KR101336663B1 - Truss Device - Google Patents

Abstract

The present invention connects the horizontal member 110 formed between the support pillar 210 and the support pillar 220, the horizontal member 110 and the support pillars 210 and 220, and the main body 144. A wedge unit 160 having an inclined portion 162 formed therein is formed in the auxiliary body 150 mounted on the main body 144 and the wedge tube holes 147a and 149a formed in the main body 144. It relates to a truss device characterized in that it comprises a connecting portion (140a, 140b).
The present invention has an effect that can provide a truss device 100 that is easily connected to the support pillars 210 and 220 using the wedge unit 160 as described above.

Description

Truss Device

The present invention relates to a truss device.

In general, a pillar member is installed to support the slab foam in a construction site, and there is a fear that buckling occurs in the pillar member due to the concrete load placed above the slab foam.

In order to prevent buckling generated in the pillar member, a reinforcing member is provided between the pillar member and the pillar member, and the reinforcing member is installed at the intermediate height of the pillar member to reinforce the position most vulnerable to the buckling.

The reinforcing member may be provided in various forms, but it is common to use a truss form.

The truss type is a frame structure in which the joints are connected by pins so that the member is not bent, and arch type, suspension type and beam type are generally used.

Conventionally, there is a problem that the connection between the pillar member and the truss device is not easy.

The technical problem to be achieved by the present invention is to provide a truss device that can be easily connected to the pillar member.

The present invention is a horizontal member 110 formed between the support pillar 210 and the support pillar 220,

A connection between the horizontal member 110 and the support pillars 210 and 220, the main body 144, the auxiliary body 150 mounted on the main body 144, and the wedges formed on the main body 144. Connecting portions 140a and 140b in which wedge units 160 having inclined portions 162 are formed in the through holes 147a and 149a are formed to be movable.

It provides a truss device, characterized in that configured to include.

In addition, the wedge unit 160 may have a guide portion 168 perpendicular to the inclined portion 162.

In addition, a hook-shaped first hook portion 144a is formed at a portion of the main body 144 that is coupled to the support pillars 210 and 220, and the first body is also coupled to the pillar of the auxiliary body 150. The second hook portion 150a may be formed to face the hook portion 144a.

The main body 144 may have a through hole 142 having a cross-section having a “c” shape and a bolt 112 penetrating at a portion contacting the ends of the horizontal members 110 and 120.

The auxiliary body 150 is formed with a through hole 152 to be hinged to the main body 144 by a hinge pin 146 and may be mounted on an open portion of the cross section of the main body 144.

The present invention has an effect that can provide a truss device that is easy to connect to the pillar member using the wedge unit.

In addition, since the wedge unit is formed in a state in which the inclined portion and the guide portion are vertically positioned with each other, even when the wedge unit is moved by hitting the upper or lower portion of the wedge unit, problems such as bending of the wedge unit due to the hit are remarkable. The effect is reduced.

1 is a front view showing a state in which a truss device is mounted between support columns.
2 is an exploded perspective view showing the truss device of FIG.
3 is a perspective view illustrating the connection part of FIG. 2;
FIG. 4 is an exploded perspective view of FIG. 3; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a front view showing a state in which the truss device is mounted between the support pillar, Figure 2 is an exploded perspective view showing the truss device of Figure 1, Figure 3 is a perspective view showing the connection of Figure 2, Figure 4 is a Exploded perspective view.

The truss device 100 of the present invention is formed to connect the intermediate height point between the support pillar 210 and the support pillar 220, which is a vertical support member of the slab foam used in the construction site as shown in Figure 1, Both ends of the truss device 100 are connected to the support pillars 210 and 220.

The truss device 100 is positioned parallel to the upper horizontal member 110 and the lower horizontal member 110 formed in a size proportional to the distance between the support pillar 210 and the support pillar 220. Between the lower horizontal member 120, the vertical connecting members 132 and 134 connecting the upper horizontal member 110 and the lower horizontal member 120, and the vertical connecting members 132 and 134. Inclined connection members 136 and 138 connecting between the upper horizontal member 110 and the lower horizontal member 120, and both ends and support pillars of the upper horizontal member 110 and the lower horizontal member 120, respectively. It is configured to include a connecting portion (140a, 140b) formed to connect between the 210,220.

Each of the upper horizontal member 110 and the lower horizontal member 120 is a hollow member having a quadrangular cross section, and both ends of the upper horizontal member 110 and the lower horizontal member 120 have the same shape and have a bolt 112. The through hole 114 through which is formed is formed.

The connecting parts 140a and 140b have a main body 144 having a through hole 142 formed therein through a bolt 112 at a portion having a cross-section having a “c” shape and in contact with the ends of the horizontal members 110 and 120, and A hinge pin 146 penetrating through the hinge hole 145 of the main body 144 spaced apart from the through hole 142 and a through hole 152 through which the hinge pin 146 penetrates are formed. 144 of the auxiliary body 150 mounted on the open portion of the cross-section of the cross section 144 and the wedge tube holes formed in the upper horizontal portion 147 and the lower horizontal portion 149 of the “c” shape of the main body 144 ( It is configured to include a wedge unit 160 is formed to be movable through the 147a, 149a and the inclined portion 162 having a wide upper width and a lower width.

The main body 144 has a hook-shaped first hook portion 144a at a portion coupled to the support pillars 210 and 220, and the first hook portion at a portion coupled to the pillar in the auxiliary body 150. The second hook portion 150a is formed to face the 144a.

The distance between the first hook portion 144a and the second hook portion 150a is closer or further away from the hinge pin 146 by the wedge unit 160.

The support pillars 210 and 220 are provided with protrusions for engaging the hook portions 144a and 150a.

The wedge unit 160 has an upper portion 164 of the wedge unit 160 is lower than the upper wedge tube 147a so that the upper portion does not move downward through the upper wedge tube hole 147a of the main body 144. Is formed large so as not to pass below the upper wedge tube through hole (147a).

In addition, the wedge unit 160 has a lower portion 166 is formed by the engaging portion 167 is caught by the lower wedge tube hole 149a so as not to move upward through the lower wedge tube hole 149a of the main body 144. do.

In addition, the upper wedge tube hole 147a and the lower wedge tube hole 149a have a "a" shape, and any one of the horizontal portion or the vertical portion of the "a" shape is formed longer than the other portion.

The wedge unit 160 is also the shape of the portion to move through the upper wedge tube through hole (147a) and the lower wedge tube through hole (149a) has a cross-section "a" shape, the horizontal portion of the "a" shape or vertical One portion of the portion is formed longer than the other portion.

And the inclined portion 162 of the wedge unit 160 is a long portion formed in the "b" shape, the guide portion 168 is a short formed portion of the "a" shape, the inclined portion 162 is the upper wedge tube hole ( 147a) serves to guide when moved through the lower wedge tube hole 149a so that the wedge unit 160 is raised and lowered stably.

Of course, the "a" shape may be seen as a "b" shape depending on the viewing direction.

The position of the portion where the inclined portion 162 is moved among the upper wedge tube hole 147a and the lower wedge tube hole 149a is the rear end of the auxiliary body 150 around the hinge pin 146 and the auxiliary body 150. The second hook portion 150a formed at the distal end portion of the first hook portion 150a of the main body 144 when the inclined portion 162 is moved downwardly through the upper wedge tube through hole 147a and the lower wedge tube through hole 149a. Is moved in the direction of 144a.

In addition, the width d1 of the guide part 168 is generally shorter than the width d2 of the adjacent inclined part 162, so that if the width of the member performing the guide function is unnecessarily long, there is a large amount of material loss. Because.

When the shape of the wedge unit 160 is once again arranged, the inclined portion 162 having an upper width greater than the width of the lower portion is formed perpendicular to the inclined portion 162 and is larger than the average width of the inclined portion 162. It has a small width and has a length including a guide part 168 longer than the inclined part 162.

And since the inclined portion 162 and the guide portion 168 is formed in a state vertically positioned with each other, the strength of the wedge unit 160 is a straight form in which the cross section of the wedge unit 160 has only the inclined portion 162. It is bigger than ever.

Therefore, in the present invention, even when the wedge unit 160 is moved by hitting the upper or lower portion of the wedge unit 160, a problem such as bending of the wedge unit 160 due to the hit is remarkably reduced. .

On the other hand, the connection between the one end 111 and the connecting portion 140a of the upper horizontal member 110 is connected to the one end 111 of the upper horizontal member 110 overlapping through the through hole (114, 142) ) By inserting the fastening bolt 112.

The connection between the one end 111 and the connecting portion 140a of the upper horizontal member 110 is equally applied to each connection structure between the other end of the upper horizontal member 110 and both ends of the lower horizontal member 120 and other connecting portions. Apply.

When the horizontal members 110 and 120 and the connecting portions 140a and 140b are coupled as described above, the main body 144 and the wedge unit 160 are loosely coupled to the upper wedge tube hole 147a. Position the protrusions of the support pillars 210 and 220 between the auxiliary body 150.

In this state, when the upper portion of the wedge unit 160 is hit from above, the wedge unit 160 is moved downward through a predetermined length through the upper wedge tube hole 147a and the lower wedge tube hole 149a, so that these wedge tube holes ( Strongly coupled to the 147a, 149a and at the same time the inclined portion 162 of the wedge unit 160 rotates the auxiliary body 150 around the hinge pin 146 to the main body 144 and the auxiliary body 150 It is strongly fastened to the support pillars 210 and 220 through the first hook portion 144a and the second hook portion 150a.

The present invention has an effect that can provide a truss device 100 that is easily connected to the support pillars 210 and 220 using the wedge unit 160 as described above.

In addition, the wedge unit 160 is formed in a state in which the inclined portion 162 and the guide portion 168 are perpendicular to each other, so that the wedge unit 160 is hit by the upper or lower portion of the wedge unit 160. Even when moving, there is an effect that the wedge unit 160, such as bending due to the hitting is significantly reduced.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: truss device 110: upper horizontal member
120: lower horizontal member 140a, 140b: connecting portion
144: main body 144a: first hook portion
145: hinge hole 146: hinge pin
150: auxiliary body 150a: second hook portion
210, 220: support column

Claims (5)

A horizontal member 110 formed between the vertical support members of the slab foam to prevent buckling;
A main body 144 is connected between the horizontal member 110 and the vertical support member, and the auxiliary body 150 mounted on the main body 144 and the wedge tube through hole 147a formed in the main body 144. , 149a, the inclined portion 162 is formed to be movable, and the connecting portions 140a and 140b are formed with the wedge unit 160 approaching the main body 144 and the subsidiary body 150;
The upper wedge tube hole 147a located above the main body 144 and the lower wedge tube hole 149a located below each have a "B" shape and another part of the "A" shape perpendicular to the other part. Formed longer,
The cross-sectional shape of the wedge unit 160 which is moved through the upper wedge tube hole 147a and the lower wedge tube hole 149a corresponds to the upper and lower wedge tube holes 147a and 149a. The long portion of the cross-sectional shape of the "a" shape forms the inclined portion 162 of the wedge unit 160 and the short portion perpendicular to the form the guide portion 168, but the inclined portion Truss characterized in that the thickness of the portion 162 is formed thinner than the thickness of the guide portion 168, the vertical length of the inclined portion 162 is shorter than the vertical length of the guide portion 168. Device.
delete The method according to claim 1,
The main body 144 has a hook-shaped first hook portion 144a formed at a portion that is coupled to the vertical support member, and the auxiliary body 150 also has a second hook portion facing the first hook portion 144a. Truss device, characterized in that the (150a) is formed.
The method according to claim 3,
The main body 144 is a truss device, characterized in that the cross-section is a "c" shape and a through-hole (142) through which the bolt (112) penetrates at a portion contacting the end of the horizontal member (110). The method according to claim 3,
The auxiliary body 150 is formed with a through-hole 152 to be hinged to the main body 144 by a hinge pin 146, characterized in that mounted on the open portion of the cross section of the main body 144 Truss device.

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