JP6437760B2 - Architectural receptacle - Google Patents

Description

  The present invention relates to an architectural receiver that can be attached to a structural material very easily and quickly without using welding means in the construction of a roof and can be adapted to structural materials of various sizes.

  Conventionally, in order to construct a metal folded plate roof, as a method for attaching a receiver to a structural material such as a purlin, a trunk edge, etc. using a steel shape such as H-type, I (eye) type or lip groove type steel. The method of attaching by welding is used. However, on-site welding is proceeding in a direction where it is not used gradually from the standpoints of fire safety and the necessity of installation to prevent sparks from being scattered at construction sites. Further, in the welding work, the quality of the finish is generated depending on the skill of the worker, and there is a problem that the mechanical strength varies.

  In particular, in the mounting of the receiver to the structural material in the construction of the folded plate roof described above, the larger the roof area, the larger the number of the receivers. In the construction of the roof of a large facility, a large number of receivers are used. It must be mounted on a structural material, and it takes a lot of time to perform this by welding, and troublesome work such as movement of a welding tool is added. In addition, when a large amount of the receiver is welded to the structural material, it is difficult to obtain a uniform finish, and even if the finish of the place once welded is poor, the repair is extremely difficult.

  Therefore, in recent years, various so-called non-welding methods have been developed that can be mounted without using welding as means for mounting the receiving member to the structural material in the folded-plate roof construction. Patent document 1 exists as an example of mounting | wearing of the receiving tool by this non-welding. Patent Document 1 is capable of attaching a tight frame to a structural material such as a purlin and a trunk edge without welding, and in a folded plate roof mounting tool, tightening tools such as bolts and nuts, It consists of a base metal fitting.

  Fixing the tight frame to the structural material by holding the edge part such as the flange of the structural material with the mounting bracket while holding a part of the tight frame placed on the structural material to the structural material. It is the type to do.

JP 7-18793 A

  In Patent Document 1, in a folded plate roof mounting tool for mounting a structure material such as a purlin / body edge, etc., without welding, the receiving tool is fixed by a tightening tool such as a bolt / nut and a mounting bracket. It is fixed to the structural material. The mounting bracket is fixed to the structural material by holding the edge of the flange of the structural material with the base metal bracket while holding a part of the receiving device placed on the structural material to the structural material. It is the type to do.

  However, in Patent Document 1, as described above, mainly for H-shaped steel or I-shaped steel, the edge portion of the flange portion is attached so as to be held by both base metal fittings. Further, even when the structural material is a lip groove type steel, the outer peripheral portion of the lip groove type steel is held by the both base metal fittings.

  Therefore, in particular, when the structural material is a lip groove type steel, the shape of both the base metal fittings themselves becomes large, the weight becomes heavy, and the work of attaching the tight frame and the base metal fittings to the structural material is very labor intensive. Will do.

  Moreover, H-type steel or I-type steel has various sizes, and therefore the thickness of the flange portion is also different. In Patent Document 1, it is not adapted to such a thing, and it is necessary to provide a plurality of types of base metal fittings having different sizes for the structural materials having different sizes. Furthermore, in Patent Document 1, some of the mounting brackets can be mounted without welding, but the structure is complicated, so that it takes more time than welding and places more burden on the worker.

  As described above, there is a problem that the structure of the receiver itself is complicated and expensive. Therefore, the object (technical problem to be solved) of the present invention is to be welded in the construction of the roof, and not only to H-type steel and I-type steel, but also to lip groove type steel, without changing the parts, An object of the present invention is to provide a building receiver that can be firmly attached to a structural material very easily and can be applied to various sizes of structural materials.

  Accordingly, as a result of earnest and research, the inventor has made the invention of claim 1 centered on the receiving portion main body, the receiving portion main body and the installation position of the receiving portion main body. A rectangular pedestal having through-holes formed on both sides thereof, and two locking members each having a U-shaped cross-section and provided with a tightening screw portion on the upper side, the tightening of the locking member The screw portion is penetrated through the through hole of the pedestal, the locking member is rotatable on a horizontal plane, and is fixed by tightening of the tightening screw portion, and the locking member is a structural material The above-described problems have been solved by using an architectural receiver configured to insert a flange.

The invention of claim 2 includes a receiving part main body, a rectangular pedestal in which through holes are formed on both sides around the installation position of the receiving part main body, and a U-shaped cross section. And two locking members each provided with a tightening screw portion on the upper side, and the tightening screw portion of the locking member is passed through the through hole of the base and the locking member. Is pivotable on a horizontal plane and fixed by tightening of the tightening screw portion, and the pedestal has hanging side plates on both sides in the width direction of the base plate, and the width direction of the locking member is The above-described problems have been solved by using a construction support formed smaller than the interval between the hanging side plates. According to a third aspect of the present invention, in the second aspect , the above-mentioned problem is solved by using a construction support in which either one of the two through holes of the pedestal is a long hole.

According to a fourth aspect of the present invention, in the second aspect , the above-described problem is solved by using a construction support in which both the through holes of the pedestal are long holes. By making the invention of Claim 5 into the construction receiver formed in the description of any one of Claim 2, 3 or 4 in which the lower piece of the locking member is formed shorter than the upper piece. The above problem has been solved. The invention according to claim 6, wherein the upper portion of the receiving portion main body has a high level surface and a low level surface through a step in the description of any one of claims 2, 3, 4 or 5. This solves the above problem.

The invention according to claim 7 is the construction according to any one of claims 2, 3, 4 or 5 , wherein the upper portion of the receiving portion main body is a building support that is a flat surface, thereby solving the above-mentioned problem. did. According to an eighth aspect of the present invention, in the description of any one of the second, third, fourth, fifth, sixth, and seventh aspects, the receiving body is detachable from the pedestal, and the receiving body is by the the building receiving fixture comprising a configuration including a plurality different the heights, the above-mentioned problems are eliminated.

According to a ninth aspect of the invention, in the description of any one of the second, third, fourth, fifth, sixth, seventh, or eighth aspect , the both hanging side plates are rectangular along the longitudinal direction of the pedestal from the lower end. The above-mentioned problems have been solved by using a building support formed with a notch. According to a tenth aspect of the present invention, in the ninth aspect, one of the through holes of the pedestal is a long hole extending in the longitudinal direction, and the other is a tightening screw portion of the locking member in a state where the tightening is released. The above-mentioned problems have been solved by using a construction receiving tool as a through-hole having a diameter at which can swing freely.

  In the invention of claim 1, both the locking members mounted on the pedestal are both U-shaped in cross section and provided with a fastening screw portion on the upper piece side, and the locking member is rotatable on a horizontal plane and By fixing by tightening the tightening screw portion, both U-shaped locking members can be locked to the flange of the H-shaped steel or I-shaped steel. Further, by loosening the tightening screw part and directing both locking members in opposite directions, both locking members can be locked to the end edges of the opposing flanges like lip groove steel.

  Therefore, in the case of the lip groove type steel, there is no need for a large locking member that holds the outer peripheral portion as in the conventional case, and the structural material of the present invention is made of a lip groove type steel with an extremely small locking member. A receiving tool can be attached. As described above, in the present invention, it is very easy to construct a structural material such as H-shaped steel (or I-shaped steel) or lip groove type steel by simply changing the direction of both locking members and fixing them via the fastening screw portion. It can be attached to.

  According to a second aspect of the present invention, the pedestal is formed with hanging side plates on both sides of the base plate in the width direction, and the locking member is formed with a width direction smaller than the interval between the both hanging side plates. With this tightening, the upper side of the locking body of the locking member is housed in the pedestal. When the upper part of the locking body is stored in the pedestal, the portion of the locking body that holds the flange of the structural material narrows in the vertical direction, and the flange is held between the lower end edge of the hanging side part and the locking body It can be fixed with.

  Thus, the structure of the H-shaped steel (or I-shaped steel) or the lip groove-shaped steel can be changed in the vertical dimension of the locking portion of the flange by the locking main body and the hanging side portion of the base. Also in the material, it is possible to cope with various sizes of flanges having different thicknesses.

  In the invention of claim 3, any one of the two through holes of the pedestal is a long hole, so that it can be adapted to sizes of flanges of various different structural materials. Moreover, since one through-hole was not a long hole but a simple circle, the position of the receiving portion main body can always be made uniform in a state in which the building support of the present invention is installed on the structural material. In the invention of claim 4, since both the through holes of the pedestal are long holes, it is possible to increase the degree of freedom of setting the flanges in various sizes of structural materials.

  In the fifth aspect of the invention, the lower piece of the locking member is formed shorter than the upper piece, so that the locking screw of the both locking members is loosened and the both locking members are Since the lower piece can be swung in the longitudinal direction (X direction) and the lower piece is shorter than the upper piece, both the locking members can be structured by simply swinging both locking members outward. It can be configured to be easily mounted on both ends of the flange of the material.

  In the invention of claim 6, the upper portion of the receiving portion main body has a high level surface and a low level surface through a step, so that it can optimally cope with a clamped type folded plate roof plate. In the seventh aspect of the present invention, the upper portion of the receiving portion main body is a flat surface, so that it can optimally cope with a folded roof plate of a fitting type and a superposition type. In the invention of claim 8, the receiving part main body is detachable from the pedestal, and the receiving part main body is provided with a plurality of parts having different heights. It is possible to optimally correspond to the folded roof plate only by selecting the receiving portion main body corresponding to the height dimension and fixing the receiving body to the pedestal via the fixing tool.

  In the invention of claim 9, the rectangular side plates are formed with rectangular notches along the longitudinal direction of the pedestal from the lower end. Thereby, it can fit by inserting in the notch part the width direction (X direction) of the flange of the structural material made into lip groove type steel or H type steel. Then, in addition to the state in which the notch portion and the structural material are fitted, the fastening screw portion of both the locking members is tightened, so that the construction receiving tool of the present invention is extremely strong against the flange of the structural material. In addition, even when an impact is applied, it is possible to make a mounting that is less likely to be displaced from the structural material.

  According to a tenth aspect of the present invention, one of the through holes of the pedestal is a long hole extending in the longitudinal direction, and the other is a state in which the tightening screw portion of the locking member is swingable in a state where the tightening is released. By having a through hole having a diameter, one locking member slides in the longitudinal direction (X direction) of the pedestal, and the other locking member stays at the position where the through hole is formed and simply swings. It is a thing.

  Therefore, when installing the pedestal on the structural material, one of the locking members is slid and the other is swung to narrow the space between the locking members (in the case of lip groove type steel) or expand the space. (In the case of H-shaped steel), the notch portion of the pedestal can be easily fitted to the flange of the structural material, and the work efficiency of mounting the building support of the present invention can be improved.

(A) is a perspective view of the architectural receiver of the first embodiment of the present invention, (B) is an exploded perspective view of the architectural receiver of the first embodiment of the present invention, and (C) is the first of the present invention. It is a front view which shows the state with which the building receiver of embodiment was mounted | worn with the structural material. (A) is a longitudinal sectional front view of the architectural receiver of the present invention, (B) is a cross-sectional view taken along arrow Y1-Y1 in (A), (C) is an enlarged cross-sectional view taken along arrow Y2-Y2 in (A), ( (D), (E) is the principal part expansion vertical front view of the state by which the flange of the structural material was latched by the latching member and the base. (A) is a partially cutaway perspective view of the present invention in which both connecting pieces of both locking members are opposed to each other and the inserted portion is positioned outward, and (B) is an architectural receiver of the present invention. It is the front view made into the partial cross section of the state which mounted | worn the tool to the lip groove type steel. (A) is a perspective view of the construction receiver of 2nd Embodiment in this invention, (B) is a Y3-Y3 arrow expanded sectional view of (A). (A) is an exploded perspective view of the present invention in which both through holes are elongated, and (B) and (C) are state diagrams set to correspond to flanges having different widthwise dimensions in the present invention. is there. (A) is a schematic front view of the present invention used for a clamped type folded plate roof, (B) is a schematic front view of the present invention used for a fitting type folded plate roof, and (C) is the present invention. It is the front schematic diagram which used for the superposition type folded-plate roof. (A) is a perspective view of a third embodiment of the present invention, (B) is a front view of the third embodiment of the present invention, and (C) is an enlarged longitudinal sectional front view of a main part of the third embodiment of the present invention. is there. (A) And (B) is a principal part longitudinal section front view which shows the process of mounting 3rd Embodiment of this invention to a lip groove type steel, (C) has mounted 3rd Embodiment of this invention to the flange of H-shaped steel. It is a principal part front view of a state.

  Embodiments of the present invention will be described below with reference to the drawings. In the present invention, the X direction and the Y direction are used as words indicating directions. In the present invention, the longitudinal direction of the structural member 8 to which the architectural receiver of the present invention is mounted is defined as the Y direction, and the direction perpendicular to the Y direction on the horizontal plane is defined as the X direction. Therefore, the longitudinal direction of the folded plate roof plate 9 constituting the folded plate roof supported by the building receiver is the X direction. The X direction and the Y direction are shown in the figure.

  As shown in FIGS. 1, 2, and the like, the architectural receiver of the present invention mainly includes a pedestal 1, a receiving body 2, and a locking member A. The pedestal 1 is composed of a substantially rectangular base plate 11 and hanging side portions 12 and 12, and the hanging side portions 12 and 12 are drooped substantially along the X direction from both long sides of the base plate 11. Formed (see FIGS. 1 and 2A to 2C, etc.).

  In the base plate 11, two through holes 13, 13 are formed at predetermined intervals along the longitudinal direction (see FIG. 1B). The through-holes 13 and 13 are portions that serve to mount two locking members A and A, which will be described later, to the base 1 [FIGS. 1, 2A, 2C, 2D, 2D] See E)]. Moreover, the base 1 is formed only by the base plate 11, and the drooping side parts 12 and 12 may not be provided.

  The receiving portion main body 2 is formed in a plate shape and a column shape, and is installed on the base plate 11 of the pedestal 1 [see FIGS. 1, 2A, 2B]. More specifically, it is installed at the center position in the longitudinal direction (X direction) of the pedestal 1 [see FIGS. 1 (A), (C), FIG. 2 (A)]. Further, the through holes 13 and 13 formed in the base plate 11 are formed at positions that are spaced from the installation portion of the receiving portion main body 2 at substantially equal intervals with the receiving portion main body 2 on the base plate 11 as the center. The

  The receiving part main body 2 includes a columnar part 21, a base part 22, and a top part 23 (see FIGS. 1A, 1B, and 2B). In the present invention, there are first to third embodiments depending on the shape of the top 23 of the receiving body 2 and the configuration of the base 1. First, the first embodiment will be described. The receiving body 2 is composed of two receiving halves 21a and 21b, and both receiving halves 21a and 21b are connected by a connecting tool 21c such as a rivet, bolt / nut or welding [FIG. FIG. 2 (A) and FIG. 2 (B)].

  Each of the receiving half halves 21a and 21b is formed by bending so that the metal strip plate as a whole has a substantially “U” shape and an inverted “U” shape [FIG. 1 (A), (B ), FIG. 2 (B)]. And a rib is formed in the width direction (X direction) both sides of receiving part half-body 21a, 21b, and the receiving part main body 2 may be reinforced. The columnar portion 21 composed of the two receiving half halves 21 a and 21 b rises vertically on the base plate 11.

  The base portion 22 of the receiving portion main body 2 is a flat surface portion that is perpendicular to the columnar portion 21 and is formed in each of the receiving portion halves 21a and 21b. A mounting hole 25 is formed in the base 22, and a mounting hole 14 is formed in the base plate 11 of the base 1. The base 22 and the base plate 11 of the pedestal 1 are fixed by the fixing tool 5 including the bolt 51 and the nut 52 through the mounting hole 25 and the mounting hole 14.

  That is, the receiving part main body 2 is configured to be detachable from the base plate 11 of the base 1 via the fixing tool 5 (see FIG. 1B). Moreover, the receiving part main body 2 may be fixed to the base 1 so as not to be detachable by welding or the like. A stepped shape of the top portion 23 as in the first embodiment is suitable for an enclosure made up of a crease-type folded plate roof plate 9 (see FIG. 6A).

  In the case where the top portion 23 has a stepped shape, it is formed of a low level surface 23a, a high level surface 23b, and a stepped portion 23c [see FIGS. 1A, 1B, 2B]. A vertical stepped portion 23c is formed from one end in the Y direction of the substantially rectangular low-order surface 23a, and a substantially rectangular high-order surface 23b is formed from the upper end of the stepped portion 23c.

  Specifically, the height of the two receiving part halves 21a and 21b is different, and the receiving part half 21a is formed lower than the receiving part half 21b. And the low level surface 23a is formed in the receiving part half body 21a side, and the high level surface 23b and the level | step-difference part 23c are formed in the receiving part half body 21b [refer FIG. 1 (A), (B), FIG. 2 (B). ].

  The lower surface 23a is a part where a hanging member 95 for fixing the clamped type folded plate roof plate 9 is installed (see FIGS. 1 and 2B, etc.). A bolt shaft portion 24 for attaching the hanging member 95 is fixed to the lower surface 23a. The flat top portion 23 is suitable for an enclosure made of a fitting type or superposed type folded plate roof plate 9 (see FIGS. 6B and 6C).

  In 2nd Embodiment, the top part 23 is made into flat shape, the height of both receiving part half bodies 21a and 21b shall be the same, and the level | step-difference part 23c shall not be provided [FIG. 4 (A), ( See B)]. That is, the lower surface 23a on the receiving half 21a side and the high surface 23b on the receiving half 21b side have the same height. The bolt shaft portion 24 is fixed to the top portion 23 such that the vicinity of the bolt head portion 24a is sandwiched between the receiving portion halves 21a and 21b (see FIG. 4B).

  As described above, the receiving portion main body 2 is configured to be detachable from the base plate 11 of the base 1 via the fixing tool 5. Therefore, a plurality of types of receiving body 2 having different heights are provided, and an appropriate one is selected from the plurality of types and fixed to the base 1 via the fixing tool 5. Specifically, the height of the receiving unit body 2 is set to Ha, Hb, Hc, etc., and is appropriately selected from these and attached to the pedestal 1 via the fixing tool 5 so that the site Can be adapted to various folded roof plates 9 having different height sizes (see FIG. 2B).

  That is, it corresponds to the folded-plate roof board 9 of various height sizes, such as tightening, fitting, or superposition, by a set of architectural receivers comprising the base 1 and a plurality of types of receiving body bodies 2, 2,. be able to. In addition, a plurality of types having different shapes of the top portion 23 of the receiving portion main body 2 are prepared, an appropriate one is selected from the plurality of types, and is fixed to the pedestal 1 via the fixing tool 5. Thereby, it is possible to cope with various types of folded roof plates 9 such as tightening, fitting or superposition (see FIG. 6).

  Next, the locking member A is composed of a locking main body 3 having a substantially U-shaped cross section and a fastening screw portion 4 (see FIGS. 1B and 2). The locking body 3 includes an upper piece 31, a lower piece 32, and a connection piece 33, and is formed so as to constitute a substantially U-shaped cross section as a whole [FIGS. 1 (B), (C), See FIGS. 2A, 2D, and 2E].

  Specifically, the locking body 3 is formed by integrally forming a band-shaped metal plate so that the cross section has a substantially “U” shape, and is substantially suspended from one end of a substantially rectangular upper piece 31. The connection piece 33 is formed on the upper side of the connection piece 33 so as to extend from the lower end of the connection piece 33 in the same direction as the upper piece 31.

  The connection piece 33 is a part that connects the upper piece 31 and the lower piece 32 (see FIG. 1B), and is a part that is formed perpendicular to the upper piece 31 and the lower piece 32. Moreover, the connection piece 33 may be formed in a circular arc shape in cross section along the vertical direction. In the locking member A, the portion located on the opposite side of the connection piece 33 is a mere opening, and this is referred to as an insertion portion 34. Then, the flange portion of the structural member 8 is inserted into the locking member A from the inserted portion 34 [see FIG. 1 (C), FIG. 2 (D), (E)].

  The upper piece 31 and the lower piece 32 are formed to be substantially parallel with an appropriate interval. The distance between the upper piece 31 and the lower piece 32 is such that the end portion of the flange 81a of the H-shaped steel 81 (or I-shaped steel) of the structural material 8 to be described later is inserted. The portion 81a can be inserted.

  A fastening screw portion 4 is mounted on the upper piece 31 of the locking member A (see FIGS. 1B, 2A, 2C, and 2E). The tightening screw portion 4 includes a screw shaft portion 41 and an inner screw member 42, and the inner screw member 42 is screwed into the screw shaft portion 41. Specifically, a bolt is used for the screw shaft portion 41, and a nut is used for the inner screw member 42. The screw shaft portion 41 is fixed to the upper surface side of the upper piece 31 of the locking body 3.

  When the screw shaft portion 41 is a bolt, it is preferable that the bolt head has a flat disk shape. The screw shaft portion 41 is formed with a hole at a substantially intermediate position of the upper piece 31, and is fixed by press-fitting the screw shaft portion 41 into the hole. Further, the screw shaft portion 41 may be fixed to the upper piece 31 by welding.

  The longitudinal direction of the lower piece 32 of the locking member A is formed shorter than the longitudinal direction of the upper piece 31 (see FIGS. 1B, 2A, 2D, and 2E). Specifically, the length of the lower piece 32 in the longitudinal direction may be about half or less than the length of the upper piece 31 in the longitudinal direction. If the strength of the metal of the locking member A is extremely strong, the length of the lower piece 32 may be extremely small.

である。 The length dimension Wb of the locking member A in the width direction (Y direction) of the locking main body 3 is a distance dimension between the inner surface sides of the both hanging side portions 12 and 12 on both sides in the width direction (Y direction) of the base 1. It is formed smaller than Wa [see FIGS. 2B and 2C].
That means

It is.

  Here, the length dimension Wb in the width direction (Y direction) of the latching main body 3 is larger than the interval dimension Wa so that the latching main body 3 cannot rotate between the two hanging side portions 12 and 12. Set small. Therefore, the length dimension Wb is preferably slightly smaller than the interval dimension Wa [see FIG. 2C].

  As a result, the width direction (Y direction) of the locking body 3 of the locking member A can be accommodated in both hanging side portions 12 and 12 on both sides in the width direction (Y direction) of the base 1 (FIG. 2). That is, the upper part of the locking body 3 of the locking member A is accommodated in the base 1. In a state where the locking main body 3 is housed in the both drooping side portions 12 and 12 of the base 1, the locking main body 3 is surrounded by the both drooping side portions 12 and 12 and cannot be rotated.

  Then, in a state where the locking main body 3 of the locking member A is housed in the pedestal 1, the overlapping portion of the lower end edge 12 a of the hanging side portion 12 of the pedestal 1 and the locking main body 3 of the locking member A is shown. The overlapping dimension is K, and the interval dimension J between the upper surface side 32 a of the lower piece 32 of the locking member A and the lower end edge 12 a of the drooping side portion 12. When the inner screw member 42 of the tightening screw portion 4 is tightened with respect to the screw shaft portion 41, the value of the superposition dimension K further increases and becomes larger, and when the dimension Km is reached, the interval dimension J becomes smaller on the contrary. It becomes the distance interval Jm [see FIG. 2 (D)].

  As the upper part of the locking body 3 is accommodated in the both hanging side parts 12 and 12 of the pedestal 1, as described above, when the gap dimension J becomes smaller and becomes the gap dimension Jm, the lower piece 32 of the locking member A is obtained. The vertical distance between the upper surface side 32a and the lower end edge 12a of the hanging side portion 12 becomes gradually narrower. This is a structure that can cope with various thicknesses T of the flanges 81a and 82a of the structural member 8 such as the H-shaped steel 81 or the lip groove steel 82. That is, the distance dimension J is equal to or slightly smaller than the thickness T of the flanges 81a and 82a.

  In other words, the flanges 81 a and 82 a can be clamped with pressure between the upper surface side 32 a of the lower piece 32 of the locking member A and the lower end edge 12 a of the hanging side portion 12. This clamping state is automatically performed by tightening the fastening screw portion 4 to clamp the flanges 81a and 82a by the lower end 12a of the locking body 3 and the hanging side portion 12 [FIG. 2 (D). reference〕. The distance dimension Jm and the overlap dimension Km in FIG. 2D correspond to the case where the thickness T of the flanges 81a and 82a corresponds to the relatively thick Tm. 2E is the case where the thickness T of the flanges 81a and 82a corresponds to the relatively thin Tn.

  Two locking members A are provided for one pedestal 1, and the screw shaft portions 41 of the fastening screw portions 4 of the respective locking members A are respectively provided from the lower surface side of the base plate 11 of the pedestal 1. The internal screw member 42 is inserted into the through hole 13 and is screwed into the screw shaft portion 41 from the upper surface side of the base plate 11. In a state where the screw shaft portion 41 and the inner screw member 42 of the tightening screw portion 4 are loosened, the locking main body 3 is positioned below the lower end edges 12 a of the both hanging side portions 12, 12 of the base 1. 2 (see FIGS. 2A and 2B), the locking body 3 of the locking member A is rotatable with respect to the base 1 on a horizontal plane (see FIG. 1B).

  In other words, both the insertion portions 34, 34 of both the locking main bodies 3, 3 are opposed to each other, and both the connection pieces 33, 33 are set to face each other outward [FIG. 1 (A), (C 2), or conversely, both the connecting pieces 33, 33 can be made to face each other, and both the inserted portions 34, 34 can be set to face each other (FIG. 3). reference).

  And depending on the type of the structural material 8 to which the building receiver of the present invention is mounted, the inserted portions 34, 34 of both the locking members A, A are made to face each other, or both the connecting pieces 33, 33 are connected to each other. It is determined whether to oppose each other, and both the inner screw members 42, 42 are rotated in a direction to be tightened with respect to both the screw shaft portions 41, 41. As a result, the upper side of the locking body 3 is housed in the pedestal 1, and in this state, both ends of the locking body 3 in the Y direction are surrounded by both hanging side parts 12, 12 and cannot rotate. The locking members A and A are fixed to the base 1 [see FIG. 2 (C)].

  Specifically, the installation state of the locking members A and A with respect to the base 1 is determined by whether the structural member 8 is an H-shaped steel (or I-shaped steel) 81 or a lip groove steel 82. When the structural material 8 is H-shaped steel (or I-shaped steel) 81, the inserted portions 34, 34 of both locking members A, A are used to lock both locking members A, A to the flange 81a. They are set so as to face each other (see FIG. 2A). Then, the inserted portions 34 and 34 of both the locking members A and A are locked to both ends of the flange 81a, and the tightening screw portions 4 and 4 are tightened (see FIG. 1C).

  Further, when the structural material 8 is the lip groove steel 82, the inserted portions 34 and 34 of the both locking members A and A are connected to each other so as to be locked to the opposing flanges 82a and 82a of the lip groove steel 82. The connection pieces 33 are set so as to face each other outward (see FIG. 3A). And it latches on the flanges 82a and 82a which oppose, and clamp | tightens the screw parts 4 and 4 (refer FIG. 3 (B)).

  Both of the through holes 13 and 13 of the base 1 are sized so that a screw shaft portion 41 of a fastening screw portion 4 of a locking member A, which will be described later, penetrates, and both are circular holes. It is. Further, one of the through holes 13 and 13 may be a long hole and the other may be a simple circle. When the through hole 13 is a long hole, the longitudinal direction of the long hole is along the longitudinal direction (X direction) of the base 1 [FIGS. 1A, 1B, 2A] reference〕.

  Accordingly, the locking member A mounted on the side of the through hole 13 which is a long hole in the base 1 can be fixed while being adjusted within the long hole along the longitudinal direction (X direction) of the base 1. And can be adapted to the flange sizes of various different structural members 8. Further, the through-hole 13 on the other side is circular so that the locking member A does not move with respect to the longitudinal direction (X direction) of the base 1.

  That is, the position of one of the locking members A can be adjusted in the longitudinal direction (X direction), and the other is immovable, and the locking member A on the stationary side can be used as a reference on the structural material 8. Therefore, the position of the receiving part main body 2 of all the building supports can be unified in the state which mounted | wore the structural material 8 of this invention with the structural material 8 at predetermined intervals.

  Moreover, both the through-holes 13 and 13 may be made into a long hole [refer FIG. 5 (A)]. Thereby, since both the locking members A and A can be moved in the longitudinal direction (X direction) with respect to the base 1, it is possible to correspond to the flanges of the structural members 8 of various sizes. For example, when the structural material 8 is an H-shaped steel 81, it is possible to appropriately respond by adjusting the distance between the locking members A and A according to the size of the width (X direction) of the flange 81a. Can do.

  In FIG. 5 (B), the structural material 8 made of H-shaped steel 81 is large and has a width direction (X direction) dimension Lm of the flange 81a. FIG. 5C shows the structure material 8 made of H-shaped steel 81 having a small size and a width L (X direction) dimension Ln of the flange 81a.

  The folded roof plate 9 has various folded plate types, a clamped type (see FIG. 4A), and a fitting type using the fitting cap material 97 (see FIG. 4C). , Overlapping type that connects and connects chevron parts [see Fig. 4 (B)], and there is a fitting type in which fitting bent parts are formed in the chevron parts, and the chevron parts are overlapped and fitted together To do.

  First, as the tightened folded roof plate 9, as shown in FIG. 6 (A), rising side portions 92, 92 are formed from both side portions of the main plate 91 in the Y direction. A top portion 93 is formed from both ends, a lower collar portion 94 a is formed from one end of the top portion 93, 93, and an upper collar portion 94 b is formed at the other end of the top portion 93. The folded roof plate 9 is made of metal, and specifically, is formed from a metal plate by drum molding or the like. In the clamped type folded-plate roof plate 9, the architectural receiver of the first embodiment of the present invention is used.

  The structural support of the present invention is mounted at a predetermined interval by mounting in the Y direction of the structural material 8. And a plurality of folded-plate roof boards 9, 9... Are arranged side by side on the construction receiver, and between the adjacent folded-plate roof boards 9, 9 between the lower collar portion 94a and the upper collar portion 94b of the present invention. The lower eaves part 94a and the upper eaves part 94b are connected to each other via a hanger member 95 mounted on the top 23 of the receiving body 2 of the building receiver, so that an eaves tightening enclosure is constructed.

  The fitting type folded plate roof plate 9 includes a fitted portion 96 and a fitting cap material 97 (see FIG. 6B). A suspension member 95 such as a fitting suspension adapted to this type of folded roof plate 9 is used. And the to-be-fitted part 96,96 which the adjacent folded-plate roof boards 9,9 oppose is fixed to the flat top part 23 of the said receiving part main body 2 by the said hanger member 95 via the volt | bolt axial part 24 and a nut. Then, the fitting cap member 97 is fitted and fixed to the opposed fitted parts 96 and 96 and the hanging member 95. In the fitting type folded plate roof plate 9, the architectural receiver of the second embodiment of the present invention is used.

  The superposed type folded plate roof plate is formed by polymerizing the chevron portions 98, 98 formed on the folded plate roof plate 9 (see FIG. 6C). In this case, the bolt shaft part 24 mentioned above is provided in the top part 23 of the receiving part main body 2 of the building receiver of this invention. The top portions of the angle portions 98 and 98 are overlapped with each other, the bolt shaft portion 24 penetrates between the top portions, and a nut is fastened and fixed to the bolt shaft portion 24. In the superposed type folded plate roof plate 9, the architectural receiver of the second embodiment of the present invention is used.

  Furthermore, in 3rd Embodiment of this invention, there exists embodiment with which the notch parts 14 and 14 are formed in the both drooping side parts 12 and 12 of the base 1 (refer FIG. 7, FIG. 8). The notch 14 is intended to firmly fix the pedestal 1 to the structural material 8 together with the fastening of the locking member A by inserting and fitting the upper portion of the structural material 8. Yes (see FIGS. 7 and 8).

  The notch portion 14 is formed as a substantially rectangular gap from the lower end of the hanging side portion 12 of the base 1 along the longitudinal direction (X direction). (See FIG. 7). The opening position of the notch portion 14 corresponds to the lower end position of the drooping side portion 12 (see FIGS. 7B and 7C). Further, the two notches 14 and 14 formed in the both drooping side portions 12 and 12 are formed at the same position and the same length along the longitudinal direction (X direction).

  In the case of the lip groove type steel 82, the structural member 8 is formed by inserting the opposed flanges 82a and 82a of the lip groove type steel 82 into the notch part 14 so that the notch part 14 of the base 1 and the flanges 82a and 82a are connected. They are fitted (see FIG. 8B). Further, when the structural material 8 is H-shaped steel 81, a flange 81a located above the structural material 8 is inserted into and fitted into the notch portion 14 (see FIG. 8C).

  The length Lp in the longitudinal direction (X direction) of the notch 14 is substantially the same as the dimension Lq in the width direction (X direction) of the structural member 8. Specifically, the length Lp in the longitudinal direction (X direction) of the notch portion 14 is formed to be slightly larger than the dimension Lq in the width direction (X direction) of the structural material 8 so that there is no backlash between them. It is preferable to refer to [see FIG. 7C].

である。 That means

It is.

  In the case of the lip groove steel 82, the dimension Lq in the width direction (X direction) of the structural member 8 is the width direction dimension on the side where both flanges 82a and 82a are present (see FIG. 7C). In the case where the structural member 8 is an H-shaped steel 81, the dimension Lq is the dimension in the width direction of the upper flanges 81a.

  The length Lp in the longitudinal direction (X direction) of the notch portion 14 is formed slightly larger than the dimension Lq in the width direction (X direction) of the structural material 8, so that the structural material 8 is formed in the notch portion 14. The upper part can be easily inserted, and there is almost no backlash.

  In the third embodiment, one of the through holes 13 and 13 formed in the base 1 is a long hole extending in the longitudinal direction. The other is a circular large-diameter hole 13a. The diameter (inner diameter) of the large-diameter hole 13a is such that the fastening screw portion 41 of the locking member A can be loosely inserted. That is, the large-diameter hole 13a has an inner diameter that allows the fastening screw portion 41 to swing relatively large [see FIG. 7C].

  As a result, the locking member A can swing together with the fastening screw portion 41 in a state where the fastening member A is loosened by the fastening screw portion 41. One locking member A is movable and fixed in the longitudinal direction (X direction) with respect to the pedestal 1, and when this and the other locking member A are both in a loosened state, And the adjustment which narrows or expands the space | interval of both the locking members A and A can be performed easily.

  And it is very easy to latch both locking members A and A while fitting the notch portion 14 of the base 1 to both the flanges 82a and 82a of the lip groove steel 82 or the flange 81a of the H-shaped steel 81. It is possible to improve the work efficiency of mounting the building support of the present invention on the structural member 8. Furthermore, the pedestal 1 can be fitted into the notches 14 and 14 while inserting the upper portion of the structural material 8 into a more firmly mounted state.

  Further, the locking member A mounted on the side of the large-diameter hole 13a of the pedestal 1 only swings, and the position of the locking member A with respect to the pedestal 1 is substantially immobile [FIG. 7C]. reference〕. Therefore, the position of the base 1 relative to the structural member 8 is determined by fastening the fastening screw portion 41 of the locking member A mounted on the large diameter hole 13a side. When a large number of architectural receivers according to the present invention are attached to one structural member 8, a large number of architectural receivers are arranged on the structural member 8 in a relatively easy and orderly manner. can do.

DESCRIPTION OF SYMBOLS 1 ... Base, 11 ... Base board, 12 ... Hanging side part, 13 ... Through-hole, 14 ... Notch part,
2 ... receiving part main body, A ... locking member, 3 ... locking main body, 31 ... upper piece, 32 ... lower piece, 33 ... connection piece,
34 ... Inserted part, 4 ... Fastening screw part, 41 ... Screw shaft part, 42 ... Inner screw member, 5 ... Fastening tool.

Claims (10)

A receiving body, a rectangular pedestal in which through holes are formed on both sides around the installation position of the receiving body, a U-shaped cross section, and a fastening screw on the upper side Two locking members provided with a portion, and the fastening screw portion of the locking member is passed through the through hole of the pedestal, and the locking member is rotatable on a horizontal plane. In addition, the construction receiver is fixed by fastening of the fastening screw portion, and the locking member is configured to insert a flange of a structural material .   A receiving body, a rectangular pedestal in which through holes are formed on both sides around the installation position of the receiving body, a U-shaped cross section, and a fastening screw on the upper side Two locking members provided with a portion, and the fastening screw portion of the locking member is passed through the through hole of the pedestal, and the locking member is rotatable on a horizontal plane. And the pedestal has a hanging side plate formed on both sides in the width direction of the base plate, and the width direction of the locking member is smaller than the interval between the both hanging side plates. Architectural receptacle characterized by being formed. 3. The architectural receiver according to claim 2 , wherein either one of the two through holes of the pedestal is a long hole. 3. The architectural receiver according to claim 2 , wherein both the through holes of the pedestal are long holes. 5. The architectural receiver according to claim 2 , wherein the lower piece of the locking member is formed shorter than the upper piece. 6. The architectural receiver according to claim 2 , wherein the upper portion of the receiving portion main body has a high level surface and a low level surface through a step. 6. The architectural receiver according to claim 2 , wherein the upper portion of the receiving portion main body is a flat surface. 8. The device according to claim 2 , wherein the receiving portion main body is detachable from the pedestal, and a plurality of receiving portion main bodies having different heights are provided. architectural bracket as characterized by comprising as a configuration with. 9. The rectangular cutout portion is formed in the hanging side plate according to any one of claims 2, 3, 4, 5, 6, 7 and 8 , from the lower end along the longitudinal direction of the pedestal. Architectural receptacle characterized by being made.   10. The diameter according to claim 9, wherein one of the through holes of the pedestal is a long hole extending in the longitudinal direction, and the other is a diameter at which the fastening screw portion of the locking member can swing in a state where the fastening is released. An architectural receiver characterized in that it is a through-hole.

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