CN218434620U - Gas holder is with hanging fortune mechanism - Google Patents

Abstract

The utility model relates to a gas holder is with hoist and transport mechanism, jar body upper portion cooperation sets up two bracing pieces, and two bracing pieces upper ends are fixed and are set up same transport ring, transport suitable amount gas holder through the truck long distance; the front side and the rear side of the ground are respectively provided with a supporting component, each supporting component respectively comprises a bottom plate, a supporting arm and a cross arm, the upper surface of each bottom plate is respectively fixedly provided with the supporting arm, and the upper part of the right side wall of each supporting arm is respectively fixedly provided with the cross arm; the left parts of the lower surfaces of the two cross arms are fixedly provided with the same track A, the track A is provided with a moving assembly A in a matching way, the right parts of the lower surfaces of the two cross arms are fixedly provided with the same track B, the track B is provided with a moving assembly B in a matching way, the left part of the track C is fixedly penetrated through the lower parts of the vertical plate A and the vertical plate B respectively, and the right part of the track C is fixedly penetrated through the vertical plate C and the vertical plate D respectively; and a moving assembly C is arranged on the track C in a matching way. The utility model discloses beneficial effect: workers move the oxygen storage tank from the truck to the workshop ground through the lifting mechanism, and the workers are not easy to fatigue.

Description

Lifting mechanism for gas storage tank

Technical Field

The utility model relates to a handling mechanism especially relates to a gas holder is with handling mechanism.

Background

The pregelatinized starch can be gelatinized by heating the common starch, when the common starch is heated, in order to promote the sufficient combustion of the heated fuel, oxygen needs to be introduced into the fuel, and in order to facilitate the containing and the transfer of the oxygen, at present, the existing method is to store the oxygen by an oxygen storage tank, transfer the oxygen storage tank to a pregelatinized starch production workshop by a truck, and carry the oxygen storage tank to the ground of the workshop from the truck by workers.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: the utility model provides a mechanism is transported with hanging to gas holder, has solved current method and has been through gas holder storage oxygen, transports the oxygen gas holder to pregelatinized starch workshop through the truck, and the workman moves the oxygen gas holder to workshop ground from the truck, because the oxygen gas holder quality is great, and the staff need pay out great physical power just can accomplish work, carries the oxygen gas holder for a long time, the easy tired problem of workman.

The utility model discloses a solve the technical scheme that the problem that the aforesaid provided adopted and be:

a lifting mechanism for a gas storage tank comprises the gas storage tank 1, wherein the gas storage tank 1 comprises a tank body 101, support rods 102 and a carrying ring 103, the two support rods 102 are arranged at the upper part of the tank body 101 in a matching mode, the same carrying ring 103 is fixedly arranged at the upper ends of the two support rods 102, and a proper amount of the gas storage tank 1 is transported by a truck for a long distance;

the device is characterized by further comprising a supporting component 2, a track A3, a moving component A4, a track B5, a moving component B6, a track C7 and a moving component C8, wherein the supporting component 2 is respectively placed on the front side and the rear side of the ground, each supporting component 2 respectively comprises a bottom plate 201, a supporting arm 202 and a cross arm 203, the upper surface of each bottom plate 201 is respectively and fixedly provided with the supporting arm 202, and the upper part of the right side wall of each supporting arm 202 is respectively and fixedly provided with the cross arm 203;

the left parts of the lower surfaces of the two cross arms 203 are fixedly provided with the same track A3, a moving assembly A4 is arranged on the track A3 in a matching mode, the moving assembly A4 comprises a vertical plate A401, a vertical plate B402 and a grooved pulley A403, the vertical plate B402 is arranged on the right side of the vertical plate A401, the upper parts of the vertical plate A401 and the vertical plate B402 are rotatably provided with the same grooved pulley A403, and the grooved pulley A403 can roll along the track A3;

the right parts of the lower surfaces of the two cross arms 203 are fixedly provided with the same track B5, the track B5 is provided with a moving assembly B6 in a matching manner, the moving assembly B6 comprises a vertical plate C601, a vertical plate D602 and a grooved pulley B603, the right side of the vertical plate C601 is provided with the vertical plate D602, the upper parts of the vertical plate C601 and the vertical plate D602 are rotatably provided with the same grooved pulley B603, and the grooved pulley B603 can roll along the track B5;

the left part of the track C7 fixedly penetrates through the lower parts of the vertical plates A401 and B402 respectively, and the right part of the track C7 fixedly penetrates through the lower parts of the vertical plates C601 and D602 respectively;

a moving assembly C8 is arranged on the track C7 in a matched manner, the moving assembly C8 comprises a transverse plate 801, a vertical plate E802, a sheave C803, a winch 804, a steel wire rope A805, a hanging rod 806, a steel wire rope B807, a hanging hook A808, a steel wire rope C809 and a hanging hook B810, the front part and the rear part of the upper surface of the transverse plate 801 are respectively and fixedly provided with the vertical plate E802, the upper part of the vertical plate E802 is rotatably provided with the same sheave C803, the sheave C803 can roll along the track C7, the lower surface of the transverse plate 801 is fixedly provided with the winch 804, the steel wire rope A805 is wound on the winch 804, the lower end of the steel wire rope A805 is fixedly provided with the hanging rod 806, the left end of the hanging rod 806 is fixedly provided with the steel wire rope B807, the lower end of the steel wire rope 807B is fixedly provided with the hanging hook A808, the right end of the hanging rod 806 is fixedly provided with the steel wire rope C809, and the lower end of the steel wire rope 809C 810 is fixedly provided with the hanging hook B810;

the hooks a808 and B810 can be respectively hooked on the carrying ring 103 of the gas tank 1.

The same reinforcing rod 9 is fixedly arranged between the upper end of each adjacent supporting arm 202 and the right end of the cross arm 203, so that the structural strength between the supporting arms 202 and the cross arm 203 is enhanced through the reinforcing rods 9.

Every adjacent bottom plate 201, support arm 202 between the fixed a plurality of reinforcing plates 10 of establishing of equipartition respectively, be convenient for strengthen the structural strength between bottom plate 201, the support arm 202 through reinforcing plate 10.

Four expansion bolts 11 are respectively and uniformly distributed on each bottom plate 201, so that the bottom plate 201 can be conveniently fixed on the ground through the expansion bolts 11.

The utility model discloses a theory of operation: the device comprises a pre-gelatinized starch production workshop, wherein supporting assemblies are arranged in the front and rear directions respectively at appropriate positions of the pre-gelatinized starch production workshop, a bottom plate on each supporting assembly is fixed on the ground of the workshop through expansion bolts respectively, transverse arms face to the same side, the left parts of the lower surfaces of the two transverse arms are fixedly provided with the same track A, the track A is matched with and provided with a moving assembly A, the right parts of the lower surfaces of the two transverse arms are fixedly provided with the same track B, the track B is matched with and provided with a moving assembly B, the left part of the track C is fixedly penetrated through the lower parts of a vertical plate A and a vertical plate B respectively, the right part of the track C is fixedly penetrated through the lower parts of a vertical plate C and a vertical plate D respectively, the track C is matched with and provided with a moving assembly C, a sheave C can roll along the track C, the lower surface of a transverse plate is fixedly provided with a winch, the winch is wound with a steel wire rope A, the lower end of the steel rope A is fixedly provided with a hanging rod, the left end of the hanging rod is fixedly provided with the steel rope B, the hanging rod A, the lower end of the hanging rod is fixedly provided with the hanging rod A, the hanging rod C, the right end of the hanging rod is fixedly provided with the steel rope C, the hanging rod B, the hanging rod C, the lower end of the hanging rod B, the hanging rod C is fixedly provided with the hanging rod B, the hanging rod, the upper end of each adjacent supporting arm, the same reinforcing rod is fixedly provided between the upper end of the adjacent supporting arm, a plurality of the supporting arm is fixedly provided with the reinforcing plates, and uniformly distributed between the adjacent supporting arm;

the purchased oxygen storage tank is transported to a proper position of a production workshop of the pregelatinized starch by a truck, the suspender is pulled in the left and right directions, the suspender respectively drives the steel wire rope A, the steel wire rope B and the steel wire rope C, the steel wire rope B drives the lifting hook A, the steel wire rope C drives the lifting hook B, the steel wire rope A drives the winch, the winch drives the transverse plate, the transverse plate drives the vertical plate E, the vertical plate E drives the sheave C to slide to a proper position in the left and right directions of the track C, and the suspender is stopped being pulled;

the suspension rod is pulled in the front and rear directions, the suspension rod drives a steel wire rope A, a steel wire rope B and a steel wire rope C respectively, the steel wire rope B drives a lifting hook A, the steel wire rope C drives a lifting hook B, the steel wire rope A drives a winch, the winch drives a transverse plate, the transverse plate drives a vertical plate E, the vertical plate E drives a sheave C to pull a track C, the track C drives the vertical plate A, the vertical plate B, the vertical plate C and a vertical plate D respectively, the vertical plate A and the vertical plate B drive the sheave A to slide along the track A, the vertical plate C and the vertical plate D drive the sheave B to slide to a proper position along the track B, and the suspension rod is stopped to be pulled;

at the moment, a lifting hook A and a lifting hook B are respectively positioned right above one of the gas storage tanks on the truck, the lifting hook A and the lifting hook B are respectively hung on a carrying ring on the same gas storage tank, a winch is started in the anticlockwise direction, the winch winds up a steel wire rope B, the steel wire rope B drives a hanging rod to move upwards, the hanging rod drives the steel wire rope B and a steel wire rope C respectively, the steel wire rope B drives the lifting hook A, the steel wire rope C drives the lifting hook B, the lifting hook A and the lifting hook B respectively drive the carrying ring on the gas storage tank, the carrying ring drives a supporting rod, the supporting rod drives a tank body to move upwards to a proper position, and the operation of the winch is stopped;

the suspension rod is pulled in the front and rear directions, the suspension rod drives a steel wire rope A, a steel wire rope B and a steel wire rope C respectively, the steel wire rope B drives a lifting hook A, the steel wire rope C drives a lifting hook B, the lifting hook A and the lifting hook B drive an air storage tank simultaneously, the steel wire rope A drives a winch, the winch drives a transverse plate, the transverse plate drives a vertical plate E, the vertical plate E drives a sheave C to pull a track C, the track C drives the vertical plate A, the vertical plate B, the vertical plate C and the vertical plate D respectively, the vertical plate A and the vertical plate B drive the sheave A to slide along the track A, the vertical plate C and the vertical plate D drive the sheave B to slide to a proper position along the track B, and the suspension rod is stopped to be pulled;

pulling a suspender in the left and right directions, wherein the suspender drives a steel wire rope A, a steel wire rope B and a steel wire rope C respectively, the steel wire rope B drives a lifting hook A, the steel wire rope C drives a lifting hook B, the lifting hook A and the lifting hook B simultaneously drive an air storage tank, the steel wire rope A drives a winch, the winch drives a transverse plate, the transverse plate drives a vertical plate E, the vertical plate E drives a sheave C to slide to a proper position in the left and right directions of a track C, and the suspender is stopped to be pulled;

at the moment, the air storage tank is located at a position to be placed, the winch is started clockwise, the wire rope B is wound up by the winch, the wire rope B drives the suspender to move downwards, the suspender drives the wire rope B and the wire rope C respectively, the wire rope B drives the lifting hook A, the wire rope C drives the lifting hook B, the lifting hook A and the lifting hook B move downwards to a position convenient for removing the lifting hook A and the lifting hook B from a carrying ring on the air storage tank, the operation of the winch is stopped, and the lifting hook A and the lifting hook B are removed from the carrying ring on the air storage tank;

starting the winch in the anticlockwise direction, rolling up the steel wire rope B by the winch, driving the hanger rod to move upwards by the steel wire rope B, respectively driving the steel wire rope B and the steel wire rope C by the hanger rod, driving the lifting hook A by the steel wire rope B, driving the lifting hook B by the steel wire rope C, moving the lifting hook A and the lifting hook B to proper positions upwards, and stopping the operation of the winch;

and repeating the above actions to continuously unload the air storage tank on the truck, and after the work is finished, driving the truck away from the pregelatinized starch production workshop.

In conclusion, when the lifting mechanism is used, the supporting component, the track A, the moving component A, the track B, the moving component B, the track C, the moving component C, the reinforcing rod, the reinforcing plate and the expansion bolt are assembled into the lifting mechanism, a worker can carry the oxygen storage tank from a truck to the workshop ground through the lifting mechanism, the worker can complete the work by paying less physical force, the oxygen storage tank is carried for a long time, and the worker is not easy to fatigue.

The beneficial effects of the utility model reside in that: 1. the workman moves the oxygen gas holder to workshop ground from the truck through handling mechanism, and the staff need pay out less physical power just can accomplish work, carries the oxygen gas holder for a long time, and the workman is difficult to fatigue. 2. The same reinforcing rod is fixedly arranged between the upper end of each adjacent supporting arm and the right end of the cross arm, so that the structural strength between the supporting arms and the cross arm can be enhanced through the reinforcing rods. 3. A plurality of reinforcing plates are respectively and uniformly distributed and fixedly arranged between each adjacent bottom plate and each supporting arm, and the structural strength between the bottom plates and the supporting arms is convenient to strengthen through the reinforcing plates. 4. Four expansion bolts are uniformly distributed on each bottom plate respectively, so that the bottom plates can be fixed on the ground conveniently through the expansion bolts.

Drawings

FIG. 1 is a schematic view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic view of the gas storage tank of the present invention;

fig. 4 is a partially enlarged view of the present invention a;

fig. 5 is a partial enlarged view of the present invention B;

fig. 6 is a partial enlarged view of the present invention C;

fig. 7 is a partial enlarged view of the present invention D.

The device comprises 1-gas storage tank, 101-tank body, 102-supporting rod, 103-carrying ring, 2-supporting component, 201-bottom plate, 202-supporting arm, 203-cross arm, 3-track A, 4-moving component A, 401-vertical plate A, 402-vertical plate B, 403-sheave A, 5-track B, 6-moving component B, 601-vertical plate C, 602-vertical plate D, 603-sheave B, 7-track C, 8-moving component C, 801-horizontal plate, 802-vertical plate E, 803-sheave C, 804-winch, 805-steel wire rope A, 806-suspension rod, 807-steel wire rope B, 808-hook A, 809-steel wire rope C, 810-hook B, 9-reinforcing rod, 10-reinforcing plate and 11-expansion bolt.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

As shown in fig. 1 to 7, the utility model provides a lifting mechanism for a gas storage tank, which comprises a gas storage tank 1, wherein the gas storage tank 1 comprises a tank body 101, two support rods 102 and a carrying ring 103, the upper part of the tank body 101 is provided with the two support rods 102 in a matching way, the upper ends of the two support rods 102 are fixedly provided with the same carrying ring 103, and a proper amount of gas storage tank 1 is transported by a truck for a long distance;

the device is characterized by further comprising a support assembly 2, a track A3, a moving assembly A4, a track B5, a moving assembly B6, a track C7 and a moving assembly C8, wherein the support assembly 2 is respectively placed on the front side and the rear side of the ground, each support assembly 2 respectively comprises a bottom plate 201, a support arm 202 and a cross arm 203, the upper surface of each bottom plate 201 is respectively and fixedly provided with the support arm 202, and the upper part of the right side wall of each support arm 202 is respectively and fixedly provided with the cross arm 203;

the left parts of the lower surfaces of the two cross arms 203 are fixedly provided with the same track A3, a moving assembly A4 is arranged on the track A3 in a matching mode, the moving assembly A4 comprises a vertical plate A401, a vertical plate B402 and a grooved pulley A403, the vertical plate B402 is arranged on the right side of the vertical plate A401, the upper parts of the vertical plate A401 and the vertical plate B402 are rotatably provided with the same grooved pulley A403, and the grooved pulley A403 can roll along the track A3;

the right parts of the lower surfaces of the two cross arms 203 are fixedly provided with the same track B5, the track B5 is provided with a moving assembly B6 in a matching manner, the moving assembly B6 comprises a vertical plate C601, a vertical plate D602 and a grooved pulley B603, the right side of the vertical plate C601 is provided with the vertical plate D602, the upper parts of the vertical plate C601 and the vertical plate D602 are rotatably provided with the same grooved pulley B603, and the grooved pulley B603 can roll along the track B5;

the left part of the track C7 fixedly penetrates through the lower parts of the vertical plates A401 and B402 respectively, and the right part of the track C7 fixedly penetrates through the lower parts of the vertical plates C601 and D602 respectively;

a moving assembly C8 is arranged on the track C7 in a matched manner, the moving assembly C8 comprises a transverse plate 801, a vertical plate E802, a sheave C803, a winch 804, a steel wire rope A805, a hanging rod 806, a steel wire rope B807, a hanging hook A808, a steel wire rope C809 and a hanging hook B810, the front part and the rear part of the upper surface of the transverse plate 801 are respectively and fixedly provided with the vertical plate E802, the upper part of the vertical plate E802 is rotatably provided with the same sheave C803, the sheave C803 can roll along the track C7, the lower surface of the transverse plate 801 is fixedly provided with the winch 804, the steel wire rope A805 is wound on the winch 804, the lower end of the steel wire rope A805 is fixedly provided with the hanging rod 806, the left end of the hanging rod 806 is fixedly provided with the steel wire rope B807, the lower end of the steel wire rope 807B is fixedly provided with the hanging hook A808, the right end of the hanging rod 806 is fixedly provided with the steel wire rope C809, and the lower end of the steel wire rope 809C 810 is fixedly provided with the hanging hook B810;

the hooks a808 and B810 can be respectively hooked on the carrying ring 103 of the gas tank 1.

Meanwhile, as shown in fig. 1 and 2, the same reinforcing rod 9 is fixedly disposed between the upper end of each adjacent supporting arm 202 and the right end of the cross arm 203 in the present embodiment, so that the structural strength between the supporting arms 202 and the cross arm 203 is enhanced by the reinforcing rods 9.

Meanwhile, as shown in fig. 1, fig. 2, and fig. 4, four reinforcing plates 10 are uniformly and fixedly disposed between each adjacent bottom plate 201 and each adjacent supporting arm 202 in this embodiment, so that the structural strength between the bottom plate 201 and the supporting arm 202 is enhanced by the reinforcing plates 10.

Meanwhile, as shown in fig. 1, 2 and 4, four expansion bolts 11 are uniformly distributed on each bottom plate 201 in this embodiment, so that the bottom plate 201 is fixed on the ground through the expansion bolts 11.

The working principle of the specific embodiment is as follows: in the proper position of the pre-gelatinized starch production workshop, supporting assemblies 2 are respectively arranged in the front and rear directions, a bottom plate 201 on each supporting assembly 2 is respectively fixed on the ground of the workshop through expansion bolts 11, the cross arms 203 face to the same side, the left parts of the lower surfaces of the two cross arms 203 are fixedly provided with the same track A3, the track A3 is matched with a moving assembly A4, the right parts of the lower surfaces of the two cross arms 203 are fixedly provided with the same track B5, the track B5 is matched with a moving assembly B6, the left part of the track C7 is respectively and fixedly penetrated through the lower parts of a vertical plate A401 and a vertical plate B402, the right part of the track C7 is respectively and fixedly penetrated through the lower parts of a vertical plate C601 and a vertical plate D602, a moving assembly C8 is arranged on the track C7 in a matching manner, a sheave C803 can roll along the track C7, a winch 804 is fixedly arranged on the lower surface of the transverse plate 801, a steel wire rope A805 is wound on the winch 804, a suspender 806 is fixedly arranged at the lower end of the steel wire rope A805, a steel wire rope B807 is fixedly arranged at the left end of the suspender 806, a hook A808 is fixedly arranged at the lower end of the steel wire rope B807, a steel wire rope C809 is fixedly arranged at the right end of the suspender 806, a hook B810 is fixedly arranged at the lower end of the steel wire rope C809, the same reinforcing rod 9 is fixedly arranged between the upper end of each adjacent supporting arm 202 and the right end of the cross arm 203, and a plurality of reinforcing plates 10 are uniformly distributed and fixedly arranged between each adjacent bottom plate 201 and supporting arm 202;

the purchased oxygen storage tank 1 is transported to a proper position of a pregelatinized starch production workshop through a truck, a suspender 806 is pulled in the left and right directions, the suspender 806 drives a steel wire rope A805, a steel wire rope B807 and a steel wire rope C809 respectively, the steel wire rope B807 drives a lifting hook A808, the steel wire rope C809 drives a lifting hook B810, the steel wire rope A805 drives a winch 804, the winch 804 drives a transverse plate 801, the transverse plate 801 drives a vertical plate E802, the vertical plate E802 drives a grooved pulley C803 to slide to a proper position along the left and right directions of a track C7, and the suspender 806 is stopped being pulled;

the suspension rod 806 is pulled in the front and rear directions, the suspension rod 806 drives a steel wire rope A805, a steel wire rope B807 and a steel wire rope C809 respectively, the steel wire rope B807 drives a lifting hook A808, the steel wire rope C809 drives a lifting hook B810, the steel wire rope A805 drives a winch 804, the winch 804 drives a horizontal plate 801, the horizontal plate 801 drives a vertical plate E802, the vertical plate E802 drives a sheave C803 to pull a track C7, the track C7 drives a vertical plate A401, a vertical plate B402, a vertical plate C601 and a vertical plate D602 respectively, the vertical plate A401 and the vertical plate B402 drive a sheave A403 to slide along a track A3, the vertical plate C601 and the vertical plate D602 drive a sheave B603 to slide to a proper position along a track B5, and the suspension rod 806 is stopped to be pulled;

at the moment, a hook A808 and a hook B810 are respectively positioned right above one of the air storage tanks 1 on the truck, the hook A808 and the hook B810 are respectively hung on the carrying ring 103 on the same air storage tank 1, the winch 804 is started in the anticlockwise direction, the winch 804 winds up the steel wire rope B807, the steel wire rope B807 drives the suspender 806 to move upwards, the suspender 806 drives the steel wire rope B807 and the steel wire rope C809 respectively, the steel wire rope B807 drives the hook A808, the steel wire rope C809 drives the hook B810, the hook A808 and the hook B810 respectively drive the carrying ring 103 on the air storage tank 1, the carrying ring 103 drives the supporting rod 102, and the supporting rod 102 drives the tank body 101 to move upwards to a proper position to stop the winch 804 to operate;

the suspension rod 806 is pulled in the front and rear directions, the suspension rod 806 drives a steel wire rope A805, a steel wire rope B807 and a steel wire rope C809 respectively, the steel wire rope B807 drives a lifting hook A808, the steel wire rope C809 drives a lifting hook B810, the lifting hook A808 and the lifting hook B810 simultaneously drive the air storage tank 1, the steel wire rope A805 drives the winch 804, the winch 804 drives the transverse plate 801, the transverse plate 801 drives the vertical plate E802, the vertical plate E802 drives the sheave C803 to pull the track C7, the track C7 drives the vertical plate A401, the vertical plate B402, the vertical plate C601 and the vertical plate D602 respectively, the vertical plate A401 and the vertical plate B402 drive the sheave A403 to slide along the track A3, the vertical plate C601 and the vertical plate D602 drive the sheave B603 to slide to a proper position along the track B5, and the suspension rod 806 is stopped to be pulled;

the hanger rod 806 is pulled in the left and right directions, the hanger rod 806 drives a steel wire rope A805, a steel wire rope B807 and a steel wire rope C809 respectively, the steel wire rope B807 drives a lifting hook A808, the steel wire rope C809 drives a lifting hook B810, the lifting hook A808 and the lifting hook B810 simultaneously drive the air storage tank 1, the steel wire rope A805 drives the winch 804, the winch 804 drives the horizontal plate 801, the horizontal plate 801 drives the vertical plate E802, and the vertical plate E802 drives the sheave C803 to slide to a proper position along the left and right directions of the track C7, and the hanger rod 806 is stopped being pulled;

at the moment, the air storage tank 1 is located at a position to be placed, the winch 804 is started clockwise, the winch 804 winds up the steel wire rope B807, the steel wire rope B807 drives the hanging rod 806 to move downwards, the hanging rod 806 drives the steel wire rope B807 and the steel wire rope C809 respectively, the steel wire rope B807 drives the hanging hook A808, the steel wire rope C809 drives the hanging hook B810, the hanging hooks A808 and the hanging hook B810 move downwards to be convenient for removing the hanging hooks A808 and the hanging hook B810 from the carrying ring 103 on the air storage tank 1, the winch 804 stops operating, and the hanging hooks A808 and the hanging hook B810 are removed from the carrying ring 103 on the air storage tank 1;

starting the winch 804 in the counterclockwise direction, enabling the winch 804 to wind up the steel wire rope B807, enabling the steel wire rope B807 to drive the suspender 806 to move upwards, enabling the suspender 806 to respectively drive the steel wire rope B807 and the steel wire rope C809, enabling the steel wire rope B807 to drive the lifting hook A808, enabling the steel wire rope C809 to drive the lifting hook B810, enabling the lifting hook A808 and the lifting hook B810 to move upwards to proper positions, and stopping the operation of the winch 804;

and repeating the above actions to continuously unload the air storage tank 1 on the truck, and after the work is finished, driving the truck away from the pregelatinized starch production workshop.

In conclusion, when the lifting mechanism is used, the supporting component 2, the track A3, the moving component A4, the track B5, the moving component B6, the track C7, the moving component C8, the reinforcing rod 9, the reinforcing plate 10 and the expansion bolt 11 are assembled into the lifting mechanism, a worker can carry the oxygen storage tank 1 to the workshop ground from a truck through the lifting mechanism, the worker can complete the work by paying less physical strength, the oxygen storage tank 1 is carried for a long time, and the worker is not easy to fatigue.

The beneficial effects of the utility model reside in that: 1. the workman moves the oxygen gas holder to workshop ground from the truck through handling mechanism, and the staff need pay out less physical power just can accomplish work, carries the oxygen gas holder for a long time, and the workman is difficult to fatigue. 2. The same reinforcing rod is fixedly arranged between the upper end of each adjacent supporting arm and the right end of the cross arm, so that the structural strength between the supporting arms and the cross arm can be enhanced through the reinforcing rods. 3. Four reinforcing plates are respectively and uniformly distributed and fixedly arranged between each adjacent bottom plate and each supporting arm, so that the structural strength between the bottom plates and the supporting arms can be conveniently reinforced through the reinforcing plates. 4. Four expansion bolts penetrate through each bottom plate respectively, so that the bottom plates can be fixed on the ground conveniently through the expansion bolts.

The utility model discloses a concrete embodiment does not constitute the pair the utility model discloses a restriction, all adopt the utility model discloses a similar structure and change are all in the utility model discloses a within the protection scope.

Claims (4)

1. A hoisting mechanism for a gas storage tank comprises the gas storage tank (1), wherein the gas storage tank (1) comprises a tank body (101), two support rods (102) and a carrying ring (103), the two support rods (102) are arranged at the upper part of the tank body (101) in a matched mode, the same carrying ring (103) is fixedly arranged at the upper ends of the two support rods (102), and a proper amount of gas storage tank (1) is transported for a long distance through a truck; the method is characterized in that: the device is characterized by further comprising support assemblies (2), a track A (3), a moving assembly A (4), a track B (5), a moving assembly B (6), a track C (7) and a moving assembly C (8), wherein the support assemblies (2) are respectively placed on the front side and the rear side of the ground, each support assembly (2) respectively comprises a bottom plate (201), a support arm (202) and a cross arm (203), the upper surface of each bottom plate (201) is respectively and fixedly provided with the support arm (202), and the upper part of the right side wall of each support arm (202) is respectively and fixedly provided with the cross arm (203); the left parts of the lower surfaces of the two cross arms (203) are fixedly provided with the same track A (3), the track A (3) is provided with a moving assembly A (4) in a matching mode, the moving assembly A (4) comprises a vertical plate A (401), a vertical plate B (402) and a sheave A (403), the vertical plate B (402) is arranged on the right side of the vertical plate A (401), the same sheave A (403) is rotatably arranged on the upper parts of the vertical plate A (401) and the vertical plate B (402), and the sheave A (403) can roll along the track A (3); the right parts of the lower surfaces of the two cross arms (203) are fixedly provided with the same track B (5), a moving assembly B (6) is arranged on the track B (5) in a matching mode, the moving assembly B (6) comprises a vertical plate C (601), a vertical plate D (602) and a grooved pulley B (603), the vertical plate D (602) is arranged on the right side of the vertical plate C (601), the same grooved pulley B (603) is arranged on the upper parts of the vertical plate C (601) and the vertical plate D (602) in a rotating mode, and the grooved pulley B (603) can roll along the track B (5); the left part of the track C (7) fixedly penetrates through the lower parts of the vertical plate A (401) and the vertical plate B (402), and the right part of the track C (7) fixedly penetrates through the lower parts of the vertical plate C (601) and the vertical plate D (602); a moving component C (8) is arranged on the track C (7) in a matched manner, the moving component C (8) comprises a transverse plate (801), a vertical plate E (802), a sheave C (803), a winch (804), a steel wire rope A (805), a hanging rod (806), a steel wire rope B (807), a hanging hook A (808), a steel wire rope C (809) and a hanging hook B (810), the front portion and the rear portion of the upper surface of the transverse plate (801) are respectively and fixedly provided with the vertical plate E (802), the upper portion of the vertical plate E (802) is rotatably provided with the same sheave C (803), the sheave C (803) can roll along the track C (7), the lower surface of the transverse plate (801) is fixedly provided with the winch (804), the steel wire rope A (805) is wound on the winch (804), the hanging rod (806) is fixedly arranged at the lower end of the steel wire rope A (806), the steel wire rope B (807) is fixedly arranged at the left end of the hanging rod (806), the lower end of the steel wire rope B (807) is fixedly provided with the hanging hook A (808), the right end of the steel wire rope C (806) is fixedly provided with the hanging rod C (809), and the hanging hook B (810); the lifting hook A (808) and the lifting hook B (810) can be respectively hung on the conveying ring (103) on the air storage tank (1).

2. A lifting mechanism for an air tank as claimed in claim 1, wherein: the same reinforcing rod (9) is fixedly arranged between the upper end of each adjacent supporting arm (202) and the right end of the cross arm (203).

3. A lifting mechanism for an air tank as claimed in claim 1, wherein: a plurality of reinforcing plates (10) are respectively and fixedly arranged between every two adjacent bottom plates (201) and supporting arms (202).

4. A lifting mechanism for an air tank as claimed in claim 1, wherein: four expansion bolts (11) are respectively and uniformly distributed on each bottom plate (201).

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