CN113149414B - Formula glass ampoule produces heating device sways - Google Patents

Abstract

The invention provides a swinging type heating device for producing glass ampoule bottles, which comprises a revolution device, a heating device, a plurality of upper clamping heads, a plurality of lower clamping heads, a lifting device and a rotation device, wherein the upper clamping heads are arranged on the upper clamping heads; the revolution device comprises a first revolution disc, a second revolution disc, a third revolution disc, a bearing disc, a rotating shaft, a driving device and a plurality of bearing seats; the bearing seats are arranged around the circle center of the bearing disc, the third revolution disc is provided with an arc-shaped notch, and the arc-shaped notch faces the bearing seats; the upper chuck is rotatably arranged on the first revolution plate, the top end of the lower chuck is rotatably arranged on the second revolution plate, and the self-rotating device is arranged at the bottom end of the lower chuck; the lifting device comprises a U-shaped block, a guide rod, a threaded rod, a rotating motor, a first gear, a rack plate and a containing pipe. The swing type glass ampoule bottle production heating device provided by the invention solves the technical problems that the whole transportation of glass bottles in the related technology consumes too much time and the production efficiency is lower.

Description

Formula glass ampoule produces heating device sways

Technical Field

The invention relates to the technical field of glass bottle manufacturing, in particular to a swinging type heating device for producing glass ampoule bottles.

Background

The manufacturing process of the ampoule bottle generally adopts a vertical ampoule bottle production line. The plurality of stations are uniformly distributed on the same revolution device, the revolution device can drive the plurality of stations to revolve along the center of the revolution device, and each station can rotate. An upper chuck, a lower chuck and a flame combustion nozzle are correspondingly arranged on each station, the lifting driving device can drive the lower chuck to ascend, the lower chuck ascends to bear and clamp the glass tube conveyed by the upper chuck, and then the upper chuck and the lower chuck respectively clamp two ends of the glass tube.

During the revolution and rotation of the stations, the stations pass through the flame combustion nozzles in sequence, so that the heating parts of the glass tubes clamped by the upper and lower chucks on the stations are heated in a plastic state by rotation. In order to maintain the heating state, the single flame combustion nozzle can rotate in a swinging mode so as to be synchronous with the revolution of a corresponding station.

The lifting driving device drives the lower chuck to descend, the heating part of the glass tube is pulled into a curved bottleneck, and after the bottleneck is fixedly formed; heating the upper part of the bottleneck of the glass tube, driving the lower chuck to descend by the lifting driving device to break the upper part of the bottleneck, loosening the glass tube by the lower chuck, separating the glass tube from the lower chuck, and dropping the glass tube into a bottle receiving device.

However, in the related art, each station is correspondingly provided with one bottle receiving device, so that the number of the bottle receiving devices is too large, glass tubes with necks are scattered in different bottle receiving devices, and all the glass tubes need to be collected and gathered through a transfer device; and then, the collected and gathered glass bottles are conveyed to a subsequent treatment station through another transfer device so as to carry out the treatment of bottle mouth making, bottle bottom making, liquid medicine filling and bottle mouth sealing. Two transfer devices gather respectively and transport and follow-up propelling movement and transport for whole transit time increases, and production work efficiency reduces.

Therefore, there is a need to provide a new heating device for producing swing type glass ampoule bottles to solve the above technical problems.

Disclosure of Invention

The invention provides a swinging type glass ampoule bottle production heating device, which solves the technical problems that the whole transportation of glass bottles in the related technology consumes too much time and the production efficiency is lower.

In order to solve the technical problem, the swing type heating device for producing the glass ampoule bottles comprises a revolution device, a heating device, a plurality of upper clamping heads, a plurality of lower clamping heads, a plurality of lifting devices and a plurality of rotation devices, wherein the revolution device and the heating device are arranged at intervals;

the revolution device comprises a first revolution disc, a second revolution disc, a third revolution disc, a bearing disc, a rotating shaft, a driving device and a plurality of bearing seats; the rotating shaft sequentially penetrates through the first revolution plate, the second revolution plate, the third revolution plate and the bearing plate and then is connected with the driving device, the bearing seats are fixedly arranged on the bearing plate, a plurality of bearing seats are arranged around the circle center of the bearing plate, an arc-shaped notch is formed in the third revolution plate and faces the bearing seats; the upper chuck, the lower chuck, the bearing seat, the lifting device and the self-rotating device are arranged in a one-to-one correspondence manner, the upper chuck is rotatably mounted on the first revolution plate, the top end of the lower chuck is rotatably mounted on the second revolution plate, and the self-rotating device is arranged at the bottom end of the lower chuck;

the lifting device comprises a U-shaped block, a guide rod, a threaded rod, a rotating motor, a first gear, a rack plate and a containing pipe, wherein the U-shaped block is provided with a notch, the bottom end of the lower chuck extends into the notch and is abutted against the U-shaped block, one end of the guide rod penetrates through the U-shaped block and is in sliding connection with the U-shaped block, the other end of the guide rod is connected with the third revolution plate, one end of the threaded rod penetrates through the U-shaped block and is in threaded connection with the U-shaped block, the other end of the threaded rod is fixedly connected with the first gear, the first gear is connected with a driving shaft of the rotating motor, the rotating motor is fixedly arranged on the third revolution plate, the rack plate is engaged with the first gear, the containing pipe is connected with one end of the rack plate, which deviates from the rotating motor, of the containing pipe is in sliding connection with the third revolution plate, and can slide to the upper side of the arc-shaped notch from the lower side of the lower chuck.

Preferably, the revolution device further comprises an arc-shaped wall plate, the arc-shaped wall plate is connected with the bearing disc, the arc-shaped wall plate is located between the third revolution disc and the bearing disc, and the bearing seat is adjacent to the arc-shaped wall plate.

Preferably, the bearing seat includes a first seat body and a second seat body, the first seat body and the second seat body are arranged at an interval, the arc notch is arranged towards the first seat body, and the first seat body and the arc wall plate are arranged adjacently.

Preferably, the first seat body is provided with an arc end, and the arc notch is arranged towards the arc end.

Preferably, the revolution device further comprises a base for supporting the driving device.

Preferably, the arc-shaped notch is located between the lifting device and the rotating shaft.

Preferably, the lifting device is located between the arc notch and the rotating shaft.

Preferably, the rack plate is located between the guide rod and the threaded rod.

Preferably, the width of the accommodating tube is smaller than or equal to the width of the arc-shaped notch.

Preferably, the top end of the arc-shaped wall plate abuts against the third revolution plate.

According to the swing type glass ampoule bottle production heating device provided by the invention, the first gear and the threaded rod are driven to rotate through the rotation of the rotating motor, so that the U-shaped block is driven to move up and down, and the lifting motion of the lower chuck is realized; the rotation of the first gear can also drive the rack plate and the accommodating pipe to move, so that the accommodating pipe can receive the glass pipe which is released by the lower chuck and is subjected to neck making, and the glass pipe is released to the bearing seat of the bearing plate through the arc-shaped notch;

the oscillating type glass ampoule bottle production heating device collects glass bottles with necks on the bearing seat of the bearing disc in a gathering mode, the necks are made orderly in connection with the collecting step, operation is free, multiple bottle collecting devices are avoided, the transferring step of collecting gathered glass bottles from the bottle collecting devices is omitted, the transferring device of collecting gathered glass bottles from the bottle collecting devices is omitted, mechanism arrangement is reduced to a certain extent, the time of transferring the glass bottles integrally is shortened, and production efficiency is improved.

Drawings

FIG. 1 is a top view of a heating apparatus for producing a swing type glass ampoule provided in the present invention;

FIG. 2 is a front view of the rocking glass ampoule producing and heating apparatus shown in FIG. 1;

FIG. 3 is a schematic structural diagram of the third revolution plate shown in FIG. 2;

FIG. 4 is an assembly view of the adaptor plate and the adaptor base shown in FIG. 2;

FIG. 5 is an enlarged view of portion A of FIG. 2;

FIG. 6 is an operational schematic diagram of the elevator apparatus, the tray and the socket shown in FIG. 5;

FIG. 7 is another schematic diagram of the operation of the elevator apparatus, the tray and the socket shown in FIG. 5;

fig. 8 is a cross-sectional view of the lower clamp shown in fig. 5.

Reference numbers in the figures:

1-revolution device, 2-heating device, 3-upper chuck, 4-lower chuck, 5-lifting device, 6-rotation device;

11-a first revolution disc, 12-a second revolution disc, 13-a third revolution disc, 14-a receiving disc, 15-a rotating shaft, 16-a driving device, 17-a receiving seat, 18-an arc-shaped wall plate and 19-a base; 111-arc shaped notch;

171-a first seat, 172-a second seat;

41-rotating cylinder, 42-rotating tube, 43-mounting ring, 44-clamping rod, 45-first elastic piece, 46-rotating gear, 47-lifting block, 48-fixing piece and 49-second elastic piece;

411-vertical part, 412-first inclined part, 413-second inclined part, 414-surrounding part;

51-U-shaped block, 52-guide rod, 53-threaded rod, 54-rotating motor, 55-first gear, 56-rack plate and 57-accommodating tube;

21-support base, 22-flame nozzle;

61-drive motor, 62-second gear.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a heating device for producing a swing type glass ampoule bottle.

Referring to fig. 1 to 5, in an embodiment of the present invention, the swing type heating device for producing glass ampoules includes a revolving device 1, a heating device 2, a plurality of upper chucks 3, a plurality of lower chucks 4, a plurality of lifting devices 5, and a plurality of rotating devices 6, wherein the revolving device 1 and the heating device 2 are disposed at an interval;

the revolution device 1 comprises a first revolution disc 11, a second revolution disc 12, a third revolution disc 13, a bearing disc 14, a rotating shaft 15, a driving device 16 and a plurality of bearing seats 17; the rotating shaft 15 sequentially penetrates through the first revolution plate 11, the second revolution plate 12, the third revolution plate 13 and the bearing disc 14 and then is connected with the driving device 16, the bearing seat 17 is fixedly arranged on the bearing disc 14, the bearing seats 17 are arranged around the center of the circle of the bearing disc 14, an arc-shaped notch 111 is formed in the third revolution plate 13, and the arc-shaped notch 111 faces the bearing seat 17; the upper chuck 3, the lower chuck 4, the bearing seat 17, the lifting device 5 and the self-rotating device 6 are arranged in a one-to-one correspondence manner, the upper chuck 3 is rotatably mounted on the first revolution plate 11, the top end of the lower chuck 4 is rotatably mounted on the second revolution plate 12, and the self-rotating device 6 is arranged at the bottom end of the lower chuck 4;

the lifting device 5 comprises a U-shaped block 51, a guide rod 52, a threaded rod 53, a rotating motor 54, a first gear 55, a rack plate 56 and a containing pipe 57, wherein the U-shaped block 51 is provided with a notch, the bottom end of the lower chuck 4 extends into the notch and is abutted against the U-shaped block 51, one end of the guide rod 52 penetrates through the U-shaped block 51 and is in sliding connection with the U-shaped block 51, the other end of the guide rod 52 is connected with the third revolution disc 13, one end of the threaded rod 53 penetrates through the U-shaped block 51 and is in threaded connection with the U-shaped block 51, the other end of the threaded rod 53 is fixedly connected with the first gear 55, the first gear 55 is connected with a driving shaft of the rotating motor 54, the rotating motor 54 is fixedly arranged on the third revolution disc 13, the rack plate 56 is meshed with the first gear 55, the containing pipe 57 is connected with one end of the rack plate 56, which is far away from the rotating motor 54, the accommodating pipe 57 is slidably connected to the third revolution plate 13 and can slide from the lower part of the lower chuck 4 to the upper part of the arc notch 111.

Referring to fig. 2 again, in the present embodiment, the driving device 16 is configured to drive the rotating shaft 15 to rotate, so as to realize the revolution of the first revolution plate 11, the second revolution plate 12, the third revolution plate 13 and the receiving plate 14.

According to the swing type glass ampoule bottle production heating device provided by the invention, the first gear 55 and the threaded rod 53 are driven to rotate through the rotation of the rotating motor 54, so that the U-shaped block 51 is driven to move up and down, and the lifting motion of the lower chuck 4 is realized; the rotation of the first gear 55 can also drive the rack plate 56 and the accommodating tube 57 to move, so that the accommodating tube 57 receives the glass tube which is released by the lower chuck 4 and is subjected to neck making, and the glass tube is released to the bearing seat 17 of the bearing disc 14 through the arc-shaped notch 111;

the oscillating type glass ampoule bottle production heating device collects glass bottles with necks on the bearing seat 17 of the bearing disc 14 in a gathering mode, the necks are orderly connected with the collecting step, the operation is not blocked, multiple bottle collecting devices are avoided, the transferring step of collecting the gathered glass bottles from the bottle collecting devices is omitted, the transferring device of collecting the glass bottles from the bottle collecting devices is omitted, the mechanism arrangement is reduced to a certain extent, the time for transferring the glass bottles integrally is shortened, and the production efficiency is improved.

Referring to fig. 4 and 7, the revolution device 1 further includes an arc-shaped wall plate 18, the arc-shaped wall plate 18 is connected to the receiving tray 14, and the arc-shaped wall plate 18 is located between the third revolution plate 13 and the receiving tray 14, wherein the receiving seat 17 is disposed adjacent to the arc-shaped wall plate 18. The arrangement of the arc-shaped wall plate 18 can prevent the glass tube which is used for manufacturing the neck from falling outside the bearing plate 14, and the safe conveying of the glass tube is guaranteed. Moreover, the arc-shaped wall plate 18 is not completely arranged around the receiving tray 14, so that the side surface of the receiving tray 14 has a larger avoidance space, and the external transfer device can conveniently transfer the glass bottles on the receiving seat 17 to the next processing station.

In a preferred embodiment of the present invention, the top end of the arc-shaped wall plate 18 abuts against the third revolution plate 13.

The bearing seat 17 includes a first seat 171 and a second seat 172, the first seat 171 and the second seat 172 are disposed at an interval, wherein the arc notch 111 is disposed toward the first seat 171, and the first seat 171 is disposed adjacent to the arc wall plate 18; thereby optimizing the structure of the bearing seat 17 and saving the material cost of the bearing seat 17.

The first seat 171 has an arc end, and the arc notch 111 faces the arc end. The arrangement of the arc end can facilitate the positioning of the glass tube falling from the arc notch 111.

Referring to fig. 2 again, the revolution device 1 further includes a base 19, and the base 19 is used for supporting the driving device 16. Thereby ensuring a stable arrangement of the drive means 16.

Referring to fig. 2 and fig. 5, in an embodiment, the arc notch 111 may be located between the lifting device 5 and the rotating shaft 15.

It is understood that, in another embodiment, the lifting device 5 may also be located between the arc-shaped notch 111 and the rotating shaft 15. Only the normal operation of the lifting device 5 needs to be satisfied. The user can carry out flexible position adjustment according to the space setting of actual production.

In one embodiment, the rack plate 56 may be located between the guide rod 52 and the threaded rod 53. In another embodiment, the guide rod 52 and the threaded rod 53 may be located at one side of the first gear 55, and the gear plate may be located at the other side of the first gear 55, only if the receiving tube 57 receives and transfers the glass tube.

The width of the accommodating tube 57 is less than or equal to the width of the arc-shaped notch 111. Preferably, the width of the accommodating tube 57 is smaller than the width of the arc-shaped notch 111, so that the glass tube in the accommodating tube 57 falls more easily.

Referring to fig. 5 again, in the present embodiment, the heating device 2 includes a supporting base 21 and a flame nozzle 22, the supporting base 21 and the revolution device 1 are disposed at an interval, and the flame nozzle 22 is disposed on the supporting base 21.

In this embodiment, before entering the step of making the bottleneck of the glass tube, the upper chuck 3 and the lower chuck 4 respectively clamp two ends of the glass tube. After the glass tube with the finished neck is pulled and broken, the lower chuck 4 releases the glass tube; when the step of manufacturing the bottleneck needs to be carried out again, the upper clamping head 3 releases the glass tube, and the glass tube is clamped again after the lower clamping head 4 clamps the glass tube.

The upper clamping head 3 can be directly controlled to clamp and release through a controller or other electronic equipment, and the lower clamping head 4 can be directly controlled to clamp and release through the lifting device 5.

Referring to fig. 8, as a preferred mode of the lower chuck 4, the lower chuck 4 may include a rotary cylinder 41, a rotary tube 42, a mounting ring 43, a clamping rod 44, a lifting block 47, a rotary gear 46, and a first elastic member 45. The rotating cylinder 41 is rotatably mounted on the second revolution plate 12; one end of the rotating tube 42 extends into the rotating cylinder 41; the mounting ring 43 is arranged at one end of the rotating pipe 42; the plurality of clamping rods 44 are arranged around the rotating tube 42, one end of each clamping rod 44 sequentially penetrates through the mounting ring 43 and the rotating tube 42, one end of each clamping rod 44 is elastically connected with the mounting ring 43 through a first elastic piece 45, and the other end of each clamping rod 44 abuts against the rotating tube 41; the lifting block 47 is fixedly arranged at the other end of the rotating pipe 42; the rotating pipe 42 penetrates through the rotating gear 46, and the rotating gear 46 is in sliding key connection with the rotating pipe 42; the rotating cylinder 41 comprises a first inclined part 412, a vertical part 411, a second inclined part 413 and a surrounding part 414 which are sequentially connected, the first inclined part 412 and the second inclined part 413 are formed by obliquely extending from two ends of the vertical part 411 along a direction deviating from the rotating pipe 42, and the surrounding part 414 is connected with the rotating pipe 42 in a sliding key mode.

The lower chuck 4 further includes a fixing member 48 and a second elastic member 49, the fixing member 48 is fixedly disposed on the outer wall of the rotating tube 42, the fixing member 48 is located between the mounting ring 43 and the rotating gear 46, and the second elastic member 49 elastically connects the fixing member 48 and the surrounding portion 414.

In this embodiment, the sliding connection is a form of key connection in the prior art, specifically, a sliding groove is formed in an outer wall of the rotating tube 42, a sliding key is disposed in the sliding groove, the sliding key is slidably connected to the sliding groove, and the sliding key is fixedly connected to an element connected to the sliding key of the rotating tube 42. The connecting element can drive or follow the rotating tube 42 to rotate, and the connecting element and the rotating tube 42 can slide relatively along the extending direction of the sliding chute.

In this embodiment, one end of the lifting block 47 extends into the notch of the U-shaped block 51 and abuts against the U-shaped block 51.

Referring to fig. 7, the rotation device 6 includes a driving motor 61 and a second gear 62, the driving motor 61 is disposed at the other end of the lifting block 47, and the second gear 62 is connected to a driving shaft of the driving motor 61 and is engaged with the rotating gear 46.

Referring to fig. 5 to fig. 7, a preferred operation principle of the swing type heating device for producing glass ampoules provided by the present invention is as follows:

the rotating motor 54 rotates counterclockwise and drives the first gear 55 and the threaded rod 53 to rotate counterclockwise, so as to drive the U-shaped block 51 to move downward and drive the lower chuck 4 to move downward; finally, the lower chuck 4 is broken to manufacture the glass tube with the finished bottleneck;

meanwhile, the counterclockwise rotation of the first gear 55 also drives the rack plate 56 and the accommodating tube 57 to move, so that the accommodating tube 57 moves to a position right below the lower chuck 4;

when the lower chuck 4 breaks the glass tube whose bottleneck is completed, and the lower chuck 4 releases the glass tube, the glass tube falls into the accommodating tube 57 from the lower chuck 4;

the rotating motor 54 rotates clockwise and drives the first gear 55 and the threaded rod 53 to rotate clockwise, so as to drive the U-shaped block 51 to move upwards and drive the lower chuck 4 to move upwards; to receive the glass tube to be neck conveyed by the upper chuck 3;

meanwhile, the clockwise rotation of the first gear 55 can also drive the rack plate 56 and the accommodating pipe 57 to move, and the glass tube in the accommodating pipe 57 moves along with the accommodating pipe 57, so that the accommodating pipe 57 moves to the position right above the arc-shaped notch 111, and the glass tube in the accommodating pipe 57 falls into the bearing seat 17 from the arc-shaped notch 111.

And repeating the steps, wherein the processing step of manufacturing the bottleneck by the glass tube and the collecting step of the glass bottle after the bottleneck is manufactured are carried out in a link mode.

The glass tube falling into the bearing seat 17 can be output to other processing stations by an external transfer device so as to carry out subsequent processing.

The oscillating type glass ampoule bottle production heating device collects glass bottles finished with neck making on the bearing seat 17 of the bearing disc 14 in a gathering mode, the neck making step and the collecting step are connected in order and run unimpededly, multiple bottle collecting devices are avoided, the transferring step of collecting gathered glass bottles from the bottle collecting devices is omitted, the transferring device of collecting glass bottles from the bottle collecting devices is omitted, mechanism arrangement is reduced to a certain extent, the time of transferring the glass bottles integrally is shortened, and production efficiency is improved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a formula glass ampoule production heating device sways, includes revolution device, heating device and a plurality of chuck, lower chuck, elevating gear and rotation device on, revolution device with heating device interval sets up its characterized in that:

the revolution device comprises a first revolution disc, a second revolution disc, a third revolution disc, a bearing disc, a rotating shaft, a driving device and a plurality of bearing seats; the rotating shaft sequentially penetrates through the first revolution plate, the second revolution plate, the third revolution plate and the bearing plate and then is connected with the driving device, the bearing seats are fixedly arranged on the bearing plate, a plurality of bearing seats are arranged around the circle center of the bearing plate, an arc-shaped notch is formed in the third revolution plate and faces the bearing seats; the upper chuck, the lower chuck, the bearing seat, the lifting device and the self-rotating device are arranged in a one-to-one correspondence manner, the upper chuck is rotatably mounted on the first revolution plate, the top end of the lower chuck is rotatably mounted on the second revolution plate, and the self-rotating device is arranged at the bottom end of the lower chuck;

the lifting device comprises a U-shaped block, a guide rod, a threaded rod, a rotating motor, a first gear, a rack plate and a containing pipe, wherein the U-shaped block is provided with a notch, the bottom end of the lower chuck extends into the notch and is abutted against the U-shaped block, one end of the guide rod penetrates through the U-shaped block and is in sliding connection with the U-shaped block, the other end of the guide rod is connected with the third revolution plate, one end of the threaded rod penetrates through the U-shaped block and is in threaded connection with the U-shaped block, the other end of the threaded rod is fixedly connected with the first gear, the first gear is connected with a driving shaft of the rotating motor, the rotating motor is fixedly arranged on the third revolution plate, the rack plate is engaged with the first gear, the containing pipe is connected with one end of the rack plate, which deviates from the rotating motor, of the containing pipe is in sliding connection with the third revolution plate, and can slide to the upper side of the arc-shaped notch from the lower side of the lower chuck.

2. The swing type glass ampoule bottle production heating device according to claim 1, wherein the revolution device further comprises an arc-shaped wall plate, the arc-shaped wall plate is connected with the receiving tray, and the arc-shaped wall plate is located between the third revolution tray and the receiving tray, wherein the receiving seat is disposed adjacent to the arc-shaped wall plate.

3. The rocking glass ampoule production heating apparatus of claim 2, wherein the receptacle comprises a first seat and a second seat spaced apart from each other, wherein the arc-shaped notch is disposed toward the first seat, and the first seat is disposed adjacent to the arc-shaped wall plate.

4. The rocking glass ampoule production heating apparatus of claim 3, wherein the first seat has an arc end, and the arc notch is disposed toward the arc end.

5. The rocking glass ampoule production heating apparatus of claim 1, wherein the revolution apparatus further comprises a base for supporting the driving apparatus.

6. The rocking glass ampoule production heating apparatus of claim 1, wherein the arcuate notch is located between the lifting device and the shaft.

7. The rocking glass ampoule production heating apparatus of claim 1, wherein the lifting device is located between the arc-shaped notch and the rotation shaft.

8. The rocking glass ampoule production heating apparatus of claim 1, wherein the rack plate is located between the guide rod and the threaded rod.

9. The rocking glass ampoule production heating apparatus of claim 1, wherein the width of the receiving tube is less than or equal to the width of the arc-shaped notch.

10. The rocking glass ampoule production heating apparatus of claim 2, wherein the top end of the curved wall plate abuts the third revolution plate.

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