CN112145805B - A antidetonation gallows structure assembly for electromechanical device installation - Google Patents

Abstract

The invention discloses an anti-seismic support and hanger structure assembly for electromechanical equipment installation, which relates to the technical field of electromechanical equipment installation, and particularly relates to an anti-seismic support and hanger structure assembly for electromechanical equipment installation. This a gallows structure assembly combats earthquake is provided with the installed part, and gliding installed part can be adjusted according to the size of object, makes things convenient for the installation of device and article to easy to assemble.

Description

A antidetonation gallows structure assembly for electromechanical device installation

Technical Field

The invention relates to the technical field of electromechanical equipment installation, in particular to an anti-seismic support and hanger structure assembly for electromechanical equipment installation.

Background

Earthquake damage can cause damage to structures such as walls, beams, columns, etc. of houses; damage to non-structural components such as building electromechanical installations, water pipes, air ducts, cable trays, etc. can also result. Particularly, after the earthquake, the longitudinal stretching and the breaking of the pipeline in the electromechanical system cause flood disasters, which brings great loss to the lives and industries of the public. Therefore, the design of "earthquake resistance" is indispensable in the construction field.

The existing electromechanical equipment has no anti-seismic structure in the installation and use process, so that the connecting piece is easy to loosen when an earthquake occurs, and the motor is damaged smoothly or even rolls.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an anti-seismic support and hanger structure assembly for electromechanical equipment installation, which solves the problems that the existing electromechanical equipment is not provided with an anti-seismic structure in the installation and use process, so that a connecting piece is easy to loosen when an earthquake occurs, and the electromechanical is smooth and even rolls, and the common motor anti-seismic structure has poor anti-seismic effect and is troublesome to install.

In order to achieve the purpose, the invention is realized by the following technical scheme: an anti-seismic support and hanger structure assembly for electromechanical equipment installation comprises a main connecting body and a sliding body limiting bolt, wherein the outer surface of the main connecting body is connected with a first connecting piece, a first hook threaded body is arranged inside the first connecting piece, one side end face of the first hook threaded body is connected with a first fixing body, one side end face of the first fixing body is connected with an anti-seismic rod, one side end face of the anti-seismic rod is connected with a rod sliding sleeve, a second connecting piece is connected above the rod sliding sleeve, a second hook threaded body is connected inside the second connecting piece, one side end face of the second hook threaded body is connected with a second fixing body, a beam sliding body is connected above the second fixing body, a beam limiting bolt is connected inside the beam sliding body, the outer surface of the beam sliding body is connected with a beam slideway, and a beam body is fixed on the outer surface of the beam slideway, the crossbeam through hole has been seted up at the top of the crossbeam body, and the surface of the crossbeam body is provided with the splice, the external fixed surface of splice has the reinforcement body, and a side end face of splice is connected with perpendicular roof beam, a side end face of total connector is connected with the connecting rod, and a side end face of connecting rod is connected with the connecting sleeve body, the internal surface of the connecting sleeve body is connected with the centre gripping roof beam, and the top of centre gripping roof beam has seted up the regulation hole, the inside of regulation hole is provided with the through threaded pole, the below of centre gripping roof beam is provided with a supporting beam, and two portions all are provided with the sliding tray at the bottom of a supporting beam, the internal connection of sliding tray has the sliding body, and the top of sliding body is fixed with the installed part, sliding body limit bolt is located the inside of sliding body.

Optionally, the first hook screw body is of a hook-shaped structure, the first hook screw body penetrates through the inside of the first connecting piece, and the first connecting piece and the main connecting piece are welded together.

Optionally, be swing joint between first crotch screw thread body and the first fixed body, and be the welding between first fixed body and the antidetonation pole, and the antidetonation pole is triangular distribution about the outside of total connector, and the antidetonation pole is provided with three simultaneously.

Optionally, a sliding structure is formed between the rod sliding sleeve and the anti-seismic rod, the rod sliding sleeve and the second connecting member are welded, the second hook screw body penetrates through the inside of the second connecting member, and the second hook screw body is of a hook-shaped structure.

Optionally, the second hook threaded body is movably connected with the second fixing body, the second fixing body is welded with the beam sliding body, the beam sliding body forms a sliding structure with the cross beam body through the cross beam slideway, and the cross beam sliding body forms a limiting structure with the cross beam body through the cross beam limiting bolt.

Optionally, the splicing piece is of a Z-shaped structure, the reinforcing body is fixedly connected with the splicing piece, and the reinforcing body is of a triangular structure.

Optionally, the vertical beams are perpendicular to the cross beam body, and the cross beam through holes are uniformly distributed on the top surface of the cross beam body.

Optionally, the main connecting body forms a triangular structure with the clamping beam through the connecting rod, and the connecting sleeve body is in threaded connection with the clamping beam.

Optionally, the penetrating threaded rod penetrates through the clamping beam and the supporting beam, and the adjusting holes are uniformly distributed on the inner portion of the supporting beam.

Optionally, the mounting part forms a sliding structure with the support beam through a sliding groove and a sliding body, the sliding groove penetrates through the outer surface of the support beam, and the mounting part forms a limiting structure with the support beam through a sliding body limiting bolt.

The invention provides an anti-seismic support and hanger structure assembly for electromechanical equipment installation, which has the following beneficial effects:

1. the anti-seismic support and hanger structure assembly is provided with a first hook threaded body, and the anti-seismic rod and the main connecting body can be conveniently connected through the first hook threaded body, so that the installation is convenient; the angle of the anti-seismic rod can be conveniently adjusted through the first hook threaded body and the first fixing body which are movably connected, so that the stress effect is improved, the anti-seismic rods which are distributed in a triangular mode can effectively improve the stress stability of the device, and the anti-seismic effect is improved.

2. The anti-seismic support and hanger structure assembly is provided with the rod sliding sleeve, and the second connecting piece can be adjusted in height through the sliding rod sliding sleeve, so that the device can be adjusted as required, and is convenient to install; the cross beam sliding body can move transversely through the sliding cross beam sliding body, so that the transverse distance can be effectively adjusted according to needs, and the use is convenient.

3. The splicing pieces are arranged on the anti-seismic support and hanger structure assembly, the vertical beams and the cross beam bodies can be well connected through the splicing pieces, and the integral strength of the splicing pieces can be effectively improved through the reinforcing bodies, so that the anti-seismic strength is improved; the perpendicular roof beam and the crossbeam body that set up can let the multi-angle multi-structure's that the antidetonation pole formed bearing structure, improve the antidetonation effect, evenly distributed's crossbeam through hole can make things convenient for the installation of the crossbeam body.

4. The anti-seismic support and hanger structure assembly is provided with the connecting rods, the overall stability of the device can be improved through the triangular connecting rods, so that the stress effect is improved, the convenient connection can be improved through the arranged connecting sleeve body, and the mounting efficiency is improved; through the through threaded rod that sets up can carry out spacing fixed to a supporting beam and centre gripping roof beam after the distance between a supporting beam and the centre gripping roof beam is adjusted and is accomplished to easy to assemble improves the centre gripping effect.

5. This a gallows structure assembly combats earthquake is provided with the installed part, can adjust according to the size of object through gliding installed part to make things convenient for the installation between device and the article, thereby easy to assemble.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of a cross beam sliding body, a cross beam limiting bolt, a cross beam slideway and a cross beam body connecting structure of the invention;

FIG. 4 is a schematic view of the cross beam body, splice, and vertical beam connection of the present invention;

FIG. 5 is a perspective view of the splice and reinforcement of the present invention;

fig. 6 is a schematic perspective view of the clamping beam and the adjusting hole of the present invention.

FIG. 7 is an enlarged view of a portion A of FIG. 1 according to the present invention.

In the figure: 1. a main linker; 2. a first connecting member; 3. a first hook thread body; 4. a first fixed body; 5. an anti-seismic rod; 6. a rod sliding sleeve; 7. a second connecting member; 8. a second hook thread body; 9. a second fixed body; 10. a beam slider; 11. a cross beam limit bolt; 12. a cross-beam slideway; 13. a beam body; 14. A beam through hole; 15. splicing pieces; 16. reinforcing the body; 17. erecting a beam; 18. a connecting rod; 19. connecting the sleeve body; 20. clamping the beam; 21. an adjustment hole; 22. penetrating the threaded rod; 23. a support beam; 24. a sliding groove; 25. a sliding body; 26. a mounting member; 27. and a sliding body limiting bolt.

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.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 7, the present invention provides a technical solution: an anti-seismic support and hanger structure assembly for electromechanical equipment installation comprises a main connecting body 1 and a sliding body limiting bolt 27, wherein the outer surface of the main connecting body 1 is connected with a first connecting piece 2, a first hook threaded body 3 is arranged inside the first connecting piece 2, one side end face of the first hook threaded body 3 is connected with a first fixing body 4, one side end face of the first fixing body 4 is connected with an anti-seismic rod 5, one side end face of the anti-seismic rod 5 is connected with a rod sliding sleeve 6, a second connecting piece 7 is connected above the rod sliding sleeve 6, a second hook threaded body 8 is connected inside the second connecting piece 7, one side end face of the second hook threaded body 8 is connected with a second fixing body 9, a crossbeam sliding body 10 is connected above the second fixing body 9, a crossbeam limiting bolt 11 is connected inside the crossbeam sliding body 10, and a crossbeam slideway 12 is connected on the outer surface of the crossbeam sliding body 10, and the outer surface of the crossbeam slideway 12 is fixed with a crossbeam body 13, a crossbeam through hole 14 is formed in the top of the crossbeam body 13, a splicing piece 15 is arranged on the outer surface of the crossbeam body 13, a reinforcing body 16 is fixed on the outer surface of the splicing piece 15, a vertical beam 17 is connected to one side end surface of the splicing piece 15, a connecting rod 18 is connected to one side end surface of the main connecting body 1, a connecting sleeve body 19 is connected to one side end surface of the connecting rod 18, a clamping beam 20 is connected to the inner surface of the connecting sleeve body 19, an adjusting hole 21 is formed in the top of the clamping beam 20, a through threaded rod 22 is arranged inside the adjusting hole 21, a supporting beam 23 is arranged below the clamping beam 20, sliding grooves 24 are formed in the top and bottom of the supporting beam 23, a sliding body 25 is connected inside the sliding grooves 24, an installation part 26 is fixed above the sliding body 25, and a sliding body limiting bolt 27 is located inside the sliding body 25.

In the invention: the first hook thread body 3 is in a hook-shaped structure, the first hook thread body 3 penetrates through the inside of the first connecting piece 2, and the first connecting piece 2 and the main connecting piece 1 are welded; this antidetonation gallows structure assembly is provided with first crotch screw thread body 3, leads to the first crotch screw thread body 3 that sets up and can make things convenient for the antidetonation pole 5 and be connected between the general connector 1 to easy to assemble.

In the invention: the first hook threaded body 3 is movably connected with the first fixed body 4, the first fixed body 4 is welded with the anti-seismic rods 5, the anti-seismic rods 5 are distributed in a triangular mode relative to the outer side of the main connecting body 1, and three anti-seismic rods 5 are arranged; the angle of the anti-seismic rod 5 can be conveniently adjusted through the movably connected first hook threaded body 3 and the first fixing body 4, so that the stress effect is improved, the anti-seismic rod 5 in triangular distribution can effectively improve the stress stability of the device, and the anti-seismic effect is improved.

In the invention: a sliding structure is formed between the rod sliding sleeve 6 and the anti-seismic rod 5, the rod sliding sleeve 6 and the second connecting piece 7 are welded, the second hook thread body 8 penetrates through the inside of the second connecting piece 7, and meanwhile, the second hook thread body 8 is of a hook-shaped structure; this a gallows structure assembly combats earthquake is provided with pole sliding sleeve 6, can let second connecting piece 7 carry out the altitude mixture control through gliding pole sliding sleeve 6 to let the device adjust as required, and then easy to assemble.

In the invention: the second hook thread body 8 is movably connected with the second fixed body 9, the second fixed body 9 is welded with the cross beam sliding body 10, the cross beam sliding body 10 forms a sliding structure with the cross beam body 13 through a cross beam slideway 12, and the cross beam sliding body 10 forms a limiting structure with the cross beam body 13 through a cross beam limiting bolt 11; the cross beam sliding body 10 can move transversely through the sliding cross beam sliding body 10, so that the transverse distance can be effectively adjusted according to the requirement, and the use is convenient.

In the invention: the splicing pieces 15 are in a Z-shaped structure, the reinforcing bodies 16 are fixedly connected with the splicing pieces 15, and the reinforcing bodies 16 are in a triangular structure; this a gallows structure assembly combats earthquake is provided with splice 15, can let through the splice 15 that sets up erect roof beam 17 and crossbeam body 13 and carry out good connection, and the reinforcement body 16 that sets up can effectively improve splice 15's bulk strength to improve the shock resistance.

In the invention: the vertical beams 17 are vertical to the cross beam body 13, and the cross beam through holes 14 are uniformly distributed relative to the top surface of the cross beam body 13; the vertical beams 17 and the cross beam bodies 13 can enable the anti-seismic rods 5 to form a multi-angle and multi-structure supporting structure, the anti-seismic effect is improved, and the cross beam through holes 14 which are uniformly distributed can facilitate installation of the cross beam bodies 13.

In the invention: the general connecting body 1 forms a triangular structure with the clamping beam 20 through the connecting rod 18, and the connecting sleeve body 19 is in threaded connection with the clamping beam 20; this a gallows structure assembly combats earthquake is provided with connecting rod 18, can improve the overall stability of device through the connecting rod 18 that constitutes triangle-shaped to improve the atress effect, can improve convenient the connection through the connecting sleeve body 19 that sets up, thereby improve the installation effectiveness.

In the invention: the penetrating threaded rods 22 penetrate through the clamping beam 20 and the supporting beam 23, and the adjusting holes 21 are uniformly distributed on the inner part of the supporting beam 23; through the through threaded rod 22 that sets up can carry out spacing fixed to supporting beam 23 and centre gripping roof beam 20 after the distance between supporting beam 23 and the centre gripping roof beam 20 is adjusted to easy to assemble improves the centre gripping effect.

In the invention: the mounting piece 26 forms a sliding structure through the sliding groove 24 and the sliding body 25 and the supporting beam 23, the sliding groove 24 penetrates through the outer surface of the supporting beam 23, and the mounting piece 26 forms a limiting structure through the sliding body limiting bolt 27 and the supporting beam 23; this antidetonation gallows structure assembly is provided with installed part 26, can adjust according to the size of object through gliding installed part 26 to make things convenient for the installation between device and the article, thereby easy to assemble.

In summary, when the earthquake-proof support and hanger structure assembly is used, firstly, the vertical beam 17 is connected with the cross beam body 13, the vertical beam 17 and the cross beam body 13 are connected through the splicing piece 15 in a splicing and threaded manner, at the moment, the reinforcing body 16 fixedly connected with the splicing piece 15 enhances the strength of the splicing piece 15, then, the mounting piece 26 is adjusted, acting force is applied to the mounting piece 26, so that the mounting piece 26 slides in the sliding groove 24 fixedly connected with the supporting beam 23 through the fixedly connected sliding body 25 under the action of the acting force, then, a rotating force is applied to the sliding body limiting bolt 27, the sliding body limiting bolt 27 is in threaded connection with the sliding body 25, the rotating sliding body limiting bolt 27 moves downwards to generate pressure to limit the sliding body 25, then, the height of the clamping beam 20 is adjusted, after the adjustment is finished, the threaded rod 22 is inserted into the adjusting hole 21, and then, the nut is used for limiting and clamping, then the connecting sleeve body 19 is connected with the clamping beam 20 through bolts, when acting force is applied, the stability of the device is improved through the connecting rod 18 welded with the main connecting body 1 and the connecting sleeve body 19, then the first hook thread body 3 enters the interior of the first connecting piece 2, and is limited and fixed through nuts, so that the main connecting body 1 is connected with the first hook thread body 3 through the welded first connecting piece 2, the first fixing body 4 is movably connected with the first hook thread body 3, so that the first fixing body 4 is connected, the anti-seismic rod 5 is welded with the first fixing body 4, the anti-seismic rod 5 is connected with the main connecting body 1, then the rod sliding sleeve 6 is adjusted, acting force is applied to the rod sliding sleeve 6, so that the rod sliding sleeve 6 slides on the surface of the anti-seismic rod 5 under the action, the second fixing body 9 is welded with the rod sliding sleeve 6, and the second fixing body 9 moves, second crotch threaded body 8 and second fixed body 9 swing joint, second crotch threaded body 8 removes, carry out spacing fixed to it through the screw thread after that, let the second crotch threaded body 8 that finishes of removing get into inside second connecting piece 7 after that, and carry out spacing fixed through the nut, adjust crossbeam gliding mass 10 after that, exert the effort to crossbeam gliding mass 10, crossbeam gliding mass 10 slides on crossbeam body 13 surface through crossbeam slide 12, it is spacing to exert pressure to crossbeam gliding mass 10 through exerting the revolving force to crossbeam spacing bolt 11 after that, so accomplish the installation of antidetonation pole 5, let crossbeam through hole 14 install fixed second fixed body 9 through crossbeam through hole 14 best.

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 able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (7)

1. The utility model provides a antidetonation props up gallows structure assembly for electromechanical device installation, includes total connector (1) and gliding mass spacing bolt (27), its characterized in that: the outer surface of the general connecting body (1) is connected with a first connecting piece (2), a first hook threaded body (3) is arranged inside the first connecting piece (2), one side end face of the first hook threaded body (3) is connected with a first fixing body (4), one side end face of the first fixing body (4) is connected with an anti-seismic rod (5), one side end face of the anti-seismic rod (5) is connected with a rod sliding sleeve (6), a second connecting piece (7) is connected above the rod sliding sleeve (6), a second hook threaded body (8) is connected inside the second connecting piece (7), one side end face of the second hook threaded body (8) is connected with a second fixing body (9), a sliding structure is formed between the rod sliding sleeve (6) and the anti-seismic rod (5), the rod sliding sleeve (6) and the second connecting piece (7) are welded, and the second hook threaded body (8) penetrates through the inside the second connecting piece (7), meanwhile, the second hook threaded body (8) is of a hook-shaped structure, a beam sliding body (10) is connected above the second fixed body (9), a beam limiting bolt (11) is connected inside the beam sliding body (10), a beam sliding way (12) is connected to the outer surface of the beam sliding body (10), a beam body (13) is fixed to the outer surface of the beam sliding way (12), the second hook threaded body (8) is movably connected with the second fixed body (9), the second fixed body (9) is welded with the beam sliding body (10), the beam sliding body (10) forms a sliding structure through the beam sliding way (12) and the beam body (13), the beam sliding body (10) forms a limiting structure through the beam limiting bolt (11) and the beam body (13), a beam through hole (14) is formed in the top of the beam body (13), and a splicing piece (15) is arranged on the outer surface of the beam body (13), the outer surface of the splicing part (15) is fixed with a reinforcing body (16), one side end face of the splicing part (15) is connected with a vertical beam (17), one side end face of the main connecting body (1) is connected with a connecting rod (18), one side end face of the connecting rod (18) is connected with a connecting sleeve body (19), the inner surface of the connecting sleeve body (19) is connected with a clamping beam (20), the top of the clamping beam (20) is provided with an adjusting hole (21), the main connecting body (1) forms a triangular structure through the connecting rod (18) and the clamping beam (20), the connecting sleeve body (19) is in threaded connection with the clamping beam (20), a penetrating threaded rod (22) is arranged inside the adjusting hole (21), a supporting beam (23) is arranged below the clamping beam (20), and sliding grooves (24) are formed in the top and the bottom of the supporting beam (23), the inside of sliding groove (24) is connected with slider (25), and slider (25)'s top is fixed with installed part (26), slider spacing bolt (27) are located the inside of slider (25).

2. An anti-seismic support and hanger structural assembly for installation of electromechanical equipment according to claim 1, wherein: the first hook thread body (3) is of a hook-shaped structure, the first hook thread body (3) penetrates through the interior of the first connecting piece (2), and the first connecting piece (2) and the main connecting body (1) are welded.

3. An anti-seismic support and hanger structural assembly for installation of electromechanical equipment according to claim 1, wherein: be swing joint between first crotch threaded body (3) and the first fixed body (4), and be the welding between first fixed body (4) and antidetonation pole (5) to antidetonation pole (5) are triangular distribution about the outside of total connector (1), and antidetonation pole (5) are provided with three simultaneously.

4. An anti-seismic support and hanger structural assembly for installation of electromechanical equipment according to claim 1, wherein: the splicing pieces (15) are of Z-shaped structures, the reinforcing bodies (16) are fixedly connected with the splicing pieces (15), and the reinforcing bodies (16) are of triangular structures.

5. An anti-seismic support and hanger structural assembly for installation of electromechanical equipment according to claim 1, wherein: the vertical beams (17) are perpendicular to the cross beam body (13), and the cross beam through holes (14) are uniformly distributed on the top surface of the cross beam body (13).

6. An anti-seismic support and hanger structural assembly for installation of electromechanical equipment according to claim 1, wherein: the penetrating threaded rods (22) penetrate through the clamping beam (20) and the supporting beam (23), and the adjusting holes (21) are uniformly distributed in relation to the supporting beam (23).

7. An anti-seismic support and hanger structural assembly for installation of electromechanical equipment according to claim 1, wherein: the mounting piece (26) forms a sliding structure with the support beam (23) through the sliding groove (24) and the sliding body (25), the sliding groove (24) penetrates through the outer surface of the support beam (23), and the mounting piece (26) forms a limiting structure with the support beam (23) through the sliding body limiting bolt (27).

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