KR101692340B1 - Can support device for can seaming apparatus - Google Patents

Abstract

The present invention relates to a can support device for a can seaming apparatus. The can support device comprises: a fixated case which has a hollow shape and provided with a support protrusion on an upper portion thereof; a lifting unit mounted on the fixated case, is operated to be lifted up and down at a time of operating a hydraulic/pneumatic cylinder or an eccentric cam, and is provided with a guide flow path having a spiral therein; support adjustment unit coupled to the guide flow path of the lifting unit, is provided with a support coupling flow path in a vertical direction therein, and is provided with a position adjustment portion on one side thereof; a support lifting unit disposed on the support coupling flow path of the support adjustment unit, is provided with a coupling groove coupled or separated from by a distance at the time of operating the position adjustment portion in a vertical direction on one side of the outer surface thereof, and is provided with a support fixating portion; and a can support unit fixated to the upper portion of the support fixing portion constituting the support lifting unit through a bolt or screw, and is provided with a can support groove to support a can therein. According to the present invention, it is possible to stably lift and lower the can placed on the can support unit at the time of operating the hydraulic/pneumatic cylinder or the eccentric cam, and it is possible to replace the can support unit and the support lifting unit corresponding to a change in diameter through a simple operation of the position adjustment unit at the time of changing the diameter of the can; thereby increasing work efficiency and shortening replacement work time.

Description

[0001] The present invention relates to a can supporting device for a can seaming device,

The present invention relates to a can seaming apparatus, and more particularly, to a can seaming apparatus capable of stably lifting and lowering a can placed on an upper portion of a can supporting portion, To a can supporting means for a can-seam device.

Generally, cans are used for packaging various contents such as drinks and foods, and there are various methods for manufacturing the cans.

As a typical example of the method, a can is first formed by winding or bending a plate material having a predetermined length to form a cylinder or a square barrel, and then a can or a square plate- And then a disk or a rectangular plate is integrally sealed together with the can.

Here, the most typical method for sealing the lid on the upper and lower openings of the can body is to perform a so-called seaming operation in which the rim of the lid is wound around the outer periphery of the container and sealed.

The seaming operation typically includes a lower body 20, a seaming head 30 having a plurality of shooting rolls 32 provided at a predetermined height above the lower body 20, (40) for rotating the can (60) and a can supporting means (50) for supporting the can (60) up and down while lifting up and down.

That is, after the can is mounted on the upper part of the can supporting means 50, the canning apparatus 10 moves the can to the seaming head 30 through the operation of the can supporting means 50, The sealing cover 32 of the seaming head 30 is used to seal the lid 62.

The can supporting means 50 for raising and lowering the can 60 to the upper portion includes a fixed case 51, an elevating member 52 mounted on the fixed case 51 and operated to move up and down, An auxiliary lifting member 54 coupled to the auxiliary lifting member 52 and a can supporting portion 55 fixed to the upper portion of the auxiliary lifting member 54 and fixing the can 60.

That is, the can supporting means 50 places the can 60 to the can supporting portion 55 and then transmits the can 60 to the seaming head 30 through the raising and lowering operation of the elevating member 52 (See figure 2)

The cansupporting means 50 separates the auxiliary lifting member 54 coupled to the elevating member 52 from the can supporting portion 55 when the diameter of the can 60 is changed, And an auxiliary lifting member 54 to which the can supporting portion 55 is coupled.

However, when the auxiliary lifting member 54 and the can supporting member 55 are separated from the lifting member 52, it is possible to separate the secondary lifting member 54 and the can supporting member 55 through the rotary operation at least ten times along the variable height h, It is required to perform the rotation operation at least ten times in accordance with the variable height h so that the replacement operation takes a long time and the working efficiency is deteriorated due to the delay of the replacement operation.

There is a problem in that it takes a lot of time to adjust the position of the auxiliary lifting member 54 mounted on the lifting member 52 after the replacement of the auxiliary lifting member 54 and the can supporting member 55. [

Korea Registered Utility Model No. 0451876 Korean Patent Publication No. 056881

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for operating a can which is seated on an upper portion of a can supporting portion, It is an object of the present invention to provide a can supporting means for a can seaming apparatus which allows the support elevating portion and the can supporting portion to be replaced by a simple operation of the position adjusting portion.

It is also an object of the present invention to provide a can support means for a can seaming apparatus which can form a guide flow path of a support regulating portion eccentrically on a flat surface so that the support regulating portion can be positioned on the same job line when pressurized through a position regulating portion.

In order to achieve the above object, the can supporting means for the can seaming apparatus of the present invention comprises: a lower body; a seaming head having a plurality of shooting rolls provided at a predetermined height above the lower body; Wherein the can supporting means comprises a hollow case and a support jaw formed on the upper side thereof; A lifting unit mounted inside the fixed case and operated to move up and down during operation of the oil / air cylinder or the eccentric cam, and having a guide channel provided with a spiral therein; A support regulating portion coupled to the guide flow path of the elevating portion, having a support coupling flow path formed therein in a vertical direction, and a position regulating portion mounted on the upper side; A support lifting and lowering part in which a support fixing part is mounted on an upper part of the outer side surface of the support adjusting part, And a can supporting part which is fixed to the upper part of the supporting fastener constituting the support elevating part through bolts or screws and has a can supporting groove to support the can.

Here, the position adjusting part may be mounted symmetrically on both sides of the support adjusting part.

A fixing pin mounting groove communicating with the guide channel of the support adjusting portion and having a step formed therein; A fixing pin mounted in the fixing pin mounting groove and operating in a horizontal direction; A pin pressing spring whose one side is supported by the step on the fixing pin mounting groove while the opposite side is supported by the fixing pin while the fixing pin is inserted into the rod; Wherein the fixing pin is rotatably mounted around a hinge portion coupled to the hinge insertion groove of the support adjusting portion, and while the outer surface of the fixing pin mounting groove is in close contact with the supporting adjusting portion, An operating knob to be inserted into the coupling groove of the elevating portion; And an operation spring which is attached to the hinge insertion groove of the support adjusting portion and is engaged with the hinge portion to provide elasticity to the operation knob.

delete

In addition, the support coupling channel of the support adjuster is eccentrically formed so that the center of the support lifting and lowering part is located on the same line when the operation pin is pressed by the operation knob constituting the position adjusting part, The inner surface on which the fixing pin mounting groove is formed is formed larger than the diameter of the supporting elevating portion and the inner surface on the opposite side is formed to have the same diameter as the supporting elevating portion.

According to the present invention, it is possible to stably move the can which is seated on the upper part of the can supporting part, when the oil, air pressure or eccentric cam is operated, Since it can be replaced by a simple operation of the position control unit, the working efficiency is increased and the replacement operation time can be reduced.

In addition, the guide channel of the support adjusting part is formed eccentrically on the flat surface so that the support adjusting part can be positioned on the same collinear line when pressing through the position adjusting part, and the defective rate can be reduced when the can lid is sealed by the opening part of the can .

1 is a front view showing a conventional can-seaming device;
2 is a perspective view showing a can supporting means for a conventional can-shimming apparatus;
3 and 4 are front sectional views showing an operating state of a can support means for a conventional can-seaming device.
5 is a front view showing a can seaming device according to the present invention;
6 is a perspective view showing can support means for a can seam device according to the present invention;
7 is a front sectional view showing a can support means for a can seam device according to the present invention.
8 is a front sectional view showing an operating state of the can support means for the can seam device according to the present invention.
9 is a plan sectional view showing an operating state of a position adjusting section constituting a can supporting means for a can seaming apparatus according to the present invention;
10 is a plan sectional view showing another embodiment of a support adjusting section constituting a can supporting means for a can seaming apparatus according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

FIG. 5 is a front view showing a can seaming apparatus according to the present invention, FIG. 6 is a perspective view showing a can supporting means for a can seaming apparatus according to the present invention, and FIG. FIG. 7 is a front sectional view showing a can supporting means for a can seaming apparatus according to the present invention, FIG. 8 is a front sectional view showing an operating state of a can supporting means for a can seaming apparatus according to the present invention, 10 is a plan sectional view showing another embodiment of the support adjusting section constituting the can supporting means for the can seaming apparatus according to the present invention.

The can supporting apparatus 500 for a can seaming apparatus according to the present invention comprises a lower body 200 and a seaming head 300 having a plurality of shooting rolls 320 provided at a predetermined height above the lower body 200, , And a driving means (400) for rotating the seaming head (300).

That is, the can supporting means 500 for the can shimming apparatus is configured such that the edge of the can lid 620 is automatically moved along the circumferential direction of the can 600 in a state in which the can lid 620 is placed on the upper surface of the can 600 To the can-seaming device 100. The can-

Here, the lower body 200, the seaming head 300 having the shooting roll 320, and the driving means 400 constituting the can-seaming device 100 may include a known can seaming device 100 And a separate explanation will be omitted.

In the present invention, the can supporting means 500 having a feature of supporting the can 600 up and down as well as being supported is described. The can supporting means 500 includes not only the illustrated drawing but also a known can sealing Devices. ≪ / RTI >

The can supporting means 500 includes a fixed case 510, an elevating portion 520, a supporting adjusting portion 530, a position adjusting portion 540, a supporting elevating portion 550, and a can supporting portion 560 .

The fixed case 510 is disposed at a lower portion thereof and supports the can supporting means 500.

The fixing case 510 is hollow and has a predetermined height, and a supporting step 512 having a predetermined thickness is formed on the upper part.

Here, the fixing case 510 is formed in a conical shape having a larger diameter from the upper part to the lower part, and the supporting step 512 is formed as a circular plate.

At this time, the fixing case 510 and the supporting step 512 may be integrally formed as shown in the drawing.

The elevating portion 520 is mounted inside the fixed case 510 and is operated to move up and down when the oil / pneumatic cylinder or the eccentric cam is operated.

The elevating and lowering unit 520 is cylindrical and has a guide passage 521 formed with a spiral 522 therein and a raised and supported part 523 supported by the supporting step 512 is formed in a disc shape.

That is, the lifting unit 520 is mounted inside the stationary case 510 to operate the up / down operation of the hydraulic / pneumatic cylinder or the eccentric cam.

The support adjusting part 530, the position adjusting part 540, the supporting elevating part 550 and the can supporting part 560 located at the upper part of the elevating part 520 interlockingly operate to ascend or descend.

The helical line 522 is formed on the inner surface of the upper portion of the guide passage 521 by a predetermined interval.

The support adjusting part 530 is coupled to the inside of the lifting part 520.

That is, the support adjusting portion 530 has a cylindrical shape, and a support coupling passage 531 is formed in the vertical direction, and a spiral engagement portion 533 is formed at a portion corresponding to the spiral 522 of the lift portion 520 do.

At this time, the upper part of the support adjusting part 530 is supported by the elevating support part 523 of the elevating part 530 and is formed into a disk shape for smooth operation of the position adjusting part 540.

The support coupling passage 531 of the support adjuster 530 is positioned at the center of the support lift 550 when the fixture pin 542 is pressed by the operation handle 544 of the position adjuster 540 to be hounded, (C1) and the fixing pin (542) may be positioned on the same line.

That is, the support coupling passage 531 is formed such that the inner surface of the support pin attachment groove 541 is formed larger than the diameter of the support support portion 550 with respect to the center C2, 550 so as to be formed on the same line as the support lifting and lowering portion 550, the seaming head 300 and the driving means 400 when the can lid 620 is sealed in the opening of the can 600, It is.

The position adjusting unit 540 adjusts the position of the support elevating unit 550 mounted on one side or both sides of the support adjusting unit 530 and coupled to the can supporting unit 560.

The position adjusting unit 540 includes a fixing pin mounting groove 541 formed in the support adjusting unit 530, a fixing pin 542 mounted in the fixing pin mounting groove 541 and operating in the horizontal direction, A pin pressing spring 543 mounted on the fixing pin mounting groove 541 and an operating knob 544 mounted on the supporting adjusting portion 530 such that one end of the pin can be rotated, And an operating spring 545 mounted on the hinge portion constituting the operating knob 544. [

The fixing pin mounting groove 541 is communicated with the supporting coupling flow path 531 of the support adjusting portion 530 and a step portion 541a is formed therein.

Further, the fixing pin 542 is mounted in the fixing pin mounting groove 541 and operated in the horizontal direction.

That is, the fixing pin 542 is engaged with the engaging groove 551 of the elevating part 550 to be horizontally pressed when the operating lever 544 is pressed to fix the elevating part 550, So that the position of the elevating unit 550 can be adjusted by separating from the engaging groove 551 of the elevating and lowering unit 550.

One end of the pin pressing spring 543 is supported on the step portion 541a of the fixing pin mounting groove 541 while the fixing pin 542 is inserted into the rod and the opposite side is supported on the fixing pin 542 .

That is, the pin pressing spring 543 is compressed when the operating knob 544 is pressed, and when the operating knob 544 is retracted, the fixing pin 542 presses the engaging groove 551 ). ≪ / RTI >

The operating knob 544 is rotatably mounted on a hinge portion 544a coupled to the hinge insertion groove 532 of the support adjusting portion 530. [

That is, the operating knob 544 rotates about the hinge portion 544a to cover the outer surface of the fixing pin mounting groove 541 when coming into close contact with the support adjusting portion 530, So that the rod of the fixing pin 542 is inserted into the coupling groove 551 of the support lifting and lowering portion 550.

The operating spring 545 is attached to the hinge insertion groove 532 of the support adjusting portion 530 and is engaged with the hinge portion 544a to provide elasticity to the operating knob 544. [

The support elevating portion 550 is disposed in the support coupling passage 531 of the support adjusting portion 530 and is operated to move up and down in the vertical direction.

The support lifting and lowering unit 550 has a predetermined height and diameter, and has an engagement groove 551 formed in a vertical direction at an outer surface thereof and a support fixture 552 mounted thereon.

That is, the support elevating and lowering unit 550 is mounted on the support coupling channel 531, and then is lifted and lowered according to the can 600 placed on the can supporting unit 560 coupled to the upper part of the support fixture 552 And is fixed through the rear position adjuster 540.

At this time, the engaging groove 551 is formed with a predetermined interval so that the engaging groove 551 can accurately engage with the fixing pin 542 of the position adjusting unit 540 even when the position changing unit 540 is moved up and down. .

That is, when the engaging groove 551 has a predetermined section and is engaged with the position adjusting unit 540 according to the change of the position of the supporting and elevating unit 550, the engaging groove 551 can be easily coupled will be.

The can supporting portion 560 is fixed to the upper portion of the supporting fixture 552 constituting the supporting elevating portion 550 through bolts or screws.

The can supporting portion 560 has a predetermined thickness and diameter, and a can supporting groove 561 is formed therein to support the can 600 therein.

That is, the can supporting portion 560 is formed with a can supporting groove 561 so as to support a lower portion of the can 600 on the upper portion of the plate plate.

At this time, the can support groove 561 may be formed in various shapes such as a circle, a rectangle, and a polygonal shape depending on the shape of the can 600, and the can support portion 560 may be formed of a supporting elevation portion 550, Screws or the like.

Hereinafter, an embodiment of the can supporting means for the can seaming device constituted as described above will be described with reference to the following drawings.

First, a fixed case 510 is formed in which a disk-like supporting step 512 is formed in an upper part of a cone shape having a hollow shape and having a larger diameter from the upper part to the lower part.

A guide passage 521 having a spiral 522 formed therein is formed in the cylindrical case 510 and an elevation support portion 523 supported by the support tab 512 is formed in a disc shape The lifting portion 520 is mounted.

A supporting coupling flow path 531 is formed in the inside of the elevating part 520 in a cylindrical shape and a helical connecting part 533 is formed in a part corresponding to the helix 522 of the elevating part 520, The support adjuster 530 is mounted.

A fixing pin mounting groove 541 communicating with the guide channel 531 of the support adjusting portion 530 at one side of the support adjusting portion 530 and having a step portion 541a formed therein, (541) of the fixing pin mounting groove (541) while one end of the fixing pin (542) is inserted into the rod and the other end of the fixing pin (542) Is rotatably mounted around a pin pressing spring 543 supported by a fixing pin 542 and a hinge portion 544a coupled to a hinge insertion groove 532 of the support adjusting portion 530, The fixing pin 542 is pressed while the outer surface of the fixing pin mounting groove 541 is wrapped around the adjusting portion 530 so that the rod of the fixing pin is inserted into the coupling groove 551 of the supporting and elevating portion 550 The hinge portion 544a is engaged with the hinge insertion groove 532 of the support adjusting portion 530, Including the operating spring 545 for providing elasticity to the operating handle 544 is mounted consisting of a position adjusting unit (540).

Next, a coupling groove 551 is formed in the support coupling passage 531 of the support adjusting portion 530 in a vertical direction with a predetermined height and diameter and spaced apart from the outer surface, and a support fixture 552 is mounted on the upper portion The can supporting groove 561 is formed to have a predetermined thickness by the supporting fixture 552 of the supporting and elevating part 550 and to support the can 600 therein after the supporting elevating part 550 is mounted When the can supporting portion 560 is mounted, the assembling of the can supporting means 10 for the can seaming device is completed.

Here, it is noted that the assembling procedure of the can supporting means for the can shimming apparatus can be configured differently from the above.

The use state of the can supporting means for the can-seaming device constituted as described above is as follows.

A first embodiment of the present invention will now be described in detail with reference to the accompanying drawings in which a first embodiment of the present invention will be described with reference to the accompanying drawings. First, a lower body 200 and a plurality of shooting rolls 320 having a predetermined height above the lower body 200, After the can-seaming device 100 including the means 400 is mounted, the can supporting device 500 for the can-seaming device is mounted to the lower portion of the seaming head 320.

At this time, the can supporting means 500 for the can shimming device is located on the same line on which the can 600 is to be operated, and the can supporting portion 560 is supported by the support elevating portion 550 in accordance with the diameter of the can 600 to be operated .

Next, the can 600 is mounted on the upper portion of the can supporting portion 560, and then an oil / pneumatic cylinder or an eccentric cam constituting the elevating portion 520 is operated to move the position of the canming head 300 And then the can lid 620 is sealed to the opening of the can 600 through the can-

When the support elevating portion 550 and the can supporting portion 560 are changed by changing the diameter of the can 600, the operation handle 544 is rotated around the hinge portion 544a to move the fixing pin 542 ) Is released.

That is, the fixing pin 542 is separated from the coupling groove 551 of the supporting and elevating part 550 while being moved outward by the pin pressing spring 543 when the operating pin 544 is separated from the operating handle 544, 550 and the can supporting portion 567 are removed from the support adjusting portion 530. [

The support elevating portion 550 having the can supporting portion 560 having the diameter of the can 600 to be operated next is attached to the supporting adjusting portion 530 and then the position of the supporting elevating portion 550 is adjusted When the operation handle 544 is rotated about the hinge portion 544a to press the fixing pin 542, the support lift portion 550 is fixed to the support adjusting portion 530, You just have to resume the seaming process.

As described above, the can supporting means for the can seaming device of the present invention can move the can mounted on the upper portion of the supporting portion stably up and down while changing the diameter of the can, and the corresponding supporting up and down portion and the can supporting portion can be replaced by a simple operation It is.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments and constructions. And should be construed as being included in the scope of the invention.

100: Can supporting means for can seaming device, 200: Lower body,
300: Shiming head, 320: Shiming roll,
400: driving means, 500: can supporting means,
510: fixed case, 520: elevating part,
530: Support adjusting part, 540: Position adjusting part,
550: support elevating portion, 560: can supporting portion,
600: Can, 620: Can lid.

Claims (5)

The can seaming device includes a lower body, a seaming head having a plurality of shooting rolls provided at a predetermined height above the lower body, and driving means for rotating the seaming head so that the can is raised and lowered up and down, A can supporting device for a can shimming device for supporting a can,
Wherein the can supporting means comprises:
A fixed case having a hollow shape and a support tuck formed at an upper portion thereof;
A lifting unit mounted inside the fixed case and operated to move up and down during operation of the oil / air cylinder or the eccentric cam, and having a guide channel provided with a spiral therein;
A support regulating portion coupled to the guide flow path of the elevating portion, having a support coupling flow path formed therein in a vertical direction, and a position regulating portion mounted on the upper side;
A support lifting and lowering part in which a support fixing part is mounted on an upper part of the outer side surface of the support adjusting part,
And a can supporting member which is fixed to the upper portion of the support fixture constituting the support lifting unit through bolts or screws and has a can supporting groove for supporting the can therein. .
The method according to claim 1,
Wherein the position adjusting portion is mounted symmetrically on both sides of the support adjusting portion.
3. The apparatus according to claim 1 or 2,
A fixing pin mounting groove communicating with the guide channel of the support adjusting portion and having a step formed therein;
A fixing pin mounted in the fixing pin mounting groove and operating in a horizontal direction;
A pin pressing spring whose one side is supported by the step on the fixing pin mounting groove while the opposite side is supported by the fixing pin while the fixing pin is inserted into the rod;
Wherein the fixing pin is rotatably mounted around a hinge portion coupled to the hinge insertion groove of the support adjusting portion, and while the outer surface of the fixing pin mounting groove is in close contact with the supporting adjusting portion, An operating knob to be inserted into the coupling groove of the elevating portion;
And an operation spring which is mounted on the hinge insertion groove of the support adjusting portion and is engaged with the hinge portion to provide elasticity to the operation handle.
delete The method according to claim 1,
The support coupling passage of the support adjuster is formed to be eccentric so that the center of the support lifting and lowering part can be positioned on the same line when the operation pin is pressed by the operation handle constituting the position adjusting part,
Wherein the inner surface of the support coupling channel is formed to have a diameter larger than that of the support elevating portion and the inner surface of the opposite support inner wall is formed to have the same diameter as the support elevating portion. .

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