CN218261724U - Steel structure section bar hoisting device - Google Patents

Abstract

The utility model relates to a steel section hoist and mount technical field especially relates to steel construction section hoisting device, has solved among the prior art steel construction section hoisting device's security and the problem that stability remains to improve. Steel construction section bar hoist device includes: the layer board, the layer board symmetry is provided with two, and the layer board is L type structure, and the top both sides of the vertical end of layer board are connected with first connecting block respectively, be connected with the second rope on the first connecting block. The utility model discloses a plurality of movable plate linear motion on the control locating plate, and then place steel structural section in the double-layered intracavity that two layer boards formed, realize upwards holding up of locating plate through first rope for the second rope mainly bears the weight of two layer boards and steel structural section, first rope mainly bears the power of locating plate, it takes place because of the atress damages the unable condition of deformation to reduce hoist and mount clamping structure, a life is high to have realized, the convenient safe steel structural section hoist device that stabilizes is controlled in centre gripping lift.

Description

Steel structure section bar hoisting device

Technical Field

The utility model relates to a steel section bar hoist and mount technical field especially relates to steel structure section bar hoist device.

Background

The steel section bar needs to be moved by hoisting in the transportation and use processes, and the types of the existing steel section bar products are many, such as steel coils, steel plates or steel frames. Most of the hoisting devices are completed through a crane, the steel section is lifted by winding a rope of the crane, and the steel section frame is moved in the direction by using a telescopic mechanism of the crane.

However, there are also places to be improved during the hoisting process of the steel structural section: in the hoisting process of the steel structural section, the steel structural section needs to be bound firstly, then a rope is fixed with a binding device, when the steel structural section is conveyed, the binding device bears the gravity of the steel structural section, the rope also bears the gravity of the binding device, and the influence of the gravity of the steel structure is easily caused at the fixed locking position of the binding device, so that the steel structural section is loosened, and finally the steel structural section falls off, so that the hoisting safety of the steel structural section is influenced, and the service life of the steel structural section hoisting device is influenced; therefore, the steel structure section hoisting device is proposed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel construction section bar hoist device has solved among the prior art steel construction section bar hoist device's security and stability and has remained the problem that improves.

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

steel construction section bar hoist device includes:

the two supporting plates are symmetrically arranged, each supporting plate is of an L-shaped structure, two sides of the top of the vertical end of each supporting plate are respectively connected with a first connecting block, each first connecting block is connected with a second rope, and the vertical end of each supporting plate is provided with a plurality of vertical grooves;

the positioning plate is arranged above the two supporting plates, two sides of the top of the positioning plate are respectively connected with a second connecting block, a first rope is connected onto the second connecting block, a plurality of moving plates are horizontally limited and slidably arranged in the positioning plate, and the horizontal ends of the bottoms of the moving plates penetrate through corresponding vertical grooves to drive the supporting plates to linearly move;

the top ends of the first ropes are wound on the first winding shaft;

and the two second winding shafts are provided, and the second ropes of the two supporting plates are wound on the two second winding shafts respectively.

Preferably, a moving cavity is arranged in the positioning plate, a plurality of screw rods are movably mounted in the moving cavity, two thread structures with opposite thread directions are symmetrically arranged on each screw rod respectively, two moving plates are mounted on each screw rod through nut sleeves, and sliding chutes used for sliding between the moving plates are formed in the lower end face of the positioning plate.

Preferably, a first motor is installed at the top of the positioning plate, a toothed roller is connected to an output shaft of the first motor, one ends of the three screws are connected with the toothed roller, the three screws are in transmission connection through toothed belts, and one of the screws is in transmission connection with the toothed roller of the first motor through the toothed belt.

Preferably, the height of the vertical groove is larger than the thickness of the horizontal end of the moving plate, and the three moving plates on the same side of the three screws are matched with the same supporting plate.

Preferably, the winding device further comprises a first platform, a second motor is mounted on the first platform, the first winding shaft is mounted on the first platform, and the first winding shaft is connected with the output end of the second motor.

Preferably, the winding device further comprises a second platform, a third motor is mounted on the second platform, two second winding shafts are mounted on the second platform, the third motor is driven in a bidirectional mode, and two output ends of the third motor are connected with the two second winding shafts respectively.

The utility model discloses possess following beneficial effect at least:

when hoisting steel structural section, at first through a plurality of movable plate linear motion on the control locating plate, so that two relative centre gripping of layer board that are L type structure, and then place steel structural section in the double-layered intracavity that two layer boards formed, upwards support of locating plate is realized through first rope, make two layer boards support through the second rope, make the second rope mainly bear the weight of two layer boards and steel structural section, first rope mainly bears the power of locating plate, can protect the horizontal migration structure in the locating plate like this, it warp the unable condition emergence of using because of the atress damage to reduce hoist and mount clamping structure, a life height has been realized, the convenient steady safe steel structural section hoist device is controlled in the centre gripping lift.

The utility model discloses still possess following beneficial effect:

through the setting of three screw rods, three screw rods rotate simultaneously to make three movable plate promote same layer board linear motion simultaneously, improve layer board horizontal migration's stability.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

FIG. 1 is a schematic structural view of a hoisting device;

FIG. 2 is a side view of the mounting structure of the pallet and alignment plate;

fig. 3 is a schematic structural view of the supporting plate, the second rope and the second winding shaft.

In the figure: 1. positioning a plate; 2. moving the plate; 3. a support plate; 4. a first motor; 5. a screw; 6. a first rope; 7. a first platform; 8. a second motor; 9. a first winding shaft; 10. a second platform; 11. a vertical slot; 12. a second rope; 13. a first connection block; 14. a second connecting block; 15. a moving chamber; 16. a third motor; 17. and a second winding shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-3, steel structural section hoist device includes:

the two supporting plates 3 are symmetrically arranged, each supporting plate 3 is of an L-shaped structure, two sides of the top of the vertical end of each supporting plate 3 are respectively connected with a first connecting block 13, each first connecting block 13 is connected with a second rope 12, and the vertical end of each supporting plate 3 is provided with a plurality of vertical grooves 11;

the positioning plate 1 is arranged above the two supporting plates 3, two sides of the top of the positioning plate 1 are respectively connected with a second connecting block 14, the second connecting blocks 14 are connected with first ropes 6, a plurality of moving plates 2 are horizontally limited and slidably arranged in the positioning plate 1, and the horizontal ends of the bottoms of the moving plates 2 penetrate through corresponding vertical grooves 11 to drive the supporting plates 3 to move linearly;

a first winding shaft 9 on which the top ends of the plurality of first ropes 6 are wound;

two second winding shafts 17 are arranged, and the second ropes 12 of the two support plates 3 are wound on the two second winding shafts 17 respectively;

the scheme has the following working processes: when hoisting steel structural section, at first through the 2 rectilinear motion of a plurality of movable plates on the control locating plate 1, so that two layer boards 3 that are L type structure centre gripping relatively, and then place steel structural section in the double-layered intracavity that two layer boards 3 formed, through first rolling axle 9 rolling first rope 6, thereby realize upwards holding up of locating plate 1, through second rolling axle 17 rolling second rope 12, so that two layer boards 3 hold up, movable plate 2 mainly used promotes the 3 rectilinear clamping motion of layer board, movable plate 2 and vertical groove 11 upper and lower inner wall do not offset, so that second rope 12 mainly bears the weight of two layer boards 3 and steel structural section, and first rope 6 mainly bears the power of locating plate 1, can protect the horizontal migration structure in the locating plate 1 like this, reduce the condition emergence that hoist and mount clamping structure warp the unable use because of the atress damage, a long service life has been realized, the convenient stable steel structural section hoist device is controlled in centre gripping lift.

Further, be provided with in the locating plate 1 and remove chamber 15, movable mounting has a plurality of screw rods 5 in the removal chamber 15, and the symmetry is provided with two opposite screw thread direction's helicitic texture respectively on every screw rod 5, and two movable plates 2 are installed through the nut cover to every screw rod 5, and the lower terminal surface of locating plate 1 is seted up and is used for gliding spout between the movable plate 2, and is specific, relative motion between two movable plates 2 on the same screw rod 5 to realize the promotion of movable plate 2 to layer board 3.

Further, first motor 4 is installed at the top of locating plate 1, is connected with the fluted roller on first motor 4's the output shaft, and the one end of three screw rod 5 is connected with the fluted roller, connects through the cingulum transmission between the three screw rod 5, and one of them screw rod 5 is connected through the cingulum transmission of cingulum with first motor 4, and is concrete, the setting of three screw rod 5 improves 3 horizontal migration's of layer board stability.

Further, the height of the vertical groove 11 is greater than the thickness of the horizontal end of the moving plate 2, the three moving plates 2 on the same side of the three screws 5 are matched with the same supporting plate 3, specifically, as shown in the attached drawing 2 of the specification, the horizontal end of the moving plate 2 is located in the middle of the vertical groove 11, and the moving plate 2 does not bear the weight of the supporting plate 3.

Further, still include first platform 7, install second motor 8 on the first platform 7, first rolling axle 9 is installed on first platform 7, and first rolling axle 9 is connected with second motor 8's output, and is concrete, and a plurality of first ropes 6 bind together through fixed knot structure to guarantee to stabilize the rolling on first rolling axle 9.

Further, the winding device comprises a second platform 10, a third motor 16 is mounted on the second platform 10, two second winding shafts 17 are mounted on the second platform 10, the third motor 16 is driven bidirectionally, two output ends of the third motor 16 are respectively connected with the two second winding shafts 17, specifically, the winding of the second ropes 12 of the moving plates 2 on two sides is controlled by the bidirectionally-driven third motor 16, and the two second ropes 12 of the same supporting plate 3 are bound together through a fixing structure so as to ensure stable winding on the corresponding second winding shafts 17.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. Steel construction section bar hoist device, its characterized in that includes:

the supporting plates (3) are symmetrically arranged, the supporting plates (3) are of an L-shaped structure, two sides of the top of the vertical end of each supporting plate (3) are respectively connected with a first connecting block (13), each first connecting block (13) is connected with a second rope (12), and the vertical end of each supporting plate (3) is provided with a plurality of vertical grooves (11);

the positioning plate (1) is arranged above the two supporting plates (3), two sides of the top of the positioning plate (1) are respectively connected with a second connecting block (14), a first rope (6) is connected onto the second connecting block (14), a plurality of moving plates (2) are horizontally and slidably arranged in the positioning plate (1), and the bottom horizontal ends of the moving plates (2) penetrate through corresponding vertical grooves (11) to drive the supporting plates (3) to linearly move;

the top ends of the first ropes (6) are wound on the first winding shaft (9);

the two second winding shafts (17) are arranged, and the second ropes (12) of the two supporting plates (3) are wound on the two second winding shafts (17) respectively.

2. The steel structure section hoisting device according to claim 1, wherein a moving cavity (15) is arranged in the positioning plate (1), a plurality of screw rods (5) are movably arranged in the moving cavity (15), each screw rod (5) is symmetrically provided with two thread structures with opposite thread directions, each screw rod (5) is provided with two moving plates (2) through a nut sleeve, and a sliding groove for sliding between the moving plates (2) is formed in the lower end surface of the positioning plate (1).

3. The steel structure section hoisting device of claim 1, wherein a first motor (4) is installed at the top of the positioning plate (1), a toothed roller is connected to an output shaft of the first motor (4), one end of each of three screws (5) is connected with the toothed roller, the three screws (5) are in transmission connection through toothed belts, and one screw (5) is in transmission connection with the toothed roller of the first motor (4) through the toothed belt.

4. The steel structural section hoisting device according to claim 1, wherein the height of the vertical groove (11) is greater than the thickness of the horizontal end of the moving plate (2), and the three moving plates (2) on the same side of the three screws (5) are matched with the same supporting plate (3).

5. The steel structural section hoisting device according to claim 1, further comprising a first platform (7), wherein a second motor (8) is installed on the first platform (7), the first winding shaft (9) is installed on the first platform (7), and the first winding shaft (9) is connected with an output end of the second motor (8).

6. The steel structural section hoisting device according to claim 1, further comprising a second platform (10), wherein a third motor (16) is mounted on the second platform (10), two second winding shafts (17) are mounted on the second platform (10), the third motor (16) is driven bidirectionally, and two output ends of the third motor (16) are respectively connected with the two second winding shafts (17).

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