CN216590657U - Diagonal connecting piece of anti-seismic building support - Google Patents

Abstract

The utility model discloses a diagonal connection piece of a building anti-seismic support, which comprises a convex bottom plate, wherein a shock absorption sliding groove is formed in a bulge of the convex bottom plate, one end of the shock absorption sliding groove completely penetrates one side of the convex bottom plate, two first holes are symmetrically formed in the inner side wall of the shock absorption sliding groove, a sliding rod is inserted into each first hole, an I-shaped sliding plate is sleeved on the two sliding rods in a sliding mode, one end of the I-shaped sliding plate extends to the outer side of the shock absorption sliding groove, a fixing plate is installed at one end, far away from the convex bottom plate, of the I-shaped sliding plate, a shock absorption spring abutting against the I-shaped sliding plate is sleeved at two ends of each sliding rod, and a convex sealing cover is arranged on one side wall, through which the shock absorption sliding groove penetrates, of the convex bottom plate. The utility model has simple structure, realizes the anti-seismic performance of the electrical equipment by connecting the fixed structure and the electrical equipment, is easy to disassemble and assemble the structures, and strengthens the stability of the connecting piece by assembling and locking.

Description

Diagonal connecting piece of anti-seismic building support

Technical Field

The utility model relates to the technical field of connecting pieces, in particular to a cable-stayed connecting piece of a building anti-seismic support.

Background

The diagonal connecting piece of the anti-seismic support is a connecting piece which is suitable for the requirements of electromechanical elements and structural earthquakes in buildings, is used for connecting the electromechanical elements and a stable structure, and is widely applied to building engineering, particularly electromechanical installation with the requirements of anti-seismic precaution.

The anti-seismic support is fixedly installed on the stable structure and the electromechanical installation structure required to be connected, and the connection between the connection structures is often not firm enough, so that the structure cannot achieve the fixing effect, the connection piece slides, and potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects in the prior art and provides a cable-stayed connecting piece of a building anti-seismic support.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a diagonal connecting piece of a building anti-seismic support comprises a convex bottom plate, wherein a shock absorption sliding groove is arranged at the bulge of the convex bottom plate, one end of the shock absorption sliding chute completely penetrates through one side of the convex bottom plate, two first holes are symmetrically formed in the inner side wall of the shock absorption sliding chute, a sliding rod is inserted into each first hole, an I-shaped sliding plate is sleeved on the two sliding rods in a sliding mode, one end of the I-shaped sliding plate extends to the outer side of the damping sliding chute, one end of the I-shaped sliding plate, which is far away from the convex bottom plate, is provided with a fixed plate, two ends of each sliding rod are respectively sleeved with a damping spring which is propped against the I-shaped sliding plate, the convex bottom plate is provided with a convex sealing cover on one side wall through which the damping chute penetrates, two second holes are symmetrically formed in one side, close to the damping chute, of the convex sealing cover, and one ends, far away from the two first holes, of the two sliding rods are respectively inserted into the two second holes.

Preferably, one side of the fixing plate, which is far away from the I-shaped sliding plate, is symmetrically and fixedly provided with two wing plates, and each of the wing plates and the fixing plate has an included angle of 45 degrees.

Preferably, the constant head tank has been seted up to one side that the fixed plate is close to worker's shape slide, the upper end slip of worker's shape slide is inserted and is established in the constant head tank, a plurality of No. three holes have been seted up to the upper end equidistance of worker's shape slide, one side that the fixed plate is close to the pterygoid lamina is placed in the middle the equidistance and has been seted up a plurality of No. four holes, and is a plurality of No. four holes and a plurality of No. three hole one-to-one.

Preferably, the convex part of the convex sealing cover is inserted into the damping sliding groove, two groups of five holes are symmetrically formed in the side wall of the convex sealing cover, two groups of six holes are symmetrically formed in one side, close to the convex sealing cover, of the convex bottom plate, multiple groups of the five holes are in one-to-one correspondence with multiple groups of the six holes, and each of the five holes and the corresponding six holes are jointly inserted with a locking screw.

Preferably, each wing plate is provided with a plurality of seven holes, and the convex bottom plate is symmetrically provided with a plurality of eight holes.

Preferably, the ends, far away from the I-shaped sliding plate, of the two damping springs close to the convex sealing cover tightly abut against the convex sealing cover, and the ends, far away from the I-shaped sliding plate, of the two damping springs far away from the convex sealing cover tightly abut against the side wall of the damping chute.

The utility model has the following beneficial effects:

1. the whole device can be disassembled and assembled through punching, mounting and combination of the whole cable-stayed connecting piece, has simple structure and convenient mounting and dismounting, and can form an isosceles right triangle through the part of the connection of the wing plates and the corners of the building wall body, thereby improving the stability of the device.

2. The contact surface of the electrical equipment and the connecting piece is large, the bearing capacity of the connecting piece is improved, and the damping spring is additionally arranged in the bottom plate, connected with the electrical equipment, of the connecting piece, so that the damping performance of the connecting piece is improved more effectively.

In conclusion, the connecting piece is simple in structure, the anti-seismic performance of the electrical equipment is realized by connecting the fixing structure and the electrical equipment, the structures are easy to disassemble and assemble, and the stability of the connecting piece is reinforced by assembling and locking.

Drawings

Fig. 1 is a schematic structural view of a cable-stayed connection member of a building anti-seismic support according to the present invention;

FIG. 2 is an enlarged view of a shock-absorbing chute portion of a diagonal connection member of a seismic support for a building according to the present invention;

fig. 3 is an enlarged view of the convex cover part of the diagonal connection member of the anti-seismic support for the building according to the present invention.

In the figure: the damping device comprises a convex bottom plate 1, a damping sliding chute 2, a first hole 3, a sliding rod 4, an I-shaped sliding plate 5, a fixing plate 6, a damping spring 7, a convex sealing cover 8, a second hole 9, a wing plate 10, a positioning groove 11, a third hole 12, a fourth hole 13, a fifth hole 14, a sixth hole 15, a locking screw 16, a seventh hole 17 and an eighth hole 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a building antidetonation support draws connecting piece to one side, including convex bottom plate 1, shock attenuation spout 2 has been seted up to convex bottom plate 1's bellying, one end of shock attenuation spout 2 runs through one side of convex bottom plate 1 completely, the symmetry has been seted up No. two holes 3 on the inside wall of shock attenuation spout 2, it is equipped with slide bar 4 all to insert in every hole 3, common slip cover is equipped with worker shape slide 5 on two slide bar 4, the one end of worker shape slide 5 extends to the outside of shock attenuation spout 2, worker shape slide 5 is kept away from the one end of convex bottom plate 1 and is installed fixed plate 6, the both ends of every slide bar 4 all are equipped with the damping spring 7 that supports on worker shape slide 5, convex bottom plate 1 is located a lateral wall upper cover that shock attenuation spout 2 runs through and is equipped with convex closing cap 8, convex closing cap 8 is close to one side symmetry of shock attenuation spout 2 and has been seted up No. two holes 9, the one end that two holes 3 were kept away from to two slide bars 4 is inserted respectively and is established in No. two holes 9.

One side of the I-shaped sliding plate 5 is sleeved on the sliding rod 4, and the sliding rod 4 is fixed in the damping sliding chute 2 formed by the convex bottom plate 1 and the convex sealing cover 8, so that the I-shaped sliding plate 5 can only slide in the damping sliding chute 2 along the sliding rod 4;

the convex bottom plate 1 of the electrical equipment is fixed, when vibration is generated, relative motion is generated between the convex bottom plate 1 and the I-shaped sliding plate 5, the damping spring 7 can be extruded, the damping spring 7 can buffer the vibration of the convex bottom plate 1, and the shock resistance of the electrical equipment is realized.

Two wing plates 10 are symmetrically and fixedly installed on one side, far away from the I-shaped sliding plate 5, of the fixing plate 6, and the included angle between each wing plate 10 and the fixing plate 6 is 45 degrees.

The wing panel 10 can be fixed between buildings having a right-angled structure to form a triangle having excellent stability so that the connector itself does not slip.

One side that fixed plate 6 is close to worker shape slide 5 has seted up constant head tank 11, and the upper end of worker shape slide 5 slides and inserts and establish in constant head tank 11, and a plurality of No. three holes 12 have been seted up to the upper end equidistance of worker shape slide 5, and fixed plate 6 is close to one side of pterygoid lamina 10 and has seted up a plurality of No. four holes 13 between two parties equidistance, a plurality of No. four holes 13 and a plurality of No. three hole 12 one-to-one.

One side of the I-shaped sliding plate 5 is fixed in the fixing plate 6 through setting of the fourth hole 13 and the third hole 12, so that the fixing plate 6, the I-shaped sliding plate 5 and the convex bottom plate 1 form a complete connecting piece after assembly.

In the protruding position of convex closing cap 8 inserted shock attenuation spout 2, two sets of No. five holes 14 have been seted up to the symmetry on the lateral wall of convex closing cap 8, convex bottom plate 1 was close to one side symmetry of convex closing cap 8 and has been seted up two sets of No. six holes 15, and No. five holes 14 of multiunit and No. six hole 15 one-to-one of multiunit, insert jointly in every No. five holes 14 and the No. six holes 15 that correspond and be equipped with locking screw 16.

Since the fifth hole 14 and the sixth hole 15 are locked by the locking screw 16, the convex sealing cover 8 and the convex bottom plate 1 form a closed space, and the I-shaped sliding plate 5 is limited to move only in the damping chute 2.

Each wing plate 10 is provided with a plurality of seven holes 17, and the convex bottom plate 1 is symmetrically provided with a plurality of eight holes 18.

The design of No. seven hole 17 can be fixed the connecting piece on the wall body of building, and the design of No. eight hole 18 can be connected the connecting piece with electrical equipment is fixed.

The ends of the two damping springs 7 close to the convex sealing cover 8, which are far away from the I-shaped sliding plate 5, tightly abut against the convex sealing cover 8, and the ends of the two damping springs 7, which are far away from the convex sealing cover 8, which are far away from the I-shaped sliding plate 5, tightly abut against the side wall of the damping chute 2.

When the shock-absorbing sliding plate is used, a sliding rod 4 is inserted into a first hole 3, a shock-absorbing spring 7 is sleeved on the sliding rod 4, then an I-shaped sliding plate 5 is sleeved, then the shock-absorbing spring 7 is sleeved continuously, finally a convex sealing cover 8 is covered on a shock-absorbing sliding groove 2, then a fifth hole 14 and a sixth hole 15 are locked by a locking screw 16, then the other side of the I-shaped sliding plate 5 is inserted into a fixing plate 6, a fourth hole 13 and a third hole 12 are fixed after being in one-to-one correspondence, finally a connecting piece is fixed on a building through a seventh hole 17, and electrical equipment is fixed on a convex bottom plate 1 through an eighth hole 18.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the utility model concepts of the present invention in the scope of the present invention.

Claims (6)

1. The diagonal connecting piece of the anti-seismic support of the building comprises a convex bottom plate (1) and is characterized in that a shock absorption sliding groove (2) is formed in a protruding position of the convex bottom plate (1), one end of the shock absorption sliding groove (2) completely penetrates through one side of the convex bottom plate (1), two first holes (3) are symmetrically formed in the inner side wall of the shock absorption sliding groove (2), each first hole (3) is internally provided with a sliding rod (4), the two sliding rods (4) are sleeved with an I-shaped sliding plate (5) in a sliding mode, one end of the I-shaped sliding plate (5) extends to the outer side of the shock absorption sliding groove (2), one end, far away from the convex bottom plate (1), of the I-shaped sliding plate (5) is provided with a fixing plate (6), two ends of each sliding rod (4) are sleeved with a shock absorption spring (7) abutting against the I-shaped sliding plate (5), the convex bottom plate (1) is covered with a convex sealing cover (8) on one side wall through which the shock absorption sliding groove (2), two second holes (9) are symmetrically formed in one side, close to the damping sliding groove (2), of the convex sealing cover (8), and one ends, far away from the first holes (3), of the two sliding rods (4) are respectively inserted into the second holes (9).

2. The cable-stayed connecting piece of the anti-seismic building bracket according to claim 1, characterized in that two wing plates (10) are symmetrically and fixedly installed on one side of the fixing plate (6) far away from the I-shaped sliding plate (5), and the included angle between each wing plate (10) and the fixing plate (6) is 45 degrees.

3. The cable-stayed connecting piece of the anti-seismic support of the building according to claim 2, characterized in that one side of the fixing plate (6) close to the I-shaped sliding plate (5) is provided with a positioning groove (11), the upper end of the I-shaped sliding plate (5) is slidably inserted into the positioning groove (11), the upper end of the I-shaped sliding plate (5) is provided with a plurality of third holes (12) at equal intervals, one side of the fixing plate (6) close to the wing plate (10) is provided with a plurality of fourth holes (13) at equal intervals in the middle, and the plurality of fourth holes (13) correspond to the plurality of third holes (12) one to one.

4. The cable-stayed connecting piece of the anti-seismic building support according to claim 1, characterized in that a convex part of the convex sealing cover (8) is inserted into the damping sliding groove (2), two groups of five holes (14) are symmetrically formed in the side wall of the convex sealing cover (8), two groups of six holes (15) are symmetrically formed in one side of the convex bottom plate (1) close to the convex sealing cover (8), the groups of five holes (14) correspond to the groups of six holes (15) one to one, and a locking screw (16) is inserted into each of the five holes (14) and the corresponding six holes (15) together.

5. The diagonal draw connecting piece of a building anti-seismic support according to claim 2, characterized in that each wing plate (10) is provided with a plurality of seven-numbered holes (17), and the convex bottom plate (1) is symmetrically provided with a plurality of eight-numbered holes (18).

6. A diagonal connection member of a building anti-seismic support according to claim 1, characterized in that one end of two of said shock absorbing springs (7) close to the convex cover (8) far from the I-shaped sliding plate (5) tightly abuts against the convex cover (8), and one end of two of said shock absorbing springs (7) far from the convex cover (8) far from the I-shaped sliding plate (5) tightly abuts against the side wall of the shock absorbing runner (2).

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