CN217028118U

CN217028118U - Anti-collision device used in indoor large electromechanical equipment transferring and hoisting process

Info

Publication number: CN217028118U
Application number: CN202220323084.2U
Authority: CN
Inventors: 李国瑜; 林国发; 吴腾达
Original assignee: FUJIAN MINNAN CONSTRUCTION ENGINEERING CO LTD
Current assignee: FUJIAN MINNAN CONSTRUCTION ENGINEERING CO LTD
Priority date: 2022-02-17
Filing date: 2022-02-17
Publication date: 2022-07-22
Anticipated expiration: 2032-02-17

Abstract

The anti-collision device is used in the indoor large-scale electromechanical equipment transferring and hoisting process, the edge of a hoisting port is provided with a laminated board, the inner side surface of an EVA outer separation blade is integrally formed with 10-50U-shaped embedded material grooves, each U-shaped embedded material groove is embedded with an ETPU buffer block, and the side edge of the inner side surface of the EVA outer separation blade is integrally formed with a rod hole; the EVA outer separation blade and the ETPU buffer block are combined to form an elastic buffer body; the inward surface of the elastic buffer body is tightly attached to the outward surface of the sheathing board, the ETPU buffer block is clamped between the EVA outer blocking sheet and the sheathing board, and the elastic buffer body is buckled with the sheathing board through a screw rod I and a screw rod II. The utility model has the characteristics of novel structure, good anti-collision effect and strong practicability.

Description

Collision prevention 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 collision prevention device used in a transferring and hoisting process of indoor large-scale electromechanical equipment.

Background

After large-scale electromechanical device transported to indoor reservation hoisting point, the electric block through hoisting point on shifts large-scale electromechanical device and lifts by crane to the top of hoist and mount mouth, then slowly transfer large-scale electromechanical device through control electric block, because the border of hoist and mount mouth all is the concrete floor, so large-scale electromechanical device is if under the condition that the in-process of transferring rocked because of the exogenic action production, large-scale electromechanical device just can produce the collision with floor hoist and mount mouth, this kind of condition is if taking place, not only large-scale electromechanical device can be bruised, but also floor hoist and mount mouth can be bruised.

Disclosure of Invention

In order to solve the problems, the utility model provides the anti-collision device for the transferring and hoisting process of the indoor large-scale electromechanical equipment, which has the characteristics of novel structure, good anti-collision effect and strong practicability.

In order to achieve the purpose, the utility model adopts the following specific technical measures: the anti-collision device used in the indoor large-scale electromechanical equipment transferring and hoisting process is composed of a sheathing board, an EVA outer baffle and an ETPU buffer block, and is characterized in that,

a sheathing plate is arranged at the edge of the hoisting opening, the sheathing opening of the sheathing plate is rectangular, the side edge of the upward top surface of the sheathing plate is in screwed connection with 2-10 first vertical screws, and the side edge of the downward bottom surface of the sheathing plate is in screwed connection with 2-10 second vertical screws;

10-50U-shaped embedding material grooves are integrally formed in the inner side face of the EVA outer blocking piece, an ETPU buffer block is embedded into each U-shaped embedding material groove, and the contact surfaces of the ETPU buffer blocks and the U-shaped embedding material grooves are bonded and fastened through glue;

a rod hole is integrally formed at the side of the inner side surface of the EVA outer separation blade;

the EVA outer separation blade and the ETPU buffer block are combined to form an elastic buffer body;

the inward surface of the elastic buffer body is tightly attached to the outward surface of the sheathing board, the ETPU buffer block is clamped between the EVA outer blocking piece and the sheathing board, and the rod hole of the EVA outer blocking piece can be buckled with the screw rod I or the screw rod II;

the elastic buffer body is buckled with the sheathing plate through the first screw rod and the second screw rod.

The sheathing board can be made of wood boards or plastic.

The large electromechanical equipment is slowly descended from the lifting opening through the electric hoist, and the utility model can effectively prevent the large electromechanical equipment from accidentally colliding with the edge of the lifting opening in the descending process.

The anti-collision device has the advantages of being novel in structure, good in anti-collision effect and strong in practicability.

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

Drawings

FIG. 1 is a side sectional view of the integrated package of the present invention;

fig. 2 is a side view of the present invention in an installed and used state.

In the figure: 1-laminated plate, 11-screw rod I, 12-screw rod II, 2-EVA outer baffle plate, 3-ETPU buffer block, K3-large electromechanical equipment and K4-electric hoist.

Detailed Description

As shown in figures 1 and 2, the anti-collision device for the transferring and hoisting process of the indoor large-scale electromechanical equipment consists of a sheathing board 1, an EVA outer blocking sheet 2 and an ETPU buffer block 3, and is characterized in that,

the edge of the hoisting opening is provided with a sheathing plate 1, the sheathing opening of the sheathing plate 1 is rectangular, the edge side of the upward top surface of the sheathing plate 1 is screwed with 2-10 first vertical screws 11, and the edge side of the downward bottom surface of the sheathing plate 1 is screwed with 2-10 second vertical screws 12;

10-50U-shaped embedding material grooves are integrally formed in the inner side face of the EVA outer separation blade 2, an ETPU buffer block 3 is embedded into each U-shaped embedding material groove, and the contact surfaces of the ETPU buffer blocks 3 and the U-shaped embedding material grooves are bonded and fastened through glue;

a rod hole is integrally formed at the side of the inner side surface of the EVA outer baffle 2;

the EVA outer separation blade 2 and the ETPU buffer block 3 are combined to form an elastic buffer body;

the inward surface of the elastic buffer body is tightly attached to the outward surface of the sheathing board 1, the ETPU buffer block 3 is clamped between the EVA outer baffle plate 2 and the sheathing board 1, and the rod hole of the EVA outer baffle plate 2 can be buckled with the first screw rod 11 or the second screw rod 12;

the elastic buffer body is buckled with the plywood 1 through the first screw rod 11 and the second screw rod 12.

The large electromechanical equipment K3 descends slowly from the lifting opening through the electric hoist K4, and the utility model can effectively prevent the large electromechanical equipment K3 from accidentally colliding with the edge of the lifting opening in the descending process.

Claims

1. The anti-collision device used in the indoor large-scale electromechanical equipment transferring and hoisting process consists of a laminated plate (1), an EVA outer baffle plate (2) and an ETPU buffer block (3), and is characterized in that,

the edge of the hoisting opening is provided with a sheathing board (1), the sheathing opening of the sheathing board (1) is rectangular, the side of the upward top surface of the sheathing board (1) is screwed with 2-10 vertical screws I (11), and the side of the downward bottom surface of the sheathing board (1) is screwed with 2-10 vertical screws II (12);

10-50U-shaped embedding grooves are integrally formed in the inner side face of the EVA outer blocking piece (2), an ETPU buffer block (3) is embedded into each U-shaped embedding groove, and the contact surfaces of the ETPU buffer blocks (3) and the U-shaped embedding grooves are bonded and fastened through glue;

a rod hole is integrally formed at the side of the inner side surface of the EVA outer baffle plate (2);

the EVA outer blocking piece (2) and the ETPU buffer block (3) are combined to form an elastic buffer body;

the inward surface of the elastic buffer body is tightly attached to the outward surface of the sheathing board (1), the ETPU buffer block (3) is clamped between the EVA outer blocking piece (2) and the sheathing board (1), and the rod hole of the EVA outer blocking piece (2) can be buckled with the screw rod I (11) or the screw rod II (12);

the elastic buffer body is buckled with the sleeve plywood (1) through a first screw rod (11) and a second screw rod (12).