CN211336731U - High-speed flat plate type bubble cap machine - Google Patents

Abstract

The utility model discloses a high-speed flat plate type bubble cap machine, a serial communication port, include according to the piece heating device that moulds that the process sequence range is connected, the shaping station, shaping draw gear, shaping stock device, the heat-seal station, heat-seal draw gear, heat-seal stock device, batch number indentation station, blanking draw gear, the blanking station, finished product conveyor, be equipped with blanking manipulator between blanking station and the finished product conveyor, mould piece heating device, the shaping station, shaping draw gear, the heat-seal station, heat-seal draw gear's duty cycle is synchronous and frequency of operation is the same, batch number indentation station, blanking draw gear, the blanking station, the operating speed of blanking manipulator is the shaping station, the multiple of the operating speed of heat-seal station, the value of multiple is the same with high-speed flat plate type bubble cap machine's mould composing value. The utility model discloses can reach the requirement of high-speed flat plate bubble cap machine high speed, high yield under the condition that guarantees that shaping, heat-seal station have enough duty cycle time.

Description

High-speed flat plate type bubble cap machine

Technical Field

The utility model relates to a bubble cap machine especially relates to a high-speed flat bubble cap machine.

Background

The main functional structure of a flat plate type bubble cap machine in the prior art is a plastic sheet heating station, a forming station, a heat sealing station, a batch number station, an indentation station and a blanking station, wherein the working speed ratio of the stations is 1: 1; namely, the molding station molds the plastic sheet for 1 row/time, and other stations are all 1 row/time. The blanking speed of the flat plate type blister machine in the prior art does not exceed 60 times/min because the working cycle time required by the plastic sheet forming station and the blister heat-sealing station is long and the current fastest speed (according to 1 row/time) does not exceed 60 times/min. The blister output was 1X 60-60 rows/min calculated at blanking speed 60 times/min.

In the prior art, the working modes (1 row/time) of all stations such as forming, heat sealing and the like are changed into multiple rows/time (2 rows and more), the fastest speed of the stations such as forming, heat sealing and the like does not exceed 50 times/minute, and the working speed ratio of all stations is 1: 1. Thus, although the output of the bubble cap machine can be improved (taking 4 rows/time of forming as an example, the output of the bubble cap machine is 4X 50-200 rows/minute), the dies of the blanking, batch number and indentation stations are changed into a multi-row mode, which causes the dies to increase weight, greatly increases the difficulty for installation and debugging and is not beneficial to equipment maintenance; the blanking, batch number and indentation do not need longer working period time like forming and heat sealing; the speed of the blanking, batch and creasing stations can reach 200 times/min, so simply increasing the number of blister rows is not the best solution.

Therefore, the prior art can not meet the requirements of the flat plate type bubble cap machine on high speed and high yield (namely, the punching times can reach 200 times/minute, and the yield can reach 200 rows/minute). Becomes a technical bottleneck which must be broken through in the development of the high-speed flat plate type bubble cap machine.

Disclosure of Invention

The to-be-solved technical problem of the utility model is: the problem of how to improve the speed and the yield of the flat plate type bubble cap machine is solved.

In order to solve the technical problem, the technical proposal of the utility model is to provide a high-speed flat plate type bubble cap machine, the punching machine is characterized by comprising a plastic sheet heating device, a forming station, a forming traction device, a forming stock device, a heat-sealing station, a heat-sealing traction device, a heat-sealing stock device, a batch number indentation station, a punching traction device, a punching station and a finished product conveying device which are sequentially connected according to the working procedures, wherein a punching mechanical arm is arranged between the punching station and the finished product conveying device; typesetting by the high-speed flat plate type bubble cap machine is at least 2 plates/time; the heat-sealing station, the heat-sealing traction device and the heat-sealing material storage device are respectively arranged behind the feeding table top of the bubble cap machine.

Preferably, the front end of the plastic sheet heating device is provided with a packing material width adjusting device for adjusting the deviation of the plastic sheet in the width direction; the plastic sheet heating device comprises an upper heating plate, the upper heating plate is connected with an upper heating plate lifting device, a lower heating plate which can be contacted with and separated from the upper heating plate is arranged right below the upper heating plate, the lower heating plate is connected with a lower heating plate lifting device, and the lower heating plate lifting device is connected with a lower heating plate working device; the joint of the upper heating plate lifting device and the upper heating plate and the joint of the lower heating plate lifting device and the lower heating plate are respectively provided with an upper heating height adjusting screw and a lower heating height adjusting screw which are used for adjusting the smoothness and the pressure when the upper heating plate and the lower heating plate are in contact.

Preferably, the forming station comprises an upper forming die, the upper forming die is fixed on an upper die base plate, the upper die base plate is connected with the upper die adjusting device, a lower forming die which can move up and down under the driving of a bubble cap power mechanism and is closed with the upper forming die when moving up is arranged under the upper forming die, and the upper forming die is connected with an air inlet pipe for introducing compressed air.

Preferably, the forming traction device comprises a forming traction upper traction roller and a forming traction lower traction roller for transferring the blister plastic sheet and a forming traction positioning cylinder for pushing the blister plastic sheet against the unmovable forming traction positioning cylinder when the blister machine is stopped; the heat-sealing traction device comprises a heat-sealing traction upper traction roller and a heat-sealing traction lower traction roller which are used for transferring the blister plastic sheet.

Preferably, the molding material storage device consists of a molding material storage gravity roller, a molding material storage sliding seat and a molding material storage guide rod, wherein the molding material storage sliding seat capable of sliding up and down is arranged on the molding material storage guide rod, and the molding material storage gravity roller is fixed on the molding material storage sliding seat.

Preferably, the heat-seal station include the heat-seal upper die, the heat-seal upper die is connected with the heat-seal upper die bottom plate through the heat-seal upper die adjusting screw, the heat-seal upper die bottom plate is connected with the heat-seal pressure cylinder device, and a heat-seal lower die which is closed with the heat-seal upper die when moving up and down and moving up under the drive of the bubble cap power mechanism is arranged under the heat-seal upper die.

Preferably, the heat-seal material storage device comprises a heat-seal material storage gravity arm, a heat-seal material storage sliding seat and a heat-seal material storage guide rod, wherein the heat-seal material storage guide rod is provided with the heat-seal material storage sliding seat capable of sliding up and down, and the heat-seal material storage gravity arm is fixed on the heat-seal material storage sliding seat.

Preferably, the batch number indentation station comprises a transmission chain wheel (801) connected with a power source of the bubble cap machine, the transmission chain wheel is coaxially connected with a cam, the cam is connected with a roller, the roller is arranged on a guide plate, a batch number lower die, an indentation lower die and at least 2 groups of guide plate guide posts are arranged on the guide plate, a batch number upper die is arranged right above the batch number lower die, the batch number upper die is arranged on a batch number upper cover plate, an indentation upper die is arranged right above the indentation lower die, the indentation upper die is arranged on the indentation upper cover plate, and batch number indentation tracks for positioning the bubble cap material belt are arranged above the batch number lower die and the indentation lower die; the upper indentation cover plate and the upper batch number cover plate are respectively provided with an upper batch number indentation mould adjusting device capable of adjusting the pressure of the upper mould and the lower mould during closing, the upper indentation cover plate and the upper batch number cover plate are in through connection through a batch number adjusting screw rod and an indentation adjusting screw rod, and the end part of the batch number adjusting screw rod and the end part of the indentation adjusting screw rod are respectively provided with a batch number mould position adjusting handle and an indentation mould position adjusting handle which are used for driving the batch number adjusting screw rod and the indentation adjusting screw rod to rotate positively and negatively.

Preferably, the blanking traction device comprises a compression roller adjusting handle used for adjusting the height of the compression roller so as to tension the blister material belt, a traction die wheel is arranged behind the compression roller adjusting handle, and an upper compression roller and a lower compression roller which are used for cooperating with the traction die wheel and driving the blister material belt to step are respectively arranged on the upper side and the lower side of the traction die wheel.

Preferably, the blanking station comprises a blanking die for blanking the blister material strip under the action of a power mechanism of the blister machine, a blanking manipulator for taking away a plate after each blanking is arranged behind the blanking station, a waste rejecting and conveying device and a finished product conveying device are arranged around the blanking manipulator, the waste rejecting and conveying device is connected with a waste plate collecting barrel, a waste collecting barrel is arranged beside the waste plate collecting barrel, and a blanking waste cutter for cutting off the waste material of the blister material strip is arranged above the waste collecting barrel; finished product conveyor includes independent servo motor and through independent servo motor driven transport hold-in range, carries to be equipped with the baffle that the interval equals on the hold-in range, and finished product conveyor's back end and direct butt joint of extranal packing transfer chain.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses with station doubly fast in stations such as shaping, heat-seal such as lot number indentation, blanking to this can reach high-speed flat blister machine high speed, high-yield requirement under the condition that guarantees shaping, heat-seal station have enough duty cycle time.

The utility model discloses broken through the current structural configuration overall arrangement of flat bubble cap machine, made flat bubble cap machine to the high speed, high yield development. Therefore the utility model discloses surpass prior art completely, in the application compared prior art more have breakthrough progress, because the utility model discloses an innovation breakthrough has driven the development of high-speed flat bubble cap machine technique, will promote the quick anti-exhibition of whole automatic packaging trade certainly to bring positive result of use for vast market.

Drawings

FIG. 1 is an elevation view of a high speed flat plate bubble cap machine of the present invention;

FIG. 2 is a perspective view of a plastic sheet heating, forming and forming drawing device and a forming material storage device of the bubble cap machine;

FIG. 3 is a perspective view of the heat seal, heat seal drawing device and heat seal stock device of the bubble cap machine;

FIG. 4 is a vertical view of the batch number and indentation station of the present invention;

FIG. 5 is a perspective view of the batch number and indentation station of the present invention;

FIG. 6 is an elevational view of a blanking pulling, blanking robot and product handling apparatus;

FIG. 7 is a perspective view of a blanking tractor, a blanking robot, a product conveyor, and a back end package;

FIG. 8 is a die layout of a prior art blister machine;

FIG. 9 is a die layout of the high-speed flat plate type bubble cap machine of the present invention.

Detailed Description

In order to make the present invention more comprehensible, preferred embodiments are described in detail below with reference to the accompanying drawings.

Example 1

The utility model relates to a high-speed flat plate type bubble cap machine carries out the innovation overall arrangement to main station structure, as shown in fig. 1, it is including moulding piece heating device 1, shaping station 2, shaping draw gear 3, shaping stock device 4, heat-seal station 5, heat-seal draw gear 6, heat-seal stock device 7, batch number indentation station 8, blanking draw gear 9, blanking station 10, blanking manipulator 11, finished product conveyor 12.

The utility model discloses an each part is arranged according to the process order and is connected and be in proper order: the plastic sheet heating device 1, the forming station 2, the forming traction device 3, the forming stock device 4, the heat-sealing station 5, the heat-sealing traction device 6, the heat-sealing stock device 7, the lot number indentation station 8, the blanking traction device 9, the blanking station 10 and the finished product conveying device 12 are arranged, a blanking manipulator 11 is arranged between the blanking station 10 and the finished product conveying device 12, the working cycles of the plastic sheet heating device 1, the forming station 2, the forming traction device 3, the heat-sealing station 5 and the heat-sealing traction device 6 are synchronous and have the same working frequency, the working speeds of the lot number indentation station 8, the blanking traction device 9, the blanking station 10 and the blanking manipulator 11 are multiples of the working speeds of the forming station 2 and the heat-sealing station 5, and the multiples have the same die typesetting value as that of a high-speed flat plate; the heat-sealing station 5, the heat-sealing traction device 6 and the heat-sealing material storage device 7 are respectively arranged behind the feeding table top of the bubble cap machine. And a feeder and a camera detection station are arranged between the molding material storage device 4 and the heat-sealing station 5.

In order to ensure the time required by the work of the forming station 2 and the heat sealing station 5, the mode of die typesetting of the high-speed flat plate type bubble cap machine is multi-version/time (more than 2 versions). The working cycles of the plastic sheet heating device 1, the molding station 2, the molding traction device 3, the heat-sealing station 5 and the heat-sealing traction device 6 are synchronous, and the working frequencies are the same.

In this embodiment, the mold layout mode of the high-speed flat plate type bubble cap machine is 4 plates/time.

In order to improve the output requirement of the bubble cap machine and not increase the volume and weight of the batch number, indentation, blanking and other dies under the mode that the dies are typeset into multiple plates/times, the high-speed flat plate type bubble cap machine adopts the mode that the working speed of a batch number indentation station 8, a blanking traction device 9, a blanking station 10 and a blanking manipulator 11 is multiplied by the working speed of a forming station and a heat sealing station. The specific multiplication is determined according to the die layout. For example, in the die row layout of the high-speed flat plate type bubble cap machine in fig. 9, the dies are arranged in 4 rows, that is, the working speed ratio of the forming and heat-sealing station to the batch number indentation and blanking station is 1: 4.

as shown in fig. 2, a packing material width adjusting device 101 is provided at the front end of the plastic sheet heating device 1 to adjust the deviation in the width direction of the plastic sheet. The plastic sheet heating device 1 comprises an upper heating plate 102, the upper heating plate 102 is connected with an upper heating plate lifting device 104, a lower heating plate 103 is arranged under the upper heating plate 102, the lower heating plate 103 is connected with a lower heating plate lifting device 105, and the lower heating plate lifting device 105 is connected with a lower heating plate working device 106; when the bubble cap machine is in a stop state, the upper heating plate 102 and the lower heating plate 103 are separated under the action of the upper heating plate lifting device 104 and the lower heating plate lifting device 105 respectively, so that the plastic sheet is not contacted with the heating plates, and the plastic property of the plastic sheet is prevented from being changed due to long-time heating. When the bubble cap machine is started, the upper heating plate 102 and the lower heating plate 103 are closed under the action of the upper heating plate lifting device 104 and the lower heating plate lifting device 105 respectively, and the state is kept before the bubble cap machine is stopped; the lower plate heater 106 will follow the cycle of the forming station 2 to push the lower plate heater 103 into and out of contact with the upper plate heater 102 to achieve contact heating of the plastic sheet. The joint of the upper heating plate lifting device 104 and the upper heating plate 102 and the joint of the lower heating plate lifting device 105 and the lower heating plate 103 are provided with an upper heating height adjusting screw 107 and a lower heating height adjusting screw 108; the upper heating height adjusting screw 107 and the lower heating height adjusting screw 108 respectively adjust the flatness and the pressure when the upper heating plate and the lower heating plate are contacted, so that the plastic sheet is uniformly heated when in contact heating.

The forming station 2 is arranged at the rear end of the plastic sheet heating device 1, the forming station 2 comprises an upper forming mold 201, the upper forming mold 201 is mounted on an upper mold base plate 204, an upper mold adjusting device 203 is connected with the upper mold base plate 204, a lower forming mold 202 is arranged under the upper forming mold 201, the lower forming mold 202 moves up and down under the driving of a bubble cap power mechanism, and is closed with the upper forming mold 201 when moving up, at the moment, compressed air enters the upper forming mold 201 through an air inlet pipe 205, and the heated plastic sheet is formed by the compressed air. The upper die adjusting device 203 can adjust the pressure of the upper die and the lower die during closing, so that the bubble cap cannot be formed due to air leakage during bubble blowing.

The forming traction device 3 comprises a forming traction upper traction roller 301 and a forming traction lower traction roller 302, after the forming station 2 finishes bubble blowing forming, the forming traction upper traction roller 301 and the forming traction lower traction roller 302 are used for transferring the blister plastic sheet, the forming traction positioning cylinder 303 works when the blister machine is stopped, the blister plastic sheet is propped against and cannot be moved, the blister position is unchanged, and the plastic sheet cannot be replaced again due to the position deviation of the blister when the blister machine is started next time.

The molding material storage device 4 is composed of a molding material storage gravity roller 401, a molding material storage sliding seat 402 and a molding material storage guide rod 403, wherein the molding material storage sliding seat 402 capable of sliding up and down is arranged on the molding material storage guide rod 403, and the molding material storage gravity roller 401 is fixed on the molding material storage sliding seat 402. The device ensures that the blister material strip is in a tensioning state from the forming station 2 to the heat-sealing station 5, and avoids the influence on the work of the heat-sealing station 5 due to the displacement of the blister material strip caused by the looseness of the blister material strip; and simultaneously, the feeding work of the bubble cap is facilitated.

As shown in fig. 3, the heat-sealing station 5, the heat-sealing traction device 6 and the heat-sealing stock device 7 are respectively arranged behind the feeding table of the bubble-cap machine. The heat-seal upper die 503 is connected with the heat-seal upper die bottom plate 505 through the heat-seal upper die adjusting screw 502, the heat-seal upper die bottom plate 505 is connected with the heat-seal pressure cylinder device 501, the heat-seal lower die 504 is arranged under the heat-seal upper die 503, the heat-seal lower die 504 moves up and down under the driving of the blister power mechanism, and when moving up, the heat-seal lower die is closed with the heat-seal upper die 503, so that the blister plastic sheet and the film are sealed by heating. The heat-seal pressurizing cylinder device 501 plays a role in maintaining pressure when the bubble cap machine works, so that materials are more firmly sealed. The flatness and the pressure after the upper die and the lower die are closed can be adjusted through the upper die adjusting screw 502 in the heat sealing, so that the sealing effect is achieved.

After the sealing at the heat-sealing station 5 is completed, the blister sheet is transferred by the action of the heat-sealing traction upper drawing roller 601 and the heat-sealing traction lower drawing roller 602.

The heat-seal material storage device 7 is composed of a heat-seal material storage gravity arm 701, a heat-seal material storage sliding seat 702 and a heat-seal material storage guide rod 703, wherein the heat-seal material storage sliding seat 702 capable of sliding up and down is arranged on the heat-seal material storage guide rod 703, and the heat-seal material storage gravity arm 701 is fixed on the heat-seal material storage sliding seat 702. The heat-sealing material storage device 7 can play a role in tensioning the material belt; meanwhile, the working speeds of the batch number station and the blanking station are different from those of the forming station and the heat sealing station, so that the buffer memory effect is played more importantly.

As shown in fig. 4 and 5, batch number indentation station 8 includes a driving sprocket 801, the driving sprocket 801 is coaxially connected to and mounted on a cam 802, the cam 802 is connected to a roller 804, the roller 804 is mounted on a guide 815, 4 sets of guide posts 803 are mounted on the guide 815, a batch number lower mold 806 and an indentation lower mold 808 are mounted on the guide 815, a batch number upper mold 805 is disposed right above the batch number lower mold 806, the batch number upper mold 805 is mounted on a batch number upper cover 816, an indentation upper mold 807 is disposed right above the indentation lower mold 808, and the indentation upper mold 807 is mounted on the indentation upper cover 817. Lot indentation track 814 is mounted above lot lower mold 806 and indentation lower mold 808. Batch number indentation upper die adjusting devices 809 capable of adjusting the pressure of the upper die and the lower die during closing are arranged on the indentation upper cover plate 817 and the batch number upper cover plate 816, the indentation upper cover plate 817 and the batch number upper cover plate 816 are in through connection through a batch number adjusting screw 811 and an indentation adjusting screw 813, and the end of the batch number adjusting screw 811 and the end of the indentation adjusting screw 813 are respectively provided with a batch number die position adjusting handle 810 and an indentation die position adjusting handle 812 which are used for driving the batch number adjusting screw 811 and the indentation adjusting screw 813 to rotate forward and backward.

When the power source of the blister machine is input through the transmission chain wheel 801, the cam 802 is driven to rotate, so that the batch number lower die 806 and the indentation lower die 808 are pushed to move up and down, the batch number indentation track 814 is used for positioning the blister material strip, and batch number marking and indentation operation are carried out on the blister material strip when the upper die and the lower die are closed. Batch number indentation upper die adjusting device 809 can adjust the pressure of the upper die and the lower die during closing, so that the requirements for batch number marking and indentation are met. The batch number adjusting screw 811 and the indentation adjusting screw 813 can be driven to rotate positively and negatively by the batch number mold position adjusting handle 810 and the indentation mold position adjusting handle 812 respectively, so that the displacement of the batch number and the indentation station mold is driven, and the batch number and the indentation line can be accurately printed.

As shown in fig. 6 and 7, the blanking pulling device 9 is located after the batch number indentation station 8 and before the blanking station 10. The blanking traction device 9 comprises a pressure roller adjusting handle 904, and the height of a pressure roller 905 can be adjusted through the pressure roller adjusting handle 904, so that the blister material strip is tensioned; a traction die wheel 901 is arranged behind the compression roller adjusting handle 904, and an upper compression roller 902 and a lower compression roller 903 are respectively arranged on the upper side and the lower side of the traction die wheel 901. The drawing die wheel 901, the upper pressing roller 902 and the lower pressing roller 903 act together to drive the blister material belt to step, the blister material belt enters a blanking station 10, a blanking manipulator 11 used for taking a plate punched at each time away is arranged behind the blanking station 10, waste removing conveying devices 13 and finished product conveying devices 12 are arranged around the blanking manipulator 11, the waste removing conveying devices 13 are connected with a waste plate collecting barrel 1004, a waste collecting barrel 1003 is arranged beside the waste plate collecting barrel 1004, and a blanking waste cutter 1002 used for cutting off the blister material belt waste is arranged above the waste collecting barrel 1003.

The blanking die 1001 punches the blister material belt under the action of the power mechanism of the blister machine, plates punched each time are taken away by the blanking manipulator 11, if the taken-away plates have plates lacking tablets, the blanking manipulator 11 rotates to the waste removing and conveying device 13, the plates lacking tablets are placed in the waste removing and conveying device 13, and the waste removing and conveying device 13 conveys the waste medicine plates to the waste plate collecting barrel 1004. With the continued operation of the blanking manipulator 11, the intact drug plates are then placed on the finished product conveyor 12 and conveyed out of the blister machine. Meanwhile, the blanking waste material cutter 1002 cuts off the blister material strip waste material, and the waste material falls into the waste material collecting barrel 1003 after being cut off.

The product conveyor 12 is driven by an independent servomotor 1201, synchronized with the working speed of the blanking station 10. The conveying synchronous belt 1202 is provided with partition plates 1203 with equal intervals, and the partition plates 1203 drive the medicine plates to travel; when the blanking robot 11 places the tablet once, the conveying timing belt 1202 is stepped once. The overwrap transfer line 1204 may be docked directly at a later stage of the product conveyor 12 to form a production line therewith. The drug slabs may be transported to a back-end cartoning machine by an overwrap transfer line 1204.

Example 2

In this embodiment, the mold layout mode of the high-speed flat plate type bubble cap machine is 2 plates/time. The guide 815 is provided with 2 sets of guide posts 803.

The rest is the same as in example 1.

Claims (10)

1. The high-speed flat plate type bubble cap machine is characterized by comprising a plastic sheet heating device (1), a forming station (2), a forming traction device (3), a forming material storage device (4), a heat-sealing station (5), a heat-sealing traction device (6), a heat-sealing material storage device (7), a batch number indentation station (8), a blanking traction device (9), a blanking station (10) and a finished product conveying device (12) which are sequentially connected according to the working procedures, wherein a blanking manipulator (11) is arranged between the blanking station (10) and the finished product conveying device (12), the plastic sheet heating device (1), the forming station (2), the forming traction device (3), the heat-sealing station (5) and the heat-sealing traction device (6) are synchronous in working period and identical in working frequency, and the batch number indentation station (8), the blanking traction device (9), the blanking station (10) and the working speed of the blanking manipulator (11) are the forming station (2), The working speed of the heat-sealing station (5) is multiple, and the value of the multiple is the same as the die typesetting value of the high-speed flat plate type bubble cap machine; typesetting by the high-speed flat plate type bubble cap machine is at least 2 plates/time; the heat-sealing station (5), the heat-sealing traction device (6) and the heat-sealing material storage device (7) are respectively arranged behind the feeding table top of the bubble cap machine.

2. A high-speed flat plate type bubble cap machine according to claim 1, wherein the front end of the plastic sheet heating device (1) is provided with a packing material width adjusting device (101) for adjusting the deviation of the plastic sheet in the width direction; the plastic sheet heating device (1) comprises an upper heating plate (102), the upper heating plate (102) is connected with an upper heating plate lifting device (104), a lower heating plate (103) which can be contacted with and separated from the upper heating plate (102) is arranged right below the upper heating plate (102), the lower heating plate (103) is connected with a lower heating plate lifting device (105), and the lower heating plate lifting device (105) is connected with a lower heating plate working device (106); the joint of the upper heating plate lifting device (104) and the upper heating plate (102) and the joint of the lower heating plate lifting device (105) and the lower heating plate (103) are respectively provided with an upper heating height adjusting screw (107) and a lower heating height adjusting screw (108) which respectively adjust the flatness and the pressure when the upper heating plate and the lower heating plate are contacted.

3. The high-speed flat plate type bubble cap machine according to claim 1, wherein the forming station (2) comprises an upper forming die (201), the upper forming die (201) is fixed on an upper die base plate (204), the upper die base plate (204) is connected with an upper die adjusting device (203), a lower forming die (202) which can move up and down under the driving of a bubble cap power mechanism and is closed with the upper forming die (201) when moving up is arranged right below the upper forming die (201), and the upper forming die (201) is connected with an air inlet pipe (205) for introducing compressed air.

4. A high-speed flat plate type blister machine according to claim 1, wherein said forming drawing means (3) comprises a forming drawing upper drawing roller (301) and a forming drawing lower drawing roller (302) for transferring the blister sheet and a forming drawing positioning cylinder (303) for holding the blister sheet against immovable when the blister machine is stopped; the heat-seal drawing device (6) comprises a heat-seal drawing upper drawing roller (601) and a heat-seal drawing lower drawing roller (602) for transferring the blister plastic sheet.

5. A high-speed flat plate type bubble cap machine according to claim 1, wherein the molding stock material device (4) is composed of a molding stock material gravity roller (401), a molding stock material slide (402), and a molding stock material guide rod (403), the molding stock material slide (402) capable of sliding up and down is arranged on the molding stock material guide rod (403), and the molding stock material gravity roller (401) is fixed on the molding stock material slide (402).

6. A high-speed flat plate type bubble cap machine according to claim 1, wherein the heat-sealing station (5) comprises a heat-sealing upper die (503), the heat-sealing upper die (503) is connected with a heat-sealing upper die base plate (505) through a heat-sealing upper die adjusting screw (502), the heat-sealing upper die base plate (505) is connected with a heat-sealing pressurizing cylinder device (501), and a heat-sealing lower die (504) which moves up and down under the driving of a bubble cap power mechanism and closes with the heat-sealing upper die (503) when moving up is arranged right below the heat-sealing upper die (503).

7. A high-speed flat plate type bubble cap machine according to claim 1, wherein the heat-sealing stock material device (7) is composed of a heat-sealing stock material gravity arm (701), a heat-sealing stock material slide carriage (702) and a heat-sealing stock material guide rod (703), the heat-sealing stock material slide carriage (702) capable of sliding up and down is arranged on the heat-sealing stock material guide rod (703), and the heat-sealing stock material gravity arm (701) is fixed on the heat-sealing stock material slide carriage (702).

8. The high-speed flat plate type bubble cap machine according to claim 1, wherein the batch number indentation station (8) comprises a driving chain wheel (801) connected with a bubble cap power source, the driving chain wheel (801) is coaxially connected with a cam (802), the cam (802) is connected with a roller (804), the roller (804) is arranged on a guide plate (815), a batch number lower die (806) is arranged on the guide plate (815), the manufacturing device comprises an indentation lower die (808) and at least 2 groups of guide plate guide posts (803), wherein a batch number upper die (805) is arranged right above the batch number lower die (806), the batch number upper die (805) is arranged on a batch number upper cover plate (816), an indentation upper die (807) is arranged right above the indentation lower die (808), the indentation upper die (807) is arranged on an indentation upper cover plate (817), and batch number indentation tracks (814) for positioning the blister material strip are arranged above the batch number lower die (806) and the indentation lower die (808); batch number indentation upper die adjusting devices (809) capable of adjusting the pressure of the upper die and the lower die during closing are arranged on the indentation upper cover plate (817) and the batch number upper cover plate (816), the indentation upper cover plate (817) and the batch number upper cover plate (816) are in through connection through a batch number adjusting screw (811) and an indentation adjusting screw (813), and the end of the batch number adjusting screw (811) and the end of the indentation adjusting screw (813) are respectively provided with a batch number die position adjusting handle (810) and an indentation die position adjusting handle (812) which are used for driving the batch number adjusting screw (811) and the indentation adjusting screw (813) to rotate positively and negatively.

9. A high-speed flat plate type bubble cap machine according to claim 1, wherein the blanking traction device (9) comprises a compression roller adjusting handle (904) for adjusting the height of the compression roller (905) so as to tension the bubble cap material belt, a traction die wheel (901) is arranged behind the compression roller adjusting handle (904), and an upper compression roller (902) and a lower compression roller (903) which are cooperated with the traction die wheel (901) and drive the bubble cap material belt to step are respectively arranged at the upper side and the lower side of the traction die wheel (901).

10. The high-speed flat plate type bubble cap machine according to claim 1, wherein the blanking station (10) comprises a blanking die (1001) for blanking the bubble cap material belt under the action of a bubble cap power mechanism, a blanking manipulator (11) for taking out the plate after each blanking is arranged behind the blanking station (10), a waste removing and conveying device (13) and a finished product conveying device (12) are arranged around the blanking manipulator (11), the waste removing and conveying device (13) is connected with a waste plate collecting barrel (1004), a waste collecting barrel (1003) is arranged beside the waste plate collecting barrel (1004), and a blanking waste cutter (1002) for cutting the bubble cap material belt waste is arranged above the waste collecting barrel (1003); the finished product conveying device (12) comprises an independent servo motor (1201) and a conveying synchronous belt (1202) driven by the independent servo motor (1201), partition plates (1203) with equal intervals are arranged on the conveying synchronous belt (1202), and the rear section of the finished product conveying device (12) is directly butted with an outer package conveying line (1204).

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