WO2021045335A1 - Sertisseuse de table - Google Patents

Sertisseuse de table Download PDF

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Publication number
WO2021045335A1
WO2021045335A1 PCT/KR2020/002234 KR2020002234W WO2021045335A1 WO 2021045335 A1 WO2021045335 A1 WO 2021045335A1 KR 2020002234 W KR2020002234 W KR 2020002234W WO 2021045335 A1 WO2021045335 A1 WO 2021045335A1
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WO
WIPO (PCT)
Prior art keywords
seaming
cam
lift
gear
roller
Prior art date
Application number
PCT/KR2020/002234
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English (en)
Korean (ko)
Inventor
조민우
김재중
Original Assignee
주식회사 이퀄스
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 주식회사 이퀄스 filed Critical 주식회사 이퀄스
Publication of WO2021045335A1 publication Critical patent/WO2021045335A1/fr

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D51/00Making hollow objects
    • B21D51/16Making hollow objects characterised by the use of the objects
    • B21D51/26Making hollow objects characterised by the use of the objects cans or tins; Closing same in a permanent manner
    • B21D51/30Folding the circumferential seam
    • B21D51/32Folding the circumferential seam by rolling
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D51/00Making hollow objects
    • B21D51/16Making hollow objects characterised by the use of the objects
    • B21D51/26Making hollow objects characterised by the use of the objects cans or tins; Closing same in a permanent manner
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D51/00Making hollow objects
    • B21D51/16Making hollow objects characterised by the use of the objects
    • B21D51/26Making hollow objects characterised by the use of the objects cans or tins; Closing same in a permanent manner
    • B21D51/2653Methods or machines for closing cans by applying caps or bottoms

Definitions

  • the present invention relates to a table cancimer, and more particularly, to a seaming device for sealing a can lid and a can body by bonding using a double winding method, and to a table cancimer used to seal and package a small amount of cans.
  • CanSeamer is used to contain various types of beverages such as ready-made fruit drinks and craft beer, and to seal packaging.
  • This cancimer is designed to support a simpler structure and convenient use so that it can be used to seal and package a small amount of cans, unlike a large can seaming device used in a general factory or facility line.
  • the method used to seal the can lid and the can body is the double seam method.
  • Seam is one of the methods of sealing cans.It is a method of sealing the can by mechanically rolling it in the state in which the curl of the can lid and the curl of the can body are combined for the combination of the can lid and the can body. It is called a double winding body because it is double-dried due to its structure.
  • the double winding machine includes a first winding roll and a second winding roll.
  • the first winding roll is operated to form the shape of the double winding, and then the second winding roll is press-sealed.
  • the quality of such a double winding is determined by the shape of the hook and the appropriateness of crimping of the can material.In order to prevent defective winding, proper management and maintenance of the winding roll are required during adjustment and operation, and it is necessary to use a high-quality public pipe. .
  • the technical problem to be achieved by the present invention has been devised to solve the conventional technology, and is to provide a table cancimer in which the structure of the seaming roller and the seaming head that controls the rotational motion of the seaming chuck is more simply configured and designed.
  • the technical problem to be achieved by the present invention is to provide a table cancimer capable of adjusting the position of a seaming roller to accommodate various can sizes.
  • the technical problem to be achieved by the present invention is to provide a table cancimer capable of improving the accuracy of sealing operation in order to minimize the defect rate of the finished product.
  • an embodiment of the present invention includes a seaming chuck, a seaming roller and a seaming lift in the table can seamer for automatically sealing the can body and the can lid, the seaming chuck according to the drive of the internal motor
  • a power module that provides power required for rotational motion of at least one of the seaming roller and the seaming lift
  • a deceleration module supporting the decelerated rotary motion by decelerating the rotary motion transmitted from the power module at a set rate
  • a seaming that automatically seals the can body and the can lid by rotating the seaming chuck based on the rotational motion transmitted from the power module, and causing the seaming roller to contact and decelerate rotation through the reduced rotational motion transmitted from the reduction module.
  • the power module includes: a rotation gear that is coupled to the motor and rotates in a direction set based on the power transmitted from the motor; And a shaft that is formed to be elongated in a vertical direction in a cylindrical shape and has one end connected to the rotation gear and rotates; wherein the reduction module is spaced apart from the lower surface of the rotation gear by a set distance, and the shaft is vertical
  • a speed reducer that is fastened in a state capable of rotational movement in a direction, and is fastened with the shaft to enable a reduced rotational movement reduced by a set ratio of the rotational movement of the shaft;
  • a cam portion which is eccentrically coupled to the reducer and performs decelerating rotation according to the decelerating rotational motion of the reducer; And a guide portion formed on a lower surface of the cam portion and having at least one cam roller guide hole formed on a lower surface thereof so that at least one cam roller support portion accommodated therein is sequentially linearly reciprocated.
  • the seaming chuck is fastened to the other end of the shaft and capable of rotating according to the rotational movement of the shaft; And a first seaming roller and a second seaming roller that are fastened with one end of the cam roller support part and sequentially linearly reciprocate in a direction set according to the decelerating rotational motion of the cam part, so that the can seaming operation can be stably performed.
  • It may be a table cancimer characterized in that it supports to be.
  • another embodiment of the present invention includes an outer gear having a set number of gears formed along an inner surface of the reduction module;
  • An inner gear that engages with the inner gear of the outer gear at a set number ratio includes one or more cam connection holes formed through at a set position, and rotates through power received from the power module; It is disposed at the lower end of the inner gear, and the upper surface is connected to the cam connecting rod inserted and fastened through the cam connection hole, and rotates according to the rotational motion of the inner gear, and inside and/or outward by a set length inside the lower surface.
  • a cam portion having a cam inner space accommodating the protrusion;
  • a reduction gear lower end that forms an outer casing of the reduction module and forms a lower end of the reduction module at a lower portion thereof, and is connected to a reduction gear including the outer gear, the inner gear and the cam part;
  • a cam roller support part receiving one end in the inner space of the cam part, the other end protruding to the outside of the outer gear, and performing linear reciprocation along the cam roller guide hole
  • the inner gear comprises:
  • a table cancimer characterized in that the number of gears as small as a set number compared to the number of gears formed along the inner surface of the outer gear are correspondingly formed to support a set decelerated rotational motion.
  • the seaming chuck rotates at a set ratio through a seaming chuck gear formed to engage with a shaft gear that receives the rotational motion of the shaft within the set interior of the reducer, and the center of the reducer It may be a table cancimer, characterized in that it is disposed in a place skewed toward one side in the.
  • the cam inner space accommodates all or a part of the cam roller support portion therein, but a constant formed along the protruding protrusions of a set pattern formed in the cam inner space of the cam portion for decelerating rotational motion.
  • the cam roller support portion may be a table cancimer, characterized in that guides to perform a linear reciprocating motion that approaches or moves away from the seaming chuck.
  • another embodiment of the present invention includes a roller position adjusting unit detachable from the lower end of the reducer, wherein the roller position adjusting unit includes a roller position adjusting groove that is a groove at a set interval; An end portion formed to receive the cam roller support portion which is selectively fastened to the lower end portion of the reducer through the reciprocating linear motion therein; And the other end fastened to enable rotational movement when the seaming roller and the seaming chuck are in contact with each other; including, adjusting the seaming start point of the seaming roller to accommodate cans of various sizes.
  • the roller position adjusting unit includes a roller position adjusting groove that is a groove at a set interval; An end portion formed to receive the cam roller support portion which is selectively fastened to the lower end portion of the reducer through the reciprocating linear motion therein; And the other end fastened to enable rotational movement when the seaming roller and the seaming chuck are in contact with each other; including, adjusting the seaming start point of the seaming roller to accommodate cans of various sizes.
  • the cam roller guide hole has a sensor attached to a predetermined area to examine the start point and/or end point of the seaming operation, and grasp the position of the seaming roller, to determine the accuracy of the seaming operation. It may be a table cancimer characterized in that it supports to improve.
  • the seaming module includes a seaming lift that moves in the axial direction of the can body toward the seaming chuck, wherein the seaming lift has one end of the can A lift body supporting a bottom portion of the body, and the other end portion supporting vertical movement of the seaming lift along an upper surface of the lift cam portion; A lift motor gear that rotates according to the driving of the lift motor; a lift reduction gear that meshes with and rotates at a set rate at a reduced speed; And a lift cam part that contacts the other end of the lift body and rotates according to the lift reduction gear; including, supporting the vertical movement of the lift that has uploaded the can body, and seaming work through the seaming chuck and the seaming roller. It provides a table cancimer, characterized in that it supports to be made precisely.
  • the lift cam unit has a step on the upper surface along the outer circumference in contact with the lift body, so that the lift body is moved away from the seaming chuck; Middle part; And it may be a table cancimer, characterized in that to form a; and a high-level portion closer to the second order toward the seaming chuck.
  • another embodiment of the present invention includes a lift ball plunger inside the other end of the lift body, while moving along the upper surface of the lift cam portion having a stepped position, the seaming chuck is It provides a table cancimer, characterized in that it supports to respond to the load of the can body when a vertical movement is approaching or moving away from the can body.
  • the use of the table cancimer is increased by designing a simpler and more efficient structure than the conventional seaming head by utilizing a cycloid reduction gear. I can.
  • the position of the seaming roller may be adjusted to accommodate various can sizes.
  • the accuracy of the sealing operation between the can lid and the can body may be improved by using the setting sensor and the end sensor, thereby minimizing the defect rate of the finished product.
  • FIG. 1 is an overall view showing the overall appearance and configuration of a table cancimer.
  • FIG. 2 is a view showing the configuration of a power module, a deceleration module, and a seaming module in the seaming head of the table cancimer.
  • FIG 3 is a cross-sectional view illustrating the internal structure of a reduction module including a rotating gear in the seaming head of the table cancimer.
  • FIG. 4 is a view showing a bottom surface of a reduction module in order to explain a guide part in the seaming head of the table cancimer.
  • FIG. 5 is a diagram illustrating an inner gear and an outer gear in the reduction module of the table cancimer.
  • FIG. 6 is a diagram illustrating a lower end of a reduction gear in the seaming head of the table cancimer.
  • FIG. 7 is a view showing a state in which the guide part is removed from the lower end of the reduction module in order to explain the shaft gear and the chuck gear in the reduction module of the table cancimer.
  • FIG. 8 is a cross-sectional view illustrating the internal structure of a reduction module in a table cancimer.
  • FIG. 9 is a diagram illustrating an inner space of a cam in a deceleration module of a table cancimer.
  • FIG. 10 is a cross-sectional view of a seaming chuck connected to a power module in the seaming head of the table cancimer.
  • FIG. 11 is a cross-sectional view in which a seaming roller and a seaming chuck are connected in a seaming head of a table cancimer.
  • FIG. 12 is a view for explaining the sealed packaging of the can body and the can lid using the double winding method.
  • FIG. 13 is a perspective view illustrating a structure of a seaming lift in a seaming module of a table cancimer.
  • FIG. 14 is a perspective view illustrating an inner space of a lift cam in the seaming module of the table cancimer.
  • FIG. 1 is an overall view showing the overall appearance and configuration of a table cancimer.
  • the table cancimer 10 includes a power module 100 and a deceleration module 200 and a seaming module 300 formed inside a main body, as shown in FIG. 1.
  • the power module 100 and the deceleration module 200 are means for transmitting power to the seaming module 300 and controlling the operation, and are located at the top of the seaming module 300, and generally refer to the term seaming head. It is also referred to as using.
  • the power module 100 provides the necessary power to the seaming module 300 according to the driving of the head motor a mounted therein.
  • the reduction module 200 supports the reduction rotation movement by decelerating the rotational movement transmitted from the power module 100 at a ratio set by a combination of the number of teeth and the gears. A detailed driving principle of the power module 100 and the deceleration module 200 will be described through internal views and cross-sectional views shown in FIGS. 2 and 14.
  • the seaming module 300 is composed of a seaming chuck 310, a seaming roller 330, and a seaming lift 350, and the seaming roller 330 ) Is disposed on both sides of the seaming chuck 310 as a center, and is formed of a first seaming roller 331 and a second seaming roller 333.
  • the sealing operation between the can lid 1 and the can body 4 is substantially performed through the seaming chuck 310 and the seaming roller 330.
  • the seaming chuck 310 is based on a rotational motion transmitted from the power module 100, and the seaming roller 330 is based on a reduced rotational motion transmitted from the reduction module 200, and the seaming chuck 310 )
  • the can lid 1 as shown in Fig. 1, can be divided into a curl portion 2 and a panel portion 3, which are rolled and sealed together with the can body 4 through a seaming operation, and the can body ( 4) It can also be divided into a flange portion (5), the can body (6) and the bottom portion (7) that is rolled and sealed together with the can lid (1).
  • the table cancimer 10 which automatically seals the can lid 1 and the can body 4 including the seaming chuck 310, the seaming roller 330 and the seaming lift 350
  • the can lid 1 is attached to the seaming chuck 310
  • the can body 4 is attached to the seaming lift 350.
  • the seaming lift 350 to which the can body 4 is attached is vertically raised and combined with the can lid 1 attached to the seaming chuck 310, it is located in both directions of the seaming chuck 310, respectively.
  • the seaming roller 330 is horizontally moved toward the seaming chuck 310 and rotated at a reduced speed, thereby performing a sealing operation between the can lid 1 and the can body 4.
  • the sealing operation is through vertical motion, horizontal motion, and rotational motion between the seaming chuck 310, the seaming roller 330, and the seaming lift 350, and the can lid 1 and the can body ( 4) It corresponds to the double revolving system of the liver.
  • FIG. 2 shows the configuration of a power module, a deceleration module, and a seaming module in a seaming head of a table cancimer
  • FIG. 3 shows an internal structure of a deceleration module including a rotation gear in the seaming head of a table cancimer
  • 4 is a bottom surface of a deceleration module for explaining a guide part in the table cancimer seaming head
  • FIG. 5 is a view for explaining an inner gear and an outer gear in the deceleration module of the table cancimer.
  • the power module 100 and the deceleration module 200 connected to and coupled to the seaming module 300 at the upper end of the seaming module 300. )can confirm.
  • the power module 100 includes a rotating gear 110 and a shaft 130, which can be seen in FIG. 3.
  • the rotation gear 110 is fastened with the head motor (a) to rotate in a direction set based on the power transmitted from the head motor (a), and the shaft 130 is shown in FIG. As shown, it is formed long in the vertical direction of the cylindrical shape, and one end is connected to the rotation gear to rotate.
  • the reduction module 200 includes a reducer 210, a cam part 230, a cam roller support part 250, a cam roller guide hole 270, and a guide part 290, which can be confirmed through FIGS. I can.
  • the reducer 210 includes an outer gear 211, an inner gear 213 and a cam part 230, and is fastened with the shaft 130 to reduce the rotational motion of the shaft 130, thereby reducing the rotation speed.
  • the reduction ratio of the reducer 210 may be set by the number of teeth of the outer gear 211 and the inner gear 213.
  • the number of teeth smaller than the number of gears formed along the inner surface of the outer gear 211 is set on the outer side, and the rotational movement of the shaft 130 is reduced to reduce the rotational movement. Not only does it support eccentric rotational motion.
  • the outer gear 211 and the inner gear 213 according to an embodiment of the present invention can be confirmed through FIG. 5.
  • the outer gear 211 forms the number of teeth of a gear therein, and meshes with the number of teeth of a gear formed outside the inner gear 213.
  • the number of teeth of the gear formed on the outer side of the inner gear 213 is at least one smaller than the number of teeth of the gear formed inside the outer gear 211, so as to reduce the rotational movement of the shaft 130, as well as the eccentric rotational movement. Do it.
  • the inner gear 213 includes at least one cam connection hole 213a formed therethrough along a circumference thereof, and a cam part 230 disposed at the lower end of the inner gear 213 through the cam connection hole 213a. ) And transmits the reduced rotational motion to the cam unit 230.
  • the shaft fastening hole 215 formed in the inner center of the inner gear 213 includes a ball bearing 217.
  • the cam unit 230 disposed below the inner gear 213 can be confirmed.
  • the cam unit 230 performs a decelerating rotation according to the decelerating rotational movement of the reducer 210, and includes a groove corresponding to the cam connection hole 213a therein.
  • a guide part 290 is formed at the lower end of the cam part 230, and the guide part 290 includes one or more cam roller guide holes 270 formed in a horizontal plane, and is attached to the seaming roller 330. , By accommodating the cam roller support portion 250 connected to the cam portion 230 therein, the cam roller support portion 250 is guided to sequentially linearly reciprocate.
  • the cam roller guide hole 270 may be formed on both sides of the center of the lower surface of the guide part 290 to accommodate the first seaming roller 331 and the second seaming roller 333. .
  • the cam roller support part 250 is, according to an embodiment of the present invention, as shown in Figs. 3 and 4, by attaching an elastic member 251 to one or both sides, the cam roller guide hole 270 ), so that the linear reciprocating movement of the cam roller support part 250 is made more effectively.
  • the cam roller support part 250 is inwardly toward the seaming chuck 310 by contacting the protruding protrusion 231 formed in the cam inner space 231a of the cam part 230 to rotate at a reduced speed. After moving and the contact with the protruding protrusion 231 is released, the cam roller support part 250 moves outward and returns to its original position.
  • the elastic member 251 is a means for supporting horizontal movement inward or outward of the cam roller support part 250. When the contact between the cam roller support unit 250 and the protruding protrusion 231 is released, the elastic member 251 of the cam roller support unit 250 returns to its original position more quickly.
  • the cam roller guide hole 270 may be equipped with a sensor therein.
  • the sensor can be used as a setting sensor and an end sensor.
  • the setting sensor stops the seaming roller 330 just before the seaming roller 330 approaches the seaming chuck 310 at a starting point. By setting, the optimum position of the sealing operation such as the height of the seaming roller 330 is checked.
  • the cam roller guide hole 270 further includes an end sensor to determine and notify the end point when one cycle of the work is over. The setting sensor and the end sensor support to further improve the accuracy of the sealing operation between the can lid 1 and the can body 4.
  • the sensor may utilize a photo sensor, and the photo sensor (photo sensor) is also called a photo interrupter, and is a combination of a light-emitting element and a light-receiving element, and is a transmissive photo sensor and a reflective type. There is a photosensor.
  • the cam connecting rod 213b has a narrower cross-section than the cam connecting hole 213a, so that the reduced rotational motion of the inner gear 213 is In order to be transmitted to the cam unit 230, it is set to be transmitted by eccentric rotation.
  • the width of the fragment of the cam connection hole 213a is set to X as shown in FIG. 5
  • the width of the cross section of the cam connection rod 213b may be set to Y less than X. .
  • FIG. 6 is a diagram illustrating a lower end of a reduction gear in the seaming head of the table cancimer.
  • the seaming roller 330 may reassign its start position. Through the readjustment of the starting position of the seaming roller 330, it is possible to accommodate cans of more various sizes.
  • the seaming module 300 is coupled with a first roller position adjusting part 331a and a second roller position adjusting part 333a at the lower end of the reducer 291, and the seaming roller 330 and the Connect the seaming module 300.
  • the first roller position adjustment unit 331a is coupled to the first seaming roller 331 on one side
  • the second roller position adjustment unit 333a is on one side. It is combined with the roller 333.
  • the first roller position adjusting part 331a and the second roller position adjusting part 333a each have a first roller position adjusting groove 331b and a second roller position adjusting groove 333b including grooves at regular intervals. It is included so that the positions of the first seaming roller 331 and the second seaming roller 333 can be adjusted according to the can size. For example, when adjusting the starting positions of the first seaming roller 331 and the second seaming roller 333 outward, the first roller position adjusting groove 331b and the second roller position adjusting groove 333b The positions of the first roller position adjusting part 331a and the second roller position adjusting part 331b are adjusted based on the groove formed at the outermost side.
  • FIG. 7 is a view showing a state in which the guide part is removed from the lower end of the reduction module in order to explain the shaft gear and the chuck gear in the reduction module of the table cancimer.
  • the shaft 130 is a shaft gear ( Including 131), through the shimming chuck gear 311 engaged with the shaft gear 131 and performing 1:1 rotational motion, rotational motion according to the power of the head motor a is transmitted to the seaming chuck 310 as it is. Deliver.
  • the seaming chuck 310 is coupled to the seaming chuck gear 311 through a connecting means including a bearing.
  • FIG. 8 is a cross-sectional view illustrating the internal structure of a reduction module in a table cancimer.
  • the reduction module 200 includes the outer gear 211 and the inner gear 213 as a combination between gears for reducing the rotational motion of the rotation gear 110, and ,
  • the reduction ratio may be set according to the number of gear teeth of the outer gear 211 and the inner gear 213.
  • the cam part 230 is disposed below the outer gear 211 and the inner gear 213, and the cam part 230 includes the cam connection hole 213a and a cam connection rod formed inside the inner gear 213. It is connected to the inner gear 213 through 213b), and the reduced rotational motion of the inner gear 213 is transmitted to the cam unit 230.
  • the guide part 290 is disposed at the lower end of the cam part 230, and the reducer lower end 291 is formed at the lower end of the guide part 290.
  • the cam roller support part 250 connects the cam part 230 and the seaming roller 330 as shown in FIG. 8.
  • the cam roller support part 250 has one end received in the inner space of the cam part 230, and the other end protrudes to the outside of the reducer 210, and linearly reciprocates along the cam roller guide hole 270. Exercise.
  • FIG. 9 is a diagram illustrating an inner space of a cam in a reduction module of a table cancimer
  • FIG. 12 is a diagram illustrating a sealed packaging between a can lid and a can body using a double winding method.
  • the cam part 230 accommodates the cam roller support part 250 therein, and the cam roller A cam inner space 231a that guides the horizontal movement of the support part 250 is formed.
  • the cam inner space 231a includes protrusions 231 on both side walls to form a curved inner surface. Therefore, when the cam unit 230 is rotated at reduced speed by receiving the reduced rotational motion of the inner gear 213, the horizontal movement of the cam roller support unit 250 accommodated in the cam inner space 231a is naturally induced. .
  • the protruding protrusion 231 formed in the cam inner space 231a contacts the cam roller support 250 through a decelerating rotational motion of the cam unit 230
  • the reduced rotational motion of the cam unit 230 Makes the cam roller support part 250 move horizontally toward the seaming chuck 310.
  • the protrusion 231 formed in the cam inner space 231a is released from contact with the cam roller support part 250 due to the decelerating rotational motion of the cam part 230, the cam roller support part 250 is at its original position.
  • the seaming roller 330 coupled with the cam roller support part 250 comes into contact with the seaming chuck 310, and the cam roller support part 250 When) returns to the original position, the contact between the seaming roller 330 and the seaming chuck 310 is released.
  • the curl portion 2 of the can lid 1 and the flange portion 5 of the can body 4 contact each other
  • the first seaming roller 331 contacts and rotates with the seaming chuck 310 through a horizontal motion to form a double winding shape
  • the second seaming roller When 333 is in contact with the seaming chuck 310 and rotates through horizontal movement, as shown in (c), a double winding is formed by compression sealing.
  • securing an appropriate amount of overlap z can improve the sealing property of the can.
  • FIG. 10 is a cross-sectional view of a seaming chuck connected to a power module in the seaming head of the table cancimer.
  • the seaming chuck 310 is directly connected to the seaming chuck gear 311.
  • the shimming chuck gear 311 engages 1:1 with the shaft gear 131 for receiving the rotational motion of the shaft 130. Accordingly, the shimming chuck 310 rotates according to the rotational movement of the shaft 130 which rotates by receiving the power of the head motor a mounted therein.
  • FIG. 11 is a cross-sectional view in which a seaming roller and a seaming chuck are connected in a seaming head of a table cancimer.
  • the reducer 210 is formed around the shaft 130, and the reducer 210 has the outer gear ( 211), the inner gear 213 and the cam part 230 are included, and the guide part 290 including the cam roller guide hole 270 is disposed at a lower end of the cam part 230.
  • the lower end of the guide part 290 is formed with the reducer lower end 291 directly coupled with the first roller position adjusting part 331a and the second roller position adjusting part 333a.
  • the seaming chuck 310 coupled through a connecting means including the seaming chuck gear 311 and a bearing at the lower end of the reducer lower end 291, the first roller position adjusting part 331a, and the second roller position adjusting
  • the seaming roller 330 directly coupled to the portion 333a is disposed.
  • FIG. 13 is a perspective view illustrating a structure of a seaming lift in a seaming module of a table cancimer.
  • the seaming module 300 includes a seaming lift 350 that moves toward the seaming chuck 310 in the axial direction of the can body 4.
  • the seaming lift 350 includes a lift shaft 351, a lift motor gear 352, a lift reduction gear 353, a lift body 355, and a lift cam part 357.
  • the lift body 355 supports the bottom portion 7 of the can body 4 at one end, and the other end supports vertical movement of the seaming lift 350 along the upper surface of the lift cam unit 357.
  • the lift reduction gear 353 is engaged with the lift motor gear 352 which rotates according to the driving of the lift motor b and rotates at a set rate to support the reduction rotation movement of the lift cam unit 357. .
  • the upper surface of the lift cam part 357 has a different inclination, and contacts the other end of the lift body 355. Accordingly, the lift body 355 supports vertical movement of the seaming lift 350 along different slopes of the upper surface of the lift cam part 357.
  • the lift body 355 includes a lift ball plunger (355a) inside the other end, while moving along the upper surface of the lift cam part 357 having a stepped, vertical movement toward or away from the seaming chuck 310 At the time, it supports to respond to the load of the can body 4.
  • FIG. 14 is a perspective view illustrating an inner space of a lift cam in the seaming module of the table cancimer.
  • the lift cam part 357 has a step on the upper surface along the outer circumference in contact with the lift body 355, as shown in FIG. A lower portion 357a distant from the seaming chuck 310, a middle portion 357b first approached toward the seaming chuck 310, and a higher portion 357c second closer toward the seaming chuck 310 are formed.

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  • Mechanical Engineering (AREA)
  • Transmission Devices (AREA)

Abstract

Un mode de réalisation de la présente invention concerne une tête de sertissage pour commander le mouvement de rotation d'un rouleau de sertissage et d'un mandrin de sertissage, et concerne une sertisseuse de table qui utilise un engrenage de réduction cycloïdal de telle sorte qu'une tête de sertissage ayant une structure plus simple et plus efficace qu'une tête de sertissage classique soit conçue, ce qui permet une utilisation accrue. De plus, la sertisseuse de table permet de régler la position de départ d'un rouleau de sertissage de façon à correspondre à des boîtes de tailles diverses. En outre, la sertisseuse de table utilise un capteur afin d'améliorer la précision d'étanchéité et d'emballage d'un corps de boîte et d'un couvercle de boîte, ou utilisant une partie came, ayant une partie étagée, également pour un soulèvement de sertissage, de telle sorte que le taux de défauts des produits finis puisse être réduit au minimum.
PCT/KR2020/002234 2019-09-02 2020-02-17 Sertisseuse de table WO2021045335A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
KR1020190108105A KR102331368B1 (ko) 2019-09-02 2019-09-02 테이블 캔시머
KR10-2019-0108105 2019-09-02

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WO2021045335A1 true WO2021045335A1 (fr) 2021-03-11

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