US2569755A

US2569755A - Method and apparatus for striping film

Info

Publication number: US2569755A
Application number: US100903A
Authority: US
Inventors: Jr Everette E Griffith
Original assignee: Technicolor Motion Picture Corp
Current assignee: Technicolor Motion Picture Corp
Priority date: 1949-06-23
Filing date: 1949-06-23
Publication date: 1951-10-02
Anticipated expiration: 1968-10-02

Description

Oct. 1951 E. E. GRIFFITH, JR I 2,569,755

METHOD AND APPARATUS FOR STRIPING FILM Filed June 25, 1949 2 Sheets -Sheet 1 Ln n n I n n n 1 n n n] l I Emil: 5 in HA A A- .9 1 ,x I l I L U 1 if? JizqfrzJar i fiffilfifg 679 /12 J 6 I Oct. 2, 1951 E. E. GRIFFITH, JR

METHOD AND APPARATUS FOR STRIPING FILM 2 Sheets-Sheet 2 Filed June 23, 1949 tie/AW Patented Oct. 2, 1951 METHOD AND APPARATUS FOR STRIPING FILM Everette E. Grilfith, Jr., Los Angeles, Calif assignor to Technicolor Motion Picture Corporation, Los Angeles, Oalifi, a corporation of Maine Application June 2 3, 1949, Serial No. 100,903

8 Claims.

This invention relates to --the art of applying astripe of'liquid tozan elongate strip of materia1 .and more particularly to the application of a stripe of sensitizing solution to the sound-track zone of cinematographic film. For example, in printing motion pictures byimbibition the picture areas need not be sensitized but inasmuch as it is diflicult to print a good sound-track'by imbibition it is desirable to sensitize the sound-track zoneof the film to receive photographic print of the soundetrack.

Objects of the present invention are to apply to a film a liquidtreatment 'which oan be easily and accurately adjusted in degree and which affects the .film throughout a zone whose width is accurately defined and can be adjusted precisely. .Other objects are to apply .a stripe of liquid which is uniform in widthrand which is straight and parallel to the edges of the film. Still other objects are to cause the "liquid to be absorbed uniformly throughout the length and widthof-thestripe and to prevent theliquid from spreadinglaterally from thestriped zone.

In one aspect the present .invention involves a :method of treatment which comprises guiding film along a predetermined path, at one location along "the path applying a ridge of liquid to a longitudinal zone of the :film and, :atanother location farthervalong thepath, removing from the film the superficial liquid which has not been absorbed by the film while traveling between the two locations. Therstripe of liquid is preferably applied by directing a fountain of liquid upwardly againstthe underside-of the film, and the superflcial liquid is preferably removed by suction. Inthe preferred embodiment the stripe is applied by feeding the film over an upwardly directed nozzle in close juxtaposition thereto but in spaced relation therewith, creating at the top of the nozzle a bead of liquidhigh enough to bridge the gap between the nozzle and film, drawing liquid from the nozzle by capillary attraction as the film is fed past the nozzle, and supplying liquid to the nozzle at a rate sufiicient to maintain the aforesaid bead without overflow.

In another aspect the invention involves apparatus comprising means for guiding film-along a predetermined path, means at one location along the path for applying 'a ridge of liquid to alongitudinal zone of the film and, at another location farther along the path, means for removing from the filmthe superficial liquidwhich has not been absorbed "by the film While traveling between the two locations. In-the preferred embodiment the apparatus comprises a coater nozzle and means for passing the film. over the nozzle with the film-contacting the summit of the beadof liquid throughout the sound-track -zone of the film. In normal operation the nozzle creates a liquid head sufiicientto form a capillary bead of liquid between the nozzle and film without any overflow, whereby the width of the strip remains uniform throughout its length.

For the purpose of illustration typical embodiments of 'the'invention are shown in the accom panying drawings in which Fig. 1 is a diagram ofzan arrangement for-treatingthe sound-track zone of motion-picturefilm;

.Fig. 2 is a plan view of a piece of motion picture film with a bubbler underneath;

Fig. 3 is a-section on line "3-3 of Fig.2;

Fig. 4 is a plan view of thefilmas it passes over the suctionzdevice;

. Fig. 5 :is a section on line 51- 5 of Fig. ;4;

"Fig-611s a diagram like Fig. ,1 :Showlng aproferred embodiment;

Fig. 1'7 is a side elevation of the coatin means for:appl ying the strip of liquid, parts being shown in, section; and

Fignseisa section-on line 8-8 of,Fig.' 7.

The particular embodiment .of the invention shown .in Figs. .1 1305,001'11Dl'iS8S2-W3t8l tank I, rolls -2 :and .3 for guiding film into and out of the tank, acoater nozzle 4 having a tip 6, an inlet 1 and an outlet 8, a suction device 9 for removing superficial liquid and rolls H, 1'2, 1 3, l4, l5 and It for guiding the film along a predetermined path which extends into juxtaposition to the tip 6 and the suction device .9, with the emulsion or face side ofthe filmdlrected downwardly in this portion of the path. Where the film passes the nozzle 'the path of the film is preferably inclined downwardly. The apparatus may also comprise asuction device intermediate the rolls 3 and 14 for removin water superficially adhering to the film after the film leaves the water tank I and before it reaches the nozzle. By first passing the film through the water tank, :it absorbs considerable moisture. This facilitates the deposition of the ridge of liquid on the film also the absorption of the liquid by the film.

The nozzle 4, which constitutes the subjectmatter of an application by David J. Johnson, Ser. No. 690,770, filed August '15, 1946, andnow abandoned comprises two orifices I! through which the film-treating liquid is fed at low pressure to produce a bead which extends only a short distance above the tip of the nozzle, excess material which overflows in getting the apparatus adjusted passing into a trough l8 and flowing the two rows of picture areas.

away through outlet 8. In the illustration the film is 32 mm. wide and provided with perforations like standard 16 mm. film so that, when split down the middle, it produces two standard 16 mm. films with a sound-track zone [9 along one edge of each film. While the apparatus may be adjusted to apply two separate stripes with the two outlets ll, preferably the two streams merge into one fountain which wets the film throughout the width of the entire sound-track area between While any suitable sensitizing solution may be used, the one disclosed in the application of Gerald F. Rackett, Ser. No. 5%,249, filed May 17; 1945, and now J abandoned, is recommended.

The suction device 9 has an inlet 21 in the form of a slot which extends approximately the width of the sound-track area of the film. As in the case of the nozzle 6, the device 9 extends into close juxtaposition to the film without contacting the film.

As the film passes the nozzle l it picks up a ridge of liquid the width of which is approximately equal. to'the distance betweenthe two rows of pictureareas on the film. In transit from the nozzle lto the device 9 some of the liquid is absorbed by the film. The superficial liquid remaining on the film is removed by the device 9. By regulating the distance between the nozzle 4 and the device 9 or by adjusting the speed of the film, the amount of liquid absorbed by the film can be regulated. By having the path of the film extend back over roll it after it leaves the suction device the film can be partly or wholly dried before the film leaves the machine.

The preferred embodiment of the invention shown in Figs. 6, 7 and 3 comprises a feed reel 22, feed sprockets 23, 24, 25, 26, a ratchet sprocket 2'! and a take-up reel 23. Intermediate the sprocket wheels 23 and. 24 is a guide roll 23 and a weighted elevator 36. After leaving the sprocket wheel 2 the film passes over three guide rolls to the coater roll Bl'opposite the coating nozzle 32. Thence the film inclines upwardly to the guide roll 33, thence over guide roll 34 and thence over a series of rolls 35 which are so arranged that the portions of the film passing from one roll to the next succeeding roll extend horizontally and are too short to sag substantially. After passing back and forth over the rolls 3.5 the film passes over another guide roll 36, thence past the suction nozzle 3'! and thence over twoguide rolls and under'an elevator roll. Between'the sprocket wheels 25 and 26 the filmextends in two depending loops'within a drying chamber 38. At thelower end of the first loop the film is guided by a roller 3% journalled in the chamber but the lower end of the second loop isguided by a weighted roller 4?] which is free to rise and fall to compensate for slight variations in the shrinkage of the film. Between the sprocket wheels it and 2'! a weighted guide roll 4! is provided to serve as an elevatorto descend when the sprocket wheel iil is stopped while the take-up reel is being replaced with a new reel. The sprocket wheel El; is of the ratchet type which can turn forwardly but not rearwardly, and. it

'is driven by the film. Thus when the film is cut to replace the take-up reel the sprocket wheel 2'? stops. Before the film reaches the coater nozzle it may be moistened as in Fig. 1 or in any other suitable way.

While thesuction nozzle 31 may be substantially the same as the nozzle 3 of the first embodiment, the coater nozzle 32 differs from the overflow tube 48.

nozzle 4 in that it has only a single outlet large enough to wet the film throughout the entire width of the sound-track zone. As shown in Figs. 7 and 8 the nozzle 32 is provided with an overflow cup 42 and an outlet 43 for attachment to a drain hose. As shown in the same figures the roll 3| opposite the coater nozzle is provided with flanges to engage the edges of the film in the region of the coater nozzle, whereby the stripe of liquid is applied along a zone parallel to the edge of the film and always the same distance from the edge of the film.

As shown in Fig. '7 the means for supplying liquid to the coater nozzle comprises a. chamber 44 in which the liquid is maintained at substantially the same level as that of the coater nozzle. The chamber 44 is connected with the nozzle through a tube 65. When the liquid comprises two components they may be supplied separately through tubes i6 and 41 and thence through the Y-shaped fitting 48 to the chamber. The chamber 44 has an outlet connected to the In this outlet is threaded .a tube 50 having lateral inlets 5! through which liquid flows from the chamber to the overflow tube 49. By threading the tube 50 up and down the height of the liquid in-the chamber may be variedythereby to vary the rate of flow from the outlet of nozzle 32.

In operation the height of the liquid in chamber M should be so adjusted as tocreat'e a liquid head at the nozzle just sufiicient to form a capillary bead of liquid between the coater tip and the film. If thefilm travel is stopped the normal and preferred adjustment of the liquid heat is such that a full bead of liquid remains standing between the coater tip and the film. The liquid does not overflow andrun down over the coater tip into the cup 42 after the liquid level'is properly adjusted. As the film travels past the coater tip the liquid is drawn out into a. stripe and the supply of liquid is automaticallyreplenished by flowing from the constant level chamber. The

rate of flow to the film should not be sufllcie'nt r to result in overflow into the cup 42' as this would back along the film towards the nozzle and falls upon the shield 52 which serves as a. trough to lead the drippings away from the nozzle. After the passing of a splice normal operation is quickly resumed without variation in the width of the strip except throughout a small distance immediately following the splice. I

The upward inclination of the film after it leaves the. coater nozzle is important; if the film path extended horizontally or downwardly any excess solution which inadvertently gets on the film during the passage of a splice or during a stop would tend to hang suspended from the film as an irregular, uncontrolled, running drip which might ruin many feet of film before the last of the excess solution is used up.

The coater wheel 3| is preferably an accuratelymachined and balanced bronze wheel mounted to turn smoothly in ball bearings when pulled along by the film. The coater wheel has accurately shaped flanges which fit the edges of the film and assure the film passing over the fixed coater.

tip in proper lateral position. By applying; the liquid to thefilm while thefilm is drawn. snugly around thecoater wheel, the stripe is uniformly applied ina straight" line parallel to the edge of the filmeventhough the film is crooked or curved or buckled.

The rolls and sprocket wheels between the coater wheelB andthe sprocket wheel 25 are undercuttin the middle sothat they engage the film only along the margins'of the film, whereby they do not contact with the wetted. zone. The distance between the coaterwheel 3| and the suction nozzle 3'! must be great enough to permit the liquid to soak into the emulsion of the film to the desired extent. The important requirement of this soaking or absorbing path is that the film must be restrained. and heldas level. as possible by a large number of pulleys placed close together' so that, even though the film is cur-led or buckled or crooked, there is never an opportunity for one edge of the film to be higher-than the other'as this would cause the stripes of liquid solution to fiow irregularly toward the lower edge. The soaking path may have short vertical sections but any great length of vertical path is to be avoided as this also tends to produce a zone which is irregular inwidth and non-uniform in sensitivity.

At the suction nozzle 31 the liquid sensitizing solution remaining on-the film surface is quickly drawn off, leaving the surface of the film moist but free from any liquid drops.

When the apparatus is used to apply to a narrow sound-track zone a thin sensitizing solution having a viscosity approximating that of water, the distance from the tip of the nozzle to the film may be approximately one-eighth of an inch.

It should be understood that the present disclosure is for the purpose of illustration only and that this invention includes all modifications and equivalents which fall within the scope of the appended claims.

This is in part a continuation of my co-pending application #690,771 filed August 15, 1946, and now abandoned.

I claim:

1. In the art of cinematography the method which comprises guiding absorbent film along a predetermined path from one location to another with one side of the film directed downwardly in a portion of the path, at the first location applying to a longitudinal zone of said underside of the film a depending ridge of liquid of which the film is absorptive but in excess of that which the film will absorb in traveling from the first to the second location so that some of the liquid remains on the surface of the film until it reaches the second location, the liquid being applied by directing a fountain of the liquid upwardly against said zone, and at said second location removing from the film the superficial liquid which has not been absorbed by the film while traveling between the two locations.

2. In the art of cinematography the method which comprises guiding absorbent film along a predetermined path from one location to another.

a fountain of the liquid upwardly against said zone, and at said second location removing by suction the superficial liquid which has not been absorbed by the' film while traveling between the two locations.

3. In the art of cinematography the method which comprises guiding absorbent film along a predetermined path from one location to another with one side of the film directed downwardly in a portion of the path, at the first location applying to the sound-track zone of saidunderside of the film a depending ridge of sensitizing liquid of which the film is absorptive but in excess of'that which the film will absorb in traveling from the first to the second location so that some of the liquid remains on the surface of the film until it reaches the second location, the liquid being applied by directing a fountain of the liquid upwardly againstsaidzone, and'at said second location removing from the film the superficial liquid which has not been absorbed by comprising means for guiding film along a predetermined path from one location to another with one side of the film directed downwardly, means at thefirst location for applying to a longitudinal zone of theunderside of the film a ridge of liquid of which the film is absorptive but in excess of that which the film will absorb in traveling from the first to the second location so that some of the liquid remains on the surface of the film until it reaches the second location, the path of the film past the liquid applying means being directed downwardly, and at said second location means for removing from the film the superficial liquid which has not been absorbed by the film while traveling between the two locations.

5. In the art of cinematography apparatus comprising means for guiding film along a predetermined path from one location to another with one side of the film directed downwardly at the first location, a bubbler at the first location for applying to a longitudinal zone of the underside of the film a ridge of liquid of which the film is absorptive but in excess of that which the film will absorb in travelling from the first to the second location so that some of the liquid remains on the surface of the film until it reaches the second location, and at said second location means for removing from the film the superficial liquid which has not been absorbed by the film while traveling between the two locations, said bubbler being inclined in the direction of film travel.

6, In the art of cinematography apparatus comprising means for guiding film along a predetermined path from one location to another with one side of the film directed downwardly at the first location, a bubbler at the first location for applying to a longitudinal zone of the underside of the film a ridge of liquid of which the film is absorptive but in excess of that which the film will absorb in traveling from the first to the second location so that some of the liquid remains on the surface of the film until it reaches the second location, at said second location means for removing from the film the superficial liquid which has not been absorbed by the film while traveling between the two locations, and intermediate said locations a series of pulleys arranged to cause the film to travel back and forth approximately horizontally, the pulleys being close enough together to prevent the film from tipping edgewise.

7. In 7 the art of cinematography apparatus comprising means for guiding film along a predetermined path from one location to another with one side of the film directed downwardly at the first location, a bubbler at the first location for applying to a longitudinal zone of the underside of the film a ridge of liquid of which the film is absorptive but in excess of that which the film will absorb in traveling from the first to the second location so that some of the liquid remains on the surface of the film until it reaches the second location, and at said second location means for removing from the film the superficial liquid which has not been absorbed by the film while traveling between the two locations, the path of the film being upwardly inclined as it leaves said bubbler so that the bridge of liquid tends to flow along the film in the direction opposite to the direction of film travel.

8. In the art of cinematography apparatus comprising means for guiding film along a predetermined path from one location to another with one side of the film directed downwardly at the first location, a bubbler at the first location for applying to a longitudinal zone of the underside of the film a ridge of liquid of which the film is absorptive but in excess of that which the film will absorb in traveling from the first to the second location so that some of the liquid REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,226,655 Grosvenor May 22, 1917 1,540,862 Punnett June' 9, 1925 1,616,642 Troland Feb. 8, 1927 1,721,951 Gould July 23, 1929 1,780,973 McLaurin Nov. 4, 1930 1,929,877 Bonamico Oct. 10, 1933 2,086,126 Gilchrist July 6, 1937 2,123,354 Corse July 12, 1938 2,168,997 Lankes Aug. 8, 1939 2,249,200 Edwards July 15, 1941 2,253,060 Clearman Aug. 19, 1941

Claims

1. IN THE ART OF CINEMATOGRAPHY THE METHOD WHICH COMPRISES GUIDING ABSORBENT FILM ALONG A PREDETERMINED PATH FROM ONE LOCATION TO ANOTHER WITH ONE SIDE OF THE FILM DIRECTED DOWNWARDLY IN A PORTION OF THE PATH, AT THE FIRST LOCATION APPLYING TO A LONGITUDINAL ZONE OF SAID UNDERSIDE OF THE FILM A DEPENDING RIDGE OF LIQUID OF WHICH THE FILM IS ABSORPTIVE BUT IN EXCESS OF THAT WHICH THE FILM WILL ABSORB IN TRAVELING FROM THE FIRST TO THEE SECOND LOCATION SO THAT SOME OF THE LIQUID REMAINS ON THE SURFACE OF THE FILM UNTIL IT REACHES THE SECOND LOCATION, THE LIQUID BEING APPLIED BY DIRECTING A FOUNTAIN OF THE LIQUID UPWARDLY AGAINST SAID ZONE, AND AT SAID SECOND LOCATION REMOVING FROM THE FILM THE SUPERFICIAL LIQUID WHICH HAS NOT BEEN ABSORBED BY THE FILM WHILE TRAVELING BETWEEN THE TWO LOCATIONS.