Printing blanket holding bar gage

A printing blanket holding bar gage is provided and made of a flat strip having a stepped slot therein which extends inwardly from an edge thereof for receipt of a holding bar and the slot is comprised of a plurality of aligned slot portions each defined by an associated spaced pair of parallel edges having a particular perpendicular distance therebetween with the perpendicular distance between each associated spaced pair of parallel edges being less in each consecutive slot portion disposed inwardly from the edge enabling the gage to be moved into gaging relation with a holding bar and serve as a go no-go gage therefor; and, such gage also has comparators thereon for approximately the thickness of a leg of an associated holding bar brought into gaging association therewith.

BACKGROUND OF THE INVENTION 
Printing presses employed in lithographic printing are widely used and 
employ so-called printing blankets which are fastened around the periphery 
of an associated printing cylinder for the purpose of picking up an ink 
design or image deposited thereon by an inking roller and such design or 
image is transferred onto an article being printed. A commonly used 
technique for holding a printing blanket in position on an associated 
printing cylinder is to employ printing blanket holding bars which are 
fastened to opposite ends of the blanket. However, during the process of 
printing the holding bars and their associated blanket wear and/or are 
often damaged whereby they must be replaced. 
Printing blanket stock for a particular press is often provided on an 
associated supply roll thereof whereby the size thereof is known; however, 
the holding bars must be measured to assure that replacement bars will 
function in the printing press. It would be a simple matter to measure the 
holding bars if the printing blankets with worn or damaged holding bars 
attached were to be removed from the press and taken to a measuring 
station or laboratory for measurement employing the usual measuring 
instruments. However, often times such procedure is too time consuming and 
it is preferred that decisions regarding replacement holding bars be made 
at the press. 
SUMMARY 
It is a feature of this invention to provide a printing blanket holding bar 
gage which is readily usable at the printing press site to measure a 
printing blanket holding bar. 
Another feature of this invention is to provide a gage of the character 
mentioned which is usable to provide certain measurements of such a 
holding bar with the bar completely installed or partially installed on an 
associated printing cylinder. 
Another feature of this invention is to provide a gage of the character 
mentioned which is of optimum simplicity and which may be in the form of 
an expandable gage. 
Another feature of this invention is to provide a printing blanket holding 
bar gage made of a flat strip having a stepped slot therein which extends 
inwardly from an edge thereof for receipt of a holding bar and the slot is 
comprised of a plurality of aligned slot portions each defined by an 
associated spaced pair of parallel edges having a particular perpendicular 
distance therebetween with the perpendicular distance between each 
associated spaced pair of parallel edges being less in each consecutive 
slot portion disposed inwardly from the said edge enabling the gage to be 
moved into gaging relation with a holding bar and serve as a go no-go gage 
therefor; and, such gage also has comparators thereon for approximating 
the thickness of a leg of an associated holding bar brought into gaging 
association therewith. 
Accordingly, it is an object of this invention to provide a printing 
blanket holding bar gage having one or more of the novel features set 
forth above or hereinafter shown or described. 
Other details, features, objects, uses, and advantages of this invention 
will become apparent from the embodiments thereof presented in the 
accompanying specification, claims, and drawing.

DESCRIPTION OF ILLUSTRATED EMBODIMENT 
Reference is now made to FIG. 1 of the drawing which illustrates an 
exemplary printing press cylinder 20 which is particularly adapted to be 
installed in a printing press used in lithographic printing; and, such 
cylinder 20 has a printing blanket 21 disposed therearound and held in 
position as is well known in the art. In particular, the blanket 21 has a 
leading end portion 22 which is detachably fastened in position on the 
printing cylinder 20 as shown at 23 and blanket 21 has what would be 
referred to as a trailing end portion 24 which is also suitable detachably 
fastened in position on the printing cylinder 20 as shown at 25. Each end 
portion 22 and 24 has a blanket holding bar suitably fixed thereto and for 
simplicity each holding bar is designated by the same reference numeral 
26. 
Each holding bar 26 is in the form of an elongated holding bar of roughly 
U-shaped cross sectional outline having a bight 32 and a pair of legs 33 
and 34 extending from opposite ends of the bight with the legs 33 and 34 
defining a channel 35 for receiving an associated end portion of the 
printing blanket 21 therewithin whether it be the leading end portion 22 
of the blanket 21 or the trailing end portion 24 of such blanket. 
The cylinder 20 has what will be referred to as a retaining shelf 37 which 
is particularly adapted to receive the outer edge portion of the 
comparatively thick leg 33 thereagainst and any other suitable means may 
be employed in addition to the retaining shelf 37 to detachably fasten the 
holding bar 26 associated with the leading end portion 22 of the blanket 
21 to the cylinder 20. The trailing end portion 24 of the blanket 21 is 
suitably detachably fastened within its holding bar 26 and such trailing 
end portion and its holding bar 26 are received within a recess 40 
provided in a so-called reel rod or reel 41 of known construction which is 
suitably supported for rotation within the cylinder 20 in a manner which 
is well known in the art. The printing blanket 21 with its holding bars 26 
will also be referred to as a blanket assembly 42. 
During normal usage of each assembly 42 it is necessary from time-to-time 
to replace the blanket 21 and its holding bars 26 whereby it is necessary 
to measure same. Preferably such measuring should be achieved with minimum 
effort and minimum press down time whereby this invention provides a 
simple, economical, and readily used gage which makes these goals possible 
and such gage is designated generally by the reference numeral 43 and 
illustrated in FIG. 3. 
The gage 43 is in the form of a flat strip 44 preferably having a roughly 
rectangular peripheral outline which has a substantial length 45, a 
comparatively small width 46 which is of the order of a small fractional 
part of the length 45, and a thickness (not shown) which is a small 
fractional part of the width 46. For example, the thickness may be of the 
order of a small fractional part of an inch, such as a 1/16 of an inch, 
for example. 
The strip 44 has a stepped elongate slot 47 defined therein from an end 
edge 50 thereof for receipt of an associated holding bar, such as a 
holding bar 26, which is to be measured therewithin. The slot 47 is 
comprised of a plurality of aligned slot portions and in this example, the 
slot 47 is comprised of a plurality of aligned slot portions 51, 52, 53, 
and 54, with each slot portion being defined by an associated spaced pair 
of parallel edges having a particular precisely provided perpendicular 
distance therebetween. In particular, slot portion 51 is defined by edge 
portions 55, slot portion 52 is defined by edge portions 56, slot portion 
53 is defined by edge portions 57, and slot portion 54 is defined by edge 
portions 58. The edge portions 55-58 are parallel to each other and 
parallel to a longitudinal axis through the stepped slot 47. 
The edges of each slot portion are precisely formed and provided so that 
the perpendicular distance therebetween may be used for gaging purposes. 
Accordingly, slot portion 51 is provided with perpendicular distance 60 
between its edges 55, while the edges 56 have a perpendicular distance 61 
therebetween, the edges 57 have a perpendicular distance 62 therebetween, 
and the edges 58 have a perpendicular distance 63 therebetween. The 
perpendicular distance between each associated pair of parallel edges is 
less in each consecutive slot portion portion 51-54 disposed inwardly of 
edge 50 enabling the gage 43 to be moved in gaging relation with a holding 
bar and serve as what is popularly referred to as a go no-go gage for such 
holding bar. Accordingly, distance 63 is less than distance 62, which in 
turn is less than distance 61, which in turn is less than distance 60. 
The gage 43 also has a measuring scale provided on the strip along at least 
one of the edges of the associated pair of edges of a slot portion and 
preferably a measuring scale is provided on both of the associated 
parallel edges of each slot portion. Thus, for the slot portion 51 a scale 
65 is provided along each edge 55, for slot portion 52 a scale 66 is 
provided along each edge 56, for slot portion 53 a scale 67 is provided 
along each edge 57, and for slot portion 54 a scale 68 is provided along 
each edge 58. Each scale 65, 66, 67, and 68 is defined by suitable scale 
marks graduated to define whatever units are desired whether English 
units, metric units, or the like. 
In actual use the gage 43 is disposed so that a holding bar 26 being 
measured is positioned along the slot 47 and depending upon which slot 
portion the holding bar bottoms in, the thickness (within a range) of such 
holding bar is determined as well as its width. In this manner the gage 43 
is used as a go no-go gage for the thickness of the holding bar. For 
example, in the illustration of FIG. 4, it will be seen that holding bar 
26 may only be disposed in the slot portion 51 and cannot be moved into 
the slot portion 52 whereby the thickness of the holding bar being 
measured in FIG. 4 is roughly indicated by the distance 60 between edges 
55 which is 0.250 inch. Similarly, in the illustration of FIG. 5, it will 
be seen that another holding bar is disposed relative to the gage 43 so 
that it is within the slot portion 53 whereby the thickness of such 
holding bar is measured by the distance 62 between edges 57 which is 
0.1562 inch. Thus, it will be seen that the gage 43 is used as a go no-go 
thickness gage in that the thickness of the holding bar is determined by 
how far such bar can be disposed within the slot 47 of gage 43. 
It will also be appreciated that the width of each holding bar may be 
measured by the gage 43. For example, the width of the bar in FIG. 4 is 
read on the scale 65 at 70 while the width of the bar in FIG. 5 is read on 
the scale 67 at 71. 
The gage 43 has at least one rectangular cutout in at least one corner of 
the strip 44 defining same and in this example of the invention, it will 
be seen that the strip 44 defining the gage 43 has a rectangular cutout in 
each of its four corners and in particular has a plurality of cutouts 72, 
73, 74, and 75. Each rectangular cutout is particularly adapted to receive 
a leg of an associated holding bar disposed therewithin. Each cutout 72-75 
is defined by an end edge 76 and a bottom edge 77. The end edge 76 of 
cutout 72 has a precise known height or dimension 78 which serves as a 
comparator gage for a leg of an associated holding bar brought into gaging 
association therewith. The cutouts 73, 74, and 75 have similar precise 
known heights 79, 80, and 81 respectively and such heights serve as 
comparator gages or scales (as indicated above) for determining the 
thickness of each leg of an associated holding bar. The known heights 78, 
79, 80, and 81 in this example are 0.2500 inch, 0.625 inch, 0.1875 inch, 
and 0.1250 inch respectively. Thus, it will be seen that the comparatively 
thick leg 33 of the holding bar 26 illustrated in FIG. 2 may be measured 
in the cutout 72 as shown in FIG. 6, for example, to indicate that it has 
the thickness 78 because such leg may be nested within the slot 72 so that 
the bottom surface of the leg 33 is flush with the bottom edge 77 of the 
strip 44 as indicated at 82 while the blanket 21 is flush with and against 
the portion of the gage 43 as indicated at 83 without daylight or a space 
therebetween or without causing a bowing of the portion of the blanket 
adjoining the holding bar 26. It will be appreciated, for example, that if 
the leg portion 33 were to be brought into gaging association with the 
cutouts 73, 74, or 75, there would be a space between the blanket and the 
outer edge of the gage 43 comprising the elongated dimension thereof. 
Thus, it is seen that the gage 43 is readily brought into gaging 
association to measure the thickness of each leg of a holding bar by 
determining which slot would most snugly receive a particular leg 
therewithin in nested relation whereby the cutouts 72-75 also serve as go 
no-go gaging means. 
The various scales 65, 66, 67, and 68 comprising gage 43 may be defined by 
suitable marks integrally formed (as by embedding or scoring marks) in the 
material used to define the gage 43. Further, it will be appreciated that 
suitable separate scale members may be fixed to the strip 44 to define 
scales 65-68. 
The gage 43 may be made of any suitable metallic or non-metallic material 
and may be made essentially of expendable material such as inexpensive 
metal, plastic, cardboard, or the like, whereby such gage 43 may be 
discarded after substantial wear thereof. 
In addition, it will be appreciated that the gage 43 of this invention 
lends itself to simple and economical manufacture and is of such 
simplicity and economy that it may be used to provide advertising thereon 
and used as a giveaway item to promote a manufacturer's products. 
It will also be appreciated that instead of each gaging height indicated, 
the gage itself may indicate a holding bar manufacturer's part number that 
would have a similar dimension or provide a code on the gage which may be 
referred to in a manufacturer's pamphlet or brochure to enable the holding 
bar user to refer to a particular off-the-shelf holding bar part number. 
Accordingly, the gage 43 may serve as a gage and advertising instrument. 
The gage 43 of this invention may be used to determine the thickness of 
each leg of a U-shaped holding bar essentially as shown in FIG. 6. 
Further, a scale along slot 47 (such as a scale 65) may be used to measure 
the thickness of the blanket 21. 
While present exemplary embodiments of this invention, and methods of 
practicing the same, have been illustrated and described, it will be 
recognized that this invention may be otherwise variously embodied and 
practiced within the scope of the following claims.