JP3649806B2 - Steel ceiling frame connecting bracket - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a connecting bracket for a steel ceiling frame.
[0002]
[Prior art]
In general, the ceiling is constructed by connecting the suspension tree receiver passed between the beams and the field edge where the ceiling panel is attached with a suspension tree, and fixing the periphery of the ceiling panel with the peripheral edge provided on the partition panel Has been. In the case of such a ceiling structure, it is necessary to construct a hanging tree support, ceiling board, field edge, hanging tree and surrounding edge for each room partitioned by a partition panel, which only requires a lot of work time. There was a problem that the cost increased.
[0003]
For this reason, it has been proposed to form a wooden frame material into a rectangular frame and connect the ceiling panel to construct a ceiling, and then partition it with a partition panel. It is known that such a ceiling panel is suspended from a beam by a ceiling hanging bracket to form a ceiling (see Japanese Patent Application Laid-Open No. Hei 6-193188 relating to the applicant's application).
[0004]
On the other hand, when the ceiling is formed with a ceiling panel, a gap corresponding to the thickness of the independent column and a length corresponding to the length of the ceiling panel are generated at the periphery of the independent column. When the partition panel is erected, the partition panel cannot be fixed by the gap described above. For this reason, the applicant has proposed a ceiling structure in which two supplementary plates are provided on a wooden crosspiece of a ceiling panel so as to sandwich an independent pillar, and a partition panel is fixed to the supplementary plate (Japanese Patent Laid-Open No. Hei 6-1994). 193185).
[0005]
[Problems to be solved by the invention]
However, since the pair of ceiling panels arranged along the independent pillars are separated by an interval corresponding to the thickness of the independent pillars, it is not possible to suspend these ceiling panels from the beams while connecting them through the ceiling suspension fittings. It is not possible, and the side of the wooden crosspiece that forms the frame is separated from the independent pillar, and is in a cantilever state that can only be suspended by a ceiling hanging bracket. For this reason, in the independent column part, the connection state of the ceiling panel is divided and the strength of the ceiling is lowered, and the wooden frame material on the free end side along the independent column hangs down by the weight of the ceiling panel, and the partition panel is arranged. There was a problem that it was difficult to adjust the height of the ceiling panel when doing so.
[0006]
For the purpose of making the ceiling incombustible and improving the ceiling foundation strength, the applicant forms a steel ceiling frame by forming a steel frame into a rectangular shape as described in JP-A-6-240802. It has also been proposed that the ceiling is constructed by suspending a steel ceiling frame on a beam with a ceiling hanging bracket, but there is no mention of the point corresponding to the independent column part.
[0007]
The present invention has been made in view of such problems, and a pair of steel ceiling frames arranged along independent columns or adjacent steel members of a steel ceiling frame are simply connected and integrated. The present invention provides a connecting bracket for a steel ceiling frame.
[0008]
[Means for Solving the Problems]
In order to achieve the above-described object, the present invention is a connecting metal fitting for connecting a runner field edge and a field edge or a field edge and a field edge of a pair of steel ceiling frames disposed along independent columns , From the lower horizontal piece, a pair of left and right vertical pieces bent upward from the lower horizontal piece and having a height corresponding to the height of the runner field edge or field edge of the steel ceiling frame, and these vertical pieces It is bent outward respectively, made of a steel ceiling frame exceeds the width of the runner ceiling joist or ceiling joists of the length of the pair of left and right upper horizontal plate, the upper horizontal plate, the runner from a vertical side ceiling joist or Slots are formed at the positions of the edge portions separated by a width corresponding to the width of the field edge, and these lower horizontal piece, vertical piece and upper horizontal piece are arranged along the three sides of the runner field edge or field edge of the steel ceiling frame. The edge of the upper horizontal piece Trainer ceiling joists or ceiling joist other is configured to be bent along one side Rutotomoni, it is characterized in that which has been made so as to be screw-fixed to the runner ceiling joist or ceiling joist through the lower horizontal plate.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0010]
FIG. 1 shows a connecting metal fitting 1 according to the present invention. As will be described later, this connecting metal fitting 1 is a pair of steel ceiling frames 2 arranged along independent pillars P (see FIG. 3). And is formed in a substantially reverse letter shape when viewed from the front by bending a thin plate. Specifically, the lower horizontal piece having a length extending from the bottom surface of the runner field edge 4 forming the frame of one steel ceiling frame 2 and the bottom surface of the field edge 5 forming the frame of the other steel ceiling frame 2. 11 and a height corresponding to the height of the runner field edge 4 and the field edge 5 of the steel ceiling frame 2 bent upward from the lower horizontal piece 11 at an interval corresponding to the thickness of the independent pillar P. A pair of left and right vertical pieces 12, and a pair of left and right upper pieces that are bent outward from these vertical pieces 12 and extend beyond the width of the runner field 4 and field 5 of the steel ceiling frame 2. A long hole 13 a is formed along the longitudinal direction at a position corresponding to the width of the runner field edge 4 and field edge 5 of the steel ceiling frame 2 in each upper horizontal piece 13.
[0011]
On the other hand, as shown in FIG. 2, the steel ceiling frame 2 includes two runners 3 that are formed by galvanized steel sheets by roll forming into a U-shaped section, and one that is bent into a substantially C-shaped section. Runner field edge 4 and a plurality of field edges 5 bent in a substantially square cross section. Specifically, the two runners 3 and 3 are arranged so that the groove portions face each other, and the runner nose 4 is arranged at one end of these runners 3 so that the groove portions face inward from the lower side. Screws are attached to the other end of the runner 3, and a field frame 5 is screwed from below to form a rectangular frame. One or a plurality of lines are formed between the runner field edge 4 and the field edge 5 forming this frame. The book edge 5 is temporarily fixed to the runner 3 with an adhesive tape or the like. The field edge 5 fitted into the runner 3 can be slid along the groove portion of the runner 3 by removing the adhesive tape, and the runner field edge 4 and the field field forming the frame of the steel ceiling frame 2 The edge 5 can be fixed to the runner 3 by removing a screw. After adjusting the fixing position with the runner 3 or cutting the end edge of the runner 3, the edge 5 is again between the other ends. It can be screwed. Moreover, the uneven | corrugated | grooved part (refer FIG. 1) is formed in the side surface of the runner field edge 4, and the field surface of the field edge 5, and the improvement of bending strength is aimed at.
[0012]
The steel ceiling frame 2 has standardized vertical and horizontal dimensions so that it can be adjusted to the size of the ceiling. For example, the steel ceiling frame 2 has a plurality of types of sizes based on a size of 1 m × 2 m, which is substantially equivalent to one tatami mat. Is prepared.
[0013]
Therefore, as will be described later, when the steel ceiling frame 2 is suspended via the ceiling hanging bracket 10 to form a ceiling, the steel ceiling frame 2 disposed along the independent pillar P is shown in FIG. As shown, the connecting metal fitting 1 is applied to a pair of steel ceiling frames 2 and 2 arranged along the independent pillars P from the lower side, and one upper horizontal piece 13 is pushed open to open one steel ceiling. It fits into the runner field edge 4 of the frame 2, and the lower horizontal piece 11, the vertical piece 12 and the upper horizontal piece 13 of the connection fitting 1 are brought into contact with the three surfaces of the lower surface, the outer surface and the upper surface of the runner field edge 4, respectively. Similarly, the other upper horizontal piece 13 is pushed open and fitted into the field edge 5 of the other steel ceiling frame 2, and the lower horizontal piece 11, the vertical piece 12 and the upper horizontal piece 13 of the connection fitting 1 are respectively connected to the field edge 5. The three surfaces of the lower surface, the outer surface and the upper surface are brought into contact.
[0014]
Thereafter, the end edge of each upper horizontal piece 13 is lowered downward along the inner side surface of the runner field edge 4 of one steel ceiling frame 2 and the inner side surface of the field edge 5 of the other steel ceiling frame 2. The connecting metal fitting 1 is surrounded and attached to the periphery of the runner field edge 4 of one steel ceiling frame 2 and the field edge 5 of the other steel ceiling frame 2 by bending toward each other. At this time, since the elongated hole 13a is formed in the upper horizontal piece 13 at a position corresponding to the width of the runner field edge 4 or the field edge 5, it can be easily bent along the elongated hole 13a.
[0015]
Next, by screwing the runner field edge 4 of one steel ceiling frame 2 and the field edge 5 of the other steel ceiling frame 2 through the lower horizontal piece 11, The steel ceiling frame 2 can be integrally connected.
[0016]
As a result, the pair of steel ceiling frames 2 separated by the independent pillars P can be integrated, and a decrease in ceiling strength can be suppressed, and the one steel ceiling frame 2 along the independent pillars P can be prevented. It is possible to prevent the runner field edge 4 and the field edge 5 of the other steel ceiling frame 2 from drooping.
[0017]
When the connection of the pair of steel ceiling frames 2 by the connection fitting 1 is completed, the head connection 6 (see FIG. 4) is screwed in contact with the lower horizontal piece 11 of the connection fitting 1, and then the partition panel (not shown) is connected to the floor panel. (Not shown), it is only necessary to nail and partition the head joint 6 and the independent pillar P or the adjacent partition panel.
[0018]
The ceiling hanging bracket 10 for suspending the steel ceiling frame 2 to the beam H (see FIG. 6) includes a suspension bracket 11 that can be attached to the beam H and a framework of the steel ceiling frame 2 as shown in FIG. It comprises a field edge fitting 12 that can be fitted into the field edge 5 to be formed, a connection bolt 13 that is screwed to the suspension fitting 11, and a pair of nuts 14 that are screwed to the connection bolt 13 to hold the field edge metal 12. Has been.
[0019]
The suspension fitting 11 is positioned above the notch opening 111a of the suspension fitting main body 111 and the suspension fitting main body 111 having a substantially U-shaped cross section in which a notch opening 111a that can be inserted into the flange h of the beam H is formed. It consists of the butterfly bolt 112 screwed together, and the bottom edge of the notch opening part 111a of the hanging metal fitting body 111 is formed in a saw blade shape. In addition, in the hanging metal fitting 111, a female screw 111b is formed in the vicinity of the edge facing the notch opening 111a to which the connecting bolt 13 can be screwed by burring.
[0020]
The field fitting 12 includes a field fitting main body 121 bent in a substantially b shape so as to surround the outer peripheral surface of the field edge 5 forming the framework of the steel ceiling frame 2, and the field fitting metal body 121. The mounting bracket 122 has an L-shaped cross section welded integrally by spot welding, and the field bracket main body 121 is formed of a thin plate, and the mounting bracket 122 is formed of a thicker plate. The field fitting main body 121 and the mounting fitting 122 are respectively formed with holes through which the connection bolts 13 can be inserted. When the connection bolts 13 are inserted into these holes, the holes are screwed into the connection bolts 13. The field fitting main body 121 and the mounting fitting 122 can be pinched from above and below via the pair of nuts 14 so as to be held.
[0021]
In order to suspend the steel ceiling frame 2 using the ceiling hanging bracket 10 configured as described above, first, the notch opening 111a of the hanging bracket main body 111 is adjusted in accordance with the mounting height of the steel ceiling frame 2 with respect to the beam H. The distance between the saw blade bottom edge and the upper nut 14 is adjusted in advance. Thereafter, the field fitting main body 121 in the ceiling hanging bracket 10 is pushed open with respect to the mounting bracket 122, and is fitted from the outside in the vicinity of the runner 3 of the field edge 5 forming the frame of the steel ceiling frame 2. Then, after the connecting bolt 13 is inserted through the holes formed in the field fitting main body 121 and the attachment fitting 122, the nut 14 is screwed into the connection bolt 13 to attach the field fitting 12.
[0022]
Next, after attaching a temporary fixing jig (not shown) to the flange h of the beam H, one runner 3 of the steel ceiling frame 2 is inserted and temporarily held in the temporary fixing jig, and the steel ceiling frame 2 is temporarily fixed. Lift upwards around the jig. Then, after the other runner 3 and the runner field edge 4 that form the framework of the steel ceiling frame 2 are placed along the inking line that has been inked on the wall surface of the inner wall frame in advance, respectively, the other runner 3 and the runner field The edge 4 is screwed through the groove portion to the wall surface corner portion of the inner wall frame. When screwing of the other runner 3 and runner nose 4 of the steel ceiling frame 2 is finished, the notch opening 111a of the suspension fitting main body 111 in the suspension fitting 10 is inserted into the flange h of the beam H, and then the butterfly bolt 112 To fix the ceiling hanging bracket 10 to the beam H.
[0023]
As a result, the other runner 3 and the runner nose 4 forming the frame of the first steel ceiling frame 2 are screwed to the wall surface of the inner wall frame, and the nose 5 forming the frame is suspended from the beam H. It is suspended through the metal fitting 6. Thereafter, the temporary fixing jig is removed and the attachment of the first steel ceiling frame 2 is completed.
[0024]
Next, in order to attach the second steel ceiling frame 2, a temporary fixing jig is similarly attached to the flange h of the beam H, and then one runner 3 of the steel ceiling frame 2 is attached to the temporary fixing jig. Insert and hold temporarily. Next, the steel ceiling frame 2 is lifted upward with the temporary fixing jig as the center, and the inking line attached to the wall surface of the inner wall frame and the field edge 5 that forms the framework of the first steel ceiling frame 2, After the other runner 3 and the runner nose 4 forming the framework of the second steel ceiling frame 2, the other runner 3 is placed on the wall of the inner wall frame and the runner nose 4 is placed on the first piece. Each of the field edges 5 forming the frame of the steel ceiling frame 11 is screwed through the groove. Then, after inserting the notch opening 111a of the hanging metal body 111 in the ceiling hanging metal fitting 10 into the flange h of the beam H, the butterfly bolt 112 is tightened to fix the ceiling hanging metal fitting 10 to the beam H. As a result, the other runner 3 forming the frame of the second steel ceiling frame 2 is screwed to the wall surface of the inner wall frame, and the runner edge 4 forms the frame of the first steel ceiling frame 2. The field edge 5 is screwed to the field edge 5, and the field edge 5 is suspended from the beam H via the ceiling suspension fitting 10. Thereafter, the temporary fixing jig is removed and the installation of the second steel ceiling frame 2 is completed (see FIG. 6).
[0025]
Similarly, for the third and subsequent steel ceiling frames 2, the other runner 3 and the runner nose 4 that form the framework are respectively marked with the ink marking line attached to the wall surface of the inner wall frame and the preceding steel ceiling. The frame 2 is screwed, and the field edge 5 that forms the frame of the steel ceiling frame 2 is suspended from the beam H through the ceiling suspension fitting 10. And if the wall surface corner part of the other inner wall frame is reached, the edge 5 forming the frame of the steel ceiling frame 2 may be screwed to the wall surface of the inner wall frame.
[0026]
After installing the ceiling in this way, in order to arrange the partition panel, when adjusting the ceiling height from the floor, a screwdriver is inserted into the groove formed at the lower end of the connecting bolt 13 according to the set dimension. By inserting and rotating, the connecting bolt 13 is raised and lowered with respect to the hanging metal fitting 11 attached to the beam H, and the lower nut 14 is positioned. When the adjustment of the ceiling height is completed, as described above, the connecting metal fitting 1 is attached and integrated over the pair of steel ceiling frames 2 arranged along the independent pillars P, and along the independent pillars P. The runner nose 4 of one steel ceiling frame 2 and the nose 5 of the other steel ceiling frame 2 are prevented from hanging down.
[0027]
Thereafter, the head joint 6 is screwed by placing the end face thereof on the independent pillar P and the upper face thereof in contact with the lower horizontal piece 11 of the connecting fitting 1, and then a partition panel (not shown) is connected to the head joint 6 and the independent joint. It arrange | positions along the pillar P and bis | screws and partitions. Thereafter, the upper nut 14 is tightened, and the field fitting 12 is pinched and held by the pair of nuts 14, whereby the adjusted ceiling height can be secured.
[0028]
In addition, in embodiment mentioned above, although the runner field edge 4 of the one steel ceiling frame 2 along the independent pillar P and the field edge 5 of the other steel ceiling frame 2 were connected with the connection metal fitting 1, it demonstrated. The runner field edge 4 and the field edge 5 or the field edges 5 and 5 constituting one steel ceiling frame 2 can also be used. For example, when a heavy lighting fixture or the like is suspended from the ceiling, the connecting metal fitting 1 is connected to the lower horizontal piece 11 with a base material screwed, and the runner field edge 4 and the field edge 5 of the steel ceiling frame 2 or By attaching to the field edges 5 and 5, it becomes possible to suspend a lighting fixture or the like by screwing it to the base material through the ceiling board.
[0029]
【The invention's effect】
As described above, according to the present invention, the edge portion of the upper horizontal piece can be bent, and the connecting metal can be fixed to the runner field edge or the field edge between the steel ceiling frames, and the runner between the steel ceiling frames. Screws can be fixed to the field edge or the field edge through the lower horizontal piece of the connecting bracket. Therefore, the edge of the upper horizontal piece is bent until the screw is fixed through the lower horizontal piece of the connecting bracket to the runner nose or the nose between the steel ceiling frames arranged along the independent pillars. Thus, it is possible to position the runner between the steel ceiling frames in a runner edge or in a state where the connecting metal fitting is temporarily fixed to the edge, and the steel ceiling frames can be easily connected to each other. In addition, the connecting metal fitting is fixed by bending with an upper horizontal piece from above the runner field edge or the upper edge of the field edge, and screwed through the lower horizontal piece from below, so that the steel ceiling frame can be firmly fixed. .
[Brief description of the drawings]
FIG. 1 is a perspective view showing a connecting metal fitting of the present invention together with a steel ceiling frame.
FIG. 2 is a perspective view showing a steel ceiling frame.
FIG. 3 is a perspective view in the case of attaching a connecting bracket to a pair of steel ceiling frames arranged along independent pillars.
4 is a perspective view when attaching a head joint to the coupling fitting of FIG. 3; FIG.
FIG. 5 is an exploded perspective view showing a ceiling hanging bracket of a steel ceiling frame.
FIG. 6 is a perspective view showing a ceiling with a steel ceiling frame suspended from a beam via a ceiling suspension fitting.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Connecting bracket 11 Lower horizontal piece 12 Vertical piece 13 Upper horizontal piece 2 Steel ceiling frame 3 Runner 4 Runner field edge 5 Field edge 10 Ceiling hanging bracket H Beam P Independent pillar

Claims (1)

A connecting metal fitting that connects the runner's field edge and field edge or the field edge and field edge of a pair of steel ceiling frames arranged along independent pillars, with a lower horizontal piece and upward from the lower horizontal piece A pair of left and right vertical pieces with a height corresponding to the height of the runner field edge or field edge of the steel ceiling frame, and the steel ceiling is bent outward from each of these vertical pieces. It consists of a pair of left and right upper horizontal pieces that exceed the width of the runner field edge or field edge of the frame, and the upper horizontal piece has an edge separated from the vertical one side by a width corresponding to the width of the runner field edge or field edge. A long hole is formed at the position of the upper horizontal piece with the lower horizontal piece, the vertical piece and the upper horizontal piece along the runner field edge or the three sides of the steel ceiling frame. Along the runner or other side of the field Song configured to be capable Rutotomoni, steel ceiling frame connection fitting, characterized in that it is adapted to be screw-fixed to the runner ceiling joist or ceiling joist through the lower horizontal plate.

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