CN218323185U - Steel structure connecting part for building structure assembly - Google Patents

Abstract

The utility model discloses a building structure assembles and uses steel construction adapting unit, include: the connecting piece, this connecting piece is arranged in the clearance department that above-mentioned steel construction was assembled, above-mentioned connecting piece is including the steel construction surface covering part that is located the clearance top surface and set up steel construction surface covering part both sides and be connected with the steel construction, be connected with the mounting between above-mentioned steel construction supporting part and steel construction, above-mentioned steel construction surface covering part top surface is inside sunken to have soft elasticity concave surface, the both sides of above-mentioned soft elasticity concave surface all are equipped with can elastic deformation's well kenozooecium. In the structure, the steel structure surface covering part and the steel structure supporting part of the steel structure are matched with the soft elastic concave surface made of the soft material, so that the connecting part can be prevented from generating a convex condition along with the movement of the gap when having good bearing performance, and the phenomenon that a single steel structure is broken in the gap change process is avoided.

Description

Steel structure connecting part for building structure assembly

Technical Field

The utility model relates to a technical field that building structure assembled, concretely relates to building structure assembles and uses steel construction adapting unit.

Background

The construction is mostly carried out by dividing the structure into a plurality of frames, a gap is reserved between two adjacent frames, and in order to avoid the load influence of temperature change and external vibration, a connecting piece is generally arranged between the two adjacent frames so as to avoid the condition that the gap changes due to the displacement of the frames.

Generally, the conventional connecting members are mostly complex in structure, many members, time and labor are wasted during construction, and the complicated gap is often difficult to be processed, meanwhile, most of the conventional connecting members are connecting members made of synthetic resin or rubber, and such connecting members have the advantages of easy installation and light weight, but because the connecting members have soft material characteristics, the load capacity is low, after long-term force application, for example, when an expansion joint of a floor installed for thermal expansion and contraction is arranged and the gap is filled in the ground, the connecting members are narrowed along the arrangement along with the large movement of the gap, and along with the contraction of the connecting members in the width direction, a protrusion is formed on the surface of the gap, thereby causing influences such as hindering walking.

Therefore, the steel structure connecting component for assembling the building structure is designed by combining the steel structure and the soft material so as to solve the problems.

SUMMERY OF THE UTILITY MODEL

To the problem that above-mentioned prior art exists, the utility model provides a building structure assembles and uses steel construction adapting unit forms a new steel construction adapting unit through synthesizing steel construction and soft material for when above-mentioned adapting unit possesses good bearing capacity, can avoid above-mentioned adapting unit to take place along with the removal in clearance and produce bellied circumstances, and avoid single steel construction to take place cracked phenomenon in clearance change in-process.

In order to realize above-mentioned purpose, the utility model discloses a pair of building structure is assembled and is used steel construction adapting unit, include:

the connecting piece, this connecting piece arranges the clearance department of assembling at above-mentioned steel construction, above-mentioned connecting piece covers the part and sets up the steel construction support part of covering part both sides and being connected with the steel construction at the steel construction surface that is located the clearance top surface, be connected with the mounting between above-mentioned steel construction support part and steel construction, above-mentioned steel construction surface covers the part top surface and inwards caves in and have soft elasticity concave surface, the both sides of above-mentioned soft elasticity concave surface all are equipped with well kenozooecium that can elastic deformation.

In the structure, the steel structure surface covering part and the steel structure supporting part of the steel structure are matched with the soft elastic concave surface made of the soft material, so that the connecting part has good bearing performance, the situation that the connecting part generates the bulge along with the movement of the gap can be avoided, and the phenomenon that the single steel structure breaks in the gap changing process is avoided.

As a further preferable mode of the above aspect, an upper end opening width of the soft elastic concave surface on the steel structure surface covering portion side is smaller than a lower side of the soft elastic concave surface, an upper surface of the steel structure surface covering portion is inclined downward from both sides of the steel structure surface covering portion toward an upper edge portion of the soft elastic concave surface, and when the gap is narrowed and the link is contracted and deformed, the steel structure surface portion as the upper surface of the link is elastically deformed from a following direction. Starting from the position where the soft elastic concave surface is formed, the deformable elastic concave surface can be deformed downward into the gap. Since the deformation of the connecting member during the movement is restricted as described above, no protrusion is formed on the covering portion of the steel structure surface due to the deformation.

In a further preferred embodiment of the present invention, one end of each hollow portion is connected to a lower portion of the center of the soft elastic concave surface, and the other end thereof is connected to a frame connected to a lower portion of both sides of the steel structure surface covering portion, and a top width of the hollow portion is smaller than a lower width of the hollow portion. Due to the hollow part, when the gap is narrowed on the surface, the deformation of the whole connecting piece in the width direction can be realized, and the effect of buffering the deformation speed can be realized.

As a further optimization of the above scheme, the method further comprises:

the elastic connecting plate is arranged below the soft elastic concave surface, two ends of the elastic connecting plate are respectively fixed on two adjacent connecting pieces so as to connect the two adjacent connecting pieces, the elastic connecting plate is arc-shaped, two sides of the elastic connecting plate are respectively provided with a plug-in connector which is plugged in the steel structure supporting part, when the frame longitudinally displaces along the gap, the adjacent connecting pieces move together, and the situation that the end parts of the adjacent connecting pieces are upwards curled due to mutual collision is avoided.

The utility model discloses a building structure assembles and uses steel construction adapting unit possesses following beneficial effect:

1. the utility model discloses a building structure assembles and uses steel construction adapting unit adopts the steel construction surface covering part of steel construction and the soft elasticity concave surface of the partial collocation soft materials of steel construction support for when above-mentioned adapting unit possesses good bearing capacity, can avoid above-mentioned adapting unit to take place along with the removal in clearance and produce bellied circumstances, and avoid single steel construction to take place cracked phenomenon in the clearance change in-process.

2. The soft elastic concave surface has an upper opening width on the steel structure surface covering portion side smaller than a lower side of the soft elastic concave surface, an upper surface of the steel structure surface covering portion is inclined downward from both sides of the steel structure surface covering portion toward an upper edge portion of the soft elastic concave surface, and the steel structure surface portion as the upper surface of the link is elastically deformed in a following direction when the gap is narrowed and the link is contracted and deformed. Starting from the position where the soft elastic concave surface is formed, the deformable elastic concave surface can be deformed downward into the gap. Since the deformation of the connecting member during the movement is restricted as described above, no protrusion is formed on the steel structure surface covering portion due to the deformation.

3. The hollow part is arranged, so that the deformation of the whole connecting piece in the width direction can be realized when the gap is narrowed on the surface, and the effect of buffering the deformation speed is realized.

While certain embodiments of the present invention have been disclosed in detail with reference to the following description and drawings, indicating the manner in which the principles of the invention may be employed, it is to be understood that the embodiments of the invention are not limited correspondingly in scope, which includes numerous changes, modifications and equivalents.

Drawings

FIG. 1 is a schematic structural view of a steel structure connecting component for building structure assembly;

fig. 2 is an enlarged schematic structural view of the utility model at C in fig. 1;

fig. 3 is a schematic side view of the middle connection plate of the present invention.

In the figure: 1. a connecting member; 2. a gap; 3. a soft elastic concave surface; 4. a hollow part; 5. an elastic connecting plate; 11. covering part of the steel structure surface; 12. a steel structural support portion; 51. a plug-in connector; 111. a frame; 121. a fixing member; A. a building frame A; B. a building frame B.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail through the drawings and the embodiments. It should be understood, however, that the description herein of specific embodiments is for purposes of illustration only and is not intended to limit the scope of the present disclosure.

It is noted that when an element is referred to as being "disposed on," or provided with "another element, it can be directly on, or intervening elements may also be present, when an element is referred to as being" connected, "or coupled to another element, it can be directly on, or coupled to, the other element, or intervening elements may also be present, and that" fixedly coupled "means fixedly coupled or coupled in any number of ways, not intended to be within the scope of the disclosure, and that the terms" vertical, "" horizontal, "" left, "" right, "and the like are used herein for illustrative purposes only and are not intended to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the terms herein in the specification is for the purpose of describing particular embodiments only and is not intended to limit the invention, and the use of the term "and/or" herein includes any and all combinations of one or more of the associated listed items;

referring to fig. 1-3 of the specification, the present invention provides an embodiment of a steel structure connecting component for assembling building structures, wherein fig. 1 shows a gap of a frame in one embodiment of the present invention, the gap of the frame is located in a building frame a and a building frame B for assembling steel structures,

specifically, the gap 2 is provided with a connecting member 1, and when the building frame a and the building frame B are relatively displaced and cause the gap to expand, contract or move, the connecting member deforms or slides along the gap along with the displacement to absorb the displacement and ensure that the surfaces of the building frame a and the building frame B are still flat, especially for the construction of the ground.

Further, above-mentioned connecting piece 1 covers part 11 and sets up at steel structure surface that covers part 11 both sides and the steel structure support part 12 of being connected with the steel construction including the steel structure surface that is located 2 top surfaces of clearance, and above-mentioned steel structure support part 12 and steel construction are connected with mounting 121 within a definite time, and above-mentioned steel structure surface covers part 11 top surface and inwards caves in and have soft elasticity concave surface 3, and the both sides of above-mentioned soft elasticity concave surface 3 all are equipped with well kenozooecium 4 that can elastic deformation.

Further, the soft elastic concave surface 3 may be made of a material such as resin, and the material of the soft elastic concave surface 3 is preferably aluminum in the present embodiment.

Further, the soft elastic concave surface 3 has an upper opening width on the steel-structured surface covering portion 11 side smaller than a lower opening width of the soft elastic concave surface 3, so that the soft elastic concave surface has a substantially U-shaped cross section opening downward.

Further, the upper surface of the steel-structured surface covering portion 11 is inclined downward from both sides of the steel-structured surface covering portion 11 toward the upper edge portion of the soft elastic concave surface 3.

In actual operation, when the gap 2 is narrowed and the joint 1 is contracted and deformed, the steel structure surface portion as the upper surface of the joint 1 is elastically deformed from the following direction. Starting from the position where the soft elastic concave surface 3 is formed, it can be deformed downward into the gap 2. Since the deformation of the connecting member 1 during the movement is restricted as described above, no protrusion is formed on the steel-structured surface covering portion 11 due to the deformation.

Furthermore, one end of each hollow part 4 is connected to the lower part of the center of the soft elastic concave surface 3, and the other end is connected to the frame 111 connected to the lower parts of both sides of the steel structure surface covering part 11, and the width of the top part of the hollow part 4 is smaller than the width of the lower part of the hollow part 4.

Further, the steel structure supporting portion 12 is formed on the outer side surface of the hollow portion, and includes a top plate having a top surface contacting with the lower side of the steel structure surface covering portion 11, a side plate having a side surface locked by a screw or the like, and a bottom plate having a bottom portion locked to the building frame by a fixing member 121, and an insertion rail on the side surface of the bottom plate for inserting the insertion plug 51.

Furthermore, the inserting track is inclined and is a concave surface which is concave towards the bottom plate, and the blocking clamp which provides the anti-falling function is arranged on the inserting track.

The elastic connecting plate 5 is arranged below the soft elastic concave surface 3, two ends of the elastic connecting plate 5 are respectively fixed on two adjacent connecting pieces 1, so that the two adjacent connecting pieces 1 are connected, the elastic connecting plate 5 is arc-shaped, the two sides of the elastic connecting plate 5 are respectively provided with a plug-in connector 51 which is plugged in the steel structure supporting part 12, when the building frame longitudinally moves along the gap 2, the adjacent connecting pieces 1 move together, and the situation that the end parts of the adjacent connecting pieces 1 are upwards curled due to mutual collision is avoided.

To sum up, the utility model discloses a building structure assembles uses steel construction adapting unit adopts the steel construction surface of steel construction to cover part 11 and steel construction support part 12 collocation soft elastic concave surface 3 of soft material for when above-mentioned connecting piece 1 possesses good bearing capacity, can avoid above-mentioned connecting piece 1 to take place along with clearance 2's removal and produce bellied circumstances, and avoid single steel construction to take place at clearance 2 change in-process fracture's phenomenon.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, which is intended to cover any modifications, equivalent substitutions or improvements made within the spirit and scope of the present invention.

Claims (7)

1. The utility model provides a building structure assembles and uses steel construction adapting unit which characterized in that includes:

connecting piece (1), clearance (2) department of assembling at above-mentioned steel construction is arranged in this connecting piece (1), above-mentioned connecting piece (1) is including steel construction surface covering part (11) that are located clearance (2) top surface and set up steel construction support part (12) of being connected in steel construction surface covering part (11) both sides and with the steel construction, be connected with mounting (121) between above-mentioned steel construction support part (12) and steel construction, above-mentioned steel construction surface covering part (11) top surface inwards caves in and has soft elasticity concave surface (3), the both sides of above-mentioned soft elasticity concave surface (3) all are equipped with well kenozooecium (4) that can elastic deformation.

2. The steel structure connecting component for building structure assembly according to claim 1, wherein: the opening width of the upper end of the soft elastic concave surface (3) on the steel structure surface covering part (11) side is smaller than that of the lower side of the soft elastic concave surface (3).

3. The steel structure connecting component for assembling building structures according to claim 2, wherein: the upper surface of the steel structure surface covering portion (11) is inclined downward from both sides of the steel structure surface covering portion (11) toward the upper edge portion of the soft elastic concave surface (3).

4. The steel structure connecting component for building structure assembly according to claim 3, wherein: one end of each hollow part (4) is connected to the lower part of the center of the soft elastic concave surface (3) and the other end is connected to the frame (111) connected to the lower parts of the two sides of the steel structure surface covering part (11).

5. The steel structure connecting component for assembling building structures according to claim 4, wherein: the top width of the hollow part (4) is smaller than the lower width of the hollow part (4).

6. The steel structure connecting component for building structure assembly according to claim 5, wherein: further comprising:

the elastic connecting plate (5) is arranged below the soft elastic concave surface (3), and two ends of the elastic connecting plate (5) are respectively fixed on two adjacent connecting pieces (1) so as to connect the two adjacent connecting pieces (1).

7. The steel structure connecting component for building structure assembly according to claim 6, wherein: the elastic connecting plate (5) is arc-shaped, and the two sides of the elastic connecting plate are provided with connecting plugs (51) which are connected with the steel structure supporting part (12) in an inserting mode.

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