KR101552491B1 - Assembly connection apparatus - Google Patents

Abstract

Disclosed is an assembly-type connecting device. The assembly-type connecting device of the present invention is to connect building materials such as rectangular timbers or rectangular steel pipes utilized to construct a framework of a building. The assembly-type connecting device is characterized by comprising: a connection housing formed into a rectangular pipe with both open sides and an open top including a pair of lateral supporting pieces on both sides of the rectangular pipe to insert a material, a bottom supporting piece between the lateral supporting pieces, and connection units corresponding to each other; a supporting member joined to the connection housing to cover the connecting units; a first fixing member fitted and joined to the supporting member to fixate the material inserted into the connection units by strongly adhering the lateral supporting pieces to a surface of the material after the supporting member is joined to the connection units, and the material inserted into the connection units; and a second fixing member inserted and joined between a bottom supporting piece, and the supporting member to fixate the material inserted into the connection units by strongly adhering the bottom supporting piece to the surface of the material after the first fixing member is joined to the lateral supporting pieces.

Description

{ASSEMBLY CONNECTION APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefabricated connecting apparatus, and more particularly, to a prefabricated connecting apparatus, which comprises a rectangular or rectangular steel pipe used as a building material in construction of a building structure, The present invention relates to a prefabricated connecting device that can be easily connected to each other without using a portable telephone.

Generally, rectangular frame or rectangular steel pipe is mainly used for frame construction for expansion, expansion, and renovation of building structures.

Such wood or steel tubes are cut to the required length and interconnected to form the framework of the building structure.

FIG. 1A is a view showing a state where conventional woods are connected to each other, and FIG. 1B is a view showing a state where conventional steel pipes are connected to each other.

As shown in FIG. 1A, in the conventional method of interconnecting wood, one side of the wood 1 to be connected is brought into contact with each other, the auxiliary wood 2 is attached to the connecting portion of the wood 1, and nails, screws, bolts and nuts And the like.

That is, the nails or screws are coupled to the auxiliary wood 2 through the wood 2 by a hammer or an electric screwdriver, and the bolts and nuts are drilled to form holes in the wood 1 and the auxiliary wood 2 A bolt was inserted into the hole and fastened with a nut.

The connecting method of the wood 1 is such that the connecting means 3 such as a nail, a screw, a bolt and a nut are coupled to the auxiliary wood 2 through the wood 2 so that the wood 1 is connected with a strong binding force .

However, in the conventional method of interconnecting the timber 1, since the connecting means 3 such as a nail, a screw, a bolt and a nut are used, the working time is long when the frame of the building is constructed The bonding force may be lowered due to cracks generated in the wood 1 through the connecting means 3. [

In addition, it is difficult to release the connection portion of the wood 1, and the connecting portion of the wood 1 is damaged by the connecting means 3, which makes it impossible to recycle the material.

Meanwhile, as shown in FIG. 1B, in the conventional method of interconnecting the steel pipes, one side of the steel pipe 4 to be connected is brought into contact with each other, and the connecting parts are welded (5).

The connection method of the steel pipe 4 is advantageous in that the steel pipe 4 is connected with a strong binding force by using the welding 5.

However, since the conventional method of interconnecting the steel pipes 4 uses welding, the working time becomes long and after the connection of the steel pipe 4, the firm binding state of the steel pipe 4 can not be visually confirmed. ) The need for work can lead to an increase in labor costs.

In addition, it is difficult to release the connection part of the steel pipe 4, and the connection part is damaged by welding, so that there is a disadvantage that separate processing is required for cutting a part of the steel pipe 4 when recycling the material.

Therefore, it is possible to easily connect rectangular wood or square steel pipes used for constructing the frame of a building structure without using any known connecting means such as nails, screws, bolts and nuts, welding, etc., It is required to research and develop a prefabricated connection device which can secure the connection state and can easily recycle the released material.

It is an object of the present invention to provide a method of manufacturing a steel structure for a building structure, which can easily connect rectangular steel or quadrangular steel pipe used as a building material when constructing a frame of a building, without using any known connecting means such as nails, screws, bolts, nuts, The present invention is to provide a prefabricated connection device capable of securing a strong binding force after connection and connection, and easily releasing the connection state, but also allowing the released material to be recycled.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise form disclosed. There will be.

According to the present invention, there is provided a prefabricated connecting device for interconnecting building materials such as a square wood or a rectangular steel pipe used for constructing a frame of an architectural structure, A connection housing in which a pair of side support pieces are formed on both sides of the respective pipes so that the material can be inserted and connection parts in which a bottom support piece is formed between the side support pieces correspond to each other; A support member coupled to the connection housing to surround the connection portion; The supporting member is coupled to the connecting portion, and after the material is inserted into the connecting portion, the side supporting piece is firmly brought into close contact with the surface of the material so that the material inserted into the connecting portion can be fixed to the supporting member A first fixing member; The bottom supporting piece is strongly adhered to the surface of the material after the first fixing member is coupled to the side supporting piece and inserted between the bottom supporting piece and the supporting member so as to fix the material inserted into the connecting portion, And a second fixing member coupled to the first fixing member.

The side support piece and the bottom support piece are each provided with a cut-away slot between them so that they can be independently brought into close contact with the surface of the material by a force acting from the first and second fixing members .

Wherein the first fixing member and the second fixing member are formed in a shape of a blade having a fitting portion at one side thereof and the second fixing member is inserted and coupled between the bottom supporting piece and the supporting member, The elastic plate having a predetermined thickness is coupled to the fitting portion before being inserted between the bottom supporting piece and the supporting member.

The side support piece is formed with an engagement protrusion protruding from a surface of an upper portion of an inlet side where the support member is inserted, and the support member is fixed to the connection portion by the second fixing member, And is prevented from being separated from the connection portion.

According to the present invention, a building material such as a quadrangular-shaped wood or a rectangular steel pipe used for constructing a frame of a building can be connected to a connecting portion of the connecting housing without using a known connecting means such as nails, screws, bolts, By providing the assembled connecting device that can be firmly connected by the supporting member, the first fixing member, and the second fixing member, it is possible to shorten the air by convenience of the workability by securing a strong binding force after connection while easily connecting the building material It can contribute to cost reduction. In addition, it is possible to provide a structure to be assembled by assembling when the materials are connected, so that the disassembled material can be easily released, and the disassembled material can be recycled.

FIG. 1A is a view showing a state where a conventional wood and a wood are interconnected. FIG.
1B is a view showing a state where a conventional steel pipe and a steel pipe are connected to each other.
2 is a view showing a separated state of the assembled connecting device according to an embodiment of the present invention.
FIG. 3 is a view showing a combined state of the assembled connecting device shown in FIG. 2. FIG.
FIG. 4 is a view showing the engaged state of the first fixing member shown in FIG. 2. FIG.
FIG. 5 is a view showing the engaged state of the second fixing member shown in FIG. 2. FIG.
6 and 7 are views showing the use of the assembled connecting device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions will not be described in order to simplify the gist of the present invention.

FIG. 2 is a view showing a separated state of the assembled connecting device according to an embodiment of the present invention, FIG. 3 is a view showing a combined state of the assembled connecting device shown in FIG. 2, FIG. 5 is a view showing a state where the second fixing member shown in FIG. 2 is engaged, and FIGS. 6 and 7 are views showing the use of the assembled connecting device according to an embodiment of the present invention. Fig.

2 to 5, the prefabricated connecting apparatus according to an embodiment of the present invention includes a connection housing 10 having connection portions 12 on both sides in the longitudinal direction so as to correspond to each other, A support member 20 coupled to the connection housing 10 so as to surround the connection member 12 and a support member 20 coupled to the connection unit 12 and inserted into the connection unit 12 after the material P is inserted into the connection unit 12, A first fixing member 30 coupled to the support member 20 so as to fix the material P to be fixed to the first fixing member 30 and a fixing member 30 fixed to the connection member together with the first fixing member 30. [ And a second fixing member 40 which is coupled between the connection portion 12 and the support member 20.

The prefabricated connecting device of the present invention enables simple connection of building materials P such as square shaped wood or rectangular steel pipes used in the frame construction of a building structure without using known connecting means.

That is, the prefabricated connection device of the present invention can be easily connected to each other without using a known connecting means such as nails, screws, bolts, nuts, welding, or the like when interconnecting rectangular woods or rectangular steel pipes used as building materials To provide a structure that can.

The connection housing 10 forms a main frame of the assembled connecting device according to the present invention and is configured to connect building materials. To this end, the connection housing 10 is formed in a rectangular pipe shape in which both sides and an upper portion in the longitudinal direction are opened. On both sides of the connection housing 10, a connecting portion 12 into which a building material P can be inserted is formed. That is, the material P is connected to the connection housing 10 through the connection portion 12.

The connecting portion 12 is provided to be inserted into the connecting member 10 and includes a pair of side supporting pieces 14 formed on both sides of the connecting housing 10 and a pair of side supporting pieces 14 And a cutout slot 18 provided between the side support piece 14 and the bottom support piece 16. The bottom support piece 16 is formed on the bottom support piece 16,

The pair of side support pieces 14 are configured so as to correspond to each other on both sides of the connection housing 10 into which the material P is inserted. The side support pieces 14 are inserted into the first fixing member 30 when the first fixing member 30 is coupled to the support member 20 by inserting the material P into the connection portion 12 provided in the connection housing 10 30 by a force acting on the surface of the material P. The material P is connected to the connection portion 12 so as to be prevented from being separated from the connection housing 10, so that a firm binding force can be secured.

The side support piece 14 is formed with an engagement protrusion 15 protruding from the surface at an upper portion of the side support piece 14 so that the support member 20 coupled to the connection portion 12 is engaged with the engagement protrusion 15.

That is, the latching jaw 15 is fixed to the coupling portion 12 by the second fixing member 40 so that the support member 20 is hooked on the latching jaw 15 so as to be prevented from being separated from the coupling portion 12 .

And the bottom support piece 16 is provided on the connection portion 12 so as to be formed between the side support pieces 14. [ The bottom support piece 16 plays a role of being strongly adhered to the surface of the material P by a force acting from the second fixing member 40 like the side support piece 14. [

The incision type slot 18 is provided in the connection portion 12 so as to be formed between the side support piece 14 and the bottom support piece 16. [ The incisional slot 18 is formed to have a constant width and length between the side support piece 14 and the bottom support piece 16 so that the side support piece 14 and the bottom support piece 16 are fixed to the first fixing member 16, Can be deformed to come into close contact with the surface of the material (P) inserted into the connection portion (12) by a force acting from the first fixing member (30) and the second fixing member (40).

That is, the incisional slot 18 is formed between the side support piece 14 and the bottom support piece 16 so as to define the side support piece 14 and the bottom support piece 16, 30 and the second fixing member 40, respectively, so that they can be strongly adhered to the surface of the material P independently.

The support member 20 is configured to surround the connection portion 12 provided in the connection housing 10. To this end, the support member 20 is formed to have an entrance (first) cross-section. The support member 20 is coupled to enclose the connection portion 12 of the connection housing 10 when the materials are connected to support the side support piece 14 and the bottom support piece 16.

The first fixing member 30 is configured to fix the material P to be inserted into the connection portion 12. At this time, the first fixing member 30 is formed in a shape of a blade having a fitting portion 32 at one side.

The first fixing member 30 can fix the material P inserted into the connecting portion 12 after the supporting member 20 is coupled to the connecting portion 12 and the material P is inserted into the connecting portion 12 Through the fitting portion (32). The first fixing member 30 is firmly attached to the surface of the material P after the side supporting piece 14 is coupled to the supporting member 20 so that the material P inserted into the connecting portion 12 is fixed .

The second fixing member 40 is configured to fix the material P inserted into the connecting portion 12 like the first fixing member 30. At this time, the second fixing member 40 is formed in a shape of a blade clip having a fitting portion 42 at one side.

One side of the second fixing member 40 which forms the fitting portion 42 after the first fixing member 30 is coupled to the side supporting piece 14 is formed between the bottom supporting piece 16 and the supporting member 20 As shown in FIG. The second fixing member 40 is inserted between the bottom supporting piece 16 and the supporting member 20 and then the bottom supporting piece 16 is strongly adhered to the surface of the material P, Thereby fixing the material P inserted in the frame.

The second fixing member 40 is inserted and coupled between the bottom supporting piece 16 and the supporting member 20 in a state where the elastic plate 44 having a predetermined thickness is engaged with the fitting portion 42, It is possible to prevent the easy separation of the bottom support piece 16 and the support member 20 while firmly adhering the piece 16 to the surface of the material P. [ At this time, the elastic plate 44 may be formed of a rubber material.

Hereinafter, the operation of the assembled connecting device according to one embodiment of the present invention will be described with reference to FIGS.

 The prefabricated connecting device of the present embodiment can be easily connected to each other without using any known connecting means such as nails, screws, bolts, nuts, welding, or the like, for building materials such as square wood or rectangular steel pipes at the time of frame construction of a building structure Structure.

6, the support member 20 is coupled to the connection portion 12 provided at both sides of the connection housing 10, and the material P to be connected is inserted into the connection portion 12. At this time, the support member 20 is retained in the engagement protrusion 15 provided on the side support piece 14 of the connection part 12.

When the material is inserted into the connecting portion 12 provided in the connection housing 10, the first fixing member 30 is fitted to the supporting member 20. The side support pieces 14 provided on the connection portion 12 are strongly tightly adhered to the surface of the material P by the force acting from the first fixing member 30 and the material P inserted into the connection portion 12, Is firmly fixed to the connection housing 10.

The second fixing member 40 is inserted and coupled between the bottom supporting piece 16 and the supporting member 20 when the first fixing member 30 is coupled to the supporting member 20 coupled to the connecting portion 12. [ The bottom support piece 16 provided on the connection part 12 is strongly adhered to the surface of the material P by a force acting from the second fixing member 40 and the material P inserted into the connection part 12 Is firmly fixed to the connection housing 10 according to the engagement of the second fixing member 40. The second fixing member 40 is inserted and coupled between the bottom supporting piece 16 and the supporting member 20 in a state where the elastic plate 44 having a predetermined thickness is coupled to the fitting portion 42, It is possible to prevent the bottom piece 16 and the supporting member 20 from being easily separated from each other while firmly bringing the supporting piece 16 into close contact with the surface of the material P. [ The support member 20 is fixed to the connection portion 12 by the second fixing member 40 and is securely fastened to the engagement protrusion 15 to prevent the support member 20 from being separated from the connection portion 12. [

7, the supporting member 20 is coupled to the connecting portion 12 provided on both sides of the connecting housing 10, and the material P to be connected is inserted. Then, the first fixing member 30 and the second fixing member 30 The lower part of the other material P is inserted into the upper side of the connecting housing 10 and the material P inserted in the connecting part 12 is inserted into the other part P in the process of fixing the fixing part 40. [ The connecting portion 12 of the connecting housing 10 can easily connect the material P to the upper portion of the connecting housing 10 with water, unlike the structure of FIG. 6 in which the material is only connected to the connecting portion of the connecting housing 10 .

That is, the other material P inserted from the upper side of the connection housing 10 can be firmly fixed to the connection housing 10 by the adhesive force acting from the material P inserted into the connection portion of the connection housing 10 It will be.

As described above, the assembled connecting device according to the present embodiment can be used for connecting a square-shaped or square-shaped steel pipe used as a building material (P) at the time of constructing a frame of a building to a well- Unlike the prior art in which connection is made using a connecting means, the connecting member 12 is easily connected to the connecting member 12 by the supporting member 20, the first fixing member 30 and the second fixing member 40, It is possible to shorten the air by the convenience of the workability and to contribute to the cost reduction.

In addition, the assembled connecting device of the present embodiment can be assembled in a prefabricated manner when the materials P are connected, so that it is possible to easily release the connected state, and the reclaimed material can be recycled.

In the meantime, although not shown in the drawings, the assembled connecting device of the present invention can be modified to change the shape of the supporting member 20 from a rectangular shape to a rectangular shape so that a rectangular shaped steel or steel pipe can be conveniently connected to the connecting housing will be.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, such modifications or variations should not be individually understood from the technical spirit and viewpoint of the present invention, and modified embodiments should be included in the claims of the present invention.

10: connection housing 12: connection
14: side support piece 15:
16: bottom support piece 18: incised slot
20: support member 30: first fixing member
40: second fixing member 44: elastic plate

Claims (4)

A prefabricated connecting device for interconnecting building materials such as square shaped wood or rectangular steel pipes used in the frame construction of an architectural structure,
Wherein a pair of side support pieces are formed on both sides of each of the tubes so as to allow the material to be inserted thereinto and a connection part in which a bottom support piece is formed between the side support pieces correspond to each other A connection housing configured to be installed;
A support member coupled to the connection housing to surround the connection portion;
The supporting member is coupled to the connecting portion, and after the material is inserted into the connecting portion, the side supporting piece is firmly brought into close contact with the surface of the material so that the material inserted into the connecting portion can be fixed to the supporting member A first fixing member;
The bottom supporting piece is strongly adhered to the surface of the material after the first fixing member is coupled to the side supporting piece and inserted between the bottom supporting piece and the supporting member so as to fix the material inserted into the connecting portion, And a second fixing member which is coupled to the first fixing member. The method according to claim 1,
Wherein the side support piece and the bottom support piece,
Wherein the first and second fixing members are formed with cut-away slots so that they can be independently brought into close contact with the surface of the material by the forces acting from the first fixing member and the second fixing member. 3. The method according to claim 1 or 2,
Wherein the first fixing member and the second fixing member are formed in a shape of a blade having a fitting portion on one side,
The second fixing member is inserted between the bottom support piece and the support member and then inserted into the space between the bottom support piece and the support member so as to be prevented from being separated from the bottom support piece, Wherein the first and second coupling members are coupled to each other. The method according to claim 1,
The side-
And an engagement protrusion protruding from the surface is formed on an upper portion of an inlet side where the support member is inserted,
Wherein the support member is fixed to the connection portion by the second fixing member and then is hooked on the engagement protrusion to prevent the support member from being separated from the connection portion.

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