CN219466795U - Automatic labeling equipment - Google Patents

Abstract

The utility model provides automatic labeling equipment, which comprises an injection molding machine, wherein the injection molding machine is used for injection molding of a barrel-shaped structure product and labeling of the outside of a barrel body, one side of the injection molding machine is provided with a label supply mechanism, a conveying mechanism is arranged in the direction perpendicular to the opening and closing of the injection molding machine, the conveying mechanism is extended from the injection molding machine to the direction of the label supply mechanism, and a simulated body corresponding to the product structure is arranged on the conveying mechanism; the air suction mechanism for absorbing and releasing the label is arranged on the imitation body, the main body of the imitation body can be inserted into the die cavity of the injection molding machine, and the imitation body can complete the label transferring operation into the die cavity of the injection molding machine by reciprocating between the label supply mechanism and the injection molding machine. The utility model utilizes the machine to automatically label, so that the labeling efficiency is high, and the labeling uniformity is better.

Description

Automatic labeling equipment

Technical Field

The utility model relates to the technical field of packaging, in particular to automatic labeling equipment.

Background

The plastic drum is usually formed by injection molding of injection molding machine, and the plastic drum need paste the label in the outside when using, and the current way is: and (3) after injection molding the plastic barrel, manually labeling by using special labeling equipment. The common problems of manual labeling are: not only the labeling efficiency is low, but also the problem of nonuniform labeling is easily caused because the labeling is difficult to be carried out at the same positions of a plurality of plastic barrels by manpower.

Therefore, how to replace manual labeling by a machine, so as to improve the labeling efficiency and solve the problem of nonuniform labeling is a technical problem to be solved by the person skilled in the art.

Disclosure of Invention

The utility model solves the problems that: overcomes the defects in the prior art, and provides automatic labeling equipment which replaces manpower by a machine, and ensures the uniformity of labeling while improving the labeling efficiency by using the equipment.

In order to solve the problems, the utility model provides automatic labeling equipment, which comprises an injection molding machine, wherein the injection molding machine is used for injection molding of a barrel-shaped structural product and labeling of the outside of the barrel body, one side of the injection molding machine is provided with a label supply mechanism, a conveying mechanism is arranged in the direction perpendicular to the opening and closing of the injection molding machine, the conveying mechanism is extended from the injection molding machine to the direction of the label supply mechanism, and a simulation body corresponding to the product structure is arranged on the conveying mechanism; the air suction mechanism for absorbing and releasing the label is arranged on the imitation body, the main body of the imitation body can be inserted into the die cavity of the injection molding machine, and the imitation body can complete the label transferring operation into the die cavity of the injection molding machine by reciprocating between the label supply mechanism and the injection molding machine.

Compared with the prior art, the utility model has the following advantages: when the automatic labeling machine is used, the labeling is supplied by the labeling supply mechanism, and the labeling at the labeling supply mechanism is transferred into the die cavity of the injection molding machine through the imitation arranged on the conveying mechanism so as to prepare the injection molding machine for injection molding of the product and simultaneously finish labeling outside the product.

Specifically, the air suction mechanism comprises an imitation cavity, a through groove and an air suction assembly, wherein the imitation cavity is arranged on the imitation body, the through groove is formed in the side wall of the imitation body and is communicated with the imitation cavity, and the air suction assembly is arranged in the imitation cavity and is used for enabling the imitation cavity to form a negative pressure environment. After the label supplied by the label supply mechanism is placed on the imitation body by the structure, the air suction assembly sucks air to firmly adsorb the label on the side wall of the imitation body, so that the label is prevented from falling off in the conveying process; when the imitation body carries the label and is inserted into the die cavity of the injection molding machine, the air suction assembly is used for deflating the label, so that the label is blown to the wall of the die cavity of the injection molding machine when the label is separated from the imitation body, and the label is attached to the wall of the die cavity of the injection molding machine under the action of static electricity of the label.

As an improvement, one side of the conveying mechanism is provided with an electrostatic loading mechanism, the electrostatic loading mechanism is positioned between the label supply mechanism and a die cavity of the injection molding machine, and the electrostatic loading mechanism is provided with an electrostatic ring for inserting a body of the imitation body. By applying the structure, the imitation body carries the label to be inserted into the static ring of the static loading mechanism, and the static loading mechanism loads more static for the label so that the label is easier to be attached to the cavity wall of the injection molding machine cavity.

Specifically, the label supply mechanism includes a label bin for placing the label and a label pickup unit erected above the label bin for picking up the label from within the label bin and placing the label on the dummy. By applying the structure, multiple layers of label paper can be placed in the label bin, and the actions of automatically picking the label paper from the label bin and placing the label paper on the imitation body are completed through the label picking unit.

Specifically, the label picks up the unit and includes mounting bracket, translation subassembly, lifting unit and label and picks up the subassembly, and the mounting bracket sets up in the top in label storehouse, and translation subassembly sets up on the mounting bracket and extends the setting to conveying mechanism's direction, and lifting unit is fixed to be set up at translation subassembly's output and lifting unit's output and label and pick up subassembly fixed connection, and label picks up the subassembly and is used for absorbing the label from the label storehouse. By applying the structure, the label is sucked from the label bin through the label pick-up assembly, and is transferred to the imitation body through the translation assembly, so that the label supply operation to the imitation body is completed; in this in-process, in order to prevent the operation from interfering to and ensure that the label of being picked up the subassembly and absorbing by the label can release in imitative top of body and the label that is released relies on self gravity can drop to imitative body on, through install lifting unit additional between translation subassembly and label and pick up the subassembly, when the label is picked up the subassembly and is absorbed from the label storehouse by the label, drive the label through lifting unit and rise after the certain height, rethread translation subassembly with the label transport to imitative body top release can.

Specifically, the conveying mechanism comprises a main base plate, a main connecting seat arranged on the main base plate in a sliding manner and a main driving assembly for driving the main connecting seat to slide; the main base plate extends to a direction vertical to the opening and closing die of the injection molding machine; the imitation body is arranged on the main connecting seat and moves back and forth between the label supply mechanism and the injection molding machine along with the main connecting seat. By using the structure, the main connecting seat is driven to slide through the main driving component, the imitation body arranged on the main connecting seat can move back and forth between the label supply mechanism and the injection molding machine along with the main connecting seat, and the label at the label supply mechanism is transported to the injection molding machine, at the moment, the mould cavity is driven to move by virtue of the mould closing action of the injection molding machine, so that the imitation body is inserted into the mould cavity, and the label transporting operation in the mould cavity of the injection molding machine can be completed.

As an improvement, a second connecting seat and a second driving component for driving the second connecting seat to slide are arranged on the main connecting seat in a sliding manner; the imitation body is arranged on the second connecting seat and slides along the direction of opening and closing the die of the injection molding machine along with the second connecting seat. By adopting the structure, the second connecting seat is driven to slide through the second driving component, so that the imitation body arranged on the second connecting seat slides along the opening and closing direction of the injection molding machine along with the second connecting seat, and the main body of the imitation body can be inserted into a mold cavity of the injection molding machine or an electrostatic ring of the electrostatic loading mechanism.

As an improvement, a second base plate is arranged on the second connecting seat and is parallel to the main base plate; one side of the second base plate is provided with a fetching mechanism, the fetching mechanism is used for sucking products from a mold core of the injection molding machine, and the imitation body is rotatably arranged on the other side of the second base plate through a rotating mechanism. After the structure is applied, after the object taking mechanism sucks the labeled product from the mold core of the injection molding machine, the conveying mechanism drives the imitation body and the object taking mechanism to move in the direction away from the injection molding machine at the same time, the conveying mechanism outputs the product at one time, and the object taking mechanism also transfers the labeled product sucked by the object taking mechanism to other places while driving the imitation body to move to the label supply mechanism, so that the operation efficiency is higher; in addition, when the imitation body carries the label to the injection molding machine, the imitation body is driven by the rotating mechanism to rotate outside the mold cavity of the injection molding machine and then is inserted into the mold cavity, and the position of the seam of the label wrapped on the outer wall of the imitation body relative to the cavity wall of the mold cavity can be adjusted, so that the adjustment of the seam of the label at any position of a product is realized.

As an improvement, the fetching mechanism is arranged on the second substrate in a sliding way through the fetching substrate, and the fetching substrate can be horizontally arranged on one side of the second substrate in a moving way through the moving mechanism. After the product is sucked from the mold core of the injection molding machine by the object taking mechanism, the second connecting seat is driven to slide through the second driving assembly, so that the imitation arranged on the second connecting seat slides along with the second connecting seat and is inserted into the mold cavity of the injection molding machine, the product sucked by the object taking mechanism is separated from the mold core of the injection molding machine at the same time, at the moment, the moving mechanism drives the object taking substrate to slide and drives the object taking mechanism arranged on the object taking substrate to be staggered with the imitation, and therefore, when the second driving assembly drives the second connecting seat to slide in the opposite direction, the product cannot be sleeved on the mold core of the injection molding machine again, thereby avoiding operation interference, and ensuring that the product sucked by the object taking mechanism can be conveyed to other places through the conveying mechanism.

As an improvement, the other side of the conveying mechanism is provided with a conveying belt and a rotary sucking mechanism, and the rotary sucking mechanism is positioned above the conveying belt and is used for sucking products from the fetching mechanism and overturning and transferring the products to the conveying belt. In this structure, the setting of rotatory suction means can follow and get the product of delivery formula suction from the thing mechanism to transfer the product to the conveyer belt, finally transmit to other places by the conveyer belt and store.

Drawings

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

FIG. 2 is a first perspective view of the present utility model;

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

FIG. 4 is an enlarged view at B in FIG. 2;

FIG. 5 is a schematic view of a main driving assembly according to the present utility model

FIG. 6 is a schematic diagram of the structure of the fetching mechanism and the rotating mechanism according to the present utility model;

FIG. 7 is a perspective view of the picking mechanism and rotation mechanism of the present utility model;

FIG. 8 is a schematic view of the structure of the suction mechanism of the present utility model;

FIG. 9 is a second perspective view of the present utility model;

fig. 10 is an enlarged view of fig. 9 at C;

FIG. 11 is a schematic view of the structure of the translation assembly and the lifting assembly of the label picking unit of the present utility model;

fig. 12 is a schematic structural view of a label pickup assembly in the label pickup unit of the present utility model.

Reference numerals illustrate:

1. an injection molding machine; 11. a mold cavity; 12. a mold core; 2. a conveying mechanism; 21. a main substrate; 22. a main connecting seat; 23. a main drive assembly; 231. a first motor; 232. a first drive pulley; 233. a first idler; 234. a first endless belt; 24. a second connecting seat; 25. a second drive assembly; 26. a second substrate; 3. a label supply mechanism; 31. a labeling bin; 32. a label pickup unit; 321. a mounting frame; 322. a translation assembly; 323. a lifting assembly; 324. a label pick-up assembly; 3241. a first frame; 3242. a first suction cup; 4. imitation body; 5. an air suction mechanism; 51. a simulated cavity; 52. a through groove; 53. a suction assembly; 6. an electrostatic loading mechanism; 61. an electrostatic ring; 7. a fetching mechanism; 71. taking a substrate; 72. a moving mechanism; 73. a fixing plate; 74. a second suction cup; 75. a product baffle; 8. a rotation mechanism; 81. a second motor; 82. a second transmission pulley; 83. a second endless belt; 84. a second idler; 85. a mounting base; 9. rotating the suction mechanism; 90. a conveyor belt; 91. a fetching frame; 92. a rotary cylinder; 93. a third suction cup; 94. and a second frame.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

As shown in fig. 1, 2 and 9, the automatic labeling device comprises an injection molding machine 1, wherein the injection molding machine 1 is used for injection molding of a product with a barrel-shaped structure and labeling of the outside of the barrel, one side of the injection molding machine 1 is provided with a label supply mechanism 3, a conveying mechanism 2 is arranged in a direction perpendicular to the opening and closing direction of the injection molding machine 1, the conveying mechanism 2 is arranged in an extending way from the injection molding machine 1 to the label supply mechanism 3, and a simulation body 4 corresponding to the structure of the product is arranged on the conveying mechanism 2; the air suction mechanism 5 for sucking and releasing the label is arranged on the imitation body 4, the main body of the imitation body 4 can be inserted into the die cavity 11 of the injection molding machine 1, and the imitation body 4 can complete the label transferring operation into the die cavity 11 of the injection molding machine 1 by reciprocating between the label supply mechanism 3 and the injection molding machine 1.

Compared with the prior art, the utility model has the following advantages: when the automatic labeling machine is used, the labeling is supplied by the labeling supply mechanism 3, and the labeling at the labeling supply mechanism 3 is transferred into the die cavity 11 of the injection molding machine 1 by the imitation body 4 arranged on the conveying mechanism 2 so as to prepare the injection molding machine 1 for injection molding of the product and simultaneously finish the labeling outside the product.

As shown in fig. 1, 2 and 8, the air suction mechanism 5 includes an imitation cavity 51, a through groove 52 and an air suction component 53, the imitation cavity 51 is arranged on the imitation body 4, the through groove 52 is arranged on the side wall of the imitation body 4 and is communicated with the imitation cavity 51, and the air suction component 53 is arranged in the imitation cavity 51 and is used for enabling the imitation cavity 51 to form a negative pressure environment. With the structure, after the labels supplied by the label supply mechanism 3 are placed on the imitation body 4, the air suction component 53 sucks air to firmly adsorb the labels on the side wall of the imitation body 4, so that the labels are prevented from falling off in the conveying process; after the imitation body 4 carries the label and inserts the label into the cavity 11 of the injection molding machine 1, the air suction component 53 discharges air to separate the label from the imitation body 4 and blows the label to the cavity wall of the cavity 11 of the injection molding machine 1, and the label is attached to the cavity wall of the cavity 11 of the injection molding machine 1 under the action of static electricity of the label.

As shown in fig. 1 and 2, an electrostatic loading mechanism 6 is provided on one side of the conveying mechanism 2, the electrostatic loading mechanism 6 is located between the label supply mechanism 3 and the cavity 11 of the injection molding machine 1, and an electrostatic ring 61 into which the body of the dummy body 4 is inserted is provided on the electrostatic loading mechanism 6. With this structure, the dummy 4 carries the static ring 61 of the label-inserting static electricity loading mechanism 6, and the static electricity loading mechanism 6 loads more static electricity to the label so that the label is more easily attached to the cavity wall of the cavity 11 of the injection molding machine 1.

As shown in fig. 1 and 2, the label supply mechanism 3 includes a label housing 31 for housing a label and a label pickup unit 32 provided above the label housing 31, and the label pickup unit 32 is configured to pick up the label from the inside of the label housing 31 and place the label on the dummy 4. With this structure, a plurality of layers of the sticker can be placed in the sticker housing 31, and the actions of automatically picking up the sticker from the sticker housing 31 and placing the sticker on the dummy 4 are completed by the sticker pick-up unit 32.

As shown in fig. 2, 4 and 9 to 12, the label picking unit 32 includes a mounting frame 321, a translation assembly 322, a lifting assembly 323 and a label picking assembly 324, the mounting frame 321 is disposed above the label bin 31, the translation assembly 322 is disposed on the mounting frame 321 and extends toward the direction of the conveying mechanism 2, the lifting assembly 323 is fixedly disposed at an output end of the translation assembly 322, and the output end of the lifting assembly 323 is fixedly connected with the label picking assembly 324, and the label picking assembly 324 is used for sucking labels from the label bin 31. In particular, the translation assembly 322 may be a common cylinder or a rodless cylinder, which is preferred because it is easy to control and saves space; the lifting assembly 323 is a common cylinder arranged vertically and used for driving the label picking assembly 324 to lift. Specifically, the label pickup assembly 324 includes a first frame 3241 fixedly provided at an output end of the elevating assembly 323, and a plurality of first suction cups 3242 provided on the first frame 3241. With this structure, the label is sucked from the label hopper 31 by the label pickup assembly 324 and transferred to the dummy 4 by the translation assembly 322 to complete the supply of the label to the dummy 4; in this process, in order to prevent the operation from interfering with each other, and ensure that the label sucked by the label picking assembly 324 can be released above the imitation body 4 and the released label can fall onto the imitation body 4 by means of self gravity, the problem can be effectively solved by additionally installing the lifting assembly 323 between the translation assembly 322 and the label picking assembly 324, and when the label is sucked from the label bin 31 by the label picking assembly 324, the lifting assembly 323 drives the label to rise to a certain height, and then the label is transferred to the imitation body 4 by the translation assembly 322 to be released.

As shown in fig. 1 and 2, the conveying mechanism 2 includes a main base plate 21, a main connecting seat 22 slidably provided on the main base plate 21, and a main driving assembly 23 for driving the main connecting seat 22 to slide; the main substrate 21 is extended in a direction perpendicular to the mold opening and closing direction of the injection molding machine 1; the dummy body 4 is provided on the main connection base 22 and moves back and forth between the label supply mechanism 3 and the injection molding machine 1 together with the main connection base 22. By using the structure, the main connecting seat 22 is driven to slide by the main driving component 23, the imitation body 4 arranged on the main connecting seat 22 can move back and forth between the label supply mechanism 3 and the injection molding machine 1 along with the main connecting seat 22, and the label at the label supply mechanism 3 is transferred to the injection molding machine 1, at the moment, the mold cavity 11 is driven to move by virtue of the mold closing action of the injection molding machine 1, so that the imitation body 4 is inserted into the mold cavity 11, and the label transferring operation into the mold cavity 11 of the injection molding machine 1 can be completed.

As shown in fig. 1 and 5, the main driving assembly 23 includes a first motor 231, a first driving pulley 232, a first idle pulley 233, and a first endless belt 234, the first driving pulley 232 is rotatably mounted at one end of the main substrate 21, the first motor 231 is fixed on the main substrate 21 and an output shaft of the first motor 231 is coaxially fixed with the first driving pulley 232, the first idle pulley 233 is rotatably mounted at the other end of the main substrate 21, the first endless belt 234 is connected between the first driving pulley 232 and the first idle pulley 233, and the main connection seat 22 is fixedly disposed on the first endless belt 234. In this structure, when the first motor 231 rotates, the first driving pulley 232 is driven to rotate, and since the first idle pulley 233 is connected with the first driving pulley 232 through the first endless belt 234, the first idle pulley 233 can rotate synchronously when the first driving pulley 232 rotates, and since the main connecting seat 22 is fixedly arranged on the first endless belt 234, at this time, the first endless belt 234 drives the main connecting seat 22 to slide on the main substrate 21, and finally, the first motor 231 works to drive the main connecting seat 22 to slide, so that the imitation body 4 arranged on the main connecting seat 22 moves back and forth between the label supply mechanism 3 and the injection molding machine 1.

As shown in fig. 1 and 2, the main connecting seat 22 is slidably provided with a second connecting seat 24 and a second driving assembly 25 for driving the second connecting seat 24 to slide; the imitation body 4 is arranged on the second connecting seat 24 and slides along the direction of opening and closing the die of the injection molding machine 1 along with the second connecting seat 24. Specifically, the driving structure of the second driving assembly 25 is the same as that of the main driving assembly 23. With this structure, the second connecting base 24 is driven to slide by the second driving unit 25, so that the dummy body 4 provided on the second connecting base 24 slides along the opening and closing direction of the injection molding machine 1 together with the second connecting base 24, and the main body of the dummy body 4 can be inserted into the cavity 11 of the injection molding machine 1 or the electrostatic ring 61 of the electrostatic loading mechanism 6.

As shown in fig. 1 to 3, the second connecting seat 24 is provided with a second substrate 26, and the second substrate 26 is parallel to the main substrate 21; one side of the second base plate 26 is provided with a fetching mechanism 7, the fetching mechanism 7 is used for sucking products from the mold core 12 of the injection molding machine 1, and the imitation body 4 is rotatably arranged on the other side of the second base plate 26 through the rotating mechanism 8. After the structure is applied, when the fetching mechanism 7 sucks the labeled product from the mold core 12 of the injection molding machine 1, the conveying mechanism 2 drives the imitation body 4 and the fetching mechanism 7 to move away from the injection molding machine 1 at the same time, the conveying mechanism 2 outputs the product once, and drives the imitation body 4 to move to the label supply mechanism 3 and simultaneously transfers the labeled product sucked by the fetching mechanism 7 to other places, so that the operation efficiency is higher; in addition, when the imitation body 4 carries the label and moves to the injection molding machine 1, the imitation body 4 is driven by the rotating mechanism 8 to rotate outside the mold cavity 11 of the injection molding machine 1 and then is inserted into the mold cavity 11, and the position of the seam of the label wrapped on the outer wall of the imitation body 4 relative to the cavity wall of the mold cavity 11 can be adjusted, so that the adjustment of the seam of the label at any position of a product is realized.

As shown in fig. 1 and 6, the pickup mechanism 7 is slidably disposed on the second substrate 26 through the pickup substrate 71, and the pickup substrate 71 is horizontally movably disposed on one side of the second substrate 26 through the moving mechanism 72. Specifically, the moving mechanism 72 may be a normal cylinder or a rodless cylinder, preferably a rodless cylinder, and the rodless cylinder is horizontally fixed to the top end of the second base plate 26, and the top of the fetching base plate 71 is fixed to the slider of the rodless cylinder. The adoption rodless cylinder is easy to control, and can save occupied space, and when the rodless cylinder is ventilated, the sliding block slides, so that the object taking substrate 71 can be driven to slide. Specifically, the fetching mechanism 7 includes a fixing plate 73, a product baffle 75, and a plurality of second suction cups 74 disposed on the fixing plate 73, where the fixing plate 73 and the product baffle 75 are fixedly disposed on the fetching substrate 71, and the product baffle 75 is used to avoid the product from being too close to the fetching substrate 71. With the adoption of the structure, after the fetching mechanism 7 sucks a product from the mold core 12 of the injection molding machine 1, the second driving assembly 25 drives the second connecting seat 24 to slide, so that the imitation body 4 arranged on the second connecting seat 24 slides along with the second connecting seat 24 and is inserted into the mold cavity 11 of the injection molding machine 1, and meanwhile, the product sucked by the fetching mechanism 7 is separated from the mold core 12 of the injection molding machine 1, at the moment, the moving mechanism 72 drives the fetching substrate 71 to slide and drives the fetching mechanism 7 arranged on the fetching substrate 71 to be staggered with the imitation body 4, and therefore, when the second driving assembly 25 drives the second connecting seat 24 to slide in the opposite direction, the product cannot be sleeved on the mold core 12 of the injection molding machine 1 again, so that operation interference can be avoided, and the product sucked by the fetching mechanism 7 can be conveyed to other places through the conveying mechanism 2.

As shown in fig. 1, 6 and 7, the rotation mechanism 8 includes a second motor 81, a second driving pulley 82, a second endless belt 83 and a second idle pulley 84, the second motor 81 is fixed on the second base plate 26 through a mounting seat 85, the second driving pulley 82 is coaxially fixed with an output shaft of the second motor 81, the second idle pulley 84 is rotatably arranged on the second base plate 26, the second endless belt 83 is connected between the second driving pulley 82 and the second idle pulley 84, and the imitation body 4 is coaxially and fixedly connected with the second idle pulley 84. In this structure, when second motor 81 rotates, drive second driving pulley 82 and rotate, because second idler 84 is connected with second driving pulley 82 through second endless belt 83, consequently when second driving pulley 82 rotates, can make second idler 84 synchronous rotation, again because imitative body 4 and the coaxial heart fixed connection of second idler 84, finally realized that second motor 81 work drives imitative body 4's rotation, thereby make the label of wrapping up in on imitative body 4 can deflect certain angle, be convenient for follow-up process demand.

As shown in fig. 9 and 10, the other side of the conveying mechanism 2 is provided with a conveyor belt 90 and a rotary suction mechanism 9, and the rotary suction mechanism 9 is located above the conveyor belt 90 and is used for sucking the product from the taking mechanism 7 and turning and transferring the product onto the conveyor belt 90. In this configuration, the rotary suction means 9 is provided to suction the product from the pickup means 7 in a transfer manner, and transfer the product to the conveyor 90, and finally, the product is transferred to another place by the conveyor 90 for storage.

As shown in fig. 9 and 10, the rotary suction mechanism 9 includes a take-out rack 91, a rotary cylinder 92, and a third suction cup 93, the take-out rack 91 is disposed above the conveyor belt 90, the rotary cylinder 92 is fixed to the take-out rack 91, and the third suction cup 93 is mounted on an output end portion of the rotary cylinder 92 through a second frame 94. The sucker is matched with the structure of fetching and transferring the rotary cylinder 92, and the structure is simple, low in cost and easy to realize.

Although the present disclosure is described above, the scope of protection of the present disclosure is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the disclosure, and these changes and modifications will fall within the scope of the utility model.

Claims (10)

1. The utility model provides an automatic labeling equipment, includes injection molding machine (1), injection molding machine (1) are used for barrel form structure product injection molding and paste the mark in the barrel body outside, one side of injection molding machine (1) is equipped with labeling supply mechanism (3) and perpendicular to be equipped with conveying mechanism (2) in the direction of injection molding machine (1) opening and closing die, conveying mechanism (2) by injection molding machine (1) to the direction of labeling supply mechanism (3) extends and sets up, its characterized in that: the conveying mechanism (2) is provided with an imitation body (4) which is arranged corresponding to the product structure; the label-transferring and packaging machine is characterized in that an air suction mechanism (5) for adsorbing and releasing labels is arranged on the imitation body (4), a main body of the imitation body (4) can be inserted into a die cavity (11) of the injection molding machine (1), and the imitation body (4) can transfer labels to the die cavity (11) of the injection molding machine (1) in a reciprocating manner between the label supply mechanism (3) and the injection molding machine (1).

2. The automatic labeling apparatus of claim 1 wherein: the suction mechanism (5) comprises a simulated cavity (51), a through groove (52) and a suction assembly (53), wherein the simulated cavity (51) is arranged on the simulated body (4), the through groove (52) is formed in the side wall of the simulated body (4) and is communicated with the simulated cavity (51), and the suction assembly (53) is arranged in the simulated cavity (51) and is used for enabling the simulated cavity (51) to form a negative pressure environment.

3. The automatic labeling apparatus of claim 2 wherein: one side of the conveying mechanism (2) is provided with an electrostatic loading mechanism (6), the electrostatic loading mechanism (6) is positioned between the label supply mechanism (3) and a die cavity (11) of the injection molding machine (1), and the electrostatic loading mechanism (6) is provided with an electrostatic ring (61) for inserting a main body of the imitation body (4).

4. The automatic labeling apparatus of claim 1 wherein: the label supply mechanism (3) comprises a label bin (31) for placing labels and a label pickup unit (32) arranged above the label bin (31), wherein the label pickup unit (32) is used for picking up the labels from the label bin (31) and placing the labels on the imitation body (4).

5. The automatic labeling apparatus of claim 4 wherein: the label picking unit (32) comprises a mounting frame (321), a translation assembly (322), a lifting assembly (323) and a label picking assembly (324), wherein the mounting frame (321) is arranged above the label bin (31), the translation assembly (322) is arranged on the mounting frame (321) and extends towards the direction of the conveying mechanism (2), the lifting assembly (323) is fixedly arranged at the output end part of the translation assembly (322) and the output end part of the lifting assembly (323) is fixedly connected with the label picking assembly (324), and the label picking assembly (324) is used for absorbing labels from the label bin (31).

6. The automatic labeling apparatus of claim 1 wherein: the conveying mechanism (2) comprises a main base plate (21), a main connecting seat (22) arranged on the main base plate (21) in a sliding manner and a main driving assembly (23) for driving the main connecting seat (22) to slide; the main base plate (21) extends in a direction perpendicular to the opening and closing die of the injection molding machine (1); the imitation body (4) is arranged on the main connecting seat (22) and moves back and forth between the label supply mechanism (3) and the injection molding machine (1) along with the main connecting seat (22).

7. The automatic labeling apparatus of claim 6 wherein: a second connecting seat (24) is arranged on the main connecting seat (22) in a sliding manner, and a second driving assembly (25) is used for driving the second connecting seat (24) to slide; the imitation body (4) is arranged on the second connecting seat (24) and slides along the direction of opening and closing the die of the injection molding machine (1) along with the second connecting seat (24).

8. The automatic labeling apparatus of claim 7 wherein: the second connecting seat (24) is provided with a second base plate (26), and the second base plate (26) is parallel to the main base plate (21); one side of the second base plate (26) is provided with a fetching mechanism (7), the fetching mechanism (7) is used for sucking products from a mold core (12) of the injection molding machine (1), and the imitation body (4) is rotatably arranged on the other side of the second base plate (26) through a rotating mechanism (8).

9. The automatic labeling apparatus of claim 8 wherein: the object taking mechanism (7) is arranged on the second substrate (26) in a sliding mode through an object taking substrate (71), and the object taking substrate (71) can be horizontally arranged on one side of the second substrate (26) in a moving mode through a moving mechanism (72).

10. The automatic labeling apparatus of claim 9 wherein: the other side of the conveying mechanism (2) is provided with a conveying belt (90) and a rotary sucking mechanism (9), and the rotary sucking mechanism (9) is positioned above the conveying belt (90) and is used for sucking products from the object taking mechanism (7) and overturning and transferring the products to the conveying belt (90).