KR102182930B1 - Strengthened support frame coupling structure - Google Patents

Abstract

The present invention relates to a strengthened support frame coupling structure. More specifically, the present invention relates to a strengthened support frame and a coupling structure thereof having compression strength or tensile strength which can endure large load without deformation or bending and, when fastening a support member, fastening a bracket and a nut while a rotary fixing type insertion bolt is preliminarily and temporarily coupled so that an assembly work can be easily performed and the bolt is not easily loosened.

Description

Strengthened support frame coupling structure {Strengthened support frame coupling structure}

The present invention relates to a support frame coupling structure with reinforced strength, and more particularly, a state in which a rotational fixing bolt is pre-joined when fastening a support member having a compressive or tensile strength that can withstand a large load without deformation or bending. Since the bracket and the nut are fastened in the solar power plant, it is easy to assemble a support structure for a solar power plant, and a reinforced support frame and a coupling structure thereof in which the bolt is not easily released.

The support member refers to a member constituting the prefabricated shelf frame as shown in FIG. 10, and generally takes the shape of a'ㄱ' or'b' shape for weight reduction, and a number of through holes are formed in a row on the surface, and are two with bolts and nuts. The above support members are bound and used. However, the'a' or'b'-shaped support member has the advantage of lightening, while its tensile and compressive strength is relatively weak, so the support frame structure required for the construction site, such as scaffolding support, formwork support, plant cultivation support, building exterior wall. It could not be used for applications that require strong binding force and strength, such as a support for attaching an exterior material attached to the wall. For this reason, a'ㄱ' or'b' shape support member or a simple rectangular support member with weak reinforcement can be used for the use of a chassis frame of a beam or window frame installed horizontally on a building or a pillar for construction installed perpendicular to the ground. There was no.

In addition, the lightweight'a' or'b'-shaped support member is difficult to work, such as falling back when fastening, if you do not pay attention because of the work process that requires holding a bolt and a nut with both hands and fastening each other, scaffolding installation, etc. When working at high altitudes, workability is poor and safety has been raised as a big problem.

In addition, the method of constructing a solar power plant structure that is rapidly spreading recently uses a method of manufacturing a support structure in which the support member is arranged horizontally and vertically and then welded. Therefore, the work efficiency is greatly reduced during the frame work, and when a part of the structure is damaged due to external forces such as typhoons. There has been pointed out the problem of removing the entire structure.

Even in the case of an apartment window frame chassis made of plastic or aluminum injection molding, the lightweight chassis frame support member with a perforated interior must be framed at the time of on-site construction because frame sag occurs without exception due to large and heavy glass loads 2 to 3 years after installation. There has been a constant demand for improvement of the frame chassis itself and the improvement of its coupling method, such as installing separate supporting means such as bricks in the lower part to prevent problems.

As such, the support member that has been conventionally used has limited structural strength and limited use, and has problems in workability and safety.

Republic of Korea Patent Publication No. 10-2002-00036927 Republic of Korea Patent Publication No. 10-2018-0080627 Republic of Korea Patent Publication No. 10-2002-00036927 Korean Patent Registration No. 10-1312400 Republic of Korea Utility Model Registration No. 20-0451081

The present invention has been conceived to solve the problems of the prior art, and an object of the present invention is to provide a technique capable of increasing operator safety by easily working with one hand when fastening a support member.

Another object of the present invention is to provide an efficient fastening technology that has a compressive strength or tensile strength that can withstand a large load without deformation or bending, and at the same time, an operator can easily work with one hand.

In addition, it is an object of the present invention to provide a support frame coupling structure having strong strength by easily fastening a bracket and a nut in a state in which a rotation fixing type fitting bolt is pre-coupled when fastening a support member.

The object of the present invention is not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

To this end, the present invention relates to a support frame coupling structure for fastening at least two support members using a bracket provided with a coupling hole and a rotation fixing bolt, wherein the support member is a rectangular pipe structure consisting of first to fourth surfaces. In the center of the second or fourth side facing each other, an incision groove cut in a lengthwise direction of a predetermined width is formed long, and the rotation-fixed fitting bolt is composed of a bolt head and a central thread, and the bolt head It is made in a rectangular plate shape having one to fourth sides, and the lengths of the first and third sides facing each other are smaller than the width of the cutout groove of the support member, and the length of the second and fourth sides facing each other is the support. It is the same as the width of the second side or the fourth side of the member, so that the first and third sides of the bolt head are prevented between the first and third sides in the cutout groove of the support member when the rotation fixing bolt is rotated. It is fitted, and the bracket has a structure in which both sides are bent in an'L' shape, and a pair of crimping points are formed on the bent portions, and a first coupling hole in a long hole or a first coupling hole in a circle shape is formed on each side of the bracket. It can be provided that the two coupling holes are provided.
In the present invention, the first to fourth sides of the bolt head are sequentially arranged in a clockwise direction, and the vertex area where the first and second sides meet, and the vertex area where the third and fourth sides meet is a curved surface. It may be chamfered as, or the bolt head may be provided with a protrusion bent downward on the edge thereof, or forming an uneven portion on the lower surface of the bolt head.
In addition, the present invention may provide that one or both sides of the surface of the bolt head in contact with the central thread are subjected to magnetic treatment or a ring-shaped magnet is inserted into the threaded portion and attached to the surface of the bolt head.
In addition, the support member of the present invention is made of a first support member made of a rectangular pipe structure consisting of first to fourth surfaces, and a cut groove of a predetermined width is formed in the center of the facing second and fourth surfaces in the longitudinal direction. It is formed to be elongated, and inside the first support member, a reinforcing rib having one end fixed at the center of the first surface and the other end fixed at the center of the third surface may be provided to be elongated in the longitudinal direction of the support member, and the first support The reinforcing rib of the member has a rhombus shape having the same length of the first to fourth faces being formed longer in the longitudinal direction, but the adjacent first and fourth faces extend from a central point of the first face of the first support member The adjacent second and third surface portions extend from a central point of the third surface of the first support member, and the angle θ ₁ between the first and second surface portions is 90° or more obtuse, and the second The angle θ ₂ between the surface portion and the third surface portion may provide an acute angle of less than 90°.

When the support member is fastened through the rotational fixing bolt according to the present invention, it is provided to increase operator safety by easily working with one hand.

In addition, a support member technology is provided that has a compressive strength or tensile strength that can withstand a large load without deformation or bending through the support member, and at the same time, the operator can easily work with one hand.

In addition, when fastening between the support members, the bracket and the nut are easily fastened in a state in which the rotation fixing type fitting bolt is pre-coupled to support easy fastening.

The effects of the present invention are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a perspective view showing an embodiment of a support frame coupling structure with enhanced strength according to the present invention.
2 is an exploded perspective view of FIG. 1.
3 and 4 are perspective views and cross-sectional views illustrating a process of temporarily coupling a rotation fixing type fitting bolt to a first support member of the present invention.
5 is a cross-sectional view showing a structure in which a protrusion, an uneven portion, a magnetic treatment, or a ring-shaped magnet is attached to the rotation fixing bolt of FIG. 3.
6A to 6F are views showing a structure in which various reinforcing ribs of the first support member of the present invention are formed.
7A and 7B are photographs of a sample implementation of the first support member obtained by bending and welding the planar steel of the present invention.
8 and 9 are perspective views showing another embodiment of a support frame coupling structure with enhanced strength according to the present invention, respectively.
10 is a photograph of a prefabricated shelf assembled using a conventional'a'or'b' shaped support member.

Hereinafter, a preferred embodiment of the present invention will be described in detail.

In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted, and the terms described below are terms defined in consideration of functions in the present invention. For example, this may vary depending on the intentions or precedents of users or operators. Therefore, the definition should be made based on the contents throughout this specification.

1 is a perspective view showing an embodiment of a support frame coupling structure with enhanced strength according to the present invention, FIG. 2 is an exploded perspective view of FIG. 1, and FIGS. 3 and 4 are rotationally fixed to the first support member of the present invention. A perspective view and a cross-sectional view showing a process of inserting a fitting bolt into an incision groove to temporarily couple, and FIG. 5 is a structure in which a protrusion, an uneven portion, magnetic treatment, or a ring-shaped magnet is added to the bolt head structure of the rotation fixing type fitting bolt of FIG. 6A to 6F are views showing a structure in which reinforcing ribs inside the first support member of the present invention are formed in various forms. 7A and 7B are photographs of an embodiment of the first support member of the present invention in which flat steel is bent and welded, and FIGS. 8 and 9 are respectively horizontal and vertical coupling of the support frame coupling structure with reinforced strength according to the present invention. It is a perspective view showing an example.

The present invention is a support frame coupling structure for fastening at least two support members using a bracket having a coupling hole and a rotation fixing bolt, wherein the support member is made of a rectangular pipe structure consisting of first to fourth surfaces. In the center of the second or fourth side facing each other, an incision groove cut in a lengthwise direction of a predetermined width is formed long, and the rotation fixing bolt is composed of a bolt head and a central thread, but the bolt head is formed from the first side to It is made in a rectangular plate shape having a fourth side, and the lengths of the first and third sides facing each other are smaller than the width of the incision groove, and the length of the second and fourth sides facing each other is the second side of the support member. Or the same as the width of the fourth side, characterized in that the first side and the third side of the bolt head are forcibly fitted between the first side and the third side within the cutout groove of the support member when the rotation fixing bolt is rotated. It provides a support frame coupling structure with enhanced strength.

That is, referring to Figures 1 to 6D, the strength-reinforced support frame 100 coupling structure according to the present invention is made of a combination of a support member 110, a rotational fixing bolt 130, and a bracket 150. , At least two supporting members are fastened using a bracket provided with a coupling hole and a rotation fixing bolt.

The support member 110 has a rectangular pipe structure having a predetermined length from the first to fourth surfaces such as the first surface 111, the second surface 112, the third surface 113, and the fourth surface 114 In the center of the second surface 112 or the fourth surface 114 facing each other, a cut groove 115 having a predetermined width is formed long in the longitudinal direction. In addition, the support member 110 includes a first support member 110a and a second support member 110b according to the internal shape and the number of cutout grooves.

The material of the first support member 110a and the second support member 110b may be metal such as iron, as well as rigid plastic, and the first support member and the second support member may be used as scaffolds, formwork supports, and buildings. It can be used as a support to be installed on the outer wall, steel for construction, beams for construction, bridges, or frame for window frame chassis.

In addition, the first support member (110a) is made of a rectangular pipe structure consisting of the first to the fourth surface as shown in Figure 3, a predetermined width at the center of the facing second surface 112 and the fourth surface 114 The cut groove 115 is formed long in the longitudinal direction, and inside the first support member 110a, one end is fixed at the center of the first surface 111 and the other end is fixed at the center of the third surface 113 The rib 117 is installed long in the longitudinal direction of the support member, and the structure of the reinforcing rib can be variously modified as shown in FIGS. 6A to 6F. Unlike such a modified reinforcing rib structure, the first support member shown in FIGS. 6A to 6F has a cut groove cut to a predetermined width in the center of the second and fourth surfaces, thereby forming a lengthwise lengthwise direction between the plurality of first support members. Supports a fastening surface structure.

In one specific embodiment, the first support member 110a may provide a reinforcing rib having a rhombus (diamond) shape of FIG. 6A. The rhombic (diamond-shaped) reinforcing rib 117 of the first support member is also a rhombus having the same length of the first face portion 118a, the second face portion 118b, the third face portion 118c, and the fourth face portion 118d. (Diamond) The shape is formed long in the longitudinal direction. That is, the adjacent first surface portion 118a and the fourth surface portion 118d are formed to extend in the longitudinal direction from a central point of the first surface 111 of the first support member 110a, and the adjacent second surface portion ( 118b) and the third surface portion 118c are formed to extend lengthwise from a central point of the third surface 113 of the first support member 110a, and between the first surface portion 118a and the second surface portion 118d an angle (θ ₁₎ has a third surface and a fourth surface portion equal to the angle (θ ₁₎ between, and the second surface portions (118a) and the angle (θ ₂₎ between the third surface portion (118b) of the fourth surface portion and the It is formed equal to the angle (θ ₂ ) between one side.

Also, the inner angle of the rhombic reinforcing rib is θ ₁ 〉Θ ₂ It is preferable that θ _{1 ＜} θ ₂ or θ ₁ = θ ₂ , because the reinforcing rib 117 has a side-opened structure, so that the strength withstanding the vertical load of the reinforcing rib is significantly lowered. Therefore, the θ ₁ angle is preferably set to an obtuse angle of 90° or more, and the θ ₂ angle is set to an acute angle less than 90°, more preferably, the θ ₁ angle is 120 to 140° and the θ ₂ angle is 40 to 60° It can be prepared and provided.

Θ ₂ formed inside the first support member 110a as shown in FIGS. 3 and 7A presented as an example The angle is 40~60° and θ ₁ In the case of the rhombus-shaped reinforcing rib 117 having an angle of 120 to 140°, the first side 111 and the third side 113 as shown in FIG. 7B as well as the case where the support member is vertically installed like a pillar for construction as shown in FIG. 7A Even when used with a building beam arranged vertically and horizontally, it has a compressive strength that is about 5 times greater than that of an L-shaped steel pipe against pressure or load applied from the top. For this reason, unlike conventional'a'or'b' type support members that have not been used so far, the support members of the present invention can be used for construction scaffolds, formwork supports, or construction beams.

In addition, when the first support member 110a is made of steel, it may be manufactured by bending and welding two steel steel pipes as shown in FIGS. 7A and 7B, or by injection molding by plastic injection molding.

As an example of plastic injection, when manufacturing the support member of the present invention, if the main material contains 55 parts by weight of PVC, 40 parts by weight of coconut fiber, and 5 parts by weight of bamboo powder or hard coal, the tensile and compressive strength, which is easily insufficient only by plastic, is reliably reinforced. You may.

Unlike the embodiment in which the inner structure is a rhombus-shaped reinforcing rib 117, the first support member 110a of FIG. 6B has a structure having a generally long rectangular cross-section, and two straight reinforcing ribs 117a are vertically arranged. It is a structure, and the first support member 110a of FIG. 6C is a structure in which three straight reinforcing ribs 117a are vertically arranged as a generally long rectangular cross-sectional structure, and the first support member 110a of FIG. 6D is generally As a horizontal rectangular cross-sectional structure, two curved reinforcing ribs 117b have an elliptical shape, and the first supporting member 110a of FIG. 6E is an overall long rectangular cross-sectional structure and two curved reinforcing ribs 117b ) Forms an oval.

However, when the first support member 110a having a reinforcing rib structure as shown in FIG. 6D or 6E is manufactured, when the material is plastic, the compressive strength against a vertical load may be lowered due to structural characteristics or elastic characteristics, as shown in FIG. 6F. It is preferable to supplement by adding a straight reinforcing rib 117a to the left and right of the curved reinforcing rib 117b.

As described above, the reinforcing rib of the present invention can be designed and supported in various ways according to the characteristics of the material and the required strength standard through a combination of straight or curved reinforcing ribs, and through this, the first supporting member is a support for plant cultivation such as a formwork support, ginseng, etc. , Display stand support, playground facility support, fence net support, and architectural window frame chassis.

The second support member (110b) of the present invention is made of a rectangular pipe structure in which the inside of the first to fourth surfaces is perforated, but the cut groove on either side of the second side 112 or the fourth side 114 It is characterized in that there are no reinforcing ribs inside as the structure 115 is elongated in the longitudinal direction, and when combined with the first support member 110a provided with reinforcing ribs therein, it is possible to implement a support frame in various shapes. . That is, as shown in Figs. 1 and 9, in the case of the first support member 110a having a reinforcing rib therein, it acts as a column or beam receiving a large vertical or horizontal pressure, and relatively less pressure and lighter weight. If necessary, a second support member 110b having no reinforcing ribs therein may be used. On the other hand, when the pressure or load applied to the support member is large as a whole, the first support members 110a having reinforcing ribs therein may be fastened to each other as shown in FIG. 8.

The rotation fixing type fitting bolt 130 of the present invention is composed of a bolt head 131 made of a rectangular plate-shaped structure, and a screw portion 137 formed on one side of the bolt head 131.

The bolt head 131 has a rectangular plate shape having a predetermined thickness having a first side portion 131a, a second side portion 131b, a third side portion 131c, and a fourth side portion 131d, and the facing first side portion ( The length of 131a) and the third side portion 131c is smaller than the width of the support member cutout groove 115 and is designed to be easily inserted into the support member through the cutout groove 115, and the second side portion 131b facing each other And the length of the fourth side portion (131d) is the same as the width of the second surface 112 or the fourth surface 114 of the support member, so that the rotation fixing type fitting bolt is inserted into the support member through the cutout groove 115 when rotating. The first side portion 131a and the third side portion 131c of the bolt head are forcibly fitted between the first side 111 and the third side 113 in the cutout groove of the support member. As described above, if the bracket and the nut are fastened in the state that the rotation fixing bolt 130 is temporarily coupled to the support member, it is easy to assemble, and in the forced-fitting state, it performs a function of strengthening the fastening force so that the bolt is not easily loosened.

In addition, the first side portions 131a to the fourth side portions 131d of the bolt head 131 are sequentially arranged in a clockwise direction to be tightened when the threaded portion is a right screw, and the first side portion 131a and the second side portion 131a The vertex area where the edge portion 131b meets and the vertex area where the third side portion 131c and the fourth side portion 131d meet are chamfered in a curved surface. When the bolt head 131 rotates due to the chamfered curved surface 132, the first and third sides of the bolt head are formed on the first and third surfaces of the supporting member that abuts and reduces the radius of rotation. It supports to be easily rotated and forcibly inserted, and once inserted, the bolt is fixed so that it does not rotate further, thereby supporting the fastening nut to be firmly fastened.

Meanwhile, the bolt head 131 may have one or more protrusions 135 bent downward from its edge, or may form an uneven portion 136 on a lower surface of the bolt head 131. Through this, it is possible to further increase the safety of the structure by supporting the role of a wedge after fastening while increasing friction when fastening the bolt.

In addition, the bolt head 131 may be magnetically treated on one or both sides of the surface of the bolt head in contact with the central threaded part 137 so that it can be inserted through the threaded part 137 to provide a temporary coupling function during the fastening process. A ring-shaped magnet 133 with a through hole 133a formed in the center may be supported to attach to the surface of the bolt head 131.

The bracket 150 of the present invention is made of a structure in which both sides are bent in an'L' shape, and a pair of crimping points are formed on the left and right sides of the bent portion so as not to be easily unfolded.

In addition, on each side of the bracket 150, a first coupling hole 151 in a long hole shape or a second coupling hole 152 in a circle shape into which the screw portion 137 of the rotation fixing bolt 130 can be inserted, respectively. It is preferable to be formed or formed in parallel, since it is possible to further supplement the supporting force by supporting at least two fastening rotational fitting bolts or general bolts when each supporting member is mutually fastened.

The present invention described above is merely exemplary, and those of ordinary skill in the art to which the present invention pertains will appreciate that various modifications and other equivalent embodiments are possible. Therefore, it will be appreciated that the present invention is not limited to the form mentioned in the detailed description above. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims. In addition, the present invention is to be understood as including the spirit of the present invention as defined by the appended claims and all modifications, equivalents and substitutes within the scope thereof.

100: support frame 110: support member
111~114: 1st to 4th side 115: incision groove
117: reinforcing rib 117a: straight reinforcing rib
117b: curved reinforcing ribs 118a to 118d: first to fourth surfaces
130: rotation fixing type fitting bolt 131: bolt head
131a-131d: first to fourth side portions 132: curved portion
133: magnet 133a: through hole
135: protrusion 136: uneven portion
137: threaded part 150: bracket
151: first coupling hole 152: second coupling hole

Claims (7)

In the support frame coupling structure for fastening at least two support members using a bracket having a coupling hole and a rotation fixing bolt,
The support member is made of a rectangular pipe structure consisting of first to fourth surfaces, and a cutting groove cut in a lengthwise direction of a predetermined width is formed in the center of the facing second surface or the fourth surface,
The rotational fixing bolt is composed of a bolt head and a central thread, wherein the bolt head has a rectangular plate shape having a first side to a fourth side, and the length of the first side and the third side facing each other is cut off the support member. It is smaller than the width of the groove, and the length of the second side and the fourth side facing each other is the same as the width of the second or fourth side of the support member, so that the first side and the first side of the bolt head are rotated when the rotation fixing bolt is rotated. The three sides are forcibly fitted between the first and third sides within the cutout groove of the support member,
The bracket has a structure in which both sides are bent in an'L' shape, and a pair of crimping points are formed at the bent portions, and a first coupling hole in a long hole or a second coupling hole in a circular shape on each side of the bracket It characterized in that it is provided, the strength is enhanced support frame coupling structure. The method of claim 1,
The first to fourth sides of the bolt head are sequentially arranged in a clockwise direction, and the vertex area where the first and second sides meet and the vertex area where the third and fourth sides meet are chamfered in a curved surface. Characterized in that, the strength is enhanced support frame coupling structure. The method of claim 1,
The bolt head portion, characterized in that forming a protrusion bent downward on the edge thereof, or forming an uneven portion on a lower surface of the bolt head portion, the strength-reinforced support frame coupling structure. The method of claim 1,
One or both sides of the surface of the bolt head in contact with the central threaded portion are magnetically treated or a ring-shaped magnet is inserted into the threaded portion and attached to the surface of the bolt head. The method of claim 1,
The support member is made of a first support member made of a rectangular pipe structure consisting of first to fourth surfaces, and a cut groove having a predetermined width is formed in the center of the opposite second and fourth surfaces in the longitudinal direction, Inside the first support member, one end is fixed to the center of the first surface and the other end is characterized in that the reinforcing ribs fixed to the center of the third surface are installed elongated in the longitudinal direction of the support member, the strength-reinforced support frame coupling structure. The method of claim 5,
The reinforcing rib of the first support member has a rhombus shape having the same length of the first to fourth surface portions being formed long in the longitudinal direction,
The adjacent first and fourth surface portions extend from a central point of the first surface of the first support member, and the adjacent second and third surface portions extend from a central point of the third surface of the first support member,
The angle (θ ₁ ) between the first and second surface portions is an obtuse angle of 90° or more, and the angle between the second and third surface portions (θ ₂ ) is an acute angle of less than 90°, the strength is enhanced Structure of combined support frame. delete

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