CN110422399B

CN110422399B - Frame type forming mechanism of bubble cap machine

Info

Publication number: CN110422399B
Application number: CN201910682260.4A
Authority: CN
Inventors: 杨坚; 林昌平; 季海艇; 胡传庆; 何勇; 李华光; 曹凡; 丁少文; 周传斌; 方小钢
Original assignee: Shanghai Junnuo Packaging Technology Co ltd
Current assignee: Shanghai Junnuo Packaging Technology Co ltd
Priority date: 2019-07-26
Filing date: 2019-07-26
Publication date: 2024-04-12
Anticipated expiration: 2039-07-26
Also published as: CN110422399A

Abstract

The invention discloses a frame type forming mechanism of a bubble cap machine, which comprises a forming cam arranged in a forming cam box, wherein an air passage die bottom plate, an air passage die, a forming die cold water plate and a forming guide plate are arranged above the forming cam box; the bottom of the forming guide plate is fixed with a guide post, and the top of the forming cam box is embedded with a guide sleeve which is mutually nested with the guide post. According to the invention, the size and the distribution of the pressure adjusting buffer device are changed, so that the pressure adjusting buffer device is distributed uniformly relative to the center of the die, and the adjustment is more convenient and quick; the invention integrally adopts a spliced frame structure, so that the deformation of the integral frame when the pressure adjusting buffer device adjusts the pressure to be overlarge is avoided.

Description

Frame type forming mechanism of bubble cap machine

Technical Field

The invention relates to a forming mechanism of a bubble cap machine, in particular to a frame type forming mechanism, and belongs to the technical field of bubble cap machine equipment.

Background

The prior bubble cap machine forming mechanism is shown in fig. 1-3, and comprises a forming cam box 26, wherein a forming cam 10 is arranged in the forming cam box 26, one side of the forming cam 10 is connected with a driving shaft 11, and the driving shaft 11 is exposed from the forming cam box 26; a forming cover plate 21 is arranged above the forming cam box 26, four corners of the forming cover plate 21 are respectively provided with a guide post 5, the upper ends of the guide posts 5 sequentially penetrate through the tightening nut 4, the adjusting nut 3, the forming cover plate 21 and the belleville springs 2 to be matched with the ball head nut 1, the lower ends of the guide posts 5 are fixed on the forming cam box 26, the middle parts of the guide posts 5 are matched with the guide sleeves 6 in the forming guide plate 7, the bottoms of the forming guide plate 7 are connected with a roller seat 8, the bottom surface of the roller seat 8 is provided with a groove, a roller 12 with a roller shaft 9 is placed in the groove, a roller shaft pressing plate 13 is connected with the roller seat 8 through a pressing plate locking screw 14 to fix a limiting roller shaft 9, and the roller 12 is matched with the forming cam 10; an air passage die bottom plate 20, an air passage die 19, a forming die 18 and a forming die cold water plate 17 are sequentially arranged below the forming cover plate 21, a T-shaped block 28 is inserted into the air passage die bottom plate 20, and a T-shaped block locking screw 25 is inserted from the top of the forming cover plate 21 and is fixedly connected with the T-shaped block 28, so that the air passage die bottom plate 20 is fixedly connected with the forming cover plate 21; a forming die guide flat key 15 is arranged between the forming die 18 and the forming die cold water plate 17, and a positioning inclined block 29 for positioning the relative positions of the forming die 18 and the forming die cold water plate 17 is also arranged on one side of the forming die 18 and the forming die cold water plate 17; one side of the forming die cold water plate 17 is provided with a rotary swing arm 24, a rotary swing arm center sleeve 27 is arranged in the rotary swing arm 24, a rotary swing arm locking screw 22 penetrates through the rotary swing arm center sleeve 27 to be fixedly connected with the forming die cold water plate 17, a rotary swing arm end cover 23 is arranged on the surface of the rotary swing arm locking screw 22, and the rotary swing arm 24 is connected with the corrugated handle 16.

The tightening nut 4, the adjusting nut 3, the belleville springs 2 and the ball nut 1 form a pressure buffer device, and the pressure buffer device is distributed at four corners of the formed cover plate 21, such as A, B, C, D in fig. 3. In operation, the forming die 18 moves upward along the forming guide 7 by the cam mechanism in the forming cam box 26, then the forming die 18 and the air passage die 19 compress the package, and as the package is compressed, the air passage die 19 starts to blow-form the package, and the blister is formed by the forming die 18. The mold may have a gas leakage phenomenon during the forming process due to the processing precision of the mold, assembly errors, structure and the like. At this time, the balance force adjustment is performed by four pressure buffering devices. However, because the four pressure buffering devices are distributed closer to the corners (i.e. the sizes of X1 and X2 are larger), the effect is not obvious during adjustment, and obvious air leakage phenomenon is easy to exist. When the pressure is adjusted to a certain level, the guide post 5 is easily deformed due to structural and strength problems, and thus the desired molding effect is not always achieved.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the structure of the existing bubble cap machine forming machine is easy to deform, and the problem of air leakage exists.

In order to solve the problems, the invention is realized by the following technical scheme:

the frame type forming mechanism of the bubble cap machine comprises a forming cam arranged in a forming cam box, wherein a driving shaft of the forming cam is exposed out of one side of the forming cam box, an air passage die bottom plate, an air passage die, a forming die cold water plate and a forming guide plate are sequentially arranged above the forming cam box from top to bottom, a roller seat is arranged on the bottom surface of the forming guide plate, and a roller shaft of a roller matched with the forming cam is connected with the roller seat; the bottom of the forming guide plate is fixed with a guide post, and the top of the forming cam box is embedded with a guide sleeve which is mutually nested with the guide post.

Preferably, a forming die guide flat key is provided between the forming die and the forming die cold water plate.

Preferably, a positioning oblique block for positioning the relative position of the forming die and the forming die cold water plate is arranged on one side of the forming die and the forming die cold water plate.

Preferably, a rotary swing arm is arranged on one side of the forming die cold water plate, a rotary swing arm center sleeve is arranged in the rotary swing arm, a rotary swing arm locking screw penetrates through the rotary swing arm center sleeve to be fixedly connected with the forming die cold water plate, and the rotary swing arm is connected with a corrugated handle; the surface of the rotary swing arm locking screw is provided with a rotary swing arm end cover.

Preferably, the bottom surface of the roller seat is provided with a groove, the roller 12 with a roller shaft is arranged in the groove, and the roller shaft is limited between the roller shaft pressing plate and the roller seat; the roller shaft pressing plate is fixedly connected with the roller seat through a pressing plate locking screw.

Preferably, the guide post is fixedly connected with the forming guide plate through a guide post locking nut.

Preferably, the air flue die bottom plate fixing plate is internally provided with a taper hole locking block, and when the air flue die bottom plate fixing plate is limited by the locking handle, the tail end of the locking handle is matched with the limiting taper hole locking block.

Preferably, the frame comprises a top frame at the top, a left frame and a right frame at two sides of the top frame, wherein the tops of the left frame and the right frame are fixedly connected with the top frame through fastening screws respectively, and the bottoms of the left frame and the right frame are fixedly connected with the forming cam box through locking screws respectively.

Preferably, the pressure adjusting buffer device comprises a connecting stud penetrating through the frame, the top end of the connecting stud sequentially penetrates through the belleville spring and the belleville spring compression nut to be matched with the connecting stud tensioning nut, the belleville spring is arranged in the belleville spring compression nut, and the outer side of the belleville spring compression nut is fixedly connected with the frame through a large round nut; the bottom of the connecting stud is fixedly connected with the air flue die bottom plate fixing plate.

Preferably, the air vent of the air passage mould is communicated with an air source through a quick-release air pipe connector and a quick-connection air pipe plug in sequence.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the size and the distribution of the pressure adjusting buffer devices are changed, so that the four pressure adjusting buffer devices are distributed uniformly relative to the center of the die, and the adjustment is more convenient and quick;

2. the invention integrally adopts a spliced frame structure, and avoids the deformation of the integral frame when the pressure of the four pressure adjusting buffer devices is excessively high.

Drawings

FIG. 1 is a front view of a prior art blister machine forming mechanism;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a front view of a frame-type forming mechanism provided by the present invention;

FIG. 5 is a left side view of FIG. 4;

fig. 6 is a top view of fig. 4.

Detailed Description

In order to make the invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Examples

As shown in fig. 4 to 6, the frame-type forming mechanism of the blister machine provided by the invention comprises a forming cam 10 arranged in a forming cam box 14, wherein a driving shaft 11 of the forming cam 10 is exposed from one side of a forming cam box 26, and an air passage die bottom plate 20, an air passage die 19, a forming die 18, a forming die cold water plate 17 and a forming guide plate 7 are arranged above the forming cam box 26 in sequence from top to bottom. The vent of the air passage mould 19 is communicated with an air source through a quick-release air pipe joint 36 and a quick-connection air pipe plug 34 in sequence. The air passage die bottom plate 20 is fixed at the bottom of the air passage die bottom plate fixing plate 33, the air passage die bottom plate fixing plate 33 is connected with the top of the frame through four pressure adjustment buffering devices (I, J, K, L in fig. 6), the bottoms of the two sides of the frame are fixed on the forming cam box 14, the frame comprises a top frame 41 at the top and a left frame 40 and a right frame 35 at the two sides of the top, the tops of the left frame 40 and the right frame 35 are respectively fixedly connected with the top frame 41 through fastening screws 38, and the bottoms are respectively fixedly connected with the forming cam box 26 through locking screws 39. The frame is provided with a locking handle 42 for limiting the air passage die bottom plate fixing plate 33, the air passage die bottom plate fixing plate 33 is internally provided with a taper hole locking block 37, and when the air passage die bottom plate fixing plate 33 is limited by the locking handle 42, the tail end of the locking handle 42 is matched with the limiting taper hole locking block 37.

A mold guide flat key 15 is provided between the mold 18 and the mold cold water plate 17. One side of the forming die 18 and the forming die cold water plate 17 is provided with a positioning inclined block 29 for positioning the relative positions of the two.

A rotary swing arm 24 is arranged on one side of the forming die cold water plate 17, a rotary swing arm center sleeve 27 is arranged in the rotary swing arm 24, a rotary swing arm locking screw 22 penetrates through the rotary swing arm center sleeve 27 to be fixedly connected with the forming die cold water plate 17, and the rotary swing arm 24 is connected with the corrugated handle 16; the surface of the rotary swing arm locking screw 22 is provided with a rotary swing arm end cap 23.

The bottom surface of the forming guide plate 7 is provided with a roller seat 8, and a roller shaft 9 of a roller 12 matched with the forming cam 10 is connected with the roller seat 8; the bottom surface of the roller seat 8 is provided with a groove, a roller 12 with a roller shaft 9 is arranged in the groove, and the roller shaft 9 is limited between a roller shaft pressing plate 13 and the roller seat 8; the roller shaft pressing plate 13 is fixedly connected with the roller seat 8 through a pressing plate locking screw 14.

The bottom of the forming guide plate 7 is fixed with a guide post 5, and the top of the forming cam box 26 is embedded with a guide sleeve 6 which is mutually nested with the guide post 5. The guide post 5 is fixedly connected with the forming guide plate 7 through a guide post locking nut 32.

The pressure adjusting buffer device comprises a connecting stud 44 penetrating through the frame, the top end of the connecting stud 44 sequentially penetrates through the belleville spring 2 and the belleville spring compression nut 43 to be matched with the connecting stud tensioning nut 30, the belleville spring 2 is arranged in the belleville spring compression nut 43, and the outer side of the belleville spring compression nut 43 is fixedly connected with the frame through the large round nut 31; the bottom of the connecting stud 44 is fixedly connected with the air passage die bottom plate fixing plate 33.

The forming guide 7 slides on the guide post 5 guided by the guide sleeve 6. The roller 12 is coaxially arranged with the roller shaft 9, the circumference of the roller 12 is in tangent fit with the curve of the forming cam 10, the forming cam 10 is arranged on the driving shaft 11, the transmission main shaft 11 is arranged on the forming cam box 26, the forming die cold water plate 17 is arranged on the forming guide plate 7, the forming die 18 is guided by the forming die guiding flat key 15, the positioning inclined block 29 at the rear side is positioned, and the rotating swing arm 24 is driven to be positioned and locked by the corrugated handle 7.

The invention drives the forming die 18 to move up and down by a driving shaft 11 arranged on a bubble cap machine through a cam mechanism. When the cam mechanism is operated to the highest point, the forming die 18 and the air passage die 19 compress the packing material, and after compressing, the solenoid valve controlled by the PLC starts to blow-form the packing material through the air passage die 19. If the forming die 18 is not parallel to the surface of the air passage die 19, the pressure adjustment buffer device (I, J, K, L) can be used for adjusting the pressure. The four pressure adjusting buffer devices can be installed at any position of the top frame 41, preferably symmetrically and uniformly installed, so that the Y1 and Y2 sizes are smaller, and the four pressure adjusting buffer devices are distributed uniformly relative to the center of the die, so that the adjustment is more convenient and quick; the spliced frame structure is integrally adopted in the structural aspect, so that deformation of the integral frame when the pressure is excessively regulated by the four pressure regulating buffer devices is avoided.

Claims

1. The frame type forming mechanism of the bubble cap machine comprises a forming cam (10) arranged in a forming cam box, wherein a driving shaft (11) of the forming cam (10) is exposed from one side of the forming cam box (26), an air passage die bottom plate (20), an air passage die (19), a forming die (18), a forming die cold water plate (17) and a forming guide plate (7) are sequentially arranged above the forming cam box (26) from top to bottom, a roller seat (8) is arranged on the bottom surface of the forming guide plate (7), a roller shaft (9) of a roller (12) matched with the forming cam (10) is connected with the roller seat (8), and the frame type bubble cap forming machine is characterized in that the air passage die bottom plate (20) is fixed at the bottom of an air passage die bottom plate fixing plate (33), the air passage die bottom plate fixing plate (33) is connected with the top of a frame through at least one pressure adjusting buffer device, the bottoms at two sides of the frame are fixed on the forming cam box, and locking handles (42) for limiting the air passage die bottom plate fixing plate (33) are arranged on the frame; the bottom of the forming guide plate (7) is fixedly provided with a guide post (5), and the top of the forming cam box (26) is embedded with a guide sleeve (6) which is mutually nested with the guide post (5); a rotary swing arm (24) is arranged on one side of the forming die cold water plate (17), a rotary swing arm center sleeve (27) is arranged in the rotary swing arm (24), a rotary swing arm locking screw (22) penetrates through the rotary swing arm center sleeve (27) to be fixedly connected with the forming die cold water plate (17), and the rotary swing arm (24) is connected with a corrugated handle (16); the surface of the rotary swing arm locking screw (22) is provided with a rotary swing arm end cover (23); the pressure adjusting buffer device comprises a connecting stud (44) penetrating through the frame, the top end of the connecting stud (44) sequentially penetrates through the belleville spring (2) and the belleville spring compression nut (43) to be matched with the connecting stud tensioning nut (30), the belleville spring (2) is arranged in the belleville spring compression nut (43), and the outer side of the belleville spring compression nut (43) is fixedly connected with the frame through a large round nut (31); the bottom of the connecting stud (44) is fixedly connected with the airway die bottom plate fixing plate (33); a forming die guide flat key (15) is arranged between the forming die (18) and the forming die cold water plate (17); a positioning oblique block (29) for positioning the relative positions of the forming die (18) and the forming die cold water plate (17) is arranged on one side of the forming die; the bottom surface of the roller seat (8) is provided with a groove, a roller (12) with a roller shaft (9) is arranged in the groove, and the roller shaft (9) is limited between a roller shaft pressing plate (13) and the roller seat (8); the roller shaft pressing plate (13) is fixedly connected with the roller seat (8) through a pressing plate locking screw (14); the air flue die bottom plate fixing plate (33) is internally provided with a taper hole locking block (37), and when the air flue die bottom plate fixing plate (33) is limited by the locking handle (42), the tail end of the locking handle (42) is matched with the limiting taper hole locking block (37).

2. A frame-type forming mechanism of a blister machine according to claim 1, characterized in that the guide post (5) is fixed in connection with the forming guide plate (7) by means of a guide post lock nut (32).

3. The frame-type forming mechanism of a blister machine according to claim 1, wherein the frame comprises a top frame (41) at the top and a left frame (40) and a right frame (35) at the two sides of the top frame, the tops of the left frame (40) and the right frame (35) are fixedly connected with the top frame (41) through fastening screws (38) respectively, and the bottoms are fixedly connected with the forming cam box (26) through locking screws (39) respectively.

4. A frame-type forming mechanism of a blister machine according to claim 1, characterized in that the vent of the air passage mould (19) is connected to the air source sequentially through a quick release air connection (36), a quick connect air connection plug (34).