CN216945893U - Anti-shaking device used in transferring and hoisting process of indoor large electromechanical equipment - Google Patents

Abstract

The anti-shaking device is used in the transferring and hoisting process of indoor large-scale electromechanical equipment, a transverse bottom plate is tightly installed on a floor plane at the side of a hoisting port through bolts, the left side and the right side of the top surface of the transverse bottom plate are respectively provided with a vertical side plate through welding, and the left vertical side plate and the right vertical side plate are parallel and symmetrically arranged; the vertical square steel plate, the square cushion block and the transverse rod sleeve are combined to form a vertical wallboard; the bottom edge of the vertical wallboard is fixedly connected with the top surface of the transverse bottom plate through welding, and the side edge of the vertical wallboard is fixedly connected with the left vertical side plate and the right vertical side plate respectively through welding; each transverse rod sleeve is connected with a transverse screw rod in a screwed mode, one rod end of each transverse screw rod is fixedly sleeved with a hand wheel, and the other rod end of each transverse screw rod is movably sleeved with a rope stringing ring. The utility model has the characteristics of novel structure, time-saving and labor-saving operation and strong practicability.

Description

Anti-shaking device used in indoor large electromechanical equipment transferring and hoisting process

Technical Field

The utility model belongs to the field of building construction auxiliary equipment, and relates to a shaking prevention device used in a transferring and hoisting process of indoor large-scale electromechanical equipment.

Background

After large-scale electromechanical device transported the avris of indoor reservation hoist and mount mouth, the electric block directly over the hoist and mount mouth connects each hoisting point on the large-scale electromechanical device earlier, because large-scale electromechanical device's weight is very heavy, so electric block is the tilt state in the pulling force direction before lifting by crane, consequently, avoid electric block large-scale electromechanical device to take place to rock when lifting by crane, just need prevent to rock the large-scale electromechanical device when lifting by crane and handle, at present, mainly adopt a plurality of workman to go on through the mode of hand stay cord in a plurality of directions in order to prevent rocking, this kind of mode can have the problem that wastes time and energy again.

Disclosure of Invention

In order to solve the problems, the utility model provides a shaking prevention device for the transferring and hoisting process of indoor large-scale electromechanical equipment, which has the characteristics of novel structure, time-saving and labor-saving operation and strong practicability.

In order to achieve the purpose, the utility model adopts the following specific technical measures: the anti-shaking device used in the transferring and hoisting process of the indoor large electromechanical equipment is composed of a transverse bottom plate, a vertical side plate, a vertical square steel plate, a square cushion block, a transverse rod sleeve, a transverse screw rod, a hand wheel and a pull rope, and is characterized in that,

the transverse bottom plate is fixedly arranged on a floor slab plane at the side of the hoisting port through bolts, the left side and the right side of the top surface of the transverse bottom plate are respectively provided with a vertical side plate through welding, and the left vertical side plate and the right vertical side plate are parallel and symmetrically arranged;

the front vertical square steel plate and the rear vertical square steel plate are pulled apart in parallel, a plurality of square cushion blocks are welded between the front vertical square steel plate and the rear vertical square steel plate, 1-5 square sleeve openings are cut in the middle of each vertical square steel plate, a corresponding square sleeve opening in the front and the rear is used as a pair of serial ports, and each pair of serial ports is correspondingly connected with a transverse rod sleeve in series and is fastened by welding;

the vertical square steel plate, the square cushion block and the transverse rod sleeve are combined to form a vertical wallboard;

the bottom edge of the vertical wallboard is fixedly connected with the top surface of the transverse bottom plate through welding, and the side edge of the vertical wallboard is fixedly connected with the left vertical side plate and the right vertical side plate respectively through welding;

each transverse rod sleeve is connected with a transverse screw rod in a screwed mode, one rod end of each transverse screw rod is fixedly sleeved with a hand wheel, and the other rod end of each transverse screw rod is movably sleeved with a rope stringing ring;

one end of the pull rope is bound and fixed with the string rope ring, and the other end of the pull rope is bound and fixed with the hoop rope on the large-scale electromechanical equipment.

The advancing speed of the transverse screw rod is controlled through the rotation of the hand wheel, and the slow advancing of the pull rope can effectively prevent the electric hoist from violently shaking when the large electromechanical equipment is obliquely lifted, so that the safe lifting operation is ensured.

The utility model has the advantages of novel structure, time-saving and labor-saving operation and strong practicability.

The utility model is further described below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a side perspective view of a partial composite structure of the present invention;

FIG. 2 is a left side view of FIG. 1;

fig. 3 is a side view of the present invention in an installed use.

In the figure: the device comprises a transverse bottom plate 1, a vertical side plate 2, a vertical square steel plate 31, a square cushion block 32, a transverse rod sleeve 33, a transverse screw rod 4, a hand wheel 41, a rope stringing ring 42, a pull rope 5, a lifting port K1, a floor slab K2, a large electromechanical device K3 and an electric hoist K4.

Detailed Description

As shown in figures 1, 2 and 3, the anti-shaking device for the transferring and hoisting process of the indoor large electromechanical equipment is composed of a transverse bottom plate 1, a vertical side plate 2, a vertical square steel plate 31, a square cushion block 32, a transverse rod sleeve 33, a transverse screw rod 4, a hand wheel 41 and a pull rope 5, and is characterized in that,

the transverse bottom plate 1 is fixedly arranged on a floor slab plane K2 at the side of a hoisting port K1 through bolts, the left side and the right side of the top surface of the transverse bottom plate 1 are respectively provided with a vertical side plate 2 through welding, and the left vertical side plate 2 and the right vertical side plate 2 are parallel and symmetrically arranged;

the front vertical square steel plate 31 and the rear vertical square steel plate 31 are pulled apart in parallel, a plurality of square cushion blocks 32 are welded between the front vertical square steel plate 31 and the rear vertical square steel plate 31, 1-5 square sleeve openings are cut in the middle of each vertical square steel plate 31, a corresponding square sleeve opening in the front and the rear serves as a pair of serial openings, each pair of serial openings is correspondingly connected with a transverse rod sleeve 33 in series, and fastening is achieved through welding;

the vertical square steel plate 31, the square cushion block 32 and the transverse rod sleeve 33 are combined to form a vertical wallboard;

the bottom edge of the vertical wallboard is fixedly connected with the top surface of the transverse bottom plate 1 through welding, and the side edge of the vertical wallboard is fixedly connected with the left vertical side plate 2 and the right vertical side plate 2 respectively through welding;

each transverse rod sleeve 33 is connected with one transverse screw rod 4 in a screwed mode, one rod end of each transverse screw rod 4 is fixedly sleeved with a hand wheel 41, and the other rod end of each transverse screw rod 4 is movably sleeved with a rope stringing ring 42;

one end of the pull rope 5 is bound and fixed with the string rope ring, and the other end of the pull rope 5 is bound and fixed with the hoop rope on the large electromechanical device K3.

The advancing speed of the transverse screw rod 4 is controlled by the rotation of the hand wheel 41, and the slow advancing of the pull rope 5 can effectively prevent the electric hoist K4 from violently shaking when the large electromechanical equipment K3 is hoisted in an inclined way, so that the safe operation of hoisting is ensured.

Claims (1)

1. A device for preventing shaking in the transferring and hoisting process of indoor large electromechanical equipment is composed of a transverse bottom plate (1), a vertical side plate (2), a vertical square steel plate (31), a square cushion block (32), a transverse rod sleeve (33), a transverse screw rod (4), a hand wheel (41) and a pull rope (5),

the transverse bottom plate (1) is fastened and installed on a floor slab plane (K2) at the side of a hoisting port (K1) through bolts, the left side and the right side of the top surface of the transverse bottom plate (1) are respectively provided with a vertical side plate (2) through welding, and the left vertical side plate and the right vertical side plate (2) are parallel and symmetrically arranged;

the front vertical square steel plate and the rear vertical square steel plate (31) are pulled apart in parallel, a plurality of square cushion blocks (32) are welded between the front vertical square steel plate and the rear vertical square steel plate (31), the middle of each vertical square steel plate (31) is cut with 1-5 square sleeve openings, a corresponding square sleeve opening in the front and the rear is used as a pair of serial openings, each pair of serial openings is correspondingly connected with a transverse rod sleeve (33) in series, and fastening is realized by welding;

the vertical square steel plate (31), the square cushion block (32) and the transverse rod sleeve (33) are combined to form a vertical wallboard;

the bottom edge of the vertical wallboard is fixedly connected with the top surface of the transverse bottom plate (1) through welding, and the side edge of the vertical wallboard is fixedly connected with the left vertical side plate (2) and the right vertical side plate (2) through welding;

each transverse rod sleeve (33) is connected with a transverse screw rod (4) in a screwed mode, one rod end of each transverse screw rod (4) is fixedly sleeved with a hand wheel (41), and the other rod end of each transverse screw rod (4) is movably sleeved with a rope stringing ring (42);

one end of the pull rope (5) is bound and fixed with the string rope ring, and the other end of the pull rope (5) is bound and fixed with the hoop rope on the large electromechanical equipment (K3).

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