CN220998051U - Aluminum product transfer device for pop-top can cover - Google Patents

Abstract

The utility model relates to the technical field of pop can cover production equipment, in particular to an aluminum material transfer device for a pop can cover, which comprises a track groove, an aluminum roll transfer structure and a protection structure, wherein the aluminum roll transfer structure comprises an aluminum roll material table, a conveying mechanism and a lifting mechanism, the aluminum roll material table is used for bearing an aluminum roll, the aluminum roll material table is driven by the lifting mechanism to lift and position and is driven by the conveying mechanism to move along the track groove, and the conveying mechanism and the lifting mechanism are matched to realize transfer, feeding and discharging of the aluminum roll; the two telescopic protection mechanisms of the protection structure are arranged in the track groove, the fixed end of the telescopic protection mechanism is connected with the track groove, the movable end of the telescopic protection mechanism is connected with the conveying mechanism between the two telescopic protection mechanisms, and when the conveying mechanism moves in the track groove, the conveying mechanism and the two telescopic protection mechanisms are matched to seal and block the track groove, so that the safety problem caused by the fact that an external person or object falls into the track groove is avoided.

Description

Aluminum product transfer device for pop-top can cover

Technical Field

The utility model relates to the technical field of pop can cover production equipment, in particular to an aluminum material transfer device for a pop can cover.

Background

When the aluminum coil is used for producing products such as aluminum sheets, pop can covers and the like, the aluminum coil is generally used as a raw material aluminum coil, and the aluminum coil needs to be placed on an aluminum coil unreeling machine for unreeling and feeding during production.

Large-scale hoisting equipment such as purlin car, crane, purchase installation cost is high, and running cost is also high, and the installation and the operation function of equipment all need occupy great space moreover, consequently need a space occupy little, with low costs equipment, can assist the material loading and the unloading operation of realization aluminium book, make things convenient for the production of aluminium product such as aluminium sheet, easy open can cover.

Disclosure of utility model

The technical problem to be solved by the utility model is to provide the aluminum material transfer device for the pop can cover, which can facilitate transfer, feeding and discharging of aluminum rolls when products such as pop can covers or aluminum sheets are produced by utilizing the aluminum rolls.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides an aluminum product transfer device for easy open can lid, includes track groove and aluminium roll transfer structure, and aluminium roll transfer structure includes aluminium coil stock platform, transport mechanism and elevating system, and transport mechanism sets up in the track inslot and along the track groove at standby position and go up and down between the unloading station, elevating system sets up on transport mechanism and elevating system's lifting part is connected with aluminium coil stock platform, is equipped with aluminium roll loading surface on the aluminium coil stock platform.

The aluminum coil stock platform is suitable for bearing aluminum coils, the lifting mechanism drives the aluminum coil stock platform to lift so as to realize loading and unloading of the aluminum coils, aluminum coil feeding and aluminum coil discharging operations are conveniently carried out on the aluminum coil unreeling machine, the conveying mechanism is arranged in the track groove and moves along the track groove, the aluminum coil stock platform is convenient to carry and transfer, the conveying mechanism is matched with the lifting mechanism and the aluminum coil stock platform, automatic transfer and feeding of the aluminum coils can be realized, and large hoisting equipment such as a truss car and a crane are not required to be matched.

Further, the aluminum roll bearing surface is an arc concave surface or a V-shaped concave surface.

The arc or V-shaped structural characteristics of the aluminum roll bearing surface can prevent the aluminum roll from rolling on the aluminum roll bearing surface, and improve the safety of the aluminum roll during transportation.

Further, a plurality of first gaskets are arranged on the aluminum roll bearing surface.

The first gasket is arranged on the aluminum roll bearing surface, so that the surface abrasion of the aluminum roll during aluminum roll bearing is avoided, the anti-slip effect can be achieved, and the safety of aluminum roll transportation is improved.

Further, the conveying mechanism comprises a conveying substrate, a traveling mechanism and a traveling driving piece, the traveling mechanism and the traveling driving piece are arranged on the conveying substrate, the power output end of the traveling driving piece is connected with the traveling mechanism and drives the conveying substrate to move along the track groove, and the lifting mechanism is arranged on the conveying substrate.

Further, the travelling mechanism comprises travelling wheels, the power output end of the travelling driving piece is connected with the travelling wheels and drives the travelling wheels to rotate, travelling guide rails are further arranged in the track grooves, and each travelling wheel is matched with each travelling guide rail.

The travelling mechanism comprises travelling wheels, a travelling guide rail is arranged in the track groove, and the travelling wheels are matched with the travelling guide rail to improve the moving stability of the conveying mechanism.

Further, the conveying substrate is further provided with a feeding and discharging guide mechanism, the feeding and discharging guide mechanism comprises a guide rod and a guide bushing, the guide bushing is fixedly arranged on the conveying substrate, the guide rod penetrates through the guide bushing, and the top end of the guide rod is connected with the aluminum coil stock table.

The feeding and discharging guide mechanism can effectively prevent the aluminum coil stock platform from side turning when carrying heavy objects, and can improve the lifting stability of the aluminum coil stock platform.

Further, the notch of the track groove is flaring, and second gaskets are arranged on two sides of the notch of the track groove at the standby station.

The notch in track groove sets up to flaring form, conveniently transports the aluminium volume from standby station department to aluminium volume transfer structure on, and the second gasket can protect aluminium volume surface when transporting the aluminium volume.

Further, the device further comprises a protection structure, the protection structure comprises two telescopic protection mechanisms, the two telescopic protection mechanisms are arranged in the track groove, the fixed ends of the two telescopic protection mechanisms are connected with the track groove, the conveying mechanism is arranged between the two telescopic protection mechanisms, the two ends of the conveying mechanism are respectively connected with the free ends of the two telescopic protection mechanisms, and the conveying mechanism moves between the standby station and the feeding and discharging station and drives the two telescopic protection mechanisms to seal and block the track groove.

The two telescopic protection mechanisms are connected with the conveying mechanism, the conveying mechanism is matched with the two telescopic protection mechanisms to seal and block the track groove, and the problem that people or objects fall into the track groove to cause safety is avoided.

Further, the telescopic protection mechanism comprises a support guide piece and at least two cover plates, the support guide piece is arranged in the track groove and is arranged along the moving direction of the conveying mechanism, the cover plates are provided with accommodating cavities, the cover plates are arranged in the track groove and slide along the support guide piece, two adjacent cover plates are in sliding fit, and in any two adjacent cover plates, one cover plate can be taken in the accommodating cavity of the other cover plate along the length direction of the support guide piece.

Any adjacent cover plates of the telescopic protection mechanism are matched to form a protection plate structure which can move along with the conveying mechanism to stretch out and draw back, and the rail groove is blocked and protected.

Further, the support guide piece comprises two support guide rails, the two support guide rails are respectively arranged on two side groove walls of the track groove, the cover plate is a U-shaped plate, and the cover plate is arranged on the two support guide rails and is matched with the two support guide rails.

Compared with the prior art, the utility model has the following beneficial effects:

1. The aluminum coil conveying device for the pop can cover can realize the feeding and discharging of the aluminum coil, and can realize the feeding and discharging of the aluminum coil without using a truss car, a crane and other large lifting equipment;

2. The notch of the track groove is flaring, which is suitable for transferring the aluminum coil to the aluminum coil stock table at the outer part of the track groove, and is convenient for transferring the aluminum coil on the aluminum coil stock table to the outer part of the track groove;

3. the two telescopic protection mechanisms of the protection structure are all arranged in the track groove, the fixed ends of the two telescopic protection mechanisms are connected with the track groove, the conveying mechanism is arranged between the two telescopic protection mechanisms and connected with the movable ends of the two telescopic protection mechanisms, the two telescopic protection mechanisms change in a telescopic manner along with the movement of the conveying mechanism, and when the conveying mechanism moves to any position along the track groove, the conveying mechanism and the two telescopic protection mechanisms are matched to seal the track groove, so that the situation that people or objects outside fall into the track groove is avoided, and the safety problem is caused.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of a part of an aluminum material transfer device for a can lid, which omits a protection structure, from a view angle of an end of a track groove;

fig. 2 is a schematic plan view of the aluminum transfer device for a can lid with a protective structure omitted;

FIG. 3 is a schematic structural view of an aluminum transfer device for a can lid;

FIG. 4 is a schematic structural view of an aluminum transfer device for a can lid from the view of the end of a track groove;

In the figure: 1. the aluminum coil conveying device comprises a rail groove, a 2 aluminum coil conveying structure, a 21 aluminum coil table, a 22, a conveying mechanism, a 23, a lifting mechanism, a 24, an upper and lower material guiding mechanism, a3, a telescopic protection mechanism, a 31, a cover plate, a 32 and a supporting guide rail.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without any inventive effort, are intended to be within the scope of the utility model.

The utility model provides an aluminum material transfer device for a pop can cover, which is used for solving the problems of inconvenient feeding and discharging of aluminum rolls, large occupied space, high cost and the like in the existing manufacturing process of products such as pop can covers or aluminum sheets and the like.

Referring to fig. 1-4, the aluminum material transferring device for pop can lids of the present utility model includes a track groove 1 and an aluminum roll transferring structure 2, the aluminum roll transferring structure 2 includes an aluminum roll table 21, a conveying mechanism 22 and a lifting mechanism 23, the conveying mechanism 22 is disposed in the track groove 1 and moves between a standby station and a loading and unloading station along the track groove 1, the lifting mechanism 23 is disposed on the conveying mechanism 22, a lifting portion of the lifting mechanism 23 is connected with the aluminum roll table 21, and an aluminum roll bearing surface is disposed on the aluminum roll table 21.

Specifically, the aluminum roll transferring structure 2 comprises an aluminum roll material table 21, a conveying mechanism 22 and a lifting mechanism 23, wherein the lifting mechanism 23 is arranged on the conveying mechanism 22, a lifting part of the lifting mechanism 23 is connected with the aluminum roll material table 21, the lifting mechanism 23 drives the aluminum roll material table 21 to carry out lifting adjustment, the aluminum roll material table 21 is used for bearing aluminum rolls, and the lifting mechanism 23 adjusts the height of the aluminum rolls by adjusting the lifting height of the aluminum roll material table 21 when the aluminum roll material table 21 bears the aluminum rolls, so that the loading and unloading of the aluminum rolls are realized. The aluminum coil stock table 21 is provided with an aluminum coil bearing surface, when the aluminum coil stock table 21 bears aluminum coils, the aluminum coils are matched with the aluminum coil bearing surface and are stabilized on the aluminum coil stock table 21 under the structural action of the aluminum coil bearing surface.

The conveying mechanism 22 is arranged in the track groove 1 and can reciprocate along the track groove 1, and the conveying mechanism 22 moves between a standby station and an loading and unloading station along the track groove 1. When the conveying mechanism 22 moves to the loading and unloading station, the aluminum coil stock table 21 on the conveying mechanism 22 is positioned at a position corresponding to the aluminum coil unreeling machine in the length direction of the track groove 1, and when the conveying mechanism 22 moves to the standby station, the aluminum coil stock table 21 is positioned at a position not corresponding to the aluminum coil unreeling machine in the length direction of the track groove 1, and at the moment, the aluminum coil stock table 21 is positioned at a position suitable for loading and unloading aluminum coils to the aluminum coil stock table 21 and not influencing the normal operation of the aluminum coil unreeling machine.

When the aluminum material transfer device for the pop can cover is used for feeding the aluminum roll unreeling machine, the conveying mechanism 22 moves to a standby station, the lifting mechanism 23 drives the aluminum roll material platform 21 to descend to the height matched with the notch of the track groove 1, after the aluminum roll located outside the track groove 1 is pushed onto the aluminum roll material platform 21, the lifting mechanism 23 drives the aluminum roll material platform 21 and the aluminum roll to lift, the aluminum roll is not contacted with the notch of the track groove 1, then the conveying mechanism 22 moves to an upper and lower station, at the moment, the aluminum roll material platform 21 and the aluminum roll are positioned at positions corresponding to the aluminum roll unreeling machine, the lifting mechanism 23 drives the aluminum roll material platform 21 to lift, the lifting mechanism 23 descends again after the aluminum roll is loaded to the aluminum roll unreeling machine, and the conveying mechanism 22 returns to the standby station.

When the aluminum product transfer device for the pop can cover is used for discharging an aluminum roll unreeling machine, the conveying mechanism 22 moves to the loading and unloading station, the lifting mechanism 23 drives the aluminum roll material table 21 to be lifted to the height matched with the aluminum roll unreeling machine, the aluminum roll unreeling machine unwinds empty aluminum rolls, the empty aluminum rolls fall on the aluminum roll material table 21, then the lifting mechanism 23 drives the aluminum roll material table 21 to descend, and after the conveying mechanism 22 moves to the standby station from the loading and unloading station, the lifting mechanism 23 drives the aluminum roll material table 21 to descend to the height matched with the notch of the track groove 1, and then the aluminum above the aluminum roll material table 21 is reeled down.

In some embodiments, the aluminum roll bearing surface is a curved concave surface or a V-shaped concave surface.

Specifically, referring to fig. 1 and 4, the aluminum roll bearing surface is an arc concave surface or a V-shaped concave surface with a low middle and high two sides, and the aluminum roll bearing surface of the structure can prevent the aluminum roll from rolling on the aluminum roll bearing surface, so that the stability of the aluminum roll bearing by the aluminum roll material table 21 is improved.

In order to facilitate the loading and unloading of the aluminum coil from the side position of the rail groove 1 to the aluminum coil stock table 21, the axial direction of the arc-shaped or V-shaped structure of the aluminum coil carrying surface is along the length direction of the rail groove 1.

In a further embodiment, a plurality of first shims is provided on the aluminum roll bearing surface.

The aluminum coil is contacted with each first gasket when the aluminum coil bearing surface, so that abrasion between the aluminum coil and the aluminum coil bearing surface is avoided. The first gaskets are elastic, and each first gasket is extruded when the aluminum roll is on the aluminum roll bearing surface, and the first gaskets are fully contacted with the aluminum roll.

Referring to fig. 1 and 2, in some embodiments, the conveying mechanism 22 includes a conveying base, a traveling mechanism and a traveling driving member, the traveling mechanism and the traveling driving member are both disposed on the conveying base, a power output end of the traveling driving member is connected to the traveling mechanism and drives the conveying base to move along the track groove 1, and the lifting mechanism 23 is disposed on the conveying base.

Specifically, the conveying mechanism 22 includes a conveying base, a traveling mechanism and a traveling driving member, the traveling mechanism is disposed on the conveying base, a power output end of the traveling driving member is connected to the traveling mechanism, and the traveling driving member drives the conveying base to move along the track groove 1 by driving the traveling mechanism. The elevating mechanism 23 is mounted on the transport base.

In some embodiments, the travelling mechanism comprises travelling wheels, the power output end of the travelling driving piece is connected with the travelling wheels and drives the travelling wheels to rotate, a travelling guide rail is further arranged in the track groove 1, and each travelling wheel is matched with the travelling guide rail.

Specifically, referring to fig. 1 and 2, the travelling mechanism includes 4 travelling wheels, the number of the travelling wheels is preferably 4, the power output end of the travelling driving member is connected with one or more travelling wheels, the travelling driving member drives the conveying substrate to move by driving the travelling wheels to rotate, and in order to accurately control the position of the conveying mechanism 22 in the track groove 1, the travelling driving member is a servo motor or a stepping motor.

In order to facilitate the walking of the walking wheels, a walking guide rail is arranged in the track groove 1, the walking wheels are matched with the walking guide rail, and the walking wheels walk along the walking guide rail. The two walking guide rails are preferably two, each walking wheel of the walking mechanism is divided into two groups and symmetrically distributed on two sides of the conveying base body respectively, and the two walking guide rails are matched with the two groups of walking wheels respectively.

In some embodiments, the road wheels are rail wheels adapted to mate with the road rail.

To improve the stability of the operation of the lifting mechanism 23, in some embodiments, the conveying substrate is further provided with a feeding and discharging guiding mechanism 24, the feeding and discharging guiding mechanism 24 comprises a guide rod and a guiding bushing, the guiding bushing is fixedly arranged on the conveying substrate, the guide rod passes through the guiding bushing, and the top end of the guide rod is connected with the aluminum coil stock table 21.

Specifically, referring to fig. 1, 2 and 4, the feeding and discharging guide mechanism 24 includes a guide rod and a guide bushing, the guide bushing is fixedly mounted on the conveying base, the axial direction of the guide bushing is parallel to the lifting direction of the lifting mechanism 23, the guide rod is inserted into the guide bushing and can move up and down along the guide bushing, and the top end of the guide rod is connected with the aluminum coil stock table 21. In the process that the lifting mechanism 23 drives the aluminum coil stock table 21 to lift and move, the guide rod passes through the guide bushing to lift and move, and the guide rod is matched with the bushing to prevent the aluminum coil stock table 21 from shifting when the lifting mechanism 23 drives the aluminum coil stock table 21 to lift.

The lifting mechanism 23 is preferably an oil cylinder, and the feeding and discharging guide mechanisms 24 are preferably a plurality of and are distributed around the lifting mechanism 23.

In order to improve the running stability of the aluminum coil transferring structure 2 when carrying the aluminum coil, the lifting mechanism 23 and the feeding and discharging guide mechanisms 24 are arranged at the bottom of the conveying substrate, openings are formed in the positions, corresponding to the lifting mechanism 23 and the feeding and discharging guide mechanisms 24, of the conveying substrate, and the lifting part of the lifting mechanism 23 and the guide rods of the feeding and discharging guide mechanisms 24 penetrate through the corresponding openings. The aluminum coil stock table 21 can be lowered to the height below the notch of the track groove 1 under the drive of the lifting mechanism 23, and the aluminum coil stock table 21 is supported by the auxiliary support of the plurality of feeding and discharging guide mechanisms 24 to prevent toppling when being lifted.

Referring to fig. 1, in some embodiments, to facilitate loading of aluminum rolls onto the aluminum roll stand 21 from the side of the rail groove 1, the notch of the rail groove 1 is flared. Preferably, the slope of the notch of the track groove 1 is matched with the aluminum roll bearing surface of the arc concave surface or the V-shaped concave surface. The standby station is provided with second gaskets on two sides of the notch of the track groove 1, the second gaskets and the first gaskets can be made of the same material, and the second gaskets can protect aluminum coils during feeding to the aluminum coil stock table 21.

For the convenience with the aluminum roll unreeling machine cooperation and in order to reduce intensity of labour, track groove 1 sets up in the workshop ground, for to aluminum roll material platform 21 material loading unloading, track groove 1 has certain length, for the installation and the operation of aluminum roll transfer structure 2 provide sufficient space, track groove 1 still should have certain degree of depth, great potential safety hazard has been brought for the workshop to longer deeper track groove 1, in order to solve this problem, in some embodiments, the aluminum product transfer device for the easy open can cover still includes protective structure, protective structure seals track groove 1 in the operation of aluminum roll transfer structure 2, thereby reduce the safety problem that track groove 1 brought for the workshop.

The protection structure comprises two telescopic protection mechanisms 3, wherein the two telescopic protection mechanisms 3 are arranged in the track groove 1, the fixed ends of the two telescopic protection mechanisms 3 are connected with the track groove 1, the conveying mechanism 22 is arranged between the two telescopic protection mechanisms 3, the two ends of the conveying mechanism 22 are respectively connected with the free ends of the two telescopic protection mechanisms 3, and the conveying mechanism 22 moves between the standby station and the loading and unloading station and drives the two telescopic protection mechanisms 3 to seal the track groove 1.

Specifically, please refer to fig. 3 and fig. 4, two telescopic protection mechanisms 3 are all disposed in the track groove 1, two ends of the telescopic protection mechanisms 3 are respectively a fixed end and a movable end, the fixed end of the telescopic protection mechanism 3 is connected with the track groove 1, the telescopic protection mechanisms 3 can be adjusted between an unfolding state and a folding state along the track groove 1 by pulling the movable end, a conveying mechanism 22 is disposed between the two telescopic protection mechanisms 3, two ends of the conveying mechanism 22 are respectively connected with the movable ends of the two telescopic protection mechanisms 3, the conveying mechanism 22 and the two telescopic protection mechanisms 3 cooperate to seal the track groove 1 integrally, and people or objects are prevented from falling into the track groove 1.

As a preferred embodiment, the fixed ends of the two telescopic protection mechanisms 3 are respectively connected with two end positions of the track groove 1, and when the conveying mechanism 22 is at any position in the track groove 1, the conveying mechanism 22 and the two telescopic mechanisms can be matched to block the track groove 1 integrally.

Referring to fig. 3 and 4, the telescopic protection mechanism 3 includes a support guide and at least two cover plates 31, the support guide is disposed in the track groove 1 and is disposed along the moving direction of the conveying mechanism 22, the cover plates 31 are provided with accommodating cavities, the cover plates 31 are disposed in the track groove 1 and slide along the support guide, two adjacent cover plates 31 are slidably engaged, and one of the cover plates 31 can be received into the accommodating cavity of the other cover plate 31 along the length direction of the support guide.

Specifically, the telescopic protection mechanism 3 includes a support guide provided in the track groove 1 in a length direction parallel to the conveying direction of the conveying mechanism 22, and at least two cover plates 31 mounted on the support guide and capable of sliding along the support guide. The cover plates 31 are internally provided with accommodating cavities, two adjacent cover plates 31 are in sliding fit along the length direction of the supporting guide piece, and one cover plate 31 can be retracted into the accommodating cavity of the other cover plate 31 along the length direction of the supporting guide piece in any two adjacent cover plates 31.

For convenience of description, for each telescopic protection mechanism 3, a direction from the movable end to the fixed end is defined as a folding direction in the length direction of the supporting guide member, a direction from the fixed end to the movable end is defined as a unfolding direction, and referring to fig. 3, when the conveying mechanism 22 moves to drive the telescopic protection mechanism 3 to fold, each cover plate 31 moves along the folding direction, each cover plate 31 is respectively folded into a containing cavity of the cover plate 31 adjacent along the folding direction, and finally the telescopic protection mechanism 3 is folded. When the conveying mechanism 22 moves to drive the telescopic protection mechanism 3 to be unfolded, each cover plate 31 moves along the unfolding direction, each cover plate 31 slides out of the accommodating cavity of the adjacent cover plate 31 along the unfolding direction, and finally the telescopic protection mechanism 3 is unfolded. Based on the view of fig. 3, the telescopic guard 3 positioned on the left side of the transport mechanism 22 in fig. 3 is in a retracted state, and the telescopic guard 3 positioned on the right side of the transport mechanism 22 is in an extended state.

As a preferred embodiment, the supporting guide member includes two supporting guide rails 32, the two supporting guide rails 32 are respectively disposed on two side groove walls of the track groove 1, the cover plate 31 is a U-shaped plate, and the cover plate 31 is disposed on the two supporting guide rails 32 and is matched with both supporting guide rails 32.

Specifically, referring to fig. 4, the supporting guide member includes two supporting guide rails 32, the two supporting guide rails 32 are respectively disposed on two side walls of the track groove 1, and the two supporting guide rails 32 cooperate to stably support the cover plate 31. The cover plate 31 is a U-shaped plate, the cover plate 31 is arranged in the track groove 1 in a buckling state and is supported by the cooperation of the two supporting guide rails 32, the U-shaped cavity of the cover plate 31 is a containing cavity, the closer to the fixed end is seen along the direction of the supporting guide rails 32, the larger the external length, the external width, the internal length and the internal width of the cover plate 31 are, so that the cover plate 31 close to the movable end can be retracted, and when the telescopic protection mechanism 3 is unfolded, the plate surface cooperation of each cover plate 31 seals the track groove 1.

In the description of the present specification, reference to the terms "one embodiment," "example," "specific example," and the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (10)

1. Aluminum product transfer device for easy open can cover, its characterized in that: including track groove (1) and aluminium book transport structure (2), aluminium book transport structure (2) are including aluminium coil stock platform (21), transport mechanism (22) and elevating system (23), transport mechanism (22) set up in track groove (1) and remove between standby position and last unloading station along track groove (1), elevating system (23) set up on transport mechanism (22) and elevating system's (23) elevating system is connected with aluminium coil stock platform (21), are equipped with aluminium on aluminium coil stock platform (21) and roll up the loading surface.

2. The aluminum material transfer device for a can lid according to claim 1, wherein: the aluminum roll bearing surface is an arc concave surface or a V-shaped concave surface.

3. The aluminum material transfer device for a can lid according to claim 2, wherein: a plurality of first gaskets are arranged on the aluminum roll bearing surface.

4. The aluminum material transfer device for a can lid according to claim 1, wherein: the conveying mechanism (22) comprises a conveying substrate, a traveling mechanism and a traveling driving piece, the traveling mechanism and the traveling driving piece are arranged on the conveying substrate, the power output end of the traveling driving piece is connected with the traveling mechanism and drives the conveying substrate to move along the track groove (1), and the lifting mechanism (23) is arranged on the conveying substrate.

5. The aluminum material transfer device for a can lid as recited in claim 4, wherein: the walking mechanism comprises walking wheels, the power output end of the walking driving piece is connected with the walking wheels and drives the walking wheels to rotate, a walking guide rail is further arranged in the track groove (1), and each walking wheel is matched with the walking guide rail.

6. The aluminum material transfer device for a can lid as recited in claim 4, wherein: the conveying substrate is further provided with a loading and unloading guiding mechanism (24), the loading and unloading guiding mechanism (24) comprises a guide rod and a guiding bushing, the guiding bushing is fixedly arranged on the conveying substrate, the guide rod penetrates through the guiding bushing, and the top end of the guide rod is connected with the aluminum coil stock table (21).

7. The aluminum transfer device for a can lid as recited in claim 6, wherein: the notch of the track groove (1) is flaring, and second gaskets are arranged on two sides of the notch of the track groove (1) at the standby station.

8. The aluminum material transfer device for a can lid according to any one of claims 1 to 7, wherein: still include protective structure, protective structure includes two flexible protection machanism (3), and two flexible protection machanism (3) all set up in track groove (1) and the stiff end of two flexible protection machanism (3) all is connected with track groove (1), transport mechanism (22) set up between two flexible protection machanism (3), transport two tip of mechanism (22) respectively with the free end connection of two flexible protection machanism (3), transport mechanism (22) remove and drive two flexible protection machanism (3) and keep off track groove (1) between standby position and last unloading station.

9. The aluminum transfer device for a can lid as recited in claim 8, wherein: the telescopic protection mechanism (3) comprises a support guide piece and at least two cover plates (31), wherein the support guide piece is arranged in the track groove (1) and arranged along the moving direction of the conveying mechanism (22), the cover plates (31) are provided with accommodating cavities, the cover plates (31) are arranged in the track groove (1) and slide along the support guide piece, the two adjacent cover plates (31) are in sliding fit, and one cover plate (31) can be accommodated in the accommodating cavity of the other cover plate (31) along the length direction of the support guide piece.

10. The aluminum transfer device for a can lid as recited in claim 9, wherein: the support guide piece comprises two support guide rails (32), the two support guide rails (32) are respectively arranged on two side groove walls of the track groove (1), the cover plate (31) is a U-shaped plate, and the cover plate (31) is arranged on the two support guide rails (32) and is matched with the two support guide rails (32).