KR200337822Y1 - The connection structure of space frames - Google Patents

Abstract

The present invention relates to a connection structure of a space frame, which is a kind of truss construction method, and a key bolt hole is formed at a depth that does not penetrate the outer circumferential surface of the bolt shank portion located inside the sleeve, and thus the key bolt is formed. Is screw-connected, and relates to a connection structure of a space frame that makes it possible to easily check the fastening state by the position of the key bolt when assembling the space frame.

The long hole 31 is formed only on a part of the sleeve 30, and the bolt 20 has a depth such that it does not penetrate the outer circumferential surface of the bolt shank portion for screwing the key bolt 41 instead of the pin. By forming the bolt holes 43, while minimizing the cross-sectional reduction of the sleeve 30 and the bolt 20, it is possible to visually check the fastening state during the bolt fastening operation.

Therefore, while maintaining a strong coupling between the sleeve 30 and the bolt 20, it is possible to visually check the fastening state during the bolt fastening operation.

That is, in the present application, by forming only one long hole 31 in the sleeve 30, the cross-sectional defect of the sleeve 30 can be greatly reduced as compared with the conventional technique of forming two long holes in the upper and lower portions, and the bolt ( In 20), the cross section defect of the bolt 20 may also be greatly reduced because it is not necessary to penetrate the hole and may be formed to a required depth.

Description

The connection structure of space frames to check the fastening state

The present invention relates to a connection structure of a space frame, which is a kind of truss construction method, and a key bolt hole is formed at a depth that does not penetrate the outer circumferential surface of the bolt shank portion located inside the sleeve, and thus the key bolt is formed. Is screw-connected, and relates to a connection structure of a space frame that makes it possible to easily check the fastening state by the position of the key bolt when assembling the space frame.

The space frame is a three-dimensional truss method, which is used as the structure of your house, including the truss of the building.

The space frame truss described above forms a member 10 by welding cones 12 to both ends of a long steel pipe 11, and the member 10 is formed by a plurality of screw holes 51. Tras is completed by fixing with the ball 50 provided.

At this time, the member 10 and the ball 50 is coupled by a bolt 20, the outer circumferential surface of the bolt 50 is assembled with a separate sleeve 30 is rotated inside the sleeve (30) The bolt 20 is also rotated together to be firmly coupled to the ball 50, the member 10 is fixed to the ball 50.

When the sleeve 30 is tightened, the distance between the ball 50 and the member 10 is reduced so that the truss is firmly fixed. The compressive force acting on the member 10 acts on the sleeve 30, and the tension force is applied to the bolt ( 20).

1, 2 and 3 are views for explaining the connection structure of the conventional space frame, (A) is a cross-sectional view showing a state before the bolt fastening, (B) is a cross-sectional view showing a state after the bolt fastening, (C) is a longitudinal cross-sectional view which shows the state cut | disconnected by the AA line of FIG. 1 (A), the BB line of FIG. 2 (A), and the CC line of FIG. 3 (A).

First, as shown in FIG. 1, a pin hole 42 is drilled into the bolt 20 to engage the pin 40, and the pin 40 protrudes through the long hole 31 penetrated longitudinally through the sleeve 30. When the sleeve 30 is rotated from the outside, the rotational force is transmitted to the bolt 20 through the pin 40 so that the threaded portion 22 of the bolt 20 is screwed into the threaded hole 51 of the ball 50. It is firmly fastened and the truss structure is completed by sequentially joining the plurality of members 10 to the ball 50 by this method.

However, in the connection structure of the conventional space frame shown in FIG. 1, a pin hole 42 is drilled into a bolt 20 having a circular shank, and a pin 42 is inserted therein to rotate the bolt 20. In order to cover the sleeve 30, the long holes 31 are drilled in the upper and lower corresponding portions, respectively, so that the pin 40 is penetrated therein, and by rotating the sleeve 30, the bolt 20 can be rotated. I did it,

Since the pin hole 42 is formed to penetrate the bolt 20, large cross-sectional defects of the bolt 20 occur, and in the sleeve 30, the long hole 31 is formed in the upper and lower corresponding portions, so that the sleeve 30 is formed. ), Cross-sectional defects are also largely generated. Therefore, there is a problem that the tensile strength of the bolt 20 and the sleeve 30 is greatly reduced.

Meanwhile, in FIG. 2, the pin 40 is formed on the inner circumferential surface of the sleeve 30 instead of the long hole, and the pin 40 fitted to the bolt 20 is positioned inside the key groove 32. 30) There is only a difference in one point so as not to be exposed to the outside, the same as in FIG.

However, in the connection structure of the conventional space frame shown in FIG. 2, since the sleeve 30 does not have the long hole 31 and the pin 40 is not exposed to the outside, the fastening state of the bolt 20 cannot be visually confirmed. Since the worker can stop the work without fully tightening the bolt, there is a problem that a safety accident may occur later.

In addition, in Fig. 3 is configured to have a plurality of corners therein without installing a long hole or key groove in the sleeve, and to have a angular surface that matches the internal structure of the sleeve on the outer peripheral surface of the shank without drilling holes in the bolt By rotating the sleeve 30 to rotate together with the bolt 20, there is an advantage that the truss structure can be completed without a separate connecting member such as a pin.

However, even in the connection structure of the space frame according to Figure 3 can not visually check the fastening state of the bolt 20, the operator can stop the work in a state that does not fully tighten the bolt, which may cause a safety accident later There is a problem.

The technical problem to be solved by the present invention, in order to maintain a strong connection between the sleeve and the bolt in the connection structure of the space frame, and to visually check the fastening state during the bolt fastening operation,

In the present invention, a long hole is formed only on a part of the sleeve, and a key bolt hole is formed at a depth that does not penetrate the outer circumferential surface of the bolt shank portion to screw the key bolt to the bolt instead of the pin. Minimize the cross-sectional area of the bolt and visually check the state of the bolt during tightening.

Therefore, it is possible to obtain a more robust and safe connection structure of the space frame, and the configuration and operation effects of the present invention will be described in detail with reference to the accompanying drawings as follows.

1, 2 and 3 are views for explaining the connection structure of the conventional space frame, (A) is a cross-sectional view showing a state before the bolt fastening, (B) is a cross-sectional view showing a state after the bolt fastening, (C) is a longitudinal cross-sectional view showing a state cut from the AA line of Fig. 1A, the BB line of Fig. 2A, and the CC line of Fig. 3A;

Figure 4 is a view for explaining the connection structure of the space frame according to the present invention, (A) is a cross-sectional view showing a state before the bolt fastening, (B) is a cross-sectional view showing a state after the bolt fastening, (C Is a longitudinal cross-sectional view which shows the state cut | disconnected by the DD line | wire of FIG.

* Description of the symbols for the main parts of the drawings *

10 member 11: steel pipe

12: cone 13: through hole

20: Bolt 21: Shank

22: screw portion 23: head

30: sleeve 31: long hole

32: keyway 40: pin

41: key bolt 42: pin hole

43: key bolt hole 50: ball

51: screw hole

4 is a view for explaining the connection structure of the space frame according to the present invention, (A) is a cross-sectional view showing a state before the bolt fastening, (B) is a cross-sectional view showing a state after the bolt fastening, (C) Is a longitudinal cross-sectional view which shows the state cut | disconnected by the DD line | wire of FIG. 3 (A).

The present invention, as shown in Figure 4, the ball 50 is formed with a plurality of screw holes 51 on the outer peripheral surface, the member 10 is coupled to the cone 12 at the tip of the steel pipe 11, and the member ( 10), the sleeve 30 connected between the member 10 and the ball 50, and located inside the sleeve 30, the head 23 is in the cone 12, the threaded portion 22 ) Is a bolt 20 coupled to the screw hole 51 and configured to rotate together with the sleeve 30 and coupling means connected therebetween so that the bolt 20 and the sleeve 30 can rotate together. In the structure of the space frame made of,

A long hole 31 is formed in a longitudinal direction only on a part of the outer circumferential surface of the sleeve 30, and the bolt 20 has a key bolt for inserting the coupling means to a depth such that it does not penetrate the outer circumferential surface of the shank portion. A hole 43 is formed, and the coupling means having a cross-sectional area sufficient to withstand the fastening torque of the bolt 20 is fitted into the key bolt hole 43 so as to be exposed to the naked eye 31. do.

The sleeve portion 30 is configured in the shape of a polygonal pipe having a polygonal cross-sectional structure such as a hexagonal shape so as to rotate using a tool such as a wrench.

That is, in FIG. 4C, the sleeve 30 is configured in the form of a hexagonal pipe, but the scope of the present invention is not limited to the shape of the hexagonal pipe, and may be deformed to a triangular, square or more polygonal shape. Could be.

On one side of the sleeve 30 is formed a long hole 31 having a width enough to pass through the coupling means, the length and position of the long hole 31 is from the beginning of the bolt 20 to the end The key bolt should be located to the inside of the long hole (31).

In the illustrated embodiment, the coupling means is composed of a key bolt 41 is a male thread is processed in the body portion, the key bolt hole 43 is a female thread is processed, but the scope of the present invention is not limited thereto. As a coupling means, a conventional method of fitting a pin may be used.

However, even in this case, the coupling means is inserted into the key bolt hole 43 to a depth sufficient to withstand the fastening torque of the bolt without being penetrated through the bolt 20.

On the other hand, when the key bolt 41 is used as a material having excellent bending strength and shear strength, the diameter of the key bolt 41 and the width of the long hole 31 of the sleeve 30 can be minimized, so that the bolt 20 ) And the cross section defect of the sleeve 30 may be minimized.

Referring to the operation method of the subject innovation constituted as follows.

In order to couple the member 10 to the ball 50, first insert the bolt 20 into the cone 12 and the sleeve 30 into the bolt 20, and then the key bolt hole 43 of the bolt 20. ) Overlaps the positions of the long hole 31 and then inserts the key bolt 41 into the key bolt hole 43 via the long hole 31 to connect the cone 12, the bolt 20, and the sleeve 30. And the key bolts 41 are integrally coupled to each other and welded to both ends of the steel pipe 11 to form the member 10, and the threaded portion 22 exposed to the end of the member 10 is viewed by the ball 50. After fitting to the screw hole 51 of), and rotating the sleeve 30, the bolt 20 is also rotated together with the sleeve 30, the member 10 is to be firmly coupled to the ball (50).

In this way, a plurality of members 10 are coupled to the ball 50, and a plurality of combinations of the balls 50 and the members 10 are connected to each other to form a desired shape, thereby completing the connection structure of the space frame. have.

As described above, in the present invention, the long hole 31 is formed only on a portion of the sleeve 30, and the bolt 20 has an outer circumferential surface of the bolt shank portion for screwing the key bolt 41 instead of the pin. The key bolt hole 43 is formed to a depth such that it does not penetrate, thereby minimizing the cross-sectional reduction of the sleeve 30 and the bolt 20 while visually checking the fastening state during the bolt fastening operation.

Therefore, while maintaining a strong coupling between the sleeve 30 and the bolt 20, it is possible to visually check the fastening state during the bolt fastening operation.

That is, in the present application, by forming only one long hole 31 in the sleeve 30, the cross-sectional defect of the sleeve 30 can be greatly reduced as compared with the conventional technique of forming two long holes in the upper and lower portions, and the bolt ( In 20), the cross section defect of the bolt 20 may also be greatly reduced because it is not necessary to penetrate the hole and may be formed to a required depth.

In addition, when the key bolt 41 is used as a material having excellent bending strength and shear strength, the effect of reducing cross-sectional defects of the bolt 20 and the sleeve 30 will be further increased.

On the other hand, there is a long hole 31 in the sleeve 30, the position of the key bolt 41 can be visually confirmed through the long hole 31, so that the fastening state of the bolt 20 can be easily confirmed, so that the bolt during assembly It is possible to solve all the problems in the conventional hermetic sleeve structure that could not be confirmed the fastening position.

Claims (3)

A ball 50 having a plurality of screw holes 51 formed on an outer circumferential surface thereof, a member 10 having a cone 12 coupled to a tip of a steel pipe 11, the member 10, the member 10, The sleeve 30 is connected between the ball 50 and the inside of the sleeve 30, the head portion 23 is in the cone 12, the screw portion 22 is coupled to the screw hole 51 In the connection structure of the space frame consisting of a bolt 20 and configured to rotate with the sleeve 30, and coupling means connected between the bolt 20 and the sleeve 30 to rotate together, A long hole 31 is formed in a longitudinal direction only on a part of the outer circumferential surface of the sleeve 30, and the bolt 20 has a key bolt for inserting the coupling means to a depth such that it does not penetrate the outer circumferential surface of the shank portion. A hole 43 is formed, and the coupling means having a cross-sectional area sufficient to withstand the fastening torque of the bolt 20 is fitted to the key bolt hole 43 so as to be coupled to the naked eye 31. Connection structure of the space frame capable of confirming the fastening state, characterized in that. According to claim 1, wherein one side of the sleeve 30 has a long hole 31 having a width enough to pass through the coupling means is formed in the longitudinal direction, the length and position of the long hole 31 is the bolt 20 Connection structure of the space frame that can be confirmed the fastening state, characterized in that the key bolt is formed so as to be located in the long hole 31 from the beginning to the end of the fastening. The method of claim 1 or claim 2, wherein the coupling means is composed of a key bolt 41 is a male screw is processed in the body portion, the key bolt hole 43 is confirmed a fastening state, characterized in that the female thread is processed Possible space frame concatenation.