CN213751659U

CN213751659U - 360-degree ring mark forming and shaping device

Info

Publication number: CN213751659U
Application number: CN202023317740.8U
Authority: CN
Inventors: 岑明
Original assignee: Guangzhou Xinbiao Machinery Technical Co ltd
Current assignee: Guangzhou Xinbiao Machinery Technical Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-07-20
Anticipated expiration: 2030-12-31

Abstract

The utility model discloses a 360 ring mark shaping device. The 360-degree annular label forming and shaping device comprises a forming and shaping base, an annular label forming base, a first label rolling mechanism, a second label rolling mechanism and a label pushing mechanism. The annular mark forming seat is arranged at the front end of the forming and shaping base, and an annular mark forming groove is formed in the top of the annular mark forming seat; the annular mark forming seat is provided with a vacuum hole communicated with the annular mark forming groove; the first label rolling mechanism comprises a first label rolling drive and a first label rolling drive plate; the second label rolling mechanism comprises a second label rolling drive and a second label rolling drive plate; the label pushing mechanism comprises a label pushing drive and a label pushing assembly. The utility model discloses 360 annular marks of shaping that can be reliable is convenient for carry in the mould.

Description

360-degree ring mark forming and shaping device

Technical Field

The utility model relates to a ring mark former, 360 especially ring mark shaping device.

Background

The annular label is attached to the label of product a week, can let the product more pleasing to the eye like this, but most labeller all is half mark at present, and this kind of subsides mark mode is not high to the requirement of labeller, but to the attached of annular label, and is very difficult at the forming process of label, consequently, solves 360 ring mark's shaping and is the technical problem that needs to solve at present.

Disclosure of Invention

The utility model aims at providing a 360 ring mark shaping device, this structure, 360 ring marks of shaping that can be reliable are convenient for carry in the mould.

In order to achieve the purpose, the 360-degree annular label forming and shaping device comprises a forming and shaping base, an annular label forming base, a first label rolling mechanism, a second label rolling mechanism and a label pushing mechanism;

the annular mark forming seat is arranged at the front end of the forming and shaping base, an annular mark forming groove is formed in the top of the annular mark forming seat, and the annular mark forming groove is arc-shaped; the annular mark forming seat is provided with a vacuum hole communicated with the annular mark forming groove; more than one annular mark forming seat is arranged;

the first label rolling mechanism comprises a first label rolling drive and a first label rolling drive plate, the first label rolling drive is arranged on the forming shaping base, the first label rolling drive plate is arranged on the first label rolling drive, and the front end of the first label rolling drive plate is provided with first label rolling parts the number of which is the same as that of the annular label forming bases; the first label rolling part is positioned above the annular label forming seat;

the second label rolling mechanism comprises a second label rolling drive and a second label rolling drive plate, the second label rolling drive is installed on the forming and shaping base, the second label rolling drive plate is installed on the second label rolling drive, and the front end of the second label rolling drive plate is provided with second label rolling parts the number of which is the same as that of the annular label forming bases; the second label rolling part is positioned above the annular label forming seat;

a first label rolling part and a second label rolling part are respectively arranged on two sides of the annular label forming seat;

the label pushing mechanism comprises a label pushing drive and a label pushing assembly, the label pushing drive is installed on the forming shaping base, the label pushing assembly is installed on the label pushing assembly, and the label pushing assembly is located behind the annular label forming base.

The method for shaping the 360-degree annular mark by utilizing the 360-degree annular mark shaping and shaping device comprises the following steps: moving the label in the label library into the annular label forming groove of the annular label forming seat, enabling two ends of the label to protrude out of the annular label forming groove, vacuumizing the vacuum hole, and enabling the label to be adsorbed on the inner wall of the annular label forming groove; starting a second label rolling drive, driving a second label rolling drive plate to move by the second label rolling drive, moving a second label rolling part to the first label rolling part, and carrying out annular forming on one end of the label by the second label rolling part; then start first label drive, first label drive drives the motion of first label drive plate, and the annular shaping is carried out to the other end of labeling to the first label portion of first label drive plate, realizes 360 annular label shaping plastic.

According to the device and the method, the label is firstly adsorbed into the arc-shaped annular label forming groove, and then the label is curled through the first label rolling part and the second label rolling part, so that the 360-degree annular label is formed, and therefore the 360-degree annular label can be reliably formed and is convenient to convey into a mold.

Further, a first guide groove is formed in the first label driving plate; a first guide rod penetrates through the first guide groove; a second guide groove is formed in the second label rolling driving plate; and a second guide groove is formed in the second label rolling driving plate, and a second guide rod penetrates through the second guide groove. This structure leads the motion of first volume label drive plate and second volume label drive plate through first guide bar and second guide bar, lets the motion position of first volume label drive plate and second volume label drive plate accurate.

Further, the label pushing assembly comprises a label pushing seat, a label pushing block and an elastic piece arranged between the label pushing seat and the label pushing block, and the label pushing seat is connected to the label pushing drive. This structure, after the labeling shaping, through pushing away the motion of mark drive push away mark subassembly, push away the fashioned annular mark of mark subassembly promotion and carry the mould in. Due to the elastic piece, when the label pushing block and the mold act, the buffer function can be achieved.

Furthermore, the elastic component include push away the mark bolt and push away the mark spring, push away the mark bolt and pass and push away the mark piece and be connected with pushing away the mark seat, push away the mark spring housing and lie in pushing away on the mark bolt that pushes away between the mark piece and the mark seat of pushing away.

Further, be equipped with third label mechanism on the second label drive plate, third label mechanism include label seat, third label drive and third label drive plate, the label seat is installed on the second label drive plate, the third label drive is installed on the label seat, the third label drive plate is connected on the third label drive, be equipped with third label portion near second label portion on the third label drive plate. This structure, when second label drive during operation, second label drive drives the motion of second label drive plate, and second label drive plate drives third label mechanism synchronous motion, moves to letting labeling one end curl when second label portion and targets in place, starts the drive of third label, and the drive of third label drives the motion of third label drive plate, and third label drive plate drives the motion of third label portion, further curls the one end of labeling, avoids interfering with the one end of the labeling that has curled when curling the labeling other end and causes the label quality unqualified.

Further, install on shaping plastic base and press mark mechanism, press mark mechanism including pressing mark seat, pressing mark drive, pressing mark board and pressure board piece, press mark seat installation on shaping plastic base, the clamp plate drive is installed on pressing mark seat, press mark board installation is on pressing mark drive, is equipped with the pressure mark piece unanimous with annular mark shaping seat quantity on pressing mark board, presses mark piece to be located the top of annular mark shaping seat, presses mark piece from the backward to setting up to down inclining. When the formed annular mark is conveyed into the mold, the marking pressing mechanism is started firstly, the pressing plate sheet in the marking pressing mechanism moves previously, and when the annular mark is pushed, the pressing plate sheet presses the front end of the annular mark, so that the annular mark is reliably conveyed into the mold.

Furthermore, a pitch varying mechanism is arranged on the forming and shaping base and comprises a pitch varying seat, a base and a pitch varying cylinder, the pitch varying seat is installed on the forming and shaping base, a cylinder body of the pitch varying cylinder is installed on the pitch varying seat, and a piston rod of the pitch varying cylinder is connected to the base. Generally speaking, the distance between the adjacent moulds is less, and in order to make the expanded label into a 360-degree ring label, certain spaces need to be reserved on two sides of the ring label forming seat, so that the distance between the moulds is smaller than the distance between the ring label forming seats, by utilizing the structure, the variable-pitch cylinder drives the variable-pitch seat to move by starting the variable-pitch cylinder, the variable-pitch seat drives the forming and shaping base to move in the Y-axis direction, and the label on the forming and shaping base, the distance of which is greater than the distance between the adjacent moulds, is input into the mould for a plurality of times.

Drawings

Fig. 1 is a schematic front view of a 360 ° ring marker shaping apparatus.

Fig. 2 is a side schematic view of a 360 ° ring marker shaping device.

Fig. 3 is a top down schematic view of a 360 deg. ring marker shaping device.

Fig. 4 is a front view of the lower indexing mechanism.

Fig. 5 is a side schematic view of the lower indexing mechanism.

Fig. 6 is a schematic front view of the marking mechanism.

Fig. 7 is a side schematic view of the indexing mechanism.

Fig. 8 is a schematic view of the X-axis drive mechanism.

Fig. 9 is a front schematic view of a 360 ° ring mark shaping device.

Fig. 10 is a side view of a 360 ° ring mark shaping device.

Fig. 11 is a schematic view of the 360 ° ring mark shaping device in a downward direction.

Fig. 12 is an exploded view of a 360 ° ring standard shaping device.

Fig. 13 is a schematic view of the first, second and third label rolling mechanisms and the annular label forming base.

Fig. 14 is an enlarged view a of fig. 12.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 3, the 360 ° ring mark shaping and shaping device includes a rack 1, a mark library 2, a mark fetching mechanism 3, an X-axis driving mechanism 4, and a 360 ° ring mark shaping and shaping device 5.

The label library 2 is arranged on the frame 1, and the number of the label libraries 2 is two.

The label taking mechanism 3 includes a lower label taking mechanism 31 and an upper label taking mechanism 32.

As shown in fig. 4 and 5, the lower label taking mechanism 31 includes a lower label taking base plate 310, a lower label taking guide rail 311, a lower label taking slider 312, a lower label taking slide plate 313, a lower label taking post 314, a lower label taking carrier plate 315, a lower label taking cylinder 316, a lower label taking suction cup 317, and a lower label taking transverse cylinder 318. The lower label taking bottom plate 310 is installed on the rack, the lower label taking guide rail 311 is installed on the lower label taking bottom plate 310, the lower label taking slide block 312 is arranged on the lower label taking guide rail 311 in a sliding mode, the lower label taking slide plate 313 is fixed on the lower label taking slide block 312, the lower label taking upright post 314 is installed on the lower label taking slide plate 313, the lower label taking bearing plate 315 is installed on the lower label taking upright post 314, the lower label taking air cylinder 316 is installed on the lower label taking slide plate 313, the lower label taking suction cup 317 is installed on a piston rod of the lower label taking air cylinder, the lower label taking transverse air cylinder 318 is installed in the lower label taking bottom plate 310, the piston rod of the lower label taking transverse air cylinder 318 is connected onto the lower label taking slide plate 313 through a connecting block, and the lower label taking guide rail 311 is arranged along the X-axis direction.

When needs get standard, get the mark slider motion under driving through getting down the horizontal cylinder of mark, drive down get mark loading board and get the below that mark sucking disc moved the mark storehouse, then start and get the mark cylinder down, drive and get the mark sucking disc and adsorb the mark on the mark storehouse down, then get down mark cylinder and drive the mark and place and get down on the mark loading board, start and get down and get the horizontal cylinder of mark and drive and get the below that mark loading board moved the mechanism of getting on, supply to get the mechanism of getting on and adsorb the mark.

As shown in fig. 6 and 7, the upper labeling mechanism 32 includes an upper labeling slide rail 321, an upper labeling slide block 322, an upper labeling slide plate 323, an upper labeling cylinder 324, an upper labeling suction cup 325, and an upper labeling transverse cylinder 326. The upper marking sliding rail 321 is arranged along the X-axis direction, the upper marking sliding rail 321 is fixed on the rack 1, the upper marking sliding block 322 is arranged on the upper marking sliding rail 321 in a sliding mode, the upper marking sliding plate 323 is fixed on the upper marking sliding block 322, the upper marking air cylinder 324 is arranged on the upper marking sliding plate 323, the upper marking suction cup 325 is arranged on a piston rod of the upper marking air cylinder 324, and the upper marking transverse air cylinder 326 is arranged between the rack and the upper marking sliding plate.

When needs are got from getting down to mark on the mechanism and is markd, get the slide motion of marking on driving through getting to mark horizontal cylinder on, then get the mark through getting to mark cylinder decline, then let the label rise, place 360 ring mark shaping device 5 with the label through getting to mark horizontal cylinder on.

In the structure, the mark can be directly taken from the mark library through the mark taking mechanism.

As shown in fig. 8, the X-axis driving mechanism 4 includes an X-axis driving motor 41, an X-axis driving wheel 42, an X-axis driven wheel 43, an X-axis belt 44, and a belt pressing block 45; x axle driving motor 41 installs in frame 1 and drives X axle action wheel 42, and X axle action wheel 42 passes through the bearing and installs in frame 1, and the X axle is installed in frame 1 through the bearing from driving wheel 43, and X axle belt 44 cover is between X axle action wheel 42 and X axle from driving wheel 43, installs belt briquetting 45 on X axle belt 44, and belt briquetting 45 connects at 360 ring mark shaping device, and 360 the gliding setting of ring mark shaping device is in the frame.

When the X-axis driving motor works, the X-axis driving motor drives the X-axis driving wheel to rotate, the X-axis driving wheel drives the X-axis belt to move, and the X-axis belt drives the 360-degree ring mark forming and shaping device to move in the X-axis direction through the belt pressing block. Therefore, the 360-degree ring mark forming and shaping device can be driven to move in the X-axis direction through the X-axis driving mechanism, and the purpose of sending marks to the die is achieved.

As shown in fig. 9 to 13, the 360 ° ring label forming and shaping device 5 includes a base 51, a forming and shaping base 52, a ring label forming base 53, a first label mechanism 54, a second label mechanism 55, a third label mechanism 56, a label pressing mechanism 57, a label pushing mechanism 58, and a distance changing mechanism 59.

The base 51 is slidably mounted on the X-axis slide rails 511, and the base 51 is driven to move by the X-axis driving mechanism.

The shaping base 52 is slidably disposed on the base 51, and the shaping base 52 is movable in the Y-axis direction of the base 51. The forming and shaping base 52 comprises a forming and shaping bottom plate 521, a forming and shaping frame 522, a support plate 523, a support block 524 and a variable pitch frame 525. The forming and shaping frame 522 is mounted on the forming and shaping bottom plate 521, a support plate 523 is fixed to one end of the forming and shaping frame 522, support blocks 524 are respectively mounted to both ends of the forming and shaping bottom plate 522, and a pitch varying frame 525 is mounted on the forming and shaping bottom plate 521.

The annular mark forming seat 53 is installed at the front end of the forming shaping bottom plate 521, an annular mark forming groove 531 is formed in the top of the annular mark forming seat, the annular mark forming groove 531 is arc-shaped, and in the embodiment, the section of the annular mark forming groove 531 is semicircular; the annular mark forming seat is provided with a vacuum hole 532 communicated with the annular mark forming groove; more than one annular mark forming seat 53 is arranged.

The first label mechanism 54 includes a first label driver 541 and a first label driver 542. The first label driver 541 is an air cylinder, the first label driver 541 is installed on the support plate 523, the first label driver plate 542 is installed on the first label driver 541, and the front end of the first label driver plate is provided with first label parts 5421 with the same number as the annular label forming seats; the first label rolling part is positioned above the annular label forming seat. A first guide groove 5422 is formed in the first label driving plate 542; a first guide rod is arranged on the support block, passes through the first guide groove 5422, and performs motion guide on the first label driving plate through the first guide rod.

The second label mechanism 55 includes a second label driving plate 551 and a second label driving plate 552. The second label driving device 551 is a cylinder, the second label driving device 551 is installed on the supporting plate 523, the second label driving plate 552 is installed on the second label driving device 551, and the front end of the second label driving plate has second label portions 5521 with the same number as the annular label forming seats; the second label rolling part is positioned above the annular label forming seat. A second guide groove 5522 is formed on the second label driving plate 552; and a second guide rod is arranged on the supporting block, passes through the second guide groove 5522, and performs motion guide on the second label rolling driving plate through the second guide rod.

The third label rolling mechanism 56 is arranged on the second label rolling driving plate, the third label rolling mechanism 56 comprises a label rolling seat, a third label rolling driving plate 561 and a third label rolling driving plate 562, the label rolling seat is installed on the second label rolling driving plate 552, the third label rolling driving plate 561 is an air cylinder, the third label rolling driving plate 561 is installed on the label rolling seat, the third label rolling driving plate 562 is connected onto the third label rolling driving plate 561, a third label rolling part 5621 is arranged on the third label rolling driving plate close to the second label rolling part, a third waist-shaped groove 5622 is formed in the third label rolling driving plate, a third guide rod is arranged on the second label rolling driving plate, and the third guide rod penetrates through the third waist-shaped groove 5622.

The two sides of the annular label forming seat are respectively provided with a first label rolling part and a second label rolling part, the third label rolling part is arranged close to the second label rolling part, and the third label rolling part is a rod body.

The label pressing mechanism 57 is installed on the forming and shaping base, the label pressing mechanism 57 comprises a label pressing seat, a label pressing drive 571, a label pressing plate 572 and a pressing plate 573, the label pressing seat is installed on the forming and shaping base, the label pressing drive 571 is an air cylinder, the pressing plate drive 571 is installed on the label pressing seat, the label pressing plate 572 is installed on the label pressing drive 571, label pressing sheets 573 with the number consistent with that of the annular label forming seats are arranged on the label pressing plate 572, the label pressing sheets are located above the annular label forming seats, and the label pressing sheets are obliquely arranged from back to front and downwards.

The label pushing mechanism 58 comprises a label pushing drive 581 and a label pushing assembly 582, the label pushing drive is an air cylinder, the label pushing drive is installed on the forming shaping base, the label pushing assembly is installed on the label pushing assembly, and the label pushing assembly is located behind the annular label forming base.

As shown in fig. 14, the label pushing assembly 582 includes a label pushing base 5821, a label pushing block 5822 and an elastic member 5823 disposed between the label pushing base and the label pushing block, and the label pushing base is connected to the label pushing driver. Elastic component including pushing away mark bolt 58231 and pushing away mark spring 58232, push away the mark bolt and pass and push away the mark piece and push away the mark seat and be connected, push away the mark spring housing and lie in pushing away the mark piece and push away the mark bolt that pushes away between the mark seat.

Above-mentioned structure, when pushing away mark drive during operation, push away the mark drive and push away mark seat forward motion, push away the mark seat and drive through the elastic component and push away the motion of mark piece, push away the mark piece through pushing away the mark piece and release the ring mark to the mould in, owing to set up and push away the mark spring, consequently, when pushing away the mark piece and colliding the mould, can play the effect of buffering, also can push the ring mark to the mould and target in place.

As shown in fig. 9 to 13, a pitch mechanism 59 is disposed on the pitch frame 525, and the pitch mechanism includes a pitch seat 591 and a pitch cylinder 592, the pitch seat 591 is slidably mounted on the pitch frame 525, a cylinder body of the pitch cylinder 592 is mounted on the pitch seat 591, and a piston rod of the pitch cylinder is connected to the base. Generally speaking, the distance between the adjacent moulds is less, and in order to make the expanded label into a 360-degree ring label, certain spaces need to be reserved on two sides of the ring label forming seat, so that the distance between the moulds is smaller than the distance between the ring label forming seats, by utilizing the structure, the variable-pitch cylinder drives the variable-pitch seat to move by starting the variable-pitch cylinder, the variable-pitch seat drives the forming and shaping base to move in the Y-axis direction, and the label on the forming and shaping base, the distance of which is greater than the distance between the adjacent moulds, is input into the mould for a plurality of times.

The method for shaping the 360-degree annular mark by utilizing the 360-degree annular mark shaping and shaping equipment comprises the following steps: moving the labels in the label library into the annular label forming grooves of the annular label forming seat through the label taking mechanism, enabling two ends of the labels to protrude out of the annular label forming grooves, vacuumizing the vacuum holes, and enabling the labels to be adsorbed on the inner walls of the annular label forming grooves; starting a second label rolling drive, wherein the second label rolling drive drives a second label rolling drive plate to move, a second label rolling part moves towards a first label rolling part, and one end of the label is annularly formed through the second label rolling part; then start first label drive, first label drive drives the motion of first label drive plate, the first label portion of first label drive plate carries out annular forming to the other end of labeling, realize 360 annular label shaping plastic, 360 annular label shaping backs, start and press mark mechanism, let the mark piece of pressing mark mechanism move mould department, then drive whole 360 annular label shaping plastic to the mould direction motion through X axle actuating mechanism, at last through pushing away in the mould of mark mechanism ring mark push-in.

The equipment and the method firstly adsorb the label into the arc-shaped annular label forming groove, then curl the label through the first label part and the second label part, simultaneously utilize the third label part to press one end of the label, avoid interference, then form 360-degree annular labels, thus, the reliable 360-degree annular labels can be formed, the joint of the annular labels is pressed through the label pressing mechanism, the front end of the joint of the annular labels is pressed downwards, then the annular labels are pushed into the mould through the label pushing mechanism, in the label pushing process, the label pushing mechanism is elastic, so that the buffer is convenient, and the label is convenient to convey into the mould.

Claims

1. The utility model provides a 360 ring mark shaping device which characterized in that: the automatic label rolling machine comprises a forming and shaping base, an annular label forming base, a first label rolling mechanism, a second label rolling mechanism and a label pushing mechanism;

2. The 360 ° ring mark shaping device of claim 1, wherein: a first guide groove is formed in the first label driving plate; a first guide rod penetrates through the first guide groove; and a second guide groove is formed in the second label rolling driving plate, and a second guide rod penetrates through the second guide groove.

3. The 360 ° ring mark shaping device of claim 1, wherein: the label pushing assembly comprises a label pushing seat, a label pushing block and an elastic piece arranged between the label pushing seat and the label pushing block, and the label pushing seat is connected to a label pushing drive.

4. A 360 ° ring mark shaping device according to claim 3, wherein: the elastic piece include push away the mark bolt and push away the mark spring, push away the mark bolt and pass and push away the mark piece and push away the mark seat and be connected, push away the mark spring housing and lie in pushing away the mark piece and push away on the mark bolt that pushes away between the mark seat.

5. The 360 ° ring mark shaping device of claim 1, wherein: and a third label rolling mechanism is arranged on the second label rolling driving plate, the third label rolling mechanism comprises a label rolling seat, a third label rolling driving plate and a third label rolling driving plate, the label rolling seat is arranged on the second label rolling driving plate, the third label rolling driving plate is arranged on the label rolling seat, the third label rolling driving plate is connected on the third label rolling driving plate, and a third label rolling part is arranged on the third label rolling driving plate and close to the second label rolling part.

6. The 360 ° ring mark shaping device of claim 1, wherein: install on shaping plastic base and press mark mechanism, press mark mechanism including pressing mark seat, pressing mark drive, pressing mark board and pressure slab, press mark seat to install on shaping plastic base, the clamp plate drive is installed on pressing mark seat, press mark board to install on pressing mark drive, be equipped with on pressing mark board with the unanimous pressure mark piece of annular mark one-tenth seat quantity, press mark piece to be located the top of annular mark one-tenth seat, press mark piece from the backward to setting up to down-dip.

7. The 360 ° ring mark shaping device of claim 1, wherein: the forming and shaping base is provided with a pitch-changing mechanism, the pitch-changing mechanism comprises a pitch-changing seat, a base and a pitch-changing cylinder, the pitch-changing seat is installed on the forming and shaping base, a cylinder body of the pitch-changing cylinder is installed on the pitch-changing seat, and a piston rod of the pitch-changing cylinder is connected to the base.