CN218088521U - Novel high-efficient steel sheet hoist and mount is transported device - Google Patents

Abstract

The utility model relates to a novel high-efficient steel sheet hoist and mount transfer device, press from both sides dress hoist, steel sheet plastic hoist, binding post including main bearing hoisting roof beam, bearing cross arm, steel sheet, the adjustment tank is established to main bearing hoisting roof beam, and bearing cross arm passes through sliding connection between adjustment tank and main bearing hoisting roof beam, bears the cross arm both ends and all presss from both sides the dress hoist with a steel sheet and is connected, and steel sheet plastic hoist is connected with main bearing hoisting roof beam lower extreme face is perpendicular. This is novel effectively overcome traditional lifting device because of lacking effectual location to steel sheet focus position when hoist and mount to the steel sheet, and intermediate position or both ends position are flagging serious when leading to steel sheet hoist and mount, when causing steel sheet structure to warp impaired, also easily lead to having increased the drawback that the steel sheet drops the risk to steel sheet border position location structural strength is not enough because of the steel sheet center is flagging to very big improvement the security and the reliability of steel sheet hoist and mount in-process.

Description

Novel high-efficient steel sheet hoist and mount is transported device

Technical Field

The utility model relates to a handling tool of steel sheet especially indicates a novel high-efficient steel sheet hoist and mount transportation device.

Background

The steel sheet is a flat steel sheet cast from molten steel, cooled, and pressed. At present, the steel sheet of domestic production is mostly flat-plate-shaped, the area of its top surface is greater than the side far away, therefore at the in-process of steel sheet transport, the steel sheet can produce slight deformation by the characteristics of self, and consequently cause the steel sheet to influence the steel sheet structure in hoist and mount process total steel sheet bending deformation, steel sheet and anchor clamps positional stability receive the influence when also easily leading to hoist and mount because of steel sheet bending deformation simultaneously, thereby easily lead to the steel sheet to drop from the slippage in the anchor clamps, thereby seriously influence the security of steel sheet hoist and mount, and consequently cause the bearing capacity when anchor clamps hoist and mount also relatively poor, thereby cause the work efficiency of current steel sheet hoist and mount operation relatively lower, and there is great potential safety hazard.

Therefore, in order to solve the problem, a new hoisting device needs to be developed to overcome the defects of the existing device so as to meet the requirement of actual production work.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel high-efficient steel sheet hoist and mount is transported device, the defect that extravagant labour, work efficiency are low that current jack-up lifting device exists is overcome to its main aim at.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a novel high-efficient steel sheet hoist and mount transfer device, including the main hoist and mount roof beam that bears, bear the cross arm, the steel sheet presss from both sides the dress hoist, steel sheet plastic hoist, binding post, main hoist and mount Liang Yitiao, wherein corresponding up end position sets up rings, main hoist and mount roof beam lower half establishes rather than axis parallel distribution's adjustment tank, adjustment tank length is main at least 90% of bearing the hoist and mount roof beam length, bear the cross arm totally two, the symmetric distribution is in main hoist and mount roof beam mid point both sides, and bear the cross arm inlay in the adjustment tank and through adjustment tank and main hoist and mount sliding connection between the roof beam, bear the cross arm both ends with main hoist and mount roof beam axis symmetric distribution, bear the cross arm both ends and all be connected with a steel sheet clamp hoist through the steel strand wires, and the steel sheet clamp hoist is located under the cross arm and not less than 20 centimetres with the interval between the cross arm, steel sheet plastic hoist is connected with main hoist roof beam lower terminal surface is perpendicular, and is located main hoist and bear the hoist roof beam mid point, and the steel sheet plastic hoist and connect in the terminal surface under the steel sheet plastic hoist and at least 5 milli.

Furthermore, the main bearing hoisting beam and the bearing cross arm are in I-shaped, and Jiong groove-shaped structures in cross section.

Furthermore, the bearing cross arm is of an at least two-stage telescopic rod structure, a positioning clamp and a horizontal sensor are arranged on the outer surface of the bearing cross arm, the positioning clamp wraps the bottom of the adjusting groove and is in sliding connection with the adjusting groove, and the horizontal sensor is located at the midpoint of the bearing cross arm and is electrically connected with the wiring terminal.

Furthermore, the rear side surface of the bearing cross arm is provided with two auxiliary reinforcing columns which are symmetrically distributed on two sides of the main bearing hoisting beam, the rear end surface of each auxiliary reinforcing column is hinged with the rear side surface of the bearing cross arm through an elastic hinge, the front end surface of each auxiliary reinforcing column is connected with the outer side surface of the main bearing hoisting beam through a connecting structure, and the auxiliary reinforcing columns, the bearing cross arm and the main bearing hoisting beam form a right-angled triangle structure.

Furthermore, the steel plate shaping lifting appliance comprises a bearing column, a spring telescopic rod, a positioning disc and an electromagnet, wherein the bearing column is of a cylindrical structure with a rectangular axial cross section, the upper end face of the bearing column is hinged to the lower end face of the main bearing lifting beam through an elastic hinge, the axis of the bearing column and the lower end face of the main bearing lifting beam form an included angle of 0-90 degrees, the lower end face of the bearing column is connected with the spring telescopic rod and coaxially distributed and connected with the positioning disc through the spring telescopic rod, the bearing column, the spring telescopic rod and the positioning disc are coaxially distributed, the lower end face of the positioning disc is provided with at least one electromagnet, and the electromagnet is electrically connected with a wiring terminal.

Further, the positioning disk comprises a base disk, guide arms, bearing springs and elastic lining plates, the base disk is of a disk-shaped structure of any one of a circular shape and a regular polygon shape, the side wall of the base disk is provided with at least three containing grooves which are distributed coaxially around the base disk, each containing groove is internally provided with one guide arm, the axis of each guide arm and the outer side surface of the base disk form an included angle of 0-135 degrees, when the included angle of the axis of each guide arm and the outer side surface of the base disk is 0 degree, the guide arms are embedded in the containing grooves, the guide arms and the axis of the base disk are distributed vertically, the lower end surface of the base disk is internally provided with one electromagnet which is distributed coaxially with the base disk, the lower end surface of the front end of each guide arm is provided with one electromagnet, the electromagnets are mutually connected in parallel with each other and are electrically connected with a connecting terminal, the elastic lining plates are at least two, are uniformly distributed around the axis of the base disk and are connected with the lower end surface of the base disk through the bearing springs, and the elastic lining plates and the lower end surface of the base disk are distributed in parallel with the base disk.

Further, the steel plate clamping lifting appliance comprises a bearing frame, a pressing plate, protection blocks, bearing springs and lifting rings, wherein the bearing frame is of a Contraband-shaped groove-shaped structure, the pressing plate is of a plate-shaped structure with a cross section being rectangular and is embedded in the bearing frame, the rear end face of the pressing plate is in sliding connection with at least two sliding grooves between the bottoms of the bearing frame grooves, the lower end face of the pressing plate is connected with the bottom of the bearing frame through a plurality of bearing springs and is distributed in parallel, the left side face, the right side face and the front end face of the pressing plate are all located outside the bearing frame, the left side face and the right side face of the pressing plate are both connected with the lifting rings, meanwhile, the center of the upper end face of the bearing frame is additionally provided with the lifting rings, the protection blocks are at least two and are embedded in the bearing frame and are connected with the top of the bearing frame, the protection blocks are uniformly distributed in the same straight line direction with the front end face of the bearing frame in parallel, the protection blocks are of a spherical crown-shaped structure, the upper end face of the pressing plate is connected with the bearing frame through the bearing springs, the upper end face of the pressing plate and the anti-slip grooves are at least 80% of the groove, and the groove is formed by the anti-slip grooves and the grooves with the anti-slip grooves and the grooves with the height of the grooves.

Furthermore, an adjusting bolt is arranged on the lower end face of the bearing frame, the adjusting bolt and the pressing plate are coaxially distributed, a connecting screw hole is formed in the lower end face of the bearing frame corresponding to the adjusting bolt, the adjusting bolt is connected with the connecting screw hole through a connecting thread, the upper end face of the adjusting bolt abuts against the pressing plate, and the lower end face of the adjusting bolt is located outside the bearing frame.

Compared with the prior art, the utility model discloses the beneficial effect who produces lies in:

the utility model has simple structure and convenient use, can effectively meet the hoisting operation of steel plates with various structural types, and effectively realize the matching use with hoisting equipment with various structural types, thereby greatly improving the flexibility and the universality of the operation of the utility model; simultaneously at the hoist and mount in-process, effectively overcome traditional lifting device because of lacking effectual location to steel sheet focus position when hoist and mount to the steel sheet, and intermediate position or both ends position flagging are serious when leading to steel sheet hoist and mount, when causing steel sheet structure to warp impaired, also easily because of the flagging and leading to having increased the drawback that the steel sheet drops the risk to steel sheet border position location structural strength is not enough in the steel sheet center to very big improvement the security and the reliability of steel sheet hoist and mount in-process.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic diagram of a steel plate clamping hanger;

fig. 4 is a schematic structural diagram of a positioning plate of a steel plate clamping hanger.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1-4, a novel high-efficient steel sheet hoist and mount transfer device, including main load-bearing hoisting beam 1, load-bearing cross arm 2, steel sheet clamp dress hoist 3, steel sheet plastic hoist 4, binding post 5, main load-bearing hoisting beam 1, wherein the corresponding up end position of point establishes rings 6, main load-bearing hoisting beam 1 lower half establishes rather than axis parallel distribution's adjustment tank 7, adjustment tank 7 length is at least 90% of main load-bearing hoisting beam 1 length, load-bearing cross arm 2 totally two, it distributes in main load-bearing hoisting beam 1 mid point both sides, and load-bearing cross arm 2 inlays in adjustment tank 7 and through adjustment tank 7 and main load-bearing hoisting beam 1 sliding connection, load-bearing cross arm 2 both ends are with main load-bearing hoisting 1 roof beam axis symmetric distribution, load-bearing cross arm 2 both ends all are connected with a steel sheet clamp dress hoist 3 through the steel strand wires, and steel sheet clamp dress hoist 3 is located under load-bearing cross arm 2 and with load-bearing cross arm 2 interval not less than 20 centimetres, steel sheet plastic hoist 4 and main load-bearing beam 1 lower extreme vertical connection with main load-bearing beam 1, and load-bearing cross arm 4 and load-bearing beam 5 electrical hoisting beam 5 centre point inlay in the position, and load-bearing hoisting beam 5 electrical hoisting.

In this embodiment, the main load-bearing hoisting beam 1 and the load-bearing cross arm 2 are both any one of structures having a cross section in a shape like an i, a shape like an 'jiffy', a shape like a '' and a shape like a 'Jiong' groove.

In this embodiment, the bearing cross arm 2 is an at least two-stage telescopic rod structure, a positioning clip 21 and a level sensor 22 are arranged on the outer surface of the bearing cross arm 2, wherein the positioning clip 21 wraps the bottom of the adjusting groove 7 and is in sliding connection with the adjusting groove 7, and the level sensor 22 is located at the midpoint of the bearing cross arm 2 and is electrically connected with the wiring terminal 5.

The condition that the inclination of the bearing cross arm in the hoisting process reaches the inclination of the steel plate in the hoisting process can be realized through the horizontal sensor, and the hoisting safety is further improved.

Meanwhile, the rear side surface of the bearing cross arm 2 is provided with two auxiliary reinforcing columns 23 which are symmetrically distributed on two sides of the main bearing hoisting beam 1, the rear end surface of each auxiliary reinforcing column 23 is hinged with the rear side surface of the bearing cross arm 2 through an elastic hinge, the front end surface of each auxiliary reinforcing column is connected with the outer side surface of the main bearing hoisting beam 1 through a connecting structure, and the auxiliary reinforcing columns 23, the bearing cross arm 2 and the main bearing hoisting beam 1 form a right-angled triangle structure.

Simultaneously, through the auxiliary reinforcing columns, the bearing capacity and the positioning stability of the bearing cross arm can be effectively improved, and the hoisting reliability and the loading capacity of the bearing cross arm are improved.

It is important to explain, the steel sheet plastic hoist 4 includes bearing post 41, spring telescopic link 42, positioning disk 43, electro-magnet 44, bearing post 41 is the column structure that the axial cross-section is the rectangle, and its up end is articulated through the elasticity hinge with main bearing hoist and mount roof beam 1 lower extreme face, and its axis is 0 ° -90 ° contained angle with main bearing hoist and mount roof beam 1 lower extreme face, bearing post 41 lower extreme face and spring telescopic link 42 are connected and coaxial distribution to be connected with a positioning disk 43 through spring telescopic link 42, bearing post 41, spring telescopic link 42, mutual coaxial distribution between positioning disk 43, positioning disk 43 lower extreme face is established at least one electro-magnet 44, electro-magnet 44 and binding post 5 electrical connection.

The height of the steel plate shaping lifting appliance can be adjusted through the spring telescopic rod structure arranged on the steel plate shaping lifting appliance, so that the convenience of adjustment during steel plate lifting assembly is met, and the efficiency and the reliability of steel plate installation and positioning are improved; on the other hand, the vibration elasticity absorption during the hoisting of the steel plate can be effectively realized, and the hoisting stability of the steel plate is improved.

Specifically, the positioning plate 43 includes a base plate 431, a guide arm 432, a bearing spring 433, and an elastic lining plate 434, wherein the base plate 431 is a disc-shaped structure of any one of a circle and a regular polygon, the side wall of the base plate 431 is provided with at least three accommodating grooves 435 coaxially distributed around the base plate 431, each accommodating groove 435 is provided with one guide arm 432, the axis of the guide arm 432 forms an included angle of 0-135 ° with the outer side surface of the base plate 431, when the included angle between the axis of the guide arm 432 and the outer side surface of the base plate 431 is 0 °, the guide arm 432 is embedded in the accommodating groove 435, the guide arm 432 and the axis of the base plate 431 are vertically distributed, the lower end surface of the base plate 431 is provided with an electromagnet 44 coaxially distributed with the base plate 431, the lower end surface of the front end of the guide arm 432 is provided with one electromagnet 44, the electromagnets 44 are mutually parallel and electrically connected with a connection terminal 5, at least two elastic lining plates 434 are uniformly distributed around the axis of the base plate 431 and connected with the lower end surface of the base plate 31 through the bearing spring 433.

The positioning disc can effectively adjust the positioning area of the positioning disc and the contact surface of the steel plate according to use requirements through the connecting structure of the base disc and the guide arm, the stability of supporting and positioning the steel plate is improved, and the requirements of hoisting and positioning the steel plates with different surface areas are met.

Meanwhile, when the steel plate needs to be loosened in operation, the electromagnet stops operating, the plowing plate and the base plate are forcibly distributed with force by the elastic lining plate under the driving of the elastic acting force of the bearing spring, and the condition that the steel plate is not separated smoothly from the base plate due to residual magnetism is eliminated.

In addition, the steel plate clamping hanger 3 comprises a bearing frame 31, a pressure plate 32, a protection block 33, a bearing spring 433 and a hanging ring 6, wherein the bearing frame 31 is in a structure of Contraband-shaped groove, the pressure plate 32 is in a plate-shaped structure with a rectangular cross section and is embedded in the bearing frame 31, the rear end face of the pressure plate 32 is connected between the bottoms of the bearing frame 31 through at least two sliding grooves 36 in a sliding manner, the lower end face is connected with the bottom of the bearing frame 31 through a plurality of bearing springs 433 and is distributed in parallel, the left side face, the right side face and the front end face of the pressure plate 32 are all positioned outside the bearing frame 31, the left side face and the right side face of the pressure plate 32 are all connected with one hanging ring 6, and the central position of the upper end face of the bearing frame 31 is additionally provided with one hanging ring 6, the utility model discloses a bearing frame 31, including bearing frame 31, protection piece 33, bearing frame 31, bearing spring 343, protection piece 33, bearing frame 31, pressure plate 32, protection piece 33, the interval is 0 to the 80% of bearing frame 31 height between interval, and the protection piece 33 is embedded in bearing frame 31 and is connected at bearing frame 31 top, and each protection piece 33 equipartition is on same and bearing frame 31 preceding terminal surface parallel distribution's straight line direction, protection piece 33 is the crown-shaped structure, is connected through bearing spring 343 between its up end and bearing frame 31, and the interval is not more than 1/2 of bearing frame 31 width between two adjacent protection pieces 33, and the interval is at least 80% of bearing frame 31 cell body depth between protection piece 33 and the clamp plate 32, protection piece 33.

Through the rings that set up respectively on bearing frame and clamp plate, when pressing from both sides the hoist to the steel sheet through rings, the rings at bearing frame top realize pressing from both sides the hoist to the steel sheet and carry out the hoist and mount the operation, and the rings of clamp plate side surface are in the supplementary steel sheet that carries on press from both sides the hoist and carry out the hoist and mount the operation the time, can provide ascending pulling force for the clamp plate in addition, and supplementary clamp plate is to the steel sheet operation of step up, improves the stability of clamp plate to the steel sheet location.

In this embodiment, an adjusting bolt 34 is disposed on the lower end surface of the carrying frame 31, the adjusting bolt 34 and the pressing plate 32 are coaxially distributed, a connecting screw hole 35 is disposed on the lower end surface of the carrying frame corresponding to the adjusting bolt 34, the adjusting bolt 34 and the connecting screw hole 35 are connected by a connecting thread, the upper end surface of the adjusting bolt 34 abuts against the pressing plate 32, and the lower end surface is located outside the carrying frame 31.

When the steel plate is hoisted, the steel plate is clamped and positioned between the pressure plate and the top of the bearing frame, and in the positioning process, on one hand, the steel plate is forcibly clamped through the arranged protective blocks and the anti-skid grooves on the upper end surface of the pressure plate, so that the clamping and positioning stability is improved; on the other hand, the working position of the pressure regulating plate is regulated through the regulating bolt, and the pressure plate is prevented from being loosened and taken off when the pressure plate is used for clamping the steel plate.

In addition, through the pressure structure between clamp plate and the protection piece, make the steel sheet lead to the position to take place to deform because of the extrusion force of protection piece spherical crown structure and clamp plate, make and increase steel sheet clamping-force and anti-loosening ability to improve the steel sheet and press from both sides the purpose of stability, the reliability that the dress hoist was steps up to the steel sheet.

This is novel in concrete implementation, at first to constituting this neotype main load-bearing hoisting roof beam, bear cross arm, steel sheet clamp dress hoist, steel sheet plastic hoist, binding post assemble, obtain finished product lifting device, then be connected hoisting device's main load-bearing hoisting roof beam through rings and hoist to through the electric connection between the control circuit of binding post and hoist, can accomplish the assembly of this neotype lifting device.

When hoisting operation is carried out, firstly, according to the structural solution of a steel plate to be hoisted, the working positions of two bearing cross arms are adjusted, the length of the bearing cross arms is adjusted, the distance between the bearing cross arms and the steel plate clamping lifting appliances is adjusted, then the height of the novel hoisting equipment is adjusted through a crane, on one hand, each steel plate clamping lifting appliance is respectively coated at the edge position of the steel plate to be hoisted, each steel plate clamping lifting appliance is symmetrically distributed along the axis of the steel plate to be hoisted, on the other hand, the steel plate shaping lifting appliances are vertically distributed and abutted against the upper end face of the steel plate to be hoisted, and the steel plate shaping lifting appliances are coaxially distributed with the steel plate to be hoisted; the steel plate positioning device can perform lifting operation, firstly, a steel plate subjected to positioning is lifted and transferred by a crane in the lifting process, after the steel plate is lifted, the two ends or the center of the steel plate droop under the combined action of the gravity of the steel plate and the supporting positions of all steel plate clamping lifting appliances, then the steel plate clamping lifting appliances are driven to operate, and when the middle positions of the steel plate protrude due to the fact that the two ends of the steel plate droop, the steel plate shaping lifting appliances support and limit the middle instability of the steel plate, so that the middle part of the steel plate is prevented from tilting; when the steel sheet middle part droops, then the electro-magnet operation of drive steel sheet plastic hoist is fixed a position the steel sheet by the electromagnetic force, prevents that the steel sheet from drooping to reach the shaping of hoist and mount in-process steel sheet, improve steel sheet hoist and mount quality and reduce and prevent that the steel sheet risk of droing.

Compared with the prior art, the utility model discloses the beneficial effect who produces lies in:

the utility model has simple structure and convenient use, can effectively meet the hoisting operation of steel plates with various structural types, and effectively realize the matching use with hoisting equipment with various structural types, thereby greatly improving the flexibility and the universality of the operation of the utility model; simultaneously at the hoist and mount in-process, effectively overcome traditional lifting device because of lacking effectual location to steel sheet focus position when hoist and mount to the steel sheet, and intermediate position or both ends position flagging are serious when leading to steel sheet hoist and mount, when causing steel sheet structure to warp impaired, also easily because of the flagging and leading to having increased the drawback that the steel sheet drops the risk to steel sheet border position location structural strength is not enough in the steel sheet center to very big improvement the security and the reliability of steel sheet hoist and mount in-process.

The above is only the embodiment of the present invention, but the design concept of the present invention is not limited to this, and the present invention performs the insubstantial modification, and all shall belong to the infringement of the protection scope of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but rather that various changes and modifications may be made without departing from the spirit and scope of the invention, which is intended to be covered by the appended claims. The scope of the present novel claims is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a novel high-efficient steel sheet hoist and mount is transported device which characterized in that: novel high-efficient steel sheet hoist and mount transfer device presss from both sides dress hoist, steel sheet plastic hoist, binding post including main bearing hoisting roof beam, bearing cross arm, steel sheet, main bearing hoisting Liang Yitiao, wherein corresponding up end position establishes rings, and main bearing hoisting roof beam lower half establishes rather than axis parallel distribution's adjustment tank, adjustment tank length is main bearing hoisting roof beam length at least 90%, bearing cross arm totally two, symmetric distribution is in main bearing hoisting roof beam mid point both sides, bears the cross arm inlay in the adjustment tank and through sliding connection between adjustment tank and main bearing hoisting roof beam, and bears the cross arm both ends with main bearing hoisting roof beam axis symmetric distribution, bearing cross arm both ends all are connected through steel strand wires and a steel sheet clamp dress hoist, and the steel sheet presss from both sides the dress hoist and is located bearing cross arm below and not less than 20 centimetres with bearing cross arm interval, steel sheet plastic hoist is connected with main bearing hoisting roof beam lower terminal surface is perpendicular to be located main bearing hoisting roof beam mid point, and steel sheet plastic hoist lower terminal surface is located steel sheet clamp dress hoist below 5 milli-meter at least, and electrical connection hoist in at least one plastic binding post upper end surface.

2. The novel high-efficiency steel plate hoisting and transferring device of claim 1, wherein: the main bearing hoisting beam and the bearing cross arm are in I-shaped, -shaped and Jiong-shaped groove-shaped structures in cross section.

3. The novel high-efficiency steel plate hoisting and transferring device as claimed in claim 1, characterized in that: the bearing cross arm is of an at least two-stage telescopic rod structure, a positioning clamp and a horizontal sensor are arranged on the outer surface of the bearing cross arm, the positioning clamp is wrapped outside the bottom of the adjusting groove and is in sliding connection with the adjusting groove, and the horizontal sensor is located in the middle point position of the bearing cross arm and is electrically connected with the wiring terminal.

4. A novel high-efficient steel sheet hoist and mount transfer device of claim 1 or 3 characterized in that: the bearing cross arm is characterized in that the rear side face of the bearing cross arm is provided with two auxiliary reinforcing columns which are symmetrically distributed on two sides of the main bearing hoisting beam, the rear end face of each auxiliary reinforcing column is hinged to the rear side face of the bearing cross arm through an elastic hinge, the front end face of each auxiliary reinforcing column is connected with the outer side face of the main bearing hoisting beam through a connecting structure, and the auxiliary reinforcing columns, the bearing cross arm and the main bearing hoisting beam form a right-angled triangular structure.

5. The novel high-efficiency steel plate hoisting and transferring device of claim 1, wherein: the steel sheet plastic hoist includes carrier post, spring telescopic link, positioning disk, electro-magnet, the carrier post is the columnar structure that axial cross-section is the rectangle, and it is articulated through elastic hinge between terminal surface under its up end and the main load hoist and mount roof beam, and its axis is 0-90 contained angle with main load hoist and mount roof beam lower extreme, the terminal surface is connected and coaxial distribution with the spring telescopic link under the carrier post to be connected with a positioning disk through the spring telescopic link, mutual coaxial distribution between carrier post, spring telescopic link, positioning disk, at least one electro-magnet is established to the terminal surface under the positioning disk, electro-magnet and binding post electrical connection.

6. The novel high-efficiency steel plate hoisting and transferring device of claim 5, wherein: the positioning disk comprises a base disk, guide arms, bearing springs and elastic lining plates, the base disk is of a disc structure of any one of circular shapes and regular polygons, the side wall of the base disk is provided with at least three containing grooves which are distributed coaxially around the base disk, each containing groove is internally provided with one guide arm, each guide arm axis and the outer side surface of the base disk form an included angle of 0-135 degrees, when the included angle between the guide arm axis and the outer side surface of the base disk is 0 degree, the guide arms are embedded in the containing grooves, the guide arms and the base disk axis are vertically distributed, the inner end surface of the base disk is internally provided with one electromagnet which is distributed coaxially with the base disk, the lower end surface of the front end of each guide arm is provided with one electromagnet, the electromagnets are mutually connected in parallel and electrically connected with a wiring terminal, the elastic lining plates are at least two, are uniformly distributed around the axis of the base disk and are connected with the lower end surface of the base disk through the bearing springs, and the elastic lining plates and the lower end surface of the base disk are distributed in parallel.

7. The novel high-efficiency steel plate hoisting and transferring device of claim 1, wherein: the steel plate clamping lifting appliance comprises a bearing frame, a pressing plate, protection blocks, bearing springs and lifting rings, wherein the bearing frame is of a Contraband character groove-shaped structure, the pressing plate is of a plate-shaped structure with a rectangular cross section and is embedded in the bearing frame, the rear end face of the pressing plate is connected with the bottom of the bearing frame through at least two sliding grooves in a sliding mode, the lower end face of the pressing plate is connected with the bottom of the bearing frame through a plurality of bearing springs and is distributed in parallel, the left side face, the right side face and the front end face of the pressing plate are located outside the bearing frame, the left side face and the right side face of the pressing plate are connected with the lifting rings, the lifting rings are additionally arranged at the center of the upper end face of the bearing frame, the protection blocks are at least two and are embedded in the bearing frame and are connected with the top of the bearing frame, the protection blocks are uniformly distributed on the same straight line direction with the front end face of the bearing frame in a parallel mode, the protection blocks are of a spherical crown-shaped structure, the upper end face of the pressing plate is connected with the bearing frame through the bearing springs, the upper end face of the bearing frame and the bearing frame, the anti-slip blocks are not more than 1/2 of the width of the bearing frame, the protection blocks are at least 80% of the groove, and the anti-slip-proof blocks, and the anti-proof blocks are uniformly distributed between the anti-proof blocks, and the anti-proof blocks are at least 80% of the anti-slip grooves, and the anti-proof blocks are arranged between the anti-slip grooves, and the anti-proof blocks are arranged between the anti-proof blocks.

8. The novel high-efficiency steel plate hoisting and transferring device of claim 7, wherein: an adjusting bolt is arranged on the lower end face of the bearing frame, the adjusting bolt and the pressing plate are coaxially distributed, a connecting screw hole is formed in the lower end face of the bearing frame corresponding to the adjusting bolt, the adjusting bolt is connected with the connecting screw hole through connecting threads, the upper end face of the adjusting bolt abuts against the pressing plate, and the lower end face is located outside the bearing frame.

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