US3804013A

US3804013A - Etching press

Info

Publication number: US3804013A
Application number: US00276227A
Authority: US
Inventors: J Martin
Original assignee: Martin Engineering Co
Current assignee: Martin Engineering Co
Priority date: 1972-07-28
Filing date: 1972-07-28
Publication date: 1974-04-16
Anticipated expiration: 1991-04-16

Abstract

An etching press comprising an upper pressure roller rotatably mounted on a machine frame and a positively driven platen mounted on the frame for reciprocating movement under the pressure roller in a horizontal plane. The platen has a substantially smooth lower bearing surface, and is supported by a lower pressure roller in engagement therewith, disposed directly opposite the upper roller. In addition, first and second supplementary support rollers are disposed below the platen, and engageable with the lower surface thereof at points upstream and downstream respectively of and close to the point thereon engaged by the lower pressure roller. The lower surface of the platen has rack means engageable with drive gearing carried by a shaft rotatably mounted on the frame. The shaft is turnably driven by planetary gearing, power operated by a manually operable crank handle. The upper pressure roller is vertically adjustable for advancing movement downward toward the upper surface of the platen, and can be advanced by vertical screw means on which adjustable stops and cooperable indicator devices are carried. This enables the operator to accurately preset the position of the upper roller to a predetermined point, thus yielding a high degree of impression accuracy and repeatability.

Description

ite Martin States atent [191 Apr. 16, 1974 ETCHING PRESS Joseph Martin, c/o Martin Engineering Company, Inc. 169-17 N. Blvd., Bayside, NY.

22 Filed: July 28,1972 21 Appl.No.:276,227

[76] Inventor:

[52] US. Cl '101/250,74/89.l5, 101/214 [51] int. Cl. B4lf 3/00, B411 3/58 [58] Field 01'Search.,. 101/55, 133, 146, 158,

lOl/l61, 162, 173, I86, 187, 189,191, 192, 214, 215, 253, 282, 283, 284, 285; 74/89.l5

[56] References Cited UNITED STATES PATENTS 3,336,865 8/1967 Brand; lOl/158 746,4 4 12 1903 Cochrane 101/282 1,902,273 3 1933 Bates 101 133 611,923 10/1898 Miehle 101/284 498,445 5/1893 Mclndoe 101/285 x 423,153 3/1890 Hawkins 101/282 2,136,731 11/1938 Benner....- 74/8915 3,291,045 12/1966 Brand 101/284 x 3,371,545 3/1968 McNeal et a1. 74/89.15

Primary Examiner-Clyde I. Coughenour Attorney, Agent, or Firm-H. Gibner Lehmann; K.

Gibner Lehmann [57] ABSTRACT An etching press comprising an upper pressure roller rotatably mounted on a machine frame and a positively driven platen mounted on the frame for reciprocating movement under the pressure roller in a horizontal plane. The platen has a substantially smooth lower bearing surface, and is supported by a lower pressure roller in engagement therewith, disposed directly opposite the upper roller. In addition, first and second supplementary support rollers are disposed belowthe platen, and engageable with the lower surface thereof at points upstream and downstream respectively of and close to the point thereon engaged by the lower pressure roller. The lower surface of the platen has rack means engageable with drive gearing carried by a shaft rotatably mounted on the'frame. The shaft is turnably driven by planetary gearing, power operated by a manually operable crank handle. The upper pressure roller is vertically adjustable for advancing movement downward toward the upper surface of the platen, and can be advanced by vertical screw means on which adjustable stops and cooperable indicator devices are carried. This enables the operator to accurately preset the position of the upper roller to a predetermined point, thus yielding a high degree-of impression accuracy and repeatability.

2 Claims, 5 Drawing Figures PATENTEWR 16 m4 SHEET E [If 2 ETCI-IING PRESS BACKGROUND This invention relates to etching presses, and more particularly to presses of the type wherein a flat platen is movable horizontally between upper and lower rollers, to effect the impressions. In the past a number of etching presses have been proposed and constructed. These prior presses have employed a flat reciprocatable platen supported on a machine frame by a .main lower roller and by a series of smaller guide rollers disposed along lateral edge portions of the platen. In most cases a main upper roller was advanceable toward and engageable with the top surface of the platen. In all constructions heretofore proposed, either the upper roller or the lower roller was turnably driven by means of a hand crank or other power driven device, and the platen was advanced by frictional engagement with the driven roller. In the operation of the press, an inked etching plate was placed on the platen face up with a sheet of paper of the desired size carried thereon, and both were covered by a felt blanket. For the first run, the proper positioning of the upper roller above the top surface of the platen was estimated and adjustment thereof was made by the operator. Then, either the upper or the lower roller was manually driven by a hand crank, thus frictionally advancing the platen and the etching plate, and felt blanket to bring the assemblage into engagement with the upper roller, and thereby transfer an impression from the etching plate onto the paper.

Devices of the type described above suffered from a number of drawbacks and disadvantages. First, the platen had to be constructed from exceptionally heavy gauge iron or steel so as to minimize bending which tended to occur. This bending was most severe in the vicinity of the upper and lower rollers but was displaced slightly upstream or downstream, depending on the direction of feed of the etching assemblage. Such bending of the platen frequently resulted in deterioration of the finished etchings. Second, in cases where the upper roller was driven at one end by a chain and sprocket, the pull-force of the chain tended to misalign the axis of rotation of the upper roller such that the latter no longer rotated about an axis perpendicular to the direction of travel of the platen. As a result, a component of the force driving the platen was directed sideways with respect to its path of travel, which caused skewing of the platen. This condition also impaired the quality of the finished etchings. In addition, although indicator devices have been used previously in order to pre-set a desired position of the upper roller above the platen, there has been no means of positively limiting the advance of the upper roller toward the platen once an optimum predetermined position had been obtained through trial and error. Thus, there have been significant problems which arose in the use of etching presses heretofore proposed.

SUMMARY The above drawbacks and disadvantages of prior etching presses are obviated by the present invention, which has for an object the provision ofa novel and improved press construction which is especially simple while being particularly effective in its operation, and which enables a higher degree of impression uniformity to be obtained than was heretofore possible from conventional presses of the past, thereby providing greatly improved reliability and repeatability, even over long periods of time. A related object is to provide a novel etching press which reduces to an absolute minimum all non-uniformity in etchings due to skewing of the platen and due to bending of the platen in areas immediately upstream or downstream from the location of the upper pressure roller.

The above objects are accomplished by the provision of an etching press structure-having a unique, positively driven platen which is supported on the machine frame by a main lower pressure roller in conjunction with one or more supplementary support rollers disposed immediately upstream or downstream from the main lower roller. In one embodiment of the invention, the platen is provided with a pair of racks disposed on opposite edges of its lower surface, the racks being engageable by drivegears turnably mounted onthe frame. The drive gears are driven by a hand crank through a planetary gear box. The platen has a smooth lower bearing surface engageableby the main lower pressure roller and by supplementary support rollers immediately adjacent thereto. i

The above objects are further accomplished, in one illustratedembodiment of the invention, by a novel adjustable stop means which is cooperable with the advancing adjustment screw that controls the position of the upper pressure roller with respect to the upper surface of the platen. The stop means comprises a threaded barrel adjustably carried on a finely threaded portion of the advancing adjustment screw, and thus constitutes a positive adjustable stop for the latter. The stop means further includes an indicator device carried by the screw to enable precise setting and resetting of the adjustable stop means to predetermined positions.

The entire, overall above construction has a number of distinct advantages. For one thing, the supplementary support rollers greatly minimize bending or deformation of the areas of the platen immediately adjacent the lower pressure roller during the pressing operation. Another advantage resides in the permissible use of a relatively lighter weight and thinner platen than was heretofore possible, because by the present invention less dependence is placed upon the strength or rigidity of the platen since substantial additional support is provided by the supplementary support rollers. In addition, when the platen is positively driven along both edges as in the present invention, there is considerably less tendency for skewing to occur.

Still other features and advantages will hereinafter appear. In the accompanying drawings, illustrating several embodiments of the invention:

FIG. 1 is a perspective view looking from the front of the etching press of the present invention, illustrating the positively driven platen and the adjustable stop means for limiting the advance of the upper roller downward toward the platen.

FIG. 2 is a side elevational view of the press, illustrating the supplementary support rollers disposed below the driven platen.

FIG. 3 is a vertical sectional view taken on the line 3-3 of FIG. 2.

FIG. 4 is a fragmentary sectional view illustrating a micrometer indicator device for indicating the position of the upper roller, constituting another embodiment of the invention.

FIG. 5 is a fragmentary side elevational view of the micrometer indicator device of FIG. 4.

Referring first to FIG. 1 there is shown an etching press comprising a machine frame generally designated by the numeral and a substantially flat platen 12 mounted on the frame for reciprocating movement with respect thereto. A good sliding fit is provided between the platen 12 and the frame sides which border the edges thereof, thereby to effect an accurate guide for the platen along its path of movement. The platen has a smooth upper surface 14 to accommodate the etching assemblage to be pressed. A pair of platen hold

downs

16 and 18 carried on the frame prevent the platen from tipping up when it is disposed toward an extreme end of the frame. The frame 10 has a pair of

upright support members

20, 22,'each member having a longitudinal edge constituting a guide for

carriages

24, 26 respectively, which are slidably movable there-along. The

carriages

24, 26 are provided with self-aligning

bearings

28, 30 which rotatably carry an upper pressure roller 32 having a smooth cylindrical surface and preferably constructed of steel. The

carriages

24 and 26 are further provided with

thrust bearings

34, 36 respectively, to which are turnably connected

screws

38, 40, constituting force transmitting members. The

upright support members

20, 22 have

bridges

42, 44 respectively, which have been drilled and tapped to receive the

screws

38 and 40. Rigidly fastened respectively to the

screws

38 and 40 are

capstans

46, 48 to enable manual adjustment of the position of the roller 32. By the above arrangement, the roller 32 can be positively advanced downward toward the upper surface 14 of the platen l2, and positively retracted upward and away from the upper surface 14 thereof by means of the

thrust bearings

34, 36, the

screws

38, 40 and the

capstans

46, 48.

Referring to FIGS. 2 and 3 a lower pressure roller 50 is rotatably carried by the frame 10, being disposed immediately below the platen l2 and opposite the upper pressure roller 32, and being engageable with the smooth lower surface of the platen 12. The lower roller 50 provides support and counter pressure to the platen 12 at a point directly opposite the point of engagement thereon by the upper roller 32. Referring to FIGS. 1 and 2, there are provided end stops 51 centrally disposed at opposite ends of the lower surface of the platen to prevent the operator from driving the latter off the machine. The stops are adapted to engage the lower pressure roller 50 when the platen is driven toward either extreme end position. The edges of the stops 51 facing the lower pressure roller 50 are bevelled to present a broad surface to the latter during engagement therewith. The stops can be fabricated from aluminum, nylon or brass, and are secured to the platen 12 by means of bolts (not shown.) Additional safety stops 55 comprising a screw extending above the upper surface of the platen are provided. They are disposed at opposite ends of the platen and are in line with the platen hold down 16. In the event that either of the main end stops 51 fails, the corresponding additional stop will subsequently engage the platen hold down 16, and prevent the platen from being driven further.

In accordance with the present invention there is provided a novel positive drive means connected with the 4 frame 10, for positively drivingly reciprocating the platen 12 along its path of travel, said

means comprising racks

56 and 58 disposed along and rigidly fastened to the opposite edge portions of the lower surface of the platen l2, and comprising a pair of drive gears 60 and 62 rigidly fastened to and carried by a shaft 64 which is turnably mounted on the frame 10,- said drive gears being respectively engageable with the racks for imparting driving power thereto and hence to the platen 12. During manual operation of the press, the platen hold downs" l6 and 18 maintain the mesh between the

racks

56 and 58 and the drive gears 60 and 62 respectively. The shaft 64 is preferably driven by a planetary gearing 66 which in turn is driven by power actuated means including a manually engageable member designated 68, the planetary gearing 66 providing a mechanical advantage between the member 68 and the drive gears 60 and 62. The above arrangement wherein a pair of drive gears 60 and 62 respectively engage

racks

56 and 58 disposed on opposite edges of the lower surface of the platen 12 provides a positive balanced drive force to the platen along two parallel axes and thus tends to minimize skewing between the platen 12 and frame 10. Since both drive gears 60 and 62 are driven by the shaft 64 which is in turn driven by the planetary gearing, side loading of the platen is eliminated and, as a result, skewing is minimized. Because the platen is driven uniformly along both edges, it always advances at right angles to the axes of the upper and lower pressure rollers. By this arrangement, each of the rollers is free to turn about its own axis, whereby each provides pressure in pure rolling action. It is to be noted that the position of the platen is directly related to the orientation of the manually engageable member 68, since the platen is directly driven by a positive gear arrangement which is in turn powered by the member.

By the present invention there is further provided

supplemental support rollers

70, 72 turnably carried by

shafts

74 and 76 respectively on the frame 10. The

rollers

70, 72 are engageable with the smooth lower surface of the platen 12, which constitutes an advantageous bearing surface. The rollers specifically engage the lower surface of the platen 12 at points respectively immediately upstream and downstream from the point engaged by the main lower pressure roller 50, and thus provide additional support to the platen 12 to thereby minimize bending which tends to occur at these points during the pressing operation, particularly when the upper roller 32 and platen 12 just begin to engage the etching assemblage (not shown). The

supplemental support rollers

70, 72 are free to turn on the

shafts

74, 76, providing support in a direction substantially normal to the plane of the lower surface of the platen 12. The supplemental support rollers are so disposed as to oppose the force applied to the platen through the etching assemblage by the upper pressure roller when the assemblage is being pressed, whereby the line of force which causes the bending of the platen falls within the respective support roller.

As shown in FIG. 3, the supplemental rollers 72 in FIG. 2) are-spaced inwardly from the endsof the lower pressure roller 50 by a distance which is substantially equal to the diameter of the lower pressure roller, thereby to provide increased support for the platen 12 at areas located inwardly of the longitudinal side edges thereof. The

racks

56, 58 constitute a stiffening means for the longitudinal side edges. By the above arrangement there is had an advantageous support of the platen which minimizes bending of the latter.

Further in accordance with the invention there is provided a novel adjustable stop means connected with the

screws

38 and 40 to limit the downward advance of the upper pressure roller 32 toward the upper surface of the platen 12. This stop means comprises a pair of adjustable threaded members or barrels 78, 80 carried by and cooperable with special, finely threaded portions of the

screws

38 and 40 respectively. As can best be understood by referring to FIG. 3, the

barrels

78, 80 are turnably carried on threaded

collars

82, 84 dis-' posedon the

screws

38, 40. The barrels and collars have a fine thread pitch compared to that of the

screws

38, 40 thus enabling a fine degree of adjustment of the barrels on the latter. The

collars

82, 84 are further provided with

indicia

86, 88 to indicate the longitudinal position of the barrels with respect to the collars. The

barrels

78, 80 also have indicia disposed around the periphery of each to indicate the rotary position thereof with respect to the

collars

82, 84. By the above arrangement, the

barrels

78, 80 may be positioned with respect to the

screws

38, 40 so as to enable the operator to limit the downward advance of the upper pressure roller 32 toward the platen 12. At such time as a satisfactory pressing has been obtained, through several trial runs, the precise positions of the upper pressure .roller 32 can be noted and recorded by simply advancing the barrels 78,80 (in a downward'direction) into engagement with the

bridges

42, 44. Once the optimum position of the upper pressure roller 32 is determined the positions of the barrels can be set and precisely recorded, thus enabling resetting of these press conditions for subsequent etchings employing the same etching assemblage. As a result, it is possible to achieve highly uniform results which heretofore were not generally obtainable without the expenditure of excessive time and effort by the press operator. In addition, the waste in material resulting from repeated attempts to obtain satisfactory impressions is greatly minimized.

FIG. 4 illustrates another embodiment of the invention wherein there is shown a novel micrometer means for indicating the relative position of the screw 40 and upper pressure roller 32 with respect to the platen l2 and machine frame 10. The micrometer means co'm prises a barrel 86, the position of which can be adjusted and fixed with respect to the screw 40 by means of adjustment set

screws

90, 92. The barrel preferably has graduation lines 94 and indicia for indicating the rotary position thereof and has a transverse reference line 96. In addition. the machine frame carries a bracket 98 having graduation lines generally parallel to the refer ence line '96. The barrel and bracket thus can provide an accurate indication of the spacing between the roller 32 and the platen 12. It will be readily understood that the indicator means illustrated in FIGS. 4 and 5 can be substituted for the stop means illustrated in FIGS. l-3.

- Calibration of the indicator illustrated in FIGS. 4 and 5 is easily effected. With the

set screws

90, 92 loosened, the upper roller 32 is brought into snug engagement with the platen upper surface 14 by adjusting the

screws

38, 40. The barrel 86 is then moved vertically such that the reference line 96 therein coincides with the zero line on bracket 98. Set screws 90, 92 are then tightened, and the adjustment is complete. The

barrel graduation lines 94 illustrated each represent five-thousandths of an inch, and the graduations on bracket 98 are calibrated in 0.040 inch increments, as shown. Thus, by the above arrangement, it is possible to check the calibration of the press and then set the upper roller 32 to a predetermined position with a high degree of accuracy.

It will now be understood from the foregoing that I have provided a .novel and improved etching press which effectively minimizes skewing of the platen by providing a direct, positive, balanced drive arrangement therefor. Further, by employing additional supplemental support rollers, bending of the platen is minimized and a greater degree of etching uniformity is obtained. It is to be noted that in the present construction,

the upper and lower pressure rollers serve only to apply pressure in a direction perpendicular to the platen surface and not to provide drive for the platen. In addition, a high degree of resettability is achieved by the unique stop means and indicator devices carried by the force transmitting members, enabling accurate adjustment of the position of. the upper pressure roller. The present invention etching press is thus seen to represent a substantial advance and improvement in'this field.

Variations and modifications are possible, without departing from the spirit of the invention.

I claim;

, 1. An etching press, comprising in combination:

a. a machine frame,

b. a substantially flat platen having a smooth upper surface mounted on said frame for reciprocating movement in a horizontal plane with respect thereto, 7

c. an upper pressure roller disposed adjacent the upper surface of said platen,

d. means for rotatably mounting said pressure roller for free-wheeling movement on said frame,

e. means for positively advancing said roller downward toward the upper surface of said platen and for positively retracting said roller upward and away from said upper surface, to thereby enable selective engagement of the latter and the roller, and

adjustable stop means connected with said immediately preceding means to positively limit to predetermined positions the advance of said roller downward toward the upper surface of said platen,

g. said means for advancing said roller toward the upper surface of said platen comprising a pair of threaded members affixed to the machine frame and a pair of screws respectively turnable in said threaded members and extending adjacent the ends of the rollers,

h. said stop means including threaded barrels carried by the screws and turnably adjustable with respect thereto, and having graduations for indicating their rotary positions.

2. An etching press, comprising in combination:

a. a machine frame,

b. a substantially flat'platen having a smooth uper surface, said platen being mounted on said frame for reciprocating movement in a horizontal plane with respect thereto, said platen having oppositely disposed longitudinal edges,

c. an upper pressure roller rotatably mounted on the frame and engageable with the upper surface of said platen,

d. positive drive means including rack elements on said opposite edges of the platen, and including pinions engaged with said rack elements and carried by the frame, for drivingly reciprocating said platen along its path of travel,

e. said platen having a substantially smooth lower bearing surface,

. a lower pressure roller rotatably mounted on the machine frame and engaging said lower bearing surface of the platen at a point substantially opposite the upper roller to provide counter pressure to the lower surface of the platen and to reinforce the latter,

g. a supplemental support roller rotatably carried by the machine frame at one side of said lower pressure roller and closely juxtaposed thereto, said supplemcntal roller being in continuous engagement with the smooth lower bearing surface of the platen at a point thereon immediately upstream from the point engaged by the lower pressure roller to assume stresses imposed on the platen and to minimize warping of the latter during the pressing operation,

h. a second supplemental support roller rotatably mounted on the machine frame at the other side of said lower pressure roller and closely juxtaposed thereto, said second supplemental roller being in continuous engagement with the smooth lower bearing surface of the platen at a point thereon immediately downstream from the point engaged by the lower pressure roller so as to share with the first supplemental roller the said stresses experienced by the platen,

. said supplemental rollers being spaced inwardly from the said longitudinal edges of the platen and with said lower pressure roller providing amultipoint support for the platen, portions of which support are over an area located beyond the pressu're points imposed by the upper pressure roller whereby warping of the platen is reduced,

j. a pair of shafts on the frame, respectively carrying said first and second supplemental rollers, and

k. third and fourth supplemental rollers respectively carried by said shafts and positioned to be closely juxtaposed to said lower pressure roller and respectively spaced from said first and second supplemental support rollers,

1. all of said supplemental rollers being spaced from the respective ends of the lower pressure roller by a distance substantially equal to the diameter of the lower pressure roller.

Claims

1. An etching press, comprising in combination: a. a machine frame, b. a substantially flat platen having a smooth upper surface mounted on said frame for reciprocating movement in a horizontal plane with respect thereto, c. an upper pressure roller disposed adjacent the upper surface of said platen, d. means for rotatably mounting said pressure roller for freewheeling movement on said frame, e. means for positively advancing said roller downward toward the upper surface of said platen and for positively retracting said roller upward and away from said upper surface, to thereby enable selective engagement of the latter and the roller, and f. adjustable stop means connected with said immediately preceding means to positively limit to predetermined positions the advance of said roller downward toward the upper surface of said platen, g. said means for advancing said roller toward the upper surface of said platen comprising a pair of threaded members affixed to the machine frame and a pair of screws respectively turnable in said threaded members and extending adjacent the ends of the rollers, h. said stop means including threaded barrels carried by the screws and turnably adjustable with respect thereto, and having graduations for indicating their rotary positions.

2. An etching press, comprising in combination: a. a machine frame, b. a substantially flat platen having a smooth uper surface, said platen being mounted on said frame for reciprocating movement in a horizontal plane with respect thereto, said platen having oppositely disposed longitudinal edges, c. an upper pressure roller rotatably mounted on the frame and engageable with the upper surface of said platen, d. positive drive means including rack elements on said opposite edges of the platen, and including pinions engaged with said rack elements and carried by the frame, for drivingly reciprocating said platen along its path of travel, e. said platen having a substantially smooth lower bearing surface, f. a lower pressure roller rotatably mounted on the machine frame and engaging said lower bearing surface of the platen at a point substantially opposite the upper roller to provide counter pressure to the lower surface of the platen and to reinforce the latter, g. a supplemental support roller rotatably carried by the machine frame at one side of said lower pressure roller and closely juxtaposed thereto, said supplemental roller being in continuous engagement with the smooth lower bearing surface of the platen at a point thereon immediately upstream from the point engaged by the lower pressure roller to assume stresses imposed on the platen and to minimize warping of the latter during the pressing operation, h. a second supplemental support roller rotatably mounted on the machine frame at the other side of said lower pressure roller and closely juxtaposed thereto, said second supplemental roller being in continuous engagement with the smooth lower bearing surface of the platen at a point thereon immediately downstream from the point engaged by the lower pressure roller so as to share with the first supplemental roller the said stresses experienced by the platen, i. said supplemental rollers being spaced inwardly from the said longitudinal edges of the Platen and with said lower pressure roller providing a multi-point support for the platen, portions of which support are over an area located beyond the pressure points imposed by the upper pressure roller whereby warping of the platen is reduced, j. a pair of shafts on the frame, respectively carrying said first and second supplemental rollers, and k. third and fourth supplemental rollers respectively carried by said shafts and positioned to be closely juxtaposed to said lower pressure roller and respectively spaced from said first and second supplemental support rollers,