DE1522790A1 - Device for automatic control of the throughput speed of original and photosensitive paper through a photocopier - Google Patents

Description

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Mita Industrial Co., Ltd., Osaka (Japan)

Device for automatic control of the throughput speed of original and photosensitive paper through a Blueprint copier

The invention relates to a device for automatic Control of the throughput speed of original and photosensitive paper by a photocopier with a device for measuring the light transmission of the original.

In known blueprint copiers, the operator must check the transparency of the original and the sensitivity estimate of the photosensitive paper and then set the throughput speed manually. It is obvious that this often leads to incorrect attitudes result, which lead to a considerable consumption of paper. ,

Blueprint copiers have therefore already been developed which contain a device for measuring the light transmission of the original. Here too, however, the operating 427- (P) -TL (6) 0 0 9 8 4 4/1 4 S 3 ORfGlftAL INSPECTED

person read the measured value and bring the throughput speed to the associated value by means of an adjusting device. These blueprint copiers therefore still require a considerable operating effort, they also have the Disadvantage that the influences of the ambient temperature, the supply voltage fluctuations and the different sensitivity of the photosensitive paper .

The invention is therefore based on the object To avoid these disadvantages, a device for automatic control of the throughput speed should be developed characterized by high accuracy.

This object is achieved according to the invention in that to measure the light transmittance of the original light of the actual copy light source is used and that a device is provided, which stores the measured value for a certain time and the control circuit of the throughput speed determining drive motor supplies.

These and numerous other details of the invention will become apparent from the following description of one of the drawings illustrated embodiment. Show it:

1 shows a schematic diagram of the inventive. Device- ■ - - _: - tungj. .. - '_; .-....-

Pig. Figure 2 shows a more detailed overall scheme of the device; * 0 Ö 8 4 A / 1 A S 3 ORIGINAL INSPECTED

Fig. J an overall circuit diagram of the invention Control device j

FIG. K shows a diagram of the device for measuring the light transmission; FIG.

Fig. 5 is a schematic of the memory device;

Fig. 6 is a schematic diagram of the control circuit of the Drive motor;

7 shows a circuit diagram of various switching devices and the. Zeltyerzögerungsgle £ .des;

8 shows a circuit diagram of the control circuit with an element for compensating the influence of temperature;

Fig. 9 is a circuit detail from which, inter alia, the to adapt to the respective sensitivity the switches provided on the photosensitive paper can be seen;

Fig. 10 shows a circuit detail, which, among other things, the "■" optional switchable it from automatic Control on hand control illustrated;

11 shows a circuit detail with the elements for compensating for voltage fluctuations;

12 shows a schematic section through the structural design of the blueprint copier according to the invention. ...

DCe circuit according to FIG. J5; contains the following components: A power source 1, a transformer 2 with a primary

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winding 3 and a secondary winding 4, a switch-on relay switch 5 » an off switch 6, a delay circuit 7 and a holding relay 8, furthermore a CdS (cadmium sulfide) resistor 9 and a variable resistor 10, which are connected to the secondary winding via a rectifier 11 and a resistor 12 4 of the transformer are connected, 'furthermore a diode IJ and a capacitor 14, which are connected in parallel to the series connection of the resistors 9 and 10j - further contains, die.circuit arrangement in parallel sum CdS resistor 9 the series connection of two resistors 15, 15' j parallel to the resistor. 15 '. 1st an Sehalter 17 are provided, while 15 and 15 parallel zn * a "switch 16 and a capacitor 18 are the resistors at the comparison * ^{foinciiingspuakt:} from Switch' 16 und.Kondensator -18 is the lattice of an electron tube - 19 connected, the anode of which is connected to the secondary winding 4 of the transformer 2 via a sliding hole 20 and a resistor 21. In parallel with the resistor 21 is the capacitor 22 and a discharge tube 23. The cathode of the tube '19 is connected to the other terminal of the secondary winding 4 via two resistors 24 and 24 '. A switch 25 is arranged parallel to the resistor 24 '. A rectifier 26, a resistor 27 and a diode 28 are connected to the tap on the secondary winding 4; the latter is connected to one end of the secondary winding 4. The series connection of a resistor 29, a transistor 30 and a resistor 29 'is arranged in parallel with the diode 28. With the emitter of the transistor

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a changeover switch 51 is connected between the lower counter-clock 31 'of switch 51 and the cathode of tube 19 a transistor 32 is connected. To the connection line A changeover switch 33 is connected between the diode 28 and the resistor 29 ', the left counter-contact 33' of which is connected via a variable resistor 34 and a thermistor the transistor 32 is connected. The other counter contact 33 "is a potentiometer resistor via a resistor 37 * 38, another resistor 39 and a rectifier 40 with one end of the primary winding 3 of the transformer 2 connected. The changeover switch 31 is connected via a capacitor 36 to one end of the secondary winding 4. The upper one Counter contact 3I "of the switch 31 is connected to the tap of the Potentiometer resistor 38 connected. Between the transistor 32 and the rectifier 40 are also a resistor 41 and a CdS resistor 42. 43 is an indicator lamp designated. A control rectifier is located between a tap on the primary winding and one end of this primary winding 44 and an electric motor 45; the ojtjrectifier 44 is also connected to the connection point between resistor 29 and transistor 30. Parallel to this series connection of control rectifier 44 and motor 45 is the series connection of a resistor 46, one Rectifier 47 and a capacitor 48.

Fig. 4 also shows a filter 49 which corresponds to the sensitive wavelength range of the sensitive paper,

Furthermore, there is a thermosetting device 50 for the printing process also provides a light source 51 and a reflector 52 ″ which are arranged in the fluoroscopic device 50. Of the Reflector 52 many small holes 53 that form part of the Let the light emitted by the light source 51 emerge from the transillumination device 50 to the outside.

Fig. 7 shows in detail the circuit arrangement of the Switch 6, the relay switch 5 «of the delay circuit 7 and the holding relay 8. This circuit arrangement contains between the two connections of the power source 1 Series connection of two rectifiers 54 and a resistor 55. In parallel with the rectifier 56 is the series connection a capacitor 57 ″ a resistor 58 and the switch 6 arranged. The mating contact 59 of the switch 6 is connected to one terminal of the power source 1 during the other mating contact 61 is connected to a relay 60 which is connected in parallel to the rectifier 56. Parallel A capacitor 62 is also connected to the rectifier 56, as is the series connection of the relay switch 5 and a resistor 63, furthermore the series connection of a relay 64 ″, a transistor 65 and a resistor 66. The circuit also includes a relay 67, the coil of which is in series with a resistor 69 and a rectifier 70 and in parallel to a capacitor 68 is located.

FIg, 12 activates the device through which the speed automatically enteprtonend the light transmission of the

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Original paper is set, conveyor belts run over Valsen 71, which convey the original a and the light-sensitive paper b to the Duro-lamp device 50. The guide unpaired 73 for the original a contains small Löoher 7 * # 75 and 76 The switch 6 is arranged below the hole 74 , the actuating plunger 6 'of which passes through the hole

i protrudes near the top . The aforementioned filter 49 and j

the CdS resistor 9 are provided under the holes 75, |

while under the holes 76 the one with a CdS resistor :

equipped, photosensitive relay switch 5 arranged; is. Bine at a distance above the guide plate 73 vorgese Hene plate 77 has corresponding holes 78 and 79 above the holes 75 and 76 . The arrangement also contains a mirror 8O, which deflects the light beam exiting through the holes 53 of the reflector 57 and throws it onto mirrors 81 , which are arranged above the mentioned holes 78/79, so that the light beams reflected again through the ^. Pass through holes. The arrangement also contains a drive plate 83 for the photosensitive paper b. The directions of movement of the original a and the photosensitive paper b are indicated by arrows. The dashed lines indicate the direction of the light rays,

The original inserted into the gap between the plates 73 and 77 actuates the plunger 6 ^{1 of} the holder 6 so that it holds from the contact 61 to the contact 59. If the original a then runs between holes 75 and 78

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through, εο passes through the original a originating from the light source 51 and reflected by the mirrors 8o and 82 light. It then passes through the filter? and meets the CdS resistance 9. Depending on the light permeability of the original a, the result is a different resistance value of the CdÄ resistance 9. Since the switch 16 (see. Fig. 5) is always closed , the capacitor 18 holds the electrical Potential determined by the voltage divider formed by the variable resistor 10 and the CdS resistor 9. If the capacitor 18 is then charged to a voltage value which is a measure for the resistance value of the CdS resistor 9 and thus for the impermeability of the original a, the switch 16 is opened. The voltage of the capacitor 18 is applied as a grid voltage to the tube 18 and decreases only slowly (due to the leakage current and the leakage current of the capacitor 18), so that the stored value, which corresponds to the measured light transmittance, is available for a fairly long time. The speed setting is then carried out on the basis of this value.

Corresponding to the control voltage applied to the grid of the tube 19, a certain output signal is produced at the resistor 24, which is amplified by the transistor 32 and is used via the transistor 30 for phase control of the control rectifier 44, so that the electric motor 45 automatically

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is set to the speed that is the correct throughput speed for the determined light transmission of the original and thus results in the correct exposure time.

The resistance of the CdQ resistor 9 increases with increasing temperature; on the other hand, however, it also increases the sensitivity of the photosensitive Paper b with increasing temperature. To compensate for these two tendencies, the thermistor 35 is negative Temperature coefficient inserted] it strives to increase the engine speed with increasing temperature and compensates for it hence the two positive temperature coefficients mentioned. This way you get in spite of the inevitable Influence of the ambient temperature and the effect of heat from the light source on the CdS-WAderstand 9 is the right one Control signal for setting the required engine speed.

In order to eliminate the influence of fluctuations in the supply voltage on the motor speed, the CdS resistor 42 is provided, the resistance value of which depends on the brightness of the lamp 43 connected to the supply voltage. If the supply voltage and thus the brightness of the lamp 43 are reduced, the resistance value of the CdS resistor 42 increases, with the result that the phase angle of the control rectifier 44 is brought forward so that the same motor speed results despite the decrease in the supply voltage.

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Through the delay circuit 7 becomes the failure opened with a certain delay, so that the condensate tor l8 has reached its end-of-charge value. However, this delay circuit can be omitted if the relay switch 5 is very j is arranged far away from the fluoroscopy device * which is generally due to the sioh daduroh resulting larger dimensions of the aerate is not appropriate.

There are two types of light-sensitive paper »One type is used for fast copying and the other for slow copying. To obtain copies properly "■ not only the copy speed must be set according to the Liohtdurohlässigkeit the originals, but they must AUOH the sensitivity of the photosensitive paper to be adjusted. For this purpose, the switch 17 is provided in parallel with the resistor 15 'and the switch 25 is provided in parallel with the resistor 24'.

For manual adjustment of the copy thickness (thick or thin) are in the resistor-capacitor-time constant circle variable components provided. In addition, the throughput speed as with the previously common copiers They can also be changed by hand if desired Changeover switches 31 and 33 are provided, through which the manually adjustable potentiometer resistor 38 in the control circuit of the Steuerglelohriohters 44 can be switched.

In the device according to the invention, for the measurement IOfl44 / UI3

The Liahtdurchläeelgkeit the original light from the same light source used, which are also used for the actual copying process. The disadvantages associated with the use of separate light sources become according to the invention therefore avoided. ,

According to the invention, the arrangement is made that the Sensitivity spectrum of the CdS resistor 9 and the spectrum of the bundle of light used to measure the light transmission of the original paper is the same or at least almost the same equal to the sensitivity spectrum of the light-sensitive Paper b is selected. In this way, the resistance value, which is dependent on the leakproofness of the original, provides The CdS resistor 9 provides an exact control signal for the motor dee copier.

As explained, the resistance value of the CdS resistor 9, which is dependent on the transparency of the original, determines the potential of the capacitor 18, which is opened by opening the container 16 is stored, so that during the Kopiervörgajigee with the previously liked original the determined, constant Durohaufgeechwlndlgkelt is maintained.

If a new original is introduced after a copying process, the holder 6 of contact 61 opens the contact 59 switched. This has the consequence that the coil of the relay 60 (see. Fig. 7) receives full voltage, so that the Relay 60 picks up. This gets the in series with the contact

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of the relay 60 lying a coil of the relay 8 voltage, so that this relay picks up and thereby the contact 16 closes. The capacitor 18 can now assume that voltage value which is determined by the resistance value of the CdS resistor 9, i.e. by the determined light transmission of the original. If the original then runs a across the switch 5 and changes its resistance value, this has to be done by changing the conductivity of the transistor 65 result in the relay 64 switching on. With a certain time delay caused by resistor 69 and the capacitor 68 of the delay circuit 7 is due, then the relay 67 responds, so that the second Coil of the holding relay 8 receives voltage, which has the consequence that this relay drops out again and thus the switch 16 is opened. The time delay caused by the circuit 7 ensures that the capacitor 18 has a sufficient time is connected to the GdS resistor 9, so that a stable measured value is obtained. After opening the Switch 16 is the measured value which corresponds to the determined light transmission of the original a on the capacitor stored in the form of a voltage and is now used to over

/ Control the transistors 32, 30 and rectifier 44 to adjust the speed of the drive motor 45 so that the original and photosensitive paper pass through the copier at the correct speed.

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Claims (10)

Claims 1. Device for automatic control of the throughput speed of original and light sensitive paper by a blueprint copier with a device for measuring the transparency of the original, thereby characterized in that light from the actual copying light source is used to measure the transparency of the original (51) is used and that a device (18) is provided which stores the measured value for a specific time and the control circuit (j3O, 44) of the passage speed determining drive motor (45) supplies. 2. Apparatus according to claim 1, characterized in that a switching device (6,16) is provided which the memory device (18) deletes and connects again to the measuring device (9) when a new original is introduced into the device will. J>. Device according to Claim 1, characterized in that a switching device (5) and a time delay element (7) are provided, by means of which the memory device (18) is switched off by the measuring device (9) after a stable memory value has been reached. 4. Apparatus according to claim 1, characterized in that to compensate for the positive temperature coefficient of 90984W 1453 Measuring device (9) and the photosensitive paper in the Control circuit of the drive motor (45) with an element (35) negative temperature coefficient is provided. 5. Device according to claim 1, characterized in that switches (17.25) for bridging switching elements (15 *, 24 ') are provided for adaptation to the respective sensitivity of the light-sensitive paper. 6. Apparatus according to claim 1, characterized in that an adjustable in the control circuit of the drive motor (45) Element (34) for manual pain adjustment to the gradation of the original is present. 7. Apparatus according to claim 1, characterized in that the drive motor (45) by means of changeover switches (31,33) optionally can be switched to a manually adjustable control circuit (37,38,39). 8. The device according to claim 1, characterized in that the control circuit of the drive motor (45) to compensate for Fluctuations in the supply voltage a photoresistive element (42) contains that of a lamp connected to the supply voltage (43) is illuminated. 9. Apparatus according to claim 1, characterized in that a reflector arranged behind the copying light source (51) (52) has aperture holes (53) through which the measurement 909844 / U51 The light used to transmit the light from the original is emitted. 10. The device according to claim 1, characterized in that in the beam path for measuring the light transmittance of the Originals used light a filter (49) is arranged, which is adapted to the light-sensitive paper on a wavelength range matched 1st. • 09844 / US3