CN211167539U - Aluminum-plastic blister packaging machine - Google Patents

Abstract

The utility model discloses an aluminum-plastic blister packaging machine, which comprises a plurality of first guide rollers for guiding a film upwards and second guide rollers for guiding a film downwards, wherein the bottom film is discharged by a bottom film unwinding mechanism and sequentially passes through a heating mechanism, a plastic suction forming mechanism, a vibration blanking mechanism, a detection probe, a waste plate suction mechanism, an aluminum film laminating mechanism, a stamping mechanism, a waste plate punching mechanism, a forming plate punching mechanism and a waste film winding mechanism; the waste plate punching mechanism and the forming plate punching mechanism are respectively composed of a punching die positioned above a plate material and a material receiving platform positioned below the plate material, one side of the material receiving platform is connected with a turnover motor, and the material receiving platform is provided with a negative pressure generator. The waste plate sucking mechanism comprises a negative pressure cavity and negative pressure heads which incline downwards, negative pressure channels which are in one-to-one correspondence with the bubble holes on the plate are distributed in the negative pressure heads, and a baffle is arranged above the joint of the negative pressure heads and the negative pressure cavity. The utility model discloses possess the feed supplement, the slab of giving up excision, multiple functions such as profiled sheeting piles up combine, have stronger adaptability and fault-tolerant rate.

Description

Aluminum-plastic blister packaging machine

Technical Field

The utility model belongs to the technical field of the blister packaging equipment, especially, relate to an aluminum-plastic blister packagine machine.

Background

The aluminum-plastic blister packaging machine is mainly used for packaging solid medicines and foods such as capsules, tablets, capsules, suppositories, milk tablets, candies, small hardware and the like, and is specially designed and produced for small pharmaceutical factories, health care product factories, food factories, hospital preparation rooms and the like.

The existing aluminum-plastic blister packaging machine is low in fault tolerance rate, when materials are deviated to form waste plates, the method is usually adopted to directly cut off a whole plate including the materials contained in the waste plates after coating an aluminum film, and the method needs follow-up procedures to recover the materials in the waste plates, so that manpower and material resources are undoubtedly wasted. The material supplementing device can avoid the occurrence of waste plates, but cannot adapt to material supplementation in any shape, and has certain limitation.

Disclosure of Invention

In view of the above-mentioned prior art not enough, the utility model aims to provide an aluminum-plastic blister packaging machine that fault-tolerant rate is low, strong adaptability.

For solving the above technical problem, the utility model discloses the technical scheme who adopts is:

the utility model relates to an aluminum-plastic blister packaging machine, which comprises a plurality of first guide rollers for guiding a film upwards and second guide rollers for guiding a film downwards, wherein the bottom film is discharged by a bottom film unwinding mechanism and sequentially passes through a heating mechanism, a plastic suction forming mechanism, a vibration blanking mechanism, a detection probe, a waste plate suction mechanism, an aluminum film laminating mechanism, a stamping mechanism, a waste plate punching mechanism, a forming plate punching mechanism and a waste film winding mechanism;

the utility model discloses a waste board die-cut mechanism and profiled sheeting die-cut mechanism are by the die-cut mould that is located the sheet material top, and the material platform that connects that is located the sheet material below is constituteed, and connects material platform one side to connect the upset motor, and the material platform that connects that profiled sheeting die-cut mechanism corresponds disposes negative pressure generator.

The utility model discloses a waste plate material suction mechanism includes the negative pressure chamber, slope decurrent negative pressure head, the negative pressure head in distribute have with the sheet material on the bubble eye one-to-one negative pressure passageway, the top of negative pressure head and negative pressure chamber handing-over department is provided with the baffle.

The utility model discloses a useless board die-cut mechanism below is equipped with the garbage collection container, and profiled sheeting die-cut mechanism below is equipped with the elevating platform.

The utility model discloses a elevating platform one side is equipped with the manipulator.

The bottom of the negative pressure cavity of the utility model is inclined downwards.

The utility model discloses a first deflector roll surface evenly distributed has a plurality of hole sites.

The utility model discloses a test probe has a plurality of and is a word and arranges out, and test probe's quantity is the same with the quantity of sheet material bubble hole.

The utility model discloses a set up the benefit glassware between test probe and the waste plate material suction mechanism.

The utility model discloses an aluminium membrane laminating mechanism includes aluminium membrane unwinding mechanism, laminating roller, and laminating roller connects swing motor.

The utility model discloses a be provided with the exhibition flat board between vibration unloading mechanism and the test probe.

The utility model discloses optimize useless board excision procedure, regulate and control through P L C, combine the test probe to the detection of useless board, retrieve the material in the useless board in advance, excise useless board in advance, it is die-cut with the shaping board mixes to avoid useless board, combine the exhibition flat board to playback again the material of dislocation simultaneously, combine the material supplementing device to supply to the material of conventional shape, avoid producing useless board, it has stronger material adaptability and fault-tolerant rate, make equipment production stable, raise the efficiency.

Description of the drawings:

fig. 1 is a schematic structural diagram relating to the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1, the aluminum-plastic blister packaging machine comprises a plurality of first guide rollers A for guiding a film upwards, a plurality of second guide rollers B for guiding the film downwards, wherein the bottom film is discharged from a bottom film unwinding mechanism 1 and sequentially passes through a heating mechanism 2, a plastic suction forming mechanism 3, a vibration blanking mechanism 4, a detection probe 5, a waste plate suction mechanism, an aluminum film laminating mechanism, a stamping mechanism 7, a waste plate punching mechanism 8, a forming plate punching mechanism 9 and a waste film winding mechanism 10.

The vibration blanking mechanism 4 comprises a vibration disc and a blanking device, which are used in the prior art and are not described in detail herein.

The detecting probes 5 are arranged in a straight line, the number of the detecting probes 5 is the same as that of the sheet material bubble holes, detection can be performed on each bubble hole, when a certain bubble hole is empty, the detecting probe 5 sends a signal to a P L C system, and the system can directly punch the sheet material by the waste sheet punching mechanism 8 when the system runs to the waste sheet punching mechanism 8 according to the position of the sheet material where the bubble hole is located.

Specifically, the waste plate punching mechanism 8 and the forming plate punching mechanism 9 have the same structure and function, and are composed of a punching die 81 located above the plate material and a receiving table 82 located below the plate material, the receiving table 82 is provided with a plurality of plate grooves, a plurality of plate materials formed after the punching die 81 punches downwards enter the corresponding plate grooves of the receiving table 82, and one side of the receiving table 82 is connected with a turnover motor 91 for turnover blanking.

A waste collecting container 80 is arranged below the waste plate punching mechanism 8, and a lifting platform 90 is arranged below the forming plate punching mechanism 9. In implementation, the forming plate punching mechanism 9 needs to punch and stack the forming plates, so the material receiving table 82 of the forming plate punching mechanism 9 should be configured with a negative pressure generator, that is, the sheet material can be adsorbed in the overturning process, and then the sheet material is vertically placed on the lifting table 90 for stacking; the material receiving platform 82 of the waste board punching mechanism 8 does not need to be stacked, so that the negative pressure generator can be disconnected, and the waste can be directly turned over to fall into the waste collecting container 80 for collection.

The lifting platform 90 can be driven by a hydraulic cylinder or a ball screw, the lifting platform 90 slowly descends along with the increase of the number of stacked plates, a manipulator is arranged on one side of the lifting platform 90, and when the number of stacked plates reaches a set number, the plates can be clamped and sent out through the manipulator to be boxed.

The waste plate suction mechanism comprises a negative pressure cavity 51 and a negative pressure head 52 which is inclined downwards, negative pressure channels which are in one-to-one correspondence with bubbles on a plate material are distributed in the negative pressure head 52, a negative pressure pump is connected above the negative pressure cavity 51, the negative pressure cavity 51 generates negative pressure through the negative pressure pump, when the detection probe 5 finds that bubbles appear, a plate where the bubbles are located can be locked by a P L C system, and when the plate runs to the waste plate suction mechanism, the negative pressure pump acts, the negative pressure head 52 generates suction force, and all materials on the plate are sucked into the negative pressure cavity 51.

In order to avoid the material being sucked into the negative pressure pump, a baffle 50 is arranged above the joint of the negative pressure head 52 and the negative pressure cavity 51, the material is blocked by the baffle 50 after entering the negative pressure cavity 51, so that the material enters the bottom of the negative pressure cavity 51, the bottom of the negative pressure cavity 51 is inclined downwards, and the material can be stacked and taken out later.

In order to improve the fault tolerance of the equipment, an unfolding plate 45 is arranged between the vibrating blanking mechanism 4 and the detection probe 5, if the material in a certain bubble hole is dislocated, if one end of the material exceeds the position above the bubble hole, the material is blocked by the unfolding plate 45 and is forced to return when passing through the unfolding plate.

In addition, a material supplementing device 58 is arranged between the detection probe 5 and the waste plate sucking mechanism, for materials with conventional shapes, the material supplementing device 58 can be used for directly supplementing materials to the bubble holes of the vacuoles, waste plates are avoided being formed, the material supplementing device 58 can be set to be opened or not through a P L C system in advance, and the operation is more flexible.

The aluminum film laminating mechanism comprises an aluminum film unreeling mechanism 61 and a laminating roller 62, the laminating roller 62 is connected with a swing motor 60, and during laminating, the laminating roller 62 pulls and pulls the direction of the plate material in a reciprocating mode through the swing motor 60, so that the aluminum film is laminated smoothly.

It is to be understood that the technical scope of the present invention is not limited to the content of the specification, and that modifications or changes may be made by those skilled in the art based on the above description, and all such modifications and changes are intended to fall within the scope of the appended claims.

Claims (9)

1. The utility model provides an aluminium-plastic blister packagine machine which characterized in that: the film laminating machine comprises a plurality of first guide rollers (A) for guiding a film upwards and second guide rollers (B) for guiding the film downwards, wherein the bottom film is discharged by a bottom film unwinding mechanism (1) and sequentially passes through a heating mechanism (2), a plastic suction forming mechanism (3), a vibration blanking mechanism (4), a detection probe (5), a waste plate material suction mechanism, an aluminum film laminating mechanism, a stamping mechanism (7), a waste plate punching mechanism (8), a forming plate punching mechanism (9) and a waste film winding mechanism (10);

the waste plate punching mechanism (8) and the forming plate punching mechanism (9) are respectively composed of a punching die (81) positioned above a plate material and a material receiving platform (82) positioned below the plate material, one side of the material receiving platform (82) is connected with a turnover motor (91), and the material receiving platform (82) corresponding to the forming plate punching mechanism (9) is provided with a negative pressure generator;

the waste plate sucking mechanism comprises a negative pressure cavity (51) and a negative pressure head (52) which inclines downwards, negative pressure channels which are in one-to-one correspondence with the foam holes on the plate are distributed in the negative pressure head (52), and a baffle (50) is arranged above the joint of the negative pressure head (52) and the negative pressure cavity (51).

2. An aluminum-plastic blister packaging machine as claimed in claim 1, wherein: a waste collecting container (80) is arranged below the waste plate punching mechanism (8), and a lifting platform (90) is arranged below the forming plate punching mechanism (9).

3. An aluminum-plastic blister packaging machine as claimed in claim 2, wherein: and a manipulator is arranged on one side of the lifting platform (90).

4. An aluminum-plastic blister packaging machine as claimed in claim 1, wherein: the bottom of the negative pressure cavity (51) is inclined downwards.

5. An aluminum-plastic blister packaging machine according to any one of claims 1 to 4, wherein: a plurality of hole sites (A1) are uniformly distributed on the surface of the first guide roller (A).

6. An aluminum-plastic blister packaging machine as claimed in claim 1, wherein: the detecting probes (5) are arranged in a straight line, and the number of the detecting probes (5) is the same as that of the plate bubble holes.

7. An aluminum-plastic blister packaging machine according to claim 1 or 6, characterized in that: and a material supplementing device (58) is arranged between the detection probe (5) and the waste plate material sucking mechanism.

8. An aluminum-plastic blister packaging machine as claimed in claim 1, wherein: the aluminum film laminating mechanism comprises an aluminum film unwinding mechanism (61) and a laminating roller (62), and the laminating roller (62) is connected with a swing motor (60).

9. An aluminum-plastic blister packaging machine according to any one of claims 1, 2, 3, 4, 6 and 8, wherein: and a flattening plate (45) is arranged between the vibration blanking mechanism (4) and the detection probe (5).

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