CN116768069A - Steel coil suspension carrying protection type crane - Google Patents

Abstract

The invention relates to the technical field of cranes, in particular to a steel coil suspension conveying protection type crane. The invention provides a steel coil suspension conveying protection type crane which can support a steel coil to avoid falling and further improve stability. The utility model provides a coil of strip suspends transport protection type hoist, including support frame, guide rail, stator, active cell, holding ring, stay cord, rolling wheel and deflector etc. two altogether, the support frame is symmetrical distribution, and the support frame top all is fixed with the guide rail, and slidingtype between the guide rail is equipped with the stator, is equipped with the active cell on the stator, and the symmetry is fixed with the holding ring on the active cell, and the rolling wheel is installed to the symmetry on the active cell, and the rolling wheel all links to each other with similar holding ring rotation type, and the equal round connection has the stay cord on the rolling wheel, is connected with the deflector between the one end that the stay cord is close to each other. The bottom surface of the steel pipe is supported by the electric sliding block, so that the steel pipe can be prevented from falling in the conveying process, and the use safety is improved.

Description

Steel coil suspension carrying protection type crane

Technical Field

The invention relates to the technical field of cranes, in particular to a steel coil suspension conveying protection type crane.

Background

The steel coil is also called as coiled steel, and is formed into coiled large steel by hot pressing or cold pressing for convenient storage and transportation. In the production process flow of the steel coil, the steel coil is required to be transported for a plurality of times, and a crane is generally used for completing the transportation.

The automatic steel coil lifting device of the automatic unmanned crane comprises a control device and an electric hoist, wherein the electric hoist comprises a travelling mechanism, a reel bracket, reels, a lifting motor and a steel wire rope, pulleys and lifting hooks are arranged on the steel wire rope, the control device is in signal connection with the lifting motor, lifting lugs are arranged on the lifting hooks, a connecting plate which is horizontally distributed is fixedly connected to the bottoms of the lifting lugs, mounting plates are vertically and fixedly connected to the two sides of the bottoms of the connecting plates, a lead screw is arranged between the mounting plates, one end of the lead screw is rotationally connected with one of the mounting plates, the other end of the lead screw is connected with a lifting motor arranged on the mounting plate after passing through the other mounting plate, screw directions of the two ends of the lead screw are opposite and are all in threaded connection with hook plates, hooks of the hook plates are all turned inwards, the lifting motor is in signal connection with the control device, and anti-dropping chains are arranged at the two ends of the reel bracket, so that the steel coil transportation does not depend on manual automatic lifting and lifting, and the lifting efficiency is improved; preventing safety accidents caused by falling of the electric hoist. However, this patent has the following problems:

when the steel coil is transported, the stability is not high enough, the steel coil is hooked by the hook plate only, and the steel coil is easy to shake due to the influence of external factors in actual use, so that the stability of the steel coil is difficult to ensure.

Aiming at the problems that the fixing mode of the steel coil is single and the stability is difficult to guarantee in the above patent, the steel coil suspension carrying protection type crane which can support the steel coil to avoid falling and further improve the stability is needed to be designed.

Disclosure of Invention

In order to overcome the defect that the existing lifting device has a single fixing mode for steel coils and is difficult to ensure stability, the invention provides the steel coil suspension conveying protection type crane capable of supporting the steel coils to avoid falling and further improving the stability.

The utility model provides a steel coil suspends transport protection type hoist, which comprises a supporting rack, the guide rail, the stator, the active cell, the supporting ring, the stay cord, the winding wheel, the deflector, two-way push rod, the riding block, control box and protection machanism, the support frame is two altogether, be symmetrical distribution, the support frame top all is fixed with the guide rail, sliding type is equipped with the stator between the guide rail, sliding type is equipped with the active cell on the stator, symmetrical supporting ring that is fixed with on the active cell, the winding wheel is installed to the symmetry on the active cell, the winding wheel all links to each other with the nearly supporting ring rotation formula, all the round connection has the stay cord on the winding wheel, be connected with the deflector between the one end that the stay cord is close to each other, fixedly connected with two-way push rod on the deflector, all be connected with the riding block that can block the steel coil on the two-way push rod telescopic link to each other, the control box is all installed to support frame lower part one side, the winding wheel, the stator, two-way push rod all links to each other with the control box electrical property, be equipped with protection machanism that can improve the steel coil stability on the deflector.

Further, protection machanism is including link, lifter, coupling spring, electric slider and connecting rod, and the symmetry is fixed with the link on the deflector, and equal slidingtype is equipped with the lifter on the link, all is connected with coupling spring between lifter and the link, and equal slidingtype is equipped with the electric slider that can hold in the palm the coil of strip on the lifter, and electric slider all links to each other with the control box electrical property, and equal rotation is equipped with the connecting rod on the electric slider, and the connecting rod all links to each other with similar lifter slidingtype and rotation.

Further, the device also comprises a driving mechanism capable of moving along the direction of moving the steel coil towards the direction perpendicular to the stator, the driving mechanism comprises a rotating wheel, a driving motor, a belt pulley and a driving belt, the driving motor is symmetrically arranged at the top of the stator, the rotating wheels are rotatably arranged at two sides of the opposite surface of the stator, the rotating wheels are clamped with similar guide rails, the belt pulleys are connected to the output shafts of the rotating wheels and the driving motor, and the driving belt is sleeved between the two belt pulleys at one side.

Further, the steel coil fixing device comprises a clamping mechanism, the clamping mechanism comprises sliding blocks, tension springs, lower pressing blocks, connecting plates, rotating blocks, torsion springs and rotating rollers, the sliding blocks are symmetrically arranged on two sides of opposite faces of the guide plates, the tension springs are symmetrically connected between the sliding blocks and the guide plates, the lower pressing blocks are symmetrically arranged on the inner sides of the guide plates in a sliding mode, the rotating blocks are rotatably arranged on the lower pressing blocks, the rotating rollers capable of improving stability of steel coils are rotatably arranged between the rotating blocks of two opposite faces, the torsion springs are connected between the rotating blocks and the adjacent lower pressing blocks, the connecting plates are rotatably arranged between the adjacent sliding blocks and the lower pressing blocks, and the supporting blocks can contact with the adjacent sliding blocks in an inward moving mode.

Further, the device also comprises a pressurizing mechanism, wherein the pressurizing mechanism comprises a pressurizing block and an extruding spring, the pressurizing blocks are arranged on the supporting blocks in a sliding mode, and the extruding springs are connected between the pressurizing blocks and the adjacent supporting blocks.

Further, the device also comprises a cushion, and the inner sides of the pressing blocks are connected with the cushion.

Further, the steel coil gravity detection device also comprises a weight measurement mechanism, wherein the weight measurement mechanism comprises a pressure sensor and a display screen, the pressure sensor capable of detecting the steel coil gravity is arranged on the inner side of the supporting block, the display screen for displaying data is arranged on the outer side of the connecting frame, the pressure sensor is electrically connected with the control box, and the display screen is electrically connected with the control box.

The invention provides a steel coil suspension conveying protection type crane, which has the following advantages:

1. the bottom surface of the steel pipe is supported by the electric slide block, so that the falling condition of the steel pipe in the conveying process can be avoided, and the use safety is improved;

2. the stator can move along the front and back directions of the steel coil, and the driving mechanism can move along the left and right directions of the steel coil, so that the stator is more flexible to use and can be conveyed to a designated position as required;

3. the steel coil can be clamped by the rotating roller while the steel coil is clamped by the supporting block, so that the left and right displacement of the steel coil is avoided;

4. the speed limiting mechanism can timely clamp the winding wheel when the winding wheel rotates reversely to have abnormal speed, so that the situation that operators are accidentally injured by the steel coil during rapid descent is avoided;

5. the pressurizing block and the extrusion spring can limit the steel coil, so that the steel coil is prevented from swinging back and forth, the steel coil is prevented from being scattered due to unexpected conditions, and the stability of the steel coil during transportation is improved;

6. the pressure sensor can detect the gravity of the steel coil, and overweight of the steel coil is avoided.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a first partial cross-sectional view of the present invention.

Fig. 4 is a second partial cross-sectional view of the present invention.

Fig. 5 is a schematic perspective view of a driving mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a driving mechanism part of the present invention.

Fig. 7 is a schematic perspective view of a protection mechanism according to the present invention.

Fig. 8 is a schematic perspective view of a clamping mechanism according to the present invention.

Fig. 9 is a schematic view of a part of a perspective structure of a clamping mechanism of the present invention.

Fig. 10 is a schematic perspective view of a pressurizing mechanism according to the present invention.

FIG. 11 is a schematic perspective view of a weight measuring mechanism according to the present invention.

In the above figures: 1: support frame, 2: guide rail, 3: stator, 4: mover, 41: support ring, 5: pull rope, 51: winding wheel, 6: guide plate, 7: bidirectional push rod, 8: support block, 9: control box, 10: drive mechanism, 100: rotating wheel, 101: drive motor, 102: pulley, 103: drive belt, 11: protection mechanism, 110: connecting frame, 111: lifting block, 112: connecting spring, 113: motorized slider, 114: connecting rod, 12: clamping mechanism, 120: sliding block, 121: extension spring, 122: pressing blocks, 123: connection plate, 124: rotating block, 125: torsion spring, 126: rotating roller, 14: pressurizing mechanism, 140: pressurizing block, 141: compression spring, 15: weight measurement mechanism, 150: pressure sensor, 151: display screen, 16: a mat.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The utility model provides a steel coil suspension transport protection type crane, as shown in fig. 1-4, including support frame 1, guide rail 2, the stator 3, the active cell 4, the holding ring 41, stay cord 5, the winding wheel 51, deflector 6, two-way push rod 7, riding block 8, control box 9, actuating mechanism 10 and protection mechanism 11, support frame 1 is two altogether, be front and back symmetric distribution, support frame 1 top all is fixed with guide rail 2, be equipped with the stator 3 between the guide rail 2, be equipped with active cell 4 on the stator 3 slidingly, the front and back symmetric is fixed with the holding ring 41 on the active cell 4, the winding wheel 51 is installed to the active cell 4 in front and back symmetry, winding wheel 51 all links to each other with similar holding ring 41 rotation formula, all the round connection has two stay cords 5 on the winding wheel 51, be connected with deflector 6 between the tail end of stay cord 5, deflector 6 top is fixed with two-way push rod 7, all be connected with the riding block 8 that can block the steel coil on the two-way push rod 7 telescopic link, control box 9 is all installed to support frame 1 lower part left side, winding wheel 51, stator 3, two-way push rod 7 all link to control box 9 with the control box 9 electrical connection with 3, be equipped with the stator 3 on the stator 3 and the protection mechanism that can move towards the direction of the deflector 6 that can move towards perpendicular to the direction of the steel coil 6.

As shown in fig. 1, fig. 2, fig. 3, fig. 5 and fig. 7, the protection mechanism 11 comprises a connecting frame 110, lifting blocks 111, connecting springs 112, electric sliding blocks 113 and connecting rods 114, the connecting frame 110 is symmetrically fixed on the guide plate 6 in a left-right mode, the lifting blocks 111 are arranged on the connecting frame 110 in a sliding mode, two connecting springs 112 are connected between the lifting blocks 111 and the inside of the connecting frame 110, the electric sliding blocks 113 capable of supporting steel coils are arranged on the lifting blocks 111 in a sliding mode, the electric sliding blocks 113 are electrically connected with the control box 9, the connecting rods 114 are arranged on the electric sliding blocks 113 in a rotating mode, and the connecting rods 114 are connected with the similar lifting blocks 111 in a sliding mode and a rotating mode.

As shown in fig. 1, 5 and 6, the motor drive device further comprises a driving mechanism 10, the driving mechanism 10 comprises a rotating wheel 100, a driving motor 101, a belt pulley 102 and a transmission belt 103, the driving motor 101 is symmetrically arranged on the top of the stator 3, two rotating wheels 100 are rotatably arranged on the front side and the rear side of the stator 3, the rotating wheels 100 are clamped with similar guide rails 2, the belt pulleys 102 are connected on the output shafts of the rotating wheels 100 and the driving motor 101, and the transmission belt 103 is sleeved on the belt pulley 102 on the front side and the belt pulley 102 on the rear side.

The device is mainly used for hanging and moving steel coils, the device can be installed in a processing plant and is convenient for conveying the steel coils, when the device is used, the steel coils can be pushed to a position right below the supporting blocks 8, then the control box 9 can control the electric sliding blocks 113 to move outwards, the connecting rods 114 are further driven to rotate and retract, then the winding wheels 51 are controlled to loosen the pull ropes 5, the guide plates 6, the bidirectional push rods 7, the supporting blocks 8 and the protection mechanisms 11 are integrally lowered downwards due to gravity, the lifting blocks 111 are firstly contacted with the ground, the connecting frames 110 are positioned on the left side and the right side of the steel coils, the supporting blocks 8 are not aligned with the centers of the steel coils, the connecting springs 112 are extruded and compressed along with the continuous downward movement of the connecting frames 110, the winding wheels 51 can be closed after the supporting blocks 8 are moved down to a proper position, the telescopic rods of the bidirectional push rods 7 are initially in an extending state, the telescopic rods of the bidirectional push rods 7 can be controlled to retract, the supporting block 8 is driven to move inwards, the supporting block 8 is clamped into the center of the steel coil, the steel tube is supported, the bidirectional push rod 7 can be closed, then the winding wheel 51 is controlled to rotate forwards to wind the pull rope 5, the guide plate 6, the bidirectional push rod 7, the supporting block 8 and the protection mechanism 11 are pulled by the pull rope 5 to move upwards together with the steel coil, the connecting frame 110 moves upwards without pressing the connecting spring 112, the connecting spring 112 is reset, the electric sliding block 113 is controlled to move inwards to reset, the electric sliding block 113 drives the connecting rod 114 to rotate reversely to reset, the electric sliding block 113 supports the bottom surface of the steel coil, the connecting rod 114 is also attached to the steel coil, the steel coil is further limited, the steel coil can be prevented from falling due to instability of the supporting block 8 in the conveying process, the winding wheel 51 is closed after the steel coil moves upwards to a proper height, then the driving motor 101 can be controlled to operate by the control box 9, the output shaft of the driving motor 101 rotates to drive the rotating wheel 100 to rotate through the transmission of the belt pulley 102 and the transmission belt 103, the rotating wheel 100 rotates to move rightward along the guide rail 2 and then repeatedly is clamped with the guide rail 2, the rotating wheel 100 moves rightward to drive the stator 3 and the rotor 4 to move rightward, all parts on the rotor 4 move along with the steel coil, the supporting block 8 drives the steel coil to move rightward, the stator 3 can move forward or backward with the rotor 4, the steel coil moves in a direction perpendicular to the stator, driving can be controlled by the control box 9 according to the requirement, after the steel coil moves to a specified position, the driving motor 101 can be closed, the operation can be repeated to enable the winding wheel 51 to reversely loosen the pull rope 5, so that the steel coil falls due to self gravity, when the steel coil is about to contact with the ground, the steel coil can control the electric sliding block 113 to move outward to be retracted, so that the steel coil is not limited any more, after the steel coil contacts with the ground, the control box 9 controls the bidirectional push rod 7 to stretch, and then drives the supporting block 8 to move outward, so that the steel coil is not blocked, the rest is unloaded according to the requirement, the steel coil is transported according to the requirement, the safety risk of falling can be reduced, and the safety risk of falling can be lowered through the mechanism 11.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2, 3, 8 and 9, the steel coil fixing device further comprises a clamping mechanism 12, the clamping mechanism 12 comprises sliding blocks 120, tension springs 121, lower pressing blocks 122, connecting plates 123, rotating blocks 124, torsion springs 125 and rotating rollers 126, sliding blocks 120 are symmetrically arranged on the left side and the right side of a guide plate 6 in a sliding mode, tension springs 121 are connected between the sliding blocks 120 and the inside of the guide plate 6, two lower pressing blocks 122 are symmetrically arranged on the inner side of the guide plate 6 in a sliding mode, rotating blocks 124 are rotatably arranged on the lower pressing blocks 122, rotating rollers 126 capable of improving stability of steel coils are rotatably arranged between the left rotating blocks 124 and the right rotating blocks 124, torsion springs 125 are connected between the rotating blocks 124 and the adjacent lower pressing blocks 122, connecting plates 123 are rotatably arranged between the adjacent sliding blocks 120 and the lower pressing blocks 122, and the supporting blocks 8 can move inwards to be in contact with the adjacent sliding blocks 120.

When the supporting block 8 moves inwards to clamp the steel coil, the supporting block 8 contacts with the sliding block 120, the sliding block 120 is pushed to move inwards, the tension spring 121 stretches along with the sliding block, the sliding block 120 pushes the connecting plate 123 to rotate, the connecting plate 123 drives the lower pressing block 122 to move downwards, the lower pressing block 122 drives the rotating block 124 to move downwards with the rotating roller 126, the rotating roller 126 contacts with the steel coil, the connecting plate 123 is driven to rotate reversely along with the downward movement of the rotating roller 126, the connecting plate 123 drives the lower pressing block 122 to move upwards and rotate along the connecting plate 123 through friction rotation, the rotating roller 126 can be tightly attached to the steel coil through the force of deformation of the torsion spring 125, the stability of the steel coil is improved, the left-right swing is lightened, meanwhile, accidental scattering of the steel coil can be prevented, after the steel coil is conveyed to a designated position, the supporting block 8 moves outwards and is not clamped any more, the supporting block 8 is no longer in contact with the sliding block 120, the sliding block 120 moves to reset under the reset action of the tension spring 121, the connecting plate 123 is driven to rotate reversely, the connecting plate 123 drives the lower pressing block 122 to move upwards, and the rotating block 122 moves upwards and the reset roller 126 moves upwards along with the connecting plate 123, and the rotating spring 126 rotates reversely, and the rotating block 126 is driven to rotate upwards and moves upwards under the reset action of the reset roller 126.

As shown in fig. 3 and 10, the device further comprises a pressurizing mechanism 14, the pressurizing mechanism 14 comprises a pressurizing block 140 and a pressing spring 141, the pressurizing blocks 140 are slidably arranged on the supporting blocks 8, and the pressing springs 141 are connected between the pressurizing blocks 140 and the adjacent supporting blocks 8.

As shown in fig. 10, the steel coil is further provided with a cushion 16, the cushion 16 is connected to the inner side of the pressurizing block 140, and when the pressurizing block 140 contacts with the steel coil, the cushion can be achieved, and meanwhile friction force is improved, so that the steel coil is more stable.

When the supporting block 8 moves inwards to clamp the steel coil, the pressing block 140 is driven to move inwards, so that the pressing block 140 is in contact with the front wall and the rear wall of the steel coil, the pressing block 8 continuously moves to press the pressing spring 141, the pressing spring 141 is compressed, the steel coil can be prevented from swinging forwards and backwards through the force of the pressing spring 141, the reinforcing effect is achieved, when the steel coil moves to a specified position to be dismounted, the supporting block 8 moves outwards, the pressing spring 141 is not pressed any more, the pressing spring 141 is reset, and then the pressing block 140 moves outwards to reset, so that the steel coil is separated from contact.

As shown in fig. 1, 2, 3 and 11, the steel coil gravity detection device further comprises a weight measuring mechanism 15, the weight measuring mechanism 15 comprises a pressure sensor 150 and a display screen 151, the pressure sensor 150 capable of detecting the steel coil gravity is mounted on the inner side of the supporting block 8, the display screen 151 for displaying data is mounted on the outer side of the connecting frame 110, the pressure sensor 150 is electrically connected with the control box 9, and the display screen 151 is electrically connected with the control box 9.

When the steel coil is clamped by the supporting blocks 8 and upwards moved, the force of the steel coil is pressed on the pressure sensor 150, the pressure sensor 150 can detect the gravity of the steel coil, data can be transmitted to the control box 9, then the data are transmitted to the display screen 151 through the control box 9, people can check the gravity of the steel coil through the display screen 151, whether overweight is obtained, falling of the steel coil during conveying of the heavier steel coil is avoided, and safety is improved.

While the invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (7)

1. The utility model provides a coil of strip suspends in midair transport protection type hoist which characterized in that: including support frame (1), guide rail (2), stator (3), active cell (4), go up supporting ring (41), stay cord (5), take-up reel (51), deflector (6), two-way push rod (7), riding block (8), control box (9) and protection machanism (11), support frame (1) are two altogether, be symmetrical distribution, support frame (1) top all is fixed with guide rail (2), slidingtype between guide rail (2) is equipped with stator (3), be equipped with active cell (4) on stator (3), symmetrical on active cell (4) is fixed with go-up supporting ring (41), take-up reel (51) are installed to the symmetry on active cell (4), all link to each other with the rotation type of similar supporting ring (41) of take-up reel (51), all the round connection has stay cord (5) on take-up reel (51), be connected with deflector (6) between the one end that stay cord (5) are close to each other, fixedly connected with two-way push rod (7) on deflector (6), all be connected with riding block (8) that can block on two-way push rod (7) telescopic link to each other on the steel coil, riding block (8) and deflector (6) slidingtype connection with deflector (6), control box (1) one side (9) of support frame (1), one side (3) are installed down, the bidirectional push rods (7) are electrically connected with the control box (9), and the guide plates (6) are provided with protection mechanisms (11) capable of improving the stability of steel coils.

2. A steel coil hanging and carrying protective crane as claimed in claim 1, wherein: protection machanism (11) are including link (110), lifting block (111), coupling spring (112), electronic slider (113) and connecting rod (114), symmetry is fixed with link (110) on deflector (6), all slidingtype is equipped with lifting block (111) on link (110), all be connected with coupling spring (112) between lifting block (111) and link (110), all slidingtype is equipped with electronic slider (113) that can hold in the palm the coil of strip on lifting block (111), electronic slider (113) all links to each other with control box (9) electrical property, all rotation is equipped with connecting rod (114) on electronic slider (113), connecting rod (114) all link to each other with similar lifting block (111) slidingtype and rotation.

3. A steel coil hanging and carrying protective crane as claimed in claim 2, wherein: the steel coil winding device comprises a stator, and is characterized by further comprising a driving mechanism (10) capable of moving along the direction perpendicular to the movement of the stator, wherein the driving mechanism (10) comprises a rotating wheel (100), a driving motor (101), belt pulleys (102) and a driving belt (103), the driving motor (101) is symmetrically arranged at the top of the stator (3), the rotating wheels (100) are rotatably arranged on two sides of the opposite surface of the stator (3), the rotating wheels (100) are clamped with similar guide rails (2), the belt pulleys (102) are connected on the output shafts of the rotating wheels (100) and the driving motor (101), and the driving belt (103) is sleeved between the two belt pulleys (102) on one side.

4. A steel coil hanging and carrying protective crane as claimed in claim 3, wherein: still including clamping mechanism (12), clamping mechanism (12) are including slider (120), extension spring (121), lower briquetting (122), connecting plate (123), rotating block (124), torsion spring (125) and rotor (126), both sides of deflector (6) opposite face equal symmetry slidingtype are equipped with slider (120), all be connected with extension spring (121) between slider (120) and deflector (6), deflector (6) inboard symmetry slidingtype is equipped with down briquetting (122), the equal rotation formula is equipped with rotating block (124) on lower briquetting (122), all the rotation formula is equipped with between two rotating block (124) of opposite face can improve rotor (126) of coil of strip stability, all be connected with torsion spring (125) between rotating block (124) and the adjacent lower briquetting (122), all the rotation is equipped with connecting plate (123) between adjacent slider (120) and the lower briquetting (122), support block (8) are to inboard removal all can contact with similar slider (120).

5. A steel coil hanging and carrying protective crane as claimed in claim 4, wherein: the device also comprises a pressurizing mechanism (14), wherein the pressurizing mechanism (14) comprises a pressurizing block (140) and an extruding spring (141), the pressurizing blocks (140) are arranged on the supporting blocks (8) in a sliding mode, and the extruding springs (141) are connected between the pressurizing blocks (140) and the similar supporting blocks (8).

6. A steel coil hanging and carrying protective crane as claimed in claim 5, wherein: the device also comprises a cushion (16), and the inner sides of the pressurizing blocks (140) are connected with the cushion (16).

7. A steel coil hanging and carrying protective crane as claimed in claim 6, wherein: the steel coil gravity detection device is characterized by further comprising a weight measurement mechanism (15), wherein the weight measurement mechanism (15) comprises a pressure sensor (150) and a display screen (151), the pressure sensor (150) capable of detecting the steel coil gravity is arranged on the inner side of the supporting block (8), the display screen (151) for displaying data is arranged on the outer side of the connecting frame (110), the pressure sensor (150) is electrically connected with the control box (9), and the display screen (151) is electrically connected with the control box (9).