CN217631480U - Supporting device for building earthquake resistance - Google Patents

Abstract

The utility model discloses a supporting device for building earthquake resistance, which belongs to the technical field of building support and comprises four L-shaped plates, wherein two placing grooves are arranged on the L-shaped plates, the placing grooves on two adjacent L-shaped plates are symmetrical, a plurality of reinforcing plates are arranged between the placing grooves on two adjacent L-shaped plates in a sliding way, and a plurality of connecting holes are uniformly arranged on the L-shaped plates; through setting up four L shaped plates, make four L shaped plates can block in four corners of building girder, utilize the standing groove of seting up on the L shaped plate, recycle the reinforcing plate that sets up between two relative standing grooves, make four L shaped plates and a plurality of reinforcing plate can form a closed ring cover on building girder, then fix a plurality of reinforcing plates and L shaped plate through fixing bolt, make the laminating that the device can be inseparable at building girder's outer wall, increase building girder's resistance to compression shock-proof ability, prevent building girder distortion or fracture, the anti-seismic effect of building has been improved.

Description

Supporting device for building earthquake resistance

Technical Field

The utility model belongs to the technical field of the building is supported, concretely relates to strutting arrangement is used in building antidetonation.

Background

Earthquake disasters are mainly caused by the damage of engineering structures. Therefore, strengthening the earthquake fortification of the engineering structure and improving the earthquake resistance of the existing engineering structure are one of the important measures for lightening earthquake disasters, and the existing engineering structure has larger difference of earthquake resistance due to different construction times, different design specifications and different structural forms. Especially, the structure with a long history often does not consider earthquake fortification, and simultaneously, the earthquake-resistant effect is poor after long-time erosion, so that the supporting device for building earthquake resistance is needed to reinforce and support a building and improve the earthquake-resistant effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a strutting arrangement for building antidetonation to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a strutting arrangement for building antidetonation, includes four L shaped plates, two standing grooves have been seted up on the L shaped plate, and adjacent two standing groove on the L shaped plate is symmetrical, adjacent two it is provided with a plurality of reinforcing plates to slide between the standing groove on the L shaped plate, even a plurality of connecting holes have been seted up on the L shaped plate, and is a plurality of the connecting hole is respectively with two the standing groove is linked together, connecting hole female connection has fixing bolt, fixing bolt runs through the reinforcing plate, it is a plurality of spread grooves, and is a plurality of to have seted up in the standing groove fixing bolt's one end respectively with a plurality of spread groove threaded connection.

As a preferred embodiment, a plurality of accommodating grooves are further formed in the L-shaped plate, and one ends of the fixing bolts, which are far away from the connecting groove, are respectively located in the accommodating grooves.

In a preferred embodiment, the four L-shaped plates and the plurality of reinforcing plates are aligned on opposite sides, and anti-skid grains are formed on opposite sides of the four L-shaped plates and the plurality of reinforcing plates.

As a preferred embodiment, a plurality of reinforcing plates are all provided with a fixing groove, a fixing hole is formed in the fixing groove, the fixing groove on the plurality of reinforcing plates is internally provided with the same fixing plate, one end of the fixing plate is provided with a fixing block, and the fixing block is clamped in the fixing groove on the reinforcing plate positioned at the topmost end.

As a preferred embodiment, a plurality of first pouring holes are formed in each of the plurality of reinforcing plates, a plurality of second pouring holes are formed in each of the plurality of fixing plates, and the plurality of first pouring holes are respectively communicated with the plurality of second pouring holes.

As a preferable embodiment, one end of the L-shaped plate is provided with a connecting block, the length and width of the connecting block is slightly smaller than the length and width of the placing groove, the connecting block is provided with a mounting hole, and the fixing bolt can penetrate through the mounting hole.

Compared with the prior art, the beneficial effects of the utility model are that:

according to the supporting device for building earthquake resistance, the four L-shaped plates can be clamped at four corners of a building girder, the placing grooves formed in the L-shaped plates are utilized, the reinforcing plates arranged between the two opposite placing grooves are utilized, the four L-shaped plates and the reinforcing plates can form a closed ring sleeve on the building girder, and then the reinforcing plates and the L-shaped plates are fixed through the fixing bolts, so that the supporting device can be tightly attached to the outer wall of the building girder, the pressure resistance and earthquake resistance of the building girder are improved, the building girder is prevented from being twisted or broken, and the earthquake resistance effect of a building is improved;

this strutting arrangement for building antidetonation is through setting up the fixed plate, utilize being connected between fixed plate and the fixed orifices, make the fixed plate can form a plurality of grids with a plurality of reinforcing plates that are located the one side, improve the device's resistance to compression antitorque ability, utilize the first hole of pouring and the second of pouring of seting up on reinforcing plate and the fixed plate to pour the hole, behind the device outside picture cement, cement can fill first hole of pouring and the second of pouring and pour the hole after with the building girder contact, can improve the device and the stability of building girder connection.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional structural view of the L-shaped plate of the present invention;

fig. 3 is a schematic structural view of the fixing plate of the present invention;

FIG. 4 is a schematic structural view of the reinforcing plate of the present invention;

fig. 5 is a schematic structural view of the present invention in use.

In the figure: 1. an L-shaped plate; 2. a placement groove; 3. a reinforcing plate; 4. connecting holes; 5. fixing the bolt; 6. connecting grooves; 7. a receiving groove; 8. a fixing groove; 9. a fixing hole; 10. a fixing plate; 11. a fixed block; 12. a first casting hole; 13. a second pouring hole; 14. connecting blocks; 15. and (7) mounting holes.

Detailed Description

In the first embodiment, referring to fig. 1-5, the present invention provides a supporting device for earthquake resistance of a building, which comprises four L-shaped plates 1, two placing grooves 2 are formed on the L-shaped plates 1, the placing grooves 2 on two adjacent L-shaped plates 1 are symmetrical, a plurality of reinforcing plates 3 are slidably disposed between the placing grooves 2 on two adjacent L-shaped plates 1, a plurality of connecting holes 4 are uniformly formed on the L-shaped plates 1, the connecting holes 4 are respectively communicated with the two placing grooves 2, fixing bolts 5 are threadedly connected to the connecting holes 4, the fixing bolts 5 penetrate through the reinforcing plates 3, a plurality of connecting grooves 6 are formed in the placing grooves 2, one ends of the fixing bolts 5 are respectively threadedly connected to the connecting grooves 6, the four L-shaped plates 1 are clamped at four corners of a building girder, and then the reinforcing plates 3 are slid into the two opposite placing grooves 2 from the top ends of the placing grooves 2, the holes on the reinforcing plates 3 can be aligned with the connecting holes 4 on the L-shaped plates 1, then the fixing bolts 5 are rotated to be connected with the connecting grooves 6 in a threaded manner after penetrating through the holes on the reinforcing plates 3, and further, the reinforcing plates 3 can be uniformly distributed on the L-shaped plates 1, so that the stress uniformity of the reinforcing plates is improved, one opposite side surfaces of the four L-shaped plates 1 and the reinforcing plates 3 are aligned, after the four L-shaped plates 1 and the reinforcing plates 3 are connected, the four L-shaped plates 1 and the reinforcing plates 3 can be in close contact with a building girder, anti-slip grains are arranged on one opposite side surfaces of the four L-shaped plates 1 and the reinforcing plates 3, the friction force between the four L-shaped plates 1 and the reinforcing plates 3 and the building girder can be increased through the arrangement of the anti-slip grains, the device can be prevented from being displaced due to vibration, the stability of the device is improved, a plurality of girder accommodating grooves 7 are also formed in the L-shaped plates 1, one end, far away from connecting groove 6, of each fixing bolt 5 is located in a containing groove 7, the four L-shaped plates 1 are connected with the reinforcing plates 3, the fixing bolts 5 are in a screwing state at the moment, one end of each fixing bolt 5 can be hidden in the containing grooves 7, when the reinforced building girder is required to be painted, the device can be completely hidden in paint, and attractiveness is improved.

Embodiment two, on the basis of embodiment one, fixed slot 8 has all been seted up on a plurality of reinforcing plates 3, fixed slot 9 has been seted up in fixed slot 8, be provided with same fixed plate 10 in the fixed slot 8 on a plurality of reinforcing plates 3, the one end of fixed plate 10 is provided with fixed block 11, fixed block 11 joint is in being located the fixed slot 8 on the reinforcing plate 3 at topmost, wherein set up fixed slot 8 and fixed hole 9 on same reinforcing plate 3 and be a plurality ofly, fixed plate 10 has all been pegged graft in the fixed slot 9 that aligns on a plurality of reinforcing plates 3, and the side of fixed plate 10 and the internal face laminating of fixed hole 9, can prevent that fixed plate 10 from rocking, stability is improved, a plurality of fixed plates 10 and a plurality of reinforcing plates 3 are crisscross perpendicularly, can form a plurality of nets with the reinforcing plate 3 that are located the same face, the compressive capacity of device improves, all seted up a plurality of first pouring hole 12 on a plurality of reinforcing plates 3, all seted up a plurality of second pouring hole 13 on a plurality of fixed plates 10, a plurality of first pouring hole 12 are linked together with a plurality of second pouring hole 13 respectively, with this device installation completion, need to brush the device or pour the building coating after this device and can pour as the building of the grinding of the roof beam, thereby can pour the building device, this external roof, this roof, it is whole to pour the roof beam, building device, thereby can pour the roof beam, building device is filled up as building device and pour the building device, this roof beam, building device, building roof beam is the building device is even.

Third embodiment, on the basis of first embodiment, the one end of L shaped plate 1 is provided with connecting block 14, the length and width size of connecting block 14 slightly is less than the length and width size of standing groove 2, mounting hole 15 has been seted up on connecting block 14, fixing bolt 5 can run through mounting hole 15, when needing to consolidate the girder height of support higher, can pile together a plurality of L shaped plates 1 and improve the whole height of device, peg graft connecting block 14 on the L shaped plate 1 that will be located the top in standing groove 2 that is located below L shaped plate 1, wherein the side of connecting block 14 can contact with 2 internal face of standing groove, prevent that connecting block 14 from rocking, through fixing bolt 5 and connecting hole 4, cooperation between connecting groove 6 and the mounting hole 15, connecting block 14 that will be located above L shaped plate 1 is as an organic whole with the L shaped plate 1 that is located the below.

When the device is used, firstly, four L-shaped plates 1 are clamped at four corners of a building girder, then reinforcing plates 3 are placed in a placing groove 2, holes in the reinforcing plates 3 are aligned with connecting holes 4 in the L-shaped plates 1, then the reinforcing plates 3 are fixed on the L-shaped plates 1 through matching of fixing bolts 5, the fixing plates 10 are inserted from fixing holes 9 in the uppermost reinforcing plates 3, the fixing plates 10 can be inserted into the fixing holes 9 in the reinforcing plates 3, then fixing blocks 11 are clamped in the fixing holes 9 in the uppermost reinforcing plates 3 to complete assembly, when heightening is needed, connecting blocks 14 in new L-shaped plates 1 are inserted into the placing grooves 2 in the original fixed L-shaped plates 1, then the fixing plates are connected with the original fixed L-shaped plates 1 into a whole through the fixing bolts 5, then the new reinforcing plates 3 and the fixing plates 10 are connected onto the new L-shaped plates 1 through the process, then the device is externally brushed with paint or cement, the paint or the cement can be used for plugging the first pouring holes 12 and the second pouring holes 13, and the building girder are connected into a whole.

Claims (6)

1. The utility model provides a strutting arrangement for building antidetonation which characterized in that: including four L shaped plate (1), two standing groove (2) have been seted up on L shaped plate (1), and adjacent two standing groove (2) on L shaped plate (1) are symmetrical, adjacent two it is provided with a plurality of reinforcing plate (3) to slide between standing groove (2) on L shaped plate (1), even a plurality of connecting hole (4) have been seted up on L shaped plate (1), and are a plurality of connecting hole (4) are respectively with two standing groove (2) are linked together, connecting hole (4) female connection has fixing bolt (5), fixing bolt (5) run through reinforcing plate (3), seted up a plurality of spread groove (6) in standing groove (2), it is a plurality of the one end of fixing bolt (5) is respectively with a plurality of spread groove (6) threaded connection.

2. A support device for earthquake resistance of buildings according to claim 1, wherein: the L-shaped plate (1) is provided with a plurality of accommodating grooves (7) which are respectively communicated with the fixing bolts (5) and the connecting grooves (6) at one ends respectively positioned in the accommodating grooves (7).

3. A supporting device for earthquake resistance of buildings according to claim 1, characterized in that: four L shaped plate (1) and a plurality of the relative side of reinforcing plate (3) is aligned, and its four anti-skidding line has all been seted up on L shaped plate (1) and a plurality of the relative side of reinforcing plate (3).

4. A supporting device for earthquake resistance of buildings according to claim 1, characterized in that: it is a plurality of fixed slot (8) have all been seted up on reinforcing plate (3), fixed orifices (9) have been seted up in fixed slot (8), and are a plurality of on reinforcing plate (3) be provided with same fixed plate (10) in fixed slot (8), the one end of fixed plate (10) is provided with fixed block (11), fixed block (11) joint is being located topmost on reinforcing plate (3) in fixed slot (8).

5. A supporting device for earthquake resistance of buildings according to claim 4, characterized in that: a plurality of first pouring holes (12) are formed in the reinforcing plates (3), a plurality of second pouring holes (13) are formed in the fixing plates (10), and the first pouring holes (12) are communicated with the second pouring holes (13) respectively.

6. A supporting device for earthquake resistance of buildings according to claim 1, characterized in that: one end of the L-shaped plate (1) is provided with a connecting block (14), the length and width of the connecting block (14) is slightly smaller than that of the placing groove (2), a mounting hole (15) is formed in the connecting block (14), and the fixing bolt (5) can penetrate through the mounting hole (15).

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