US2997248A - Predrive and transition tension system for web splicing apparatus - Google Patents
Predrive and transition tension system for web splicing apparatus Download PDFInfo
- Publication number
- US2997248A US2997248A US689067A US68906757A US2997248A US 2997248 A US2997248 A US 2997248A US 689067 A US689067 A US 689067A US 68906757 A US68906757 A US 68906757A US 2997248 A US2997248 A US 2997248A
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- United States
- Prior art keywords
- new roll
- web
- tension
- roll
- clutch
- 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.)
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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
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/18—Attaching, e.g. pasting, the replacement web to the expiring web
- B65H19/1884—Details for effecting a positive rotation of web roll, e.g. accelerating the replacement roll
- B65H19/1889—Details for effecting a positive rotation of web roll, e.g. accelerating the replacement roll related to driving arrangements
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/18—Attaching, e.g. pasting, the replacement web to the expiring web
- B65H19/1805—Flying splicing, i.e. the expiring web moving during splicing contact
- B65H19/181—Flying splicing, i.e. the expiring web moving during splicing contact taking place on the replacement roll
- B65H19/1821—Flying splicing, i.e. the expiring web moving during splicing contact taking place on the replacement roll the replacement web being accelerated or running prior to splicing contact
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/18—Attaching, e.g. pasting, the replacement web to the expiring web
- B65H19/1857—Support arrangement of web rolls
- B65H19/1868—The roll support being of the turret type
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/46—Splicing
- B65H2301/463—Splicing splicing means, i.e. means by which a web end is bound to another web end
- B65H2301/4633—Glue
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/46—Splicing
- B65H2301/464—Splicing effecting splice
- B65H2301/4641—Splicing effecting splice by pivoting element
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/20—Location in space
- B65H2511/21—Angle
- B65H2511/212—Rotary position
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2511/00—Dimensions; Position; Numbers; Identification; Occurrences
- B65H2511/50—Occurence
- B65H2511/51—Presence
Definitions
- This invention relates in general to web splicing apparatus for making what is known in the art as flying pasters, i.e., joining the leading edge of a new roll web to a running web drawn from an expiring roll into a web-processing device and severing the old web, all without interrupting or slowing down the feed of the web material to the processing device. More particularly, the invention relates to improvements in predriving a new roll or bringing it up to speed before a splice is made, and in braking the new roll immediately after a splice is made to create transition tension in the new web.
- the general aim of the invention is to provide a structurally simple, rugged, and inexpensive arrangement for precisely predriving a new roll and for creating the proper transition tension in a new roll web.
- an object of the invention is to greatly reduce the number of control instrumentalities required for predriving and transition tensioning, yet without sacrificing performance characteristics or reliability.
- a related object is to provide apparatus for predriving a new roll at a peripheral speed which is precisely related to the linear speed of a running weband to accomplish that without the requirement for control components which need to be carefully adjusted during installation or subsequent operation, as for example in servomechanism systems.
- Another important object is to create such a predriving system which is readily applied to existing paster equipment, and which is easily adapted to accommodate changes in the relative positions of the web-consuming units, folders, or paster components with a minimum of redesign or structural changes in the predriving apparatus.
- Another object of the invention is to provide such a simplified arrangement for predriving and transition tensioning in which the magnitude of the transition tension is caused to gradually decrease as the tension created by the regular tension system is progressively increased.
- Still another object is to make one slippable coupling perform two functions, i.e., smoothly accelerating the new roll during predriving, and controlling the value of the braking torque applied to the new roll to create transition tension.
- An additional object is to make possible accurate predriving of a new roll from the Web-processing device itself or the power drive means therefor, thus eliminating a separate source of power for the predriving energy, and yet at the same time positively protecting against impacts or undue accelerations of the new roll which might strain or otherwise damage the driving connections.
- FIGURE 1 is a diagrammatic representation of web splicing and tensioning apparatus embodying the features of the present invention and associated with a printing press;
- FIG. 2 is a fragmentary, diagrammatic view of a portion of the roll-supporting reel, illustrating the cams, limit switches, slip rings, and brushes associated there- With for control purposes;
- FIG. 3 is a side elevation of a part of the sub-structure of a printing press, particularly showing the physical components of the web splicing apparatus;
- FIG. 4 is an end view, taken partially in section along the offset line 44 in FIG. 3;
- FIG. 5 is a plan view of the predrive and transition tension carriage, together with associated drive connections thereto;
- FIGS. 6 and 7 are sectional views, taken substantially along the lines 6-6 and 77 in FIG. 5, of a magnetic particle clutch and a magnetic particle brake, respectively;
- FIG. 8 is a schematic wiring diagram of the controls for the web splicing apparatus
- FIG. 9 is a graph of the torque versus time variation which is produced by the control means to gradually reduce transition tension
- FIG. 10 is in general similar to FIG. 5, illustrating a modified embodiment of the invention.
- FIG. 11 is a section view taken substantially along the line 11-41 in FIG. 10 and showing details of an electric clutch and brake;
- FIGS. 12 and 13 are schematic wiring diagrams which when taken with FIG. 8 illustrate the control means for the modified embodiment.
- FIGS. 1 and 2 by way of setting the background environment for the present invention, is of the type disclosed and claimed in the copending application of Chase et al., Serial No. 502,923, filed April 21, 1955, now US. Patent No. 2,963,234. Reference may be had to that application for details, and the apparatus will be described here only in general terms to facilitate the understanding of the present invention.
- the apparatus includes a movable support for paper rolls, here shown as a reel assembly 15, located beneath a predrive and transition tension assembly 16 on one side and a paster carriage assembly 17 on the other side.
- a reel assembly 15 located beneath a predrive and transition tension assembly 16 on one side and a paster carriage assembly 17 on the other side.
- Axially spaced on a reel shaft 18 are two spiders 20, Ziia (FIGS. 1 and 4) which rotatably support three web rolls 21, 22, and 23.
- the roll 21 may be termed the expiring roll since it is shown in the supply position with the web W being drawn therefrom upwardly into a web-processing device or printing press symbolically represented at 25.
- the roll 22 may be termed the new roll since it is the one from which the running Web will be drawn after a splicing operation has been completed.
- the roll 23 may be termed the newly-loaded roll since upon advance rotation of the reel shaft 18, it will move to the new roll position and the expired roll 21 will be located for replacement by another
- the reel shaft 1-8 is drivingly connected with a reel motor RM selectively energized from a suitable voltage source through the contacts RMOl, RMC2, and RMCB of a contactor having a coil RMC.
- a reel motor RM selectively energized from a suitable voltage source through the contacts RMOl, RMC2, and RMCB of a contactor having a coil RMC.
- each of the roll-supporting spindles carried by the respective arms of the spider 26 has: a cam C1, C2, or C3 associated therewith and operative to open and close a pair of breaker points CPvl, CP2 or CP3 once each time that the spindle rotates through a given angular position.
- the spider 20 carries a first slip ring 30 which is circular in extent, and a second slip ring 31 made up of three segments S1, S2, S3.
- a regular tensioning system is provided to brake the rotation of the supply roll 21 and maintain a predetermined, adjustable tension in the web W as it is drawn upwardly into the press 25 at a linear speed dependent upon the press speed, i.e., the speed of a press drive motor PM.
- This system is preferably of the pneumatic type disclosed and claimed in US. Patent No. 2,743,881, issued May 1, 1956 issued to McWhorter, to which reference may be made for a more detailed description.
- the automatic tensioning system includes stationary tension straps 40 spaced along the roll length, fixed to springs 41 at their lower ends, and extending upwardly to anchor points 42, so that they partially wrap and frictionally engage the periphery of the expiring roll 21.
- the web W passes between spaced rollers 44, 45 and over a floating roller 46 carried by a depending arm 48 pivoted at 49.
- the arm 48 is balanced between a loading cylinder 50, supplied with air pressure from a reservoir 51 through a pressure regulating valve 52, and a tension control valve 54 supplied with air pressure from the reservoir and connected, upon movement of its plunger 54a, to control the pressure supplied through a conduit 53 to a pneumatic actuator or ram 55 interposed between the lower ends of the tension belts 40 and a balancing cylinder.
- the arm 48 is rocked about its pivot 49, thereby shifting the plunger 54a so that the ram 55 increases or decreases the pressure with which the straps 40 engage and frictionally retard the expiring roll 21.
- the frictional drag of the straps 40 on the expiring roll 21 is thus automatically increased or decreased to maintain the tension in the web W at the desired value.
- the value of the tension which is automatically maintained in the web may be adjusted by setting a control member, which in this instance is the adjustment knob 52a of the pressure regulating valve 52, the latter determining the force exerted by the loading cylinder 50.
- a pressuresensitive rheostat PR is interconnected with the running tension control system so that as the controlled value of the running tension is adjusted by setting the valve 52, the value of the variable resistor PR is correspondingly changed.
- an expansible bellows 60 communicates with the pneumatic conduit on the output side of the pressure regulating valve 52 and the free end of the bellows 60 is pivoted to a swinging arm 61 which carries at its lower end a slidable contact.
- the value of the resistance connected between the two lines 62, 6 3 and leading to the conctrol circuit 64 depends directly upon the value of the tension which is automatically maintained in the running web W.
- the pre-drive assembly 16 (FIGS. 1, 4 and 5) is mounted on the upper portions of Y-shaped supports 51 which also journal the reel shaft 18.
- the assembly includes a carriage 66 movable or pivotable between a retracted position (permitting clearance for a roll to pass as the reel rotates) and an operative position (permitting the new roll to be either driven or braked).
- Such movement is effected by a double-acting pneumatic actuator 68 under the control of a four-way valve 69 shifted between its two positions in response to energization or de-energization of a pre-drive solenoid PDS.
- the carriage 66 rotatably supports an endless belt 70 which may thus be lowered into frictional driving engagement with the new roll 22 (FIG. 1), or retracted (FIG. 3) to permit the newly loaded roll 23 to be rotated by the reel into the new roll position.
- the paster carriage assembly 17 functions to deflect the running web W against the properly positioned new roll 22 in order to bond the running web to the leading edge of the new roll, and to sever the old web from the expiring roll 21.
- This assembly includes a carriage 75 pivoted to rock between raised and lowered positions about a support shaft 76 under the influence of a double-acting pneumatic ram 77 controlled by a fourway solenoid valve 78 moved between its two positions in response to energization or de-energization of a paster carriage solenoid PCS.
- a plurality of brushes 79 mounted on a rotatable shaft 80 which is cocked against the biasing force of torsion springs (not shown) and retained by means of a latch 81.
- the latch 81 may be released by energization of a brush solenoid BS, so that brushes 79 mounted on the shaft 80 swing outwardly and deflect the web W against the rotating new roll 22. This, in turn, causes the web W to adhere to the paste on the leading edge of the new roll web, pulling the latter upwardly into the press.
- a plurality of knives 82 fixed to a rotatable shaft 84 cocked against the bias of torsion springs (not shown) and retained by means of a latch 85.
- the latch 85 may be shifted upon movement of the armature of the knife solenoid KS, so that, with the carriage 75 in its lowered position, the knives 82 swing outwardly to sever the web W at a point heneath the brushes 79, thus severing the web being drawn from the expiring roll 21.
- a first carriage limit switch lCLS is mounted on a stationary support and located such that its actuator wiil be depressed by the carriage itself when the latter is fully elevated to an out-of-the-way position as illustrated.
- a second carriage limit switch 2018, here shown in the form of a mercury bottle type of switch is mounted on the carriage itself so that the mercury will have one position in the bottle when the carriage is elevated and another position in the bottle when the pastor carriage is lowered. The mercury thus makes and breaks electrical contacts for control purposes, as will be explained hereinafter.
- the new roll is predriven from the power-driven web-processing device or press 25 through a disengageable drive connection which includes a coupling slippable upon the application of a predetermined adjustable torque, so that as predriving begins the coupling slips to cause smooth acceleration of the new roll, but entirely ceases to slip and thus drives the new roll in exact timed relation to the press and therefore in the exact speed relationship to the velocity of the running web after the acceleration period.
- the predriving connection is disengaged, and a disengageable braking connection to the new roll, which includes a coupling slippable upon the application of a predetermined, adjustable torque, is completed.
- the magnitude of that braking torque and thus the amount of transition ten sion may be made automatically to match the degree of tension maintained automatically under normal conditions by the tensioning straps 40.
- the slippable coupling in the braking connection is so controlled that the braking torque transmitted thereby to the new roll progressively decreases, thus making the sum of the transition tension and the tension created by the straps 40 equal to the desired value as the regular tension straps gradually assume full control.
- the press motor PM is mounted on the press frame above the paster carriage 75 and has an output shaft 90 working into a transmission 91 which drives the rotary cylinders (not shown) of the printing press.
- the motor PM is of the variable speed type, so that the press may be driven at any desired speed Within a given range.
- the predrive assembly 16 includes a mounting frame 95 which is slidably supported on cross bars 96, 97 in order that the belt 71 may be positioned axially of the new roll to have driving engagement with the latter at any selected axial location.
- the predrive belt carriage 66 includes side members 66:: which are spaced apart and supported at one end by bearings 98 mounted on a sleeve 99 keyed to but axially slidable along a drive shaft 100.
- the drive shaft 10% and sleeve 99 may thus rotate relative to the side members 66a, and the side members 66a may pivot about the axis of the drive shaft 100- by virtue of the bearings 98.
- the pneumatic cylinder 68 is mounted fast on the frame 95, and its piston rod 68a is connected through a linkage 101 to the side members 66a.
- the belt 70 is trained over pulleys 102 and 103, the former being keyed to the sleeve 99, and the latter being journaled on a rod 1114 supported by and at the opposite ends of the side members 66a.
- a disengageable drive connection including a slippable coupling, is established from the press motor PM, or a rotary part of the press driven by the motor PM, to the shaft lilril.
- a belt 105 is trained over a pulley 106 mounted on the output shaft 90 of the motor PM, and connected to the input pulley 198 of a right-angle gear box 109 having an output shaft with a pulley 110 mounted thereon.
- the gear box output pulley 110 is, in turn, drivingly connected by a second belt 111 to a pulley 112 mounted on the input shaft 113 of a drive coupling device 114 which has the characteristic of being slippable at a predetermined adjustable torque.
- the belt 111 may be passed over an adjustable tightener pulley 111a to tension the same and compensate for excess length therein.
- this construction makes it possible to use all the same parts in installations where distances between units of the press or location of pasters are changed.
- the distance between pulleys 110 and 112 can be changed considerably without aifecting any of the component parts.
- the drive belts 105 and 111 are preferably of toothed construction so that there is absolutely no slippage and the desired drive ratio is obtained.
- the coupling device 114 is an electromagnetic particle clutch having an output shaft 115 mounting a pulley 116 connected by a drive belt 118 to a pulley 1119 fast on the drive shaft 100.
- a drive connection is established from the press motor PM through the transmission 109 to the drive shaft 1%, and thence through the lowered predrive belt 70 to the new roll 22.
- the particle clutch 1.14 will slip so that there is neither a shock imposed on the drive connections nor a sudden load imposed on the press motor PM.
- the particle clutch 1-14 slips, it will transmit a certain torque, depending upon the value of energizing current supplied thereto, so that the new roll will gradually accelerate.
- the clutch 114 will cease slipping so that the new roll will be driven in precisely timed relation to the speed of the press (and the velocity of the web W) as determined by the press motor.
- the torque transmissible by the clutch 114 without slippage thereof is made to have a value low enough to accelerate the new roll without shock but high enough to maintain speed after acceleration.
- the peripheral speed of the new roll may be made to match very exactly the lineal speed of the running web W, or to have exactly the desired ratio to the speed of the web W, prior to a splicing operation. And it is particularly noteworthy that even though the press motor PM may at different times be running at different speeds, both the lineal speed of the running web W and the rotational speed of the predriven new roll will be proportional to the press motor speed, so that the necessary matching of the new roll peripheral speed to the lineal speed of the running web will be obtained regardless of the particular speed at which the press is operating.
- this clutch comprises a housing 125 having a flange 125a suitably bolted or otherwise fixed to the press frame members 51.
- the input shaft 113 which carries the pulley 112, extends into the housing :125 and is journaled by anti-friction bearings 126.
- a cylindrical clutch element 128 made of ferromagnetic material ad which is substantially surrounded by a hollow cylindrical clutch element 12-9 also ferromagnetic and rigid with the inner end of the output shaft 115, the latter also being journaled in the housing by suitable anti-friction bearings 130.
- the hollow cylindrical element 129 defines with the clutch element 128 a cavity 131 which may be filed with a viscous material such as oil or light grease in which is dispersed a large number of magnetizable particles, e.g., iron filings or powder. In some instances the cavity may be filled simply with iron powder and the viscous material or oil omitted.
- the oil-particle mixture 132 is retained within the cavity by a suitable seal 134 at the point where the shaft 113 projects through the hollow cylindrical element 129.
- the two clutch elements 128 and 129 normally are free to rotate relative to one another.
- a clutch excitation coil 135 is disposed within the housing 125, being closely spaced to the outer surface of the hollow cylindrical clutch element 129.
- magnetic flux is set up which passes through the insert 136, the clutch element 129, the oil-particle mixture 132, and the clutch element 128. This causes the mixture 132 to stiffen and become much more viscous so that torque is transmitted from one clutch element to the other.
- the magnitude of the transmi sible torque is proportional to the value of the exciting current supplied to the coil 135, and it with the coil 135 energized the torque imposed on the clutch 114 exceeds a certain value, the two clutch elements will slip relative to one another.
- a characteristic of this particular type of clutch device is that it will transmit up to a predetermined torque between its input and output shafts which is related to the value of excitation current supplied to the coil 135, and if the torque applied to the clutch exceeds that value, the two elements will slip while continuing to transmit the predetermined torque.
- This type of clutch creates a torque bias dependent upon the value of excitation current, and that value of torque will continue to be transmitted whether or not the input torque is excessive and the two clutch elements slip relative to one another. However, if the input torque is equal to or less than the torque bias of the clutch, the iron powder locks the two clutch elements together so that the input element drives the output element without relative slippage.
- a disengageable braking connection including a coupling slippable at a predetermined, adjustable torque, is provided to the drive shaft 100 and thus to the new roll 22 when the belt 70 is engaged with the new roll.
- one end of the drive shaft 100 projects into an electromagnetic brake 138 which is preferably of the magnetic particle type.
- the magnetic particle brake 138 includes a housing 139 having a flange 139a rigidly fixed "as by bolts to the frame 51.
- the drive shaft 100 extends into the housing 39, being journaled by suitable anti-friction bearings 140, 'and carries on its inner end a brake rotor 141.
- a hollow cylindrical brake stator 142 which surrounds the rotor 141 and define-s therewith a cavity 144.
- This cavity is filled with a viscous material such as oil or grease in which is dispersed a plurality of particles of magnetic material such as iron filings or powder.
- the oil-particle mixture 145 in the cavity 144 thus permits the brake rotor 141 to turn freely relative to the stator 142 when it is not stiifened by magnetic flux passing therethrough.
- An excitation coil 146 is carried by a magnetic insert 148 forming a part of the housing 139 and rigidly connected with the stator 142.
- the insert 148, the stator 142, and the rotor 141 are all made of high permeability metal, when the brake coil 146 is excited with current, magnetic flux passes through the oil-particle mixture 145, causing the latter to stifien so that braking torque is transferred from the stator 142 to the rotor 141 and thus to the drive shaft 100.
- the magnitude of this braking torque is dependent upon the value of exciting current supplied to the coil 146, and the braking torque or retarding force on the shaft 100 will remain the same even though a greater input torque to the shaft 100 exists and causes the rotor 141 to slip relative to the stator 142.
- the magnetic particle clutch 114, and the magnetic particle brake 138 are so controlled that the latter is released and a predriving connection is established through the former from the press motor to the new roll prior to a splicing or pasting operation. Moreover, immediately after a splicing operation, the magnetic particle clutch is disengaged by de-energizing its exciting winding; and a braking connection retarding the new roll 22 sufficiently so that the transition tension matches the value of the running tension is established by energization of the brake coil 146.
- the braking torque created by the magnetic particle brake 138 is caused to progressively decrease as the reel 15 turns after a splicing operation and moves the new roll 22 progressively farther into operative engagement with the regular tensioning straps 40 (FIG. 1).
- control systern such as that schematically diagrammed in FIG. 8, is employed.
- the control system may best be described by a narrative of its sequential operation during one complete cycle of operation.
- a Position push button switch having normally open contacts 150 and 151 (FIG. 8). Closure of the contacts 150 connects the reel motor contactor coil RMC across the voltage supply lines L1, L2 through the normally closed contacts PEI of the photoelectric relay PE, shown physically in FIG. 1. Simultaneous closure of the contacts 151 energizes the coil POSof a position relay, which then seals in through its own norm-ally open contacts P052 and the normally closed reel limit switch contacts RLS la. With this, an auxiliary line L3 is placed at the same potential as the line L1.
- the contacts PEI (FIG. 8) will open to de-energize the reel motor oontactor coil RMC, thus de-energizing the reel motor RM and stopping the reel with the new roll 22 in the desired pre-paste position, as illustrated in FIG. 1.
- the valve 78 (FIG. 1) is positioned to cause the pneumatic ram 77 to lower the pastor carriage 75 into a depending position adjacent the running web- W.
- the pastor carriage 75 As the pastor carriage 75 is lowered, it moves free of the actuator for the first carriage limit switch 1CLS (FIG. 1), so that the normally open contacts 1CLS1 (FIG. 8) close to energize the predrive solenoid PDS from the line L3.
- Energization of the solenoid PDS shifts the valve 69 (FIG. 1) so that the pneumatic ram 68 causes the predrive carriage 66 and the belt 70 to be lowered into engagement with the new roll 22.
- a Predrive push button switch having normally open contacts 152.
- This energizes the coil PD of a predrive relay through the normally closed reel limit switch RLS2, and that relay is sealed in through its own normally open contacts PD1.
- Pick-up and sealin of the predrive relay PD places an auxiliary line L4 at the same potential as the line L1, so that current now flows through normally closed contacts KR3 of a knife relay through full wave array of rectifiers 154, through the magnetic particle clutch coil 135, and through a current-adjusting rheostat 155 to the line L2.
- the rheostat 155 may be manually adjusted so that the value of current flowing through the clutch coil 135 creates the desired predriving torque on the new roll.
- the magnetic particle clutch 114- creates driving connection from the press motor PM through the belt 104, the transmission 109, the belt 111, and belt 118, the drive shaft 100, and the predrive belt 70 to the new roll as previously explained. Because the particle clutch 114 slips before transmitting more than a predetermined value of torque, no shock or jar is imposed on the new roll, nor is a sudden load imposed on the press motor PM.
- the particle clutch 114 slips considerably at first, gradually accelerating the new roll until the latter is up to speed and all slippage of the magnetic particle clutch ceases because it is no longer required to transmit a torque greater than that needed to overcome frictional resistance to rotation.
- the belts in the driving connection are preferably of the toothed variety to prevent slippage, and since the drive ratio from the press motor to the new roll can be chosen by selecting pulleys of proper diameters and a transmission 169 of proper drive ratio, the new roll 22 is thus driven in timed relation to the press motor PM and the lineal speed of the running web W.
- the peripheral speed of the new roll has precisely the desired relation to the lineal speed of the Web W, either exactly equalling that lineal speed or being slightly greater or less, as may be desired in any particular installation.
- the relay coil E is momentarily energized a second time.
- the normally open contacts E4 momentarily close and create an energization circuit for the knife solenoid KS through the now closed contacts BLSl. Accordingly, the knife solenoid releases the knife latch 85, as previously explained in connection with FIG. 1, so that the knives 82 swing forwardly and sever the old web being drawn from the expiring roll 21.
- the running web W is now drawn from the new roll 22, and the expiring roll 21 is completely disassociated from the press supply.
- the contacts KR2 of the knife relay KR close to create a seal-in circuit for the relay E, preventing the latter from picking up and dropping out as the contact points CP2 continue to close and open.
- the normally closed contacts KR3 of the knife relay open to break the energization path for the magnetic particle clutch coil 135, so that the magnetic clutch is de-energized and the driving connection from the press motor PM to the new roll is disengaged.
- the normally open contacts KR4 close to complete an energization path from the line L4 through a full wave array of rectifiers 158 and normally closed reel limit switch contacts RLSla and RLSlb for the magnetic brake coil 146.
- the magnitude of current flow through the brake exciting coil 146 is determined by the automatic setting of the pressure rheostat PR and thus the braking force exerted by the brake 138 on the new roll will automatically create the same degree of tension in the web as would be obtained under normal circumstances from the tension straps 40.
- the normally closed second carriage limit switch contacts ZCLSa reclose, and energize the contactor coil RMC through the now closed contacts PA3. It will be observed that at the beginning of the operational cycle, the contacts ZCLSa were closed with the paster carriage raised, but the contacts PA3 were then open so that the contacts ZCLSa did not create an energization path for the coil RMC. Upon this energization of the contactor coil RMC, the contacts RMCI, RMC2, RMC3 close to energize the reel motor RM (FIG. 1) which drives the reel in a clockwise direction moving the new roll 22 toward the tensioning straps 40.
- the capacitor 159 serves as a means for gradually reducing the current flow through the brake exciting coil 146 and thus gradually reducing the retarding torque created by the brake 138 as the new roll moves progressively into operative engagement with the tensioning straps 4A This will be clear since one may observe that as soon as the contacts RLSla and RLSlb open, the capacitor 159, which was previously charged with the polarity noted in FIG. 8, begins to discharge through the resistor 168 and the brake coil 146.
- the brake 138 is energized and retards the new roll to create transition tension in the new web which has a value indicated at 162. During this interval, the straps 40 do not contribute to the web tension, since the new roll is not in contact with them.
- the cam '36 actuates the reel limit switch RLSZ (FIG. 2).
- reel limit switch RLSZa (FIG. 8) open to drop out the relay PD, thereby causing the normally open contacts PDZ (which were closed to seal in the solenoid PDS even though the carriage limit switch contacts 1CLS1 opened as the paster carriage was retracted) to re-open to deenergize the predrive solenoid PDS.
- the valve 69 is set to move the pneumatic ram 68 (FIG. 1) so that it raises the predrive carriage 66 to its elevated position.
- the cam 36 actuates the reel limit switch RLS4 (FIG. 2), thereby opening the normally closed contacts RLS4a (FIG. 8) in the sealing circuit for the relay coil POS.
- the relay POS is dropped out so that the contacts PO82 open and de-energize all control components connected to the auxiliary line L3.
- the relay PA is tie-energized, and the contacts PAS re-open to break the sealing circuit for the reel motor contactor RMC. Therefore, the contacts RMOl, RMCZ, RMC3 in FIG. 1 open to de-energize the reel motor RM and the apparatus is thus in its regular running condition with the web being taken from the roll 22 instead of the roll 21.
- FIGS. 10l3 a second embodiment of the invention is there illustrated which performs with all of the advantages of the first-described embodiment and requires but a single slippable drive coupling.
- the same identifying reference characters will be used, and only the principal difierences between the two embodiments will be described.
- the predrive carriage '66 is adapted to be raised or lowered about the shaft 100, and the belt 70 is arranged to be driven from or braked by the shaft 108, as previously described.
- a drive connection is made from the press motor PM through the belt 105, the transmission 109, and the belt 111 to the pulley 112, as previously described.
- the shaft is not directly associated with a magnetic particle brake, as previously described, but is simply journaled by a suitable bearing in the frame 51.
- a brake and a clutch are arranged to be operative on an intermediate drive shaft 174.
- This latter brake and clutch need not be slippable couplings, and in preferred form are embodied by a combination electromagnetic brake-clutch 172.
- FIG. 11 best illustrates the construction of the brakeclutch 172.
- the pulley 112 is mounted on an input shaft 174 journaled in a housing 175 having a flange 175a bolted or otherwise fastened to the press frame 51.
- the inner end of the shaft 174 is flanged and carries a plurality of circularly spaced pins 176 on which is slidable a magnetic armature 178 having a friction clutch surface 179.
- the latter is connected with slip rings 186 mounted in an insulating member 188 carried by the flange member 181 and engaged with brushes 189 supnals 1 90.
- the flange member 181 For the purpose of braking the shaft 180, the flange member 181 carries a plurality of circularly spaced pins on which is axially slidable a brake armature 194 having a friction surface 195. Axially opposite the armature 194, a brake stator 196 is rigidly fixed to the housing 175, containing a brake coil 198 and having a friction surface 199. When exciting current is supplied to the brake coil 198, the brake armature 194 will be attracted toward the brake member 196, bringing the frictional surfaces 195 and 199 into firm engagement sothat the shaft 180 is held stationary.
- the present brake and clutch embodied by the device 172 is intended to have positive locking action between the cooperating clutch elements and the cooperating brake elements. It will be apparent that a positive drive connection is established from the input shaft 174 to the output shaft 180 whenever the clutch coil 184- is energized; and that a positive braking connection is established from the stationary housing 175 to the output shaft 181 whenever the brake coil 198 is energized.
- the output shaft 130 is connected by a positive coupling 200 to the intermediate drive shaft 171.
- the shaft 171 forms the input to a slippable coupling which is here shown in FIG. as a magnetic particle clutch 114A similar in all respects to the particle clutch 114 (FIG. 6) previously described.
- the particle clutch 114A has an output shaft 201 mounting a pulley 202 which is connected by a belt 204 to a pulley 205 fast on the drive shaft 100. It will thus be apparent that Whenever a drive connection is established through the clutch of the device 172, the magnetic particle clutch 114A is also included in the drive connection from the press motor PM to the predn've belt '70 and the new roll 22. On the other hand, when a braking connection is established by the device 172, holding the shaft 180 stationary, then the magnetic particle clutch 114A is also included in the braking connection from the frame 51 to the drive shaft lift), the belt 70 and the new roll 22.
- means which establish a disengageable driving connection from the press motor, or a part rotatable therewith, to the new roll, such connection including the positive clutch in the device 172 as Well as a slippable drive coupling formed by the particle clutch 114A. Additionally, when it is desired to brake the new roll in order to create transition tension, the brake within the device 172 positively holds the output shaft 180 stationary, the braking connection from that output shaft to the new roll including the slippable coupling device embodied by the particle clutch 114A.
- the friction brake elements 195, 199 need not slip relative to one another, but the clutch elements within the particle clutch 114A may slip relative to one another and transmit a torque depending upon the value of the current employed to excite the coil of the particle clutch 114A.
- FIG. 12 illustrates in the dotted enclosure A controls which are substituted for those in the dotted enclosure 14 A of FIG. 8; and
- FIG. 13 illustrates in the dotted enclosure B controls Which are substituted for those in the dotted enclosure B of FIG. 8, in carrying out the second embodiment of the invention.
- the cycle of operation proceeds as previously described with reference to FIG. 8 up to the time when the Predrive push button switch is actuated.
- the excitation coil A for the magnetic particle clutch 114A is energized by current flow through a full wave array of rectifiers 210, normally closed contacts RLSla, normally closed contacts KR7 (controlled by the relay coil KR) and normally closed contacts RLS1b.
- a driving connection from the motor PM is estab lished through the clutch-brake device 172, and the slippable magnetic particle clutch 114A is energized to transmit a predetermined torque to the drive shaft 100, the belt 7 0 and the new roll 22. Because the particle clutch 114A can slip, no shock or overload is placed on the press drive motor PM. The new roll 22 is therefore smoothly accelerated until it reaches full speed and the magnetic particle clutch 114A ceases to slip.
- the operator momentarily closes the Paste push button switch, so that the brush solenoid BS is energized to release the brushes and the knife solenoid KS subsequently energized to release the knives, as previously described in connection with FIG. 8.
- the knife control relay KR is also energized. Therefore, immediately after a splicing operation, the contacts KR8 (FIG. 13) open to de-energize the clutch coil 184, while the contacts KR9 close to energize the brake coil 198.
- the clutch in the device 172 is released to dis-engage the drive connection from the press motor PM, while the brake in the device 172 is engaged to hold the output shaft (FIG. 11) stationary.
- the contacts KR7 open so that current flow through the magnetic particle clutch coil 135A is then limited according to the setting of the pressure rheostat PR.
- the setting of this rheostat PR is, as previously explained in connection with FIG. 1, varied automatically according to the value of tension which is automatically maintained in the running web by the straps 40.
- the magnetic particle clutch 114A transmits only a predetermined braking torque to the shaft .100, the belt 70, and the new roll 22.
- the reel 15 begins to rotate clockwise moving the new roll 22 into engagement with the straps 40.
- the reel limit switch RLSl is actuated, as previously explained. Therefore, the contacts RLSla and RLSlb in FIG. 12 both open, disconnecting the magnetic particle clutch coil 135A from the energizing lines L4, L2.
- the capacitor 212 which was charged through the resistor 211 when the contacts KR6 closed in response to release of the knives, begins to discharge as shown by the dotted line arrow in FIG. 12 through the clutch coil 135A. Therefore, the braking torque transmitted by this particle clutch from the now stationary shaft 180 decays exponentially as shown by the graph 164 in FIG. 9.
- the braking torque exerted on the new roll by the particle clutch 114A and the mechanical brake 1%, 196 progressively decreases.
- the brakeclutch device 172 serves to establish a positive drive connection from the press motor to the intermediate drive shaft 171, or to exert a positive, locking braking force on the shaft 171.
- the brakeclutch device 172 serves to establish a positive drive connection from the press motor to the intermediate drive shaft 171, or to exert a positive, locking braking force on the shaft 171.
- the magnetic particle clutch 114A by virtue of the location of the slippable coupling exemplified by the magnetic particle clutch 114A, the latter is included in both the drive and braking connections to the new roll. Therefore, during predriving, energization of the magnetic particle clutch results in the latter transmitting the torque bias to the new roll, its components slipping as necessary until the new roll reaches full speed.
- the current value used to excite the coil of the particle clutch 114A determines the value of that transition tension, and this is made automatically to agree with the regular tension maintained by the straps 40 by virtue of the automatic adjustment of the pressure rheostat PR.
- the excitation current through the coil 135A of the magnetic particle clutch 114A is caused to decay exponentially as the new roll moves into the tensioning straps 49 by controls, shown in FIG. 12, which cause the capacitor 212 to discharge through the coil 135A.
- a single magnetic particle coupling serves two purposes and is effectively present in both the predriving and braking connections to the new roll.
- apparatus for splicing a new roll web to a running web drawn from an expiring roll into a webprocessing device having power-driven rotary parts said apparatus including tensioned straps engaging the expiring roll to create tension in the running web of a predetermined adjustable value, and means for moving the new roll into engagement with the straps after a splice has been made; the combination comprising a disengageable drive connection between one of said rotary parts and said new roll, said drive connection including a first slippable coupling capable of transmitting an adjustable predetermined torque, a disengageable braking connection to said new roll, said braking connection including a second slippable coupling capable of exerting an adjustable predetermined retarding force on said new roll to oppose rotation of the latter, means for completing said drive connection to accelerate the new roll prior to a splicing operation, and means for disengaging said drive connection and completing said braking connection to exert a retarding force of a first magnitude on the new roll immediately after a splicing operation so that tension is created in the
- apparatus for splicing a new roll web to a running web drawn from an expiring roll into a power driven printing press comprising tensioned straps frictionally engaging the expiring roll to create tension in the running web, a tension control system responsive to tension in the web to vary the tension in said straps and maintain the web tension at a predetermined value, an adjustable member in said system for setting the value of maintained web tension, means for moving the new roll into engagement with said straps after a splicing operation, a disengageable drive connection from the press to the new roll and including an electromagnetic particle coupling, a disengageable braking connection from a stationary member to the new roll and including an electromagnetic particle coupling, means for completing said drive connection and exciting the coupling therein prior to a.
- the combination comprising'tensioned straps frictionally engaging the expiring roll to create tension in the running web of a predetermined adjustable value, means for moving the new roll into engagement with said straps after a slicing operation, ashaft and means including a slippable coupling operable to transmit up to a predetermined adjustable torque connecting said shaft to the new roll, a clutch for releasably connecting said shaft to be driven from the webconsuming device, a brake for releasably braking said shaft so as to efI'ect a braking force in opposition to the adjustable torque transmitted by said slippable coupling, means for engaging said clutch prior to a splicing operation to predrive the new roll, means for releasing said clutch and engaging said brake immediately after a splicing operation to create tension in the new roll web corresponding in value to the tension in the running Web of said expiring roll during the interval required
- apparatus for splicing a new roll Web to a running web drawn from an expiring roll into a power-driven printing press comprising tensioned straps frictionally engaging the expiring roll to create tension in the running web, means for moving the new roll into engagement with said straps after a splicing operation, a shaft and means including a magnetic particle clutch having an exciting coil drivingly connecting said shaft with said new roll, an electric clutch drivingly connected between said shaft and the press, an electric brake operative on said shaft, means for energizing said electric clutch and exciting said particle clutch with current of a first value prior to a slicing operation, means for deenergizing said electric clutch and energizing said brake and for changing the exciting current supplied to said particle clutch to a second value immediately after a splicing operation.
- apparatus for splicing a new roll web to a running web drawn from an expiring roll into a powerdriven printing press comprising tensioned straps frictionally engaging the expiring roll to create tension in the running web, means for moving the new roll into engagement with said straps after a splicing operation, a shaft and means including a magnetic particle clutch having an exciting coil drivingly connecting said shaft with said new roll, an electric clutch drivingly connected between said shaft and the press, an electric brake operative on said shaft, means for energizing said electric clutch and exciting said particle clutch with current of a first value prior to a splicing operation, means for de-energizing said electric clutch and energizing said brake and for changing the exciting current supplied to said particle clutch to a second value immediately after a splicing operation, and means responsive to the position of the new roll for gradually reducing the exciting current supplied to said particle clutch as the new roll is moved progressively into engagement with said straps.
- the combination comprising tensioned straps frictionally engaging the expiring roll to create tension in the running web, means for automatically controlling the tension in said straps and including a manually adjustable member for setting the value of the controlled tension, means for moving the new roll into engagement with said straps after a splicing operation, a shaft and means including a magnetic particle clutch having an excitation coil drivingly connecting said shaft to the new roll, an electric clutch for drivingly connecting said shaft to the printing press, an electric brake for retarding said shaft, means for energizing said electric clutch and exciting said particle clutch coil with current of a first value prior to a splicing operation, means for energizing said electric brake and exciting said particle clutch coil with current of a second value immediately after a splicing operation, said last-named means including a variable resistor for determining the second current value, means for adjusting the value of said resistor in proportion to the setting of said
- the combination comprising tensioned straps frictionally engaging the expiring roll to create tension in the running web, means responsive to tension in the web for varying the tension in said straps to maintain the web tension at a predetermined value, an adjustment member for varying the value of web tension maintained by said last-named means, means for moving the new roll into engagement with said straps after a splicing operation, a disengageable braking connection to said new roll, said braking connection including a torque-transmitting coupling which slips to limit the braking torque transmitted thereby to a predetermined value, means responsive to the setting of said adjustment member to correspondingly adjust the predetermined limit torque transrnitted by said coupling, and means for completing said braking connection immediately after a splicing operation, so that the new roll is retarded and tension created in the new web during the interval required for the new roll to move into engagement with said straps.
- apparatus for splicing a new roll web to a running web drawn from an expiring roll into a webconsuming device comprising tensioned straps frictionally engaging the expiring roll to create tension in the running web, means for moving the new roll into engagement with said straps after a splicing operation, a disengageable braking connection to said new roll, said braking connection including a torque-transmitting coupling which slips to limit the braking torque transmitted thereby to a predetermined value, means for completing said braking connection immediately after a splicing operation so that the new roll is retarded and tension created in the new web during the interval required for the new roll to move into engagement with said straps, and means responsive to the new roll reaching a position of initial engagement with said straps for controlling said coupling to exponentially reduce with passing time the torque transmitted by said coupling as the new roll moves progressively into engagement with said straps.
- apparatus for splicing a new roll web to a running web drawn from an expiring roll into a web-consuming device comprising tensioned straps frictionally engaging the expiring roll to create tension in the running web, means responsive to tension in the web for varying the tension in said straps to maintain the web tension at a predetermined value, an adjustment member for varying the value of web tension maintained by said last-named means, means for moving the new roll into engagement with said straps after a splicing operation, a disengageable braking connection to said new roll and including an electromagnetic particle coupling which slips to limit the braking torque transmitted thereby to a value substantially proportional to the exciting current supplied thereto, means for completing said braking connection immediately after a splicing 19 operation, means for exciting said electromagnetic coupling with current of a value proportional to the setting of said adjustment member immediately after a splicing operation, so that the new roll is retarded and tension substantially equal to that maintained by said straps is created in the new Web during the interval required for the new
Landscapes
- Replacement Of Web Rolls (AREA)
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CH332508D CH332508A (fr) | 1957-10-09 | 1956-04-20 | Appareil pour assurer le jointement d'un ruban se déplaçant dans une machine d'utilisation avec une nouvelle bobine contenant une réserve de ruban |
US689067A US2997248A (en) | 1957-10-09 | 1957-10-09 | Predrive and transition tension system for web splicing apparatus |
DEM39215A DE1138404B (de) | 1957-10-09 | 1958-10-08 | Einrichtung zum Anschliessen einer auf eine neue Rolle aufgewickelten Papierbahn an eine in eine Druckmaschine abgezogene Papierbahn |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US689067A US2997248A (en) | 1957-10-09 | 1957-10-09 | Predrive and transition tension system for web splicing apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
US2997248A true US2997248A (en) | 1961-08-22 |
Family
ID=24766911
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US689067A Expired - Lifetime US2997248A (en) | 1957-10-09 | 1957-10-09 | Predrive and transition tension system for web splicing apparatus |
Country Status (3)
Country | Link |
---|---|
US (1) | US2997248A (de) |
CH (1) | CH332508A (de) |
DE (1) | DE1138404B (de) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3253795A (en) * | 1962-06-05 | 1966-05-31 | Black Clawson Co | Paper machinery |
US4838498A (en) * | 1988-02-22 | 1989-06-13 | Rockwell International Corporation | Web tensioning system |
US20020139893A1 (en) * | 2001-03-29 | 2002-10-03 | Teruo Hashimoto | Paper roll driving apparatus |
US20180186589A1 (en) * | 2017-01-04 | 2018-07-05 | Océ Holding B.V. | Automatic roller clamp |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4236449A (en) * | 1979-05-29 | 1980-12-02 | Earl T. Price | Paster pilot sensor for press |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2029046A (en) * | 1932-11-12 | 1936-01-28 | Wood Newspaper Mach Corp | Web splicing device |
US2617507A (en) * | 1949-12-02 | 1952-11-11 | Gen Electric | Magnetic fluid mixture brake |
US2629562A (en) * | 1950-06-13 | 1953-02-24 | Wood Newspaper Mach Corp | Replacement roll accelerating mechanism for web splicing device |
US2743881A (en) * | 1953-02-09 | 1956-05-01 | Goss Printing Press Co Ltd | Web tension control |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2097053A (en) * | 1930-03-12 | 1937-10-26 | Goss Printing Press Co Ltd | Web pasting mechanism for printing presses |
US2000809A (en) * | 1930-09-30 | 1935-05-07 | Wood Newspaper Mach Corp | Roll handling mechanism |
DE760508C (de) * | 1939-02-25 | 1952-09-29 | Maschf Augsburg Nuernberg Ag | Vorrichtung zum Ankleben einer ablaufenden Papierbahn an eine neue Papierrolle bei Maschinen, insbesondere Rotationsdruckmaschinen |
-
1956
- 1956-04-20 CH CH332508D patent/CH332508A/fr unknown
-
1957
- 1957-10-09 US US689067A patent/US2997248A/en not_active Expired - Lifetime
-
1958
- 1958-10-08 DE DEM39215A patent/DE1138404B/de active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2029046A (en) * | 1932-11-12 | 1936-01-28 | Wood Newspaper Mach Corp | Web splicing device |
US2617507A (en) * | 1949-12-02 | 1952-11-11 | Gen Electric | Magnetic fluid mixture brake |
US2629562A (en) * | 1950-06-13 | 1953-02-24 | Wood Newspaper Mach Corp | Replacement roll accelerating mechanism for web splicing device |
US2743881A (en) * | 1953-02-09 | 1956-05-01 | Goss Printing Press Co Ltd | Web tension control |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3253795A (en) * | 1962-06-05 | 1966-05-31 | Black Clawson Co | Paper machinery |
US4838498A (en) * | 1988-02-22 | 1989-06-13 | Rockwell International Corporation | Web tensioning system |
US20020139893A1 (en) * | 2001-03-29 | 2002-10-03 | Teruo Hashimoto | Paper roll driving apparatus |
US6688548B2 (en) * | 2001-03-29 | 2004-02-10 | Tokyo Kikai Seisakusho, Ltd. | Paper roll driving apparatus |
US20180186589A1 (en) * | 2017-01-04 | 2018-07-05 | Océ Holding B.V. | Automatic roller clamp |
US10752458B2 (en) * | 2017-01-04 | 2020-08-25 | Canon Production Printing Holding B.V. | Automatic roller clamp |
Also Published As
Publication number | Publication date |
---|---|
CH332508A (fr) | 1958-09-15 |
DE1138404B (de) | 1962-10-25 |
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