US1718146A - Sheet-material-feed control - Google Patents
Sheet-material-feed control Download PDFInfo
- Publication number
- US1718146A US1718146A US284611A US28461128A US1718146A US 1718146 A US1718146 A US 1718146A US 284611 A US284611 A US 284611A US 28461128 A US28461128 A US 28461128A US 1718146 A US1718146 A US 1718146A
- Authority
- US
- United States
- Prior art keywords
- rolls
- paper
- machine
- sheet
- sheet material
- Prior art date
- Legal status (The legal status 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 status listed.)
- Expired - Lifetime
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H20/00—Advancing webs
- B65H20/02—Advancing webs by friction roller
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2404/00—Parts for transporting or guiding the handled material
- B65H2404/10—Rollers
- B65H2404/14—Roller pairs
- B65H2404/147—Roller pairs both nip rollers being driven
Definitions
- My invention has for its object to provide a positive feed and control for sheet material, or sheet materials in the process of the formation of articles whereby a sheet material may be adjusted to other parts of the machine in connection with which my invention is used or in which it is embodied and whereby creeping or slippage of the sheet material due to the operations of other parts of machines will be avoided or prevented notwithstanding the draft or drawing force to which the sheet material may be subjected in such operations.
- the invention has for its object to produce other features and other advantages which will appear from the following description and upon examination of the drawings.
- Figure 1 of the drawings illustrates a side view of a part of the machine used for forming bags from long strips of paper.
- the part shown illustrates the structure selected as an example.
- Fi 2 illustrates a front view of the mechanism s own in Fig. 1
- Fig. 3 illustrates a section of the part of the mechanism illustrated in Fig. 1.
- 1 is a base or bed or table of the machine on which its parts are mounted.
- the sheet material is manipulated by the machine to form bags and in the formation of the bags sheet material is drawn through parts of the machine that fold the side edges of the sheet material so as to bring the side edges together and seal the overlapping side edges and thus continuously form a tube.
- the paper is necessarily irregularly stretched as it comes from a large roll and the edges are laid over to overlap. Thus itis necessary that the paper he kept exceedingly taut to avoid wrinkling or a distorted shape. After the tube has been completely formed and the overlapping edges scaled it is cut into lengths from which the bags are formed. In order to sever the folded sheet material it is necessary that the paper be drawn taut.
- the invention produces an absolute regularity of movement of the paper in the tube forming part of the machine notwithstanding the periodic excessive draft and severance of the paper.
- the means for controlling the draft and feed of the tube from a tube forming part of the machine and the cutting part of the machine comprises two sets of rolls.
- the rolls 3 are short and are secured to the shaft 4-. by means of a suitable key means, such as the key bolts 5.
- a suitable key means such as the key bolts 5.
- Below the rolls 3 is located the roll 6 which is supported on a shaft 7.
- the shafts 4 and 7 are supported in housings S movable along guides or rails 9 that". are secured to the bed 1 of the machine.
- a second set of rolls 3 and 6 are similarly disposed and supported on similar shafts t and 7 that have their bearings in the housings 8.
- earns 10 are secured to bars or shafts 11 that are supported for rotation in the ends of the housings 8 and are located beneath movable bearing blocks 12 that are guided by edges of openings formed in the housings 8. Rotation of the shafts it. raises the shafts 4 and consequently raises the rolls 3 away from the rolls (-3.
- the shafts 11 are connected to arms 13 which are. connected together by means of the bar or link It.
- the lllOVCll'lQllt of one of the arms 13 causes movement of the shafts 11 and consequent raising of the rolls 3.
- the rolls 3 are spring pressed by means of ltltl the springs that are located between the bearing blocks 12 and to s of the housings 8.
- the ressure of the springs 15 may be adjusted by means of the screws 16 and the discs 17 whereby the compression of the springs 15 may be varied and thus the pressure of the rolls 3 against the rolls 6 may be adjusted.
- the shafts 4 and 7 are mechanically connected to cause rotation by the meshing of the gear wheels 18 that are connected to the shafts and thus the sheet material is drawn between the rolls.
- the housings 8 are adjustably positioned with reference to the bed 1 of the machine by means of the screws 19 that are connected b means of the bevel gear wheels 20 to the sha t 21.
- a hand wheel 22 is connected to the shaft 21 to rotate the gear wheels 20 and consequently to rotate the screws 19, which moves the housings 8 to the desired positions.
- the rolls are driven through the gear wheels 23 and 25 which are pivotally supported on links 24.
- the gear 23 meshes with a gear 18 (see Fig. 2) and the gear 25 meshes with the gear 28.
- the gear wheel 25 is on a fixed shaft 29 and a frame 26 is pivoted on the shaft 29.
- the gear wheel 28 is rotatably supported on the shaft 27 the position of this frame belng adjusted so that gear 28 meshes with a gear 39 on the lower cutting cylinder, the. size of gear 39 determining the relative speed of the feeding rollers to the cutter, and thereby determining the length of the tube cut off at each revolution of the cutting cylinder.
- gear wheels 18 are driven through the operation of the gear wheel 28 and consequently movements of the housings 8 within the limitations of the screws 19 will maintain mechanical connection of the rolls 3 and 6 with the driving means of the machine, the gear wheels 18 of one set being connected to the gear wheels 18 of the other set through the idler 30.
- the rolls 3 are lifted by movement of the arms 13 whereupon the leading or advance end of the folded paper may be easily placed between the rolls 3 and 6.
- the rolls are then released from the cams 10 and the pressure of the springs 15 will operate to press the rolls 3 against the paper.
- the rolls 3 are made adjustable along the shaft 4 so as to bring the outside rolls near to the edge of the folded paper but not so as to ride on the folded edge and crease the paper and also so as to avoid the increased thickness caused by the fold and so as to present to each of theoutside rolls only the double thickness of paper and consequently to enable the production of a uniform pressure throughoutthe width of the rolls on the paper.
- the inside rolls are placed so as to avoid the overlapping edges 32 and thus the uniform thickness of the folded pa er is also presented to the inside rolls.
- By t is arrangement draft on the folded edge of the paper and on the overlapping ed es is avoided and means is provided for adjusting the points of draft or drag relative to the width of the folded paper, the rolls 3 being adjust ably located along the shaft 4.
- the leadin rolls operate to draw the paper from the fol ing machine at a uniform rate of pull and speed, while the following rolls prevent the action of the cutting device, which is momentary and periodic, from varying the tension or drag produced by the leading rolls.
- the cutting knife 33 extends across the folded paper to sever it into desired lengths.
- the knife is located in a bar 34 that may be operated by any suitable means. In the structure shown it is operated by a fixed cam 35 having the cam point 36 that operates on a suitab e roller 37 which presses a ainst the knife bar 34, the bar being carrie by s rotated cylinder 38 that is driven by the ear wheel 39 which meshes with the gar whee 28.
- a cylinder 40 is also driven at the same speed that the cylinder 38 is driven by gearing that interconnects the cylinders 40 and 38.
- the cylinder 40 carries a shearing bar 41.
- the shearing bar 41 may be fixed in the cylinder 40, but if desired the cylinder bar 41 may be advanced towards the bar 34 at the same time that the bar 34 is raised by the cam 35.
- the cylinders 38 and 40 are supported in a frame or housing 42 that is secured to the bed or base 1 of the machine.
- a pair of cylinders 43 and 44 are also driven by suitable gear wheels at the same speed that the cylinders 38 and 40 are driven.
- the cylinders 43 and 44 are pro vided with gripping bars 45 that are secured to the cylinders by bolts 46.
- the outer surfaces of the bars 45 are slightly raised above the surfaces of the cylinders 43 and 44 and thus momentarily grip and severely drag the paper since the bars are moving at a higher speed than the surfaces of the rolls 3 and 6.
- the bars 45 are so located as to produce this momentary sharp strain on the paper at the instant that the knife 33 penetrates the paper. This insures absolute severance of the pa r into required lengths to form the bags. he following rolls 3 and 6, however, prevent this drag from being transmitted to the leadin rolls 3 and 6 whereby absolute control and uniformity of feed is obtained. This is of particular advantage when the paper is printed in advance of the formation of the bags. It is obvious that the printing is accomplished more efliciently if done before the bags are formed and the feed control insures that the severing is done at points along the continuously fed tube to produce the proper top and bottom spaces between the printed areas and the tops and bottoms of thebags.
- the rolls 3 and 6 prevent absolute slippage or creepage of the paper relative to the knife. Exact adjustment may be made by rotation of the screws 19.
- the entire length of the tube as it is formed and passes through the machine up to the cutting of the I knife is adjusted relative to the machine which greatly simplifies the control of this part or parts of the machine since by mere rotation of the hand wheel 22 the paper tube ma be adjustably shifted.
- the feed rollers may be separated by operating arms 13 for introducing the paper between the rolls, and the relative movements are such that adjustments by screws 19 are repeated until the housing has reached its limit of travel in one direction,
- a plurality of pairs of feed rolls adapted to feed a continuous strip, one roll of each air being movable toward and awa from t e other roll, mean's constantly ten ing to press the rolls of each pair together, a cam at each end of each movable roll operable to increase the distances between the ends of the rolls of each pair, and a lever connected to all of said cams for operating them in unison.
Landscapes
- Folding Of Thin Sheet-Like Materials, Special Discharging Devices, And Others (AREA)
- Making Paper Articles (AREA)
Description
June 18, 1929. c. H. HARTMAN SHEET MATERIAL FEED CONTROL Filed June 11, 1928 3 Sheets-Sheet l gwuentoz Car/ Hflartman.
June 18, 1929. H, HARTMAN 1,718,146
SHEET MATERIAL-FEED CONTROL Filed June 11, 1928 3 Sheets-Sheet 2 gnaw 1 :01,
Carl HHartman.
June 18, 1929. c HARTMAN 1,718,146
SHEET MATERIAL FEED CONTROL Filed June 11, 1928 3 Sheets-Sheet 3 gn ue'ntoz Ca r/ H. Hartman.
Patented June 18, 1929.
UNITEDKSTATES' PATENT- OFFICE.
CARL H. HARTMAN, OE TOLEDO, OHIO, ASSIGNOR, BY MESNE ASSIGNMENTS, '10 ST. BEGIS IPAPEB COMPANY, OF NEW YORK, N. Y., A CORPORATION OF NEW YORK.
SHEET-MATERIAL-FEED CONTROL.
Original application tiled November 13, 1922, Serial No. 600,648. Divided and this application filed June 11, 1928. Serial No. 284,611.
My invention has for its object to provide a positive feed and control for sheet material, or sheet materials in the process of the formation of articles whereby a sheet material may be adjusted to other parts of the machine in connection with which my invention is used or in which it is embodied and whereby creeping or slippage of the sheet material due to the operations of other parts of machines will be avoided or prevented notwithstanding the draft or drawing force to which the sheet material may be subjected in such operations. The invention has for its object to produce other features and other advantages which will appear from the following description and upon examination of the drawings.
This application is a division of my former application for sheet material feed control, Serial N 0. 600,648, filed November 13, 1922, and is directed particularly to means for separating feeding rollers when adjustment of the fed sheet with respect to the rolls is made. Details of the invention will appear as the description proceeds, and will be pointed out in the appended claim.
Figure 1 of the drawings illustrates a side view of a part of the machine used for forming bags from long strips of paper. The part shown illustrates the structure selected as an example. Fi 2 illustrates a front view of the mechanism s own in Fig. 1, and Fig. 3 illustrates a section of the part of the mechanism illustrated in Fig. 1.
In the figures, 1 is a base or bed or table of the machine on which its parts are mounted. The sheet material is manipulated by the machine to form bags and in the formation of the bags sheet material is drawn through parts of the machine that fold the side edges of the sheet material so as to bring the side edges together and seal the overlapping side edges and thus continuously form a tube. The paper is necessarily irregularly stretched as it comes from a large roll and the edges are laid over to overlap. Thus itis necessary that the paper he kept exceedingly taut to avoid wrinkling or a distorted shape. After the tube has been completely formed and the overlapping edges scaled it is cut into lengths from which the bags are formed. In order to sever the folded sheet material it is necessary that the paper be drawn taut. To prevent the transmission of the action of this part of the machine to the preceding part or parts of the machine that are used to form the paper into tube prior to its severance into lengths and in order to adjust the sheet material with reference to the cutting means, I have provided two sets of rolls that draw the paper in absolute regularity as to movement and performance of the tube forming part ofthe machine and feed and hold the paper as to the cutting operation of the machine and also means for adjusting the rolls and, consequently, the sheet material with reference to the said parts of the machine. Inasmuch as the severing of the paper occurs periodically or at the ends of short periods of time and the paper is drawn with greater tautne-ss during the quick cut-ting operation while the.
tube is formed continuously and throughout the operation of the machine as a whole, the invention produces an absolute regularity of movement of the paper in the tube forming part of the machine notwithstanding the periodic excessive draft and severance of the paper.
The means for controlling the draft and feed of the tube from a tube forming part of the machine and the cutting part of the machine, comprises two sets of rolls. The rolls 3 are short and are secured to the shaft 4-. by means of a suitable key means, such as the key bolts 5. Below the rolls 3 is located the roll 6 which is supported on a shaft 7. The shafts 4 and 7 are supported in housings S movable along guides or rails 9 that". are secured to the bed 1 of the machine.
A second set of rolls 3 and 6 are similarly disposed and supported on similar shafts t and 7 that have their bearings in the housings 8. In order to raise the shafts 4: and the rolls 3 secured thereto, earns 10 are secured to bars or shafts 11 that are supported for rotation in the ends of the housings 8 and are located beneath movable bearing blocks 12 that are guided by edges of openings formed in the housings 8. Rotation of the shafts it. raises the shafts 4 and consequently raises the rolls 3 away from the rolls (-3. The shafts 11 are connected to arms 13 which are. connected together by means of the bar or link It. The lllOVCll'lQllt of one of the arms 13 causes movement of the shafts 11 and consequent raising of the rolls 3.
The rolls 3 are spring pressed by means of ltltl the springs that are located between the bearing blocks 12 and to s of the housings 8. The ressure of the springs 15 may be adjusted by means of the screws 16 and the discs 17 whereby the compression of the springs 15 may be varied and thus the pressure of the rolls 3 against the rolls 6 may be adjusted. When the rolls 3'bear against, or are in close proximity to the rolls 6 the shafts 4 and 7 are mechanically connected to cause rotation by the meshing of the gear wheels 18 that are connected to the shafts and thus the sheet material is drawn between the rolls.
The housings 8 are adjustably positioned with reference to the bed 1 of the machine by means of the screws 19 that are connected b means of the bevel gear wheels 20 to the sha t 21. A hand wheel 22 is connected to the shaft 21 to rotate the gear wheels 20 and consequently to rotate the screws 19, which moves the housings 8 to the desired positions. The rolls are driven through the gear wheels 23 and 25 which are pivotally supported on links 24. The gear 23 meshes with a gear 18 (see Fig. 2) and the gear 25 meshes with the gear 28. The gear wheel 25 is on a fixed shaft 29 and a frame 26 is pivoted on the shaft 29. The gear wheel 28 is rotatably supported on the shaft 27 the position of this frame belng adjusted so that gear 28 meshes with a gear 39 on the lower cutting cylinder, the. size of gear 39 determining the relative speed of the feeding rollers to the cutter, and thereby determining the length of the tube cut off at each revolution of the cutting cylinder. The
The paper 31, having been folded in tubular form by the partor parts of the machine that precede the feed control device in the sequence of operation upon the paper and so as to fold substantially the side quarters of the sheet to overlap the edges 32, is directed between the rolls 3 and 6. The rolls 3 are lifted by movement of the arms 13 whereupon the leading or advance end of the folded paper may be easily placed between the rolls 3 and 6. The rolls are then released from the cams 10 and the pressure of the springs 15 will operate to press the rolls 3 against the paper. The rolls 3 are made adjustable along the shaft 4 so as to bring the outside rolls near to the edge of the folded paper but not so as to ride on the folded edge and crease the paper and also so as to avoid the increased thickness caused by the fold and so as to present to each of theoutside rolls only the double thickness of paper and consequently to enable the production of a uniform pressure throughoutthe width of the rolls on the paper. Also the inside rolls are placed so as to avoid the overlapping edges 32 and thus the uniform thickness of the folded pa er is also presented to the inside rolls. By t is arrangement draft on the folded edge of the paper and on the overlapping ed es is avoided and means is provided for adjusting the points of draft or drag relative to the width of the folded paper, the rolls 3 being adjust ably located along the shaft 4. The leadin rolls operate to draw the paper from the fol ing machine at a uniform rate of pull and speed, while the following rolls prevent the action of the cutting device, which is momentary and periodic, from varying the tension or drag produced by the leading rolls.
The cutting knife 33 extends across the folded paper to sever it into desired lengths. The knife is located in a bar 34 that may be operated by any suitable means. In the structure shown it is operated by a fixed cam 35 having the cam point 36 that operates on a suitab e roller 37 which presses a ainst the knife bar 34, the bar being carrie by s rotated cylinder 38 that is driven by the ear wheel 39 which meshes with the gar whee 28. A cylinder 40 is also driven at the same speed that the cylinder 38 is driven by gearing that interconnects the cylinders 40 and 38. The cylinder 40 carries a shearing bar 41. The shearing bar 41 may be fixed in the cylinder 40, but if desired the cylinder bar 41 may be advanced towards the bar 34 at the same time that the bar 34 is raised by the cam 35. The cylinders 38 and 40 are supported in a frame or housing 42 that is secured to the bed or base 1 of the machine. A pair of cylinders 43 and 44 are also driven by suitable gear wheels at the same speed that the cylinders 38 and 40 are driven. The cylinders 43 and 44 are pro vided with gripping bars 45 that are secured to the cylinders by bolts 46. The outer surfaces of the bars 45 are slightly raised above the surfaces of the cylinders 43 and 44 and thus momentarily grip and severely drag the paper since the bars are moving at a higher speed than the surfaces of the rolls 3 and 6. The bars 45 are so located as to produce this momentary sharp strain on the paper at the instant that the knife 33 penetrates the paper. This insures absolute severance of the pa r into required lengths to form the bags. he following rolls 3 and 6, however, prevent this drag from being transmitted to the leadin rolls 3 and 6 whereby absolute control and uniformity of feed is obtained. This is of particular advantage when the paper is printed in advance of the formation of the bags. It is obvious that the printing is accomplished more efliciently if done before the bags are formed and the feed control insures that the severing is done at points along the continuously fed tube to produce the proper top and bottom spaces between the printed areas and the tops and bottoms of thebags. The rolls 3 and 6 prevent absolute slippage or creepage of the paper relative to the knife. Exact adjustment may be made by rotation of the screws 19. By reason of the structure and arrangement of the rolls 3 vand 6 the entire length of the tube as it is formed and passes through the machine up to the cutting of the I knife is adjusted relative to the machine which greatly simplifies the control of this part or parts of the machine since by mere rotation of the hand wheel 22 the paper tube ma be adjustably shifted.
pointed out above, the feed rollers may be separated by operating arms 13 for introducing the paper between the rolls, and the relative movements are such that adjustments by screws 19 are repeated until the housing has reached its limit of travel in one direction,
or if major adjustments, not readily made by screws 19, become necessary for any reason, handles 13 afi'ord ready means for separating the feed rolls for such adjustments.
Modifications of the mechanism may be made within the scope of the appended claim.
What I claim is:
In combination, a plurality of pairs of feed rolls adapted to feed a continuous strip, one roll of each air being movable toward and awa from t e other roll, mean's constantly ten ing to press the rolls of each pair together, a cam at each end of each movable roll operable to increase the distances between the ends of the rolls of each pair, and a lever connected to all of said cams for operating them in unison.
In testimony whereof I have hereunto signed my name to this specification.
CARL H. HARTMAN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US284611A US1718146A (en) | 1922-11-13 | 1928-06-11 | Sheet-material-feed control |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US600648A US1718145A (en) | 1922-11-13 | 1922-11-13 | Sheet-material feeding and severing apparatus |
US284611A US1718146A (en) | 1922-11-13 | 1928-06-11 | Sheet-material-feed control |
Publications (1)
Publication Number | Publication Date |
---|---|
US1718146A true US1718146A (en) | 1929-06-18 |
Family
ID=26962705
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US284611A Expired - Lifetime US1718146A (en) | 1922-11-13 | 1928-06-11 | Sheet-material-feed control |
Country Status (1)
Country | Link |
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US (1) | US1718146A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2631848A (en) * | 1947-01-25 | 1953-03-17 | Westinghouse Air Brake Co | Paper advancing means for graphic recorders |
US2641470A (en) * | 1949-08-12 | 1953-06-09 | United States Steel Corp | Device for holding coils of strapping with means for delivering lengths therefrom |
US2726083A (en) * | 1951-10-15 | 1955-12-06 | Baird Machine Co | Roll feed mechanism |
US2947358A (en) * | 1957-07-08 | 1960-08-02 | Ibm | Roll spacing for a card punch mechanism |
US4597516A (en) * | 1983-04-20 | 1986-07-01 | Mayhall Jr Riley H | Web feeder apparatus |
-
1928
- 1928-06-11 US US284611A patent/US1718146A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2631848A (en) * | 1947-01-25 | 1953-03-17 | Westinghouse Air Brake Co | Paper advancing means for graphic recorders |
US2641470A (en) * | 1949-08-12 | 1953-06-09 | United States Steel Corp | Device for holding coils of strapping with means for delivering lengths therefrom |
US2726083A (en) * | 1951-10-15 | 1955-12-06 | Baird Machine Co | Roll feed mechanism |
US2947358A (en) * | 1957-07-08 | 1960-08-02 | Ibm | Roll spacing for a card punch mechanism |
US4597516A (en) * | 1983-04-20 | 1986-07-01 | Mayhall Jr Riley H | Web feeder apparatus |
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