CN219887667U - H-beam support mechanism for hydrogen energy factory building - Google Patents

Abstract

The utility model discloses a H-beam bracket mechanism of a hydrogen energy factory building, which comprises a support frame and a H-beam clamping mechanism arranged at the top of the support frame; the I-beam clamping mechanism comprises: the device comprises a mounting plate, a pressing plate and a top plate; the top of each pressing plate is provided with a through hole, a long screw is inserted into the through hole, and the long screw is in threaded connection with the mounting plate; two ends of the mounting plate are provided with vertical sliding grooves, a top plate is connected in the sliding grooves in a sliding manner, and the top of the top plate is contacted with the bottom of the pressing plate; the outside of roof is provided with a plurality of horizontally slot, and the roof passes through locking mechanism and is connected with the mounting panel. The utility model can not only enable the pressing plate to be in a horizontal state through the matching use of the pressing plate and the long screw, so that the pressing plate can press the I-shaped steel beam more tightly, the using effect of the device is improved, but also enable the top plate to be adjusted and fixed through the locking mechanism, and the adjusting effect of the device is improved.

Description

H-beam support mechanism for hydrogen energy factory building

Technical Field

The utility model relates to the technical field of I-shaped steel beam installation, in particular to a hydrogen energy factory building I-shaped steel beam support mechanism which can be used as a gas circuit pipeline support mechanism.

Background

Along with the continuous research, development and updating of each key assembly of the hydrogen fuel cell, the demand on production bases is gradually increased, and the steel structure building is used as a novel building structure system, is a feasible building system for a hydrogen energy factory, and mainly comprises steel beams, steel columns, steel trusses and other components made of steel sections, steel plates and the like.

The hydrogen energy factory building can use steel construction to build some building roofs generally, adopts the I-beam in the construction process, just builds the back at the I-beam, needs to use auxiliary stay to support the processing to the I-beam to set up the pipeline support on the I-beam.

The utility model discloses an auxiliary support structure of assembled steel structure building I-beam like chinese patent of publication No. CN216949654U, supports the backup pad through fixed plate and the supporting channel-section steel of backup pad bottom, has improved the auxiliary support effect of this pair of I-beam like girder like steel to better improvement through the link support intensity between two supporting channel-section steel. However, there is still a disadvantage in that the thicknesses of the different i-steels are different, and the existing clamping device has a limited adjustment distance, which results in inconvenience in tightly clamping the i-steels with different thicknesses.

Disclosure of Invention

The utility model aims to provide the H-beam support mechanism for the hydrogen energy factory building based on the defects in the prior art, which is convenient for tightly clamping H-beams with different thicknesses and improves the using effect of the device.

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

the H-beam bracket mechanism for the hydrogen energy factory building comprises a support frame and an H-beam clamping mechanism arranged at the top of the support frame, wherein the support frame comprises two vertical support rods and a transverse connecting rod between the support rods; the top of each supporting rod is connected with one I-shaped steel beam clamping mechanism; each i-beam clamping mechanism includes: the mounting plate is fixedly connected with the top of the supporting rod, the pressing plates are arranged above the two ends of the mounting plate and are parallel to the mounting plate, and the top plate is vertically connected with the mounting plate and the pressing plates; the top of each pressing plate is provided with two through holes, long screws are inserted into the through holes, and the long screws are in threaded connection with the mounting plate; two ends of the mounting plate are respectively provided with a vertical chute, the top plate is connected in a sliding manner in the chute, and the top of the top plate is contacted with the bottom of the pressing plate; the outer side of each top plate is provided with at least 3 horizontal slots with different heights, and the top plate is connected with the mounting plate through a locking mechanism; the locking mechanism includes: the end part of the mounting plate is provided with a through groove corresponding to the direction of the slot, a plugboard inserted into the slot through the through groove, first magnetic blocks arranged on two sides of the plugboard and second magnetic blocks which are arranged on two sides of the through groove and correspond to the first magnetic blocks in an adsorption mode.

Further preferably, pull handles are fixedly connected to the outer sides of the inserting plates.

Further, the long screw is sleeved with the elastic pad, and the elastic pad is contacted with the pressing plate.

Further, the downside fixedly connected with rubber pad of clamp plate, the antiskid line has been seted up to the bottom of rubber pad.

Further, the vertical groove is formed in the stay bar, the wire passing holes are formed in one side of the stay bar, and the bottom of the stay bar is fixedly connected with the fixing plate.

The beneficial effects of the utility model are as follows:

1) Through the cooperation of clamp plate and long screw, through rotating long screw, make long screw drive clamp plate downwardly moving to carry out the centre gripping to the base of I-steel girder through clamp plate and mounting panel, simultaneously, support the clamp plate through the roof, thereby make the clamp plate be in the horizontality, and then make the clamp plate more inseparable to the I-steel girder pressfitting, avoid the thickness of different I-steel not uniform, and current clamping device adjusts the distance limited, leads to being inconvenient for carrying out inseparable centre gripping to the I-steel of different thickness, has improved the result of use of device.

2) Through being equipped with locking mechanism, outwards pulling picture peg makes picture peg and slot break away from the grafting, then upwards pulls roof to suitable position, makes roof top and I-steel beam's thickness flush, then reinserts the picture peg, makes the picture peg graft mutually with one of them slot again to make the roof obtain adjusting fixedly, and then be convenient for follow-up clamp fixing the I-steel beam, improved the regulation effect of device.

3) Through the mutual adsorption fixation of first magnetic path and second magnetic path to make the picture peg obtain adsorption fixation, improved the fixed effect of device.

Drawings

FIG. 1 is a schematic view of the front side of a H-beam support mechanism for a hydrogen energy plant (in service);

FIG. 2 is a schematic view of a partially sectioned structure of a H-beam support mechanism for a hydrogen energy plant in accordance with the present utility model;

FIG. 3 is a schematic view of a partially enlarged structure of a H-beam support mechanism for a hydrogen energy plant in accordance with the present utility model;

fig. 4 is a schematic sectional structure diagram of an installation plate of the h-energy factory building h-beam gas circuit pipeline bracket mechanism.

In the figure: 1. a connecting rod; 2. an I-beam; 3. a support rod; 4. a vertical groove; 5. a wire through hole; 6. a fixing plate; 7. anti-skid lines; 8. a mounting plate; 9. a rubber pad; 10. a pressing plate; 11. a spring pad; 12. a long screw; 13. a slot; 14. a top plate; 15. inserting plate; 16. a pull handle; 17. a first magnetic block; 18. a second magnetic block; 19. and a sliding groove.

Detailed Description

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present utility model, it should be understood that, if any, the terms "upper", "lower", "left", "right", "front", "rear", etc. indicate an orientation or a positional relationship based on the orientation or the positional relationship shown in the drawings, this is for convenience of description and simplification of the description.

Referring to fig. 1-4, a h-beam bracket mechanism for a hydrogen energy factory building comprises a support frame and a h-beam clamping mechanism arranged at the top of the support frame, wherein the support frame comprises two vertical support rods 3 and a transverse connecting rod 1 between the support rods; the top of each support rod 3 is connected with one I-shaped steel beam clamping mechanism.

Each i-beam clamping mechanism includes: the device comprises a mounting plate 8 fixedly connected with the top of the supporting rod 3, pressing plates 10 arranged above two ends of the mounting plate 8 and parallel to the mounting plate 8, and a top plate 14 vertically connected with the mounting plate 8 and the pressing plates 10.

Two through holes are formed in the top of each pressing plate 10, long screws 12 are inserted into the through holes, the long screws 12 are in threaded connection with the mounting plates 8, and the mounting plates 8 are provided with threaded holes; two ends of the mounting plate 8 are respectively provided with a vertical chute 19, the cross section of the chute 19 is rectangular, the chute 19 is connected with the top plate 14 in a sliding way, and the top of the top plate 14 is contacted with the bottom of the pressing plate 10; the outside of each top plate 14 is provided with at least 3 horizontal slots 13 of different heights, in this embodiment each top plate 14 is provided with 5 slots 13, said top plate 14 being connected to the mounting plate 8 by means of a locking mechanism.

The locking mechanism includes: the end of the mounting plate 8 is provided with a through groove (the cross section is rectangular) corresponding to the direction of the slot 13, a plugboard 15 inserted into the slot 13 through the through groove, first magnetic blocks 17 fixedly arranged on two sides of the plugboard 15 through bolts, and second magnetic blocks 18 positioned on two sides of the through groove and corresponding to the first magnetic blocks 17 and adsorbed on the mounting plate 8. The second magnetic block 18 is fixed to the mounting plate 8 by bolts.

In this embodiment, a pull handle 16 is fixed on one side of the insert plate 15 through bolts, and the pull handle 16 is convenient for pulling the insert plate 15.

In this embodiment, the spring pad 11 is sleeved on one side of the long screw 12, and the spring pad 11 contacts with the pressing plate 10, and the spring pad 11 can make the long screw 12 and the mounting plate 8 in threaded connection more tightly, so as to avoid the occurrence of rotation looseness of the long screw 12.

In this embodiment, the downside of clamp plate 10 has all bonded rubber pad 9, and a plurality of anti-skidding lines 7 have been seted up to the bottom of rubber pad 9, and the frictional force between clamp plate 10 and the I-steel beam can be increased to rubber pad 9 and anti-skidding line 7.

In this implementation, perpendicular groove 4 has all been seted up to the inside of two vaulting poles 3, and wire hole 5 has all been seted up to one side of two vaulting poles 3, is convenient for hide the electric wire through wire hole 5 and perpendicular groove 4, and two vaulting poles 3 bottoms all weld fixed plate 6, and fixed plate 6 is convenient for fix vaulting pole 3.

In this embodiment, the welding has connecting rod 1 between two bracing pieces 3, and connecting rod 1 can make two bracing pieces 3 obtain the connection fixedly, improves bracing piece 3's steadiness.

Working principle: when the clamping device is used, the long screws 12 are rotated to enable the long screws 12 to drive the pressing plate 10 to move downwards, so that the bottom edge of the I-beam is clamped through the pressing plate 10 and the mounting plate 8, meanwhile, the pressing plate 10 is supported through the top plate 14, so that the pressing plate 10 is in a horizontal state, the I-beam 2 is pressed tightly, when the I-beam 2 with different thicknesses is required to be clamped, the inserting plate 15 is pulled outwards, the inserting plate 15 is separated from the inserting groove 13, then the top plate 14 is pulled upwards to a proper position, the top of the top plate 14 is flush with the thickness of the I-beam, then the inserting plate 15 is inserted again, the inserting plate 15 is inserted again into one of the inserting grooves 13, so that the top plate 14 is adjusted and fixed, meanwhile, the first magnetic block 17 and the second magnetic block 18 can be mutually adsorbed and fixed according to different poles, so that the inserting plate 15 is adsorbed and fixed, the I-beam is convenient to clamp and fix the I-beam, the thickness of different I-beams is avoided, the thickness of the different I-beams is limited, and the existing clamping device is limited in adjusting distance, so that the I-beam with different thicknesses is inconvenient to be clamped tightly.

In the description herein, it should be noted that the terms "coupled," "connected," and "connected," should be construed broadly, and may be either permanently connected, detachably connected, or integrally connected, for example, unless otherwise specifically indicated and defined; either mechanically or electrically, or directly.

Claims (5)

1. The utility model provides a hydrogen energy factory building I-shaped steel girder support mechanism, includes the support frame and establishes I-shaped steel girder clamping mechanism at the support frame top, its characterized in that:

the support frame comprises two vertical support rods (3) and a transverse connecting rod (1) between the support rods; the top of each supporting rod (3) is connected with one I-shaped steel beam clamping mechanism;

each i-beam clamping mechanism includes: the mounting plate (8) is fixedly connected with the top of the supporting rod (3), the pressing plates (10) are arranged above the two ends of the mounting plate (8) and are parallel to the mounting plate (8), and the top plate (14) is vertically connected with the mounting plate (8) and the pressing plates (10);

two through holes are formed in the top of each pressing plate (10), long screws (12) are inserted into the through holes, and the long screws (12) are in threaded connection with the mounting plates (8); two ends of the mounting plate (8) are respectively provided with a vertical chute (19), the chute (19) is connected with the top plate (14) in a sliding way, and the top of the top plate (14) is contacted with the bottom of the pressing plate (10); the outer side of each top plate (14) is provided with at least 3 horizontal slots (13) with different heights, and the top plates (14) are connected with the mounting plate (8) through locking mechanisms;

the locking mechanism includes: the end part of the mounting plate (8) is provided with a through groove corresponding to the direction of the slot (13), a plugboard (15) inserted into the slot (13) through the through groove, first magnetic blocks (17) arranged on two sides of the plugboard (15) and second magnetic blocks (18) which are arranged on two sides of the through groove and are adsorbed corresponding to the first magnetic blocks (17) on the mounting plate (8).

2. The h-energy factory building i-beam support mechanism of claim 1, wherein pull handles (16) are fixedly connected to the outer sides of the insertion plates (15).

3. The h-energy factory building i-beam support mechanism of claim 1, wherein said long screw (12) is sleeved with a spring pad (11), and said spring pad (11) is in contact with a pressure plate (10).

4. The h-energy factory building i-beam support mechanism according to claim 1, wherein a rubber pad (9) is fixedly connected to the lower side of the pressing plate (10), and anti-skid patterns (7) are formed in the bottom of the rubber pad (9).

5. The h-energy factory building i-beam support mechanism according to claim 1, wherein vertical grooves (4) are formed in the supporting rods (3), wire passing holes (5) are formed in one sides of the supporting rods (3), and fixing plates (6) are fixedly connected to the bottoms of the supporting rods (3).