US 3635555 A
A high-speed electrophotographic copying device is provided which has an original holder having a plurality of original holding surfaces so as to successively set a plurality of originals to be copied at the exposure position without time loss to accomplish the change, means for detecting when two or more sheets of photocopying paper are fed simultaneously through a fault in the feeding means, means for diverting such papers from the exposure section in response to signals from said detecting means, means for detecting a fault in the guide means associated with the charging means, means for detecting the contrast of the original so as to control automatically the exposure, means for detecting the concentration of developing solution from the contrast of the image developed and automatically maintaining the concentration of the developing solution at an optimum level by controlling the addition of concentrated developing solution, and air-conditioning means for recovering or removing the developing solution vapor contained in the air in the device and purifying the air.
Claims available in
Description (OCR text may contain errors)
United States Patent Kurahashi et al.
[451 Jan. 18, 1,972
 ELECTROPHOTOGRAPHIC COPYING DEVICE  Inventors: Akira Kurahashi; Hisashi Sakamaki; Yoshimasa Kimura; Katsuo Kusunoki, all of Tokyo, Japan  Foreign Application Priority Data Nov. 25, 1968 Japan ..43/102728 Feb. 19, 1969 Japan ..44/15143 Mar. 19, 1969 Japan .44/21016 Feb. 28, 1969 Japan... 44/15576 Nov. 25, 1968 Japan... 43/8628! Nov. 25, 1968 Japan... 43/86280 Nov. 25, 1968 Japan... ..43/86279 Nov. 25, 1968 Japan ..43/86278  US. Cl ..355/8, 355/10, 355/68, 355/75 51 Int. Cl. ..G03g 15/00  FieldofSearch ..355/3,8, 10,7,68, 75, 25
 References Cited UNITED STATES PATENTS 3,162,104 12/1964 Medley ..355/10 X oil P i 3,381,573 5/1968 Caldwell.... ..355/8 3,409,357 11/1968 Lauander... ..355/7 3,423,153 l/l969 Kent ..355/68 X Primary ExaminerSamuel S. Matthews Assistant Examiner-Richard A. Wintercom AttorneyWatson, Leavenworth and Kelton  ABSTRACT A high-speed electrophotographic copying device is provided ,which has an original holder having a plurality of original holding surfaces so as to successively set a plurality of originals to be copied at the exposure position without time loss to accomplish the change, means for detecting when two or more sheets of photocopying paper are fed simultaneously through a fault in the feeding means, means for diverting such papers from the exposure section in response to signals from said detecting means, means for detecting a fault in the guide means associated with the charging means, means for detecting the contrast of the original so as to control automatically the exposure, means for detecting the concentration of developing solution from the contrast of the image developed and automatically maintaining the concentration of the developing solution at an optimum level by controlling the ad dition of concentrated developing solution, and air-conditioning means for recovering or removing the developing solution vapor contained in the air in the device and purifying the air.
20 Claims, 34 Drawing Figures PATBHED m a 8 mm SHEET 010F15 FIG. I
,PAT ENT ED JAN? 8 [s72 sum 03 or 15 sLssasss PATENTED JAN? 3 2 SHEH 050? 15 mama) mmerz 3.635555 SHEET 05 0F 15 PATENIEB .mu 8 m2 SHEET 070E 15 SHEEI OBUF 15 PATENTED JAN] 8 I972 PATENTEU .MH 1 8 I972 SHEET lEUF 15 PATENTEU JAN 1 8 m2 SHEET l lflF 15 FIG. 30
FIG. 32 FIG. 33
I I]? I. fi iallag] f l Illl lllllliktlan. ill I ll ELECTIROPHOTOGRAPI-IIC COPYING DEVICE The present invention relates generally to an electrophotographic copying device and more particularly to a novel highspeed electrophotographic copying device which eliminates time loss normally required to change originals, ensures accurate feeding of photocopying paper, detects faults in the guide means associated with the charging means, automatically adjusts the exposure and concentration of the developing solution, and eliminates harmful developing solution vapor, thereby facilitating and ensuring high-speed, safeguarded copying operation.
The problems encountered in a conventional electrophotographic copying device when high-speed copying operation is desired are as follows: i
a. The time loss is great because the copying machine must be stopped each time a page or sheet of the original is replaced, then the new page or sheet to be copied must be set at the exposure position and the copying machine must be started again such that continuous copying cannot be carried out;
b. High-speed copying is prevented because breakdown of the copying machine is caused when two or more photocopying papers are fed simultaneously with at least one of them being wasted;
c. When the photocopying paper guide wire or string of the charging means is damaged or disconnected and when the photocopying papers are fed successively, they become jammed in the charging means, thus resulting in the failure and breakdown of the charging means. This tendency is more noticeable in the case of a high-speed copying operation;
d. Time and material losses are great because a trial copy is generally made in order to adjust the exposure factors such as aperture of the copying lens, copying speed, etc., depending upon variation in the originals so as to provide uniform quality copies;
e. In order to obtain continuously better quality image copies, the concentration of developing solution must be adjusted to maintain the optimum concentration. In the conventional method, a portion of the developing solution is directed to a concentration detector such that additional pump, piping, etc., and a sealed concentration detector must be provided in the developing section or means, thus resulting in the developing section being large in size, complicated in construction and operation.
f. The developing solution vapor from the developing section as well as from the fixing-drying means fills the copying machine so that the machine is susceptible to deterioration in mechanical and electrical qualities and to contamination. Furthermore, the vapor discharged from the copying machine into the surrounding atmosphere might be harmful to the health of an operator and cause contamination of the at mospherc. Especially in case of a high-speed copying operation, much developing solution vapor is generated especially from the fixing-drying section.
Accordingly, the primary object of the present invention is to provide an improved high-speed electrophotographic copying device which substantially eliminates the above-described problems or defects of the conventional device.
Another object of the present invention is to provide a highspeed electrophotographic copying device in which two opened pages of a book or the like may be successively and automatically copied; and, in case of sheetlike originals, one original may be replaced with the next original to be copied during the time when the other original is being copied. A further object of the present invention is to provide a highspeed electrophotographic copying device of the type which can feed photocopying paper one by one accurately without causing more thanone sheet of photocopying paper to fed simultaneously.
A still further object of the present invention is to provide a high-speed electrophotographic copying device having a safety device which gives an alarm signal immediately when the photocopying paper guide wire or string associated with the charging means is disconnected or loosened.
A yet another object of the present invention is to provide a high-speed electrophotographic copying device having means for automatically regulating the exposure factors by detecting the brightest area of an original to be. copied.
A still further object of the present invention is to provide a high-speed electrophotographic copying device having means for automatically regulating the exposure factors in response to the information from an electronic circuitwhich is so constructed as to detect the average brightness of an original to be copied from the contrast thereof.
A still further object of the present invention is to provide a high-speed electrophotographic copying device having means for automatically adjusting the concentration of developing solution by detecting the contrast of a visible image formed upon a photocopying paper and regulating the addition of concentrated developing solution in response to the detected signals.
A still further object of the present invention is to provide a high-speed electrophotographic copying device having means for recovering the developing solution vapor from the air containing vapor within the machine, thereby purifying the air.
An additional object of the present invention is to provide a thermal control system for a high-speed electrophotographic copying device of the type described hereinabove in order to recirculate said purified air separated from the developing solution vapor in the copying device for various advantageous purposes.
The above and other objects, features and advantages of the present invention will become more apparent from the following description of some illustrative embodiments thereof with reference to the accompanying drawings, in which:
FIG. 1 is a longitudinal sectional view of one embodiment of a high-speed electrophotographic copying device in ac cordance with the present invention;
FIG. 2 is a fragmentary side view of an original holder thereof;
FIG. 3 is a view similar to FIG. 2 illustrating the original holder being displaced so that an original held upon the left half thereof may be set at the exposure position;
FIG. 4 is a sectional view of an original holder;
FIGS. 5 and 6 and side views illustrating two dependent original pressure plates;
FIG. 7 is a longitudinal sectional view of another embodiment of the present invention having an original holder consisting of two sections connected with each other at an angle;
FIG. 8 is a view similar to FIG. 7 illustrating the displacement of the original holder;
FIG. 9 is a perspective view of the original holder employed in FIGS. 7 and 8;
FIG. 10 is a longitudinal sectional view thereof;
FIGS. 11 to 14 illustrate a further embodiment of a circular original holder in accordance with the present invention;
FIG. 15 is a longitudinal sectional view of one embodiment of a photocopying paper feeding device in accordance with the present invention;
FIG. 16 is a diagram of an electric circuit thereof;
FIG. 17 is a front view of charging means having a safety device in accordance with the present invention;
FIG. 18 is a rear view thereof;
FIG. 19 is a transverse sectional view thereof;
FIG. 20 is a diagram of a fault detection circuit thereof;
FIG. 21 is an electric circuit diagram of one embodiment of an exposure factor controlling device in accordance with the present invention;
FIG. 22 is a fragmentary enlarged elevational view thereof;.
FIG. 23 is a fragmentary enlarged plan view of an original tone or contrast detecting mechanism;
FIG. 24 is a view viewed in the direction of the line 24-24 of FIG. 23;
FIG. 25 is an enlarged view of one embodiment of developing solution concentration detecting device in accordance with the present invention;
FIGS. 26 to 28 are diagrams of electric circuits thereof;
FIG. 29 is a perspective view of one embodiment of a fixingdrying device having a developing solution recovery device in accordance with the present invention;
FIG. 30 is a longitudinal sectional view thereof;
' FIGS. 31, 32 and 33 are detailed views illustrating developing solution absorbing members; and
FIG. 34 is a longitudinal sectional view of another embodiment of a fixing-drying device having a developing solution absorbing device in accordance with the present invention.
Referring to FIG. 1, photocopying paper P is fed one by one from a photocopying feeding means 1, electrostatically charged by charging means 2 and then introduced into exposure means 3. In this case, an original B placed upon an original holder 6 is projected upon the photocopying paper P upon the exposure means 3 through a copying lens 8 by the light from a light source 7. The paper P having an electrostatic latent image formed by the exposure is developed in a developing means 4 into a visible image and thereafter fixed and dried in a fixing-drying means 5, thereby providing a copy.
The present invention is comprised of various improved means in order to attain high-speed copying operation through the steps described above.
The original holder is provided with two or more original holding surfaces and one of the originals held thereupon is set at the exposure position for photocopying and then the next original is set at the exposure position by displacing the original holder, and so on.
Referring to FIG. 2, the original such as a book B is opened and placed upon a glass plate 11 of the original holder with the page to be copied being in contact with the glass plate 11. First the page a is copied upon a preselected number of photocopying papers and thereafter the holder 6 is displaced in the direction indicated by the arrow R so that when the page b is set at the exposure position, the holder 6 is stopped as shown in FIG. 3. Thereafter, the holder 6 is displaced in the direction indicated by the arrow L to the initial position shown in FIG. 2 where the original is replaced and the same exposure steps described above are repeated. Means for starting the exposure at the position shown in FIG. 3 by replacing the original without displacing the holder 6, means for preventing the displacement of the original holder when only the section a is used, etc., may be provided as needs demand.
As best shown in FIG. 4, the original holder 6 comprises a base 10, the glass plate iii, an original pressure plate 12 and a cover 13. The base is so arranged as to move freely along guide rods 16 supported by standards 15 of the main body of the photocopying machine, the base 10 being carried by the guide rods 16 through bearings 14. The original holder 6 is driven through a rack 17 formed integral with the base 10 and in mesh with a gear G which in turn is in mesh with a gear G carried by the shaft of a motor M mounted upon the main body.
The original B to be copied is placed upon the glass plate 11 secured upon the base 10 through spacers l8 and is pressed against the glass plate 11 by the original pressure plate 12. First the section a of the original is exposed or copied at the position shown in FIG. 2 and thereafter by signals generated upon completion of the copying of section a, the motor M is driven so that the original holder 6 is displaced in the direction indicated by the arrow R in FIG. 2 through the gears G G and the rack 17 and is stopped when the section b is set to the exposure position. The signals for stopping the original holder 6 may be easily generated through the microswitches MS and MS which are actuated by a cam 19 fixed to the base 10. Reference numeral 20 designates a roller rotatably fixed to a supporting member 21 fixed to the main body on the side 0pposite the rack 19 of the original holder 10.
When the original pressure plate 12 is divided into two sections each of which is adapted to press only the section a or by of the original against the glass plate 11 as shown in FIG. 6, sheetlike originals may be replaced at the section a when the original is being copied at the section b. Furthermore, even when the thickness of the originals are different in the sections a and b as shown in FIG. 5, the originals may be securely pressed against the glass plate 11 so that the defect'of producing an out-of-focus copy because the thinner page section of the opened book is not sufficiently pressed against the glass plate in the conventional photocopying machine is completely eliminated.
The second embodiment illustrated in FIGS. 7 and 8 will be described hereinafter. The most significant feature of this embodiment resides in the fact that the original holders are connected with each other at an angle and in their unique displacement. The original holder 6' comprises two original holding surfaces 11 'a and ll'b which are reciprocatingly displaced so as to alternately position the centers of the holding surfaces ll'a and lll'b in alignment with the optical axis of the copying lens 8 for exposure.
The original holder 6' has its glass plate 24 fixed upon a supporting frame 23, thereby providing the two original holding surfaces ll'a and ll'b, and has also two original pressure plates l2'a and l2b, respectively. The original holder 6 may be manually or automatically reciprocated so as to move toward or away from the optical axis of the copying lens. To automatically reciprocate the original holder 6', as shown in FIGS. 9 and 10, the legs of the supporting frame 23 are rotatably mounted upon the main body through a shaft 25 and caused to rotate by a motor 28 through a gear train 26 and 27. For example, microswitches M5 and MS., may be positioned at the ends of the stroke of the legs 23, so that the direction of rotation of the motor 28 may be automatically reversed.
In operation, the original placed upon the surface ll'a is first copied and upon completion of the copying of the original upon the surface ll'a, the original holder 6 is rotated so that the original holding surface ll'b is set at the exposure position (shown in FIG. 8). When the original is not a book or the like, the original upon the holding surface lla may be replaced with the next one while the original upon the surface ll'b is exposed so that upon completion of the exposure of the original upon the surface ll'b, the original holder 6' may be rotated so as to set the holding surface ll'a at the exposure position. Thus it is seen that the loss of photocopying operation time due to the replacement of the originals can be avoided, thus resulting in high-speed photocopying operation.
The reversed V-shaped original holder 6' as shown in FIGS. 7 to 10 is advantageous when the originals are books and the like because the pages to be copied may be securely pressed against the glass plate without causing any damage to the binders of the books and the like.
A third embodiment of an original holder in accordance with the presentinvention is illustrated in FIGS. 11 to 14. A circular or disk-shaped original holder is provided with two or more than two original holding surfaces so that upon completion of the exposure of the first original, the original holder can be rotated by motor 30 or 30' so as to set the second original at the exposure position and so on. A gear G carried by the shaft of the motor 30 is in mesh with a gear G supported upon a frame member 32 through thrust bearings 31 so as to rotate the original holder 29. A variation shown in FIGS. 13 and 14 has four original holding surfaces and is rotated by a driving motor positioned at the center of the original holder.
FIG. 15 illustrates one embodiment of a photocopying paper feeding system in accordance with the present invention. In the high-speed photocopying machine, when two photocopying papers or sheets are fed at the same time, breakdown of the machine will occur and at least one copying paper is wasted. Therefore, in the conventional method the thickness of the photocopying paper is detected by microswitches or other suitable means so as to prevent the feeding of a plurality of photocopying papers at the same time. However, when the thickness of the paper is too thin. detection becomes very difficult so that the detection device must be amplified mechanically, thereby resulting in a large-sized and expensive detection device which tends to break.
The present invention provides a photocopying paper feeding system which utilizes photoelectric elements, is reliable in operation with ahigher degree of accuracy and can eliminate the defects encountered in the conventional device.
From the stack of photocopying papers P mounted upon a stand 41, photocopying paper is fed into the photocopying section one by one from the top of the stack by means of a motor M a belt 42, a feed roller 43 and guide members 44 to 46. Across the photocopying paper in the transverse direction relative to the path thereof are disposed a light source L, and a phototransistor PT, such as CdS in opposed relation in such a manner that when only one photocopying paper is being advanced, no signal is generated but when two or more papers are advanced through the passage at the same time, signals are generated and transmitted through a suitable amplifier and the like to a direction changing mechanism, thereby closing the passage 47 so as to change the direction of feed of the photocopying paper and discharge it out of the guide member.
The direction changing mechanism is such that a closing member 49 adapted to fit into an opening 48 formed through a guide member 44 is provided and normally biased so as to abut a stop 51 by means of a spring 50. When an electromagnet 52 is energized by signals transmitted from the photoelectric detecting system L, and PT, so as to attract a plunger 53, the closing member 49 connected thereto is rotated about a pivot 54 so that the leading or lower portion of the closing member 49 is inserted into the opening 48 as indicated by the broken line in FIG. 15, thereby closing the passage 47. Thereupon, the photocopying paper P' is diverted when advanced through the passage 47 so as to be discharged out of the passage 47 along a guide member 55. It is understood that the closing member 49 may be so arranged as to move upwardly, opposed to the arrangement shown in FIG. 15. Alternatively a valve may be opened by the signals transmitted from the photoelectric detecting device L, and PT, so as to blow compressed air into the opening 48 thereby changing the direction of advancement of the photocopying paper. The light source L, and the photoelectric element or transducer PT, may be disposed in the openings 56 and 57 formed in the guide members 44 and 45 respectively. It must be noted that when the photoelectric detecting device of the construction described hereinabove is employed in an electrophotographic copying machine, the spectrum of the light emitted from the light source L, must be so selected that the photocopying paper irradiated will not be subject to fatigue (preirradiation effect or hysteresis). Alternatively the light source L must be so arranged that the light beam therefrom will impinge upon the photocopying paper outside of the area within which the imageis formed.
F [G 16 is one embodiment of an electric circuit for the erroneous feed preventive device described above with reference to FIG. 15. When two or more photocopying papers are advanced, the light quantity impinged upon the element PT is reduced so that the potential at point a is raised, thereby increasing the collector current of a transistor T Thus, the electromagnet 52 is energized. Reference characters E, and C designate a source of voltage and a corona discharging device, respectively, to be described hereinafter.
In charging means 2; illustrated in detail in FIGS. 17 and 18, electrically insulating strings such as nylon are extended so as to serve as a guide for smoothly leading the photocopying paper P through the charging means 2. However, a guide string may be damaged or disconnected by an abnormal discharge of the charging means 2 or by the photocopying paper itself. If the photocopying papers P are continuously fed when the string is disconnected, they become jammed in the charging means 2, thus resulting in breakdown of the charging means.
In view of the above, the present invention provides safety means which gives an alarm signal immediately when the guide string is disconnected, thereby eliminating faulty operation such as described above. The charging means of this embodiment comprises guide means for guiding photocopying paper or the like, the charge means itself, and means for electrically detecting faulty operation of this guide means. In
FIGS. 17 and 18, reference numeral 61 designates a charging section frame; 62, an insulated support; 63, charging wires; 64, charging wire supporting pins; 65, an electrode connecting plate or terminal; and 66, the guide string. Switches M8 and MS, are attached to the frame 61 at suitable positions on the side or bottom thereof so as to be normally opened by the tension applied from the guide string 66 and closed when the guide string 66 is cut or loosened, thereby actuating a buzzer or lighting a lamp L so as to-give an alarm signal or stop the photocopying paper feeding mechanism. The string 66 may be suitably operatively connected to the switches M8 and MS In the instant embodiment, both ends of the guide string 66 are connected to the actuating members 67 of the switches MS and MS so as to normally open them by the tension of the string 66 while when the tension is relieved the switches M8 and MS are closed as shown in FIG. 18 by the broken lines.
The path defined by the guide string 66 is preferably converged in the direction of advancement of the photocopying paper and the guide string 66 is preferably extended slanting in opposite directions in the right and left sections of the passage.
The image quality of the copy obtained with electrographic copying machines or the like varies largely depending upon the nature of the original. When the copying speed is slow and only a small number of different copies from different originals are involved, the exposure factors may be suitably controlled by trial so that better quality copies may be obtained. But when the copying speed is high and various kinds of copies are required from different originals, trial copying will cause disadvantageous loss in time and materials.
The present invention also provides a method for eliminating such disadvantage as described above, which method is characterized by irradiating the surface of an original with uniform light rays, detecting the reflected or transmitted light rays by a phototransistor, thereby detecting the brightest portion of the original, and changing automatically the aperture of the exposure system or the intensity of the light from the light source in response to said detection, thereby obtaining uniform quality copies all the time.
A better quality copy has sharp contrast; that is, the dark area (printed area) of the original must be copied as the dark area and the white area (unprinted area) must be copied as the white area in the copy. In other words, the brightest area of the original (generally the base of the original having no printing or the like) must be copied as a white area in the copy while the darker area must be copied as a darker area. For example, in the case of electrophotographic copying, the reflected or transmitted light from the brightest area of the original dissipates all the charge upon the sensitized surface of the photocopying paper while the reflected or transmitted light from areas darker than the brightest area will not completely dissipate the charge upon the photocopying paper. Therefore, the brightest area of the original must be detected. This is accomplished in accordance with the present invention by scanning the surface of an original with a light beam, detecting the reflected or transmitted light beam with a photoelectric transducer such as a phototransistor, memorizing in an electronic circuit the maximum light intensity detected, and in response to said maximum light intensity detected, controlling the power source for the light source with an ignition phase control element or controlling the aperture diaphragm with a servomechanism, thereby automatically controlling the exposure.
FIG. 21 is an electric circuit of one embodiment of an automatic exposure control system based upon the principle described above. The contrast of an original is detected by a phototransistor PT, so as to convert the contrast into voltage signals, and the maximum peak value, corresponding to the brightest area of the original, is memorized in the circuit. Thereafter, the exposure determining or regulating mechanism is actuated by the memorized peak value in order to adjust the contrast of the original.
The original B to be copied is placed upon the original holder 6 and is projected by a projection system consisting of light source 7 and copying lens 8 upon photocopying paper P which is fed one by one from the photocopying paper feeding section 1 and is charged in the charging section 2. The paper P provided with an electrostatic latent image by the above step is developed in the developing section 4 into a visible image and fixed and dried in the fixing-drying section 5, thereby providing a copy.
FIG. 23 illustrates one embodiment of a contrast detecting device in which a light source L emits light toward the original B set upon the transparent plate 11 of the original holder 6, and the light reflected by the original B is detected by the phototransistor PT;,. The light source L and the phototransistor PT, are disposed upon a support 72 at a suitable angle relative to each other so that the most desirable effect can be attained. The support 72 is fixed to a supporting arm 73 whose one end is supported through a bearing 74 upon a rail 75 made integral with the main body of the copying machine so that the arm 73 and consequently the support 72 are slidable along the rail 75, as shown in FIG. 22. As best shown in FIG. 24, the rail 75 is arranged outside the optical path and the detecting device generally designated by 71 may be displaced sufficiently to cover the area of the original B to be copied. The supporting arm 73 is connected to a string or wire 76 wound around pulleys 77 and 77 as shown in FIG. 22 so that the arm 73 may be displaced in both directions by a motor M thereby permitting the scanning of the whole surface of the original B by the detecting device 71. The stroke of this displacement may be suitably adjusted by microswitches MS, and MS,,.
As shown in FIG. 1, the detecting device 71 is normally positioned out of the optical path, and by the detection start signals, the motor M rotates causing movement first in the direction indicated by the arrow R. After displacing the detecting device 71 by a predetermined stroke the microswitch MS causes motor M to reverse direction of rotation so that the device 71 is moved in the direction indicated by the arrow R, and returned to its normal or initial position whereupon microswitch MS, stops the scan. A motor M is driven by signals in response to the maximum intensity of light reflected from the original and detected by the detecting device 71 so as to rotate an aperture diaphragm or blade 9 in front of (or within) the lens, thereby setting the aperture. Alternatively, said signals may be used to control the power source voltage for the light source 7 through an ignition phase control element or the like, thereby varying the intensity of light illuminating the original surface.
From the foregoing, it is seen that according to the present invention, the exposure factors are determined depending upon the brightness of the brightest area of an original surface so that optimized exposure factors are provided when an easyto-see copy making the best use of the brighter area of the base of the original is required, thus eliminating the trial copying operation as well as material loss and improving the copying efficiency.
The photocopying paper has generally a limited sensitivity range so that it is impossible to reproduce any contrast range of the original with a higher degree of accuracy or fidelity. Thus when the contrast between the original base and the printed area thereof is detected so as to adjust the exposure to an intensity of light intermediate that of light reflected from the base and light reflected from the printed area of the original. intermediate contrast copies or prints may be advantageously obtained even though the contrast between the photocopying paper base and the image formed area thereof is not as distinct as that of the original.
For this purpose, the output of the photovoltage transducer circuit in FIG. 21 is not applied to the memory circuit, but opposed to the embodiment described above. is applied to an integrating circuit from which are derived pulses representative of the variation in voltage (variation in contrast of the original). These pulses are stored in the memory so that the exposure determining or regulating mechanism described hereinabove is actuated by signals representing the intensity of light intermediate those of light reflected or transmitted from the brightest area and the darkest area of the original. Thus, a suitable intermediate exposure can be attained.
In high-speed electrographic copying machines, in order to obtain better quality copies or prints successively, it is required that the concentration of the developing solution be detected so as to maintain optimum concentration thereof by adding concentrated developing solution to a reservoir or developing solution tank. In the conventional method, a portion of the developing solution is directed to a concentration detecting section so as to detect the concentration of the developing solution. But this method has the following defects:
1. Additional pump and piping for directing the developing solution to the detecting section, and a sealed detector are required;
2. The developing device inevitably becomes large in size and complicated in construction due to the attachment of the equipment described in (1) above so that the attachment and removal of the developing device becomes difficult;
3. Detection error is inevitably caused by the concentration detector which may be a photoconductor unless it is always kept clean by eliminating the adhesion of developing solution thereto; and
4. Due to variation in the characteristics or qualities of the developing solution, the amount of toner adhered to a copy paper might be reduced gradually, resulting in very vague c0- pies. Accordingly the present invention provides a method for detecting the concentration of the developing solution from the developed visible image of the copy immediately discharged from the developing section without detecting the concentration of the developing solution directly therefrom, thus eliminating the above-described defects and disadvantages, in the conventional method.
According to the present invention, a developing solution concentration detector 83 is disposed along the path of the copy P being advanced from the developing section 4 through a pair of squeezing rollers 81 and conveyor belt 82. In the embodiment illustrated in FIG. 25, the detector 83 is disposed between the squeezing rollers 81 and 82 and the fixing-drying section or means 5, but it is understood that the detector 83 may be positioned at any position along the passage of the developed copies P. Alternatively, a plurality of detectors 83 may be provided if required.
The detector 83 comprises for example a light source L, a photoconductor CdS4 and a switching element such as a translator, a thyristor, an electron tube, etc., which constitute a balance circuit. As shown in FIG. 25, the light from the light source L is reflected by the copy P and the light reflected depending upon the tone of the image of the copy P is impinged upon the photoconductor CdS-4. When reflected light is utilized as described above, it is preferable to provide the conveyor belt 82 with a suitable reflecting surface or to provide a suitable reflecting member so that the light may be reflected thereby even when no copy is being carried. Alternatively, the above detection circuit may be so arranged that it is actuated only when the copy is advanced by providing suitable copy detecting means such as microswitches. Furthermore, a light source L may be positioned in opposed relation with a photoconductor CdS-4' across the copy passage. In this case, the conveyor belt must be transparent or have a slit or the like through which the light from the light source may reach the photoconductor. The light source L may be an infrared ray lamp used for fixing the image in the fixing-drying section.
It is preferable to attach the above-described concentration detecting means to the guide plates for the copies P, when it is placed outside of the fixing-drying section.
When the image contrast upon the copy discharged from the developing section falls below a predetermined level or value, the intensity of the light impinged upon the photoconductor CdS-4 changes, thereby detecting a decrease in the