KR102459395B1 - Slide type nut holder using prefabricated truss - Google Patents

Abstract

A slide-type nut holder for a prefabricated truss is inserted into a guide groove having a hexagonal shape in a longitudinal section formed in a prefabricated truss formed by assembling a plurality of pipes with a connection bracket, the bottom plate having a size to be inserted into the guide groove; a first support portion formed on an upper surface of the bottom plate to support two side surfaces of the nut disposed on the bottom plate; a second support portion formed on the bottom plate to face the first support portion to support the other two sides of the nut; a handle portion formed to face the second support portion from the upper surface of the bottom plate and having a height at which an upper end protrudes out of the guide groove; and a reinforcing member having one side connected to the handle part and the other side opposite to the one side connected to the second support part.

Description

Slide type nut holder for prefabricated truss {SLIDE TYPE NUT HOLDER USING PREFABRICATED TRUSS}

The present invention relates to a slide-type nut holder for a prefabricated truss.

In general, after the building is built, the exterior wall of the building is finished with various types of panels or stone materials.

In addition, in order to finish the wall or ceiling of a building, a truss structure is formed by connecting metal beams to the wall in a grid shape in the horizontal and vertical directions by welding, and the truss structure is fixed to the wall using a wall bracket and then the truss After installing the insulating material on the front of the structure, the stone material is finished using the stone brackets that protrude to the outside of the insulator in a state of being coupled to the truss structure.

In recent years, as fires frequently occur due to on-site welding, a prefabricated non-welding trust technology that minimizes on-site welding is being developed.

Registered Patent No. 10-2124755, Prefabricated Non-Welded Truss, (Registration Date: June 15, 2020) has a horizontal support and a vertical support perpendicular to each other, placing a connecting member on them, and sliding the bolt head into the groove of the support A technique of coupling a nut to an externally protruding bolt is disclosed.

However, since the prefabricated non-welded trust technology is a method in which the uniquely formed bolt head is inserted into the groove of the support and then slides, when a wall bracket fixed to the wall is placed in a part of the groove of the support, the bolt head moves along the groove There is a problem that it is difficult to become

Therefore, when the groove of the support is blocked by a wall bracket or the like, a method of inserting a general nut into the groove and inserting the bolt from the outside of the support into the groove to couple the nut to the bolt is inevitably used.

However, when the nut is inserted into the groove of the support in this way, it is difficult for the user to accurately transport the nut to the designated position of the nut, which increases the construction time, and it is difficult to prevent the rotation of the nut when the bolt is coupled to the nut. have a difficult problem.

Laid-open Patent No. 10-2015-0072142, Non-welded truss structure for construction with improved resistance to aftershocks (published on June 29, 2015) Registered Patent No. 10-2124775, Prefabricated Non-Welded Truss (Registration Date: June 15, 2020)

The present invention provides a slide-type nut holder for a prefabricated truss that accurately places a nut at a designated position inside a guide groove formed in grooved pipes and prevents rotation of the nut when the bolt is assembled to the nut.

As an embodiment, the slide type nut holder for the prefabricated truss is inserted into a guide groove having a hexagonal shape in a longitudinal section formed in a prefabricated truss formed by assembling a plurality of pipes with a connection bracket, and has a size to be inserted into the guide groove. bottom plate; a first support portion formed on an upper surface of the bottom plate to support two side surfaces of the nut disposed on the bottom plate; a second support portion formed on the bottom plate to face the first support portion to support the other two sides of the nut; a handle portion formed to face the second support portion from the upper surface of the bottom plate and having a height at which an upper end protrudes out of the guide groove; and a reinforcing member having one side connected to the handle part and the other side opposite to the one side connected to the second support part.

The upper surface of the bottom surface of the slide-type nut holder for prefabricated truss is flat, and the lower surface opposite to the upper surface is formed as a convex inclined surface in the middle.

The nut of the slide-type nut holder for a prefabricated truss is a hexagonal nut, the first support part is formed in a bent plate shape in contact with two adjacent side surfaces of the nut, respectively, and the second support part is two adjacent parts of the nut It is formed in the shape of a bent plate in contact with the side surfaces of the dog, respectively.

When measured from the upper surface of the bottom plate of the slide-type nut holder for a prefabricated truss, the heights of the first and second supporting parts and the reinforcing member are the same.

The slide-type nut holder for prefabricated truss according to the present invention improves construction efficiency and reduces construction time by accurately arranging the nut at a specified position inside the concave guide groove formed in the pipe and preventing the nut from rotating when the bolt is assembled to the nut. has the effect of shortening it.

1 is a perspective view showing a prefabricated truss to which a slide type nut holder is applied according to an embodiment of the present invention.
Figure 2 is a perspective view showing the first prefabricated pipe of Figure 1;
FIG. 3 is a cross-sectional view taken along line II′ of FIG. 1 .
4 is a cross-sectional view taken along line II-II' of FIG. 1 .
5 is a perspective view showing an excerpt of the connection bracket of FIG.
FIG. 6 is a perspective view illustrating a slide type nut holder only partially illustrated in FIG. 1 .
7 is a plan view of the slide type nut holder of FIG. 6 .
8 is a side view in the 'A' direction of FIG.
9 is a front view in the 'A' direction of FIG.
FIG. 10 is a plan view illustrating the relationship between the slide-type nut holder shown in FIG. 1 and the bracket for fixing the stone.
11 is a cross-sectional view taken along line III-III' of FIG. 10 .

The present invention described below can apply various transformations and can have various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that this does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

In addition, terms such as first, second, etc. may be used to distinguish and describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

In addition, when at least two different embodiments are described in the present application, even if there is no particular description within the scope not departing from the technical spirit of the present invention, all or part of the components may be used by merging and mixing with each other. .

1 is a perspective view showing a prefabricated truss to which a slide type nut holder is applied according to an embodiment of the present invention. Figure 2 is a perspective view showing the first prefabricated pipe of Figure 1; FIG. 3 is a cross-sectional view taken along line I-I' of FIG. 1 . 4 is a cross-sectional view taken along line II-II' of FIG. 1 .

1 to 4, the prefabricated truss 800 is a first prefabricated pipe 100, a second prefabricated pipe 200, a connection bracket 300, a slide type nut holder 400, and a fastening member 500. includes

1 to 3 , the first prefabricated pipe 100 includes a first pipe body 150 (see FIG. 3 ), a first guide groove 160 and a long hole 170 .

Referring to FIG. 3 , the first pipe body 150 is made of a metal material and may be formed in a hollow polygonal column shape. For example, the first pipe body 150 may have a hollow square pillar shape.

The first pipe body 150 may have a hollow rectangular pipe shape having a first surface 110 , a second surface 120 , a third surface 130 , and a fourth surface 140 .

The first surface 110 and the second surface 120 are arranged to face each other, the third surface 130 and the fourth surface 140 are also arranged to face each other, and the first to fourth surfaces 110, 120, 130, 140 are mutually Connected.

The first guide groove 160 is formed to face each other on the third surface 130 and the fourth surface 140 , respectively.

In one embodiment of the present invention, the first guide groove 160 is formed in a hexagonal shape or a shape similar to a hexagon when viewed from the longitudinal section.

The first guide groove 160 having a hexagonal or hexagonal-like shape when viewed in a longitudinal section includes a first groove portion 161 , a second groove portion 162 , and a third groove portion 163 .

The first groove portion 161 has a plate shape, and the first groove portion 161 is concavely formed from the third surface 130 and the fourth surface 140 , and the third surface 130 and the fourth surface 140 . A long opening with a constant width is formed in the The first groove portion 161 is formed to be inclined inversely so that the opening area is continuously extended from the third and fourth surfaces 130 and 140 toward the inside by a designated length.

The second groove portion 162 has a plate shape, and the second groove portion 162 extends from an end of the first groove portion 161 that is disposed to be reversely inclined by a predetermined length such that the opening area is constant.

The third groove portions 163 have a plate shape, and the third groove portions 163 each extend from an end of the second groove portion 162 so that the opening area is continuously reduced, and the ends of the third groove portions 163 are interconnected. do.

A pair of long holes 170 is formed at both ends of the first surface 110 and the second surface 120 , and the long holes 170 are formed through the first and second surfaces 110 and 120 facing each other. The long hole 170 allows the fastening member 500 to be coupled to the connection bracket 300 shown in FIG. 1 .

1 and 4 , the second prefabricated pipe 200 includes a first pipe body 250 and a second guide groove 260 .

The second pipe body 250 is made of a metal material and may be formed in a hollow polygonal column shape. For example, the second pipe body 250 may have a hollow square pillar shape.

The second pipe body 250 may have a hollow square pipe shape having a fifth surface 210 , a sixth surface 220 , a seventh surface 230 , and an eighth surface 240 .

The fifth surface 210 and the sixth surface 220 are arranged to face each other, the seventh surface 230 and the eighth surface 240 are also arranged to face each other, and the fifth to eighth surfaces 210 , 220 , 230 , 240 are mutually Connected.

Referring to FIG. 4 , the second guide grooves 260 are formed on the seventh surface 230 and the eighth surface 240 to face each other, respectively.

In one embodiment of the present invention, the second guide groove 260 is formed in a hexagonal shape or a shape similar to a hexagon when viewed from the longitudinal section.

When viewed in a longitudinal section, the second guide groove 260 having a hexagonal or hexagonal-like shape includes a fourth groove portion 261 , a fifth groove portion 262 , and a sixth groove portion 263 .

A pair of fourth grooves 261 is formed in a plate shape, and the fourth grooves 261 form long openings having a constant width on the seventh surface 230 and the eighth surface 240 , and the fourth groove portion 261 is formed to be inversely inclined so that the opening area continuously extends from the seventh and eighth surfaces 230 and 240 toward the inside by a designated length.

The fifth groove portion 262 is formed in a plate shape, and each of the fifth groove portions 262 extends from the ends of the pair of fourth groove portions 261 arranged in a reverse inclination to a predetermined length with a constant opening area.

The sixth groove portion 263 is formed in a plate shape, and the sixth groove portion 263 extends from the end of the fifth groove portion 262 so that the opening area is continuously reduced, and the ends of the sixth groove portion 263 are mutually Connected.

In one embodiment of the present invention, the first prefabricated pipe 100 described above may be disposed in a direction parallel to the ground, and the second prefabricated pipe 200 described above may be disposed in a direction erected with respect to the ground. There, the first and second prefabricated pipes 100 and 200 are respectively arranged vertically.

The first guide groove 160 formed in the first prefabricated pipe 100 is formed in a direction parallel to the ground, which is a bracket (not shown) in the first prefabricated pipe 100 as shown in FIG. 600) so that it can be combined in a standing state with respect to the ground.

In one embodiment of the present invention, the long hole 170 of the first prefabricated pipe 100 and the second guide groove 260 of the second prefabricated pipe 200 are disposed adjacent to each other, and in this state, the first and the first The two prefabricated pipes 100 and 200 are coupled to each other by a connection bracket 300 .

5 is a perspective view showing an excerpt of the connection bracket of FIG.

1 and 5, the connection bracket 300 allows the first and second prefabricated pipes 100 and 200 to be interconnected without welding.

The connection bracket 300 is, for example, made of a metal material, and the connection bracket 300 includes a first connection bracket part 320 having a first opening 310 and a second connection bracket part 320 having a second opening 330 . It includes a connection bracket part 340 .

The first connection bracket part 320 may be disposed on the first or second surfaces 110 and 120 of the first prefabricated pipe 100 , and the second connection bracket part 340 is the second of the second prefabricated pipe 200 . It may be disposed on the seventh and eighth surfaces 230 and 240 .

The first opening 310 is formed in the first connection bracket portion 320, the first opening 310 is formed in a position corresponding to the long hole 170 formed in the first prefabricated pipe 100, the first opening 310 is formed in a concave groove shape from the edge of the first connection bracket portion 320 .

The second opening 330 is formed in the second connection bracket part 340 , and the second opening 330 is spaced apart from the end of the second connection bracket part 340 at a position corresponding to the second guide groove 260 . It has a through-hole shape formed by the In one embodiment of the present invention, the second opening 330 may be formed in the shape of an oblong hole when viewed in a plan view.

FIG. 6 is a perspective view illustrating a slide type nut holder only partially illustrated in FIG. 1 . 7 is a plan view of the slide type nut holder of FIG. 6 . 8 is a side view in the 'A' direction of FIG. 9 is a front view in the 'A' direction of FIG.

1, 6 to 9, the slide-type nut holder 400 is inserted into the first guide groove 160 or the second guide groove 260 in a state in which the nut 401 is accommodated. The first or second guide grooves 160 and 260 may be moved while sliding.

The slide type nut holder 400 is, for example, a part of the first guide groove 160 or the second guide groove 260 is a different material, for example, the connection bracket 300, the wall fixing bracket (not shown) ), the nut 401 inserted into the first or second guide grooves 160 and 260 is accurately transported to the designated position even if it is blocked by the bracket 600 for fixing the stone, and the bolt is attached to the nut 401 at the designated position. It is possible to significantly shorten the assembly or construction time of the prefabricated truss 800 by allowing it to be fastened.

The slide type nut holder 400 may be made of, for example, a synthetic resin material.

In one embodiment of the present invention, the slide type nut holder 400 includes a bottom plate 410 , a first support portion 420 , a second support portion 430 , a handle portion 440 , and a reinforcing member 450 . .

The bottom plate 410 is, for example, formed in a rectangular shape or a rectangular shape having a length longer than the width, and the bottom plate 410 is a size suitable for being inserted into the first and second guide grooves 160 and 260 . is formed with

The upper surface 412 of the bottom plate 410 may be formed of, for example, a flat flat surface, and the lower surface 414 of the bottom plate 410 is, for example, the first surface 412 shown in FIGS. 3 and 4 . The third groove portion 163 of the first guide groove 160 or the sixth groove portion 263 of the second guide groove 260 may be formed as an inclined surface in contact.

The lower surface 414 of the bottom plate 410 is in contact with the entire third groove portion 163 or the sixth groove portion 263, or a part of the lower surface 414 is the third groove portion 163 or the sixth groove portion 263. can be contacted.

As described above, by forming the lower surface 414 of the bottom plate 410 as an inclined surface in contact with the third groove portion 163 or the sixth groove portion 263 , the bottom plate 410 can slide stably as well as from the outside. It is possible to prevent damage to the bottom plate 410 due to the applied force.

Alternatively, by additionally forming a plurality of grooves parallel to each other in a direction parallel to the movement direction of the bottom plate 410 on the lower surface 414 of the bottom plate 410, while maintaining the strength of the bottom plate 410, the bottom plate ( The lower surface 414 of the 410 reduces the area in contact with the third groove portion 163 of the first guide groove 160 or the sixth groove portion 263 of the second guide groove 260 to reduce the sliding type nut holder 400 ) can be transferred more smoothly.

A nut 401 may be disposed on the upper surface of the bottom plate 410 . In one embodiment of the present invention, the nut 401 may include, for example, a hexagonal nut having six angled sides with a female threaded fastening hole in the central portion.

In one embodiment of the present invention, the upper surface 412 of the bottom plate 410 corresponding to the fastening hole of the nut 401 accommodates the end of the bolt screwed to the nut 401 even if it slightly protrudes from the nut 401 . A concave groove is formed.

In order to prevent the nut 401 disposed on the bottom plate 410 from being separated from the bottom plate 410 and the nut 401 being rotated with respect to the bottom plate 410, the upper surface 412 of the bottom plate 410 has A first support portion 420 and a second support portion 430 are formed.

The first support part 420 supports at least two side surfaces of the nut 401 disposed on the bottom plate 410 .

The first support part 420 is formed in a bent plate shape in contact with two adjacent side surfaces of the nut 401 , and the first support part 420 is assembled to the bottom plate 410 or integrated with the bottom plate 410 . can be formed with

For example, the first support 420 may have a plate shape bent at an angle of about 120°.

The second support part 430 supports the other at least two side surfaces of the nut 401 disposed on the bottom plate 410 .

The second support part 430 is formed in a bent plate shape in contact with the two side surfaces of the nut 401 , and may be assembled to the bottom plate 410 or integrally formed in the bottom plate 410 .

For example, the second support 430 may have a plate shape bent at an angle of about 120°.

The nut 401 is accommodated in an empty space formed between the first and second support parts 420 and 430 so that the nut 401 is not rotated even when an external force is applied by the first and second support parts 420 and 430 . do.

In one embodiment of the present invention, the first and second support parts 420 and 430 prevent the nut 401 from rotating together with the bolt when the bolt is coupled to the nut 401 to prevent the nut 401 and the bolt from being rotated. shortens the construction time required for assembly.

The handle portion 440 is formed on the upper surface 412 of the bottom plate 410 , and the handle portion 440 is disposed at a position spaced apart from the second support portion 430 .

In one embodiment of the present invention, the handle portion 440 is formed at a position corresponding to the slit-shaped opening formed by the first or second guide grooves 160 and 260, and the handle portion 440 is the first or second It is formed at a height protruding to the outside of the opening formed by the guide grooves 160 and 260 .

The portion of the handle portion 440 that does not protrude from the first or second guide grooves 160 and 260 is formed wider than the width of the handle portion 440 so that the handle portion 440 is damaged and the slide-type nut holder 400 is removed. Prevents shaking inside the first or second guide grooves 160 and 260 .

The reinforcing member 450 serves to prevent damage to the handle portion 440 by interconnecting the handle portion 440 and the second support portion 430 .

The reinforcing member 450 is formed in a plate shape, one end of the reinforcing member 450 is formed on one side of the handle 440 , and the other end of the reinforcing member 450 is formed on the second support 430 . . The lower surface of the reinforcing member 450 may be integrally formed with the upper surface 412 of the bottom plate 410 .

In one embodiment of the present invention, the height of the reinforcing member 450, the first support portion 420 and the second support portion 430 is, for example, when measured from the upper surface 412 of the bottom plate 410 nut ( 401) may be formed to be substantially the same as the height of the 401).

10 is a plan view illustrating the arrangement relationship of the bracket for fixing the slide type nut holder and the stone shown in FIG. 1 . 11 is a cross-sectional view taken along line III-III' of FIG. 10 .

10 and 11 , the gap D1 between the center of the fastening hole of the nut 401 and the inner surface of the handle 440 is a bracket 600 that blocks the first or second guide grooves 160 and 260 . ) is formed substantially equal to the distance (D2) between the side and the center of the long hole formed in the bracket (600).

Therefore, when the user slides the bottom plate 410 on which the nut 401 is mounted using the handle 440 and the handle 440 comes into close contact with the edge of the bracket 600 , the fastening hole of the nut 401 is The center of the bracket 600 is precisely aligned with the center of the long hole, and the user easily and quickly inserts the bolt 610 into the first or second guide grooves 160 and 260 as shown in FIG. The fastening and nut 401 are firmly fixed inside the first guide groove 160 .

Referring back to FIG. 1 , the fastening member 500 includes a first fastening member 510 and a second fastening member 520 .

The first fastening member 510 is a fastening bolt 512 passing through the long holes 170 of the first and second surfaces 110 and 120 of the first prefabricated pipe 100 and a fastening nut fastened to the fastening bolt 512 ( 514).

The second fastening member 520 includes a bolt 520 coupled to the nut 401 mounted on the slide-type nut holder 400 disposed inside the second guide groove 260 as shown in FIG. 1 . do.

According to the above-described embodiments, interconnecting the first prefabricated pipe having the long hole and the first guide groove and the second prefabricated pipe having the long hole and the second guide groove formed without the long hole is illustrated and described with a connection bracket, but this Alternatively, after arranging the first prefabricated pipes having a long hole and a first guide groove perpendicular to each other, the connection brackets may be interconnected.

According to the above-described embodiments, interconnecting the first prefabricated pipe having the long hole and the first guide groove and the second prefabricated pipe having the long hole and the second guide groove formed without the long hole is illustrated and described with a connection bracket, but this Alternatively, after arranging the second prefabricated pipes in which the second guide groove is formed perpendicular to each other, they may be interconnected using a connection bracket.

As described in detail above, it is possible to provide a structure that is easy to couple the stone bracket to the truss structure according to the construction environment, and to implement the truss structure by assembling even if the bracket blocks a part of the truss structure depending on the construction environment. have

On the other hand, the embodiments disclosed in the drawings are only presented as specific examples to help understanding, and are not intended to limit the scope of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

100...First prefabricated pipe 200...Second prefabricated pipe
300...connection bracket 400...slide type nut holder
500...without fastening

Claims (4)

The longitudinal section formed in the prefabricated truss formed by assembling a plurality of pipes with a connection bracket is inserted into a concave guide groove having a hexagonal shape,
a bottom plate having a size to be inserted into the guide groove;
a first support portion formed on an upper surface of the bottom plate to support two side surfaces of the nut disposed on the bottom plate;
a second support portion formed on the bottom plate to face the first support portion to support the other two sides of the nut;
a handle part formed to face the second support part from the upper surface of the bottom plate and having a height at which an upper end protrudes out of the guide groove; and
A slide-type nut holder for a prefabricated truss including a reinforcing member having one side connected to the handle portion and the other side opposite to the one side connected to the second support portion. The method of claim 1,
The upper surface of the bottom plate is flat, and the lower surface opposite to the upper surface is a slide type nut holder for a prefabricated truss formed with a convex inclined surface in the middle. The method of claim 1,
The nut is a hexagon nut,
The first support portion is formed in a bent plate shape in contact with two adjacent side surfaces of the nut, respectively,
The second support portion is a slide-type nut holder for a prefabricated truss formed in a bent plate shape in contact with two adjacent side surfaces of the nut, respectively. The method of claim 1,
The height of the first and second supporting parts and the reinforcing member when measured from the upper surface of the bottom plate is the same as the height of the nut slide type nut holder for a prefabricated truss.

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