KR101220763B1 - Structure connection apparatus and outrigger structure using the same - Google Patents

Abstract

The present invention relates to a structure coupling device comprising a first coupling portion connected to a structure and a second coupling portion connected to another structure, the second coupling portion being configured to compensate for an applied load by the structure in cooperation with the first coupling portion, and a neighbor using the same. Provide a rigger structure.
According to the present invention, it is not only economical and efficient by automatically compensating for the difference in shrinkage that occurs when connecting materials of different materials, but also strongly fastens the joints between the structures against horizontal loads such as earthquake loads and wind loads acting on the building. In addition, the resistance against the horizontal load of the building can also be excellent effect.

Description

STRUCTURE CONNECTION APPARATUS AND OUTRIGGER STRUCTURE USING THE SAME}

The present invention relates to a structure connecting device, and more particularly, it is possible to automatically compensate for the difference in shrinkage between structures having different materials during construction of a building by slidingly moving the coupling part connected to a structure having a relatively large reduction amount downward. On the other hand, when a horizontal load acts on the building, the coupling part makes it difficult to move upwards, and thus a structure connecting device having excellent resistance against horizontal load of the building, and an outrigger structure connecting the pillar and the outrigger of the building using the same. .

Higher buildings require higher horizontal loads, such as earthquake and wind loads, and therefore require a resistance system to horizontal loads such as outriggers. Outriggers connect the building pillars with the central core shear wall so that the pillars and the core behave integrally with respect to the horizontal loads, resulting in more efficient horizontal load resistance.

In high-rise buildings, the external columns are generally steel columns or steel reinforced concrete columns, whereas the internal shear walls of the building are mostly designed with reinforced concrete. However, during the construction of the building, the shrinkage of the column and the shear wall is also changed due to the different shrinkage of the steel frame and concrete. In spite of the difference in shrinkage, when the column and the shear wall are connected to the outrigger, an unexpected additional stress is generated in the outrigger, in particular, the connection device between the column and the outrigger, which lowers the resistance against horizontal load. This problem can usually occur in the connection of pillars and shear walls, as well as in structures of different materials.

Therefore, the connecting device of the structure should be a structure that can accommodate the difference in shrinkage between structures of different materials. However, in the related art, a method of continuously compensating for the difference in the reduction amount by using the manual reduction in response to the difference in the reduction amount, which is a labor-intensive method, was not economically problematic. In addition, in the conventional method, since the immediate compensation cannot be continuously made in response to the difference in the reduction amount, in fact, additional stress always acts on the connecting device, thereby causing a problem in the stability of the connecting device.

Accordingly, the applicant of the present invention automatically solves the problem of shrinkage difference caused by the connection between the structure of different materials, and proposed the present invention excellent in the resistance performance to the horizontal load of the building.

The present invention has been made to solve the above-mentioned conventional problems, it is economical and efficient by automatically compensating for the difference in shrinkage that occurs when connecting materials of different materials, economical and efficient, such as earthquake load or wind load acting on the building It provides a structural connection device having excellent resistance to the horizontal load of the building by strongly fixing the joints between the structures against the horizontal load, and an outrigger structure using the connection device for the connection of the building pillar and the outrigger.

As a technical aspect for achieving the above object, the present invention is connected to the first coupling portion and the other structure connected to the structure, and is configured to compensate the applied load by the structure in cooperation with the first coupling portion Provided is a structure connecting device comprising two coupling parts.

Preferably, the first coupling part includes a sliding member that is constrained to slide up and down while being restrained by the second coupling part, and the second coupling part includes a bottom member coupled to the structure and a cover covering the sliding member. A member, upper and lower members formed on upper and lower portions of the bottom member to support upper and lower ends of the cover member, and coupling means for fixing the cover member to the bottom member.

More preferably, the coupling means is a bolt, the bolt is coupled to the bottom member through the cover member, thereby fixing the cover member.

More preferably, an elastic member is provided between the head of the bolt and the cover member to allow the cover member to pressurize the sliding member.

More preferably, further comprising a reinforcing member formed at the coupling portion of the upper member and the other structure and the coupling portion of the lower member and the other structure.

More preferably, the sliding member, one surface is in contact with the bottom member, the other surface is formed to be inclined away from the one surface toward the lower side, the cover member is opposite to the sliding member to contact the other surface of the sliding member It is formed in the form.

More preferably, the sliding member, one surface is in contact with the bottom member, the other surface is continuously formed inclined upwardly, the cover member, the shape opposite to the sliding member so as to engage with the teeth of the sliding member Is formed.

More preferably, the sliding member, the bottom member, the cover member, and the upper and lower members are in the form of a plate of metal material.

The present invention provides an outrigger structure that is connected to the structure connecting device and the structure connecting device described above, and includes a structure including at least an outrigger.

According to the present invention, when the shrinkage difference between the materials of different materials during construction of the building, the coupling portion connected to the structure with a relatively large shrinkage can be automatically compensated by sliding downward downward, economical and efficiency This has an excellent effect.

In addition, the horizontal load such as earthquake load or wind load acts on the building to prevent the coupling portion from sliding upward when the building is bent to the left and right, there is an excellent effect of resistance to the horizontal load of the building.

1 is a side view showing a structure connecting device according to the present invention.
Figure 2 is a front view showing a structure connecting device according to the present invention.
Figure 3 is a side view of the outrigger structure using a structure connecting device according to the present invention.
Figure 4 is a side view showing another embodiment of the structure connecting device according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1, 2 and 4 show a structure connecting device 1 according to the invention. And, Figure 3 shows the outrigger structure using the connecting device 1 of the present invention, specifically showing the connection of the inner shear wall to the outer pillar and the outrigger bonded to the connecting device 1 according to the present invention. Hereinafter, the inner shear wall and the outrigger are regarded as one structure. In addition, based on the drawings, the direction in which the upper member 26 is upward, the direction in which the lower member 28 is downward, the direction in which the structure 100 is located is defined as the right side, and the direction in which the other structure 110 is defined as the left. do.

The structure connecting device 1 according to the present invention is connected to the first coupling part 10 and the other structure 110 connected to the structure 100, the structure 100 in cooperation with the first coupling part 10 The second coupling part 20 is configured to compensate for the load applied by the 110). Here, the structure 100, 110 is a broad meaning including a structure that is connected to other structures, such as pillars, walls, beams, etc. of the building, the present invention is used for the connection between the structures of different materials.

As described in the background art, each of the structures 100 and 110 has a different material and a different degree of shrinkage during construction. According to this difference in shrinkage, the structure connecting device 1 is additionally loaded. That is, the structure connecting device 1 is already under load even before the building receives the horizontal load. The present invention provides a configuration that is automatically coupled to the structure (100) (110) by the interaction of the coupling portion (10) (20) connecting the structure (100, 110) to compensate for the difference in the reduction amount.

Next, referring to Figs. 1, 2 and 4, the configuration of the connecting device 1 of the present invention will be described.

The first coupling part 10 includes sliding members 12a and 12b that are restrained by the second coupling part 20 and slide upward and downward. In addition, the second coupling part 20 may include a bottom member 22 coupled to the structure 110, a cover member 24 covering the sliding members 12a and 12b, and the cover member 24. The upper and lower members 26 and 28 formed on the upper and lower portions of the bottom member 22 to support the upper and lower ends of the bottom member 22 and the cover member 24 to be fixed to the bottom member 22. Means;

In addition, the coupling means is a bolt 30, the bolt 30 is coupled to the bottom member 22 through the cover member 24, thereby fixing the cover member 24.

That is, the sliding members 12a and 12b of the first coupling part 10 are enclosed and accommodated in the bottom member 22, the cover member 24, and the upper and lower members 26 and 28, but are vertically up and down. The sliding movement is configured to be. In addition, the structures 100 and 110 have different materials, so that a difference in shrinkage occurs during construction, so that the first coupling part 10 coupled to the structure 100 having a larger shrinkage than other structures 110 is relatively downward. Sliding move to. After the movement is made, the bottom member 22, the sliding members 12a and 12b and the cover member 24 are brought into close contact with each other by tightening the bolt 30. By being in close contact, the friction force is generated between the members to fix the coupling parts 10 and 20 so that the building can withstand the horizontal load.

In addition, an elastic member 32 such as a spring is provided between the head of the bolt 30 and the cover member 24 so that the cover member 24 applies pressure to the sliding members 12a and 12b. Do it. Thereby, the worker can skip the work of loosening and tightening the bolt 30 repeatedly according to the degree of shrinkage difference. In addition, since the cover member 24 exerts pressure on the sliding members 12a and 12b by the elastic member 32, frictional force acts between the members, so that the coupling portions 10 and 20 between the structures 100 and 110 are applied. ).

In addition, it further includes a reinforcing member 40 formed at the coupling portion of the upper member 26 and the other structure 110 and the coupling portion of the lower member 28 and the other structure 110. This strengthens the coupling force between the second coupling portion 20 and the other structure 110 with respect to the reduction amount and the horizontal load.

Next, in addition to the basic configuration as described above, the first coupling portion 10 connected to the structure 100 having a larger shrinkage than other structures 110 naturally slides downward to automatically compensate for the difference in shrinkage, On the other hand, it is preferable to make it difficult to move the slide upward to secure the coupling portion 10, 20 of the structure 100, 110 to the horizontal load.

1 is a side view showing a structure connecting device 1 according to the present invention, Figure 2 is a front view showing a structure connecting device 1 according to the present invention.

The cover member 24 of the present invention is formed to cover both sides of one surface of the sliding member 12a, respectively, and the cover member 24 is fixed to the bottom member 22 by bolts 30 provided on the upper and lower portions thereof. In addition, an elastic member 32 is provided between the head of the bolt 30 and the cover member 24, respectively.

In addition, the sliding member 12a of the present invention, one surface is in contact with the bottom member 22, the other surface is formed to be inclined away from the one surface toward the lower side, the cover member 24, the sliding member ( It is formed in a shape opposite to the sliding member 12a to contact the other surface of the (12a).

In other words, the sliding member 12a has a trapezoidal shape in which the thickness thereof increases toward the lower side, and the cover member 24 has a narrowing shape on the contrary. By this form, the sliding member 12a can be easily moved downward. In addition, since the elastic member 32 pushes the cover member 24 in the sliding member 12a direction, the downward movement is easier. Therefore, when the structure 100 has a larger shrinkage than other structures 110, the first coupling part 10 connected to the structure 100 may naturally slide downward. As a result, the shrinkage difference is automatically compensated for.

3 is a side view of a structure using the structure connecting device 1 according to the present invention. 3 is an embodiment in which the structure is an inner shear wall in which an outer column and an outrigger are joined, and generally both sides are symmetric about the center shear wall of the building. When a horizontal load is applied to the building, the building bends from side to side. Looking at the case where the building is bent to the right, the sliding member 12a of the left connecting device 1 is forced upward. However, due to the shape of the sliding member 12a and the cover member 24 described above, the sliding member 12a is hard to push up the cover member 24. Moreover, since the cover member 24 pressurizes the sliding member 12a by the elastic member 32, and since the frictional force between the cover member 24 and the sliding member 12a is large, the sliding member 12a is carried out. It is more difficult to move the slide upwards. At this time, a frictional force also acts between the bottom member 22 and the sliding member 12a. Here, the friction force can be adjusted by adjusting the friction coefficient of the surface treatment of each member and the compression force of the elastic member by the bolt 30. In addition, when the building is bent to the left side, the right connecting device 1 performs the same function as described above.

That is, the structure connecting device 1 of the present invention is fixed by resisting the horizontal load acting on the building by the shape of the member and the friction force between the members.

4 is a side view showing another embodiment of the structure connecting device 1 according to the present invention.

In the sliding member 12b of the present invention, one surface of the sliding member 12b is in contact with the bottom member 22, and the other surface of the sliding member 12b is inclined upward, and the cover member 24 includes the sliding member ( It is formed in a shape opposite to the sliding member 12b to engage with the teeth 14 of 12b).

Since the teeth 14 formed on the sliding member 12b are inclined upwardly, when a reduction amount difference occurs between the structures 100 and 110, the reduction amount of the teeth is larger than that of the other structures 110. The connected first coupling part 10 is easily slid downwards. Therefore, the reduction amount difference is automatically compensated for.

In addition, when the horizontal load acts on the building, the first coupling portion 10 is forced upward. However, the teeth 14 of the sliding member 12b are caught by the teeth of the cover member 24 to prevent the sliding member 12b from sliding upward. Therefore, the connecting device 1 of the present invention is fixed by resisting the horizontal load acting on the building by the form of the tooth 14.

Next, the sliding members 12a and 12b, the bottom member 22, the cover member 24 and the upper and lower members 26 and 28 of the structure connecting device 1 of the present invention are made of metal such as general steel. The plate form of the material is preferred.

1 to 4 show an outrigger structure as a structure connected using the structure connecting apparatus 1 described above.

The outrigger structure according to the present invention includes structures 100 and 110 connected to the structure connecting device 1 and the structure connecting device 1 described above, and including at least an outrigger 102.

In the embodiment shown in the figures, the structure 100 is one structure including an outrigger 102 and an inner shear wall 104 bonded to the outrigger 102, and the other structure 110 is an outer column. The end of the outrigger 102 and the outer column 110 are connected by the structure connecting device 1 described above. In general, the inner shear wall 104 is a reinforced concrete material, because the reduction amount is larger than the outer column 110 of steel or steel reinforced concrete material occurs a difference in the reduction amount. Accordingly, the structure 100 including the outrigger is loaded downward relative to the outer column (110). This reduction amount difference is compensated by the structure connecting device 1 described above. The details are the same as described above.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be variously modified and varied without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 ... Structure connecting device 10 ... First coupling part
12a, 12b ... sliding member 14 ... tooth
20 ... second coupling part 22 ... bottom member
24 ... cover member 26 ... upper member
28 ... lower part 30 ... bolt
32 ... elastic member 40 ... reinforcing member
102 ... Outrigger 104 ... Internal Shear Wall
100, 110 ... structures

Claims (9)

A first coupling part 10 connected to the structure 100; And
A second coupling part 20 connected to another structure 110 and configured to compensate for an applied load by the structures 100 and 110 in cooperation with the first coupling part 10;
Including;
The first coupling part 10 includes sliding members 12a and 12b that are restrained by the second coupling part 20 and slide up and down,
The second coupling part 20 may include a bottom member 22 coupled to the structure 110, a cover member 24 covering the sliding members 12a and 12b, and the cover member 24. Upper and lower members 26 and 28 formed on upper and lower portions of the bottom member 22 to support upper and lower ends, and coupling means for fixing the cover member 24 to the bottom member 22. Structure connecting device comprising.
delete The method of claim 1,
The coupling means is a bolt 30,
The bolt (30) is connected to the bottom member (22) through the cover member (24), thereby fixing the cover member (24).
The method of claim 3,
An elastic member 32 is provided between the head of the bolt 30 and the cover member 24 so that the cover member 24 pressurizes the sliding members 12a and 12b. .
The method of claim 1,
And a reinforcing member (40) formed at a coupling portion of the upper member (26) and the other structure (110) and at a coupling portion of the lower member (28) and the other structure (110).
The method of claim 1,
The sliding member 12a, one surface is in contact with the bottom member 22, the other surface is formed to be inclined away from the one surface toward the lower,
The cover member (24), the structure connecting device is formed in a shape opposite to the sliding member (12a) to contact the other surface of the sliding member (12a).
The method of claim 1,
As for the sliding member 12b, one surface is in contact with the bottom member 22, and the other surface is continuously formed with teeth 14 inclined upwards,
The cover member (24), the structure connecting device is formed in the form opposite to the sliding member (12b) to engage with the teeth (14) of the sliding member (12b).
The method of claim 1,
The sliding member (12a) (12b), the bottom member (22), the cover member (24) and the upper and lower members (26, 28) is a structure connecting device of the metal material.
A structure connecting device (1) according to any one of claims 1 and 3 to 8; And
A structure (100) (110) connected to the structure connecting device (1), the structure including at least an outrigger (102);
Outrigger structures comprising a.

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