KR102101849B1 - Splice jointed Frame assembly structure instead of weld bonding - Google Patents

Abstract

The present invention relates to an insertable non-welding frame assembly structure capable of assembling a steel frame and the like without using a welding technique and, specifically, to an insertable non-welding frame assembly structure which couples a vertical frame and a horizontal frame by locking insertion, and provides an assembly structure to insert and fix an insertion frame to prevent the vertical frame and the horizontal frame from being separated. The insertable non-welding frame assembly structure comprises: a vertical frame erected vertically, formed in a first bending shape, and provided with an insertion groove formed downwards from the upper end thereof; a horizontal frame placed horizontally, formed in a second bending shape, and provided with an insertion protrusion formed in a lateral direction; and an insertion frame formed in a shape corresponding to the inner surface of the vertical frame. The insertable non-welding frame assembly structure includes: a first assembly structure in which the insertion protrusion of the horizontal frame is inserted into the insertion groove of the vertical frame to be coupled; and a second assembly structure in which the lower surface of the insertion frame is placed on the upper surface of the insertion groove by the first assembly structure to insert and fix the insertion frame on an upper portion of the vertical frame.

Description

Splice jointed frame assembly structure instead of weld bonding

The present invention relates to a fitting-type welding-less frame assembly structure capable of assembling a steel frame or the like without using a welding technique, specifically, combining a vertical frame and a horizontal frame by a pod fitting method, and vertical frame and male It relates to a fitting type welding frame assembly structure that provides an assembly structure for inserting and fixing the inlet frame so that the flat frame is not separated.

In general, a steel frame or reinforcing frame made of metal is assembled and used in the form of a polygon. As a method of assembling the frame, there are various methods using rivets, bolts, welding, etc., but the above methods have many problems, such as damage to the frame or warping due to heat, and loosening of the joint due to external shock or vibration.

In particular, the fire door is not only a component of the fire protection section installed to prevent the spread of fire in the event of a fire in a building, but also a major element directly related to human injury. Therefore, since the fire door should have excellent airtightness and distortion must be minimized, it is very important to assemble the reinforcing frame itself constituting the fire door. However, in the fire door to which the above-mentioned welding method is applied, warping may occur due to heat when welding, and the welded joints are vulnerable, which may cause problems when a fire occurs.

In addition, when the steel frame structure including the fire door is assembled and moved by a rivet or bolt method, a coupling loosening phenomenon may occur due to an external impact or a coupling force may be weakened.

In order to solve the problems as described above, Korean Patent Publication No. 10-2009-0050778 ("steel member no welding assembly structure") has been disclosed.

The Korean Patent Publication No. 10-2009-0050778 ("Steel member no welding assembly structure") is a prior art, and a flange clamp coupled to a steel member is formed, and the flange clamp is a through hole, a body part, a pressing part, It is composed of the upper material and the lower member, so there is no warping due to heat due to no direct welding work on the frame, but when assembling bolts for joining, there is a problem in that structural strength is weakened by direct damage to the steel frame.

Patent document [0001] No. 10-2009-0050778 ("Steel member no welding assembly structure", 2007.11.16) Utility model literature No. 20-0279164 ("fire door frame", 2002.03.13)

Accordingly, the present invention improves the problems of the prior art, and the present invention relates to a fitting-type welding-less frame assembly structure, specifically, a frame formed of a bent shape is assembled without a welding process, thereby causing flames due to thermal deformation during a fire. , It is an object of the present invention to provide a fitting-free welding frame assembly structure that prevents diffusion of smoke.

In addition, the manufacturing process of the bending shape of the frame is shortened, and the working time is shortened. As a non-welded assembly structure, it is easy to assemble between frames, thereby reducing the labor cost and improving the workability. do.

In addition, it is an object of the present invention to prevent a safety accident due to welding through a structure in which the frame is assembled by welding, and to provide a fitting-type welding-less frame assembly structure without fear of quality deterioration due to welding.

A vertical frame 100 that is vertically erected, is made of a first bent shape 110, and has a fitting groove 120 formed from the top to the bottom; A horizontal frame 200 that is placed horizontally, is made of a second bending shape 210, and is formed with a fitting protrusion 220 laterally; Consisting of, the insertion frame 300 formed in a shape corresponding to the inner surface of the vertical frame 100; consisting of, the fitting of the horizontal frame 200 in the fitting groove 120 of the vertical frame 100 A first assembly structure (1) to which the projection 220 is inserted and coupled; The lower surface of the inlet frame 300 is seated on the upper surface of the fitting protrusion 220 by the first assembly structure 1 so that the inlet frame 300 is inserted into the upper portion of the vertical frame 100. It is to be fixed to the second assembly structure (2); fitted type welding frame assembly structure 1000 characterized in that it has a technical point.

The vertical frame 100, a plurality of the fitting groove 120 is formed at a predetermined distance apart on the other side, the horizontal frame 200, the plurality of the fitting groove 120 at one end of the lower surface It is preferable that the plurality of fitting protrusions 220 are formed of a fitting-type welding-less frame assembly structure 1000, which is formed by being spaced apart by a predetermined distance.

The fitting groove 120, the fitting groove first surface 121 is formed vertically downward from the top of the vertical frame 100; A fitting groove second surface 122 formed by bending at a right angle from the lower end of the fitting groove first surface 121; The fitting groove is characterized in that it consists of a fitting groove third surface (123) formed by being bent at right angles from the rear end of the fitting groove second surface (122) in parallel to the fitting groove first surface (121); It is preferable that the welding frame assembly structure 1000.

The fitting protrusion 220 includes: a fitting protrusion first surface 221 formed horizontally in one direction from one end of the lower surface of the horizontal frame 200; A fitting protrusion second surface 222 formed by bending at a right angle from one end of the fitting protrusion first surface 221; The fitting projection is characterized in that it consists of a third projection 223 that is formed parallel to the first projection 221, the horizontally bent at a right angle horizontally in the other direction from the rear end of the fitting projection second surface 222; It is preferred that the expressionless welding frame assembly structure 1000.

The inlet frame 300 includes a first inlet frame 310 with an upper side open as a quadrangular column shape; As a square column shape, the upper side is open, and the second inlet frame 320 is disposed at the rear end of the first inlet frame 310 and communicates with it. It is preferred.

As described above, according to the present invention, by assembling a frame made of a bent shape without a welding process, there is an effect of preventing the spread of flame and smoke due to thermal deformation during a fire.

In addition, the manufacturing process of the bending shape of the frame is simple, and the working time is shortened. As a non-welding assembly structure, assembling between frames is easy, thereby reducing labor costs and improving workability.

In addition, the welding frame is assembled so that safety accidents due to welding are prevented and there is no fear of quality deterioration due to welding.

1 is a view showing a second assembly structure of the fitting type welding-less frame assembly structure according to the present invention.
2 is an exploded perspective view of the fitting type welding-less frame assembly structure according to the present invention.
3 is a view showing a first assembly structure of the fitting type welding-less frame assembly structure according to the present invention.
4 is a view showing a horizontal frame according to an embodiment of the fitting type welding-less frame assembly structure according to the present invention.
5 is a view showing a horizontal frame according to another embodiment of the fitting type welding-less frame assembly structure according to the present invention.
6 is a plan view before assembly of the fitting type welding-less frame assembly structure according to the present invention.
7 is a plan view after assembly of the fitting type welding-less frame assembly structure according to the present invention.
8 is an enlarged view of A in FIG. 2.
9 is an enlarged view of FIG. 2B.
10 is an enlarged view of FIG. 5C.
11 is a view showing a perspective view of the lead-in frame of the fitting-free welding frame assembly structure according to the present invention.

Hereinafter, an assembly structure of a fitting type welding-less frame according to various embodiments of the present invention will be described in detail with reference to the accompanying drawings. The drawings to be introduced below are provided as examples in order to sufficiently convey the spirit of the present invention. Therefore, the present invention is not limited to the drawings revealed below and may be embodied in other forms. In addition, the same reference numbers throughout the specification indicate the same components.

At this time, unless there are other definitions in the technical terms and scientific terms used, it has the meanings commonly understood by those skilled in the art to which this invention belongs, and the subject matter of the present invention is unnecessary in the following description and the accompanying drawings. Descriptions of well-known functions and configurations that may be blurred will be omitted.

Figure 1 shows a second assembly structure of the present invention of the fitting-less welding assembly structure, Figure 2 shows an exploded perspective view of the fitting-less welding assembly structure of the present invention, Figure 3 is a first of the fitting-less welding assembly structure of the present invention It shows the assembly structure.

Referring to FIGS. 1 to 3, the fitting type welding-less frame assembling structure of the present invention includes a vertical frame 100, a horizontal frame 200, and an inlet frame 300. A structure assembled through the second assembly structure (2) is presented.

The vertical frame 100 is vertically erected from the ground in the vertical direction, may be provided as a plate shape, the plate shape may be made of a first bending shape (110). In this case, the first bending shape 110 includes a vertical first surface 111, a vertical second surface 112, a vertical third surface 113, a vertical fourth surface 114, and a vertical fifth surface. (115), consisting of a vertical sixth surface 116 and a vertical seventh surface 117.

The vertical first surface 111 is disposed in front and stands vertically. The vertical second surface 112 is formed by extending at a right angle from the front end of the vertical first surface 111 in another direction. The vertical third surface 113 is formed by extending at a right angle from the other end of the vertical second surface 112 to the rear. The vertical fourth surface 114 is formed by extending at a right angle from the rear end of the vertical third surface 113 in the other direction. The vertical fifth surface 115 is formed by extending at a right angle from the other end of the vertical fourth surface 114 to the rear. The vertical sixth surface 116 is bent at right angles in one direction from the rear end of the vertical fifth surface 115 to extend. The vertical seventh surface 117 is bent at right angles from one end of the vertical sixth surface 116 to extend. In addition, a gap may be formed between the vertical first surface 111 and the vertical seventh surface 117.

In addition, according to the present invention, the fitting groove 120 may be formed at a predetermined distance from the other side of the vertical frame 100 as shown in FIG. 8. At this time, the fitting groove 120 includes a fitting groove first surface 121, a fitting groove second surface 122, and a fitting groove third surface 123.

The fitting groove first surface 121 is vertically formed downward from the top of the vertical frame 100. The fitting groove second surface 122 is formed by bending at a right angle from the bottom of the fitting groove first surface 121 to the rear. The fitting groove third surface 123 is bent at a right angle from the rear end of the fitting groove second surface 122 at a right angle to be formed parallel to the fitting groove first surface 121.

In addition, a plurality of fitting grooves 120 may be formed on the vertical third surface 113 and the vertical fifth surface 115 of the vertical frame 100. The plurality of fitting grooves 120 formed on the vertical third surface 113 and the vertical fifth surface 115 are preferably formed to be penetrated a predetermined distance from one side to the other.

Figure 2 shows an exploded perspective view of the fitting type welding-less frame assembly structure of the present invention, Figure 3 shows a first assembly structure of the fitting type welding-less frame assembly structure of the present invention, and Figure 4 shows the other side of the horizontal frame.

Referring to FIGS. 2 to 4 according to the fitting type welding-less frame assembly structure 1000 of the present invention, the horizontal frame 200 may be placed horizontally and provided as a plate shape, and the plate shape may include a second bending shape ( 210). At this time, the second bending shape 210 is a horizontal first surface 211, a horizontal second surface 212, a horizontal third surface 213, a horizontal fourth surface 214, a horizontal fifth It may be made of a surface 215, a horizontal sixth surface 216, and a horizontal seventh surface 217.

The horizontal first surface 211 is placed horizontally. The horizontal second surface 212 is formed by extending at a right angle from the front end of the horizontal first surface 211 in a downward direction. The horizontal third surface 213 is bent at a right angle from the lower end of the horizontal second surface 212 to extend. The horizontal fourth surface 214 is bent at a right angle from the rear end of the horizontal third surface 213 and is formed to extend. The horizontal fifth surface 215 is bent at a right angle from the lower end of the horizontal fourth surface 214 to extend. The horizontal sixth surface 216 is formed by extending at a right angle from the rear end of the horizontal fifth surface 215 upwardly. The horizontal seventh surface 217 is formed to be bent at a right angle from the top of the horizontal sixth surface 216 to extend forward.

In addition, a gap may be formed between the horizontal first surface 211 and the horizontal seventh surface 217.

5 is a view showing the other side of the horizontal frame of the present invention according to another embodiment, Figure 6 is a plan view before the combination of the vertical frame and the horizontal frame of the present invention, Figure 7 is a vertical type of the present invention After combining the frame and the horizontal frame, a plan view is shown, and FIG. 10 is an enlarged view of FIG. 5C.

Referring to FIGS. 5 to 7 according to the fitting type welding-less frame assembly structure of the present invention, the horizontal frame 200 may be placed horizontally and provided as a plate shape, and the plate shape may be a second bending shape 210. At this time, the second bending shape 210 may include a horizontal first surface 211, a horizontal second surface 212, a horizontal third surface 213, and a horizontal fourth surface 214, It may be composed of a horizontal fifth surface 215, a horizontal sixth surface 216, a horizontal seventh surface 217, and a horizontal eighth surface 218.

The horizontal first surface 211 is placed horizontally. The horizontal second surface 212 is formed by extending at a right angle from the front end of the horizontal first surface 211 in a downward direction. The horizontal third surface 213 is bent at a right angle from the lower end of the horizontal second surface 212 to extend. The horizontal fourth surface 214 is bent at a right angle from the rear end of the horizontal third surface 213 and is formed to extend. The horizontal eighth surface 218 is formed to extend from the lower end of the horizontal fourth surface 214 and is bent to a 'c' shape. The horizontal fifth surface 215 is bent at a right angle from the rear end of the horizontal eighth surface 218 and extended. The horizontal sixth surface 216 is formed by extending at a right angle from the rear end of the horizontal fifth surface 215 upwardly. The horizontal seventh surface 217 is formed to be bent at a right angle from the top of the horizontal sixth surface 216 to extend forward.

In addition, a gap may be formed between the horizontal first surface 211 and the horizontal seventh surface 217.

At this time, referring to FIG. 10, the horizontal eighth surface 218 may be formed of a horizontal eighth surface 218a and a horizontal eighth surface 218b. The horizontal 8a surface 218a is bent at a right angle from the lower end of the horizontal 4th surface 214 to extend. The horizontal 8b surface 218b is bent and extended to contact the lower surface of the horizontal 8a surface 218a.

9 is an enlarged view of B of FIG. 2. Referring to FIG. 9 according to the fitting structure of the present invention, a plurality of fitting protrusions 220 are spaced at a predetermined distance so as to correspond to a plurality of fitting grooves 120 at one end of the horizontal frame 200. It is preferably formed. The fitting protrusion 220 includes a fitting protrusion first surface 221, a fitting protrusion second surface 222, and a fitting protrusion third surface 223.

The fitting protrusion first surface 221 is horizontally formed in one direction from one end of the lower surface of the horizontal frame 200. The fitting protrusion second surface 222 is bent at a right angle from the one end of the fitting protrusion first surface 221 and is extended. The fitting protrusion third surface 223 is formed by extending at a right angle from the rear end of the fitting protrusion second surface 222 in the other direction.

The fitting protrusion 220 may be inserted from one side to the other side of the fitting groove 120, and the bottom surface of the fitting protrusion 220 may be seated on the second surface 122 of the fitting groove.

In addition, the fitting protrusion 220, it is preferable that the fitting protrusion first surface 221 and the fitting protrusion third surface 223 are formed with the same length, and each fitting protrusion 220 may be formed with a different length. have. At this time, the fitting protrusion 220 is preferably set to have a length to withstand the load of the incoming frame 300.

11 is a view showing a perspective view of the lead-in frame of the present invention, a fitting type welding frame assembly.

Referring to FIG. 11 according to the assembly structure of the fitting type welding-less frame according to the present invention, the lead-in frame 300 is composed of a first lead-in frame 310 and a second lead-in frame 320.

The first inlet frame 310 has a quadrangular column shape, and the upper side is opened. The second inlet frame 320 has a quadrangular column shape, and the upper side is opened, and may be disposed in communication with the rear end of the first inlet frame 310.

Then, the incoming frame 300 is formed in a shape corresponding to the inner shape of the vertical frame 100 so that it can be inserted into the vertical frame 100.

At this time, the lower surfaces of the first inlet frame 310 and the second inlet frame 320 are formed at a surface height where the horizontal frame 200 is combined with the vertical frame 100 and the first inlet frame 310. It is preferable that the lower surface of the second lead-in frame 320 is seated on the upper surface of the horizontal frame 200.

More specifically, the lower surface of the first inlet frame 310 is seated on the upper surface of the fitting protrusion 220 formed on the horizontal third surface 213, and the lower surface of the second inlet frame 320 is horizontal. It is seated on the upper surface of the fitting protrusion 220 formed on the fifth surface 215 and can be fixed so that the loosening of the vertical frame 100 and the horizontal frame 200 does not occur.

In addition, referring to FIGS. 1 and 3, the fitting protrusion 220 formed on the horizontal frame 200 is inserted into the fitting groove 120 of the vertical frame 100 to form the first assembly structure 1. Can be. Then, the incoming frame 300 is inserted into the interior of the vertical frame 100, the lower surface of the incoming frame 300 is seated on the upper surface of the fitting protrusion 220 so that the second assembly structure 2 can be formed. have.

As described above, in the present invention, specific matters such as specific components and the like have been described by the limited embodiment drawings, but these are provided only to help the overall understanding of the present invention, and the present invention is limited to the above-described one embodiment. No, those skilled in the art to which the present invention pertains can make various modifications and variations from these descriptions.

Therefore, the spirit of the present invention is not limited to the described embodiments, and should not be determined, and all claims that are equivalent or equivalent to the scope of the present invention as well as the scope of the claims described below belong to the scope of the spirit of the present invention. will be.

1: 1st assembly structure 2: 2nd assembly structure
100: vertical frame 110: the first bending shape
111: vertical first surface 112: vertical second surface
113: vertical third surface 114: vertical fourth surface
121: fitting groove first side 122: fitting groove second side
123: fitting groove 3rd side 200: horizontal frame
210: second bending shape 211: horizontal first surface
212: horizontal second surface 213: horizontal third surface
214: horizontal fourth surface 215: horizontal fifth surface
216: horizontal sixth surface 217: horizontal seventh surface
218: horizontal eighth surface 218a, 218b: horizontal eighth surface a, b
220: fitting groove 221: fitting projection first side
222: Insertion projection p. 2 223: Insertion projection p. 3
300: incoming frame 310: first incoming frame
320: second entry frame 1000: fitting type welding frame assembly structure

Claims (5)

A vertical frame 100 that is vertically erected, is made of a first bent shape 110, and has a fitting groove 120 formed from the top to the bottom;
A horizontal frame 200 that is placed horizontally, is made of a second bending shape 210, and is formed with a fitting protrusion 220 laterally;
Consists of; the incoming frame 300 formed in a shape corresponding to the inner surface of the vertical frame 100;
A first assembly structure (1) in which the fitting projections (220) of the horizontal frame (200) are inserted and coupled to the fitting grooves (120) of the vertical frame (100);
The lower surface of the inlet frame 300 is seated on the upper surface of the fitting protrusion 220 by the first assembly structure 1 so that the inlet frame 300 is inserted into the upper portion of the vertical frame 100. And fixing the second assembly structure (2);
The incoming frame 300,
A first inlet frame 310 with an upper side open as a square column shape;
A rectangular pillar-shaped shape, the upper side is open, the second lead-in frame 320 is disposed and communicated with the rear end of the first lead-in frame 310; fitting type welding frame assembly structure 1000 characterized in that consisting of. According to claim 1,
The vertical frame 100,
A plurality of the fitting grooves 120 are formed at a predetermined distance apart on the other side,
The horizontal frame 200,
A fitting type welding frame assembly structure 1000, characterized in that a plurality of the fitting protrusions 220 are formed to be spaced apart at a predetermined distance to correspond to the plurality of fitting grooves 120 at one end of the lower surface. According to claim 1,
The fitting groove 120,
A fitting groove first surface 121 formed vertically downward from the upper end of the vertical frame 100;
A fitting groove second surface 122 formed by bending at a right angle from the lower end of the fitting groove first surface 121;
The fitting groove is characterized in that it consists of a fitting groove third surface (123) formed by being bent at right angles from the rear end of the fitting groove second surface (122) in parallel to the fitting groove first surface (121); Welding frame assembly structure (1000). According to claim 1,
The fitting protrusion 220,
A fitting protrusion first surface 221 formed horizontally in one direction from one end of the lower surface of the horizontal frame 200;
A fitting protrusion second surface 222 formed by bending at a right angle from one end of the fitting protrusion first surface 221;
The fitting projection is characterized in that it consists of a third projection 223 that is formed parallel to the first projection 221, the horizontally bent at a right angle horizontally in the other direction from the rear end of the fitting projection second surface 222; Type welding-less frame assembly structure (1000). delete

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