JP2006283476A - Bearing structure of string beam - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize a reasonably and economically light-weighted string beam structure which does not hinder the characteristics of the string beam structure. <P>SOLUTION: A bearing part 10 comprises a stainless plate 16 glued on a lower surface of a base plate 13 welded to an end part of the string beam 8, a top plate 18 fixed onto a lower frame 14 by the intermediary of a mortar member 19, a sliding plate 15 having a smaller width L than that of the base plate 13 and being interposed between the stainless plate 16 and the top plate 18, anchor bolts 20, ... protruding from the lower frame 14 and penetrating long holes 23, ... formed in the base plate 13, and nuts 22 being fastened by the intermediary of washers 21 in a state of leaving an allowance Dz. The long holes 23, ... formed in the base plate 13 are long in a span direction of the string beam 8. The base plate 13 is slidable on the sliding plate 15 in the span direction. A stopper 17 abutting the base plate 13 is placed beside the base plate 13 on the top plate 18 at a predetermined interval Dx. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a support structure for a stringed string beam, and more particularly, to a support structure for a lightweight stringed beam that is affected by blowing by a wind load.

  Conventionally, a stringed beam structure is known as one of the techniques for realizing a large span structure (see, for example, Patent Document 1). The stringed beam structure is formed by connecting both ends of a beam formed in a mountain shape or an arch shape with a string and arranging a bundle material between the beam and the string, and the arch effect that the beam has or the suspension effect that the string has. This is a promising form resistance structure.

The stringed beam structure is suitable for a building having a relatively heavy weight. In order to exert the effect of the stringed beam structure, it is effective to use a simple support state including a pin fulcrum and a roller fulcrum. On the other hand, in the case of a light tension string beam structure, the string tension generated by the weight of the tension string beam may be reduced by blowing up by wind load. When the string tension is reduced, the stringed beam becomes a so-called simple beam, so that the deformation of the stringed beam and the member stress increase, and the characteristics of the stringed beam structure cannot be fully exhibited. For this reason, in the conventional stringed beam structure, the following wind countermeasures have been taken (see FIG. 3).
(A) Increase the weight of the roof.
(B) The rigidity of the roof is increased by using a member having bending rigidity for the string.
(C) The stay rod 50 is added.
(D) The valley cable 51 is added in the construction surface of the stringed beam structure.
JP-A-9-235816 (Page 2-4, Fig. 1-3)

However, (a) is a method including a contradiction that a lightened roof is made heavy, and (b) is a mechanically rational method because a bending moment is applied to a string that should be a tensile material. is not. Further, (c) and (d) require the addition of members. Thus, neither method is costly and economical.
On the other hand, it is conceivable to generate a tension due to the weight of the string string beam in the string and then join the string string beam to the lower column so that the stringed beam structure and the lower column are integrated into a frame to resist wind loads. According to this method, it is possible to suppress the decrease in string tension as much as possible. However, the burden on the lower structure is increased, which is uneconomical, and the fluctuation of the string tension is affected by the rigidity of the lower structure. I can't say that.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to realize a rationally and economically lightweight stringed beam structure without impairing the characteristics of the stringed beam structure.

  In order to achieve the above object, the present invention is characterized in that at least one of the support portions that support the end portion of the stringed beam is a roller support, and when the roller support moves a predetermined amount in the horizontal direction, it becomes a pin support.

FIG. 2 is a conceptual diagram illustrating the principle of the support structure for a stringed beam according to the present invention. In FIGS. 2 (a) and 2 (b), the lower frame supporting the stringed beam is omitted.
As shown in FIG. 2A, a stringed beam 1 in which both ends of a beam 2 formed in a mountain shape or an arch shape are connected by a string 3 and a bundle member 4 is arranged between the beam 2 and the string 3 has one end. Is a simple support state in which the pin support 6 and the other end are the roller support 5. When a fixed load W _DL including the weight of the beam 2 acts on the beam 2, a tension T = T _DL is generated in the string 3, and the roller bearing 5 moves horizontally by δ _DL outward due to the tension T.
In this state, as shown in FIG. 2 (b), wind load W ₁ is applied to the beam 2, the beam 2 is blown upward, since the roller bearing 5 is horizontally moved inward, tension of the string 3 T is killed and T = T _DL −T _w1 .
In the present invention, the roller bearing 5 [delta] _W1 moves inwardly, the roller bearing 5 is changed to the pin bearing 5 '(see FIG. 2 (c)). For this reason, the stringed beam 1 resists the subsequent wind load W ₂ together with the lower frame 7.

  In the present invention, when at least one roller support that supports the end of the stringed beam moves a predetermined amount in the horizontal direction, it becomes a pin support and resists wind loads integrally with the lower frame, so the cross section of the stringed beam is designed economically The stringed beam and the lower frame can be made into a total and rational frame.

In the present invention, the support portion includes a sliding plate having a width smaller than that of the base plate interposed between a base plate provided at an end portion of the string string and a lower frame that supports the string string. Anchor bolts protruding from the frame are inserted into the long holes formed in the base plate, and are configured to be fastened with nuts with a washer sandwiched with play, and on the side of the base plate, It is preferable that the stoppers that are in contact with each other are disposed at a predetermined interval, and a sliding material is attached to the surface of the washer that is in sliding contact with the base plate.
Here, the predetermined interval is the same displacement amount as the predetermined amount.
In the present invention, a sliding plate having a narrower width than the base plate is interposed between the base plate and the lower frame, and the base plate and the lower frame are allowed to have play by anchor bolts that pass through a long hole formed in the base plate. The base plate can slide in the horizontal direction on the sliding plate and rotate in the vertical plane with the sliding plate as the rotation axis, which can realize roller support at low cost. it can. Furthermore, a support portion that changes from a roller support to a pin support can be realized by disposing a stopper at a predetermined interval on the side of the base plate.
In the present invention, since the sliding material is adhered to the washer surface that is in sliding contact with the base plate, the friction can be reduced to the minimum even with respect to the wind blowing load, and the structural quality can be ensured.

  In the present invention, when at least one roller support that supports the end of the stringed beam moves a predetermined amount in the horizontal direction, it becomes a pin bearing and resists wind loads integrally with the lower frame, so it does not impair the characteristics of the stringed beam structure. Reasonably and economically lightweight string beam structure can be realized.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a support structure for a stringed beam according to the present invention will be described with reference to the drawings.
1A and 1B show an example of a support structure for a stringed beam according to the present invention, where FIG. 1A is an elevation view and FIG. 1B is a plan view. In addition, in FIG.1 (b), although only one place is described about the nut and the washer, other anchor bolts are also fastened with the nut and the washer.

  The stringed beam 8 includes a beam 11 in which an H-shaped steel is formed in an arch shape, a tie rod (string) 12 whose end is pin-joined 12 a to a gusset plate 24 welded to the end of the beam 11, and the center of the span of the stringed beam 8 1 and a tie rod 12 (not shown) for connecting the beam 11 and the tie rod 12, and is constructed on a lower frame 14 made of reinforced concrete via a support 10.

  The support portion 10 includes a base plate between a stainless plate 16 attached to the lower surface of the base plate 13 welded to the end of the string string 8 and a top plate 18 fixed on the lower frame 14 via a mortar 19. A sliding plate 15 having a width L narrower than 13 is interposed, anchor bolts 20 projecting from the lower frame 14 are inserted through elongated holes 23 formed in the base plate 13, and are fastened by nuts 22 with a washer 21 interposed therebetween. It has become the composition.

The long holes 23 formed in the base plate 13 are long holes in the span direction of the string string 8, and the base plate 13 can slide on the sliding plate 15 in the span direction. Here, the span direction is a direction in which the string string 8 is bridged.
Further, on the side of the base plate 13 (the side where the base plate 13 slides), a stopper 17 abutting the base plate 13 is installed on the top plate 18 at predetermined intervals D _X. To install the stopper 17 on the top plate 18, fixed load acts on Zhang Tsuruhari 8, in a state where Chotsuruhari 8 is set to a predetermined position, at predetermined intervals D _X from the base plate 13, the stopper 17 by field welding Is fixed on the top plate 18.

  The sliding plate 15 is made of polytetrafluoroethylene resin (hereinafter referred to as PTFE resin) so that the base plate 13 can slide smoothly in the span direction. Further, a sliding material 21 a made of PTFE resin is attached to the surface where the washer 21 is in sliding contact with the base plate 13.

On the other hand, since the width L of the sliding plate 15 is considerably narrower than that of the base plate 13 and the corners 15a on the upper surface of the sliding plate 15 are chamfered, the base plate 13 is placed in the vertical plane with the sliding plate 15 as the rotation axis. Can rotate. Also, as the base plate 13 is easily rotated in the vertical plane, the base plate 13 is Tightened on the lower Frame 14 by anchor bolts 20 in a state in which slack D _Z.

  The bearing portion 10 having the above structure functions as a roller bearing for a long-term load. When the string beam 8 is blown up by the wind load, the base plate 13 slides in the span direction and comes into contact with the stopper 17 so that the wind load is While operating, the bearing 10 functions as a pin bearing.

It should be noted that the distance D _X between the base plate 13 and the stopper 17, the distance D _Y between the base plate 13 and the top plate 18, and the play D _{Z of the} nut 22 need to be set according to the load acting on the stringed beam 8. .

In the support structure of the stringed beam according to the present embodiment, the support part 10 that supports the end of the stringed beam 8 functions as a roller support for a long-term load, and the base plate 13 is given a predetermined amount D in the span direction by being blown up by the wind load. _{When the X} moves, it becomes a pin support and is integrated with the lower frame 14 to resist wind loads. For this reason, the cross section of the stringed beam 8 can be designed economically, and the stringed beam 8 and the lower frame 14 can be made into a total and rational frame.
Moreover, in the support structure of the stringed beam according to the present embodiment, a sliding plate 15 having a width L narrower than that of the base plate 13 is interposed between the stainless plate 16 and the top plate 18 attached to the lower surface of the base plate 13. the anchor bolts 20 ... inserted through length hole 23 ... formed in 13, since a configuration in which Tightened in a state where the base plate 13 and the lower Frames 14 to have a play D _Z, the base plate 13 sliding plate 15 above Can be rotated in the vertical plane with the sliding plate 15 as a rotation axis, and a roller bearing can be realized at low cost. Moreover, since at a predetermined distance D _X to the side of the base plate 13 to dispose the stopper 17, there is no constraint on the predetermined distance D _X, can be freely set a predetermined distance D _X.
Furthermore, in the support structure of the stringed beam according to the present embodiment, since the sliding member 21a is adhered to the surface of the washer 21 slidably contacting the base plate 13, the friction can be reduced to the minimum even with respect to the wind blowing load. Quality can be ensured.

  As mentioned above, although embodiment of the support structure of the stringed beam which concerns on this invention was described, this invention is not limited to said embodiment, In the range which does not deviate from the meaning, it can change suitably. For example, in the above embodiment, a stainless steel plate is attached to the lower surface of the base plate, but a stainless steel plate may be attached to the top plate, and the back surface side of the sliding plate may be fixed to the base plate. Further, the string constituting the stringed beam may be made of another material such as a cable instead of the tie rod. In short, it is only necessary to obtain the desired function in the present invention.

An example of the support structure of the stringed beam which concerns on this invention is shown, (a) is an elevation, (b) is a top view. It is a conceptual diagram for demonstrating the principle of the support structure of the stringed beam which concerns on this invention, (a) is the state where the fixed load is acting on the stringed beam, (b) is the state where the wind load is acting on the stringed beam, (C) has each shown the state in which the roller support of the string string beam changed to the pin support. The measures against wind in a conventional stringed beam are shown, in which (a) is a heavy load, (b) is a semi-rigid string, (c) is a stay rod, and (d) is a valley cable.

Explanation of symbols

1, 8 String string 2, 11 Beam 3 String 4 Bundle material 5 Roller bearing 6, 5 ′ pin bearing 7 Lower frame 10 Bearing 12 Tie rod (string)
13 Base plate 14 Lower frame 15 Sliding plate 16 Stainless plate 17 Stopper 18 Top plate 19 Mortar 20 Anchor bolt 21 Washer 21a Sliding material 22 Nut 23 Long hole 24 Gusset plate

Claims (2)

  A support structure for a stringed beam, wherein at least one of the support parts that support the end of the stringed beam is a roller bearing, and when the roller support moves a predetermined amount in the horizontal direction, it becomes a pin bearing. The support portion includes an anchor bolt that protrudes from the lower frame with a sliding plate that is narrower than the base plate interposed between a base plate provided at an end of the string beam and a lower frame that supports the string beam. Is inserted into the long hole formed in the base plate, and is configured to be fastened with a nut with a washer sandwiched in a state of having play,
On the side of the base plate, stoppers that are in contact with the base plate are disposed at a predetermined interval, and a sliding material is attached to the surface of the washer that is in sliding contact with the base plate. The support structure for a stringed beam according to claim 1.

Images