JP7190159B2 - Supporting device and construction method using it - Google Patents

Description

TECHNICAL FIELD The present invention relates to a support device and a construction method using the same, and more particularly to a support device for supporting a ceiling hanging object such as an air conditioner in a state of being suspended from a ceiling structure and a construction method using the same.

Suspension bolts suspended from a ceiling structure such as a ceiling slab suspend and support various ceiling hanging objects such as air conditioners, lighting fixtures, ducts, and various types of piping. An anti-vibration hanger is attached to such a suspension bolt, and another bolt is connected to the bottom of the anti-vibration hanger (for example, Patent Document 1). The anti-vibration hanger is for preventing the vibration of the suspended object from being transmitted to the ceiling structure. For example, when suspending an air conditioner, an anti-vibration hanger is attached to the tip of a hanging bolt, and another bolt connected to the anti-vibration hanger supports the air conditioner. By supporting the air conditioner in a suspended state via the anti-vibration hanger in this way, it is possible to prevent the vibration of the motor built in the air conditioner from propagating to the ceiling slab or the like. .

By the way, the anti-vibration hanger as described above is normally attached to the tip of the suspension bolt when attaching a ceiling-suspended object to the suspension bolt during high-place work. That is, the worker attaches the anti-vibration hanger to the tip of the suspension bolt by attaching the anti-vibration hanger to the tip of the suspension bolt and tightening the nut. At this time, if the anti-vibration hangers are attached to the suspended objects in advance, the work for installing the suspended objects can be completed by fixing the anti-vibration hangers to the suspension bolts, improving work efficiency. can be planned.

However, at the construction site, the space between the ceiling hanging object and the ceiling structure is sometimes narrow, and if the anti-vibration hanger is attached to the ceiling hanging object first, the anti-vibration hanger will not be attached to the suspension bolt. There is a problem that the work of tightening the nut at the time of mounting becomes difficult, and work efficiency is rather deteriorated. Therefore, conventionally, after attaching the anti-vibration hanger to the suspension bolt, the work of attaching the object to be suspended from the ceiling to the anti-vibration hanger must be performed as a high place work, and the work can be carried out efficiently. Can not.

JP 2017-44261 A

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems. The purpose is to provide a method.

In order to achieve the above object, firstly, the present invention provides a support device for supporting a ceiling-hanging object in a state of being suspended from a ceiling structure, comprising: a frame member for supporting the ceiling-hanging object; a connecting member attached to a member and connecting support bolts connected to the ceiling structure, the connecting member comprising an anti-vibration hanger disposed inside the frame member, the anti-vibration hanger It is a configuration characterized in that the support bolt is connected to the

Secondly, the present invention provides a support device for supporting a ceiling-hanging object in a state of being suspended from a ceiling structure, comprising a support frame configured by assembling a plurality of frame members in a rectangular shape; A support member attached to a plurality of locations on a support frame to support the ceiling hanging object; and a connecting member attached to a plurality of locations on the support frame to connect support bolts connected to the ceiling structure. , wherein the connection member includes a vibration isolation hanger arranged inside the frame member, and the support bolt is connected to the vibration isolation hanger.

Thirdly, in the support device having the first or second configuration, the frame member has a slit formed along the longitudinal direction, and the connecting member extends along the slit. This configuration is characterized by being movable.

Fourthly, the present invention provides the support device having any one of the first to third configurations, wherein the frame member is formed by connecting a pair of flat plate portions of shaped steel so as to face each other with a predetermined gap therebetween. and wherein the connection member includes the anti-vibration hanger between the pair of shaped steels.

Fifthly, in the support device having any one of the first to fourth configurations, the present invention further includes a ceiling installation fitting attached to the tip of the support bolt and rotatable around the axis of the support bolt. The ceiling installation bracket has a mounting hole into which a bolt member attached to the ceiling structure can be inserted, and rotates about the axis to match the mounting hole with the position of the bolt member. The configuration is characterized in that the bolt member can be inserted into the mounting hole.

Sixthly, the present invention provides a construction method for constructing a supporting device having the fifth configuration above in a state of being suspended from a ceiling structure, comprising a step of creating the supporting device in an assembly work on the floor surface. a step of lifting the support device to a position near the ceiling structure; and fixing the support device to the ceiling structure by inserting a bolt member attached to the ceiling structure into an attachment hole.

According to the present invention, there is no need to install a vibration-isolating hanger during high-place work, and the work of installing a ceiling-suspended object can be performed efficiently.

It is a perspective view which shows the structural example of a support apparatus. FIG. 4 is a perspective view showing a state in which the support device is attached to the ceiling hanging object; FIG. 4 is a diagram showing one configuration example of a frame member; FIG. 4 is a diagram showing another configuration example of the frame member; It is a figure which shows the structural example of an orthogonal connection metal fitting. It is a figure which shows the structural example of the connection member which connects a support bolt with a frame member. FIG. 4 is a first cross-sectional view showing the internal structure of the connecting member; FIG. 10 is a second cross-sectional view showing the internal structure of the connecting member; It is an enlarged drawing which shows the structural example of an attachment part. FIG. 4 is a diagram showing a state in which a support device for supporting a ceiling-hanging object is installed in the ceiling structure;

Preferred embodiments of the present invention will now be described in detail with reference to the drawings. In each drawing referred to below, the same reference numerals are given to the members common to each other, and overlapping descriptions thereof will be omitted.

FIG. 1 is a perspective view showing a configuration example of a support device 1 that is an embodiment of the present invention. FIG. 2 is a perspective view showing a state in which the support device 1 is attached to the ceiling hanging object 100. As shown in FIG. The XYZ three-dimensional coordinate system shown in these drawings is a coordinate system common to each other, and the same applies to other drawings. The support device 1 is a device that supports various ceiling-hanging objects 100 such as air conditioners, lighting fixtures, ducts, and various pipes in a state of being suspended from a ceiling structure such as a ceiling slab. This supporting device 1 can be assembled by floor work, and is a supporting device incorporating a vibration isolation hanger as will be described later. In this embodiment, a ceiling-mounted air conditioner is exemplified as an example of the ceiling hanging object 100 .

As shown in FIGS. 1 and 2, the support device 1 includes a support frame 10 configured by assembling a plurality of frame members 11 in a rectangular shape, and attached to a plurality of locations of the support frame 10 to suspend from the ceiling. supporting members 30 for supporting the lowering object 100; connecting members 13 attached to a plurality of locations of the supporting frame 10 and connecting the frame members 11 and the supporting bolts 14; and a mounting portion 20 that is mounted on the .

For example, the support frame 10 is composed of four frame members 11a, 11b, 11c and 11d. The two frame members 11a and 11b have substantially the same length, are arranged parallel to each other along the X direction, and are spaced apart from each other by a predetermined distance. Another two frame members 11c and 11d have substantially the same length, are arranged parallel to each other along the Y direction, and are arranged at a predetermined distance from each other. These four frame members 11a, 11b, 11c, and 11d are arranged in a rectangular shape, and the crossing portions are connected by orthogonal connecting metal fittings 12 to form the support frame 10. As shown in FIG. For example, two frame members 11a and 11b arranged along the X direction are connected to upper portions of two frame members 11c and 11d arranged along the Y direction. Although the figure shows the case where the support frame 10 is formed in a rectangular shape by four frame members 11a, 11b, 11c, and 11d, another frame member may be assembled therewith. I don't mind.

Such a support frame 10 is a member for supporting the ceiling hanging object 100 . For example, a support member 30 for supporting the ceiling hanging object 100 is attached to the frame members 11c and 11d. The support member 30 is composed of a plurality of connecting bolts 31 hanging down from the support frame 10 . The connection bolts 31 are attached vertically downward to the support frame 10 so as to support the four corners of the ceiling hanging object 100, for example. On the other hand, flange portions 101 for attaching connecting bolts 31 are provided on side surfaces at four corners of the ceiling hanging object 100 . The connection bolt 31 hangs down from the support frame 10 so as to match the position of the flange portion 101 , and supports the side surface of the ceiling hanging object 100 by attaching the lower end position to the flange portion 101 .

In this embodiment, the case where the support member 30 supports the ceiling hanging object 100 below the support frame 10 is exemplified, but the present invention is not limited to this. For example, the support member 30 may be configured to support the ceiling hanging object 100 above the support frame 10 . In this case, since the connecting bolt 31 is installed upward from the frame members 11c and 11d, the two frame members 11a and 11b installed above the frame members 11c and 11d are both positioned above the position where the connecting bolt 31 stands. are also connected to the frame members 11c and 11d at outer positions.

The connecting member 13 is attached to the frame members 11a and 11b, connects the frame members 11a and 11b and the support bolt 14, and holds the support bolt 14 vertically upward from the frame members 11a and 11b. . The support bolts 14 are bolts for connecting the support frame 10 to the ceiling structure. The upper end of the support bolt 14 is provided with a mounting portion 20 for mounting to a bolt member provided in advance in the ceiling structure. Therefore, the support bolt 14 is fixed to the ceiling structure by attaching the mounting portion 20 to the bolt member.

An anti-vibration hanger is incorporated inside the connecting member 13 as described later. In other words, the connecting member 13 is configured to include anti-vibration hangers arranged inside the frame members 11a and 11b. Therefore, the frame members 11a and 11b to which the connecting member 13 is attached are formed in advance so that their widthwise dimensions are larger than those of the other frame members 11c and 11d.

FIG. 3 is a diagram showing a configuration example of the frame members 11c and 11d. As shown in FIG. 3(a), the frame members 11c and 11d are in a state in which flat plate portions of a pair of shape steels 42, 42 such as lip channel steel or light channel steel are opposed to each other with a predetermined interval. It is a configuration connected to For example, frame members 11c and 11d are connected as shown in FIG. 3(b). That is, as shown in FIG. 3B, the frame members 11c and 11d have holes 42a and 42b through which bolts 45 are inserted at both ends of a pair of shaped steels 42 and 42 having the same length. , and a bolt 45 is inserted through the holes 42a and 42b, and a nut 46 is tightened to the tip of the bolt 45, thereby connecting and fixing the pair of shaped steels 42 and 42 to each other. At this time, by inserting a cylindrical spacer 44 into the shaft portion of the bolt 45 between the pair of shaped steels 42, 42, a slit 43 with a predetermined interval W1 is formed between the paired shaped steels 42, 42 ( See FIG. 3(a)). That is, the interval W1 between the slits 43 is defined by the axial length of the spacer 44 . Such a slit 43 is formed from one longitudinal end side to the other longitudinal end side of the frame members 11c and 11d. Further, the interval W1 between the slits 43 is an interval through which bolt members such as the support bolt 14 and the connecting bolt 31 can be inserted.

Next, FIG. 4 is a diagram showing a configuration example of the frame members 11a and 11b. As shown in FIG. 4, the frame members 11a and 11b, like the frame members 11c and 11d, consist of flat plate portions of a pair of shape steels 42, 42 such as lip channel steel or light channel steel, separated by a predetermined distance. It is a configuration in which they are connected in a state in which they are opposed to each other. However, the spacers 44 forming the frame members 11a and 11b are longer in the axial direction than the spacers 44 forming the frame members 11c and 11d. Therefore, in the frame members 11a and 11b, the interval W2 between the slits 43 formed between the pair of shaped steels 42 and 42 is larger than the interval W1 between the slits 43 formed in the frame members 11c and 11d. The interval W2 between the slits 43 is designed in advance so that a vibration isolation hanger, which will be described later, can be accommodated in the space between the pair of shaped steels 42,42.

By assembling the above-described frame members 11a, 11b, 11c, and 11d in a substantially rectangular shape, the support frame 10 has two parallel slits 43 extending along the X direction, as shown in FIG. and two parallel slits 43 extending along the Y direction. Therefore, the support frame 10 can adjust the positions at which the support bolts 14 stand and the positions at which the connection bolts 31 hang down along the slits 43 . The frame members 11a, 11b, 11c, and 11d configured as described above are configured using shaped steels 42 and 42 made of aluminum, for example. Since the shaped steels 42, 42 made of aluminum are lightweight, it is possible to improve the work efficiency when creating the support frame 10, and also improve the work efficiency when attaching the support device 1 to the ceiling structure. can.

FIG. 5 is a diagram showing a configuration example of an orthogonal coupling fitting 12 that couples two frame members 11a and 11c having different dimensions in the width direction perpendicular to each other. Although FIG. 5 shows an example of connection between the frame members 11a and 11c as an example, the connection of other intersections is the same. The orthogonal connecting metal fitting 12 is a metal fitting that connects the two frame members 11a and 11c in a state of being perpendicular to each other in a state in which the two frame members 11a and 11c are superimposed in the vertical direction. The orthogonal connecting fitting 12 is composed of an orthogonal holding fitting 52 arranged between the two frame members 11a and 11c and on the opposite side of the orthogonal holding fitting 52 (on the upper side of the frame member 11a) on the outer peripheral surface of the upper frame member 11a. A first metal fitting 51 is arranged, and a second metal fitting 53 is arranged on the outer peripheral surface of the lower frame member 11c opposite to the orthogonal holding metal fitting 52 (below the frame member 11c).

The orthogonal holding metal fitting 52 has a rectangular flat plate portion 52a, a pair of first engaging portions 52b and 52c bent at right angles from the flat plate portion 52a, and the first engaging portions 52b and 52c extending from the flat plate portion 52a. It has a pair of second engaging portions 52d and 52e that are bent perpendicularly in the direction. The flat plate portion 52a is arranged between the two frame members 11a and 11c. A hole 52h through which the bolt 54 can be inserted is provided in the center of the flat plate portion 52a.

The first engaging portions 52b and 52c are provided in a state of being erected along the side surfaces of the frame member 11a from a pair of mutually opposing sides of the flat plate portion 52a. These first engagement portions 52b and 52c are erected from the flat plate portion 52a in parallel with each other and at intervals equal to or slightly larger than the width dimension of the frame member 11a. Therefore, when the lower surface of the frame member 11a is arranged to contact the upper surface of the flat plate portion 52a, the first engaging portions 52b and 52c are joined to the side surfaces (flanges of the shaped steel) of the frame member 11a.

In addition, the second engaging portions 52d and 52e are arranged along the side surfaces of the frame member 11c from a pair of sides different from the sides on which the first engaging portions 52b and 52c are provided. is set up on the opposite side. These second engagement portions 52d and 52e are erected from the flat plate portion 52a in parallel with each other and at intervals equal to or slightly larger than the width dimension of the frame member 11c. Therefore, when the upper surface of the frame member 11c is arranged to contact the lower surface side of the flat plate portion 52a, the second engaging portions 52d and 52e are joined to the side surface (flange portion of the shaped steel) of the frame member 11c. In the present embodiment, since the width dimensions of the frame members 11a and 11c are different from each other, the flat plate portion 52a is rectangular, and the distance between the first engaging portions 52b and 52c is greater than the distance between the second engaging portions 52d and 52e. will also grow.

The first metal fitting 51 has a rectangular flat plate portion 51a and a pair of engaging portions 51b and 51c bent at right angles from the flat plate portion 51a. The flat plate portion 51a has a substantially rectangular shape and is arranged in contact with the surface (upper surface of the frame member 11a) opposite to the surface on which the orthogonal holding metal fittings 52 are provided on the outer peripheral surface of one frame member 11a. A hole 51h through which the bolt 54 can be inserted is provided in the center of the flat plate portion 51a.

The engaging portions 51b and 51c are provided in a state of being erected along the side surfaces of the frame member 11a from a pair of mutually opposing sides of the flat plate portion 51a. These engaging portions 51b and 51c are erected downward from the flat plate portion 51a in parallel with each other at intervals equal to or slightly larger than the width dimension of the frame member 11a. Therefore, when the upper surface of the frame member 11a is arranged so as to contact the lower surface side of the flat plate portion 51a, the engaging portions 51b and 51c are joined to the side surfaces (flanges of the shaped steel) of the frame member 11a.

The second metal fitting 53 also has the same configuration as the first metal fitting 51 . Specifically, the second metal fitting 53 has a rectangular flat plate portion 53a and a pair of engaging portions 53b and 53c bent at right angles from the flat plate portion 53a. The flat plate portion 53a has a substantially square shape, and is arranged in contact with the surface (lower surface of the frame member 11c) opposite to the surface on which the orthogonal holding metal fittings 52 are provided on the outer peripheral surface of the frame member 11c. A hole 53h through which the bolt 54 can be inserted is provided in the center of the flat plate portion 53a.

The engaging portions 53b and 53c are provided in a state of being erected along the side surfaces of the frame member 11c from a pair of mutually opposing sides of the flat plate portion 53a. These engaging portions 53b and 53c are erected upward from the flat plate portion 53a in parallel with each other at intervals equal to or slightly larger than the width dimension of the frame member 11c. Therefore, when the lower surface of the frame member 11c is arranged to contact the upper surface of the flat plate portion 53a, the engaging portions 53b and 53c are joined to the side surfaces (flanges of the shaped steel) of the frame member 11c.

When the first metal fitting 51, the orthogonal holding metal fitting 52 and the second metal fitting 53 are arranged on the two frame members 11a and 11c as described above, the three holes 51h, 52h and 53h are coaxially positioned. Moreover, it matches the position of the slit 43 provided in each frame member 11a, 11c. In this state, when the bolt 54 is inserted through the hole 51 a provided in the first metal fitting 51 , for example, the tip of the bolt 54 protrudes from the hole 53 h provided in the second metal fitting 53 . By attaching a nut 55 to the tip portion of the protruding bolt 54 and tightening it, the orthogonal connecting fitting 12 connects and fixes the two frame members 11a and 11c in a mutually orthogonal state. In particular, when the bolt 54 and the nut 55 are tightened, the first engaging portions 52b and 52c of the orthogonal holding metal fitting 52 are joined to the side surface of the frame member 11a, and the second engaging portions 52d and 52e are connected to the frame member. Since the two frame members 11a and 11c are fixed in a jointed state with the side surface of 11c, the two frame members 11a and 11c do not rotate around the bolt 54, and the state of perpendicularity to each other is maintained satisfactorily.

Further, the fastening position of the bolt 54 and the nut 55 can be moved in the X direction along the slit 43 provided in the frame member 11a, and can move in the Y direction along the slit 43 provided in the frame member 11c. It is also possible to move in the direction. Therefore, by moving the fastening position of the bolt 54 and the nut 55 in the X direction and the Y direction, the planar shape of the support frame 10 can be changed to a square or a rectangle, and the rectangular size of the support frame 10 can be changed. can be adjusted as appropriate. Therefore, the support frame 10 that conforms to the shape and size of the ceiling hanging object 100 supported by the support device 1 can be easily produced at the construction site.

FIG. 6 is a diagram showing a configuration example of the connecting member 13 that connects the support bolt 14 to the frame members 11a and 11b. The connection member 13 is a metal fitting that attaches a vibration isolation hanger 63 to the lower end portion of the support bolt 14 and interconnects the support bolt 14 and the frame members 11a and 11b via the vibration isolation hanger 63 . The connecting member 13 includes a first member 61 arranged on the upper surface side of the frame member 11a, a second member 62 arranged on the lower surface side of the frame member 11a, and a and an anti-vibration hanger 63 installed in the space.

The first member 61 has a rectangular flat plate portion 61a and four engaging portions 61b, 61c, 61d, and 61e formed by bending the four sides of the flat plate portion 61a downward. The flat plate portion 61a is provided with three holes 61f, 61g, and 61h that are arranged at approximately equal intervals along the longitudinal direction of the frame member 11a. These three holes 61f, 61g, and 61e are formed as holes of the same size through which the support bolt 14 and the bolt 67 can be inserted, for example.

The engaging portions 61b and 61c are provided in a state of being erected downward along the side surfaces of the frame member 11a from a pair of opposing sides of the flat plate portion 61a. The pair of engaging portions 61b and 61c are erected from the flat plate portion 61a in parallel with each other at a distance equal to or slightly larger than the width of the frame member 11a. Therefore, when the upper surface of the frame member 11a is arranged so as to contact the lower surface side of the flat plate portion 61a, the engaging portions 61b and 61c are joined to the side surface (flange portion of the shaped steel) of the frame member 11a.

Further, the engaging portions 61d and 61e are provided in a state of standing downward along the side surfaces of the frame member 11a from a pair of sides different from the sides on which the engaging portions 61b and 61c are provided. These engaging portions 61d and 61e are provided only at the central portion of the flat plate portion 61a, and are not provided at both ends. The length of the engaging portions 61d and 61e in the Y direction is substantially equal to the interval (interval W2 between the slits 43) between the flat plate portions of the pair of shape steels 42 in the frame member 11a. Therefore, when the upper surface of the frame member 11a is arranged to contact the lower surface side of the flat plate portion 61a, the engaging portions 61d and 61e are joined to the flat plate portions of the pair of shaped steels 42 of the frame member 11a. Therefore, the engaging portions 61d and 61e also have the function of defining the interval W2 between the slits 43 of the frame member 11a.

The second member 62 is a member that sandwiches the frame member 11a together with the first member 61 . The second member 62 has a rectangular flat plate portion 62a and four engaging portions 62b, 62c, 62d and 62e formed by bending upward four sides of the flat plate portion 62a. The flat plate portion 62a is provided with three holes 62f, 62g, and 62h that are arranged at approximately equal intervals along the longitudinal direction of the frame member 11a. Of these three holes 62f, 62g and 62e, the two holes 62f and 62e positioned at both ends are formed as holes of the same size through which the support bolt 14 and the bolt 67 can be inserted, for example. On the other hand, the hole 62g located in the center of the flat plate portion 62a is formed as a hole having a larger diameter than the two holes 62f and 62e, and is a hole larger than the diameter of the ring member 65 described later.

The engaging portions 62b and 62c are provided in a state of being erected upward along the side surfaces of the frame member 11a from a pair of opposing sides of the flat plate portion 62a. The pair of engaging portions 62b and 62c are erected from the flat plate portion 62a in parallel with each other at a distance equal to or slightly larger than the width of the frame member 11a. Therefore, when the upper surface of the frame member 11a is arranged so as to contact the upper surface of the flat plate portion 62a, the engaging portions 62b and 62c are joined to the side surfaces (flanges of the shaped steel) of the frame member 11a.

Also, the engaging portions 62d and 62e are provided in a state of standing upward along the side surfaces of the frame member 11a from a pair of sides different from the sides on which the engaging portions 62b and 62c are provided. These engaging portions 62d and 62e are provided only at the central portion of the flat plate portion 62a and are not provided at both ends. The length of the engaging portions 62d and 62e in the Y direction is substantially equal to the interval (interval W2 between the slits 43) between the flat plate portions of the pair of shape steels 42 in the frame member 11a. Therefore, when the lower surface of the frame member 11a is arranged to contact the upper surface of the flat plate portion 62a, the engaging portions 62d and 62e are joined to the flat plate portions of the pair of shaped steels 42 of the frame member 11a. Therefore, the engaging portions 62d and 62e have the same function as the engaging portions 61d and 61e of the first member 61 to define the interval W2 between the slits 43 of the frame member 11a.

A support bolt 14 is attached to the center hole 61 g of the first member 61 . For example, the support bolt 14 is inserted into the hole 61g from above the first member 61 . A vibration isolation hanger 63 is attached to the support bolt 14 on the lower surface side of the first member 61 . The anti-vibration hanger 63 includes a coil spring 64 which is an elastic member, a ring member 65 having a larger diameter than the coil spring 64 and supporting the lower surface of the coil spring 64, and a nut 66 attached to the tip of the support bolt 14. have.

The inner diameter of the coil spring 64 is larger than the outer diameter of the support bolt 14 . Therefore, the support bolt 14 can be inserted inside the coil spring 64 . Also, the outer diameter of the coil spring 64 is larger than the hole 61g. Therefore, the upper end portion of the coil spring 64 abuts against the peripheral portion of the hole 61g on the lower surface side of the flat plate portion 61a.

The inner diameter of the ring member 65 is larger than the outer diameter of the support bolt 14 . Therefore, the support bolt 14 can be inserted inside the ring member 65 . Also, the outer diameter of the ring member 65 is larger than the outer diameter of the coil spring 64 . Therefore, the lower end of the coil spring 64 is supported by the ring member 65 .

A nut 66 is attached to the tip of the support bolt 14 after the coil spring 64 and the ring member 65 as described above are attached. The nut 66 contacts the lower surface of the ring member 65 and supports the coil spring 64 attached to the support bolt 14 and the ring member 65 .

Also, the two bolts 67 are inserted through the two holes 61f and 61h of the first member 61 and through the two holes 62f and 62h of the second member 62, respectively. Nuts 68 are attached to the tips of the two bolts 67 protruding from the lower surface of the second member 62 . By tightening the nut 68, the first member 61 and the second member 62 are fixed with the frame member 11a sandwiched therebetween. At this time, the anti-vibration hanger 63 is installed in the space provided with the wide slit 43 in the frame member 11a.

FIG. 7 is a first cross-sectional view showing the internal structure of the connecting member 13 attached to the frame member 11a. 8 is a second cross-sectional view showing the internal structure of the connecting member 13 attached to the frame member 11a. As shown in FIGS. 7 and 8 , the connection member 13 has a vibration isolation hanger 63 arranged inside a pair of shaped steels 42 that are components of the frame member 11 a , and the support bolt 14 is connected via the vibration isolation hanger 63 . are connected to the frame member 11a. In other words, the upper end of the coil spring 64 is in contact with the lower surface side of the first member 61 , so that the support bolt 14 supports the frame member 11 a via the coil spring 64 . In such a support structure, since the coil spring 64 absorbs the vibration of the ceiling-suspended object 100, the vibration does not propagate to the support bolt 14, and good anti-vibration performance is exhibited. Moreover, according to such a support structure, since it is not necessary to separately arrange a vibration-proof hanger on the upper part of the frame member 11a, the upper space of the frame member 11a can be effectively utilized. Moreover, according to the support structure of this embodiment, there is also the advantage that the anti-vibration hanger 63 can be concealed so as not to stand out from the outside.

Next, the attachment part 20 attached to the ceiling structure will be described. FIG. 9 is an enlarged view showing a configuration example of the mounting portion 20. As shown in FIG. As shown in FIG. 9 , the mounting portion 20 includes a substantially U-shaped ceiling mounting bracket 21 and a nut member 22 mounted on the lower side of the ceiling mounting bracket 21 as members mounted on the upper end of the support bolt 14 . and a nut 23 mounted on the upper side of the ceiling installation metal fitting 21. - 特許庁

The ceiling mounting bracket 21 has a flat plate portion 70 and a pair of side plate portions 71 standing parallel to each other on both sides of the flat plate portion 70 . For example, the flat plate portion 70 is formed in a rectangular shape. In addition, the flat plate portion 70 has a circular first hole 73 and an elongated second hole 74 adjacent to the first hole 73 and formed along the longitudinal direction of the flat plate portion 70 . is formed. The first hole 73 is a hole through which the support bolt 14 is inserted, for example, and has an inner diameter larger than the outer diameter of the support bolt 14 . The second hole 74 is a mounting hole for inserting a bolt member such as an anchor bolt attached to the ceiling structure or a bolt attached to the insert, and is an elongated hole with an inner width larger than the diameter of the bolt member. be.

On the contrary to the above, an anchor bolt attached to the ceiling structure or a bolt attached to an insert is inserted through the first hole 73 , and the support bolt 14 is inserted through the second hole 74 . You can do it. In addition, since the first hole 73 and the second hole 74 do not necessarily have to be formed in a divided state, a long hole-shaped mounting hole in which the first hole 73 and the second hole 74 are communicated can be formed. Holes may be formed, and the support bolt 14 may be inserted through one of the mounting holes together with the bolt member attached to the ceiling structure.

Both ends of the pair of side plate portions 71 are higher than the central portion in the longitudinal direction of the flat plate portion 70, and the both ends are formed as joint portions 72 that abut against a ceiling structure such as a ceiling slab. be. The central portion of the side plate portion 71 in the longitudinal direction is lower than the joint portions 72 at both ends, so that even when the joint portion 72 is in contact with the ceiling structure, the ceiling installation metal fitting 21 can use the low central portion as a window. There is an advantage that it is possible to visually confirm the state inside the .

Also, the height H of the joint portion 72 provided on the pair of side plate portions 71 should be at least equal to or greater than the height dimension of the nut 23 . However, assuming that the ceiling mounting bracket 21 is attached to the bolt attached to the insert, the height H of the joint portion 72 is higher than the height dimension of the insert projecting downward from the ceiling structure. It is preferable to design in advance such that

The nut member 22 is configured as a long nut having a predetermined length in the axial direction and has a female thread that engages with the male thread of the support bolt 14 . The ceiling fixture 21 is attached to the tip (upper end) of the support bolt 14 with the nut member 22 attached to the support bolt 14 . Since the hole 73 through which the support bolt 14 is inserted is larger than the support bolt 14, the ceiling mounting bracket 21 can rotate around the axis of the support bolt 14 when the support bolt 14 is inserted into the hole 73. state. A nut 23 is attached to the tip (tip) of the support bolt 14 in order to prevent the ceiling fixture 21 from falling off the support bolt 14 . It should be noted that the nut 23 preferably has a locking function and a locking function to prevent the nut 23 from coming off from the tip of the support bolt 14 .

As described above, the attachment portion 20 is provided at the tip (upper end) of the support bolt 14 and is attached to the support bolt 14 so that the ceiling installation metal fitting 21 is sandwiched between the nut member 22 and the nut 23 . When the nut member 22 is not tightly fastened to the lower surface of the ceiling installation fitting 21, the ceiling installation fitting 21 is rotatable around the axis of the support bolt 14 as described above. On the other hand, when the nut member 22 is fastened to the lower surface of the ceiling installation fitting 21, the ceiling installation fitting 21 is fixed in a state sandwiched between the nut member 22 and the nut 23. It will be in a fixed state in which it does not rotate around the axis of 14.

Next, a construction method for attaching the ceiling hanging object 100 to the ceiling structure using the support device 1 configured as described above will be described. When attaching the ceiling hanging object 100 to the ceiling structure using the support device 1, first, a support device creation process for creating the support device 1 is performed at the construction site. In this support device production process, an operator assembles a plurality of frame members 11a, 11b, 11c, and 11d to produce the support frame 10, and attaches connecting members to the frame members 11a and 11b of the support frame 10 at a plurality of locations. 13 is installed, and a plurality of support bolts 14 are erected from the frame members 11a and 11b. At this time, the anti-vibration hanger 63 is installed inside the frame members 11a and 11b, and the tip of the support bolt 14 is connected to the anti-vibration hanger 63. As shown in FIG. Since the worker can perform the work of the support device creating process as a floor work, the worker can efficiently assemble the support device 1 .

After the support device 1 has been manufactured, a step of attaching the ceiling hanging object 100 to the connecting bolts 31 of the supporting device 1 is performed. For example, a worker fixes the ceiling hanging object 100 to the supporting device 1 by attaching the ceiling hanging object 100 to the connecting bolts 31 of the supporting device 1 manufactured as described above. The worker can also perform such work as floor work. Therefore, the support device 1 and the ceiling hanging object 100 can be assembled efficiently. As a result, as shown in FIG. 2, the support device 1 and the ceiling hanging object 100 are integrally assembled by floor work. Incidentally, the above-described supporting device forming process and ceiling-hanging object attaching process may not be performed as separate processes, but may be performed simultaneously as one process.

After the support device 1 and the ceiling hanging object 100 are integrally assembled, a lifting step is performed to simultaneously lift the ceiling hanging object 100 and the supporting device 1 to a position near the ceiling structure. For example, an operator installs an elevator just below the installation target position with respect to the ceiling structure, and places the support device 1 to which the ceiling hanging object 100 is attached on the elevator table of the elevator. Then, the worker lifts the support device 1 to a position near the ceiling structure by operating the elevator. Anchors and inserts are provided in advance at installation target positions of the ceiling structure. Therefore, in the lifting process, the support device 1 is lifted while adjusting the position so that the mounting part 20 provided on the upper part of the support device 1 matches the position of the anchors and inserts provided in the ceiling structure. In such a lifting process, the worker starts the high place work while standing on the platform.

After the support device 1 is lifted to a position near the ceiling structure, a ceiling structure fixing step is performed to fix the support device 1 to the ceiling structure. That is, the operator fixes the mounting portion 20 provided on the upper portion of the support device 1 to the anchors or inserts provided in the ceiling structure. The bolt members provided in the ceiling structure typically do not match the position of the support bolts 14 . In particular, since the support device 1 that supports the ceiling hanging object 100 is provided with a plurality of support bolts 14, if the positions of the plurality of support bolts 14 match the positions of the bolt members 4 that are provided in advance in the ceiling structure. is not limited. On the other hand, a ceiling installation metal fitting 21 is attached to the upper end of the support bolt 14 , and the ceiling installation metal fitting 21 is rotatable around the axis of the support bolt 14 . Therefore, even if the position of the support bolt 14 is slightly away from the positions of the anchors and inserts, by rotating the ceiling installation metal fitting 21 around the axis of the support bolt 14, the second position of the ceiling installation metal fitting 21 can be adjusted. The position of the hole 74 (mounting hole) can be aligned with the position of the bolt member. Therefore, the operator rotates the ceiling installation metal fitting 21 about the axis of the support bolt 14 to match the position of the second hole 74 (mounting hole) with the position of the bolt member 4 of the anchor. A bolt member is inserted into the hole 74 (mounting hole), and a nut is fastened to the tip of the bolt member to fix the support device 1 to the ceiling structure. At this time, the operator tightens the nut member 22 to fix the ceiling installation metal fitting 21 and the support bolt 14 . The operator can fix the upper ends of the plurality of support bolts 14 to the ceiling structure by performing such work on each of the plurality of support bolts 14 .

That is, when fixing the support device 1 to the ceiling structure, even if the bolt members provided in the ceiling structure and the support bolts 14 are misaligned, the ceiling provided at the upper end of the support bolts 14 can be fixed. It is possible to connect the bolt member at a position where the installation fitting 21 is different from the support bolt 14 . Therefore, even if there is some positional deviation between the bolt member and the support bolt 14, the support bolt 14 can be fixed to the bolt member. Therefore, when the worker creates the support device 1 by floor work, it is not necessary to completely match the positions of the plurality of support bolts 14 with the positions of the bolt members 4 in the ceiling structure. Device 1 can be created. It is a matter of course that such a ceiling structure fixing process is performed as a high place work.

FIG. 10 is a diagram showing a state in which the support device 1 that supports the ceiling hanging object 100 is installed on the ceiling structure 3. As shown in FIG. When the ceiling structure fixing step described above is finished, the support device 1 is in the state shown in FIG. 10 . That is, the support device 1 is fixed to the ceiling structure 3 via the ceiling installation metal fittings 21 . In such a ceiling structure fixing process, it is not necessary to attach the anti-vibration hanger to the suspension bolt. Moreover, even if the height dimension H between the support frame 10 and the ceiling structure 3 is small, there is no need to install the anti-vibration hanger in such a narrow space, so work efficiency is improved.

When the support device 1 is fixed to the ceiling structure 3 as shown in FIG. 10, the operator finely adjusts the position of the ceiling hanging object 100 as necessary. That is, the plurality of support bolts 14 fixed to the ceiling structure 3 are connected to the frame members 11 a and 11 b by the connecting members 13 . Therefore, by loosening the connecting member 13 and moving the frame members 11a and 11b in the X direction, the installation position of the ceiling hanging object 100 can be moved in the X direction. Moreover, since the upper end of the connecting bolt 31 that supports the ceiling hanging object 100 is connected to the frame members 11c and 11d extending in the Y direction of the support frame 10, the installation position of the connecting bolt 31 can be moved in the Y direction. By doing so, the installation position of the ceiling hanging object 100 can be moved in the Y direction. In addition, it is also possible to finely adjust the position of the orthogonal connecting fitting 12 . Therefore, the operator can easily finely adjust the position of the ceiling hanging object 100 within the XY plane.

In the construction method described above, the ceiling-suspended object 100 is pre-assembled and integrated with the support device 1 by floor surface work, and when the support device 1 and the ceiling-suspended object 100 are lifted to a position near the ceiling structure, A case of integrally lifting is illustrated. However, the present invention is not limited to this. For example, the support device 1 is first fixed to the ceiling structure, and then the ceiling hanging object 100 is lifted separately from the support device 1 and attached to the connecting bolt 31 of the support device 1 to the ceiling. A hanging object 100 may be attached. In such a construction method, since the position of the connecting bolt 31 can be adjusted in a state where the ceiling hanging object 100 is not connected to the connecting bolt 31, there is an advantage that the position can be adjusted relatively easily. be.

Although one embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment. That is, the present invention can be applied with various modifications other than the configuration described in the above embodiment.

For example, in the above-described embodiment, a configuration example in which a plurality of frame members 11 constitute the rectangular support frame 10 and the support frame 10 supports the ceiling hanging object 100 has been described. However, the support device 1 is not necessarily limited to the one provided with the rectangular support frame 10 . For example, when the ceiling hanging object 100 is attached to the frame member 11 and the support bolt 14 is arranged to stand from the frame member 11, the connection portion between the support bolt 14 and the frame member 11 is provided with the above-described A vibration isolation hanger 63 can be provided inside the frame member 11 by arranging the connecting member 13 . Therefore, the present invention may include at least the anti-vibration hanger 63 arranged inside the frame member 11 .

In the above-described embodiment, as an example of the configuration of the frame member 11, the flat plate portions of a pair of shape steels 42, 42 such as lip channel steel or light channel steel are connected in a state of facing each other with a predetermined interval. A case is illustrated in which the configuration is such that However, the frame member 11 is not limited to such a configuration. For example, the frame member 11 may be made of a prismatic steel material and formed with slits 43 penetrating two surfaces facing each other. Also, frame members 11 having other structures may be used.

Moreover, in the above embodiment, the case where the coil spring 64 is used for the anti-vibration hanger 63 is exemplified. However, the member used for the anti-vibration hanger 63 is not limited to the coil spring 64, and other elastic members may be used.

DESCRIPTION OF SYMBOLS 1... Support apparatus, 10... Support frame, 11 (11a, 11b, 11c, 11d)... Frame member, 13... Connection member, 14... Support bolt, 30... Support member, 20... Attachment part, 21... Ceiling installation metal fitting , 63... Anti-vibration hanger, 64... Coil spring (elastic member), 64... Ring member, 65... Nut, 42... Shaped steel, 43... Slit, 100... Ceiling suspension.

Claims (6)

A support device for supporting a ceiling hanging object in a state of being suspended from a ceiling structure,
a frame member that supports the ceiling hanging object;
a connection member that is attached to the frame member and that connects support bolts that are connected to the ceiling structure;
with
A support device according to claim 1, wherein said connecting member comprises an anti-vibration hanger arranged inside said frame member, and said support bolt is connected to said anti-vibration hanger. A support device for supporting a ceiling hanging object in a state of being suspended from a ceiling structure,
a support frame configured by assembling a plurality of frame members in a rectangular shape;
a support member attached to a plurality of locations of the support frame and supporting the ceiling hanging object;
a connection member that is attached to a plurality of locations of the support frame and that connects support bolts that are connected to the ceiling structure;
with
A support device according to claim 1, wherein said connecting member comprises an anti-vibration hanger arranged inside said frame member, and said support bolt is connected to said anti-vibration hanger. The frame member has a slit formed along the longitudinal direction,
3. The support device according to claim 1, wherein the connecting member is movable along the slit. The frame member has a structure in which a pair of flat plate portions of shaped steel are connected to face each other with a predetermined gap therebetween,
4. The support device according to any one of claims 1 to 3, wherein the connecting member includes the anti-vibration hanger between the pair of shaped steels. further comprising a ceiling mounting bracket attached to the tip of the support bolt and rotatable around the axis of the support bolt;
The ceiling mounting bracket has a mounting hole into which a bolt member attached to the ceiling structure can be inserted, and rotates around the axis to match the mounting hole with the position of the bolt member. 5. The support device according to any one of claims 1 to 4, characterized in that it can be inserted into said mounting hole. A construction method for constructing the support device according to claim 5 in a state of being suspended from a ceiling structure,
a step of creating the support device in an assembly operation on the floor;
lifting the support device to a position near the ceiling structure;
A bolt member to be attached to the ceiling structure is inserted into the attachment hole by rotating the ceiling mounting bracket around the axis of the support bolt while lifting the support device to a position near the ceiling structure. securing the support device to the ceiling structure with a
A construction method characterized by having

Images