US3203335A

US3203335A - Developing apparatus for photographic equipment

Info

Publication number: US3203335A
Application number: US11764A
Authority: US
Inventors: Wanielista Walter; Jr Charles P Sippel
Original assignee: AB Dick Co
Current assignee: AB Dick Co
Priority date: 1960-02-29
Filing date: 1960-02-29
Publication date: 1965-08-31
Anticipated expiration: 1982-08-31

Description

Aug-v 1955 w. WANIELISTA ETAL 3,203,335

DEVELOPING APPARATUS FOR PHOTOGRAPHIC EQUIPMENT 4 Sheets-Sheet 1 Filed Feb. 29, 1960 m QMNMW mm 5 mm wvm w Ezzazzfans Wa/fer Wan/2901s fa Char/es 1 S/ppe/ Jr? aid M.-

31, 1955 w. WANlELlSTA ETAL 3,203,335

DEVELOPING APPARATUS FOR PHOTOGRAPHIC EQUIPMENT Filed Feb. 29, 1960 4 Sheets-Sheet 2 Vl/a/fer VVan/e/Asfa Lg] (bar/es P $/}0pe/ Jr.

('bar/es R .S/ppe/ J".

Aug. 31, 1965 w. WANIELISTA ETAL 3,203,335

DEVELOPING APPARATUS FOR PHOTOGRAPHIC EQUIPMENT Filed Feb. 29, 1960 4 Sheets-Sheet 3 %/fer Hmls/Aefa Aug. 1965 w. WANIELISTA ETAL 3,203,335

DEVELOPING APPARATUS FOR PHOTOGRAPHIC EQUIPMENT 4 Sheets-Sheet 4 Filed Feb. 29, 1960 101a. Ezazzzans lVa/fer- ?Vamie his/a (bar/es P \S/ppe/ J dflyamzggs United States Patent 3,203,335 DEVELOPING APPARATUS FOR PHOTO- GRAPHKC EQUEPMENT Walter Wanielista, Westchcster, and Charles I. Sippcl, 31:, Villa Park, Ill., assignors, by mesne assignments, to A. ll. Dick Company, Chicago, lllL, a corporation of Illinois Filed Feb. 29, I960, Ser. No. 11,764 4 Claims. (til. 95-439) The present invention relates to improvements in reproducing mechanisms such as for making printing plates and particularly to an apparatus for receiving a sheet bearing a latent image and aligning it with a press sheet drawing the sheets through a pool of developing liquid and subsequently pressing the sheets together to transfer the image to the press sheet.

The present invention contemplates the provision of a machine for substantially automatically performing a series of steps involved in making plates for offset printing machines. Individual photographically sensitized sheets are provided from a supply roll at a storage supply station, carried to an exposure station Where a latent image is produced on the sensitized face of the sheet, and subsequently delivered to a developing station where the latent image on the sensitized paper is developed and transferred to a press plate member. The present invention relates primarily to the mechanism for effectively assembling the sheet with the latent image and the press sheet, submerging them in a bath of developing liquid and pressing them together to transfer the image.

An object of the invention is to provide a mechanism which will accurately align a photographically sensitized sheet bearing a latent image with a press sheet and draw the sheets through a developing liquid While maintaining the sheets separated for full contact with the liquid and thereafter automatically press the sheets together to transfer the image to the press sheet.

Another object of the invention is to provide improved guiding mechanisms for the sheets which will not abrade the sheet surfaces and which are capable of a long operating life without wear and consequent scratching of the sheet surfaces.

A further object of the invention is to provide a mechanism for developing and transferring a latent image on a sheet wherein the mechanism can be simply put in operative condition by inverting a fixture supporting a container of developing liquid and the mechanism may be placed in inoperative condition by again turning the container to upright position.

Another object of the invention is to provide an improved mechanism for handling and conveying the sheets bearing the latent image and the press sheets in a reproducing mechanism of the type described above.

Other objects and advantages will become more apparent with the teaching of the principles of the invention in connection with the disclosure of the preferred embodiments thereof in the specification, claims and drawings, in which:

FIGURE 1 is a side elevational view of an overall machine for making photographic copies or duplicates or printing plates, having parts broken away for purposes of illustration;

FIGURE 2 is a side elevational view with parts removed of a mechanism for developing a latent image on a sheet and transferring the image to a press sheet;

FIGURE 3 is a fragmentary side elevational view of some of the mechanism of FIGURE 2 illustrating the sheets being drawn through a pool of developing liquid;

FIGURE 4 is a fragmentary side elevational view of the mechanism of FIGURE 3 showing the mechanism at a more advanced stage of operation;

FIGURE 5 is a fragmentary side elevational view, with parts broken away, showing the mechanism for filling or draining the container of developing liquid, with the parts in position for filling the container;

FIGURE 6 is another view of the mechanism of FIG- URE 5 with the parts in position for draining the container; and

FIGURE 7 is a vertical sectional view, with parts broken away, taken substantially along line VlIVII of FIGURE 5.

As shown on the drawings:

In FIGURE 1 the reference numeral 10 indicates generally a housing for the photographic assembly embodying the principles of the invention, the assembly being divided for purposes of description into three sections identified as a storage supply station 11, an exposure station 12, and a developing station 13. The storage supply station 11 is made light tight, as are the other stations of the machine, and includes a roll 14 of photographically sensitized sheet material, such as paper, supplied to a vertically movable platform 16 and cut off in sheet lengths by cutter 15. In some instances, the platform 16 may be replaced by a magazine containing individual sheets.

The platform 16 is supported on a pair of

opposed arms

17 and 18 connected by means of rods 19 and secured to their

respective shafts

22 and 23. The connected arms serve to raise and lower the platform 16 by the operation of a manually operated crank arm 24 secured to the shaft 22 and accessible outside of the housing Iii. The individual sheets from the platform 16 are conveyed through the photographic assembly by means of a carrier indicated generally at 26. The carrier 26 in a preferred form includes cross top rails 27 and 28 secured to a top plate 29. A lower plate 31, beneath the top plate 29, has a grooved face and is joined to the upper plate 29 to provide a vacuum plate or holder generally referred to as a vacuum back, for transporting individual sheets of the paper from the platform 16 when it is elevated, to the exposure station 12, and subsequently to feed the sheets to the developing station 13. Aflixed to the top plate 29 is a vacuum box 32 which is connected by means of a tube 33 to a suitable source of reduced pressure such as a pump. When the carrier 26 is in the storage supply station 11, the platform 16 is raised and the cutter I5 automatically severs a sheet from the supply on the roll 14. The sheet is moved against the lower plate 31 which grips it for carrying it through the machine after the platform is lowered by the operation of the crank 24. Although the illustrated form of the invention contemplates a vertically movable magazine, it will be appreciated that the relative movement could also be effected by vertical adjustment of only the vacuum back or by vertical adjustment of both the magazine and vacuum back.

The carrier 26 is moved through the assembly and supported and guided such as by connecting the cross top rails 27 and 28 to rollers or slides guided on rails extending longitudinally through the machine, inwardly from the side walls of the housing 10.

The carrier assembly 25 is positioned automatically in the storage supply station ill, in proper relation to the platform 16 to receive a sheet, by the provision of a stop 37 which may be adjustable to control the position of the sheet on the carrier.

The carrier assembly 26 is detachably secured to a chain 260 passing over suitable sprockets such as 26b one of which may be driven by a crank wheel, not shown, accessible from outside of the housing to drive the carrier assembly from the supply station 11 to the exposure station 12. In the exposure station 12, the sheet of sensitized paper transported by the carrier assembly 26 is exposed to produce a latent image on its sensitized face. A copy 44 to be reproduced is supported on a vertically adjustable copy table 46 and is illuminated by spaced lights 47. A camera assembly, indicated generally at 48 includes a lens system which focuses the image on the sensitized paper sheet above. The sensitized paper sheet is exposed for an appropriate time interval dependent upon an electrically operated timer. not shown.

The carrier 26 is automatically stopped in position to be exposed to the image projected by the camera mechanism 48, by an adjustable stop mechanism including a catch 49 which releasably receives a latch 50 on the cross rail 28. After the image sheet is exposed to the image the latch is released and the sheet is transferred to the developing station by the carrier being moved forwardly until the image sheet extends between a pair of rubbercovered feed rollers 51 and 52 mounted on shafts.

The mechanism of the developing station 13, including the feed rollers 51 and 52, is preferably driven by a single motor operatively connected to drive chains and sprockets and cams. Inasmuch as the particular details of the drive connections are not significant and will be apparent with the description of the structure and function of the elements driven thereby, they will not be described in detail.

In the developing station 13, a press plate preferably in the form of a sensitized aluminum sheet is supplied to the machine by being positioned on a press plate support 52a provided with suitable positional adjustment mechanism 53. The aluminum sheet press plate, which for convenience may be referred to as a press sheet, is suificiently long to be received in the nip between a pair of separable feed rollers 54 and 55 which are suitably driven by the development station motor. Upon energization of the motor the press sheet feed rollers 54- and '55 are closed to feed the sensitized press sheet upwardly, and the image sheet feed rollers 51 and 52 are also closed to feed the image sheet forwardly. The two sheets will be brought together in alignment and submerged beneath the surface of a developing liquid 56 in a developing tank 57.

As illustrated in FIGURES 1 through 4, a first upper guide cage 58 guides an image sheet 62 forwardly toward the container 57 when the feed rolls 51 and 52 are closed. The first or upper guide cage 58 may be formed of upper and

lower guide members

59 and 60 which are coated with a suitable non-abrasive material, particularly at their lower tips 61. The lower tip of the upper guide member 59 has been found to require an especially heavy coating and is preferably coated with a discrete thickness of material sufiicient to provide an anti-abrading periph erally continuous contact surface. A material such as polytetrafiuoroethylene is suitable for use in practicing the principles of this invention. The guide members may be formed of a plurality of parallel shaped curved rods or wire-form members which are secured to each other by suitable cross members, with each of the guide members being separably removable for cleaning or for repair.

It is further contemplated by the present invention to form an anti-abrading support surface 52b on the press plate support 52a by coating the surface presented to the sensitized aluminum sheet with a thin coating of polytetrafluoroethylene.

A lower or second guide cage 6 is provided for a press sheet 63 with the guide cage being formed of separate guide members 65 and 66. These guide members may also be constructed of separate shaped rods extending in the direction of movement of the sheet and fixedly attached to each other with each of the members being in dividually removable for disassembly.

The guide cages direct the sheets together in an aligned relationship to a carrier 67.

The carrier 67 is provided with upper and lower gripping bars 63 and 69 which extend across the machine to grip the leading end of the

sheets

62 and 63 between them.

For gripping, the bars are moved together to the position shown in FIGURE 3. To effect this purpose, the bars are supported and carried on downwardly depending arms 70 which are secured and hung on an upper cross shaft 70a that is pivotally driven to swing the arms 7 ti and the gripper bars through a path to drag the sheets through the liquid developer 56 in the container 57.

The lower gripper bar 69 is positioned in a slot 72 in the arm 76 and biased upwardly by a spring, not shown. The upper gripper bar 68 is secured to the lower end of a plate 71, having a slot 79 therein to be vertically guided by a pin 74. The pins 76 and 81 are secured to the plate and extend into slots 71a and 81a respectively in the arm 7t).

For gripping the paper, the plate 71 is pushed downwardly from the position of FIGURE 2 to the position of FIGURE 3 by an arm 82 on a shaft 83 which is pivoted by a cam driven by the developing station motor. A latch pin 81 on the plate 71 drops beneath a hook 86 on a latch plate 73 pivotally mounted on the pin 74. This holds the plate 71 down and holds the gripping bar 68 against the sheets. The latch plate 73 is urged continually toward latched position by a COiled tension spring 75, connected at its lower end to the pin 76, and at its upper end to a pin 77 eccentrically mounted on the latch plate. The spring 75 thus serves a dual purpose, that of urging the latch plate 73 toward latched position and that of urging the plate 71 upwardly to separate the gripper bars when the latch plate 73 is released.

The latch plate 73 is released in the manner illustrated in FIGURE 4, when the carrier arm 70 has swung to its extreme right and a trip pin 84 adjustably mounted in a block 85 strikes the lower end of the latch plate. This pivots it to release position, releasing the pin 81 and permitting the plate 71 to snap upwardly carrying the upper gripper bar 68 away from the lower gripper bar 69.

When the lead ends of the sheets are brought to the location of FIGURE 4 where the gripper bars 68 and 69 are separated, the sheets have been fed between a pair of pressure rolls to press the sheets together and transfer the image from the image sheet 62 to the press sheet 63. The sheets are then drawn from the machine through a convenient slot 88 in the housing 10, FIGURE 1, and peeled apart to obtain the finished printed press sheet.

Means are provided to separate the sheets during the path of travel of the carrier 67 through the pool of developing liquid to insure flow of the liquid between the sheets and contact with the surfaces thereof, and to insure submergence of the sheets.

This mechanism takes the form of a separator 89.

The separator has an upper bar 90 which is positioned adjacent the discharge end of the upper guide 58 so as to hold the image sheet 62 downwardly and reduce the drag of the sheet on the end 61 of the guide 58 when the sheets are being pulled through the developing fluid, in the manner illustrated in FIGURE 3. The guide 53 is shaped to direct the lead end of the sheet 62 between the gripper bars in the position of FIGURE 2., and the curvature necessary to accomplish this creates a sharp point of contact between the sheet and the upper guide member 58. The positioning of the separator bar 90 reduces the angle and the drag pressure thereby reducing the wear over continued use of the machine. The upper separator bar 90 also insures submergence of the upper sheet as it is being pulled through the liquid in the manner illustrated in FIGURES 3 and 4.

A lower separator bar 91 is positioned between the sheets so that they are separated when received by the gripper bars 68 and 69 in FIGURE 2. The lower separator bar 91 stays between the sheets to insure that developing liquid gets between them when the sheets are being drawn through the developing liquid as shown in FIGURES 3 and 4. The separator bars 90 and 91 extend across between a separator support including a lower arm 91a which is suspended on an offset upper arm 593. The connection between the two arms is rigid and the upper arm is offset so that a driving means in the form of a bellcrank 94 may engage the offset portion and drive the separator 89 in a trailing fashion behind the carrier 67. The upper end of the arm 93 is pivotally supported on the frame for the mechanism and the separator bars will be directly adjacent the gripper bars 68 and 69 in the position of FIGURE 2. They will remain substantially in this position as the carrier moves forwardly to the position of FIGURE 3. At this point the pin 74 strikes the forward arm 97 of the bellcrank and the rear arm 96 engages the oifset portion of the arm 93 thereby driving the separator bars 90 and 91 a spaced distance behind the carrier.

The developing liquid 56 is supplied to the open developing container from a closed supply container 100 such as a bottle. The supply container is suitably mounted such as by threading to the top of a supply container mount 101 which is hollow so as to have a transfer chamber 101a therein. Connected to communicate between the transfer chamber and an upper level in the developing container is a filling level conduit 102 which determines the level of the liquid in the developing container 57. Also communicating between the transfer chamber 101a and the developing container or tank 57 is a drain conduit 103. The filling level conduit 1G2 and drain conduit 103 may include

flexible tubes

105 and 106 respec tively which permit the mount 101 to be pivoted through 180 on its supporting shaft 104. The pivotal support of the mount permits the supply container 100 to be turned to the inverted position, as illustrated in FIGURE 5, when the machine is in operation, or to be turned to an upright position, as illustrated in FIGURE 6 when the machine is at rest in storage condition.

The supply container 1% is arranged to have an opening member 107 which projects down into the transfer chamber 101a with an air space above it so that the liquid in the container 57 is maintained at a constant level. That is, when the liquid drops air will be permitted to enter through the opening 107 of the supply container and liquid will flow down into the transfer chamber until the opening 107 is again covered.

It will thus be seen that the bottle can be tipped down to automatically drain the tank 57 at the end of the days run, and can be easily tipped upwardly to inverted position to again automatically fill the tank at the start of a days run.

The

pressure rollers

86 and 87 are automatically separated when the machine is put in the rest or storage position by a linkage which is connected between the supply container mount 101 and the rollers. As illustrated in FIGURES 5 through 7, the mount 101 has an eccentric pin 108 thereon received by the bifurcated end of an arm secured to a shaft 110. Also secured to this shaft is an arm 111 connected to a link 1112 which transfers movement of the arm 111 to a crank arm 113 secured to a pivotal pin 114 which carries a bifurcated arm 115. The end of the arm 115 extends over a shaft 116 of the roller 36 so as to move the roller to an open position away from the roller 87 or toward the roller 87. With the linkag above described, when the supply container 100 is swung to the lower upright position as illustrated in FIGURE 6, the pressure rollers are automatically separated. This permits cleaning the rollers and, as illustrated in FIGURE 6, the rollers are supported in an end member 117 which permits them to be removed. The separation of the rollers also prevents the developing fluid from drying on the surface and causing the rollers to stick together.

When the supply container 100 is tilted to the inverted position of FIGURE 5, the

rollers

86 and 87 are moved together for operation. A tension spring 119 aids in urging the rollers together.

In general operation of the mechanism, the operator, as illustrated in FIGURE 1, moves the arm 24 to cause the platform 16 to elevate a sheet up against the vacuum back of the carrier 26. The carrier is then moved forwardly to the exposure station 12 and a latent image is placed on the sheet. The carrier is then moved forwardly to insert the leading end of the sheet between the feed rollers 51 and 52 and the developing motor is started whereupon the feed rollers 51 and 52 are moved together and the feed rollers 54 and 55 are moved together. The image sheet and the press sheet are fed upwardly through the guide cages 58 and 64, to be gripped by the gripping bars 68 and 69 and drawn through the developing liquid 56, held separated and submerged by the separator bars and 91. The sheets are received and pressed together to transfer the image to the press sheet by the

pressing rollers

86 and 87.

Thus it will be seen that we have provided an improved reproducing mechanism meeting the objectives and ad vantages hereinbefore set forth. The arrangement automatically and simply develops and transfers the image to a press plate virtually in on simultaneous operation and provides a reliable mechanism which is relatively simple to construct and maintain.

The drawings and specification present a detailed disclosure of the preferred embodiments of the invention, and it is to be understood that the invention is not limited to the specific forms disclosed, but covers all modifications, changes and alternative constructions and methods falling within the scope of the principles taught by the invention.

We claim as our invention:

1. In a reproducing mechanism, a container for a pool of developing liquid, first means for guiding a sheet bearing a latent image toward said pool, second means for guiding a press sheet toward said pool, a carrier means receiving the sheets from said guide means and simultaneously moving said sheets into the liquid, a sheet separator including an upper bar positioned above the uppermost of said sheets and a lower bar positioned between said sheets, a separator support moving the separator from a first position where the upper bar guides the uppermost sheet as it leaves the first guiding means to prevent abrasion and to successive positions in a trailing relation to said carrier means while said separator guides both sheets through the pool of liquid to maintain the sheets separated and hold the upper sheet submerged, and means positioned to receive the sheets from the carrier means and press the sheets together to transfer the image to said press sheet.

2. In a reproducing mechanism, a container for a pool of developing liquid, first means for guiding a sheet hearing a latent image toward said pool, second means for guiding a press sheet toward said pool, a carrier means for gripping the lead ends of the sheets as they leave said guiding means, a sheet separator including an upper bar positioned above the uppermost sheet and a lower bar positioned between said sheets, means for driving the carrier means from a sheet receiving position adjacent said sheet separator in a path through the pool of liquid, pressmg means positioned to receive the sheets from the carrier means and press said sheets together to transfer the image to said press sheet, and means for driving the sheet separator in a trailing position spaced a substantial distance behind said carrier means for maintaining the sheets separated and holding the sheets submerged.

3. In a reproducing mechanism, a container for a pool of developong liquid, first means for guiding a sheet bearing a latent image toward said pool, second means for guiding a press sheet toward said pool, a swingable carrier means receiving the sheets from said guide means and simultaneously moving said sheets into the liquid, a sheet separator including an upper bar positioned above the uppermost of said sheets and a lower bar positioned between said sheets, a swingable separator support moving the separator from a first position where the upper bar guides the uppermost sheet as it leaves the first guiding means to prevent abrasion and to successive positions in a trailing relation to said carrier means while said separator guides both sheets through the pool of liquid to maintain the sheets separated and hold the supper sheet submerged, and means positioned to receive the sheets from the carrier means and press the sheets together to transfer the image to said press sheet.

4. In a reproducing mechanism, a container for a pool of developing liquid, first means for guiding a sheet bearing a latent image toward said pool, second means for guiding a press sheet toward said pool, a swingable carrier means for gripping the lead ends of the sheets as they leave said guiding means, a swingable sheet separator including an upper bar positioned above the uppermost sheet and a lower bar positioned between said sheets, means for driving the carrier means from a sheet receiving position adjacent said sheet separator in a path through the pool of liquid, pressing means positioned to receive the sheets from the carrier means and press said sheets together to transfer the image to said press sheet, and

means for driving the sheet separator in a trailing position spaced a substantial distance behind said carrier means for maintaining the sheets separated and holding the sheets submerged.

References Cited by the Examiner UNITED STATES PATENTS 1,328,305 1/20 Sussman 95-89 1,664,731 4/28 Beidler 95-94 1,819,536 8/31 Beidler 95-94 2,031,010 2/36 Simjian 95-89 2,664,801 1/ 54 Eisbein 95-89 2,732,778 1/56 Limberger 95-77 .5 2,751,814 6/56 Limberger 95-89 2,762,281 9/56 Kleinstra 95-89 2,839,978 6/58 Trump 95-89 X 2,865,275 12/58 Ruijs 95-89 NORTON ANSHER, Primary Examiner.

D. B. LOWE, E. E. FULLER, L. W. VARNER, JR.,

Examiners.

Claims

1. IN A REPRODUCING MECHANISM, A CONTAINER FOR A POOL OF DEVELOPING LIQUID, FIRST MEANS FOR GUIDING A SHEET BEARING A LATENT IMAGE TOWARD SAID POOL, SECOND MEANS FOR GUIDING A PRESS SHEET TOWARD SAID POOL, A CARRIER MEANS RECEIVING THE SHEETS FROM SAID GUIDE MEANS AND SIMULATANEOUSLY MOVING SAID SHEETS INTO THE LIQUID, A SHEET SEPARATOR INCLUDING AN UPPER BAR POSITIONED ABOVE THE UPPERMOST OF SAID SHEETS AND A LOWER BAR POSITIONED BETWEEN SAID SHEETS, A SEPARATOR SUPPORT MOVING THE SEPARTOR FROM A FIRST POSITION WHERE THE UPPER BAR GUIDES THE UPPERMOST SHEET AS IT LEAVES THE FIRST GUIDING MEANS TO PREVENT ABRASION AND TO SUCCESSIVE POSITIONS IN A TRAILING RELATION TO SAID CARRIER MEANS WHILE SAID SEPARATOR GUIDES BOTH SHEETS THROUGH THE POOL OF LIQUID TO MAINTAIN THE SHEETS SEPARATED AND HOLD THE UPPER SHEET SUBMERGED, AND MEANS POSITIONED TO RECEIVE THE SHEETS FROM THE CARRIER MEANS AND PRESS THE SHEETS TOGETGHER TO TRANSFER THE IMAGE TO SAID PRESS SHEET.