CN216336093U - Electromagnetic rotary lifting appliance - Google Patents

Abstract

The utility model relates to an electromagnetic rotary lifting appliance, which comprises a rigging, an upper lifting appliance frame rotary supporting part, a lower lifting appliance beam rotary supporting part, a shackle chain and an electromagnetic chuck; the lower surface of the lower beam of the lifting appliance between two adjacent electromagnetic chucks is fixedly provided with a C-shaped hook mounting frame, the lower end part of the C-shaped hook mounting frame is higher than the lower end surface of the electromagnetic chuck, and a first C-shaped hook, a second C-shaped hook and a C-shaped hook driving mechanism which can drive the first C-shaped hook and the second C-shaped hook to be opened or closed synchronously are mounted on the C-shaped hook mounting frame in a mutual linkage manner. The utility model abandons the traditional manual work of tying and unloading the riggings at the hoisting starting point and the hoisting finishing point, realizes the unmanned hoisting of the hoisting tool and ensures the safety of hoisting the goods with small contact area and high danger coefficient.

Description

Electromagnetic rotary lifting appliance

Technical Field

The utility model relates to a hoisting sling, in particular to an electromagnetic rotating sling.

Background

When a dock transports metal materials with small contact area, especially goods such as round steel, the traditional method is to manually tie the tool cable at two ends of the goods for hoisting, and then manually unload the tool cable after the goods are hoisted to a destination, so that the whole process is time-consuming and labor-consuming, the working efficiency is low, the labor intensity of workers is high, and great potential safety hazards exist.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide the electromagnetic rotary lifting appliance which is high in working efficiency and can ensure high safety in the lifting process.

According to the technical scheme provided by the utility model, the electromagnetic rotary lifting appliance comprises a rigging, an upper lifting appliance frame rotary supporting part, a lower lifting appliance beam rotary supporting part, a shackle chain and an electromagnetic chuck; the lower end part of the rigging is connected with the upper hanger frame, the lower end of the upper hanger frame is provided with an upper hanger frame slewing bearing part, a lower hanger beam slewing bearing part is installed in the upper hanger frame slewing bearing part, the upper hanger frame slewing bearing part is matched with the lower hanger beam slewing bearing part, a slewing bearing driving mechanism capable of driving the lower hanger beam slewing bearing part to perform slewing motion relative to the upper hanger frame slewing bearing part is installed on the upper hanger frame, a lower hanger beam is fixed on the lower hanger beam slewing bearing part, a plurality of groups of shackle chains are installed on the lower hanger beam at intervals, and the lower end part of each group of shackle chains is provided with an electromagnetic chuck;

the lower surface of the lower beam of the lifting appliance between two adjacent electromagnetic chucks is fixedly provided with a C-shaped hook mounting frame, the lower end part of the C-shaped hook mounting frame is higher than the lower end surface of the electromagnetic chuck, and a first C-shaped hook, a second C-shaped hook and a C-shaped hook driving mechanism which can drive the first C-shaped hook and the second C-shaped hook to be opened or closed synchronously are mounted on the C-shaped hook mounting frame in a mutual linkage manner.

Preferably, the slewing bearing driving mechanism comprises a slewing bearing driving speed reduction motor and a slewing bearing standby driving speed reduction motor.

Preferably, the C-shaped claw driving mechanism is a C-shaped claw driving reduction motor.

Preferably, a set of shackle chains is attached to the lower spreader beam directly below the lower spreader beam slewing bearing portion and to both ends of the lower spreader beam, and an electromagnetic chuck is attached to the lower end of each set of shackle chains.

The utility model abandons the traditional manual work of tying and unloading the riggings at the hoisting starting point and the hoisting finishing point, realizes the unmanned hoisting of the hoisting tool and ensures the safety of hoisting the goods with small contact area and high danger coefficient.

Drawings

FIG. 1 is a front view of the present invention with the C-shaped hook in a closed position.

Fig. 2 is a left side view of the present invention with the C-shaped hook in a closed position.

Fig. 3 is a top view of the present invention with the C-shaped hook in a closed position.

Fig. 4 is a perspective view of the present invention with the C-shaped hook in a closed position.

Fig. 5 is a perspective view of the present invention with the C-shaped hook in an open position.

Detailed Description

The present invention will be further described with reference to the following specific examples.

The electromagnetic rotary lifting appliance comprises a rigging 1, a lifting appliance upper frame 2, a lifting appliance upper frame rotary supporting part 3, a lifting appliance lower cross beam 4, a lifting appliance lower cross beam rotary supporting part 5, a shackle chain 6 and an electromagnetic sucker 7, wherein the rigging is arranged on the lifting appliance upper frame; the lower end part of the rigging 1 is connected with a lifting appliance upper frame 2, the lower end of the lifting appliance upper frame 2 is provided with a lifting appliance upper frame rotary supporting part 3, a lifting appliance lower cross beam rotary supporting part 5 is installed in the lifting appliance upper frame rotary supporting part 3, the lifting appliance upper frame rotary supporting part 3 is matched with the lifting appliance lower cross beam rotary supporting part 5, a rotary supporting driving mechanism capable of driving the lifting appliance lower cross beam rotary supporting part 5 to do rotary motion relative to the lifting appliance upper frame rotary supporting part 3 is installed on the lifting appliance upper frame 2, accurate alignment of the lifting appliance and goods is ensured, a lifting appliance lower cross beam 4 is fixed on the lifting appliance lower cross beam rotary supporting part 5, a plurality of groups of shackle chains 6 are installed on the lifting appliance lower cross beam 4 at intervals, the lower end part of each group of shackle chain 6 is provided with an electromagnetic chuck 7, and the electromagnetic chuck 7 is used for absorbing the goods 100;

the lower surface of the lower beam 4 of the lifting appliance between two adjacent electromagnetic suckers 7 is fixed with a C-shaped claw mounting rack 8, the lower end part of the C-shaped claw mounting rack 8 is higher than the lower end surface of the electromagnetic suckers 7, and the C-shaped claw mounting rack 8 is provided with a first C-shaped claw 91, a second C-shaped claw 92 and a C-shaped claw driving mechanism which can drive the first C-shaped claw 91 and the second C-shaped claw 92 to be opened synchronously or closed synchronously, wherein the first C-shaped claw 91 and the second C-shaped claw 92 are mutually linked.

The slewing bearing driving mechanism comprises a slewing bearing driving speed reducing motor 10 and a slewing bearing standby driving speed reducing motor 11, wherein the slewing bearing driving speed reducing motor 10 is a common motor, and the slewing bearing standby driving speed reducing motor 11 is a standby motor.

The C-shaped claw driving mechanism is a C-shaped claw driving speed reducing motor 12.

A set of shackle chains 6 are respectively installed on the lower hanger beam 4 right below the lower hanger beam slewing bearing part 5 and at two end parts of the lower hanger beam 4, and an electromagnetic suction cup 7 is installed at the lower end part of each set of shackle chains 6.

The utility model can realize the connection of the lifting appliance and various external devices according to the change of the form of the rigging 1.

According to the utility model, a group of C-shaped hooks (comprising a first C-shaped hook 91 and a second C-shaped hook 92) is arranged between two adjacent electromagnetic chucks 7, the first C-shaped hook 91 and the second C-shaped hook 92 which are mutually linked are driven by a C-shaped hook driving speed reduction motor 12, so that 180-degree rotation can be realized, the first C-shaped hook 91 and the second C-shaped hook 92 are in an open state before the electromagnetic chucks 7 absorb goods, and after the electromagnetic chucks 7 absorb goods, the first C-shaped hook 91 and the second C-shaped hook 92 are driven by the C-shaped hook driving speed reduction motor 12 to rotate to a closed state, so that the goods 100 are prevented from falling off in the lifting and transferring processes.

Claims (4)

1. An electromagnetic rotary lifting appliance comprises a rigging (1), an upper lifting appliance rack (2), an upper lifting appliance rack rotary supporting part (3), a lower lifting appliance beam (4), a lower lifting appliance beam rotary supporting part (5), a shackle chain (6) and an electromagnetic sucker (7); the lower end of the rigging (1) is connected with the upper hanger frame (2), the lower end of the upper hanger frame (2) is provided with an upper hanger frame rotary supporting part (3), a lower hanger beam rotary supporting part (5) is installed in the upper hanger frame rotary supporting part (3), the upper hanger frame rotary supporting part (3) is matched with the lower hanger beam rotary supporting part (5), the upper hanger frame (2) is provided with a rotary supporting driving mechanism capable of driving the lower hanger beam rotary supporting part (5) to do rotary motion relative to the upper hanger frame rotary supporting part (3), the lower hanger beam rotary supporting part (5) is fixed with a lower hanger beam (4), a plurality of groups of shackle chains (6) are installed on the lower hanger beam (4) at intervals, and the lower end of each group of shackle chains (6) is provided with an electromagnetic chuck (7);

the method is characterized in that: the lower surface of a lower cross beam (4) of the lifting appliance between two adjacent electromagnetic suckers (7) is fixed with a C-shaped claw mounting frame (8), the lower end part of the C-shaped claw mounting frame (8) is higher than the lower end face of the electromagnetic suckers (7), and a first C-shaped claw (91), a second C-shaped claw (92) and a C-shaped claw driving mechanism capable of driving the first C-shaped claw (91) and the second C-shaped claw (92) to be opened synchronously or closed synchronously are mounted on the C-shaped claw mounting frame (8) in a linkage mode.

2. The electromagnetic rotary spreader of claim 1, wherein: the slewing bearing driving mechanism comprises a slewing bearing driving speed reducing motor (10) and a slewing bearing standby driving speed reducing motor (11).

3. The electromagnetic rotary spreader of claim 1, wherein: the C-shaped claw driving mechanism is a C-shaped claw driving speed reducing motor (12).

4. The electromagnetic rotary spreader of claim 1, wherein: a set of shackle chains (6) are respectively arranged on the lower lifting appliance beam (4) right below the rotary supporting part (5) of the lower lifting appliance beam and at two end parts of the lower lifting appliance beam (4), and an electromagnetic chuck (7) is arranged at the lower end part of each set of shackle chains (6).

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