CN103121532A

CN103121532A - Membrane blanking mechanism in blister packaging machine

Info

Publication number: CN103121532A
Application number: CN2012101631115A
Authority: CN
Inventors: 蒲丹
Original assignee: Sichuan Kangyuan Medical Equipment Co Ltd
Current assignee: Sichuan Kangyuan Medical Equipment Co Ltd
Priority date: 2011-11-17
Filing date: 2012-05-24
Publication date: 2013-05-29

Abstract

The invention discloses a membrane blanking mechanism in a blister packaging machine. The membrane blanking mechanism comprises upright columns, a linear bearing, a female die, a male die, a push board and a cover board. The number of the upright columns is two. Both ends of the female die and the cover board are respectively connected with the two upright columns. Both ends of the linear bearing are respectively sleeved on the two upright columns. The cover board, the linear bearing and the female die are sequentially arranged from high to low in position. The male die is connected on the lower end face of the linear bearing and corresponds to a cutting edge of the female die in position. The upper end face of the cover board is connected with a lifting mechanism. The push board is disposed below the linear bearing which is connected with a telescoping mechanism for controlling the push board to ascend or descend. By means of the structure, the upright column, the linear bearing, the male die and the female die form an integral body, the female die and the male die are both limited by the upright columns, shift of the female die and the male die can be avoided, and therefore, blanking can be carried out continuously, and blanking efficiency cannot be affected by shift of the female die or the male die.

Description

The mechanism of stamping-out moulding diaphragm in blister packaging machine

Technical field

The present invention relates to the packing technique field, specifically the mechanism of stamping-out moulding diaphragm in blister packaging machine.

Background technology

Package packing machine is along with the appearance of new package material and the continuous innovation of packing technique develop, the birth of paper technology provides condition to begin for the generation of wrapper from China's four inventions, produce the full-automatic molding filling sealer to Germany in 1911, again to 20 the end of the century new packaging materials, freight container etc. invention produce, the innovation of each packing and technology all promotes and has promoted further improving and development of package packing machine.

Blister packaging machine is a kind of as wrapping machine, and it is to form bubble-cap with transparent plastic film or thin slice, utilizes the methods such as Heat Sealing, bonding with the equipment of product involution.Blister packaging machine is applicable to tablet, capsule, capsule and pill, plain sheet and the various special-shaped tablets of all size.For realizing the high-speed packaging of the different tablet of size shape, require control system have at a high speed, accurately, the controller performance coordinated.

Stamping-out is last procedure in blister packaging machine, and blanking apparatus is that involution, printed moulding diaphragm are die-cut into the device of plate, blanking apparatus in the process of stamping-out by punch embed complete in die die-cut.Punch and the die of existing blister packaging machine blanking apparatus are connected on different frameworks, and stamping-out process convex mould and die easily are offset, and this just makes the stamping-out process not complete smoothly, thereby can have influence on work efficiency.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, provide a kind of and can avoid the mechanism of stamping-out moulding diaphragm in skew occurs die and punch blister packaging machine in the stamping-out process.

purpose of the present invention is achieved through the following technical solutions: the mechanism of stamping-out moulding diaphragm in blister packaging machine, comprise column, linear bearing, die, punch, pushing plate and cover plate, the quantity of described column is two, the two ends of described die and cover plate are connected with two root posts respectively, the two ends of described linear bearing are set in respectively on two root posts, described cover plate, linear bearing and die three's position arranges from high to low in turn, described punch is connected in the lower surface of linear bearing and corresponding with the cutting edge position of die, the upper surface of described cover plate is connected with lifting mechanism, described pushing plate is arranged on the below of linear bearing, and linear bearing is connected with controls the telescoping mechanism that pushing plate rises or descends.

The first embodiment of lifting mechanism of the present invention, described lifting mechanism comprises suspension bracket, steel cable and motor, and described suspension bracket is connected to the cover plate upper surface, and be connected respectively spool and be connected in the two ends of described steel cable with motor with suspension bracket.Lifting mechanism adopts this kind structure, and the present invention is in die-cut process, and the rising of column, die and cover plate is completed by upper lifting frame, and raising and decentralizing of suspension bracket can be completed by motor, by the up-and-down movement of electric machine control suspension bracket, easy to operate, be convenient to control.

The second embodiment of lifting mechanism of the present invention, described lifting mechanism comprises piston crank mechanism, described piston crank mechanism comprises piston rod part and the crankshaft-flywheel assembly that is connected with piston rod part, and the connecting rod of described piston rod part is connected in the upper surface of cover plate.Lifting mechanism adopts this kind structure, the present invention is in die-cut process, the rising of column, die and cover plate is completed by piston crank mechanism, flywheel by the turning crankshaft flywheel assembly makes the connecting rod of piston rod part rise or descend, and then drive column, die and cover plate rising or descend, be convenient to regulate.

The first embodiment of telescoping mechanism of the present invention, described telescoping mechanism are the spring that two ends are connected with pushing plate with linear bearing respectively.Telescoping mechanism of the present invention adopts this kind structure, and after pushing plate was compressed, it returned back to original position and is completed by the spring drive, thereby can guarantee continuous operation of the present invention.

The second embodiment of telescoping mechanism of the present invention, described telescoping mechanism are the cylinder that is arranged on the linear bearing upper end, and the piston rod of described cylinder passes linear bearing and is connected with pushing plate.Telescoping mechanism of the present invention adopts this kind structure, pushing plate is connected on the piston rod of cylinder, and its path of motion is controlled by cylinder, therefore, can be by cylinder setting being coordinated the motion of die, thus more regular carrying out when making pushing plate coordinate the cut sheet of die compacting.

The lower end of described punch is provided with breach, and described pushing plate is connected with the charging ram that extends in the punch breach.Plate punched lower after, charging ram can make the plate under die-cut leave die.

The two ends of described linear bearing are connected with respectively a bearing support.Linear bearing of the present invention is fixed by two bearing supports, and so, linear bearing can not be offset easily.

The lower surface of described die is connected with back plate, and the two ends of described back plate are connected on two root posts, and back plate is provided with the perforation corresponding with the punch position.The present invention is when die-cut plate, and back plate can die supports, thereby avoids being connected between die and column to come off; Plate after stamping-out falls from the perforation of back plate.

Compared with prior art; the present invention has following beneficial effect: die of the present invention is connected with column; punch is connected with linear bearing; and linear bearing is set on column; die, punch and column consist of an integral body; therefore, both all are difficult for being offset, and can avoid affects stamping-out efficient because punch or die occur to be offset.

Description of drawings

Fig. 1 is the structural representation of the embodiment of the present invention one;

Fig. 2 is the structural representation of the embodiment of the present invention two;

Fig. 3 is the structural representation of the embodiment of the present invention three;

Fig. 4 is the structural representation of the embodiment of the present invention four.

In accompanying drawing, the corresponding name of Reference numeral is called: 1, column, 2, linear bearing, 3, die, 4, punch, 5, spring, 6, pushing plate, 7, charging ram, 8, back plate, 9, cover plate, 10, bearing support, 11, suspension bracket, 12, the crankshaft-flywheel assembly, 13, piston rod part, 14 cylinders.

The specific embodiment

The present invention is described in further detail below in conjunction with embodiment and accompanying drawing, but embodiments of the present invention are not limited to this.

Embodiment one:

As shown in Figure 1, the mechanism of stamping-out moulding diaphragm in blister packaging machine, comprise column 1, linear bearing 2, die 3, punch 4, pushing plate 6, back plate 8 and cover plate 9, wherein, the quantity of column 1 is two, die 3, back plate 9 and cover plate 9 threes' two ends are connected with two root posts 1 respectively, the two ends of linear bearing 2 are set in respectively on two root posts 1, in order to fix the position that keeps linear bearing 2, the two ends of linear bearing 2 are connected with respectively a bearing support 10, are supported by 10 pairs of linear bearings 2 of bearing support.Cover plate 9, linear bearing 2 and die 3 threes' position arranges from high to low in turn, die 3 is provided with cutting edge, punch 4 is connected in the lower surface of linear bearing 2 and corresponding with the cutting edge position of die 3, and back plate 8 is connected in the lower surface of die 3, and back plate 8 is provided with the perforation corresponding with punch 4 positions.The upper surface of cover plate 9 is connected with lifting mechanism, and lifting mechanism comprises suspension bracket 11, steel cable and motor, is connected respectively spool and is connected in the two ends of steel cable with motor with suspension bracket 11, and suspension bracket 11 preferably is connected in the central part of cover plate 9 upper surfaces.Pushing plate 6 is arranged on the below of linear bearing 2, and linear bearing 2 is connected with and controls the telescoping mechanism that pushing plate 6 rises or descends, and wherein, telescoping mechanism is that the spring 5 that is connected is connected respectively at two ends with pushing plate with linear bearing 2.The lower end of punch 4 is provided with breach, and pushing plate 6 is connected with the charging ram 7 that extends in punch 4 breach.

During the present embodiment work, linear bearing 2 is connected on bearing support 10, its invariant position, punch 4 also maintains static, suspension bracket 11 is connected with motor and rises or descend by electric machine control suspension bracket 11, when suspension bracket 11 rises, cover plate 9, column 1 and die 3 all rise, pushing plate 6 and die 3 will be cut sheet and compress, then die 3 continues to rise, when the cutting edge of die 3 surpassed punch 4 lower plane, plate is punched to get off, and charging ram 7 makes the plate after die-cut break away from die 3 and falls from the perforation of back plate 8; When suspension bracket 11 drive dies 3 moved down, pushing plate 6 returned to original position because of the effect of spring, and pushing plate 6 pushes away punch 4 with the waste material of punch 4 peripheries in the process of recovering original position, and so, a circulation finishes.

Embodiment two:

As shown in Figure 2, the key distinction of the present embodiment and embodiment one is: the telescoping mechanism of the present embodiment is the cylinder 14 that is arranged on linear bearing 2 upper ends, and the piston rod of cylinder 14 passes linear bearing 2 and is connected with pushing plate 6.

during the present embodiment work, linear bearing 2 is connected on bearing support 10, its invariant position, punch 4 also maintains static, suspension bracket 11 is connected with motor and rises or descend by electric machine control suspension bracket 11, when suspension bracket 11 rises, cover plate 9, column 1 and die 3 all rise, piston rod by cylinder 14 acts on pushing plate 6, pushing plate 6 and die 3 will be cut sheet and compress, then die 3 continues to rise, cylinder 14 also coordinates die 3 to rise with pushing plate 6, when the cutting edge of die 3 surpasses punch 4 lower plane, plate is punched to get off, charging ram 7 makes the plate after die-cut break away from die 3 and falls from the perforation of back plate 8, when suspension bracket 11 drive dies 3 moved down, cylinder 14 made the position movement of pushing plate 6 to the lower plane lower than punch 4, and pushing plate 6 waste material that it is peripheral when moving to the lower plane of punch 4 pushes away punch 4, and so, a circulation finishes.

Embodiment three:

As shown in Figure 3, the difference of the present embodiment and embodiment one is: the lifting mechanism of the present embodiment comprises piston crank mechanism, piston crank mechanism comprises cylinder block set, piston rod part 13 and the crankshaft-flywheel assembly 12 that is connected with piston rod part 13, wherein, cylinder block set comprises cylinder block, bore seal, cylinder head, crankcase, oil pan tray, crankcase and cylinder bushing, piston rod part 13 comprises piston, piston ring, piston pin and connecting rod, and crankshaft-flywheel assembly 12 comprises bent axle, flywheel, torsional vibration damper and balance shaft.The connecting rod of piston rod group 13 is connected in the upper surface of cover plate 9, and connecting rod preferably is connected in the central part of cover plate 9 upper surfaces.

During the present embodiment work, linear bearing 2 is connected on bearing support 10, its invariant position, punch 4 also maintains static, and the rising of cover plate 9, column 1 and die 3 or decline are controlled by piston crank mechanism, when piston crank mechanism is controlled die 3 rising, pushing plate 6 and die 3 will be cut sheet and compress, and then die 3 continues to rise, when the cutting edge of die 3 surpasses punch 4 lower plane, plate is punched to get off, and charging ram 7 makes the plate after die-cut break away from die 3 and falls from the perforation of back plate 8; When piston crank mechanism drive die 3 moved down, pushing plate 6 returned to original position because of the effect of spring, and pushing plate 6 pushes away punch 4 with the waste material of punch 4 peripheries in the process of recovering original position, and so, a circulation finishes.

Embodiment four:

As shown in Figure 4, the difference of the present embodiment and embodiment one is: the telescoping mechanism of the present embodiment is the cylinder 14 that is arranged on linear bearing 2 upper ends, and the piston rod of cylinder 14 passes linear bearing 2 and is connected with pushing plate 6.The lifting mechanism of the present embodiment comprises piston crank mechanism, piston crank mechanism comprises cylinder block set, piston rod part 13 and the crankshaft-flywheel assembly 12 that is connected with piston rod part 13, wherein, cylinder block set comprises cylinder block, bore seal, cylinder head, crankcase, oil pan tray, crankcase and cylinder bushing, piston rod part 13 comprises piston, piston ring, piston pin and connecting rod, and crankshaft-flywheel assembly 12 comprises bent axle, flywheel, torsional vibration damper and balance shaft.The connecting rod of piston rod group 13 is connected in the upper surface of cover plate 9, and connecting rod preferably is connected in the central part of cover plate 9 upper surfaces.

during the present embodiment work, linear bearing 2 is connected on bearing support 10, its invariant position, punch 4 also maintains static, cover plate 9, the rising of column 1 and die 3 or decline are controlled by piston crank mechanism, when piston crank mechanism is controlled die 3 rising, piston rod by cylinder 14 acts on pushing plate 6, pushing plate 6 and die 3 will be cut sheet and compress, then die 3 continues to rise, cylinder 14 also coordinates die 3 to rise with pushing plate 6, when the cutting edge of die 3 surpasses punch 4 lower plane, plate is punched to get off, charging ram 7 makes the plate after die-cut break away from die 3 and falls from the perforation of back plate 8, when piston crank mechanism drive die 3 moved down, cylinder 14 made the position movement of pushing plate 6 to the lower plane lower than punch 4, and pushing plate 6 waste material that it is peripheral when moving to the lower plane of punch 4 pushes away punch 4, and so, a circulation finishes.

As mentioned above, can well realize the present invention.

Claims

1. the mechanism of stamping-out moulding diaphragm in blister packaging machine, it is characterized in that: comprise column (1), linear bearing (2), die (3), punch (4), pushing plate (6) and cover plate (9), the quantity of described column (1) is two, described die (3) is connected 9 with cover plate) both two ends are connected with two root posts (1) respectively, the two ends of described linear bearing (2) are set in respectively on two root posts (1), described cover plate (9), linear bearing (2) and die (3) three's position arranges from high to low in turn, described punch (4) is connected in the lower surface of linear bearing (2) and corresponding with the cutting edge position of die (3), the upper surface of described cover plate (9) is connected with lifting mechanism, described pushing plate (6) is arranged on the below of linear bearing (2), and linear bearing (2) is connected with controls the telescoping mechanism that pushing plate (6) rises or descends.

2. the mechanism of stamping-out moulding diaphragm in blister packaging machine according to claim 1, it is characterized in that: described lifting mechanism comprises suspension bracket (11), steel cable and motor, described suspension bracket (1) is connected to cover plate (9) upper surface, is connected spool with suspension bracket (11) respectively and is connected in the two ends of described steel cable with motor.

3. the mechanism of stamping-out moulding diaphragm in blister packaging machine according to claim 1, it is characterized in that: described lifting mechanism comprises piston crank mechanism, described piston crank mechanism comprises piston rod part (13) and the crankshaft-flywheel assembly (12) that is connected with piston rod part (13), and the connecting rod of described piston rod part (13) is connected in the upper surface of cover plate (9).

4. the mechanism of stamping-out moulding diaphragm in blister packaging machine according to claim 1, it is characterized in that: described telescoping mechanism is that two ends are connected 6 with linear bearing (2) with pushing plate respectively) spring (5) that is connected.

5. the mechanism of stamping-out moulding diaphragm in blister packaging machine according to claim 1, it is characterized in that: described telescoping mechanism is for being arranged on the cylinder (14) of linear bearing (2) upper end, and the piston rod of described cylinder (14) passes linear bearing (2) and is connected with pushing plate (6).

6. the mechanism of stamping-out moulding diaphragm according to claim 1～5 described any blister packaging machines, it is characterized in that: the lower end of described punch (4) is provided with breach, and described pushing plate (6) is connected with the charging ram (7) that extends in punch (4) breach.

7. the mechanism of stamping-out moulding diaphragm according to claim 1～5 described any blister packaging machines, it is characterized in that: the two ends of described linear bearing (2) are connected with respectively a bearing support (10).

8. the mechanism of stamping-out moulding diaphragm according to claim 1～5 described any blister packaging machines, it is characterized in that: the lower surface of described die (3) is connected with back plate (8), the two ends of described back plate (8) are connected on two root posts (1), and back plate (8) is provided with the perforation corresponding with punch (4) position.