CN220749281U - Anti-seismic support and hanger based on BIM technology - Google Patents

Abstract

The utility model discloses an anti-seismic support and hanger based on BIM technology, which relates to the technical field of anti-seismic support and hanger, and comprises a first connecting plate and a second connecting plate, wherein one end of the first connecting plate is penetrated with a hinge shaft, the second connecting plate is rotationally connected with the first connecting plate through the hinge shaft, a locking assembly is arranged between the first connecting plate and the second connecting plate, the top of the first connecting plate is detachably connected with a hanging rod, both sides of the first connecting plate are hinged with an inclined supporting rod, and the bottoms of the first connecting plate and the second connecting plate are respectively provided with a pipe hoop assembly. This antidetonation gallows based on B I M technique is through setting up jib and two diagonal bracing bars, can bear the not equidirectional power that produces when the earthquake, and reinforcing gallows's antidetonation performance, first connecting plate and second connecting plate rotate to be connected, and first connecting plate and second connecting plate bottom all are equipped with the ferrule subassembly, can realize the support to different bending angle return bends, prevent that the return bend from breaking when receiving the impact force.

Description

Anti-seismic support and hanger based on BIM technology

Technical Field

The utility model relates to the technical field of anti-seismic support and hanger, in particular to an anti-seismic support and hanger based on BIM technology.

Background

The support and hanger is mainly used for steam-water pipelines or boiler equipment of a power plant and equipment devices for generating thermal displacement in operation. And calculating and determining the working and thermal displacement requirements of the spring support and hanger according to the stress condition of the pipeline. In the pipeline installation process, people can add the anti-seismic support and hanger for the pipeline to reduce the influence on the pipeline in the earthquake, generally the hanger is fixed on a wall body first, and then the pipeline is fixed on the anti-seismic support and hanger by using a clamp.

The Chinese patent with publication number of CN216158468U, named as anti-seismic support and hanger structure of electromechanical pipeline based on BIM, comprises a hanging rod, an upper cross arm, a lower cross arm, an inclined support and a side support; the two suspenders are connected with the building structure through expansion bolts at one end of the two suspenders; the upper cross arm and the lower cross arm are parallel to each other and are respectively connected with the hanging rod, and a space for installing an air pipe is formed between the upper cross arm and the lower cross arm; the two side supports are respectively arranged on the same side of the upper cross arm, one end of the side supports is connected with the suspender through an anti-seismic hinge, and the other end of the side supports is connected with the building structure; the inclined support is arranged at one end of the upper cross arm, one end of the inclined support is connected with the suspender through an anti-seismic hinge, and the other end of the inclined support is connected with the building structure; the reinforcing device is sleeved outside the suspender above the upper cross arm, and a compression bolt which is abutted on the suspender is arranged on the reinforcing device; an additional cross arm is arranged above the upper cross arm between the two hanging rods, a convex sliding groove is formed in the side wall of the additional cross arm, a convex slot corresponding to the sliding groove is formed in the side wall of the reinforcing device, a locking rod is arranged in the sliding groove in a sliding mode, and the locking rod can be inserted into the slot.

The anti-seismic support and hanger structure of the electromechanical pipeline based on BIM in the patent is practical and convenient, but has the defects that the bent pipe is easier to break when being subjected to impact force caused by earthquake compared with a straight pipe, and the device needs to be provided with a plurality of bent pipes when encountering the bent pipe, so that the support of the bent pipe with different bending angles can be adapted, and the anti-seismic support and hanger structure is high in cost and complex in installation.

Disclosure of Invention

The utility model aims to provide an anti-seismic support and hanger based on BIM technology, which aims to solve the defects in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions: this antidetonation gallows based on BIM technique, including first connecting plate and second connecting plate, a hinge is worn to establish by the one end of first connecting plate, the second connecting plate is rotated through hinge and first connecting plate and is connected, be equipped with first locking subassembly between first connecting plate and the second connecting plate, first connecting plate top detachable is connected with a jib, a diagonal bracing pole is all articulated to first connecting plate both sides, first connecting plate and second connecting plate bottom all are equipped with a ferrule subassembly.

Further, the first locking assembly comprises a first bolt, a threaded hole is formed in the hinge shaft, a plurality of through holes are formed in one end, close to the hinge shaft, of the second connecting plate, and the first bolt can be in threaded connection with the threaded hole through any through hole.

Further, a threaded column is arranged at the top of the first connecting plate, a threaded groove is formed in the bottom of the suspender, and the suspender is in threaded connection with the threaded column through the threaded groove.

Further, a first mounting plate is arranged at the top of the suspender, and a plurality of mounting holes are formed in the first mounting plate.

Further, two the one end that the bracing piece kept away from first connecting plate all articulates a installation piece, the one end that the installation piece kept away from the bracing piece is equal fixed connection second mounting panel, a plurality of mounting holes have been seted up on the second mounting panel.

Further, the pipe hoop assembly comprises two symmetrically arranged hinge seats, two arc clamping plates are hinged in the hinge seats, and a second locking assembly is arranged between the arc clamping plates.

Further, the second locking assembly comprises a second bolt, one end of each of the two arc clamping plates is fixedly connected with a connecting block, and the two connecting blocks are in threaded connection through the second bolt.

Further, the inner side surfaces of the two arc clamping plates are respectively provided with a plurality of springs, and one end of each spring is provided with a rubber pad.

Compared with the prior art, the utility model has the beneficial effects that: this antidetonation gallows based on BIM technique is through setting up jib and two diagonal bracing bars, can bear the not equidirectional power that produces when the earthquake, strengthens the antidetonation performance of gallows, rotates between first connecting plate and the second connecting plate, and first connecting plate and second connecting plate bottom all are equipped with the pipe strap subassembly of centre gripping pipe fitting, can realize the support to different bending angle return bend, prevent that the return bend from breaking when receiving the impact force.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of an overall structure according to an embodiment of the present utility model;

FIG. 2 is a top view of an overall structure provided by an embodiment of the present utility model;

FIG. 3 is a cross-sectional view of A-A provided by an embodiment of the present utility model;

fig. 4 is a schematic view of a pipe clamp assembly according to an embodiment of the present utility model.

Reference numerals illustrate: 1. a first connection plate; 2. a second connecting plate; 3. a hinge shaft; 4. a through hole; 5. a first bolt; 6. a threaded column; 7. a boom; 8. a first mounting plate; 9. a diagonal support bar; 10. a mounting block; 11. a second mounting plate; 12. a hinge base; 13. an arc clamping plate; 14. a spring; 15. a rubber pad; 16. a connecting block; 17. and a second bolt.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1-4, the embodiment of the present utility model provides a technical solution: this antidetonation gallows based on BIM technique, including first connecting plate 1 and second connecting plate 2, a articulated shaft 3 is worn to establish by the one end of first connecting plate 1, and second connecting plate 2 rotates through articulated shaft 3 and first connecting plate 1 to be connected, is equipped with first locking subassembly between first connecting plate 1 and the second connecting plate 2, and first connecting plate 1 top detachable is connected with a jib 7, and first connecting plate 1 both sides all articulate a diagonal bracing piece 9, and first connecting plate 1 and second connecting plate 2 bottom all are equipped with a ferrule subassembly.

As the preferable technical scheme, first locking subassembly includes first bolt 5, offer a screw hole on the articulated shaft 3, a plurality of through-holes 4 have been offered to the one end that second connecting plate 2 is close to articulated shaft 3, first bolt 5 can be through arbitrary through-hole 4 and screw hole threaded connection, specifically, through-hole 4 is circumference array setting, according to the crooked degree of return bend, adjust the angle between second connecting plate 2 and the first connecting plate 1, then realize the fixed to the angle with first bolt 5 screw in screw hole, in order to adapt to the return bend of different bending angles.

As the preferable technical scheme, the top of first connecting plate 1 is equipped with a screw thread post 6, and a thread groove has been seted up to the bottom of jib 7, and jib 7 passes through thread groove and screw thread post 6 threaded connection, through the setting of screw thread post 6, makes things convenient for the dismantlement installation of jib 7, and jib 7 gives the ascending effort of return bend for the lifting return bend.

As the preferred technical scheme, the top of jib 7 is equipped with first mounting panel 8, has seted up a plurality of mounting holes on the first mounting panel 8, and specific mounting hole distributes in the four corners of first mounting panel 8, penetrates the mounting hole with expansion bolts, then drives the wall body with expansion bolts and fixes jib 7 on the wall, conveniently dismantles the installation of device.

As the preferred technical scheme, the one end that first connecting plate 1 was kept away from to two bracing pieces 9 all articulates a installation piece 10, and the equal fixed connection second mounting panel 11 of one end that bracing piece 9 was kept away from to installation piece 10 has seted up a plurality of mounting holes on the second mounting panel 11, and specifically, the mounting hole is circumference array distribution on first mounting panel 8, penetrates the mounting hole with expansion bolts, then drives into the wall body with expansion bolts and fixes two bracing pieces 9 on the wall, and the convenience is dismantled the installation of device, because installation piece 10 articulates on bracing piece 9, can install on the wall that the slope set up.

As the preferable technical scheme, the pipe hoop assembly comprises two hinging seats 12 which are symmetrically arranged, two arc clamping plates 13 are hinged in the two hinging seats 12, a second locking assembly is arranged between the two arc clamping plates 13, specifically, the bent pipe is placed between the two arc clamping plates 13, the two arc clamping plates 13 are closed, and then the two arc clamping plates 13 are fixed through the locking assembly, so that the bent pipe is fixed.

As a preferred technical scheme, the second locking assembly comprises a second bolt 17, one ends of the two arc clamping plates 13 are fixedly connected with a connecting block 16, the two connecting blocks 16 are in threaded connection through the second bolt 17, specifically, a threaded hole is coaxially formed in the two connecting blocks 16, and the second bolt 17 fixes the two arc clamping plates 13 through the two threaded holes, so that clamping of an elbow is achieved, and the elbow is convenient to detach.

As the preferred technical scheme, the medial surface of two arc splint 13 all is equipped with a plurality of springs 14, and the one end of spring 14 is equipped with rubber pad 15, and specifically, rubber pad 15 is the arc, and rubber pad 15 is used for contacting with the return bend surface, has certain cushioning effect moreover, through setting up spring 14 and rubber pad 15, can all-round protection return bend, effectively reduces the return bend and because of the skew that vibrations caused, and the antidetonation is effectual, moreover can be applicable to the return bend of different pipe diameters to a certain extent.

Working principle: this antidetonation gallows based on BIM technique penetrates the mounting hole with expansion bolts, then drives the wall body with expansion bolts and fixes jib 7 and two diagonal bracing bars 9 on the wall, adjusts the rotation angle between first connecting plate 1 and the second connecting plate 2 according to the crooked degree of return bend, through the fixed angle between first connecting plate 1 of first bolt 5 and the second connecting plate 2, then places the pipeline between two arc splint 13, through the fixed two arc splint 13 of second bolt 17, accomplishes the fixed stay to the return bend, can realize the support to different bending angle return bends, prevents that the return bend from breaking when receiving the impact force.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (8)

1. Anti-seismic support and hanger based on BIM technology, characterized in that, including first connecting plate (1) and second connecting plate (2), a hinge (3) is worn to establish by the one end of first connecting plate (1), second connecting plate (2) rotate through hinge (3) and first connecting plate (1) and are connected, be equipped with first locking subassembly between first connecting plate (1) and second connecting plate (2), first connecting plate (1) top detachable is connected with a jib (7), first connecting plate (1) both sides all articulate a diagonal bracing piece (9), first connecting plate (1) and second connecting plate (2) bottom all are equipped with a ferrule subassembly.

2. The anti-seismic support and hanger based on the BIM technology according to claim 1, wherein the first locking component comprises a first bolt (5), a threaded hole is formed in the hinge shaft (3), a plurality of through holes (4) are formed in one end, close to the hinge shaft (3), of the second connecting plate (2), and the first bolt (5) can be in threaded connection with the threaded hole through any one through hole (4).

3. The anti-seismic support and hanger based on BIM technology according to claim 1, wherein a threaded column (6) is arranged at the top of the first connecting plate (1), a threaded groove is formed in the bottom of the hanger rod (7), and the hanger rod (7) is in threaded connection with the threaded column (6) through the threaded groove.

4. A seismic support and hanger based on the BIM technology according to claim 3, wherein the top of the boom (7) is provided with a first mounting plate (8), and a plurality of mounting holes are formed in the first mounting plate (8).

5. The anti-seismic support and hanger based on BIM technology according to claim 1, wherein one end of each diagonal support bar (9) far away from the first connecting plate (1) is hinged with a mounting block (10), one end of each mounting block (10) far away from each diagonal support bar (9) is fixedly connected with a second mounting plate (11), and a plurality of mounting holes are formed in each second mounting plate (11).

6. The anti-seismic support and hanger based on BIM technology according to claim 1, wherein the pipe hoop assembly comprises two symmetrically arranged hinging seats (12), two arc-shaped clamping plates (13) are hinged in the hinging seats (12), and a second locking assembly is arranged between the two arc-shaped clamping plates (13).

7. The anti-seismic support and hanger based on BIM technology according to claim 6, wherein the second locking assembly comprises a second bolt (17), one ends of the two arc clamping plates (13) are fixedly connected with a connecting block (16), and the two connecting blocks (16) are in threaded connection through the second bolt (17).

8. The anti-seismic support and hanger based on BIM technology according to claim 6, wherein a plurality of springs (14) are arranged on the inner side surfaces of the two arc-shaped clamping plates (13), and a rubber pad (15) is arranged at one end of each spring (14).