CN213972235U - Label feeding forming device - Google Patents

Abstract

The utility model discloses a label feed forming device, include: a cassette; the label bin is arranged on one side of the cassette, is connected with the cassette and is used for storing a bottom label and a side label; the label taking mechanism is rotatably arranged in the cassette corresponding to the label bin and is used for sucking and transferring the bottom label and the side label stored in the label bin; and the vacuum forming mechanism is used for sucking and forming the bottom label and the side label transferred by the label taking mechanism and sending the bottom label and the side label into an injection mould. The utility model has reasonable and ingenious structural design, and can realize the in-mold labeling of the cup body (or box body) and the cup bottom (or box bottom) at the same time when meeting the product requirements of simultaneously sticking the cup body (or box body) and the cup bottom (or box bottom); and the feeding forming process of the bottom label and the feeding forming process of the side label are synchronously carried out, so that the production time is greatly reduced, and the cost is reduced.

Description

Label feeding forming device

Technical Field

The utility model relates to a label feed field, concretely relates to label feed forming device.

Background

At present, in the labeling field, manufacturers adopting an in-mold labeling process are increasing, and label paper which is printed and cut is placed into an injection mold for injection molding, so that the label paper and an injection molding product made of the same material are fused and stuck on the surface of the injection molding product, and compared with the traditional labeling process, the label paper has the advantages of being not easy to fall off, and not easy to wear and fade.

For cup or box products produced by adopting an in-mold labeling process, a labeling position is a cup body or a box body generally, a single vertical (or rotary) labeling mode is adopted in a structural mode generally, and when the labeling position is a cup bottom or a box bottom cover face, the structural mode is a single parallel (or rotary) labeling mode generally.

However, products in the market often need to be pasted with a cup body (or a box body) and a cup bottom (or a box bottom) at the same time, and the cup body (or the box body) and the cup bottom (or the box bottom) cannot be pasted with labels in a mold at the same time by a traditional labeling mode or a labeling device; on the one hand, the multiple labeling after injection molding leads to low production efficiency, on the other hand, the multiple in-mold labeling operation is executed, which often brings hidden troubles in quality, and meanwhile, the efficiency is lower.

In addition, in order to achieve high-speed production, a plurality of process designs are usually adopted for injection molding of products, but the existing label feeding mechanism cannot achieve discharging and forming of labels, and the discharging operation and the forming operation still need to be carried out by a discharging device outside the device, so that the device cost is undoubtedly increased, and the efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model discloses a label feed forming device.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

a label supply forming apparatus comprising:

a cassette;

the label bin is arranged on one side of the cassette, is connected with the cassette and is used for storing a bottom label and a side label;

the label taking mechanism is rotatably arranged in the cassette corresponding to the label bin and is used for sucking and transferring the bottom label and the side label stored in the label bin;

and the vacuum forming mechanism is used for sucking and forming the bottom label and the side label transferred by the label taking mechanism and sending the bottom label and the side label into an injection mould.

Preferably, the standard bin comprises:

a base connected with the cassette;

the first storage module is obliquely fixed on the base towards the upper direction and is used for storing the side labels;

the second storing module is obliquely fixed on the base towards the upper direction and is used for storing the bottom label;

the side label taking groove penetrates through the upper end surface and the lower end surface of the base corresponding to the first storage module;

and the bottom label taking groove is arranged corresponding to the upper end face and the lower end face of the base, and the second storage module penetrates through the base.

Preferably, the first magazine module includes:

the first positioning straight rods are arranged around the side label material taking groove, and the head ends of the first positioning straight rods are fixedly connected with the upper end face of the base;

and the first pushing mechanism is arranged on the base corresponding to the first positioning straight rods.

Preferably, the first pushing mechanism includes:

the first guide pillar is arranged in parallel to the first positioning straight rod, and the head end of the first guide pillar is fixedly connected with the base;

the first sliding seat is movably arranged on the first guide pillar;

and the first material pushing plate corresponds to the side label material taking groove and is fixedly connected with the sliding first sliding seat.

Preferably, the second magazine module comprises:

the second positioning straight rods are arranged around the bottom label material taking groove, and the head ends of the second positioning straight rods are fixedly connected with the upper end face of the base;

and the second pushing mechanism is arranged on the base corresponding to the second positioning straight rods.

Preferably, the second pushing mechanism includes:

the second guide pillar is arranged in parallel to the second positioning straight rod, and the head end of the second guide pillar is fixedly connected with the base;

the second sliding seat is movably arranged on the second guide pillar;

and the second material pushing plate corresponds to the bottom label material taking groove and is fixedly connected with the second sliding seat.

Preferably, the marking mechanism includes:

the rotating main shaft is rotatably arranged in the cassette;

the mark taking jig is arranged on the rotating main shaft corresponding to the mark bin;

wherein, the rotating main shaft is driven to rotate by a driving module.

Preferably, the mark-taking jig comprises:

a first linear cylinder mounted on the rotating main shaft;

the bottom label suction plate is fixedly connected with a piston rod of the first linear cylinder;

the overturning assembly is fixedly connected with the upper end face of the bottom label suction plate;

a side label suction plate mounted on the flip assembly;

and a plurality of negative pressure suckers are arranged on the bottom label suction plate and the side label suction plate.

Preferably, a displacement guide rail is transversely arranged on the rotating main shaft;

the first linear cylinder is movably arranged on the displacement guide rail;

and a third linear cylinder is also fixed on the rotating main shaft, and a piston rod of the third linear cylinder is fixedly connected with the first linear cylinder.

Preferably, the vacuum forming mechanism includes:

mounting a plate;

the molding main body can extend into the injection mold and is provided with a side label molding groove and a bottom label molding cambered surface, and the molding main body is fixedly connected with the mounting plate;

the vacuum air passage is arranged in the forming main body and is communicated with the side body label forming groove;

the vacuum sucker is arranged in the forming main body corresponding to the forming cambered surface of the bottom label;

wherein, the vacuum air passage and the vacuum sucker are both communicated with a vacuumizing device.

The utility model has the advantages that: the utility model has reasonable and ingenious structural design, the label bin stores the bottom label and the side label at the same time, the label taking mechanism takes the label from the bottom label and the side label at the same time and transfers the label, and the vacuum forming mechanism simultaneously absorbs and forms the bottom label and the side label transferred by the label taking mechanism; so that the cup body (or the box body) and the cup bottom (or the box bottom) can be simultaneously labeled in a mold when meeting the product requirement of simultaneously labeling the cup body (or the box body) and the cup bottom (or the box bottom); the feeding and forming process of the bottom label and the feeding and forming process of the side label are synchronously carried out, so that the production time is greatly shortened, and the cost is reduced; in addition, the device realizes discharging while feeding, and simultaneously realizes the forming of the bottom label and the side label by combining the vacuum forming mechanism, thereby solving the problems that the existing label feeding mechanism can not realize discharging and forming of the label, and still needs to rely on a discharging device outside the equipment to carry out discharging operation and forming operation, further reducing the cost and improving the efficiency.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

Fig. 1 is a perspective view of a label supply and forming device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram a of a mark bin in an embodiment of the present invention;

fig. 3 is a schematic structural diagram b of a mark bin in the embodiment of the present invention;

FIG. 4 is a schematic view of the connection relationship between the base and the connection main board in the embodiment of the present invention;

fig. 5 is a schematic structural diagram of the label taking mechanism in the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a vacuum forming mechanism in an embodiment of the present invention.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description of the present invention, it is to be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly connected" to another element, there are no intervening elements present.

Referring to fig. 1 to 6, the present embodiment provides a label supply forming apparatus, including:

a cassette 2;

the label bin 1 is arranged on one side of the cassette 2, is connected with the cassette 2 and is used for storing a bottom label A and a side label B;

the label taking mechanism 3 is rotatably arranged in the cassette 2 corresponding to the label bin 1 and is used for sucking and transferring the bottom label A and the side label B stored in the label bin 1;

and the vacuum forming mechanism 4 is used for sucking and forming the bottom label A and the side label B transferred by the label taking mechanism 3 and sending the bottom label A and the side label B into an injection mold.

Specifically, the label bin 1 is obliquely arranged towards the upper side, so that the bottom label a and the side label B stored in the label bin 1 can move downwards through self gravity, and due to the arrangement of the label taking mechanism 3, after the label taking mechanism 3 sucks the labels from the label bin 1, the bottom label a and the side label B can be driven to rotate to a set plane, so that the transfer and the discharge of the bottom label a and the side label B are realized, when a plurality of label taking mechanisms 3 are arranged, the plurality of bottom labels a and the plurality of side labels B can be arranged and positioned according to set positions, the discharge is realized while the labels are supplied, the suction of the vacuum forming mechanism 4 is facilitated, the problems that the existing label supplying mechanism cannot realize the discharge and the forming of the labels, the discharge operation and the forming operation still need to be carried out by a discharge device outside the equipment are solved, the cost is reduced, and the efficiency is improved; in addition, the label bin 1 stores a bottom label A and a side label B at the same time, the label taking mechanism 3 takes and transfers the bottom label A and the side label B at the same time, and the vacuum forming mechanism 4 simultaneously sucks and forms the bottom label A and the side label B transferred by the label taking mechanism 3; so that the cup body (or the box body) and the cup bottom (or the box bottom) can be labeled in a mold at the same time when meeting the product requirement of simultaneously labeling the cup body (or the box body) and the cup bottom (or the box bottom); and the feeding forming process of the bottom label A and the feeding forming process of the side label B are synchronously carried out, so that the production time is greatly reduced, and the cost is reduced.

Preferably, the standard chamber 1 comprises:

a base 11 connected to the cassette 2;

a first stocker module 12 fixed to the base 11 so as to be inclined upward and configured to store the side labels B;

a second magazine module 13, which is fixed to the bed 11 obliquely upward, for storing the bottom label a;

a side label taking groove 111 which is arranged through the upper end surface and the lower end surface of the base 11 corresponding to the first storage module 12;

and the bottom label taking groove 112 is arranged corresponding to the upper end face and the lower end face of the base 11, and the second storage module 13 penetrates through the upper end face and the lower end face of the base 11.

Specifically, the first storage module 12 and the second storage module 13 are respectively used for storing a side label B and a bottom label a, and the side label B and the bottom label a are stacked into a stacked label group and then are respectively placed into the first storage module 12 and the second storage module 13; the downward sliding trend is generated under the action of the gravity of the first storage module 12 and the second storage module 13, and the label taking mechanism 3 takes the side label B and the bottom label A from the first storage module 12 and the second storage module 13 respectively through the side label taking groove 111 and the bottom label taking groove 112.

Further, the upper end face of the base 11 is provided with a plurality of discharging blocking pieces 14 arranged around the edges of the side label taking groove 111 and the bottom label taking groove 112 to prevent the side label B/the bottom label a from falling out of the side label taking groove 111/the bottom label taking groove 112.

The side label taking groove 111 is arranged according to the shape of the side label B, and in the embodiment, the side label taking groove 111 is fan-shaped;

the bottom label taking groove 112 is arranged according to the shape of the bottom label a, and in this embodiment, the bottom label taking groove 112 is oval.

Preferably, the first magazine module 12 comprises:

the first positioning straight rods 121 are arranged around the side label taking groove 111, and the head ends of the first positioning straight rods 121 are fixedly connected with the upper end face of the base 11;

and the first pushing mechanism is arranged on the base 11 corresponding to the plurality of first positioning straight rods 121.

Preferably, the first pushing mechanism includes:

the first guide post 122 is arranged parallel to the first positioning straight rod 121, and the head end of the first guide post 122 is fixedly connected with the base 11;

a first sliding seat 123 movably mounted on the first guide post 122;

the first material pushing plate 124 is fixedly connected to the first sliding seat 123 corresponding to the side label taking groove 111.

Specifically, after the side body labels B and the bottom labels a are stacked into a stack of label groups, the stack of label groups are placed in a plurality of first positioning straight bars 121 to be positioned and wait for feeding, and the storage module 22 is obliquely arranged towards the upper side, so that the label groups tend to slide downwards due to the self gravity, the current side body label B/bottom label a is taken away, and the subsequent side body label B/bottom label a slides downwards to replace the position of the previous side body label B/bottom label a; need not electric drive, alright realize automatic and stable label feed, save the cost for production, and improve the operating efficiency.

Further, a first auxiliary positioning column 125 and a second auxiliary positioning column 135 which are arranged corresponding to the first positioning straight rod 121 and the second positioning straight rod 131 are further fixed on the upper discharging baffle plate 14, and the lengths of the first auxiliary positioning column 125 and the second auxiliary positioning column 135 are shorter than those of the first positioning straight rod 121 and the second positioning straight rod 131, so that when the side label B is closer to the side label material taking groove 111, the bottom label a is closer to the bottom label material taking groove 112, the better the positioning effect on the side label B and the bottom label a is, and the position accuracy of production operation is effectively improved. In addition, sufficient feeding space is provided for supplementing the side label B and the bottom label A.

Preferably, the second magazine module 13 comprises:

the second positioning straight rods 131 are arranged around the bottom label taking groove 112, and the head ends of the second positioning straight rods 131 are fixedly connected with the upper end face of the base 11;

and the second pushing mechanism is arranged on the base 11 corresponding to the plurality of second positioning straight rods 131.

Preferably, the second pushing mechanism includes:

the second guide post 132 is parallel to the second positioning straight rod 131, and the head end of the second guide post 132 is fixedly connected with the base 11;

a second slide 133 movably mounted on the second guide post 132;

and a second material pushing plate 134 fixedly connected to the second slide carriage 133 corresponding to the bottom label taking groove 112.

It is to be noted that the principle of the second magazine module 13 is the same as that of the first magazine module 12, with the purpose of storing the bottom labels a for suction by the label taking mechanism 3.

Preferably, the marking mechanism 3 includes:

a rotating main shaft 31 rotatably provided in the cassette 2;

the mark taking jig 32 is arranged on the rotating main shaft 31 corresponding to the mark bin 1;

wherein, the rotating spindle 31 is driven by a driving module to rotate.

Specifically, in this embodiment, the driving module is a driving motor, and drives the rotating spindle 31 to rotate through a belt pulley; it can also be driven by traditional driving methods such as gear-rack transmission and the like.

Further, the first positioning straight rod 121 and the tail end of the first guide pillar 122 are fixed with a first material limiting plate 126; a first hook 127 is movably mounted on the first sliding seat 123 corresponding to the first material limiting plate 126; the second positioning straight rod 131 and the tail end of the second guide pillar 132 are fixed with a second material limiting plate 136; and a second hook 137 is movably mounted on the second sliding seat 133 corresponding to the second material limiting plate 136.

Specifically, the first sliding seat 123 can be pulled by the first hook 127 to move up and down, when the feeding of all the side labels B in the first storage module 12 is completed, or the operator considers that the rest side labels B in the first storage module 12 are insufficient, the first hook 127 can be pulled to hang on the first material limiting plate 126, so that the first sliding seat 123 is fixed at a higher position, and the supplement of the side label B group is facilitated;

similarly, the second slider 133 can be pulled by the second hook 137 to move up and down, when the feeding of the bottom labels a in the second storage module 13 is completed completely, or the operator considers that the remaining bottom labels a in the second storage module 13 are insufficient, the second hook 137 can be pulled to be hung on the second material limiting plate 136, so that the second slider 133 is fixed at a higher position, and the replenishment of the bottom label a group is facilitated.

Preferably, the scaling jig 32 includes:

a first linear cylinder 321 mounted on the rotating main shaft 31;

a bottom label suction plate 322 fixedly connected with a piston rod of the first linear cylinder 321;

the overturning assembly is fixedly connected with the upper end face of the bottom label suction plate 322;

a side label 323 suction plate mounted on the flip assembly;

wherein, a plurality of negative pressure suckers 324 are arranged on the bottom label suction plate 322 and the side label 323 suction plate.

Specifically, the flip assembly includes: a roll-over stand 325, and a roll-over bar 326 mounted to the roll-over stand 325 in a turnable manner; a telescopic cylinder 327 for driving the turning rod 326 to turn is fixed on the turning support 325, and a piston rod of the telescopic cylinder 327 is hinged with the turning rod 326 through a driving rod 328; and the turning rod 326 is fixedly connected with the side label 323 suction plate. The driving rod 328 is driven to move through the telescopic cylinder 327, so that the turning rod 326 is pulled to rotate, and the side label 323 suction plate is turned, in this embodiment, the turning angle of the side label 323 suction plate is 90 degrees, and thus the parallel/perpendicular relation switching between the side label 323 suction plate and the bottom label suction plate 322 is realized.

Further, the side label 323 suction plate can be inserted into the side label taking groove 111, and then the side label B blocked by the discharging separation blade 14 is sucked by the plurality of negative pressure suction cups 324 arranged on the side label 323 suction plate, so that the side label B can be taken out due to the soft characteristic of the side label B;

the bottom label suction plate 322 can be inserted into the bottom label receiving slot 112, and then the bottom label a blocked by the discharging separation blade 14 is sucked by the plurality of negative pressure suction cups 324 arranged on the bottom label suction plate 322, so that the bottom label a can be taken out due to the soft characteristic of the bottom label a.

Preferably, the rotating main shaft 31 is transversely provided with a displacement guide rail 33;

the first linear cylinder 321 is movably mounted on the displacement guide rail 33;

a third linear cylinder 34 is further fixed to the rotating main shaft 31, and a piston rod of the third linear cylinder 34 is fixedly connected to the first linear cylinder 321.

Specifically, through the arrangement of the third linear air cylinder 34, the position of the first linear air cylinder 321 on the rotating main shaft 31 is adjustable, that is, the position of the marking jig 32 on the rotating main shaft 31 is adjustable. When the two marking tools 32 are installed on the rotating main shaft 31, the position of one marking tool 32 on the rotating main shaft 31 can be adjusted through the third linear cylinder 34, so that the distance between the two marking tools 32 can be adjusted, the bottom label A/side label B can be discharged, and the setting of the marking station of the vacuum forming mechanism can be adapted.

Furthermore, the label box 1 further comprises a connecting main board 15, the base 11 is connected with the cassette 2 through the connecting main board 15,

a plurality of left and right adjusting handles 16 and a plurality of up and down adjusting handles 17 are respectively arranged on the connecting main board 15 corresponding to the left and right end surfaces and the up and down end surfaces of the base 11;

and a positioning push block 19 is fixed on the base 11 corresponding to the left and right adjusting handles 16 and the up and down adjusting handle 17 respectively.

In this embodiment, the left-right adjustment handle 16 and the up-down adjustment handle 17 include a nut mounting block and an adjusting nut movably mounted on the nut mounting block corresponding to the positioning pushing block 19.

The bottom plate is fixed on the connecting main board 15 through a locking mechanism 18, and the locking mechanism 18 is a locking handle capable of adjusting the compression degree;

when the position of the standard bin 1 on the connecting main board 15 is adjusted, the locking handle is firstly unscrewed, then the relative position of the base 11 of the standard bin 1 and the connecting main board 15 is adjusted through the left-right adjusting handle 16 and the up-down adjusting handle 17, and then the locking handle is screwed; thereby realizing the position adjustment of the label cabin 1 corresponding to the label taking mechanism 3;

considering the aging of the device and other factors, when the discharging precision is not good, the user can self-select and adjust the position of the mark bin 1 or the position of the mark taking mechanism 3, so that the mark taking mechanism 3 is realigned with the mark bin 1.

Preferably, the vacuum forming mechanism 4 includes:

a mounting plate 41;

the forming body 42 can extend into the injection mold and is provided with a side label forming groove 421 and a bottom label forming arc surface 422, and the forming body 42 is fixedly connected with the mounting plate 41;

a vacuum duct 423 provided in the molding body 42 and communicating with the side label molding groove 421;

a vacuum cup 424 disposed in the molding body 42 corresponding to the bottom label molding arc 422;

wherein, the vacuum air channel 423 and the vacuum chuck 424 are both communicated with a vacuum pumping device.

Specifically, the mounting plate 41 is used for connecting with a manipulator or a host machine to drive the forming main body 42 to move; the vacuum chuck 424 is substantially perpendicular to the vacuum air channel 423; the last adsorption moulding of shaping main part 42 has during bottom label A, the side body label B, can directly send bottom label A, the side body label B into the injection mould through shaping main part 42 to realize the in-mould labeling of bottom label A, side body label B, it is accurate, reliable and stable to satisfy the structure position motion.

In addition, a static electricity generating component can be arranged in the vacuum air channel 423, and the side body label B is sucked in a static electricity generating mode.

In this embodiment, the number of the label bins 1, the label taking mechanism 3, and the vacuum forming mechanisms 4 is 2, two label bins 1 share one base 11, two vacuum forming mechanisms 4 share one mounting plate 41, and the two vacuum forming mechanisms 4 are arranged at a set interval.

When the label stacking machine is used, a stacked side label B group corresponding to the first auxiliary positioning columns 125 is placed among the first positioning straight rods 121 for positioning, and a stacked bottom label A group corresponding to the second auxiliary positioning columns 135 is placed among the second positioning straight rods 131 for positioning; the first slide carriage 123 drives the first material pushing plate 124 to move downwards through its own weight, and the first material pushing plate 124 pushes the side label B group to move downwards so that the side label B at the foremost end is attached to the discharging blocking plate 14; the second slide carriage 133 drives the second material pushing plate 134 to move downwards through its own weight, and the second material pushing plate 134 pushes the side label B group to move downwards so that the side label B at the foremost end is attached to the discharging baffle plate 14;

the first linear air cylinder 321 is driven to rotate by the rotating main shaft 31, the first linear air cylinder 321 drives the side label 323 suction plate and the bottom label suction plate 322 to overturn to the alignment mark bin 1, the first linear air cylinder 321 drives the side label 323 suction plate and the bottom label suction plate 322 to respectively extend into the side label taking groove 111 and the bottom label taking groove 112, and the side label B and the bottom label A are simultaneously sucked by the negative pressure suction cups 324 arranged on the side label taking groove 111 and the bottom label taking groove 112;

the first linear air cylinder 321 is reset, the side label B and the bottom label A are taken out, the first linear air cylinder 321 is driven to rotate to a set position through the rotating main shaft 31, and the side label 323 suction plate is driven by the overturning assembly to overturn by a set angle, generally 90 degrees;

finally, the forming main body 42 is moved, and the third linear air cylinder 34 is combined to drive the position of the label taking mechanism 3 on the rotating main shaft 31, so that the side label forming groove 421 is aligned with the side label B sucker, and the bottom label forming arc surface 422 is aligned with the bottom label A sucker; at this time, the negative pressure suction cups 324 of the side label taking groove 111 and the bottom label taking groove 112 stop sucking the side label B and the bottom label a, the forming main body 42 sucks the bottom label a and the side label B on the bottom label forming arc 422 and the side label B suction cups through the vacuum suction cups 424 and the vacuum air passages 423 respectively to complete the feeding forming of the labels, and then the side label B and the bottom label a are fed into the injection mold through the forming main body 42 to perform the in-mold labeling operation.

In addition, after the front side body label B/bottom label A is taken away, the subsequent side body label B/bottom label A slides downwards to replace the position of the previous label.

The utility model has reasonable and ingenious structural design, the label bin 1 stores the bottom label A and the side label B at the same time, the label taking mechanism 3 takes the labels of the bottom label A and the side label B at the same time, and the vacuum forming mechanism 4 simultaneously absorbs and forms the bottom label A and the side label B transferred by the label taking mechanism 3; so that the cup body (or the box body) and the cup bottom (or the box bottom) can be simultaneously labeled in a mold when meeting the product requirement of simultaneously labeling the cup body (or the box body) and the cup bottom (or the box bottom); the feeding forming process of the bottom label A and the feeding forming process of the side label B are synchronously carried out, so that the production time is greatly shortened, and the cost is reduced; in addition, the device realizes discharging while feeding, and simultaneously realizes the forming of the bottom label A and the side label B by combining the vacuum forming mechanism 4, thereby solving the problems that the existing label feeding mechanism can not realize discharging and forming of labels, and still needs to rely on a discharging device outside the equipment to carry out discharging operation and forming operation, further reducing the cost and improving the efficiency.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, using the technical means and contents disclosed above, without departing from the scope of the technical solution of the present invention. Therefore, the equivalent changes made according to the shape, structure and principle of the present invention should be covered in the protection scope of the present invention.

Claims (10)

1. A label supply forming apparatus, comprising:

a cassette;

the label bin is arranged on one side of the cassette, is connected with the cassette and is used for storing a bottom label and a side label;

the label taking mechanism is rotatably arranged in the cassette corresponding to the label bin and is used for sucking and transferring the bottom label and the side label stored in the label bin;

and the vacuum forming mechanism is used for sucking and forming the bottom label and the side label transferred by the label taking mechanism and sending the bottom label and the side label into an injection mould.

2. The label supply forming apparatus of claim 1 wherein said magazine comprises:

a base connected with the cassette;

the first storage module is obliquely fixed on the base towards the upper direction and is used for storing the side labels;

the second storing module is obliquely fixed on the base towards the upper direction and is used for storing the bottom label;

the side label taking groove penetrates through the upper end surface and the lower end surface of the base corresponding to the first storage module;

and the bottom label taking groove is arranged corresponding to the upper end face and the lower end face of the base, and the second storage module penetrates through the base.

3. The label supply forming apparatus of claim 2 wherein said first magazine module comprises:

the first positioning straight rods are arranged around the side label material taking groove, and the head ends of the first positioning straight rods are fixedly connected with the upper end face of the base;

and the first pushing mechanism is arranged on the base corresponding to the first positioning straight rods.

4. The label supply forming apparatus of claim 3, wherein said first pusher mechanism comprises:

the first guide pillar is arranged in parallel to the first positioning straight rod, and the head end of the first guide pillar is fixedly connected with the base;

the first sliding seat is movably arranged on the first guide pillar;

and the first material pushing plate corresponds to the side body label material taking groove and is fixedly connected with the first sliding seat.

5. The label supply forming apparatus of claim 2 wherein said second magazine module comprises:

the second positioning straight rods are arranged around the bottom label material taking groove, and the head ends of the second positioning straight rods are fixedly connected with the upper end face of the base;

and the second pushing mechanism is arranged on the base corresponding to the second positioning straight rods.

6. The label supply forming apparatus of claim 5, wherein said second pushing mechanism comprises:

the second guide pillar is arranged in parallel to the second positioning straight rod, and the head end of the second guide pillar is fixedly connected with the base;

the second sliding seat is movably arranged on the second guide pillar;

and the second material pushing plate corresponds to the bottom label material taking groove and is fixedly connected with the second sliding seat.

7. The label supply forming apparatus of claim 1 wherein said label picking mechanism comprises:

the rotating main shaft is rotatably arranged in the cassette;

the mark taking jig is arranged on the rotating main shaft corresponding to the mark bin;

wherein, the rotating main shaft is driven to rotate by a driving module.

8. The label feeding and forming apparatus of claim 7, wherein the label taking jig comprises:

a first linear cylinder mounted on the rotating main shaft;

the bottom label suction plate is fixedly connected with a piston rod of the first linear cylinder;

the overturning assembly is fixedly connected with the upper end face of the bottom label suction plate;

a side label suction plate mounted on the flip assembly;

and a plurality of negative pressure suckers are arranged on the bottom label suction plate and the side label suction plate.

9. The label supply forming apparatus of claim 8 wherein said rotating spindle is transversely provided with a displacement guide;

the first linear cylinder is movably arranged on the displacement guide rail;

and a third linear cylinder is also fixed on the rotating main shaft, and a piston rod of the third linear cylinder is fixedly connected with the first linear cylinder.

10. The label supply forming apparatus of claim 1 wherein said vacuum forming mechanism comprises:

mounting a plate;

the molding main body can extend into the injection mold and is provided with a side label molding groove and a bottom label molding cambered surface, and the molding main body is fixedly connected with the mounting plate;

the vacuum air passage is arranged in the forming main body and is communicated with the side body label forming groove;

the vacuum sucker is arranged in the forming main body corresponding to the forming cambered surface of the bottom label;

wherein, the vacuum air passage and the vacuum sucker are both communicated with a vacuumizing device.

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