US1699507A - Web-feeding mechanism - Google Patents
Web-feeding mechanism Download PDFInfo
- Publication number
- US1699507A US1699507A US198384A US19838427A US1699507A US 1699507 A US1699507 A US 1699507A US 198384 A US198384 A US 198384A US 19838427 A US19838427 A US 19838427A US 1699507 A US1699507 A US 1699507A
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- US
- United States
- Prior art keywords
- web
- roller
- rollers
- feeding
- rocking
- 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
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- 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
- B65H20/04—Advancing webs by friction roller to effect step-by-step advancement of web
Definitions
- G'Pvrg 1 135 Attorney- Fatented Jan. '15, 1929.
- the method according to the invention consists in that the bight is formed or enlarged in that portion of the web which has come from the devices which feed the web at uniform speed i. e., viewed in the direction of feeding, behind this feeding device and by making this portion of the web slip on the device designed for continuing the .feeding and by increasing the resistance of the web to being fed forwards and to straightening out this bight in accordance with the retardation of the resistance by making this feeding device rotate at a higher feeding speed than that of the constantly and uniformly feeding device.
- Fig. 2 shows the principal parts in positions occupied while the web is stationary.
- Fig. 5 is an elevation of the machine according to the second embodiment of the invention.
- Fig. 6 is a similar elevation showin only the parts according to the invention, but in different positions.
- the Web 2 passes over a roller 3 to a pair of feed rollers 4, 5, the roller 5 being driven at a uniform speed by a chain 6 and a sprocket wheel on a shaft 33.
- the roller 4 is held down on the web with sufficient pressure to prevent slip.
- On the axle 7 of the roller 5 two arms 8 are rotatably mounted, and these carry a rotatable roller 9.
- the hubs of the arm 8 and of the arm 10 respectively have projections 14 and 15, and a screw 16 in the projection 14 abuts against the projection 15, for regulating the angle at which the two arms are set' in relation to each other.
- the web 2 After passing between the rollers 1 and 5 the web 2 passes under the roller 9, and then between a roller 17 and a series of rollers 18 resting thereon.
- the roller 17 is smooth, and is driven by a chain 19 and a sprocket wheel on the axle 7.
- the rollers 18 have pivoted bearings, and reston the web by gravity; springs may be used to increase their pressure.
- the pressure here applied is such that the web coming from the rollers 4, 5 is kept taut, but that when the resistance of the web to being fed forwards increases above a certain limit, slip is allowed on the roller 17, with a corresponding reduction of the surface velocity of the rollers 18.
- the arm 10 is connected to a pivoted arm 21 by a link 22, and a roller carried by the arm 21 rests on a cam 20 mounted on a shaft 24, whereby the arm 10, and with it the arms 8, are rocked, so that in the course of each revolution of the cam the roller 9 is once lifted and once lowered, its descent being due to gravity, and making a bight in the web between the rollers 5 and 17, with a pull which causes the web to slip on the roller 17.
- the slip which occurs, and consequently the reduction of the speed of the web depend on the speed with which the roller 9 is moved downwards, and this depends on the shape of the cam 20. It ma be caused to'eifect an actual stoppage of eed, oreven a rearward movement of the web on the roller-17.
- the rate of revolu- 5 tionof the shaft 24 can thus be changed with during the upward movement the feed is accelerated while the bighti'n the web isbeing straightened out.
- the web After passingbetween the rollers 17, 18 the web, travels under a vertically movable knife or guillotine 23, for cutting it transversely.
- the knife is actuated by a cam 25 on the shaft 24, by rod 27.
- the cam 20 is adiustable on the shaft 24, to which it is coupled by means of a bolt 29 ⁇ passing through a curved slot 30 in a flange 28 on the shaft.
- a scale and pointer may be arranged on the cam and flange respectively, to facilitate the adjustment.
- the size of 1 and '2 show the adjustment for sheets of I the largest size
- Figs. 3 and 4 show the adjustment for sheets of thesmallest size.
- the rocking roller 9 is rotated at slightly higher circumferential s eed than that of the roller 5 from the shaft through the intermediary of a set of toothed gears, consisting of'a spur wheel 38 on shaft 7 and of s ur wheel 39 on the shaft of the rocking ro ler and of the required intermediate gears.
- I claim 1 The method offeeding a web intermittently or with periodic retardation, consist- .ing in causing it to pass in succession into "engagement with two feed devices, the first I .of which feeds it at a uniform rate, and the drawn from the roll 1, and the rate of move ment of the roller 9 and knife 23 can thus be second of which feeds it ata higher rate but allows slip when a backward ull is imposed, I
- a machine for feeding a web intermittently or with periodic retardation comprising two'feed devices throughwliich the web passes in succession, the first engaging the web without allowin slip, and feeding at a uniform rate, and t e second being driven for constant feeding engagement with the web at a higher speed. and at normal feed tension of the web but allowin slip where the web tension is increased, an aback pull (1 vice operating on the web between said fe devices, to increase theweb tension'for a slippage action soas to thereby produce peria odically a bightin the web. 3.
- the second feed device consists of rollers between which the .web passes, said rollers constantly engaging the web with suflicient 1 pressure to automatically keep it taut behind them when no "pull is imposed on the, web between the two feed devices, but automaticall allowing slip when the bight is being forme 4.
- the second feed device consists of a roller driven at a uniform-speed and a freely rotatable roller or rollers coacting therewith to engage the web.
- a machine as claimed in claim 2, where- 10 in the device for producing the bight comprises a rocking roller carried by a rotatable.
- a machine as claimed in claim2, wherein the device for producing the bight comprises a rocking roller rocked by mechanism including a cam which is angularly adjustable on a driving shaft.
Description
G. SPIES WEB FEEDING MECHANISM Filed June 15, @927 a smm snam 1 jm/ mor:
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A 210m 6/. I
;Im 15, 1929 1 w asm G. $PIE$$ WEB FEEDING MECHANISM Filed June 15, 192'? i 2 SMets-Sheet 2 I'm en for:
G'Pvrg 1 135 Attorney- Fatented Jan. '15, 1929.
ENIT'ED STATES PATENT OFFICE.
GEORG SPIESS, OF LEIPZIG-PLAGWITZ, GERMANY.
WEB-FEEDING MECHANISM.
Application-filed June 13, 1927, Serial No. 198,384, and in Germany June 11, 1926.
For the treatments of a web of paper or other fabric unwinding from a roll it is frequently necessary or advisable to periodically stop a portion of the web, for example at the cutting of the end of the web, and then to feed it again at higher or lower speed, while the web itself continues to be unwound from the roll and fed at uniform speed. It hasbecome known from transverse cutters, to form, during the period of stoppage or retardation of the end of the web, a bight in the web or to enlarge such a bight, which is then straightened completely or partly during the feeding or accelerated feeding of the end of the web.
The method according to the invention consists in that the bight is formed or enlarged in that portion of the web which has come from the devices which feed the web at uniform speed i. e., viewed in the direction of feeding, behind this feeding device and by making this portion of the web slip on the device designed for continuing the .feeding and by increasing the resistance of the web to being fed forwards and to straightening out this bight in accordance with the retardation of the resistance by making this feeding device rotate at a higher feeding speed than that of the constantly and uniformly feeding device. This effect is obtained, according to the invention, by arrangin a rocking roller, which forms, in a manner :nown per se, the bight or enlarges the same, between apair of rollers which feed the web constantly and uniformly and a second pair of rollers, which continue to feed the portion of the web which has been delivered by the first mentioned pair of rollers, said second pair of rollers being arranged so that slip of the web is allowed at the increasing of the resistance of the web to being fed forwards beyond the rate necessary for keeping the portion of the web taut, this increasing being due to oscillating move= 1118113113 of the roller for straightening out the we Two embodiments of the invention are illustrated, by way of example, in the accompanying drawing in which Fig.1 is an elevation of the machine, according to the first embodiment of the invention, and in connection with a cross cutter, showing the parts in positions which they occupy during the travel of the end of the web.
Fig. 2 shows the principal parts in positions occupied while the web is stationary.
Figs. 3 and show the adjusting of the parts designed for the production of sheets of smaller size.
Fig. 5 is an elevation of the machine according to the second embodiment of the invention.
Fig. 6 is a similar elevation showin only the parts according to the invention, but in different positions.
From the roll 1 the Web 2 passes over a roller 3 to a pair of feed rollers 4, 5, the roller 5 being driven at a uniform speed by a chain 6 and a sprocket wheel on a shaft 33. The roller 4 is held down on the web with sufficient pressure to prevent slip. On the axle 7 of the roller 5 two arms 8 are rotatably mounted, and these carry a rotatable roller 9. On the same axle 7 there is rotatably mounted an arm 10, and a bolt 11 projects from this arm 10 through a curved slot 12 in a short arm 12 fixed to one of the arms 8, so that this arm 8 and the arm 10 can becoupled with each other at a variable angle by means of a nut on the bolt. The hubs of the arm 8 and of the arm 10 respectively have projections 14 and 15, and a screw 16 in the projection 14 abuts against the projection 15, for regulating the angle at which the two arms are set' in relation to each other.
After passing between the rollers 1 and 5 the web 2 passes under the roller 9, and then between a roller 17 and a series of rollers 18 resting thereon. The roller 17 is smooth, and is driven by a chain 19 and a sprocket wheel on the axle 7. The rollers 18 have pivoted bearings, and reston the web by gravity; springs may be used to increase their pressure. The pressure here applied is such that the web coming from the rollers 4, 5 is kept taut, but that when the resistance of the web to being fed forwards increases above a certain limit, slip is allowed on the roller 17, with a corresponding reduction of the surface velocity of the rollers 18.
The arm 10 is connected to a pivoted arm 21 by a link 22, and a roller carried by the arm 21 rests on a cam 20 mounted on a shaft 24, whereby the arm 10, and with it the arms 8, are rocked, so that in the course of each revolution of the cam the roller 9 is once lifted and once lowered, its descent being due to gravity, and making a bight in the web between the rollers 5 and 17, with a pull which causes the web to slip on the roller 17. The slip which occurs, and consequently the reduction of the speed of the web, depend on the speed with which the roller 9 is moved downwards, and this depends on the shape of the cam 20. It ma be caused to'eifect an actual stoppage of eed, oreven a rearward movement of the web on the roller-17. Towards theend of the downward movement a of the-roller 9 the retardationdecreases, and
' belt and step pulleys. The rate of revolu- 5 tionof the shaft 24 can thus be changed with during the upward movement the feed is accelerated while the bighti'n the web isbeing straightened out.
After passingbetween the rollers 17, 18 the web, travels under a vertically movable knife or guillotine 23, for cutting it transversely. The knife is actuated by a cam 25 on the shaft 24, by rod 27.
The cam 20 is adiustable on the shaft 24, to which it is coupled by means of a bolt 29 \passing through a curved slot 30 in a flange 28 on the shaft. By adjusting the cam the stoppage of the feed is accurately timed. to coin cide with the descent of the knife. A scale and pointer may be arranged on the cam and flange respectively, to facilitate the adjustment.
being driven by the shaft 33 by means ofa out altering the rate at which the web is altered for cutting sheets of different sizes. as required, the size of 1 and '2 show the adjustment for sheets of I the largest size, and Figs. 3 and 4, show the adjustment for sheets of thesmallest size.
The machine shown in Figs. 5 and 6 difiers from the machine which has just been described in that the rocking roller for straightening the bi ht forms together witha roller pressed on e astically the device for feeding the end of the web and for straightenin the bight and in that it possesses a 'separate rive.
' To'the lever-like extensions 1390f the arms 8 for rocking the roller 9 and in which said rocking roller 9 is journalled, arms 35 are hingedly connected by means of bolts 34;, ag gi pressin roller 36 belng rotatably mounted in saidarms35. The roller 36 is pressed on the rocking roller 9 by means of pull springs 37 attached on the one hand to the arms 35 v and on the other hand to the rocking arms 8".
The rocking roller 9 is rotated at slightly higher circumferential s eed than that of the roller 5 from the shaft through the intermediary of a set of toothed gears, consisting of'a spur wheel 38 on shaft 7 and of s ur wheel 39 on the shaft of the rocking ro ler and of the required intermediate gears.
The end of web 2 fed by the rocklngroller means of a bell-crank lever 26 and The shaft 24 is driven by a counter-shaft 32 and a train of toothed gear131, the shaft 32 '9 and the pressing roller 35 is conducted by guidings 40, 41 upon the roller 15, which is driven from shaft 7 by means of a chain 19.
When the rocking roller 9 descends the points at which the web leaves the roller 5 and at which it runs upon the rocking roller 9 move slightly the one towards the other and this distance increases accordingly when the rocking roller is returning into its highest position. To equalize this slight difference of length of the web a higher circumferential speed of the rocking roller 9 is necessary.
The tensile stress of the end of the web at the straightening out of' the bight, which in the machine shown in Figs. 1 to 4 is effected by the overcoming of the friction of the end of the web on the rollers 17 18, is reduced to the minimum and the end of the web is free from tension when coming from the rocking roller 9. The end ofthe web rests loosely on the roller 17 a and is drawn along merely by the friction due to gravity.
When this friction alone should not be sufficient to ensure the feeding of the web end pressing rollersmight evidently be provided.
I claim 1. The method offeeding a web intermittently or with periodic retardation, consist- .ing in causing it to pass in succession into "engagement with two feed devices, the first I .of which feeds it at a uniform rate, and the drawn from the roll 1, and the rate of move ment of the roller 9 and knife 23 can thus be second of which feeds it ata higher rate but allows slip when a backward ull is imposed, I
and deflecting the web perio ically between said feed devices, to produce a bight, while maintaining feeding engagement between said devicesand the web.
2. A machine for feeding a web intermittently or with periodic retardation, comprising two'feed devices throughwliich the web passes in succession, the first engaging the web without allowin slip, and feeding at a uniform rate, and t e second being driven for constant feeding engagement with the web at a higher speed. and at normal feed tension of the web but allowin slip where the web tension is increased, an aback pull (1 vice operating on the web between said fe devices, to increase theweb tension'for a slippage action soas to thereby produce peria odically a bightin the web. 3. A machlne as claimed in claim 2, wherein the second feed device consists of rollers between which the .web passes, said rollers constantly engaging the web with suflicient 1 pressure to automatically keep it taut behind them when no "pull is imposed on the, web between the two feed devices, but automaticall allowing slip when the bight is being forme 4. A machine as claimed in claim 2, where- .j
in the second feed device consists of a roller driven at a uniform-speed and a freely rotatable roller or rollers coacting therewith to engage the web.
5. A machine as claimed in claim 2, wherea rocking roller, and including means for timing the action of the rocking roller, and means for adjustin said roller relatively to the normal path 0 the web.
7. A machine as claimed in claim 2, where- 10 in the device for producing the bight comprises a rocking roller carried by a rotatable.
arm coupled with an actuating lever arm by means of a bolt working in a curved slot.
8; A machine as claimed in claim2, wherein the device for producing the bight comprises a rocking roller rocked by mechanism including a cam which is angularly adjustable on a driving shaft.
In testimony whereof I aifix my signature.
' GEORG SPIESS.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE1699507X | 1926-06-11 |
Publications (1)
Publication Number | Publication Date |
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US1699507A true US1699507A (en) | 1929-01-15 |
Family
ID=7739821
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US198384A Expired - Lifetime US1699507A (en) | 1926-06-11 | 1927-06-13 | Web-feeding mechanism |
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US (1) | US1699507A (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2796930A (en) * | 1954-10-05 | 1957-06-25 | Lipton Inc Thomas J | Continuous roll feed device |
US2831979A (en) * | 1952-02-21 | 1958-04-22 | Pako Corp | X-ray film-handling device |
US2958365A (en) * | 1953-05-29 | 1960-11-01 | Molins Machine Co Ltd | Apparatus for feeding and laminating strip material in desired spaced relationship |
US3016028A (en) * | 1957-07-09 | 1962-01-09 | Jetsaw Inc | Sewing machine and method |
US3165958A (en) * | 1962-03-14 | 1965-01-19 | Grace W R & Co | Dispensing apparatus for waximpregnated material |
US3903768A (en) * | 1971-12-20 | 1975-09-09 | Owens Illinois Inc | Machine for producing a plastic-covered glass container |
US4834697A (en) * | 1987-05-21 | 1989-05-30 | Mobil Oil Corporation | Driven guide roller indexing system |
-
1927
- 1927-06-13 US US198384A patent/US1699507A/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2831979A (en) * | 1952-02-21 | 1958-04-22 | Pako Corp | X-ray film-handling device |
US2958365A (en) * | 1953-05-29 | 1960-11-01 | Molins Machine Co Ltd | Apparatus for feeding and laminating strip material in desired spaced relationship |
US2796930A (en) * | 1954-10-05 | 1957-06-25 | Lipton Inc Thomas J | Continuous roll feed device |
US3016028A (en) * | 1957-07-09 | 1962-01-09 | Jetsaw Inc | Sewing machine and method |
US3165958A (en) * | 1962-03-14 | 1965-01-19 | Grace W R & Co | Dispensing apparatus for waximpregnated material |
US3903768A (en) * | 1971-12-20 | 1975-09-09 | Owens Illinois Inc | Machine for producing a plastic-covered glass container |
US4834697A (en) * | 1987-05-21 | 1989-05-30 | Mobil Oil Corporation | Driven guide roller indexing system |
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