CN111318411B

CN111318411B - Air cushion floating type non-contact waxing mechanism

Info

Publication number: CN111318411B
Application number: CN202010154381.4A
Authority: CN
Inventors: 李光春; 刘杰奎; 李志奇; 田野; 牛波; 张彦磊
Original assignee: Pacific Can Shenyang Co ltd
Current assignee: Shengxing Shenyang Packaging Co ltd
Priority date: 2020-03-07
Filing date: 2020-03-07
Publication date: 2021-03-23
Anticipated expiration: 2040-03-07
Also published as: CN111318411A

Abstract

The invention relates to an air cushion floating type non-contact waxing mechanism.A waxing main shaft sequentially penetrates through axial center holes of a first expansion sleeve and a second expansion sleeve; the air distribution hub is nested on the molded surface of the first expansion sleeve, the star wheel hub is nested on the molded surface of the second expansion sleeve, the wax-coated star wheel is fixedly connected with the star wheel hub, and the edge of the wax-coated star wheel is provided with an air guide hole; a closed space is formed among the air distribution hub, the star wheel hub and the wax-coated star wheel; a vacuum spacing block and a compressed air spacing block are arranged in the closed space, and the closed space is divided into a vacuum adsorption area and a compressed air action area by the vacuum spacing block and the compressed air spacing block; the air guide hole is communicated with a vacuum adsorption area or a compressed air action area in the closed space. The technical scheme of the invention ensures that the pop-top can is not contacted with the wax-coated star wheel body made of metal materials when in wax coating work, thereby reducing the production rejection rate, simplifying the structure, reducing the maintenance cost, reducing the downtime and improving the production efficiency.

Description

Air cushion floating type non-contact waxing mechanism

Technical Field

The invention relates to an air cushion floating type non-contact waxing mechanism, and relates to the technical field of pop can generation.

Background

With the vigorous development of the pop can market, the demand increases year by year, the competition in the industry is increasingly intense, pop can manufacturers are promoted to continuously improve the production efficiency of the pop cans and reduce the production cost, so that the pop can production line has stronger market competitiveness, and the technical scheme is produced under the background.

The existing waxing star wheel works under the action of vacuum adsorption, the waxing rubber rollers driven by the two gears drive the pop can to rotate, the pop can needs to be in contact with the driving rubber rollers and the star wheel body made of metal materials when rotating, the situation of scratching the can body is easily caused under the situation, the scratched pop can be regarded as waste products in the subsequent production and is rejected, and the production rejection rate of the pop can is improved. In addition, due to the characteristics of the rubber material of the wax-coated rubber roller, the wax-coated rubber roller is very easy to be damaged in work, and needs to be replaced in time after being damaged, the equipment is stopped, the production is suspended, the production efficiency is reduced, and the production and maintenance cost is increased.

Disclosure of Invention

The invention aims to provide an air cushion floating type non-contact waxing mechanism, which can prevent a pop can from contacting a waxing star wheel body made of a metal material when waxing is carried out, reduce the scratching condition of the can body and reduce the production rejection rate.

The technical scheme for solving the technical problems is as follows: an air cushion floating type non-contact waxing mechanism comprises a waxing main shaft, a first expansion sleeve, a second expansion sleeve, an air distribution hub, a star wheel hub and a waxing star wheel; the first expansion sleeve and the second expansion sleeve are respectively arranged on the wax-coated main shaft, and the wax-coated main shaft sequentially penetrates through axial center holes of the first expansion sleeve and the second expansion sleeve; the air distribution hub is nested on the molded surface of the first expansion sleeve, the star wheel hub is nested on the molded surface of the second expansion sleeve, the wax-coated star wheel is fixedly connected with the star wheel hub, and air guide holes are formed in the edge of the wax-coated star wheel; a closed space is formed among the air distribution hub, the star wheel hub and the wax-coated star wheel; a vacuum spacing block and a compressed air spacing block are arranged in the closed space, and the closed space is divided into a vacuum adsorption area and a compressed air action area by the vacuum spacing block and the compressed air spacing block; the air guide hole is communicated with a vacuum adsorption area or a compressed air action area in the closed space.

As the preferable proposal of the air cushion floating type non-contact waxing mechanism, the device also comprises an installation vertical plate, a feeding guide rail, a guide rail bracket and a tank bottom baffle; the air distribution hub is fixedly connected with the mounting vertical plate, the feeding guide rail is connected with the mounting vertical plate, the guide rail bracket is connected with the mounting vertical plate, and the tank bottom baffle is connected with the feeding guide rail through the switching block.

The air cushion floating type non-contact waxing mechanism preferably comprises an end sealing cover, the end sealing cover is connected with the mounting vertical plate, and the waxing main shaft penetrates through a central hole of the end sealing cover.

As the preferable proposal of the air cushion floating type non-contact waxing mechanism, the utility model also comprises a supporting plate, a clamping plate, a supporting plate and a waxing adjusting plate; the supporting plate is positioned below the wax coating star wheel, and a wax coating working space for accommodating the pop can is formed between the supporting plate and the wax coating star wheel; the clamping plate is positioned on one side of the waxing working space, the supporting plate is connected between the clamping plate and the waxing adjusting plate, and a wax strip placing groove is formed between the supporting plate and the clamping plate; the wax coating adjusting plate is connected with the supporting plate.

As the optimal scheme of the air cushion floating type non-contact waxing mechanism, the device also comprises a transition block, an adjusting vertical plate, an adjusting cushion block and an adjusting block; one side of the transition block is connected with the wax-coated adjusting plate, and the other side of the transition block is connected with the adjusting vertical plate; the adjusting cushion block is located below the transition block, the adjusting block is located below the adjusting cushion block, the side portion of the adjusting block is connected with the adjusting vertical plate, and adjusting bolts are connected among the transition block, the adjusting cushion block and the adjusting block.

As the optimal scheme of the air cushion floating type non-contact waxing mechanism, the adjusting bolt sequentially penetrates through the adjusting block, the transition block and the adjusting cushion block, an upper fixing nut is arranged at the upper end of the adjusting block, a lower fixing nut is arranged at the lower end of the adjusting block, and the upper fixing nut and the lower fixing nut are both sleeved on the adjusting bolt.

As a preferable scheme of the air cushion floating type non-contact waxing mechanism, two vacuum spacing blocks are arranged, two compressed air spacing blocks are arranged, the vacuum adsorption area is formed between each vacuum spacing block and each compressed air spacing block, and the compressed air action area is formed between the two compressed air spacing blocks.

As a preferable scheme of the air cushion floating type non-contact waxing mechanism, a vacuum adjusting strip hole is formed on the vacuum spacing block, and a compressed air adjusting strip hole is formed on the compressed air spacing block.

As a preferable scheme of the air cushion floating type non-contact waxing mechanism, the vacuum adsorption area is connected with a vacuum adsorption pipeline, and the compressed air action area is connected with a compressed air pipeline.

As a preferred scheme of the air cushion floating type non-contact waxing mechanism, loading grooves are uniformly distributed on the waxing star wheel, and each loading groove is provided with one air guide hole; the air guide holes intermittently pass through the vacuum adsorption area or the compressed air action area along with the rotation of the wax-coated star wheel.

The invention is provided with a wax coating main shaft, a first expansion sleeve, a second expansion sleeve, an air distribution hub, a star wheel hub and a wax coating star wheel; the wax-coated main shaft sequentially penetrates through the axial center holes of the first expansion sleeve and the second expansion sleeve; the air distribution hub is nested on the molded surface of the first expansion sleeve, the star wheel hub is nested on the molded surface of the second expansion sleeve, the wax-coated star wheel is fixedly connected with the star wheel hub, and the edge of the wax-coated star wheel is provided with an air guide hole; a closed space is formed among the air distribution hub, the star wheel hub and the wax-coated star wheel; a vacuum spacing block and a compressed air spacing block are arranged in the closed space, and the closed space is divided into a vacuum adsorption area and a compressed air action area by the vacuum spacing block and the compressed air spacing block; the air guide hole is communicated with a vacuum adsorption area or a compressed air action area in the closed space. According to the technical scheme, the traditional wax coating rubber roller assembly is eliminated, the compressed air and the friction force provide the rotation power of the pop can during the wax coating operation, and the pop can is not contacted with the wax coating star wheel body made of the metal material during the wax coating operation, so that the scratch of the can body is greatly reduced, the production rejection rate is reduced, the structure is simplified, the maintenance cost is reduced, the downtime is reduced, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so that those skilled in the art can understand and read the present invention, and do not limit the conditions for implementing the present invention, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the functions and purposes of the present invention, should still fall within the scope of the present invention.

FIG. 1 is a schematic cross-sectional view of an air cushion floating type non-contact waxing mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic front view of an air cushion floating type non-contact waxing mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic view of the raised internal structure of the air cushion floating type non-contact waxing mechanism provided in the embodiment of the present invention with the waxing star wheel removed;

FIG. 4 is a schematic view of the action of the wax-coating star wheel and the wax strip in the air cushion floating type non-contact wax coating mechanism provided in the embodiment of the invention;

FIG. 5 is a schematic diagram of the operation of the wax-applying star wheel and wax strip in the air-cushion floating non-contact wax-applying mechanism according to another aspect of the present invention.

In the figure, 1, a wax coating main shaft; 2. a first expansion sleeve; 3. a second expansion sleeve; 4. an air distribution hub; 5. a star wheel hub; 6. coating wax on the star wheel; 7. an air vent; 8. a closed space; 9. a vacuum spacer block; 10. compressing an air spacer block; 11. a vacuum adsorption region; 12. a compressed air action zone; 13. installing a vertical plate; 14. feeding a guide rail; 15. a rail bracket; 16. a tank bottom baffle; 17. a support plate; 18. a splint; 19. a support plate; 20. waxing an adjusting plate; 21. waxing a working space; 22. wax strip placing grooves; 23. a cargo tank is arranged; 24. end sealing covers; 25. a transition block; 26. adjusting the vertical plate; 27. adjusting the cushion block; 28. an adjusting block; 29. adjusting the bolt; 30. an upper fixing nut; 31. and a lower fixing nut.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

It is known that the innovation of the present technical solution lies in that the air cushion floating type non-contact waxing mechanism itself, the peripheral auxiliary structures such as the loading structure, the unloading structure and the related connecting support can continue the traditional waxing equipment, and those skilled in the art know the specific structure, and the technical solution should not be considered as being disclosed to the above structure insufficiently, and the above structure does not affect the achievement of the object of the present invention.

As is well known, the term "nesting" in this embodiment means that one article a can be fitted over another cylindrical article B having a length due to the apertured design.

Referring to fig. 1, 2 and 3, an air cushion floating type non-contact waxing mechanism is provided, which comprises a waxing main shaft 1, a first expansion sleeve 2, a second expansion sleeve 3, an air distribution hub 4, a star wheel hub 5 and a waxing star wheel 6; the first expansion sleeve 2 and the second expansion sleeve 3 are respectively arranged on the wax-coated main shaft 1, and the wax-coated main shaft 1 sequentially penetrates through axial center holes of the first expansion sleeve 2 and the second expansion sleeve 3; the air distribution hub 4 is nested on the molded surface of the first expansion sleeve 2, the star wheel hub 5 is nested on the molded surface of the second expansion sleeve 3, the wax-coated star wheel 6 is fixedly connected with the star wheel hub 5, and an air guide hole 7 is formed in the edge of the wax-coated star wheel 6; a closed space 8 is formed among the air distribution hub 4, the star wheel hub 5 and the wax-coated star wheel 6; a vacuum spacing block 9 and a compressed air spacing block 10 are arranged in the closed space 8, and the closed space 8 is divided into a vacuum adsorption area 11 and a compressed air action area 12 by the vacuum spacing block 9 and the compressed air spacing block 10; the air vent 7 is communicated with a vacuum adsorption area 11 or a compressed air action area 12 in the closed space 8.

Specifically, the device also comprises a mounting vertical plate 13, a feeding guide rail 14, a guide rail bracket 15 and a tank bottom baffle 16; the air distribution hub 4 is fixedly connected with the mounting vertical plate 13, the feeding guide rail 14 is connected with the mounting vertical plate 13, the guide rail bracket 15 is connected with the mounting vertical plate 13, and the tank bottom baffle 16 is connected with the feeding guide rail 14 through a switching block. The installation vertical plate 13, the feeding guide rail 14, the guide rail bracket 15 and the tank bottom baffle 16 belong to peripheral auxiliary structures and mainly realize the feeding function of the pop-top can.

Specifically, the wax-coating device also comprises a supporting plate 17, a clamping plate 18, a supporting plate 19 and a wax-coating adjusting plate 20; the supporting plate 17 is positioned below the wax coating star wheel 6, and a wax coating working space 21 for accommodating the pop can is formed between the supporting plate 17 and the wax coating star wheel 6; the clamping plate 18 is positioned at one side of the waxing working space 21, the supporting plate 19 is connected between the clamping plate 18 and the waxing adjusting plate 20, a wax strip placing groove 22 is formed between the supporting plate 19 and the clamping plate 18, and a wax strip for waxing the zip-top can is placed in the wax strip placing groove 22; the wax adjustment plate 20 is connected to the support plate 19.

Specifically, two vacuum spacing blocks 9 are provided, two compressed air spacing blocks 10 are provided, the vacuum adsorption region 11 is formed between each vacuum spacing block 9 and each compressed air spacing block 10, and the compressed air action region 12 is formed between the two compressed air spacing blocks 10. The vacuum spacer 9 is formed with a vacuum regulating bar hole, and the compressed air spacer 10 is formed with a compressed air regulating bar hole. The vacuum adsorption area 11 is connected with a vacuum adsorption pipeline, and the vacuum adsorption pipeline provides negative pressure for the vacuum adsorption area 11. The compressed air application area 12 is connected with a compressed air pipeline, and the compressed air pipeline provides a compression space for the compressed air application area 12.

Referring to fig. 4 and 5, specifically, the pop can rotates to a vacuum adsorption area 11 along with the wax coating star wheel 6, vacuum adsorption of the pop can be achieved through the action of the air guide hole 7, the pop can rotates to a compressed air action area 12 along with the wax coating star wheel 6, compressed air can act on the surface of the pop can through the air guide hole 7, the pop can is in close contact with the wax strips, friction is generated among the pop can, the wax strips and the supporting plate 17 along with the rotation of the wax coating star wheel 6, power is provided for the rotation of the pop can, and therefore wax liquid in the wax strips is uniformly coated on the opening of the pop can.

Specifically, loading grooves 23 are uniformly distributed on the wax-coated star wheel 6, and each loading groove 23 is provided with one air guide hole 7; the air guide holes 7 intermittently pass through the vacuum adsorption area 11 or the compressed air action area 12 along with the rotation of the wax-coated star wheel 6. In addition, the wax-coating machine further comprises an end cover 24, wherein the end cover 24 is connected with the mounting vertical plate 13, and the wax-coating main shaft 1 penetrates through a central hole of the end cover 24. The end cover 24 realizes the packaging function of the internal structure of the air cushion floating type non-contact waxing mechanism.

In one embodiment of the air cushion floating type non-contact waxing mechanism, the air cushion floating type non-contact waxing mechanism further comprises a transition block 25, an adjusting vertical plate 26, an adjusting cushion block 27 and an adjusting block 28; one side of the transition block 25 is connected with the wax-coated adjusting plate 20, and the other side of the transition block 25 is connected with the adjusting vertical plate 26; the adjusting cushion block 27 is located below the transition block 25, the adjusting block 28 is located below the adjusting cushion block 27, the side portion of the adjusting block 28 is connected with the adjusting vertical plate 26, and an adjusting bolt 29 is connected among the transition block 25, the adjusting cushion block 27 and the adjusting block 28. The adjusting bolt 29 sequentially penetrates through the adjusting block 28, the transition block 25 and the adjusting cushion block 27, an upper fixing nut 30 is arranged at the upper end of the adjusting block 28, a lower fixing nut 31 is arranged at the lower end of the adjusting block 28, and the adjusting bolt 29 is sleeved with the upper fixing nut 30 and the lower fixing nut 31. The overall height of the clamping plate 18, the supporting plate 19 and the wax coating adjusting plate 20 can be adjusted through the adjusting bolt 29, so that the height of the wax strips can be adjusted, and the tightness of the wax strips and the pop can be changed. After the position of the adjustment bolt 29 is changed, the position of the adjustment bolt 29 is fixed by the upper and lower fixing

nuts

30 and 31, thereby providing stability.

Referring to fig. 4 and 5 again, the working principle of the present invention is as follows:

the pop can is transported to an air cushion floating type non-contact waxing mechanism by a production transmission line, and a closed space 8 is formed among an air distribution hub 4, a star wheel hub 5 and a waxing star wheel 6; a vacuum spacing block 9 and a compressed air spacing block 10 are arranged in the closed space 8, and the closed space 8 is divided into a vacuum adsorption area 11 and a compressed air action area 12 by the vacuum spacing block 9 and the compressed air spacing block 10; the air-guide hole 7 communicates with a vacuum suction region 11 or a compressed air action region 12 in the closed space 8. The pop can enters a vacuum adsorption area 11 in the wax coating star wheel 6 under the vacuum adsorption action of the wax coating star wheel 6 which is not less than-4.3 Psi, the pop can stably moves 72.5 degrees in the vacuum adsorption area and then enters a compressed air action area 12, the compressed air pressure is in the range of 10-15 Psi to apply pressure to the can body, the pop can generates self rotation under the combined action of the pressure of the compressed air and the contact friction force of the pop can and a wax strip, the pop can simultaneously revolves around a wax coating main shaft 1 under the driving of the wax coating star wheel 6, the can opening is in contact with a wax coating felt strip when the pop can rotates, so that wax liquid is uniformly coated on the can opening part of the pop can, the pop can moves about 1.5 circles under the contact of the wax strip, and the movement interval is about 95 degrees. After the waxing work is finished, the pop can enters the vacuum adsorption area 11 again, and the adsorption pressure transmits the pop can to the next working procedure for working. According to the technical scheme, the traditional wax coating rubber roller assembly is eliminated, the compressed air and the friction force provide the rotation power of the pop can during the wax coating operation, and the pop can is not contacted with the wax coating star wheel 6 body made of the metal material during the wax coating operation, so that the scratch of the can body is greatly reduced, the production rejection rate is reduced, the structure is simplified, the maintenance cost is reduced, the downtime is reduced, and the production efficiency is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An air cushion floating type non-contact waxing mechanism comprises a waxing star wheel (6), wherein air guide holes (7) are formed in the edge of the waxing star wheel (6), and the air cushion floating type non-contact waxing mechanism is characterized by further comprising a waxing main shaft (1), a first tensioning sleeve (2), a second tensioning sleeve (3), an air distribution hub (4) and a star wheel hub (5); the first expansion sleeve (2) and the second expansion sleeve (3) are respectively arranged on the wax-coated main shaft (1), and the wax-coated main shaft (1) sequentially penetrates through axial center holes of the first expansion sleeve (2) and the second expansion sleeve (3); the air distribution hub (4) is nested on the molded surface of the first expansion sleeve (2), the star wheel hub (5) is nested on the molded surface of the second expansion sleeve (3), and the wax-coated star wheel (6) is fixedly connected with the star wheel hub (5); a closed space (8) is formed among the air distribution hub (4), the star wheel hub (5) and the wax-coated star wheel (6); a vacuum spacing block (9) and a compressed air spacing block (10) are arranged in the closed space (8), and the closed space (8) is divided into a vacuum adsorption area (11) and a compressed air action area (12) by the vacuum spacing block (9) and the compressed air spacing block (10); the air guide holes (7) are communicated with a vacuum adsorption area (11) or a compressed air action area (12) in the closed space (8).

2. The air cushion floating type non-contact waxing mechanism according to claim 1, further comprising an installation vertical plate (13), a feeding guide rail (14), a guide rail bracket (15) and a tank bottom baffle plate (16); the air distribution hub (4) is fixedly connected with the mounting vertical plate (13), the feeding guide rail (14) is connected with the mounting vertical plate (13), the guide rail bracket (15) is connected with the mounting vertical plate (13), and the tank bottom baffle (16) is connected with the feeding guide rail (14) through a switching block.

3. The air cushion floating type non-contact waxing mechanism according to claim 2, further comprising an end cover (24), wherein said end cover (24) is connected with said mounting vertical plate (13), said waxing spindle (1) passes through the center hole of said end cover (24).

4. The air cushion floating type non-contact waxing mechanism according to claim 2, further comprising a supporting plate (17), a clamping plate (18), a supporting plate (19) and a waxing adjusting plate (20); the supporting plate (17) is positioned below the wax coating star wheel (6), and a wax coating working space (21) for accommodating the pop can is formed between the supporting plate (17) and the wax coating star wheel (6); the clamping plate (18) is positioned at one side of the waxing working space (21), the supporting plate (19) is connected between the clamping plate (18) and the waxing adjusting plate (20), and a wax strip placing groove (22) is formed between the supporting plate (19) and the clamping plate (18); the wax coating adjusting plate (20) is connected with the supporting plate (19).

5. The air cushion floating type non-contact waxing mechanism according to claim 4, characterized in that it further comprises a transition block (25), an adjusting vertical plate (26), an adjusting cushion block (27) and an adjusting block (28); one side of the transition block (25) is connected with the wax-coated adjusting plate (20), and the other side of the transition block (25) is connected with the adjusting vertical plate (26); the adjusting cushion block (27) is located below the transition block (25), the adjusting block (28) is located below the adjusting cushion block (27), the side portion of the adjusting block (28) is connected with the adjusting vertical plate (26), and adjusting bolts (29) are connected among the transition block (25), the adjusting cushion block (27) and the adjusting block (28).

6. The air cushion floating type non-contact waxing mechanism according to claim 5, characterized in that said adjusting bolt (29) passes through said adjusting block (28), transition block (25) and adjusting cushion block (27) in turn, the upper end of said adjusting block (28) is provided with an upper fixing nut (30), the lower end of said adjusting block (28) is provided with a lower fixing nut (31), said upper fixing nut (30) and said lower fixing nut (31) are both sleeved on said adjusting bolt (29).

7. Air cushion floating type non-contact waxing mechanism according to claim 1, characterized in that, there are two said vacuum spacing blocks (9) and two said compressed air spacing blocks (10), each said vacuum spacing block (9) and compressed air spacing block (10) forming said vacuum absorption area (11) therebetween, and two said compressed air spacing blocks (10) forming said compressed air action area (12) therebetween.

8. The air cushion floating type non-contact waxing mechanism according to claim 7, characterized in that said vacuum spacing block (9) is formed with vacuum adjusting bar holes and said compressed air spacing block (10) is formed with compressed air adjusting bar holes.

9. Air cushion floating type non-contact waxing mechanism according to claim 7, characterized in that the vacuum absorption area (11) is connected with vacuum absorption pipeline, and the compressed air action area (12) is connected with compressed air pipeline.

10. The floating non-contact waxing structure of air cushion according to claim 1, characterized in that the waxing star wheel (6) is distributed with loading slots (23), each loading slot (23) is provided with one air-guiding hole (7); the air guide holes (7) intermittently pass through the vacuum adsorption area (11) or the compressed air action area (12) along with the rotation of the wax-coated star wheel (6).