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US3565003A - Mounting means for cylindrical screen assemblies with counterbalancing means - Google Patents

Mounting means for cylindrical screen assemblies with counterbalancing means Download PDF

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Publication number
US3565003A
US3565003A US708204A US3565003DA US3565003A US 3565003 A US3565003 A US 3565003A US 708204 A US708204 A US 708204A US 3565003D A US3565003D A US 3565003DA US 3565003 A US3565003 A US 3565003A
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Prior art keywords
screen
frame
machine frame
counterbalancing
machine
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US708204A
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Peter Zimmer
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Priority claimed from AT223968A external-priority patent/AT294155B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41FPRINTING MACHINES OR PRESSES
    • B41F15/00Screen printers
    • B41F15/14Details
    • B41F15/34Screens, Frames; Holders therefor
    • B41F15/38Screens, Frames; Holders therefor curved

Definitions

  • MOUNTING MEANS FOR CYLINDRICAL SCREEN ASSEMBLIES WITH COUNTERBALANCING MEANS This invention relates to a device for receiving cylindrical screens in a rotary screen-printing machine.
  • the screen cylinders are pressed against the material transported by the printing blanket, for example by a doctor roller provided inside the screens which is attracted by a magnet bar arranged below the printing blanket.
  • the material to be printed running through the machine often shows inequalities. in the case of textile material in particular, there are often seams running transversely to the longitudinal direction and guide motion of the material. In the case of thick textile material, the thickness of the material often varies. in order to avoid deformations and damages of the screen cylinders caused by the varying thickness of the material, the screen must be allowed to move upwardly or the material together with the printing blanket to move downwardly. If the screen is to move upwardly which would be the case when there is a firm support under the printing blanket -there are shortcomings in that considerable forces oppose the lifting effect due to inequalities of the weight of the screen and of the mountings thereof.
  • the counter weight balance for example by means of discharge or weight-compensating means such as weights, springs, magnets, etc., compensates the total weight of the aggregate to be lifted (or at least the major part of the weight), whereby the required contact pressure between the screen and the support has to be maintained.
  • the mere functional contact pressure between the screen and the support is to be overcome in the most favorable case, when the total weight of the screen assembly is exactly compensated for or offset by the weight balance. In the case of rotary screen printing machines according to the magnet-doctor roller system in particular, this contact pressure is relatively low.
  • the drawing is a schematic perspective view of one of usually several screen assemblies of a rotary screenprinting machine, whose major components are shown only fragmentarily and/or schematically.
  • the drawing shows part of the printing blanket 1 which moves in the longitudinal direction of the machine in operation and serves as a support and transport means for the material 2 to be printed.
  • Above the printing blanket usually on several points of the machine cylindrical screens 3 lying transversely to the longitudinal length and travel of the printing blanket l and touching the material 2.
  • the cylindrical screen 3 is held in screen holders 4, for example by axial spanning, or axial adjustment of the holders and thus a longitudinal tension of the screen cylinder is obtained.
  • the screen holders 4 are slidably mounted for said axial spanning on a pair of tubular carriers or carrier bars 5 which are combined to a frame by transverse pieces 5'.
  • This frame is movably mounted in vertical direction, on the longitudinal machine frame members or carriers 6 on both sides of the machine frame and transversely to the thrust plane, by means of pins 7 provided generally in the corners of the frame which are arranged in apertured or other suitable guides 8 on the longitudinal carriers 6.
  • a chain 9 is mounted on the bottom end of each pin 7 .
  • the chains 9 are led over a guide roller 10 provided on each longitudinal carrier 6 and each carry a discharge or counterbalance'weight 11 on their ends.
  • the discharge weights 11 quite together are adapted to exactly compensate or counteract the total weight of the screen assembly consisting of the cylindrical screen 3, the
  • a rotary screen support-frame disposed to support a rotary cylindrical screen of a screen assembly with the axis transversely normal tothe machine frame and to the longitudinal travel direction of the blanket;
  • counterbalancing means operatively connecting said screen assembly and said machine frame for counterbalancing the weight thereof.
  • said counterbalancing means including:
  • said screen-support frame includes a pair of spaced carrier bars disposed in parallel to the screen longitudinal axis and means mounting said pair of carrier bars movably on said machine frame transversely to said thrust plane under the action of said balancing means, and said screen holders having end portions for mounting on said bars.
  • said screen-support frame includes means connecting end portions of said spaced pair of carrier bars to form an assembly. frame.
  • said screen support frame as of a rectangular form having corners each with a depending pin generally adjacent thereto depending toward the thrust plane, which pins are adapted to cooperate with aperture bearing means on said machine frame to facilitate said vertical movement of-the screen and screen-support frame.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Screen Printers (AREA)

Abstract

A device for mounting cylindrical screens in a rotary screenprinting machine. The cylindrical screen and its mounting device is movably arranged on the machine for movement transversely to the printing blanket defined thrust plane and has weights for counterbalancing the device.

Description

PATENTED P55231971 PETER ZIMMEQ,
INVENTOR.
BY U0 0.01M!
MOUNTING MEANS FOR CYLINDRICAL SCREEN ASSEMBLIES WITH COUNTERBALANCING MEANS This invention relates to a device for receiving cylindrical screens in a rotary screen-printing machine.
ln rotary screen-printing machines in operation, the screen cylinders are pressed against the material transported by the printing blanket, for example by a doctor roller provided inside the screens which is attracted by a magnet bar arranged below the printing blanket. The material to be printed running through the machine often shows inequalities. in the case of textile material in particular, there are often seams running transversely to the longitudinal direction and guide motion of the material. In the case of thick textile material, the thickness of the material often varies. in order to avoid deformations and damages of the screen cylinders caused by the varying thickness of the material, the screen must be allowed to move upwardly or the material together with the printing blanket to move downwardly. If the screen is to move upwardly which would be the case when there is a firm support under the printing blanket -there are shortcomings in that considerable forces oppose the lifting effect due to inequalities of the weight of the screen and of the mountings thereof.
It is an object of the present invention to avoid these shortcomings, which is attained by providing that the cylindrical screen together with the machine parts pertinent to the mounting thereof is movably mounted transversely to the thrust plane defined by the printing blanket under counter weight balance.
The counter weight balance, for example by means of discharge or weight-compensating means such as weights, springs, magnets, etc., compensates the total weight of the aggregate to be lifted (or at least the major part of the weight), whereby the required contact pressure between the screen and the support has to be maintained. When the screen assembly is lifted during a printing operation due to an inequality in the material, the mere functional contact pressure between the screen and the support is to be overcome in the most favorable case, when the total weight of the screen assembly is exactly compensated for or offset by the weight balance. In the case of rotary screen printing machines according to the magnet-doctor roller system in particular, this contact pressure is relatively low.
An embodiment of the invention is hereinafter described with reference to the accompanying drawing without being limited to it. The drawing is a schematic perspective view of one of usually several screen assemblies of a rotary screenprinting machine, whose major components are shown only fragmentarily and/or schematically.
The drawing shows part of the printing blanket 1 which moves in the longitudinal direction of the machine in operation and serves as a support and transport means for the material 2 to be printed. Above the printing blanket, usually on several points of the machine cylindrical screens 3 lying transversely to the longitudinal length and travel of the printing blanket l and touching the material 2. In the zone of its two front sides the cylindrical screen 3 is held in screen holders 4, for example by axial spanning, or axial adjustment of the holders and thus a longitudinal tension of the screen cylinder is obtained. The screen holders 4 are slidably mounted for said axial spanning on a pair of tubular carriers or carrier bars 5 which are combined to a frame by transverse pieces 5'. This frame is movably mounted in vertical direction, on the longitudinal machine frame members or carriers 6 on both sides of the machine frame and transversely to the thrust plane, by means of pins 7 provided generally in the corners of the frame which are arranged in apertured or other suitable guides 8 on the longitudinal carriers 6. On the bottom end of each pin 7 a chain 9 is mounted. The chains 9 are led over a guide roller 10 provided on each longitudinal carrier 6 and each carry a discharge or counterbalance'weight 11 on their ends. The discharge weights 11 quite together are adapted to exactly compensate or counteract the total weight of the screen assembly consisting of the cylindrical screen 3, the
screen holders fl, the frames 5, 5 and the pins 7.
if an inequality of the material, for example a seam l2, ar-
frame and a printing blanket defining a printing thrust plane and traveling in a longitudinal direction of travel to support the material to be printed, improved means for mounting the rotary cylindrical screen assemblies in a counterbalanced manner, including a. a rotary screen support-frame disposed to support a rotary cylindrical screen of a screen assembly with the axis transversely normal tothe machine frame and to the longitudinal travel direction of the blanket;
b. a rotary screen assembly mounted on said screen supportframe which assembly comprises:
1. a rotaryprinting screen; 2. screen holders mounted on said frame with means for rotatably supporting said screen;
3. means cooperable with said machine frame adaptable to permit movement of said rotary screen assembly transversely to said thrust plane; and
counterbalancing means operatively connecting said screen assembly and said machine frame for counterbalancing the weight thereof. said counterbalancing means including:
1. complemental coacting means on said screen-supported frame and on said machine frame to facilitate relative movement of said screen and its frame toward and away from said thrust plane;
2. guide rollers provided on said machine frame at opposite sides adjacent the complemental means on said machine frame; and
3. cables, loaded with compensating weights at one cable end, being slidably guided over said machine-frame supported rollers to be acted upon by gravity and having the other respective cable ends connected to said screen assembly which by its mounting means tends to normally gravitationally move toward the thrust plane, and is counterbalanced by said weights of the counterbalancing means.
2. Means according to claim 1 wherein said screen-support frame includes a pair of spaced carrier bars disposed in parallel to the screen longitudinal axis and means mounting said pair of carrier bars movably on said machine frame transversely to said thrust plane under the action of said balancing means, and said screen holders having end portions for mounting on said bars.
3. Means according to claim 2 wherein said screen-support frame includes means connecting end portions of said spaced pair of carrier bars to form an assembly. frame.
4. Means according to claim 3 wherein said screen support frame as of a rectangular form having corners each with a depending pin generally adjacent thereto depending toward the thrust plane, which pins are adapted to cooperate with aperture bearing means on said machine frame to facilitate said vertical movement of-the screen and screen-support frame.

Claims (7)

1. In a rotary screen-printing machine having a machine frame and a printing blanket defining a printing thrust plane and traveling in a longitudinal direction of travel to support the material to be printed, improved means for mounting the rotary cylindrical screen assemblies in a counterbalanced manner, including a. a rotary screen support-frame disposed to support a rotary cylindrical screen of a screen assembly with the axis transversely normal to the machine frame and to the longitudinal travel direction of the blanket; b. a rotary screen assembly mounted on said screen support-frame which assembly comprises: 1. a rotary printing screen; 2. screen holders mounted on said frame with means for rotatably supporting said screen; 3. means cooperable with said machine frame adaptable to permit movement of said rotary screen assembly transversely to said thrust plane; and c. counterbalancing means operatively connecting said screen assembly and said machine frame for counterbalancing the weight thereof, said counterbalancing means including: 1. complemental coacting means on said screen-supported frame and on said machine frame to facilitate relative movement of said screen and its frame toward and away from said thrust plane; 2. guide rollers provided on said machine frame at opposite sides adjacent the complemental means on said machine frame; and 3. cables, loaded with compensating weights at one cable end, being slidably guided over said machine-frame supported rollers to be acted upon by gravity and having the other respective cable ends connected to said screen assembly which by its mounting means tends to normally gravitationally move toward the thrust plane, and is counterbalanced by said weights of the counterbalancing means.
2. guide rollers provided on said machine frame at opposite sides adjacent the complemental means on said machine frame; and
2. Means according to claim 1 wherein said screen-support frame includes a pair of spaced carrier bars disposed in parallel to the screen longitudinal axis and means mounting said pair of carrier bars movably on said machine frame transversely to said thrust plane under the action of said balancing means, and said screen holders havIng end portions for mounting on said bars.
3. Means according to claim 2 wherein said screen-support frame includes means connecting end portions of said spaced pair of carrier bars to form an assembly frame.
3. cables, loaded with compensating weights at one cable end, being slidably guided over said machine-frame supported rollers to be acted upon by gravity and having the other respective cable ends connected to said screen assembly which by its mounting means tends to normally gravitationally move toward the thrust plane, and is counterbalanced by said weights of the counterbalancing means.
3. means cooperable with said machine frame adaptable to permit movement of said rotary screen assembly transversely to said thrust plane; and c. counterbalancing means operatively connecting said screen assembly and said machine frame for counterbalancing the weight thereof, said counterbalancing means including:
4. Means according to claim 3 wherein said screen support frame as of a rectangular form having corners each with a depending pin generally adjacent thereto depending toward the thrust plane, which pins are adapted to cooperate with aperture bearing means on said machine frame to facilitate said vertical movement of the screen and screen-support frame.
US708204A 1968-03-07 1968-02-26 Mounting means for cylindrical screen assemblies with counterbalancing means Expired - Lifetime US3565003A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
AT223968A AT294155B (en) 1967-03-13 1968-03-07 Process and system for the continuous refining of metals

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US3565003A true US3565003A (en) 1971-02-23

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3834307A (en) * 1971-09-06 1974-09-10 P Zimmer Rotary screen interrupter with squeegee lift means
US3874291A (en) * 1973-08-13 1975-04-01 Bartizan Corp Credit card imprinting apparatus
US5213033A (en) * 1991-05-10 1993-05-25 Illinois Tool Works Inc. Press-ready rotary screen printing apparatus

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US445291A (en) * 1891-01-27 Appaeatijs foe stamping billets
US453988A (en) * 1891-06-09 Printing-machine
US781114A (en) * 1904-04-26 1905-01-31 Ferdinand Wesel Printing-press.
US1227176A (en) * 1916-07-03 1917-05-22 Clarence E Morrison Rotary duplicating-machine.
US1411267A (en) * 1920-12-30 1922-04-04 Hacker Mfg Co Printing press
US1411268A (en) * 1920-12-30 1922-04-04 Hacker Mfg Co Printing press
US2206570A (en) * 1938-04-04 1940-07-02 Johnston John Hugh Multicolor flock printing machine
US3116687A (en) * 1962-01-24 1964-01-07 Harding Leonard Printing presses
US3183831A (en) * 1961-07-31 1965-05-18 Zimmer Franz Peter Rotary printing machine

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US445291A (en) * 1891-01-27 Appaeatijs foe stamping billets
US453988A (en) * 1891-06-09 Printing-machine
US781114A (en) * 1904-04-26 1905-01-31 Ferdinand Wesel Printing-press.
US1227176A (en) * 1916-07-03 1917-05-22 Clarence E Morrison Rotary duplicating-machine.
US1411267A (en) * 1920-12-30 1922-04-04 Hacker Mfg Co Printing press
US1411268A (en) * 1920-12-30 1922-04-04 Hacker Mfg Co Printing press
US2206570A (en) * 1938-04-04 1940-07-02 Johnston John Hugh Multicolor flock printing machine
US3183831A (en) * 1961-07-31 1965-05-18 Zimmer Franz Peter Rotary printing machine
US3116687A (en) * 1962-01-24 1964-01-07 Harding Leonard Printing presses

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3834307A (en) * 1971-09-06 1974-09-10 P Zimmer Rotary screen interrupter with squeegee lift means
US3874291A (en) * 1973-08-13 1975-04-01 Bartizan Corp Credit card imprinting apparatus
US5213033A (en) * 1991-05-10 1993-05-25 Illinois Tool Works Inc. Press-ready rotary screen printing apparatus

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