CN114572285A - Raw material line roller transfer trolley for strap production and use method thereof - Google Patents

Abstract

The invention discloses a raw material wire roller transfer trolley for strap production and a use method thereof, belonging to the technical field of strap production, and comprising a bottom plate and a handrail frame, wherein the raw material wire roller transfer trolley adopts a material taking and placing automatic limiting mechanism to be matched with a supporting box of which the upper end is provided with a rotating plate, when a raw material wire roller to be transported is placed on the rotating plate, the wire roller is placed on the rotating plate, under the action of the gravity of the wire roller, the return spring at the bottom of the rotating plate is compressed, so that one end of the rotating plate is overturned on the supporting box and is fixed under the limiting action of the limiting frame, because the second rack is rotationally connected with the rotating plate, the rotating plate can pull the second rack to move downwards after descending, and the first rack is driven to descend in a gear transmission mode, the baffle plate is made to descend, the inner space of the limiting frame can be separated after the baffle plate descends, the effect of independent limiting storage of the line rollers is achieved, and damage to raw materials due to impact between the line rollers in the transfer process can be effectively avoided.

Description

Raw material line roller transfer trolley for strap production and use method thereof

Technical Field

The invention relates to the technical field of sling production, in particular to a raw material line roller transfer trolley for sling production and a use method thereof.

Background

The hoisting sling is a belt made of synthetic fiber and used for hoisting, is used for connecting belts for mechanical hoisting and hoisting, is generally used in large-scale engineering, and is widely applied to the fields of ships, metallurgy, machinery, mines, petroleum, chemical engineering, ports, electric power, electronics, transportation, military and the like. In particular, the synthetic fiber hoisting belt has the advantages of portability in carrying, convenience in maintenance, good chemical resistance, light weight, high strength, difficulty in damaging the surface of a hoisted object and the like;

the existing sling raw material is generally conveyed by conveying equipment after being wound by a wire roller during transportation, and the wire roller wound with the raw material is large in size and heavy in weight, is directly stacked on the conveying equipment and low in safety, easily causes abrasion to the raw material in the transportation process, is troublesome to take the wire roller down from the conveying equipment after being transported to a specified place, and delays more time.

Based on the above, the invention designs a raw material wire roller transfer trolley for sling production and a use method thereof, so as to solve the problems.

Disclosure of Invention

The invention aims to provide a raw material wire roller transfer trolley for sling production and a use method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a dolly is transported with raw and other materials line roller to suspender production, includes bottom plate and handrail frame, handrail frame fixes in upper end one side of bottom plate, the bottom both sides of bottom plate are rotated and are provided with the removal wheel, the upper end of bottom plate is fixed with the battery, the upper end of bottom plate is rotated and is connected with the folded plate that turns over, one side of turning over the folded plate is rotated and is connected with the anchor strut, the other end and the bottom plate of anchor strut rotate to be connected, one side of bottom plate is rotated and is connected with the hydraulic stem, the other end and the anchor strut fixed connection of hydraulic stem, its characterized in that: the upper end fixedly connected with supporting box that turns over the folded plate, the upper end of supporting box is rotated and is connected with the commentaries on classics board, the bottom mounting of commentaries on classics board has reset spring, reset spring's bottom and supporting box inner wall fixed connection, the upper end of supporting box is fixed with spacing frame, the inside of spacing frame is provided with the baffle, be provided with on the baffle and get the automatic stop gear of blowing, the baffle is along with the angle slope of commentaries on classics board adjusts self highly being used for restricting the inside wire roller position of spacing frame, the upper end of bottom plate is fixed with the arc rack, the one end of supporting box is rotated and is connected with the gear wheel, one side and the arc rack toothing of gear wheel, one side of turning over the folded plate is provided with transmission unloading mechanism.

As a further scheme of the invention, the transmission blanking mechanism comprises a third gear, one end of the third gear is meshed with the large gear, one end of the third gear is fixed with a transmission shaft, the other end of the transmission shaft is fixed with a fourth gear, a toothed plate meshed with the fourth gear is arranged in the turnover plate in a sliding manner, one end of the toothed plate is fixed with a connecting plate, the other end of the connecting plate is rotatably connected with a blanking plate, one side of the turnover plate is provided with an inclined notch used for extending the blanking plate out, the other end of the toothed plate is fixed with a limiting shaft, a toothed block is sleeved outside the limiting shaft in a sliding manner, a strong spring is sleeved outside the limiting shaft, one end of the strong spring is fixedly connected with the toothed block, and the other end of the toothed block is fixedly connected with the toothed plate.

As a further scheme of the invention, the automatic material taking and placing limiting mechanism comprises a chute, the chute is arranged at one end of a baffle plate and is in sliding butt joint with a first rack, a connecting spring is fixed inside the chute, the other end of the connecting spring is fixedly connected with the first rack, a second gear is rotatably arranged on the inner wall of a limiting frame, one side of the second gear is meshed with the first rack, a first gear is rotatably arranged on the inner wall of the limiting frame and is meshed with the other side of the second gear, a second rack is slidably connected on the inner wall of the limiting frame and is divided into a tooth section and a connecting section, the tooth section is in sliding connection with the limiting frame, one side of the tooth section is meshed with the first gear, the connecting section is fixed at the bottom end of the tooth section, the bottom end of the connecting section is rotatably connected with the upper end of a rotating plate, a vertical plate is fixed at the upper end of a bottom plate, one side of the vertical plate is provided with a convex groove extending upwards in an inclined mode, a limiting block is fixed on the vertical plate on the outer side of the convex groove, and one end of the first rack is fixed with a connecting shaft.

As a further scheme of the invention, a winding box is fixed at one end of the folding plate, a buffer belt is connected to one side of the winding box, a threaded rod for spirally butting with the folding plate is rotatably connected to the other end of the buffer belt, a torsion spring seat is rotatably connected inside the winding box, one end of the buffer belt penetrates through the winding box and is fixedly connected with the torsion spring seat, an output switch is fixed inside the armrest frame, and the input end of the output switch is electrically connected with a storage battery.

As a further aspect of the present invention, when the first rack compression link spring slides inside the slide groove, the first rack can be completely disengaged from the second gear.

As a further scheme of the invention, the outer wall of the upper end of the rotating plate and the inner wall of the limiting frame are smooth walls, and a clamping groove for limiting the sliding range of the baffle is formed in the limiting frame.

As a further aspect of the present invention, the convex groove is divided into a forward-inclined section and a skewed slot section, the forward-inclined section is used for being abutted to the connecting shaft and enabling the connecting shaft to slide backwards, and the skewed slot section is used for drawing the connecting shaft to slide.

A use method of a raw material line roller transfer trolley for production of a sling comprises the following steps:

the method comprises the following steps: placing raw material wire rollers to be transferred on a rotating plate at the upper end of a supporting box one by one;

step two: the rotating plate can compress the reset spring after being subjected to gravity, so that one end of the rotating plate is inclined, the rotating plate drives the automatic material taking and placing limiting mechanism to limit the raw material wire roller after being inclined, and the raw material wire roller and the automatic material taking and placing limiting mechanism are sequentially matched and placed at the upper end of the rotating plate;

step three: transporting the raw material wire roller to a specified place through a transport trolley;

step four: the hydraulic pressure rod is started to push the turnover plate to turn over, the automatic material taking and placing limiting mechanism is pulled upwards in the turning process to be separated from the limitation of the raw material line roller, and the raw material line roller rolls off from the rotary plate under the action of gravity to complete discharging.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the automatic limiting mechanism for taking and placing materials is matched with the supporting box provided with the rotating plate at the upper end, when a raw material wire roller to be transported is placed on the rotating plate, the wire roller is placed on the rotating plate, under the action of the gravity of the wire roller, the return spring at the bottom of the rotating plate is compressed, so that one end of the rotating plate is overturned on the supporting box and is fixed under the limiting action of the limiting frame, as the second rack is rotationally connected with the rotating plate, the rotating plate can pull the second rack to move downwards after descending, the first rack is driven to descend in a gear transmission manner, so that the baffle descends, the internal space of the limiting frame can be separated after the baffle descends, the effect of independent limiting and storing of the wire roller is achieved, and the damage to the raw material caused by impact between the wire rollers in the transferring process can be effectively avoided.

2. The invention adopts the turnover plate which is driven by the hydraulic rod and can rotate at the upper end of the bottom plate, when blanking is needed, the hydraulic rod is only started to drive the turnover plate to rotate, after the turnover plate rotates to a sufficient angle, the connecting shaft at one side of the first rack can be contacted with the convex groove and pushed to one side by the convex groove, so that the first rack is disengaged from the second gear, then the connecting shaft continuously slides upwards in the convex groove, so that the baffle plate rises for a certain distance, but the position of the baffle plate can still play a role of blocking the wire roller, the raw material wire roller in the limiting frame can roll towards the outlet section along with the continuous rotation of the turnover plate, the wire roller which is closest to the outlet section and is not limited by the baffle plate slides out, the pressure borne by the whole rotation plate is reduced after the wire roller rolls out, the return spring pushes the rotation plate upwards to reset for a certain angle, at the moment, the connecting shaft is disengaged from the inside of the convex groove, and the first rack is restored to be engaged with the second gear, the rotating plate rotates upwards to drive the second rack to move upwards, the first rack is driven to move upwards through gear transmission, the baffle continues to rise, the distance between the baffle and the rotating plate is enough for the wire roller to pass through, the wire roller blocked by the baffle rolls out from the outlet section on one side of the limiting frame in sequence to complete discharging, automatic charging and automatic discharging of the raw material wire roller can be realized, separation and passing of the raw material wire roller are completed by state switching through the rotating plate matched with the automatic material-taking and discharging limiting mechanism, and the use effect is better.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is another angle structure diagram of FIG. 1;

FIG. 3 is an enlarged view of A in FIG. 2;

FIG. 4 is a side sectional view of the support box;

FIG. 5 is a schematic structural view of a transmission blanking mechanism;

FIG. 6 is an enlarged view of B in FIG. 5;

FIG. 7 is a flow chart of the method of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

11. a handrail frame; 12. a storage battery; 13. a base plate; 14. a moving wheel; 15. a hydraulic lever; 16. a reinforcing rod; 17. turning the folded plate; 18. a beveled slot opening; 21. a support box; 22. rotating the plate; 23. a return spring; 3. a buffer zone; 4. a material taking and placing automatic limiting mechanism; 41. a baffle plate; 42. a chute; 43. a first rack; 44. a convex groove; 45. a limiting block; 46. a vertical plate; 47. a connecting shaft; 48. a second rack; 491. a first gear; 492. a second gear; 5. a limiting frame; 6. an arc-shaped rack; 7. a bull gear; 8. a transmission blanking mechanism; 81. a third gear; 82. a drive shaft; 83. a fourth gear; 84. a toothed plate; 85. a connecting plate; 86. a blanking plate; 87. a tooth block; 88. a strong spring; 89. a limiting shaft; 9. and (5) rolling up the box.

Detailed Description

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a dolly is transported with raw and other materials line roller to suspender production, including bottom plate 13 and handrail frame 11, handrail frame 11 is fixed in upper end one side of bottom plate 13, the bottom both sides of bottom plate 13 are rotated and are provided with removal wheel 14, the upper end of bottom plate 13 is fixed with battery 12, the upper end of bottom plate 13 is rotated and is connected with turns over folded plate 17, one side of turning over folded plate 17 is rotated and is connected with anchor strut 16, the other end and the bottom plate 13 of anchor strut 16 are rotated and are connected, one side of bottom plate 13 is rotated and is connected with hydraulic stem 15, the other end and the 16 fixed connection of anchor strut of hydraulic stem 15, its characterized in that: a supporting box 21 is fixed at the upper end of the turnover plate 17, a rotating plate 22 is rotatably connected at the upper end of the supporting box 21, a return spring 23 is fixed at the bottom end of the rotating plate 22, the bottom end of the return spring 23 is fixedly connected with the inner wall of the supporting box 21, a limiting frame 5 is fixed at the upper end of the supporting box 21, a baffle plate 41 is arranged inside the limiting frame 5, an automatic material taking and placing limiting mechanism 4 is arranged on the baffle plate 41, the height of the baffle plate 41 is adjusted along with the angle inclination of the rotating plate 22 to limit the position of a wire roller inside the limiting frame 5, an arc-shaped rack 6 is fixed at the upper end of the bottom plate 13, a large gear 7 is rotatably connected at one end of the supporting box 21, one side of the large gear 7 is meshed with the arc-shaped rack 6, and a transmission blanking mechanism 8 is arranged at one side of the turnover plate 17;

when the scheme is put into practical use, when a raw material wire roller is transported, the wire roller for winding raw materials is placed on one side of a rotating plate 22 at the upper end of a supporting box 21, one end of the rotating plate 22 is rotatably connected with the supporting box 21, the rotating plate 22 compresses a reset spring 23 to rotate around a rotating end after being pressurized, the rotating plate 22 tilts after being rotated, the raw material wire roller rolls along the tilted rotating plate 22 under the action of gravity until the wire roller rolls to be contacted with the side wall of a limiting frame 5, the rotating plate 22 tilts to drive the automatic material taking and placing limiting mechanisms 4 to work to limit the raw material wire roller, so that the automatic material taking and placing limiting mechanisms 4 separate and store the inner space of the limiting frame 5, the mounting positions of the two groups of automatic material taking and placing limiting mechanisms 4 on the limiting frame 5 are different, the sliding lengths of the two groups of automatic material taking and placing limiting mechanisms 4 are different after the rotating plate 22 rotates, and the rotating angle of the rotating plate 22 is gradually increased along with the number of the wire rollers, the descending length of the material taking and placing automatic limiting mechanism 4 is increased, so that the two groups of material taking and placing automatic limiting mechanisms 4 play a role in separating the wire rollers one by one, the wire rollers are stored separately, the problem of abrasion of raw materials in the transportation process caused by accumulation of the wire rollers can be effectively avoided, manual operation is not needed in the separation process, the separation of the limiting frame 5 can be automatically completed when the wire rollers are fed, the raw material wire rollers are transported to a specified place through a transfer trolley after the wire rollers are fed, then the turnover plates 17 are pushed through the reinforcing rods 16 to rotate for feeding, the turnover plates 17 inclined in the feeding process can drive the material taking and placing automatic limiting mechanism 4 to ascend in a transmission mode, the wire rollers are automatically separated from the inside of the limiting frame 5 and the material taking and placing automatic limiting mechanism 4 for feeding, and automatic feeding of the wire rollers are completed in the mode, the use is more convenient.

As a further scheme of the invention, the transmission blanking mechanism 8 comprises a third gear 81, one end of the third gear 81 is meshed with the gearwheel 7, one end of the third gear 81 is fixed with a transmission shaft 82, the other end of the transmission shaft 82 is fixed with a fourth gear 83, a toothed plate 84 meshed with the fourth gear 83 is slidably arranged inside the turnover plate 17, one end of the toothed plate 84 is fixed with a connecting plate 85, the other end of the connecting plate 85 is rotatably connected with a blanking plate 86, one side of the turnover plate 17 is provided with an inclined notch 18 for extending the blanking plate 86 out, the other end of the toothed plate 84 is fixed with a limiting shaft 89, a toothed block 87 is slidably sleeved outside the limiting shaft 89, a strong spring 88 is sleeved outside the limiting shaft 89, one end of the strong spring 88 is fixedly connected with the toothed block 87, and the other end of the toothed block 87 is fixedly connected with the toothed plate 84;

when the scheme is put into practical use, the raw material wire roller is loaded into the limiting frame 5, and after the raw material wire roller is transported to a designated place through the transfer trolley, when the blanking is carried out, the hydraulic rod 15 is started to drive the turnover plate 17 to rotate, the supporting box 21 rotates along with the turnover plate 17, the large gear 7 on one side of the turnover plate 17 is meshed with the arc-shaped rack 6 to rotate, the third gear 81 meshed with the other side is driven to rotate, the third gear 81 drives the fourth gear 83 to rotate through the transmission shaft 82 when rotating, the fourth gear 83 rotates to push the connecting plate 85 to slide through the meshing with the toothed plate 84, so that the blanking plate 86 is pushed out from the inclined notch 18 on one side of the turnover plate 17, the blanking plate 86 is integrally inclined when the bottom end of the blanking plate 86 is contacted with the ground, the raw material wire roller can roll off from the inclined surface of the blanking plate 86 when the blanking, the raw material wire roller directly falls off from the supporting box 21 through rolling instead of raw material, play better guard action to raw and other materials, and turn over flitch 17 and still keep ascending when flitch 86 slides to maximum position department down, fourth gear 83 promotes pinion rack 84 this moment until meshing with tooth piece 87, fourth gear 83 promotes tooth piece 87 and compresses powerful spring 88 and slide in spacing axle 89 outside, when fourth gear 83 rotates and does not mesh with tooth piece 87, powerful spring 88 resets and makes tooth piece 87 slide a section distance until fourth gear 83 continues to mesh with tooth piece 87, make fourth gear 83 can keep the state with tooth piece 87 meshing like this, can not promote pinion rack 84 again and slide, fourth gear 83 is when the reversal resets like this, can not break away from with pinion rack 84, through gear wheel 7 to the transmission mode of flitch 86 down, make can stretch out flitch 86 convenient unloading voluntarily when carrying out the slope unloading, the unloading effect is more convenient.

As a further proposal of the invention, the automatic material taking and placing limiting mechanism 4 comprises a chute 42, the chute 42 is arranged at one end of a baffle plate 41, the chute 42 is in sliding butt joint with a first rack 43, a connecting spring is fixed inside the chute 42, the other end of the connecting spring is fixedly connected with the first rack 43, a second gear 492 is rotatably arranged on the inner wall of a limiting frame 5, one side of the second gear 492 is meshed with the first rack 43, a first gear 491 is rotatably arranged on the inner wall of the limiting frame 5, the first gear 491 is meshed with the other side of the second gear 492, a second rack 48 is slidably connected on the inner wall of the limiting frame 5, the second rack 48 is divided into a tooth section and a connecting section, the tooth section is in sliding connection with the limiting frame 5, one side of the tooth section is meshed with the first gear 491, the connecting section is fixed at the bottom end of the tooth section, the bottom end of the connecting section is rotatably connected with the upper end of a rotating plate 22, a vertical plate 46 is fixed at the upper end of a bottom plate 13, a convex groove 44 extending upwards and obliquely is formed in one side of the vertical plate 46, a limiting block 45 is fixed on the vertical plate 46 outside the convex groove 44, and a connecting shaft 47 is fixed at one end of the first rack 43;

in the above scheme, when the raw material line roller is put into practical use, when the raw material line roller is put into the upper end of the rotating plate 22, the rotating plate 22 is compressed by gravity to enable one side of the rotating plate 22 to rotate obliquely, because the bottom of the second rack 48 is rotationally connected with the rotating plate 22, the second rack 48 descends the same height after the rotating plate 22 rotates, the first gear 491 drives the second gear 492 to rotate, and then the first gear 43 is transmitted to the first rack 43 to enable the first rack 43 to pull the baffle 41 to descend, at this time, the first line roller is put into the innermost side of the limiting frame 5, the baffle 41 at the innermost side descends the position where the distance between the baffle 41 and the rotating plate 22 cannot pass through the line roller, because the distance between the baffle 41 at the innermost side and the rotating end of the rotating plate 22 is closer to the baffle 41 at the innermost side, the baffle 41 at the second side is descended by a smaller height, and can continue to pass through the line roller, and then the second raw material line roller is put into the second raw material line roller, the gravity on the rotating plate 22 is increased and continuously rotates, so that the second rack 48 continuously descends to cause the height of the baffle 41 to continuously descend, after the line rollers slide to be in contact with the innermost baffle 41, the descending height of the second group of baffles 41 is not enough to continuously pass through the line rollers, then the third group of line rollers are placed on the rotating plate 22, the line rollers can slide to be in contact with the second group of baffles 41 along the inclined rotating plate 22, at the moment, the separated storage of all the line rollers is completed, the damage to raw materials due to the abrasion among the line rollers in the transportation process is avoided, the separated automatic completion does not need manual operation, the efficiency is higher, and then the line rollers are transported to a specified place through a transport trolley to unload materials.

As a further scheme of the invention, one end of the turnover plate 17 is fixed with a rolling box 9, one side of the rolling box 9 is connected with a buffer belt 3, the other end of the buffer belt 3 is rotatably connected with a threaded rod for spirally butting with the turnover plate 17, the interior of the rolling box 9 is rotatably connected with a torsion spring seat, one end of the buffer belt 3 passes through the rolling box 9 and is fixedly connected with the torsion spring seat, an output switch is fixed inside the armrest frame 11, and the input end of the output switch is electrically connected with the storage battery 12;

above-mentioned scheme is when putting into practical use, and the material loading is accomplished the back, and when the transport dolly transported raw and other materials line roller to the appointed place and unloaded, the unloading of rolling from commentaries on classics board 22 of the line roller of unloading, the impact force through buffer zone 3 and line roller contact buffering line roller plays guard action effectively to the line roller, rolls buffer zone 3 through the box 9 is inside to the receipts for buffer zone 3 can remain tension throughout, and the effect is better when carrying out the unloading like this.

As a further aspect of the present invention, when the first rack 43 compresses the connecting spring to slide inside the slide groove 42, the first rack 43 can be completely disengaged from the second gear 492;

when the scheme is put into practical use, the first rack 43 is ensured to have a position which is not meshed with the second gear 492, so that the first rack 43 is separated from the meshing of the second gear 492 to slide automatically when necessary.

As a further scheme of the present invention, the outer wall of the upper end of the rotating plate 22 and the inner wall of the limiting frame 5 are smooth walls, and a slot for limiting the sliding range of the baffle plate 41 is formed inside the limiting frame 5;

when the scheme is put into practical use, the smooth rotating plate 22 and the limiting frame 5 have smaller friction between raw materials when the raw materials are in line-roller contact, and the abrasion effect of the raw materials in the transportation process is reduced.

As a further aspect of the present invention, the convex groove 44 is divided into a forward bending section and a chute section, the forward bending section is used for being abutted to the connecting shaft 47 and enabling the connecting shaft 47 to slide backwards, and the chute section is used for pulling the connecting shaft 47 to slide;

when the scheme is put into practical use, the connecting shaft 47 rotates along with the turnover plate 17 to be in contact with the convex groove 44, the connecting shaft 47 is firstly in contact with the forward-inclined section, the forward-inclined section is enabled to push against the connecting shaft 47 to slide along with the rotation of the connecting shaft 47, the connecting shaft 47 is enabled to be separated from the meshing of the second gear 492, the connecting shaft 47 is in contact with the chute section after separation, the connecting shaft is enabled to slide along the chute section in an inclined mode, the first rack 43 is enabled to rise to more heights, the line roller can pass through by controlling the rising height of the baffle 41 when the feeding is rotated through the action, the feeding can be automatically realized, and the automatic control of the feeding is realized.

A use method of a raw material line roller transfer trolley for production of a sling comprises the following steps:

the method comprises the following steps: the raw material wire rollers to be transferred are placed on a rotating plate 22 at the upper end of a supporting box 21 one by one;

step two: after the rotating plate 22 is subjected to gravity, the reset spring 23 is compressed to enable one end of the rotating plate 22 to incline, the rotating plate 22 drives the automatic material taking and placing limiting mechanism 4 to work to limit the raw material wire roller after inclining, and the raw material wire roller and the automatic material taking and placing limiting mechanism 4 are placed at the upper end of the rotating plate 22 in a matched mode in sequence;

step three: the raw material wire roller is transported to a specified place through a transport trolley;

step four: the hydraulic rod 15 is started to push the turnover plate 17 to turn over, the automatic material taking and placing limiting mechanism 4 is pulled upwards in the turnover process to be separated from the limitation of the raw material line roller, and the raw material line roller rolls off from the rotating plate 22 under the action of gravity to finish discharging.

The working principle is as follows: in use, the initial state of the transfer trolley before loading is as shown in fig. 1-4, when transferring the raw material line roller, the line roller wound with the raw material is placed on one side of the rotating plate 22 at the upper end of the supporting box 21, one end of the rotating plate 22 is rotationally connected with the supporting box 21, the rotating plate 22 compresses the return spring 23 to rotate around the rotating end after being pressed, the rotating plate 22 tilts after rotating, the raw material line roller rolls along the tilted rotating plate 22 under the action of gravity until the raw material line roller rolls to be contacted with the side wall of the limit frame 5, because the bottom of the second rack 48 is rotationally connected with the rotating plate 22, the second rack 48 descends along with the rotating plate 22 by the same height after rotating, the first gear 491 rotates, the first gear 491 drives the second gear 492 to rotate, then the first rack 43 drives the baffle 41 to descend, at this time, the first line roller is placed at the innermost side of the limit frame 5, the baffle 41 at the innermost side has descended to the position where the distance from the rotating plate 22 can not pass through the line roller, because the second group of baffles 41 is closer to the rotating end of the rotating plate 22 than the innermost baffles 41, the second group of baffles 41 can still continuously pass through the wire roller due to the smaller descending height, then the second raw material wire roller is placed, the gravity on the rotating plate 22 is increased and continuously rotates, so that the second rack 48 continuously descends, the height of the baffles 41 continuously descends, after the wire roller slides to be in contact with the innermost baffles 41, the descending height of the second group of baffles 41 is not enough to continuously pass through the wire roller, then the third group of wire rollers is placed on the rotating plate 22, the second group of baffles 41 can slide to be in contact with the second group of baffles 41 along the inclined rotating plate 22, and at the moment, the separated storage of all the wire rollers is finished;

as shown in fig. 5, after the material is transported to a designated place by the transfer trolley, when the material is discharged, the hydraulic rod 15 is started to drive the turning plate 17 to rotate, the support box 21 rotates along with the turning plate 17, the large gear 7 on one side of the turning plate 17 is meshed with the arc-shaped rack 6 to rotate, the third gear 81 meshed with the other side is driven to rotate, the third gear 81 drives the fourth gear 83 to rotate through the transmission shaft 82 when rotating, the fourth gear 83 rotates to push the connecting plate 85 to slide through meshing with the toothed plate 84, so that the blanking plate 86 is pushed out from the inclined notch 18 on one side of the turning plate 17, the bottom end of the blanking plate 86 is contacted with the ground to enable the blanking plate 86 to be integrally inclined, and therefore, when the material is discharged, the raw material line roller can roll off the inclined surface of the blanking plate 86, and directly falls off the support box 21 by rolling instead of the raw material, so as to achieve a better protection effect on the raw material;

in the blanking process, the turnover plate 17 drives the support box 21 to rotate, so that the outermost line roller on the rotating plate 22 is blanked along the opening of the limit frame 5, the impact force of the buffer belt 3 contacting the line roller during blanking effectively protects the line roller, the turnover plate 17 continuously rotates, when the connecting shaft 47 rotates to contact with the convex groove 44, the connecting shaft 47 firstly contacts with the forward section of the convex groove 44, the forward section slides against the connecting shaft 47 along with the rotation of the connecting shaft 47, so that the connecting shaft 47 is separated from the meshing with the second gear 492, the connecting shaft 47 is contacted with the inclined groove section after separation, and slides obliquely along the inclined groove section, so that the first rack 43 rises to more height, and after the connecting shaft 47 slides along the convex groove 44 and is separated from the inside of the convex groove 44, the first rack 43 can be reset to the position meshed with the second gear 492 under the action of the connecting spring;

at this time, the height of the outermost baffle 41 is enough to be the bottom passing line roller, so that the second group of line rollers on the rotating plate 22 are blanked, after the second group of line rollers are loaded and unloaded from the rotating plate 22, the gravity at the upper end of the rotating plate 22 is reduced, the return spring 23 pushes the rotating plate 22 to rotate in the reverse direction, so that the rotating plate 22 continuously ascends, at this time, the rotating plate 22 drives the second rack 48 to rotate, the second rack 48 passes through the transmission of the first gear 491 and the second gear 492, so that the first rack 43 synchronously ascends, at this time, the height of the innermost baffle 41 after ascending is enough for the innermost line roller to pass through, at this time, the line rollers roll and fall from the rotating plate 22, and then all blanking can be completed.

Claims (8)

1. The utility model provides a dolly is transported with raw and other materials line roller to suspender production, includes bottom plate (13) and handrail frame (11), handrail frame (11) are fixed in upper end one side of bottom plate (13), the bottom both sides of bottom plate (13) are rotated and are provided with removal wheel (14), the upper end of bottom plate (13) is fixed with battery (12), the upper end of bottom plate (13) is rotated and is connected with and turns over folded plate (17), the one side of turning over folded plate (17) is rotated and is connected with anchor strut (16), the other end and bottom plate (13) of anchor strut (16) are rotated and are connected, one side of bottom plate (13) is rotated and is connected with hydraulic stem (15), the other end and anchor strut (16) fixed connection, its characterized in that of hydraulic stem (15): the upper end fixedly connected with supporting box (21) of turning over folded plate (17), the upper end of supporting box (21) is rotated and is connected with commentaries on classics board (22), the bottom mounting of commentaries on classics board (22) has reset spring (23), the bottom and the supporting box (21) inner wall fixed connection of reset spring (23), the upper end of supporting box (21) is fixed with spacing frame (5), the inside of spacing frame (5) is provided with baffle (41), be provided with on baffle (41) and get blowing automatic stop gear (4), baffle (41) are adjusted self height along with the angle slope of commentaries on classics board (22) and are used for restricting spacing frame (5) inner roll line position, the upper end of bottom plate (13) is fixed with arc rack (6), the one end of supporting box (21) is rotated and is connected with gear wheel (7), one side and arc rack (6) meshing of gear wheel (7), one side of the turnover plate (17) is provided with a transmission blanking mechanism (8).

2. The raw material line roller transfer trolley for the production of the braces, according to claim 1, is characterized in that: the transmission blanking mechanism (8) comprises a third gear (81), one end of the third gear (81) is meshed with the large gear (7), one end of the third gear (81) is fixed with a transmission shaft (82), the other end of the transmission shaft (82) is fixed with a fourth gear (83), a toothed plate (84) meshed with the fourth gear (83) is arranged in the overturning plate (17) in a sliding mode, a connecting plate (85) is fixed at one end of the toothed plate (84), the other end of the connecting plate (85) is connected with a blanking plate (86) in a rotating mode, an inclined notch (18) used for extending out the blanking plate (86) is formed in one side of the overturning plate (17), a limiting shaft (89) is fixed at the other end of the toothed plate (84), a toothed block (87) is sleeved on the outer portion of the limiting shaft (89) in a sliding mode, a strong spring (88) is sleeved on the outer portion of the limiting shaft (89), one end of the strong spring (88) is fixedly connected with the tooth block (87), and the other end of the tooth block (87) is fixedly connected with the toothed plate (84).

3. The raw material line roller transfer trolley for the production of the braces, according to claim 1, is characterized in that: the automatic material taking and discharging limiting mechanism (4) comprises a sliding groove (42), the sliding groove (42) is formed in one end of a baffle plate (41), a first rack (43) is in sliding butt joint with the sliding groove (42), a connecting spring is fixed inside the sliding groove (42), the other end of the connecting spring is fixedly connected with the first rack (43), a second gear (492) is rotatably arranged on the inner wall of a limiting frame (5), one side of the second gear (492) is meshed with the first rack (43), a first gear (491) is rotatably arranged on the inner wall of the limiting frame (5), the first gear (491) is meshed with the other side of the second gear (492), a second rack (48) is slidably connected onto the inner wall of the limiting frame (5), the second rack (48) is divided into a tooth section and a connecting section, and the tooth section is slidably connected with the limiting frame (5), and one side of the tooth section is meshed with the first gear (491), the connecting section is fixed at the bottom end of the tooth section, the bottom end of the connecting section is rotatably connected with the upper end of the rotating plate (22), a vertical plate (46) is fixed at the upper end of the bottom plate (13), a convex groove (44) extending upwards and obliquely is formed in one side of the vertical plate (46), a limiting block (45) is fixed on the vertical plate (46) outside the convex groove (44), and a connecting shaft (47) is fixed at one end of the first rack (43).

4. The raw material line roller transfer trolley for the production of the braces, according to claim 1, is characterized in that: turn over the one end of folded plate (17) and be fixed with receipts roll box (9), one side of receipts roll box (9) is connected with buffering area (3), the other end of buffering area (3) is rotated and is connected with the threaded rod that is used for with turn over folded plate (17) spiral butt joint, the inside of receipts roll box (9) is rotated and is connected with the torsional spring seat, the one end of buffering area (3) is passed receipts roll box (9) and with torsional spring seat fixed connection, handrail frame (11) inside is fixed with output switch, output switch's input and battery (12) electricity are connected.

5. The raw material line roller transfer trolley for the production of the gallus as claimed in claim 3, is characterized in that: when the first rack (43) compresses the connecting spring to slide in the sliding groove (42), the first rack (43) can be completely disengaged from the second gear (492).

6. The raw material line roller transfer trolley for the production of the braces as claimed in claim 3, wherein: the outer wall of the upper end of the rotating plate (22) and the inner wall of the limiting frame (5) are smooth walls, and a clamping groove used for limiting the sliding range of the baffle (41) is formed in the limiting frame (5).

7. The raw material line roller transfer trolley for the production of the gallus as claimed in claim 3, is characterized in that: the convex groove (44) is divided into a forward-inclined section and an inclined groove section, the forward-inclined section is used for being in butt joint with the connecting shaft (47) and enabling the connecting shaft (47) to slide backwards, and the inclined groove section is used for drawing the connecting shaft (47) to slide.

8. The use method of the raw material line roller transfer trolley for the strap production is suitable for the raw material line roller transfer trolley for the strap production in claims 1 to 7, and is characterized by comprising the following steps:

the method comprises the following steps: the raw material wire rollers to be transferred are placed on a rotating plate (22) at the upper end of a supporting box (21) one by one;

step two: the rotating plate (22) can compress the return spring (23) after being subjected to gravity, so that one end of the rotating plate (22) is inclined, the rotating plate (22) drives the automatic material taking and placing limiting mechanism (4) to work to limit the raw material wire roller after being inclined, and the raw material wire roller and the automatic material taking and placing limiting mechanism (4) are placed at the upper end of the rotating plate (22) in a matching mode in sequence;

step three: transporting the raw material wire roller to a specified place through a transport trolley;

step four: the hydraulic rod (15) is started to push the turnover plate (17) to turn over, the automatic material taking and discharging limiting mechanism (4) is pulled upwards in the turnover process to separate from the limitation of the raw material line roller, and the raw material line roller rolls off from the rotating plate (22) under the action of gravity to finish discharging.

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