US2665130A - Device for driving tapes - Google Patents

Device for driving tapes Download PDF

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US2665130A
US2665130A US76163A US7616349A US2665130A US 2665130 A US2665130 A US 2665130A US 76163 A US76163 A US 76163A US 7616349 A US7616349 A US 7616349A US 2665130 A US2665130 A US 2665130A
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film
roller
shaft
tension
rollers
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US76163A
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Vermeulen Roelof
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Hartford National Bank and Trust Co
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Hartford National Bank and Trust Co
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03DAPPARATUS FOR PROCESSING EXPOSED PHOTOGRAPHIC MATERIALS; ACCESSORIES THEREFOR
    • G03D3/00Liquid processing apparatus involving immersion; Washing apparatus involving immersion
    • G03D3/08Liquid processing apparatus involving immersion; Washing apparatus involving immersion having progressive mechanical movement of exposed material
    • G03D3/13Liquid processing apparatus involving immersion; Washing apparatus involving immersion having progressive mechanical movement of exposed material for long films or prints in the shape of strips, e.g. fed by roller assembly
    • G03D3/14Liquid processing apparatus involving immersion; Washing apparatus involving immersion having progressive mechanical movement of exposed material for long films or prints in the shape of strips, e.g. fed by roller assembly with means for taking into account of elongation or contraction of films

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  • This invention relates to a device for moving tapes, more particularly in machines wherein the tape is subjected to treatment in a liquid bath, this device comprising idle rollers on shafts which rollers are arranged in two superposed rows whilst the tape passes alternately over one of the rollers of each row and is drawn at a uniform rate out of the device and supplied to the latter with a substantially constant tension, the shaft(s), on which the upper rollers are provided, rotating in the direction of rotation thereof at a higher speed than the latter.
  • 726,882 filed February 6, 1947, now abandoned may, for instance, be used for developing films consisting of regen erated cellulose and comprising images and/or sound records to be developed, or for saponifying films consisting of acetyl cellulose, of which the surface must be saponified to render it suitable for absorbing light-sensitive material, in which images and/or sound records are to be provided.
  • the present invention permits such a ratio of the frictional forces between rollers and shafts to be obtained as to ensure a suitable tension of the film.
  • the invention provides a new way of adjusting the film tension in a simpler and faster manner, the value of the weight of the lower roller being less critical than in the device according to the aforesaid patent application.
  • the increase in driving force exerted, in accordance with the film tension, by the upper rollers on the film portion between the upper roller and the lower roller exceeds for the said purpose the increase in braking force exerted, in accordance with the film tension, by the lower rollers on the said film portion, the upper rollers being braked at the lower side with a constant, adjustable spring pressure.
  • Fig. 1 illustrates the theoretical frictional force We between the lower rollers and their shafts in accordance with the film tension S, and the frictional force Wb between the upper rollers and their shafts in accordance with the film tension S, as described in patent application Ser. No. 726,882, now abandoned.
  • Fig. 2 illustrates the corresponding forces instrumental in the device according to the invention.
  • Fig. 3 is a detail view of one embodiment of the device according to the invention.
  • Fig. 4 represents an arbitrary roller over which a film band passes, the shaft carrying this idle roller being driven in the direction of motion of the film.
  • Fig. 5 shows an upper roller of the device according to the invention, in the state which occurs on starting the device.
  • a definite ratio will exist between the frictional force occurring between the upper roller and its shaft, and between the lower roller and its shaft on the one hand and the force exerted by the upper roller and lower roller on the film part located between the rollers on the other hand. Since the shafts of the upper rollers are driven in the diretcionof motion of the film in a manner such that their movement is faster than that of the upper rollers, and the lower rollers rotate freely about their shaft, the force exerted on the film by the upper roller may be termed driving force, and the force exerted on the film by the lower roller may be termed braking force.
  • Point P represents the frictional force exerted on the shaft by the lower roller if there is no.
  • the steps taken in the device according to the invention permit, independently of the choice of the weight'of the lower rollers; a" marked. point of intersection to be obtained between lines B and Wb in a manner such as to permit asuit' able adjustment of thefilm tension in a simple and rapid manner.
  • Fig. 3 shows part of the device according to the invention, in which a film l consisting of regenerated cellulose is passed in the direction of the arrow 2 over an upper roller 3 and a lower roller 4, since the film is drawn out of the device at its end.
  • the upper roller 3 is driven in the direction of the arrow by its shaft 5 which moves faster than the roller.
  • Shaft 5 isdriven by motor shaft l6 by key, 18.
  • the shaft 6 of the lower roller is stationary.
  • a plate spring 1' which is clamped to the device at 8, engages the lower sideof the upper roller3 with a force Screw I4 is arranged to control the'tension'of spring 1.
  • Fig. 4 represents an upper-roller as'usedin' the known device.
  • the shaft 9 exerts a driving force w on the roller ill, of which the value is determined by the product of the friction coefficient t between roller and shaft, and the normal pressure 12.
  • the apparentv friction coeificient at a point I l exceeds in the ratio Since the ratio 7 that of line B, by the choice of the ratio Since according to the invention, an upward directed'force K from the leaf spring I is exerted on roller 3 (Fig.
  • the driving force W asa function of the film tension S represents, with a definite choice of the friction coefficients, a straight line having a slope which is determined by and is represented by lineA in Fig. 2.
  • the point of intersection T between this line and the vertical axis yields a value of the driving force Wu.
  • the driving force in connection with the film tension may be represented as follows. Initially the film is slack and passes in loops over the rollers of the device. Bythe leaf-springs l the bushing-shaped upper rollers 3 (Fig. 5) are lifted, sothat they do not rest on their. shaft 5. The device is operated by drivingthe shafts 5 and drawing the film band. tout of the device.
  • the film is slack and passes in loops over the rollers of the device.
  • Bythe leaf-springs l the bushing-shaped upper rollers 3 (Fig. 5) are lifted, sothat they do not rest on their. shaft 5.
  • the device is operated by drivingthe shafts 5 and drawing the film band. tout of the device.
  • the device may be used with advantage for controlling the tension of very thin films several times ten microns thick, which consist of a material, for instance regenerated cellulose, which is liable to stretch or con- I traction during treatment in the device.
  • the device permits on the one hand the film to move, at different points, at different speeds determined by the degree of stretch or contraction and on the other hand that the tensions in the I film are maintained between narrow limits, so that it can be provided that the low tension permissible for these thin films are not surpassed in the device.
  • the device according to the invention furthermore permits this tension to be adjusted separately at different points of the film by controlling the spring pressure exerted at the lower side of the upper rollers. This may, for instance, be the case if the film is to be dried under tension and, in order to compensate the contraction due to the drying operation, the tension should increase in accordance with the degree of dryness of the film.
  • Apparatus for moving a band-like member between a first given point and a second given point spaced from said first point and at which the said member is driven with a given tensile stress comprising two shaft members spaced apart one above the other, a roller member loosely mounted on the upper of said shaft members and a roller member loosely mounted on the lower of said shaft members, said band-like memher being positioned over the top surface of said upper roller member and over the bottom surface of said lower roller member between said first given point and said second driving point, motor shaft means for driving said upper shaft mem ber, said upper shaft member engaging the surrounding roller member with a given friction force at stresses of said band equal to said given stress and rotating in the direction of movement of the said surrounding roller member and at a higher speed than the speed of said roller member, and a control member engaging the bottom surface of the said upper roller member and exerting thereon an upper force to simultaneously reduce said friction force and brake said roller upon diminution of said given stress in said band like member.
  • Apparatus for moving a band-like member between a first given point and a second given point spaced from said first point and at which the said member i driven with a given tensile stress comprising two shaft members spaced apart one above the other, a roller member loosely mounted on the upper of said shaft members and a roller member loosely mounted on the lower of said shaft members, said upper shaft member having an outer diameter of the same order of magnitude as the outer diameter of said upper roller member, said band-like member being positioned over the top surface of said upper roller member and over the bottom surface of said lower roller member between said first given point and said second driving point, motor shaft means for driving said upper shaft member, said upper shaft member engaging the surrounding roller member with a given friction I force at stresses of said band equal to said iven stress and rotating in the direction of movement of the said surrounding roller member and at a higher speed than the speed of said roller member, and a spring member engaging the bottom surface of the said upper roller member and exerting thereon an upper force having a value sufiicient to lift said
  • Apparatus for moving a band-like member between a first given point and a second given point spaced from said first point and at which the said member is driven with a given tensile stress comprising two shaft members spaced apart one above the other, a roller member loosely mounted on the upper of said shaft members and a roller member loosely mounted on the lower of said shaft members, said upper shaft member having an outer diameter of the same order of magnitude as the outer diameter of said upper roller member, said band-like member being positioned over the top surface of said upper roller member and over the bottom surface of said lower roller member between said first given point and said second driving point, motor shaft means for driving said upper shaft member, said upper shaft member engaging the surrounding.
  • said spring member havingedjusting 8 2 mean :,to.-va1rythe-equilibrium valuelofsaid tensile; stress;

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Registering, Tensioning, Guiding Webs, And Rollers Therefor (AREA)

Description

Jan. 5, 1954 E MEQL N 2,665,130
DEVICE FOR DRIVING TAPES Filed Feb. 12-, 1949 Patented Jan. 5, 1954 I DEVICE FOR DRIVING TAPES Roelof Vermeulen, Eindhoven, Netherlands, as-
signor to Hartford National Bank and Trust Company, Hartford, Conn., as trustee Application February 12, 1949, Serial No. 76,163
Claims priority, application Netherlands April 20, 1948 3 Claims. 1
This invention relates to a device for moving tapes, more particularly in machines wherein the tape is subjected to treatment in a liquid bath, this device comprising idle rollers on shafts which rollers are arranged in two superposed rows whilst the tape passes alternately over one of the rollers of each row and is drawn at a uniform rate out of the device and supplied to the latter with a substantially constant tension, the shaft(s), on which the upper rollers are provided, rotating in the direction of rotation thereof at a higher speed than the latter. Such a device which has been described in patent application U. S. Ser. No. 726,882, filed February 6, 1947, now abandoned, may, for instance, be used for developing films consisting of regen erated cellulose and comprising images and/or sound records to be developed, or for saponifying films consisting of acetyl cellulose, of which the surface must be saponified to render it suitable for absorbing light-sensitive material, in which images and/or sound records are to be provided.
By a suitable choice of the weight of the lower rollers, the present invention permits such a ratio of the frictional forces between rollers and shafts to be obtained as to ensure a suitable tension of the film.
For reasons which will be explained hereinafter, it has been found, in practice, that it is difiicult to adjust this tension in connection with the frictional forces coming in.
The invention provides a new way of adjusting the film tension in a simpler and faster manner, the value of the weight of the lower roller being less critical than in the device according to the aforesaid patent application.
By a suitable choice of the ratio of the outer diameter of the aforesaid rollers and their shafts in the device according to the invention, the increase in driving force exerted, in accordance with the film tension, by the upper rollers on the film portion between the upper roller and the lower roller exceeds for the said purpose the increase in braking force exerted, in accordance with the film tension, by the lower rollers on the said film portion, the upper rollers being braked at the lower side with a constant, adjustable spring pressure.
In order that the invention may be more clearly understood and readily carried into effect, it will now be explained with reference to the accompanying drawing, given by way of example.
Fig. 1 illustrates the theoretical frictional force We between the lower rollers and their shafts in accordance with the film tension S, and the frictional force Wb between the upper rollers and their shafts in accordance with the film tension S, as described in patent application Ser. No. 726,882, now abandoned.
Fig. 2 illustrates the corresponding forces instrumental in the device according to the invention.
Fig. 3 is a detail view of one embodiment of the device according to the invention.
Fig. 4 represents an arbitrary roller over which a film band passes, the shaft carrying this idle roller being driven in the direction of motion of the film.
Fig. 5 shows an upper roller of the device according to the invention, in the state which occurs on starting the device.
In the aforesaid patent application it is stated that by a correct choice of the weight of the lower rollers the form of the broken line We (Fig. 1), which represents the relation existing between the film tension and the frictional force exerted by the lower rollers on their shafts, may be chosen to be such that of the points of intersection between this line and the straight line Wb indicating the relation existing between the film tension and the frictional force exerted by the upper rollers on their shafts, the point of intersection having the lowest value of the film tension, yields the desired film tension S0.
A definite ratio will exist between the frictional force occurring between the upper roller and its shaft, and between the lower roller and its shaft on the one hand and the force exerted by the upper roller and lower roller on the film part located between the rollers on the other hand. Since the shafts of the upper rollers are driven in the diretcionof motion of the film in a manner such that their movement is faster than that of the upper rollers, and the lower rollers rotate freely about their shaft, the force exerted on the film by the upper roller may be termed driving force, and the force exerted on the film by the lower roller may be termed braking force.
In practice, it has been found that the braking force exerted on the film by the lower roller, which is plotted graphically as a function of the film tension, has no marked zero point (89 in Fig. 1) as postulated initially but exhibits the curve form indicated by line B in Fig. 2.
Creation of a marked point of intersection between line B and the straight line We shown in Fig. 1, which line is a broken line in Fig. 2 and shows the relation existing between the driving force exerted on the film by the upper roller and the film tension, is extremely difficult,
since the slope of the two lines is small and the forces, at which the film tension is equal to zero (points P and Q), as occurs in slack films, have a low value. This may be explained as follows. Point P represents the frictional force exerted on the shaft by the lower roller if there is no.
film tension and is determined by theweight of the lower roller, which should have a low value in view of the film tension. The force exerted at the point of intersection Q, which represents the frictional force exerted on the shaftby'the.
upper roller if there is no film tension, should even have a lower value. If the force exerted at Q would exceed that exerted at P, no suitablepoint of intersection would occur between-B and Wb. With a lower value of theforce 'at Qiconversely, the slope of Wb cannot be chosen greater, since at the point of intersection between 'B and Wb the film tension would have an undue low value.
The steps taken in the device according to the invention permit, independently of the choice of the weight'of the lower rollers; a" marked. point of intersection to be obtained between lines B and Wb in a manner such as to permit asuit' able adjustment of thefilm tension in a simple and rapid manner.
To this end, as stated above, primarily bya suitable choice of the ratio between thev outer.
diameters of the upper rollers and their shafts; the increase in driving force exerted by the upper rollers on the film part between the upper and lower rollers in accordance with the film tension, exceeds the increase in braking force exerted by the lower rollers on the said film part in accordance with the film tension, in other words the slope of line A'corresponding to line Wb exceeds that of line B.
Secondly, control of the spring'pressure with which the upper rollers are braked at their bottom side, permit the'line .A to be shifted parallel with itself.
The manner in which the slope of A can be influenced will be explained'with reference to Figs. 3 and 4.
Fig. 3 shows part of the device according to the invention, in which a film l consisting of regenerated cellulose is passed in the direction of the arrow 2 over an upper roller 3 and a lower roller 4, since the film is drawn out of the device at its end. The upper roller 3 is driven in the direction of the arrow by its shaft 5 which moves faster than the roller. Shaft 5 isdriven by motor shaft l6 by key, 18. The shaft 6 of the lower roller is stationary. A plate spring 1' which is clamped to the device at 8, engages the lower sideof the upper roller3 with a force Screw I4 is arranged to control the'tension'of spring 1.
Fig. 4 represents an upper-roller as'usedin' the known device. The shaft 9 exerts a driving force w on the roller ill, of which the value is determined by the product of the friction coefficient t between roller and shaft, and the normal pressure 12. The force a exerted on'the film by the roller follows from the expression .n.r.=a.R, where r and R represent the-radius of'the shaft and roller respectively, hence a II M The same holds for the lower roller. Consequently, the apparentv friction coeificient at a point I l exceeds in the ratio Since the ratio 7 that of line B, by the choice of the ratio Since according to the invention, an upward directed'force K from the leaf spring I is exerted on roller 3 (Fig. 3), the normal pressure exerted on shaft 5 will be 'reduced'by the spring'pressure K' and' the roller will" not only be driven by its shaft but also be b'rak'ed'at the lower side. As a'result thereof, the total driving force exerted by the upper roller on the film part between the upper roller and the lower will have a value determined by the expression:
where and represent'the friction coefficient between roller and shaft and between roller and spring respectively, r and R'the radius of the shaft and .roller respectively, S the film tension,
G the weight of the upper roller, K the spring pressure. The driving force W asa function of the film tension S represents, with a definite choice of the friction coefficients, a straight line having a slope which is determined by and is represented by lineA in Fig. 2. The point of intersection T between this line and the vertical axis yields a value of the driving force Wu.
The driving force in connection with the film tension may be represented as follows. Initially the film is slack and passes in loops over the rollers of the device. Bythe leaf-springs l the bushing-shaped upper rollers 3 (Fig. 5) are lifted, sothat they do not rest on their. shaft 5. The device is operated by drivingthe shafts 5 and drawing the film band. tout of the device. In
thisstate, the driving. force exerted. on the film bandis negative, in accordance with the choice of Gb and K in expression. (2). Consequently, abraking force.is;concerned, sincethe film band is braked because. the. bushings 3. are braked at thezlower side with aforce. represented by the line OTwhich follows. fromexpression (2). The tension in the filmbandnow increases and the filmismade taut, the friction at the lower side of the bushings 3 preventing them frombeing moved... With an, increase in film tension the bushings are pulled downwards due to which they. engage the upper side of the rotating shafts, sothat a driving force is exerted on the film.
The difference between the substantially con-- stant braking force of the spring and the driving force of the shaft'constitutes the total force exerted on the film, which force will at first be negative (braking) and past point S will be driving. (representedby line A) Once the slope of line A is fixed by the choice of r and R, this line may be shifted parallel with itself by adjusting K, as appears from the expressionl (2). Consequently, the braking force exerted on the film by the bushing 3 and represented by the line OT in Fig.2, may be controlled in accordance with the value of the spring pressure K.
The braking force 13 exerted by the lower roller on the film part between the upper and the lower roller may, as a function of the film tension, be represented by the curve W= %2SG (3 as shown by line B in Fig. 2.
Owing to the absence of lateral and other friction, not taken into account in this expression, the force W for 2S=G does not disappear completely, but exhibits a fiat minimum as shown in Fig. 2. The curve form of this force is no longer of importance, provided that it be such that a well defined point of intersection with line A occurs. Control of spring pressure K permits this point of intersection C and consequently the desired film tension to be adjusted in a simple manner.
If for some reason, for instance due to random increase of the resistance experienced by the film, the tension increases at a given point of the film, so that it exceeds the adjusted film tension So, the driving force exerted on the said film part by the upper roller nearest to the said point, will more increase than the braking force exerted by the lower roller on the film, as a result of which the film tension tends to decrease again and equilibrium is etablished at a tension only slightly exceeding So.
It will be appreciated that the foregoing holds not only for devices wherein films are subjected to a liquid treatment but also to devices wherein films are conveyed in the dry state and drawn out of the device at a uniform speed.
Though, for using the device according to the invention, the nature of the film material is, in general, of no importance, the device may be used with advantage for controlling the tension of very thin films several times ten microns thick, which consist of a material, for instance regenerated cellulose, which is liable to stretch or con- I traction during treatment in the device. In fact the device permits on the one hand the film to move, at different points, at different speeds determined by the degree of stretch or contraction and on the other hand that the tensions in the I film are maintained between narrow limits, so that it can be provided that the low tension permissible for these thin films are not surpassed in the device.
If, for treating the film, it is desirable or necessary that during different treatments, for instance treatments in a dry or wet state, to subject it to different tensions determined by these treatments, the device according to the invention furthermore permits this tension to be adjusted separately at different points of the film by controlling the spring pressure exerted at the lower side of the upper rollers. This may, for instance, be the case if the film is to be dried under tension and, in order to compensate the contraction due to the drying operation, the tension should increase in accordance with the degree of dryness of the film.
What I claim is:
1. Apparatus for moving a band-like member between a first given point and a second given point spaced from said first point and at which the said member is driven with a given tensile stress, comprising two shaft members spaced apart one above the other, a roller member loosely mounted on the upper of said shaft members and a roller member loosely mounted on the lower of said shaft members, said band-like memher being positioned over the top surface of said upper roller member and over the bottom surface of said lower roller member between said first given point and said second driving point, motor shaft means for driving said upper shaft mem ber, said upper shaft member engaging the surrounding roller member with a given friction force at stresses of said band equal to said given stress and rotating in the direction of movement of the said surrounding roller member and at a higher speed than the speed of said roller member, and a control member engaging the bottom surface of the said upper roller member and exerting thereon an upper force to simultaneously reduce said friction force and brake said roller upon diminution of said given stress in said band like member.
2. Apparatus for moving a band-like member between a first given point and a second given point spaced from said first point and at which the said member i driven with a given tensile stress, comprising two shaft members spaced apart one above the other, a roller member loosely mounted on the upper of said shaft members and a roller member loosely mounted on the lower of said shaft members, said upper shaft member having an outer diameter of the same order of magnitude as the outer diameter of said upper roller member, said band-like member being positioned over the top surface of said upper roller member and over the bottom surface of said lower roller member between said first given point and said second driving point, motor shaft means for driving said upper shaft member, said upper shaft member engaging the surrounding roller member with a given friction I force at stresses of said band equal to said iven stress and rotating in the direction of movement of the said surrounding roller member and at a higher speed than the speed of said roller member, and a spring member engaging the bottom surface of the said upper roller member and exerting thereon an upper force having a value sufiicient to lift said upper roller from contact with said shaft at zero stress values of said bandlike member to thereby simultaneously reduce said friction force and brake said roller upon diminution of said given stress in said band-like member.
3. Apparatus for moving a band-like member between a first given point and a second given point spaced from said first point and at which the said member is driven with a given tensile stress, comprising two shaft members spaced apart one above the other, a roller member loosely mounted on the upper of said shaft members and a roller member loosely mounted on the lower of said shaft members, said upper shaft member having an outer diameter of the same order of magnitude as the outer diameter of said upper roller member, said band-like member being positioned over the top surface of said upper roller member and over the bottom surface of said lower roller member between said first given point and said second driving point, motor shaft means for driving said upper shaft member, said upper shaft member engaging the surrounding. IOl-lerr member with a;- given 1 friction force. at stresses :ofsaidb'and equal to said. :given. stress andiotating in the direction of movement 1 with said shaft atzero stress values of -said band-- like member to thereby simultaneouslyreduce said. friction forceand brake said roller upon diminution of said given stress in said band-like member, said spring member havingedjusting 8 2 mean :,to.-va1rythe-equilibrium valuelofsaid tensile; stress;
ROELOF VERMEULEN.
ReferencesCited in the fileflof this patent UNITED STATES PATENTS Number Name Date 1,544,931 Patterson Jul 7, 1925 1,631,476 De Moos June '7, 1927 1,891,225 Fear Dec. 20, 1932 2,123,445 Van Leuven July 12, 1938 2,244,170 Miketta et a1. 1 June 3, 1941 2,318,605 Fess May 11, 1943 2,338,422 Geyer Jan. 4, 1944
US76163A 1948-04-20 1949-02-12 Device for driving tapes Expired - Lifetime US2665130A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2766633A (en) * 1953-06-15 1956-10-16 Clayton E Wall Drive mechanism for film processing machines
US3042281A (en) * 1959-08-20 1962-07-03 Mohawk Business Machines Corp Roller
US3368768A (en) * 1966-03-07 1968-02-13 Western Electric Co Apparatus for rotating a take-up reel

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1544931A (en) * 1923-07-11 1925-07-07 Cinema Machine Corp Film-treating apparatus
US1631476A (en) * 1927-06-07 Photographic
US1891225A (en) * 1929-11-22 1932-12-20 Ralph G Fear Motion picture film treating apparatus
US2123445A (en) * 1937-09-07 1938-07-12 John F Van Leuven Film developing apparatus
US2244170A (en) * 1938-06-15 1941-06-03 Loew S Inc Developing machine
US2318605A (en) * 1938-07-07 1943-05-11 Gen Aniline & Film Corp Apparatus for developing photographic films
US2338422A (en) * 1939-03-10 1944-01-04 Geyer Walter Film treating machine

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1631476A (en) * 1927-06-07 Photographic
US1544931A (en) * 1923-07-11 1925-07-07 Cinema Machine Corp Film-treating apparatus
US1891225A (en) * 1929-11-22 1932-12-20 Ralph G Fear Motion picture film treating apparatus
US2123445A (en) * 1937-09-07 1938-07-12 John F Van Leuven Film developing apparatus
US2244170A (en) * 1938-06-15 1941-06-03 Loew S Inc Developing machine
US2318605A (en) * 1938-07-07 1943-05-11 Gen Aniline & Film Corp Apparatus for developing photographic films
US2338422A (en) * 1939-03-10 1944-01-04 Geyer Walter Film treating machine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2766633A (en) * 1953-06-15 1956-10-16 Clayton E Wall Drive mechanism for film processing machines
US3042281A (en) * 1959-08-20 1962-07-03 Mohawk Business Machines Corp Roller
US3368768A (en) * 1966-03-07 1968-02-13 Western Electric Co Apparatus for rotating a take-up reel

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