CN202704542U - Feeding device of barrel body forming machine - Google Patents

Abstract

The utility model discloses a feeding device of a barrel body forming machine in the technical field of forming machine auxiliary equipment. The feeding device of the barrel body forming machine comprises a workbench, a feeding frame arranged on the workbench in sliding mode, and a rotation shaft driven by a motor. The rotation shaft is connected with the feeding frame through a cam mechanism. A plurality of pushing mechanisms capable of one-way feeding are arranged on the feeding frame. By aid of the one-way feeding of the pushing mechanisms, the feeding device is enabled to convey materials to the barrel body forming machine to be formed and meanwhile convey formed barrel bodies out. No manual operation is needed in the whole operation process, and production efficiency is high.

Description

The cylinder shaper pay-off

Technical field

The utility model relates to forming machine accessory equipment technical field, relates in particular to a kind of cylinder shaper pay-off.

Background technology

Along with growth in the living standard, people also improve constantly the quality requirements of consumer goods.Preserve demanding food for some, for convenient the preservation needs to use metal can to encapsulate, because metal can has advantages of anti-collision, sealing property is strong, outward appearance is graceful, firmly get the customer and like, therefore, on the market multi-form metal can product appears just now.

Metal can mainly is comprised of cylindrical shell, bottom and top cover, and bottom is placed in the bottom of cylindrical shell and is fixedly connected to form tank body with cylindrical shell, and top cover is the top that can be connected in tank body with opening or closing, thereby forms the inner space for food storage.The shape of metal can depends primarily on cylindrical shell, and therefore, the forming method of cylindrical shell is particularly important.In the prior art, be to make the metal cylinder of definite shape, conventional way is sheet metal to be cut into a certain shape bend or cans again, then with the two edges of sheet metal by being welded; Yet, it all is raw material is delivered to the cylinder shaper structure to carry out the cylindrical shell forming operation by hand usually that traditional method is made sheet metal in the process of cylindrical shell, then with the manual forming machine of taking out of the cylindrical shell of moulding, step is more, technique is comparatively complicated, production efficiency is lower, and artificial consumption is large, can not satisfy the demand in production and market.

The utility model content

The purpose of this utility model is to provide a kind of cylinder shaper pay-off that can automatically carry out the raw material conveying and formed cylinder body is sent.

For achieving the above object, the technical solution of the utility model is for providing a kind of cylinder shaper pay-off, comprise bench board, described pay-off also comprises the cradle that is slidingly arranged on the bench board and by motor-driven rotating shaft, described rotating shaft is connected with described cradle by cam mechanism, and described cradle is provided with the top-pushing mechanism of a plurality of unidirectional feedings; Utilize the unidirectional feeding of described top-pushing mechanism, realize that described pay-off is delivered to the operation that the cylinder shaper structure carries out forming operation and simultaneously in type cylindrical shell sent with described raw material, whole operating process need not manual operation, and production efficiency is high.

Preferably, offer the slotted eye corresponding with described top-pushing mechanism on the described cradle, described top-pushing mechanism is arranged in the described slotted eye, compact conformation.

Preferably, described top-pushing mechanism comprises block and the elastic component that is articulated in the described slotted eye, and described block is provided with inclined plane part, and described elastic component vertically is connected between described block and the described cradle, and the inclined plane part of described block manifests described slotted eye; When described cradle slides backward on described bench board and when contacting raw material, under the mating reaction of the inclined plane part of described block and elastic component, described block be switched in the slotted eye and walk around raw material or cylindrical shell mobile backward, this moment, described block pivoted so that described inclined plane part manifests described slotted eye under the elastic reset effect of described elastic component again, when described cradle on described bench board during to front slide, described block pushes raw material or cylindrical shell moves forward, so raw material is pushed to the cylinder shaper structure and carry out forming operation and in type cylindrical shell is pushed away from the cylinder shaper structure, loop and so forth individual event feeding work.

Preferably, described cradle is provided with the pusher section that raw material is released, and when the operator was placed on raw material on the bench board, described pusher section pushed out described raw material.

Preferably, described bench board is provided with the storage device of placing for raw material, can pass the device for suction material that described storage device is drawn raw material, described storage device comprises the symmetrically arranged boss of two difference, the side of two described boss is respectively equipped with positioning plate, two described boss and described positioning plate jointly enclose and form the accommodation space of placing for raw material, described device for suction material comprises that the sucker and the lifting that are connected with extraneous vacuum pump drive cylinder, the mouth that described lifting drives cylinder is connected with described sucker, described sucker stretches in the described accommodation space, and the pusher section of described cradle slides and is located in the bottom of described accommodation space; Utilize described lifting to drive the described sucker lifting of air cylinder driven, after described sucker is drawn raw material, the described lifting driving described sucker of air cylinder driven and raw material drop to the bottom of described accommodation space together, this moment, described pusher section released described accommodation space to the raw material on the described sucker, then described lifting drives cylinder and drives described sucker again and move up and draw new raw material, described pusher section resets and carries out passing to new raw material, so cycling, and production efficiency is high.

Preferably, be provided with at least one guide bar along described cradle direction of slip on the described bench board, form the passage that passes through for raw material between described guide bar and the bench board, the feeding end of described guide bar upwards is bent to form arcuate structure, and guide is effective.

Preferably, described cam mechanism comprises disk eccentric wheel, bearing pin, connecting rod, and described rotating shaft is connected with described disk eccentric wheel, and described bearing pin is eccentrically set on the described disk eccentric wheel end face, one end of described connecting rod is articulated on the described bearing pin, and the described connecting rod other end and described cradle articulate; When described rotating shaft drives described disk eccentric wheel rotation one circle, described connecting rod promotes described cradle to carry out one and moves around on described bench board, described cradle and then realize the back and forth operation of described top-pushing mechanism, realize the periodicity feeding work of described cradle by utilizing described cam mechanism, smooth operation, simple and compact for structure.

Preferably, described connecting rod articulates by sliding rack and described cradle, described bench board is provided with guide rail, described sliding rack and described guide rail sliding block joint, the lower end of described connecting rod and described sliding rack articulates, and the upper end of described sliding rack is connected with described cradle, utilizes described sliding rack to move around on described guide rail, so that described cradle moves around mobile smoothness on described bench board.

Compared with prior art, the utility model comprises bench board, be slidingly arranged on the bench board cradle and by motor-driven rotating shaft, described rotating shaft is connected with described cradle by cam mechanism, described cradle is provided with the top-pushing mechanism of a plurality of unidirectional feedings, utilize the unidirectional feeding of described top-pushing mechanism, realize that described pay-off is delivered to the operation that the cylinder shaper structure carries out forming operation and simultaneously in type cylindrical shell sent with described raw material, whole operating process need not manual operation, and production efficiency is high.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is another visual angle structural representation of the present utility model

Fig. 3 is the utility model schematic top plan view.

Fig. 4 is the utility model schematic side view.

Fig. 5 is the structural representation of the utility model cradle.

Fig. 6 is the decomposing schematic representation of the utility model top-pushing mechanism.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing and preferred embodiment.

Please refer to shown in Fig. 1～6, the cylinder shaper pay-off that the utility model provides, comprise bench board 1, the rotating shaft 2 that is slidingly arranged in the cradle 3 on the bench board 1 and is driven by the motor (not shown), described rotating shaft 2 is connected with described cradle 3 by cam mechanism 4, and described cradle 3 is provided with the top-pushing mechanism 5 of a plurality of unidirectional feedings; Utilize the unidirectional feeding of described top-pushing mechanism 5, realize that described pay-off is delivered to the operation that the cylinder shaper structure carries out forming operation and simultaneously in type cylindrical shell sent with described raw material, whole operating process need not manual operation, and production efficiency is high.

Specifically preferably, such as Fig. 1, shown in 2 or 4, described cam mechanism 4 comprises disk eccentric wheel 41, bearing pin 42, connecting rod 43, described rotating shaft 2 is connected with described disk eccentric wheel 41, described bearing pin 42 is eccentrically set on described disk eccentric wheel 41 end faces, one end of described connecting rod 43 is articulated on the described bearing pin 42, described connecting rod 43 other ends and described cradle 3 articulate, when described rotating shaft 2 drives described disk eccentric wheel 41 rotations one circle, the described cradle 3 of described connecting rod 43 promotions carries out one and moves around on described bench board 1, described cradle 3 and then realize the back and forth operation of described top-pushing mechanism 5, realize the periodicity feeding work of described cradle 3 by utilizing described cam mechanism 4, smooth operation, simple and compact for structure.

Shown in Fig. 2 or 4, preferably, described connecting rod 43 articulates by sliding rack 6 and described cradle 3, described bench board 1 is provided with guide rail 11, described sliding rack 6 and described guide rail 11 sliding block joints, and described connecting rod 43 articulates with the lower end of described sliding rack 6, the upper end of described sliding rack 6 is connected with described cradle 3, utilize described sliding rack 6 on described guide rail 11, to move around, so that described cradle 3 moves around mobile smoothness on described bench board 1.

Preferably, offer the slotted eye 31 corresponding with described top-pushing mechanism 5 on the described cradle 3, described top-pushing mechanism 5 is arranged in the described slotted eye 31, compact conformation.As shown in Figure 6, preferably, described top-pushing mechanism 5 comprises block 51 and the elastic component 52 that is articulated in the described slotted eye 31, described block 51 is provided with inclined plane part 51a, described elastic component 52 vertically is connected between described block 51 and the described cradle 3, the inclined plane part 51a of described block 51 manifests described slotted eye 31, when described cradle 3 slides backward on described bench board 1 and when contacting raw material, under the mating reaction of the inclined plane part 51a of described block 51 and elastic component 52, described block 51 be switched in the slotted eye 31 and walk around raw material or cylindrical shell mobile backward, this moment, described block 51 pivoted so that described inclined plane part 51a manifests described slotted eye 31 under the elastic reset effect of described elastic component 52 again, when described cradle 3 on described bench board 1 during to front slide, described block 51 pushes raw material or cylindrical shell moves forward, so raw material is pushed to the cylinder shaper structure and carry out forming operation and in type cylindrical shell is pushed away from the cylinder shaper structure, loop and so forth individual event feeding work.

Shown in Fig. 3 or 5, preferably, described cradle 3 is provided with the pusher section 32 that raw material is released, and when the operator was placed on raw material on the bench board 1, described pusher section 32 pushed out described raw material.Described bench board 1 is provided with the storage device 7 of placing for raw material, can pass the device for suction material 8 that 7 pairs of raw materials of described storage device are drawn, described storage device 7 comprises the symmetrically arranged boss 71 of two difference, the side of two described boss 71 is respectively equipped with positioning plate 72, two described boss 71 jointly enclose with described positioning plate 72 and form the accommodation space of placing for raw material, described device for suction material 8 comprises that the sucker 81 and the lifting that are connected with extraneous vacuum pump drive cylinder 82, the mouth that described lifting drives cylinder 82 is connected with described sucker 81, described sucker 81 stretches in the described accommodation space, the pusher section 32 of described cradle 3 slides and is located in the bottom of described accommodation space, utilize described lifting to drive cylinder 82 and drive described sucker 81 liftings, after described sucker 81 is drawn raw material, the described lifting driving cylinder 82 described suckers 81 of driving and raw material drop to the bottom of described accommodation space together, raw material on 32 pairs of described suckers 81 of described pusher section this moment is released described accommodation space, then described lifting drives cylinder 82 and drives described sucker 81 again and move up and draw new raw material, described pusher section 32 resets and carries out passing to new raw material, so cycling, production efficiency is high.In the present embodiment, described storage device 7 also includes backgauge section 73, utilizes the described pusher of described backgauge section's 73 effective assurances section 32 only to push primary material at every turn, prevents the overlapping raw material that pushes away.

Shown in Fig. 1 or 3, preferably, be provided with at least one guide bar 9 along described cradle 3 direction of slips on the described bench board 1, form the passage that passes through for raw material between described guide bar 9 and the bench board 1, the feeding end of described guide bar 9 upwards is bent to form arcuate structure, and guide is effective.And described top-pushing mechanism 5 can't back push described raw material when utilizing the described cradle 3 of described guide bar 9 assurances to come and go, and realizes the unidirectional feeding operation of described top-pushing mechanism 5.In this enforcement, described guide bar 9 has two, and two described guide bars 9 lay respectively at the both sides of described cradle 3.

Principle of work of the present utility model is described in detail in detail, start described motor, described rotating shaft 2 is rotated and is driven described disk eccentric wheel 41 rotations, described connecting rod 43 promotes described cradle 3 and divides a word with a hyphen at the end of a line under described disk eccentric wheel 41 must drive, top-pushing mechanism 5 promotion raw materials on the described cradle 3 slide against on the described bench board 1 and promote formed cylinder body and slide against on the described cylinder shaper structure, realization pushes to raw material on the described cylinder shaper structure carries out forming operation, in type cylindrical shell is pushed out described cylinder shaper structure, then under being rotated further of described disk eccentric wheel 41, described connecting rod 43 drives described cradle 3 and returns along former road, when described rotating shaft 2 drives described disk eccentric wheel 41 rotations one circle, described connecting rod 43 promotes described cradle 3 to carry out one and moves around on described bench board 1, described cradle 3 and then realize the back and forth operation of described top-pushing mechanism 5.

Compared with prior art, the utility model is by utilizing the unidirectional feeding of described top-pushing mechanism 5, realize that described pay-off is delivered to the operation that the cylinder shaper structure carries out forming operation and simultaneously in type cylindrical shell sent with described raw material, whole operating process need not manual operation, and production efficiency is high; And by utilizing described cam mechanism 4 to realize the periodicity feeding work of described cradle 3, smooth operation, simple and compact for structure.

Above disclosed only is preferred embodiment of the present utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim still belongs to the scope that the utility model is contained.

Claims (8)

1. cylinder shaper pay-off, comprise bench board, it is characterized in that: described pay-off also comprises the cradle that is slidingly arranged on the bench board and by motor-driven rotating shaft, described rotating shaft is connected with described cradle by cam mechanism, and described cradle is provided with the top-pushing mechanism of a plurality of unidirectional feedings.

2. cylinder shaper pay-off as claimed in claim 1, it is characterized in that: offer the slotted eye corresponding with described top-pushing mechanism on the described cradle, described top-pushing mechanism is arranged in the described slotted eye.

3. cylinder shaper pay-off as claimed in claim 2, it is characterized in that: described top-pushing mechanism comprises block and the elastic component that is articulated in the described slotted eye, described block is provided with inclined plane part, described elastic component vertically is connected between described block and the described cradle, and the inclined plane part of described block manifests described slotted eye.

4. cylinder shaper pay-off as claimed in claim 1 is characterized in that: described cradle is provided with the pusher section that raw material is released.

5. cylinder shaper pay-off as claimed in claim 3, it is characterized in that: described bench board is provided with the storage device of placing for raw material, can pass the device for suction material that described storage device is drawn raw material, described storage device comprises the symmetrically arranged boss of two difference, the side of two described boss is respectively equipped with positioning plate, two described boss and described positioning plate jointly enclose and form the accommodation space of placing for raw material, described device for suction material comprises that the sucker and the lifting that are connected with extraneous vacuum pump drive cylinder, the mouth that described lifting drives cylinder is connected with described sucker, described sucker stretches in the described accommodation space, and the pusher section of described cradle slides and is located in the bottom of described accommodation space.

6. cylinder shaper pay-off as claimed in claim 1, it is characterized in that: be provided with at least one guide bar along described cradle direction of slip on the described bench board, form the passage that passes through for raw material between described guide bar and the bench board, the feeding end of described guide bar upwards is bent to form arcuate structure.

7. cylinder shaper pay-off as claimed in claim 1, it is characterized in that: described cam mechanism comprises disk eccentric wheel, bearing pin, connecting rod, described rotating shaft is connected with described disk eccentric wheel, described bearing pin is eccentrically set on the described disk eccentric wheel end face, one end of described connecting rod is articulated on the described bearing pin, and the described connecting rod other end and described cradle articulate.

8. cylinder shaper pay-off as claimed in claim 6, it is characterized in that: described connecting rod articulates by sliding rack and described cradle, described bench board is provided with guide rail, described sliding rack and described guide rail sliding block joint, the lower end of described connecting rod and described sliding rack articulates, and the upper end of described sliding rack is connected with described cradle.

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