CN219170847U - Steel construction engineering component rotating device - Google Patents

Abstract

The utility model discloses a steel structure engineering component rotating device, which belongs to the technical field of steel component rotation and comprises a top plate, wherein a transverse plate is fixedly arranged on the lower surface of the top plate, a turntable is rotatably connected to the lower surface of the transverse plate, a vertical rod is fixedly arranged on the lower surface of the turntable, one end of the vertical rod is rotatably connected with a concave plate, a clamping plate is slidably connected in the concave plate, an anti-slip pad is fixedly arranged on the inner side of the clamping plate, sliding grooves are formed in the inner sides of the concave plate and the clamping plate, a connecting rod I and a connecting rod II are hinged to the outer sides of the sliding blocks respectively, a first motor is started to drive the anti-slip pad to be slowly attached to the steel component, the steel component is fixed, a third motor is started to drive a bevel gear I on a turning rod to rotate, the steel component arranged at the bottom of the rotating rod is driven to rotate, the steel component with different sizes can be stably rotated, a worker can conveniently process the steel component, the second motor is started to drive the gear to rotate, the concave plate is driven to tilt at an angle, and the working efficiency of the worker is improved.

Description

Steel construction engineering component rotating device

Technical Field

The utility model relates to a steel member, in particular to a steel structure engineering member rotating device, and belongs to the technical field of steel member rotation.

Background

The steel structure is one of the main building structure types, the steel structure is mainly composed of steel beams, steel columns, steel trusses and other components made of steel sections, steel plates and the like, the components or parts are usually connected by adopting welding seams, bolts or rivets, the steel structure is one of the main building structure types, and steel structure engineering components are often required to be rotated to be assembled in a matching way in the construction or use process, so that a steel structure engineering component rotating device is required.

The utility model discloses a steel structure engineering component rotating device, (grant publication No. CN 212832333U), which has the following advantages that the utility model provides a steel structure engineering component rotating device, and the steel structure engineering component rotating device comprises a movable connecting rod, wherein the outer wall of the movable connecting rod is in threaded connection with a fixed connecting shaft, the bottom of the movable connecting rod is in threaded connection with a threaded cap, the bottom of the fixed connecting shaft is fixedly connected with a fixed block, the top of the movable connecting rod is fixedly provided with a connecting rod, the top of the connecting rod is fixedly provided with a fixed connecting plate, and the top of the fixed connecting plate is fixedly provided with a side supporting rod. Through the connecting handle of design, when the long-term use of rubber lasso has wearing and tearing, hold the connecting handle of rubber lasso one side fixed connection this moment, then outwards pulling connecting handle for rubber lasso is taken out, and when rubber lasso was taken out, make rubber lasso change, thereby be convenient for change, solved the problem of changing.

However, when the technology is used, the steel member is built and suspended through the fixing rope and the steel wire, when the steel member with multiple sizes is required to be processed, the technology can be very forceful, and when the steel member with relatively heavy weight is rotated, the steel member suspended in the air can swing, so that the fixing is incomplete, the steel member falls off, and when the steel member is processed, the position of the part is required to be adjusted sometimes, and the existing device can adjust the rotation of the angle of the part, but cannot adjust the inclination angle of the part, so that the working efficiency is affected.

Disclosure of Invention

The present utility model has been made to solve the above-mentioned problems, and an object of the present utility model is to provide a steel structure engineering member rotating device that can make a steel member pass through a protection pad in a clamping plate and make the steel member rotate more stably.

The technical scheme is that the steel structure engineering component rotating device comprises a top plate, wherein a transverse plate is fixedly arranged on the lower surface of the top plate, a rotary table is rotatably connected to the lower surface of the transverse plate, a vertical rod is fixedly arranged on the lower surface of the rotary table, one end of the vertical rod is rotatably connected with a concave plate, a clamping plate is slidably connected to the concave plate, and an anti-slip pad is fixedly arranged on the inner side of the clamping plate.

Preferably, in order to fix the steel members with different sizes, the concave plate and the inner side of the clamping plate are provided with sliding grooves, sliding blocks are connected in the sliding grooves in a sliding mode, a first connecting rod and a second connecting rod are hinged to the outer sides of the sliding blocks respectively, the first connecting rod is inserted into the second connecting rod, a rotating rod is inserted into the first connecting rod and the second connecting rod, a bidirectional threaded rod is connected in the sliding grooves in a rotating mode, the sliding blocks are in threaded connection with the bidirectional threaded rod, a first motor is fixedly arranged on the lower surface of the concave plate, the first motor penetrates through the sliding grooves and is fixedly arranged on the bidirectional threaded rod, a track is arranged on the lower surface of the concave plate, a moving block is connected in the track in a sliding mode, and the lower surface of the moving block is fixedly arranged on the clamping plate.

Preferably, for can making the steel member carry out more stable rotation, the inner chamber has been seted up in the diaphragm, the inner chamber internal rotation is connected with the upset pole, fixedly mounted has bevel gear one on the upset pole, the intracavity has inserted the rotary rod, rotary rod one end welding has bevel gear two, just bevel gear one with bevel gear two-phase engagement, the rotary rod other end passes diaphragm fixed mounting is in on the carousel, diaphragm one side fixed mounting has the third motor, just the welding of third motor output is in on the upset pole.

Preferably, in order to enable the steel member to incline, the steel member is convenient for the workman to process, the notch has been seted up to the montant bottom, the notch rotation is connected with the gear, montant one side fixed mounting has the second motor, the second motor output welding is in on the gear, fixed surface installs the semi-annular piece on the concave plate, fixed mounting has the tooth in the semi-annular piece outside, just the tooth with the gear meshes mutually, fixed surface installs the connecting plate under the carousel, connecting plate one end rotates to be connected on the concave plate.

The beneficial effects of the utility model are as follows: the first motor is started, the bidirectional threaded rod is driven to rotate, the sliding block in the sliding groove is driven to move inwards, the first connecting rod and the second connecting rod are driven to move inwards, the clamping plate is driven to move inwards, the anti-slip pad is driven to be attached to the steel member slowly, the steel member is fixed, then the third motor is started, the bevel gear on the turning rod is driven to rotate, the rotating rod arranged on one side of the bevel gear is driven to rotate, the steel member arranged at the bottom of the rotating rod is driven to rotate, so that the steel member with different sizes can be rotated more stably, the worker can process the steel member conveniently, the second motor is started, the gear is driven to rotate, teeth on the semi-ring block rotate, the concave plate is driven to incline in angle, and the worker can process the steel member conveniently, and the work efficiency is improved.

Drawings

Fig. 1 is a schematic overall perspective view of the present utility model.

Fig. 2 is a schematic diagram of the whole structure of the present utility model.

FIG. 3 is a schematic diagram of the whole structure of the present utility model.

FIG. 4 is a schematic view of the inside of the concave plate of the present utility model.

Fig. 5 is a schematic view of the internal structure of the cross plate of the present utility model.

In the figure: 1. a top plate; 2. a cross plate; 3. a turntable; 4. a vertical rod; 5. a concave plate; 6. a clamping plate; 7. an anti-slip pad; 8. a chute; 9. a sliding block; 10. a first connecting rod; 11. a second connecting rod; 12. a rotating lever; 13. a two-way threaded rod; 14. a first motor; 15. a track; 16. a moving block; 17. an inner cavity; 18. turning over the rod; 19. bevel gears I; 20. a rotating rod; 21. bevel gears II; 22. a notch; 23. a gear; 24. a second motor; 25. a semi-ring block; 26. teeth; 27. a connecting plate; 28. and a third motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, a steel structure engineering component rotating device comprises a top plate 1, wherein a transverse plate 2 is fixedly arranged on the lower surface of the top plate 1, a rotary table 3 is rotatably connected to the lower surface of the transverse plate 2, a vertical rod 4 is fixedly arranged on the lower surface of the rotary table 3, one end of the vertical rod 4 is rotatably connected with a concave plate 5, a clamping plate 6 is slidably connected in the concave plate 5, an anti-slip pad 7 is fixedly arranged on the inner side of the clamping plate 6, and the steel component can be fixed in the clamping plate 6 more stably through the arranged anti-slip pad 7.

As a technical optimization scheme of the utility model, as shown in fig. 1, the inner sides of a concave plate 5 and a clamping plate 6 are respectively provided with a sliding groove 8, a sliding block 9 is connected in the sliding groove 8 in a sliding way, the outer sides of the sliding blocks 9 are respectively hinged with a first connecting rod 10 and a second connecting rod 11, the first connecting rod 10 is inserted into the second connecting rod 11, the first connecting rod 10 and the second connecting rod 11 are respectively inserted into a rotating rod 12, the sliding groove 8 is rotationally connected with a bidirectional threaded rod 13, the sliding block 9 is in threaded connection with the bidirectional threaded rod 13, the lower surface of the concave plate 5 is fixedly provided with a first motor 14, the first motor 14 penetrates through the sliding groove 8 and is fixedly arranged on the bidirectional threaded rod 13, the lower surface of the concave plate 5 is provided with a track 15, a moving block 16 is connected in the sliding way, and the lower surface of the moving block 16 is fixedly arranged on the clamping plate 6, and steel members with different sizes can be fixed through the arranged clamping plate 6.

As a technical optimization scheme of the utility model, as shown in fig. 2, an inner cavity 17 is formed in a transverse plate 2, a turnover rod 18 is rotationally connected in the inner cavity 17, a first bevel gear 19 is fixedly arranged on the turnover rod 18, a rotary rod 20 is inserted in the inner cavity 17, one end of the rotary rod 20 is welded with a second bevel gear 21, the first bevel gear 19 is meshed with the second bevel gear 21, the other end of the rotary rod 20 penetrates through the transverse plate 2 and is fixedly arranged on a rotary table 3, a third motor 28 is fixedly arranged on one side of the transverse plate 2, the output end of the third motor 28 is welded on the turnover rod 18, and the first bevel gear 19 and the second bevel gear 21 can be driven to rotate by the third motor 28, so that steel members with different sizes in the concave plate 5 can rotate more stably.

As a technical optimization scheme of the utility model, as shown in FIG. 3, a notch 22 is formed at the bottom end of a vertical rod 4, a gear 23 is rotationally connected to the notch 22, a second motor 24 is fixedly arranged on one side of the vertical rod 4, the output end of the second motor 24 is welded on the gear 23, a half ring block 25 is fixedly arranged on the upper surface of a concave plate 5, teeth 26 are fixedly arranged on the outer side of the half ring block 25, the teeth 26 are meshed with the gear 23, a connecting plate 27 is fixedly arranged on the lower surface of a turntable 3, one end of the connecting plate 27 is rotationally connected to the concave plate 5, and the teeth 26 arranged on the half ring block 25 can be driven to move through the arranged second motor 24, so that steel members in the concave plate 5 are driven to incline, and workers can conveniently process the steel members.

When the movable steel plate forming machine is used, the top plate 1 is fixed at the top of a house beam, then the first motor 14 is started, the rotating shaft of the first motor 14 drives the bidirectional threaded rod 13 to rotate, the sliding block 9 on the bidirectional threaded rod 13 moves inwards, one end of the first connecting rod 10 and one end of the second connecting rod 11 are driven to move inwards, the other ends of the first connecting rod 10 and the second connecting rod 11 move inwards, and meanwhile, the clamping plate 6 is pushed to move inwards, because the moving block 16 is arranged at the top of the clamping plate 6 and is connected in the track 15 in the concave plate 5 in a sliding manner, the clamping plate 6 moves more stably, the anti-skid pad 7 arranged at one side of the clamping plate 6 can be attached to the outer surfaces of steel members with different sizes slowly, steel members are fixed, then the third motor 28 is started, the rotating shaft of the third motor 28 drives the overturning rod 18 to rotate, the first 19 and the second 21 of the bevel gears are driven to rotate, the rotating disc 3 arranged at one end of the rotating rod 20 is driven to rotate, the connecting plate 27 arranged at the bottom of the rotating disc 3 is driven to rotate, the concave plate 5 arranged at one end of the connecting plate 27 is driven to rotate, and therefore the steel members with different sizes can be rotated more stably, and simultaneously, the second motor 24 is started, the rotating shaft 24 is driven to rotate the second rotating plate 25 and the second rotating plate 25 is driven to rotate the concave plate 25 to rotate, and the tooth 25 is driven to rotate the concave plate 5, so that the tooth 25 is more conveniently to be arranged, and the tooth-shaped and the tooth forming plate 25 can be more conveniently processed.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. The utility model provides a steel construction engineering component rotating device which characterized in that: including roof (1), roof (1) lower surface fixed mounting has diaphragm (2), diaphragm (2) lower surface rotation is connected with carousel (3), carousel (3) lower surface fixed mounting has montant (4), montant (4) one end rotation is connected with concave template (5), sliding connection splint (6) in concave template (5), splint (6) inboard fixed mounting has slipmat (7).

2. A steel structure engineering component rotating device according to claim 1, wherein: the novel connecting rod is characterized in that sliding grooves (8) are formed in the inner sides of the concave plates (5) and the clamping plates (6), sliding blocks (9) are connected in the sliding grooves (8) in a sliding mode, a first connecting rod (10) and a second connecting rod (11) are hinged to the outer sides of the sliding blocks (9) respectively, the first connecting rod (10) is inserted into the second connecting rod (11), and rotating rods (12) are inserted into the first connecting rod (10) and the second connecting rod (11).

3. A steel construction engineering component rotating apparatus according to claim 2, wherein: the sliding chute (8) is rotationally connected with a bidirectional threaded rod (13), the sliding block (9) is in threaded connection with the bidirectional threaded rod (13), a first motor (14) is fixedly arranged on the lower surface of the concave plate (5), and the first motor (14) penetrates through the sliding chute (8) and is fixedly arranged on the bidirectional threaded rod (13).

4. A steel structure engineering component rotating device according to claim 1, wherein: the lower surface of the concave plate (5) is provided with a track (15), a moving block (16) is connected in a sliding manner in the track (15), and the lower surface of the moving block (16) is fixedly arranged on the clamping plate (6).

5. A steel structure engineering component rotating device according to claim 1, wherein: an inner cavity (17) is formed in the transverse plate (2), a turnover rod (18) is rotationally connected to the inner cavity (17), a first bevel gear (19) is fixedly installed on the turnover rod (18), a rotating rod (20) is inserted into the inner cavity (17), a second bevel gear (21) is welded at one end of the rotating rod (20), the first bevel gear (19) is meshed with the second bevel gear (21), the other end of the rotating rod (20) penetrates through the transverse plate (2) and is fixedly installed on the rotary plate (3), a third motor (28) is fixedly installed on one side of the transverse plate (2), and the output end of the third motor (28) is welded on the turnover rod (18).

6. A steel structure engineering component rotating device according to claim 1, wherein: notch (22) have been seted up to montant (4) bottom, notch (22) internal rotation is connected with gear (23), montant (4) one side fixed mounting has second motor (24), second motor (24) output welding is in on gear (23).

7. The steel structural engineering component rotating device according to claim 6, wherein: the upper surface of the concave plate (5) is fixedly provided with a semi-ring block (25), the outer side of the semi-ring block (25) is fixedly provided with teeth (26), and the teeth (26) are meshed with the gear (23).

8. A steel structure engineering component rotating device according to claim 1, wherein: the lower surface of the rotary table (3) is fixedly provided with a connecting plate (27), and one end of the connecting plate (27) is rotationally connected to the concave plate (5).

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