theconvex jointing element 4. In this case, thehole 181 has a laterally lengthwise shape, and the surfaces of the panels Pa and Pb and the lateral direction thereof are respectively dusted by thehole 181, thereafter they are fastened by anut 182. Since there is a gap between theconcave jointing element 2 and theconvex jointing element 4, they can be adjusted by the gap. If there is a stage or difference between the back surfaces of the lower stage panel Pa and upper stage panel Pb, a packing 183 may be interposed in the stage or difference. Further, ajointing rod 184 like the attachingmembers 11 in Fig. 2 may be used to enforce the jointing between the upper and lower panels Pa and Pb. The positional adjustment between the upper and lower panels Pa and Pb may be used in the jointing methods which have been already described or will be described later. - Fig. 47 to Fig. 52 are a third type jointing elements, wherein the concave jointing member is embedded into the upper end surface or the lower end surface of the
panel body 1, then aconvex jointing element 4 is fixed to either of the concave jointing element on the upper end or lower surface of the panel body to protrude therefrom at the side, thereby forming the convex jointing element, and thus formed convex jointing element and another concave jointing element of another panel engage with each other to joint the panels. This type of jointing element is excellent in that conveyance and storage of the panels are easy, and that the lower stage panel can be jointed with the upper stage panel by merely hanging and lowering the upper stage panel. - In the embodiment shown in Fig. 47 which are applied example of those shown in Figs. 8, 9 and 40, wherein the function and material of the former is the same as those of the latter. The
concave jointing element 2 having the same shape is embedded into the upper end surface or the lower end surface of thepanel body 1 at one section or more than 2 sections. Although the directions ofrecesses 200 of a convex jointing element 4' are differentiated along the boundary of the center line a for preventing the convex jointing element 4' from being dropped when the convex jointing element 4' engage in theconcave jointing element 2. When the convex jointing element 4' engage in theconcave jointing element 2 of the upper stage panel Pb to form theconvex jointing element 4 as shown in Fig. 47 (B), then theconvex jointing element 4 and theconcave jointing element 2 of the lower stage panel Pa engage with each other to joint the upper and lower panels Pa and Pb with each other. - The embodiment shown in Fig. 48 is an applied example of the jointing member shown in Fig. 47 and Fig. 14. In this embodiment, the
concave jointing elements 2 respectively used for the lower stage panel Pa and the upper stage panel Pb are different from each other in shape. Even if theconcave jointing elements 2 used in the upper end surface and lower end surface of the panels may have different shapes, theconvex jointing element 4 is formed by using the convex jointing element 4' having the shape corresponding to the shapes of theconcave jointing elements 2. - The embodiment shown in Fig. 49 is an applied example of the jointing member shown in Fig. 16. The
concave jointing element 2 and the convex jointing element 4' in this embodiment are circular in horizontal section. - In the embodiment shown in Fig. 50, a
body 210 of the convex jointing element 4' comprises anupper portion 211 and alower portion 212 which are respectively separately provided, wherein the outer periphery of theupper portion 211 having a male screw is screwed in a female screw of thelower portion 212. These upper andlower portions panel body 1 to form theconvex jointing element 4. Then, thelower portion 212 of theconvex jointing element 4 engages in theconcave jointing element 2 of the lower panel, so that arecess 213 and aprotrusion 214 engage with each other to joint the upper and lower panels. - In the embodiment shown in Fig. 51, a screw is not provided on the inner wall of the concave jointing element 2' of the upper stage panel Pb, but a filling
space 214 is provided between theupper portion 211 of the convex jointing element 4' and the inner wall of the concave jointing member 2', and further a fillinghole 215 communicating with the filling space is provided from the outside. After theupper portion 211 of the convex jointing element 4' is inserted into the concave jointing element 2' of the upper stage panel Pb, the filling material C is introduced into the fillingspace 214 through the fillinghole 215 so that the hardened filling material C engages with themale screw 211a of theupper portion 211 of the convex jointing element 4' to fix the convex jointing element 4' to the concave jointing element 2'. The filling material C may be the same as that explained in Fig. 37 or may be replaced by an adhesive. Further, in this embodiment, aprotrusion 217 of theconcave jointing element 2 engaging with arecess 216 of theconvex jointing element 4 is separately manufactured. - In the embodiment shown in Fig. 52, the
upper portion 211 of the convex jointing element 4' is fixed to the inner surface of the concave jointing element 2' by an adhesive. Thelower portion 212 of the convex jointing element 4' has anelastic leg 220, and the holding pawl provided at the tip end thereof and a holdingpawl 222 of theconcave jointing element 2 engage with each other so that theconvex jointing element 4 andconcave jointing element 2 are jointed with each other. - The convex jointing element 4' may be provided in the concave jointing element 2' which is directly formed on the
panel body 1 without using a molded concave jointing element 2'. - The shape and function of the jointing members are explained by exemplifying the first to third types of jointing elements. Although all the combinations thereof are not illustrated, it is possible to use all types of jointing elements by appropriately combining them.
- A method of coping with a bending moment between the panels has been already explained with reference to Fig. 2 and Fig. 3 by attaching the attaching member to the upper and lower panels bridging thereover by way of the concave jointing members provided at the back surface of the construction panel. Other examples of a method of reinforcing the jointing members will be now described hereinafter.
- In the example shown in Fig. 53, a pawl 300a provided at the lower end of an attaching
member 300 engages with apawl 302 provided at the moldedproduct 301 constituting a dovetail of a concave jointing member at the back surface of the lower stage panel Pa. Accordingly, the attachingmember 300 serves as the jointing member of the upper and lower panels Pa and Pb, and can restrain the lower end of the attachingmember 300 from moving downward or upward when it receives a positive or a negative bending moment at the jointing boundaries between the back surfaces of the upper and lower panels Pa and Pb, so that it can withstand against the bending stress which the upper and lower panels Pa and Pb receive. - The attaching
member 300 alone may be used without using theconcave jointing element 2 and theconvex jointing element 4 or theconcave jointing element 2 and theconvex jointing element 4 and the attachingmember 300 may be used together. - A decorative layer M which is formed by sticking tiles is provided on the surfaces of the upper and lower panels Pa and Pb. When the attaching
member 300 is fixed to thepanel body 1 by abolt 304 which is embedded into atenon 303 which engages in the dovetail of theconcave jointing elements 7, if it is fastened by aneye nut 305, the opposing panels can be jointed with each other by ajointing rod 306 by way of an eye hook and the like as a joint. - There is a method for coping with a large bending moment, for example as shown in Figs. 54 and 55. An attaching
member 310 in this example is fixed to the dovetail of theconcave jointing elements 7 of the upper stage panel Pb by atenon 311 and awing nut 312, and it is brought into close contact with the back surface of thepanel body 1. However, arecess 313 is provided on a pillar like theconvex jointing element 4 shown in Fig. 8. Meanwhile, abottomless box body 317 provided with aprotrusion 316 like theconcave jointing element 2 shown in Fig. 8 is attached to the back surface of thepanel body 1 by atenon 314 inserted into a dovetail of a concave jointing elements 7' of the lower panel Pa and by awing nut 315. - The attaching
member 310 andbox body 317 may be directly attached to thepanel body 1 by a bolt, etc. without using one of or both of theconcave jointing elements 7 and 7'. - When the lower portion of the attaching
member 310 engages in thebox body 317 provided thereunder, therecess 313 of the attachingmember 310 and theprotrusion 316 of thebox body 317 engage with each other. Accordingly, even if the jointing boundary between the upper and lower panels Pa and Pb receive a large negative moment, it can cope with such moment since the attachingmember 310 is brought into close contact with the back surfaces of the upper and lower panels Pa and Pb and therecess 313 andprotrusion 316 engage with each other. If astep portion 318 is provided at the middle portion of the attachingmember 310 in the vertical direction, and the attachingmember 310 engages in thebox body 317 so that thestep portion 318 contacts an upperside end surface 319 of thebox body 317, it is possible to restrain the attachingmember 310 from being moved downward particularly when the attachingmember 310 receives a positive moment. - The aforementioned example exemplifies that a horizontal concave jointing member or a tenon is provided on the back surface of the
panel body 1 at one section or more than two sections, the position of these members are not limited thereto but they may be provided at one or more than two sections in the perpendicular direction. In the latter case, thebox body 317 and attachingmember 310, or a jointing rod may be provided at upper and lower ends thereof, as the need arises. Further, it is possible to provide a horizontal concave jointing member at the upper portion of the panel body and possible to provide a perpendicular tenon at the lower portion of the panel body. In such a manner, respective members may be provided at one or more than two sections and the horizontal and perpendicular directions thereof may be combined with each other. - Fig. 56 shows a method of jointing right and left panels. That is, a
convex jointing member 62a having a shape of tenon is provided on a side surface end of one side or both sides of a construction panel P, then aconvex jointing element 4 is provided at the lower end thereof. A groove-shapedconvex jointing member 62 is fixed to the side surface end of another construction panel P. Further, aconcave jointing element 2 is provided on the central upper end surface of thepanel body 1. When adjoining construction panels P are jointed with each other, theconvex jointing member 62a and theconvex jointing element 4 provided thereunder respectively engage in the groove of theconvex jointing member 62. Accordingly, theconvex jointing element 4 and theconcave jointing element 2 are jointed with each other by elastic operation. In this case, the assembling method is limited to a zigzag arrangement. Further, if theconcave jointing element 2 is provided on the upper end of theconvex jointing member 62, the through joint can be assembled Accordingly, it is possible to assemble various joint patterns by combining a plurality of concave jointing members and convex jointing members. Further, it is also possible to use the panel alone which panel has theconvex jointing member 62 having theconcave jointing element 2 at the upper end thereof and theconvex jointing member 62a. - Also in the embodiment shown in Fig. 57, the upper and lower panels are jointed with each other using the concave jointing members provided at the back surface of the panel body. An attaching
member 320 having a trapezoidal expandedportion 320a provided at the lower end of the pillar shaped body portion is prepared. The attachingmember 320 is inserted into abolt 322 of atenon 321 which is also inserted into a dovetail of the concave jointing member, not shown, and it is fastened by awing nut 323, then it is fixed to the panel body. Further, a fixingmember 324 having arecess 324a for receiving the expandedportion 320a of the attachingmember 320 is prepared. When the attachingmember 320 engages in the fixingmember 324, the upper and lower panels are jointed with each other by the engaging operation between therecess 324a and the expandedportion 320a. - Attaching members, which have been explained with reference to Figs. 53 to 57, also serve to joint upper and lower panels.
- Fig. 58 is a perspective view of a construction panel P according to another embodiment. The construction panel P of this embodiment comprises a framework composed of upper and
lower receiving plates 341 and frames 342 for connecting the upper andlower receiving plates 341 and amesh body 343 made of metal or synthetic resin is attached to the framework. Each of the upper andlower receiving plates 341 is made of metal or synthetic resin and has a U-shaped channel rail shaped in cross section, concave jointing means 344 are defined on the upper surface of theupper receiving plate 341, namely, on end edge surface of the construction panel P wherein the concave jointing means 344 are arranged in parallel with each other to be opened, while convex jointing means 345 are fixed to the lower surface of thelower receiving plate 341 bybolts 346 at the positions corresponding to the concave jointing means 344. Pillar-shapedbodies 347 inserted into respective ends of the upper andlower receiving plates 341 form convex jointing means for connecting right and left panels, while the other respective ends of the receivingplates 341 form concave jointing means, wherein the pillar-shapedbodies 347 are fixed bywing nuts 348 by way ofgrooves 347a which are provided depending on the necessity. The opposing panels are jointed with each other byjointing rods 9. Themesh body 343 and the receivingplates 341 can be formed integrally by molding. - In the method of jointing panels shown in Fig. 59 is an application of the jointing method shown in Fig. 51. Although the
lower portion 350 of theconvex jointing element 4 is pillar-shaped and hasrecesses 350a and also hasprotrusions 350b.Ribs 360a protrude from the pillar-shapedupper portion 360 of theconvex jointing element 4. Theconcave jointing element 2 is a bottomless box andprotrusions 371 protrude from the inner surface of thehollow portion 21 of theconcave jointing element 2. Theconcave jointing element 2 is fixed to the back surface of thepanel body 1 in the same manner as set forth above by atenon 381 and awing nut 382 utilizing theconcave jointing elements 7. Meanwhile, the concave jointing element 2' is a box having a bottom and it is fixed to the back surface of the panel body 1' likewise by a tenon and a wing nut. - The
lower portion 350 of theconvex jointing element 4 is inserted into the recess of theconcave jointing element 2 attached to the lower stage panel Pa until theprotrusions 350 of thelower portion 350 contacts theupper end surface 372 of theconcave jointing element 2, so that therecesses 350a engage withprotrusions 371, thereby engaging theconcave jointing element 2 with theconvex jointing element 4. Thereafter, the upper stage panel Pb is lowered to insert the concave jointing element 2' attached to the upper stage panel Pb into the protrudingupper portion 360 of theconvex jointing element 4, then a filling material is introduced through agrout introduction hole 361 and hardened, so that the upper and lowerconcave jointing elements 2 and 2' engage with each other by way of theconvex jointing element 4. As a result, the upper and lower panels Pa and Pb are jointed with each other. In this embodiment, thelower portion 350 may be inserted into theconcave jointing element 2 after theupper portion 360 of theconvex jointing element 4 engages in the concave jointing element 2' in advance while the gap therebetween is filled with the filling material. - Although Figs. 54 to Fig. 59 explain an example of first to third types of jointing elements, they can be variously selected and independently used or used in combination together with the first to third types of jointing elements. Further, a shielding plate or a decorative plate may be provided. Accordingly, it is needless to say that the techniques which are explained with reference to Figs. 1 to 59 can be selected and combined with one another depending on the condition of the site, and they can be modified appropriately within the scope of the technical concept.
- As mentioned above, the construction panel P of the present invention can be easily assembled, and the jointing strength between panels is high, and hence they can be suitably used for the walls surrounding buildings, outer and inner walls or partition walls of buildings, supporting walls, and also for construction of concrete structures such as engineering buildings.
- Further, it is possible to save energy by attaching the shielding plate, etc. on the panel body.
- The advantage for constructing the panels of the invention is to joint the upper and lower and right and left and opposing panels with one another simply and quickly without using instruments or auxiliary material and without resorting to skilled workers, and to assemble the panels with high accuracy and precision, since the jointing members and connecting members engage with one another, thereby enhancing economical effect.
Claims (20)
- Panels for construction each including a pair of jointing elements provided on a panel body at upper, lower and back end surfaces thereof or on a back surface thereof for jointing panels for construction which are piled vertically, wherein one jointing element is a concave jointing element and the other jointing element is a convex jointing element.
- Panels for construction according to Claim 1, wherein one of jointing elements is formed of a box-shaped concave jointing element and the other thereof is formed of a pillar-shaped convex jointing element.
- Panels for construction according to Claim 2, wherein each of the pair of jointing elements is formed of a concave jointing element in advance, and wherein one jointing element is a concave jointing element as it is while the other jointing element is a convex jointing element which is formed by fixing a separately prepared convex jointing element to the concave jointing element so as to protrude therefrom.
- Panels for construction according to Claim 2, further comprising cylindrical bodies provided to extend from the bottom surface of the concave jointing element to a lower end of the panel body, and convex jointing elements disposed inside the cylindrical bodies for engaging with each concave jointing element of a lower stage panel.
- Panels for construction according to Claim 1, wherein one of jointing elements is formed of a box-shaped concave jointing element and the other thereof is formed of a pillar-shaped convex jointing element, and further comprises a jointing plate provided at either surface where the concave and convex jointing elements contact or at one of or both surfaces where one panel body contacts another panel body.
- Panels for construction according to any of Claims 1 to 5, further comprising connecting members provided on the panel body at a back surface thereof for connecting opposing panels for construction or for connecting the panel for construction with a temporary member.
- Panels for construction according to any of Claims 1 to 6, further comprising one of or both of a jointing element and a jointing plate provided at portions close to lateral ends of the panel body for jointing panels for construction which adjoin with each other in a lateral direction.
- Panels for construction according to any of Claims 1 to 7, wherein the panel body is L-shaped.
- Panels for construction according to any of Claims 1 to 8, wherein the panel body is curved.
- Panels for construction according to any of Claims 1 to 9, wherein the panel body is formed of a framework.
- Panels for construction according to any of Claims 1 to 10, further including a shielding plate which is mounted on the panel body at one of or both of front and back surfaces of the panel body.
- Panels for construction according to any of Claims 1 to 11, further comprising a decorative plate which is mounted on a front surface of the panel body.
- A method of jointing panels for construction comprising using panels for construction including a pair of jointing elements provided on a panel body at upper and lower end surfaces thereof or at a back surface thereof for jointing panels for construction which are piled vertically, wherein one jointing element is a concave jointing element and the other jointing element is a convex jointing element, placing an upper stage panel on a lower stage panel so that end surfaces thereof flush with each other, and engaging the concave jointing element with the convex jointing element so as to joint the upper stage panel and lower stage panel.
- The method of jointing panels for construction according to Claim 13, comprising using panels for construction including one jointing element formed of a box-shaped concave jointing element and the other thereof formed of a pillar-shaped convex jointing element, and engaging the convex jointing element with the concave jointing element so as to joint the upper stage panel with the lower stage panel.
- The method of jointing panels for construction according to Claim 13, comprising using panels for construction including a concave jointing element which is embedded in an upper end surface of the panel body, a cylindrical body provided in the concave jointing element which extends from a bottom surface of the concave jointing element to the lower end of the panel body, and a convex jointing element provided in the cylindrical body, placing the upper stage panel and the lower stage panel vertically, and lowering the convex jointing element provided in the cylindrical body of the upper stage panel to engage in the concave jointing element of the lower stage panel so as to joint the upper stage panel with lower stage panel.
- The method of jointing panels for construction according to Claim 13, further comprising preparing panels for construction comprising one jointing element formed of a box-shaped concave jointing element and the pillar thereof formed of a pillar-shaped convex jointing element, and a jointing plate provided on the concave and convex jointing elements at either portion where the concave and convex jointing elements contact each other, or at one of or both of portions where adjoining panel bodies contact each other so as to joint the upper stage panel with lower stage panel.
- The method of jointing panels for construction according to any of Claims 13 to 16, wherein the opposing construction panels or the construction panel and a temporary member are connected with each other by jointing members provided on the panel body at a back surface thereof.
- The method of jointing panels for construction according to any of Claims 13 to 17, wherein the panels which adjoin one another in a lateral direction are jointed with one another by jointing members or jointing plates which are provided at both lateral ends or at neighboring portions thereof.
- The method of jointing panels for construction according to any of Claims 13 to 18, wherein the panels are assembled with one another with assistance of a temporary member of the panel body.
- The method of jointing panels for construction according to any of Claims 13 to 19, wherein a filling material is filled between the opposing panels for construction.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/JP1997/003596 WO1999018298A1 (en) | 1997-10-08 | 1997-10-08 | Structure panel and method of connecting same |
Publications (1)
Publication Number | Publication Date |
---|---|
EP0943742A1 true EP0943742A1 (en) | 1999-09-22 |
Family
ID=14181279
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP97944084A Withdrawn EP0943742A1 (en) | 1997-10-08 | 1997-10-08 | Structure panel and method of connecting same |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP0943742A1 (en) |
AU (1) | AU3123199A (en) |
CA (1) | CA2274170A1 (en) |
IL (1) | IL130136A0 (en) |
WO (1) | WO1999018298A1 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2093342A2 (en) * | 2008-02-22 | 2009-08-26 | Christoph Sterr | Lost formwork element, formwork and application of same |
EP2873778A1 (en) * | 2013-11-13 | 2015-05-20 | PreConTech Precast Concrete Technology e.K. | Connection arrangement and connection system for prefabricated concrete elements |
WO2015070956A1 (en) * | 2013-11-13 | 2015-05-21 | Precontech Precast Concrete Technology E.K. | Connection arrangement and connection system for precast concrete parts |
WO2019218068A1 (en) | 2018-05-15 | 2019-11-21 | Oldcastle Building Products Canada Inc. | Modular building system for hardscape structure |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106854906A (en) * | 2017-02-16 | 2017-06-16 | 青岛实大传伟节能科技有限公司 | Connection cast-in-situ steel reinforced concrete assembled wall in a kind of double-template assembled |
CN106639300A (en) * | 2017-02-16 | 2017-05-10 | 青岛实大传伟节能科技有限公司 | Assembly type inner connecting concrete heat preservation formwork and concrete formwork for building |
JP6882750B1 (en) * | 2021-01-13 | 2021-06-02 | 美藤 雅康 | A concrete pole made of plate material with dovetail grooves. |
JP6932879B1 (en) * | 2021-02-10 | 2021-09-08 | 美藤 雅康 | A multi-purpose prop made of dovetailed plate material. |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS625443Y2 (en) * | 1981-02-06 | 1987-02-07 | ||
JPH0227048Y2 (en) * | 1985-10-11 | 1990-07-23 | ||
JPH02256733A (en) * | 1989-03-29 | 1990-10-17 | Takenaka Komuten Co Ltd | Manufacture of surface-finished concrete structure and surface finishing material therefor |
JPH08165727A (en) * | 1992-03-24 | 1996-06-25 | Takeshige Shimonohara | Construction panel body and joint method thereof |
-
1997
- 1997-10-08 IL IL13013697A patent/IL130136A0/en unknown
- 1997-10-08 EP EP97944084A patent/EP0943742A1/en not_active Withdrawn
- 1997-10-08 WO PCT/JP1997/003596 patent/WO1999018298A1/en not_active Application Discontinuation
- 1997-10-08 CA CA002274170A patent/CA2274170A1/en not_active Abandoned
-
1999
- 1999-05-24 AU AU31231/99A patent/AU3123199A/en not_active Abandoned
Non-Patent Citations (1)
Title |
---|
See references of WO9918298A1 * |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP2093342A2 (en) * | 2008-02-22 | 2009-08-26 | Christoph Sterr | Lost formwork element, formwork and application of same |
EP2093342A3 (en) * | 2008-02-22 | 2014-02-19 | Christoph Sterr | Lost formwork element, formwork and application of same |
EP2873778A1 (en) * | 2013-11-13 | 2015-05-20 | PreConTech Precast Concrete Technology e.K. | Connection arrangement and connection system for prefabricated concrete elements |
WO2015070956A1 (en) * | 2013-11-13 | 2015-05-21 | Precontech Precast Concrete Technology E.K. | Connection arrangement and connection system for precast concrete parts |
WO2019218068A1 (en) | 2018-05-15 | 2019-11-21 | Oldcastle Building Products Canada Inc. | Modular building system for hardscape structure |
EP3814575A4 (en) * | 2018-05-15 | 2021-12-29 | Oldcastle Building Products Canada Inc. | Modular building system for hardscape structure |
Also Published As
Publication number | Publication date |
---|---|
WO1999018298A8 (en) | 1999-06-03 |
CA2274170A1 (en) | 1999-04-15 |
IL130136A0 (en) | 2000-06-01 |
AU3123199A (en) | 1999-11-04 |
WO1999018298A1 (en) | 1999-04-15 |
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