NO126819B - - Google Patents

Description

Copy counting body to cumulatively indicate

the number of copies produced by one

copier during successive copying series.

The present invention relates to a copy counting device

to indicate cumulatively the number of copies produced by a copier during successive copying series.

In ordinary copiers used on a rental basis, it is common practice to charge customers a fixed fee for the number of copies made. As a rule, the fixed fee is based on a monthly minimum fee for a predetermined number of copies, and there is a slightly reduced fee for all copies that exceed the predetermined number that are made during a month. With this arrangement, a customer actually pays the same fee per copy for all co-

regardless of whether the customer uses the machine for a single copy series or for multi-copy series. As the use of the machine for a single or short copying series results in increased wear and tear of the machine

in relation to multi- or long copying series, it is preferable to regulate the payment for copies on a basis that is proportional to the actual wear or use of the machine.

This is achieved according to the present invention by means of a copy counting device which is characterized in that it comprises a first per se known counter to indicate the sum of copies up to a predetermined number in each copy series and at least one further per se known counter for indicating at least the sum of copies up to a second predetermined number above the first predetermined number in each copy series, a counter actuating means responsive to the production of each copy and a coupling means for causing the first counter to be acted upon by the actuating means only after the production of each one copy up to the first predetermined number of copies for each copy series and to cause the second counter to then be affected after the production of each individual copy up to the second predetermined number of copies for each copy operation. The sum can also be counted on a third counter, in the event that only a fraction of the total possible number of copies produced at each reproduction series is counted on the second counter for use by the user. A resettable counter can be used to indicate the total number of copies made.

An example of the invention will now be described with reference to the accompanying drawings, in which: Fig. 1 shows a perspective sketch seen from the right of xerographic apparatus comprising the invention with parts of the lid removed to show the arrangement of the xerographic machine parts. Fig. 2 shows a perspective sketch seen from the left with parts of the lid cut away to show the arrangement of the xerographic machine parts. Fig. 3 shows a sketch of the main control plane for the device mounted on a part built on the desk. Fig. ty shows a top view of the tap changer used in the counting system of the apparatus of Fig. 1.

Fig. 5 shows a front view of the step switch.

Fig. 6 shows a sketch along the line 6-6 in fig. 5.

Fig. 7 shows a sketch along the line 7_7 in fig. 5.

A desk generally designated 1 constructed in the usual manner is on. the top in the right corner is fitted with a main control panel 3 for starting the machine operations and for selecting and indicating the number of reproductions that have been made, and a collection tray for finished copies, generally made of paper. Although the copies may be issued from the copy duplicator for collection at any accessible external point of the machine, it is preferred that the delivery point for the supply of copies or paper be incorporated into a top structure k located above the rear part of the desk top, as the top construction also provides space for the main control panel 3

for the device. The document holder or copy table 5 and its cover plate 6 can thus lie unobstructed at the front part of the desk above the knee space.

In the lower right corner of the desk there is another control panel 7 for additional control circuits and for arms to control the length of the sweep to control the tension of the paper separator rollers on a stack of paper and to adjust for different paper weights and to control the speed of the color rendering as will be described in detail later.

Reference is now made to fig. 1 and 2. There is shown the general arrangement of the xerographic apparatus on the desk 1. As shown, a frame is provided for supporting the parts in the apparatus, and this frame is made of a base plate 10 to which connecting plates are mounted and back plates 11 and 12 respectively and sub-plates 13-The plates are interconnected and are held rigidly fixed in the correct mutual relationship by means of suitable connecting plates.

As shown in fig. 1, the xerographic drum 20 is mounted on a horizontally driven shaft SH6, and the drum is placed on the cut-out front part of the front plate 11 with the most important xerographic parts of the machine mounted around the drum either on the front of the front plate 11 or between the plate 11 and the part plate 13.

The main drive elements for the controls for the xerographic parts are mounted between the front and back plates 11 and 12, as shown in fig. 2, and they comprise as main parts a main drive motor MOT 1, a sweep control mechanism H8 for influencing the moving parts of the optical system 24, a counting influencer 50 for influencing the function of a paper system 32 and a paper cutting mechanism 36, a clutch mechanism 52 for influencing of alternative function of separator and feed rollers in the paper feed system and an arm control system 5^ for regulating the length of the sweep, the color release speed and the tension in the separator roller.

The plate cover 6 is hingedly mounted above the transparent plate 5 on top of the desk 1. The original to be copied is placed face down on the plate 5 and the plate cover 6 is placed over the original to press it into good contact with the plate 5.

The xerographic drum 20 is mounted under the plate 5 for anti-clockwise rotation, so that points in the drum move past different processing stations in turn. The first station is a charging station comprising a corona discharge device 22 for uniform charging of the drum. At an exposure station, light reflected from the underside of the original becomes.

18 set in the focal point by means of the projection system 24 which

comprises a movable lens on the drum, through a slit in a light screen for discharge on the surface of the drum in image configuration, leaving a latent electrostatic image. This latent electrostatic image is developed at a developing station which comprises a developing housing 26 in which developing material is sprinkled over the image on the drum. At a transfer station, a charge of opposite polarity to that of the charging station is applied by means of a corona discharge device 34, so that paper fed to the surface of the drum along the guide 32 from a paper stock receives developing material in the image configuration and then passes along a belt 38 to a fixing device 42 where fixing material is applied to the paper.

The drum is rotated at constant speed by means of a motor MOT 1 synchronously with the movement in the sweep direction of the lens for the projection system 24, the paper feeder of the guide 32 and an air blower 36.

The application of the fixed image is taken up by a belt 44 behind the machine to a paper trough 2 in the raised part 4 of the cabinet 1. As the paper tends to stick to the surface of the xerographic drum even after the supply of charge from the device

34, the air blower 36 is applied to the surface of the drum beyond the transfer station to lift the leading edge of the paper away from the drum. The drum is finally cleaned at the cleaning station using a rotating brush in a housing 46.

If more than one copy of the original is required, the operation is repeated. The number of copies to be made is controlled by setting the button on the control panel shown in fig. 3-

The exposure mechanism of the xerographic duplicator of this invention is designed for use with an optical scanning or projection system 24 to scan the object to be reproduced and cast a "flowing" image of the object onto the rotating xerographic drum, the length of the sweep being and the projection of the flowing image is synchronous with the rotation of the xerographic drum controlled by means of a sweep control mechanism generally designated 48.

In this type of apparatus, the sweep of the object is placed in a stationary position on a stationary copy holder by means of a movable lamp carriage having fluorescent light sources mounted to provide uniform illumination of the object to be reproduced, and it is moved relative to the copy holder in a timed relationship to a laterally movable lens system and the xerographic drum.

A fixed object mirror mounted below the fixed copy holder reflects an image from the original through the lens in the lens system onto an -image mirror which in turn reflects the image on the xerographic drum to a slit in a fixed light screen placed next to it. xerographic drum.

As the photoconductive surface of the xerographic drum is curved and in constant motion while the machine is working, the image of a copy cannot be projected in its entirety directly onto the photoconductive surface of the xerographic drum. To obtain a clear well-defined image on the xerographic drum, the lens is moved so as to project line images of the copy on the xerographic drum, the movement of the lens being synchronized with the movement of the drum so that -line jet" in lde ne are correctly registered one after the other on the drum to produce a reproduction to the correct scale of the copy on the drum surface. To effect uniform illumination of the copy, a suitable light source is moved at a uniform speed over the copy as previously described, the movement of the light source being coordinated with the movement of the lens and the drum.

This synchronized and co-ordinated movement of the lens and light source to sweep in correlation with the movement of the xerographic drum is achieved by means of a sweep control mechanism 48 which in the preferred embodiment is provided with means by which the length of the sweep can be varied to compensate for the length of different types of copy.

In practice, the lens and the light source are moved from their respective starting positions in coordinated motion with the xerographic drum in one direction only, that is, their motion is coordinated with the motion of the drum during the relevant sweep cycle in which a latent image of the copy is formed - on the drum, bg after which, at the end of the sweep cycle, the lens and the light source are quickly returned to their original starting positions, this last cycle being appropriately termed the return cycle or return cycle. It is clear that as no aperture system is used with the lens, the xerographic drum is exposed during the return or retrace cycle, but as the drum is constantly in motion the originally exposed image on the drum is not erased during the retrace cycle, as at this point the area of the drum carrying the previously formed latent image has passed from the exposure station to the developing station. Unlike ordinary photographic film, the photoconductive surface of the drum is reusable, and therefore no damage is done to its surface during the rewind cycle.

In the image transfer station, the powder images previously formed on the xerographic drum are electrostatically transferred to a sheet of transfer material, the electrostatic charge being applied to the transfer material by means of the corona transfer device 34. The electrostatic charge that is applied to the transfer material during the transfer operation is sufficient to cause the transfer material to adhere to the drum even after the material has exited the corona emission region. It is therefore clear that a means of removing the transfer material from the drum must be provided.

Although mechanical means such as strip fingers common to the printing technique can be used to remove the transfer material from the drum, mechanical means of this type can damage the photoconductive surface of the drum or destroy the powder images on the transfer material. In order to prevent destruction of powder images on the transfer material and to prevent damage to the drum, a preferred form of take-off mechanism 36 of the type described in American patent no. 3,062,536 is provided.

Copy counting system.

In ordinary copiers where it is common to use a rental basis, it is common practice to charge customers a set fee for each copy made. In order to provide an advantageous arrangement for users of the machine who use the machine essentially to get more copies taken in one operation, that is to say of the order of magnitude 10: to 25 copies per operation, the invention includes a counting system whereby the first few copies in each operation are summed on one counter, and the remaining copies for each operation are summed on another counter. In this way, it is possible to arrange the load with a given fee for the first few copies for each operation and a lower fee for the following copies for each operation. In the particular embodiment described here, the first three copies for the operation are arranged for summation after a higher fee. As part of the invention, however, the circuit is arranged in such a way that the number of copies to be summed in this way can be arranged as desired in accordance with the requirements for the particular application. A single original is copied in each operation.

In addition to providing separate counters to sum up different parts of each multiple copy operation, the invention can also include a third counter which is arranged in a place conveniently visible to the operator, whereby the number of dense copies in each operation is indicated for visual inspection.

It is appropriate that the counting system's counters MC-1 and MC-2 are arranged as shown in fig. 1, whereby the sums registered by the counter can be observed periodically by opening an access door on the side of the machine. An "operation sum" counter MC-3 is arranged on the control panel 3, as shown in fig. 1, 2 and 3j whereby it is in an appropriate position to be seen by the operator. Preferably, the counter MC-3 is of the resettable type so that the operator can easily set it to set the copies for any operation as desired.

In order to operate each of the counters MC-1, MC-2 and MC-3 of the counter system, means are provided which are influenced under the control of the counter-acting means to effect the proper functioning of the respective counters in timed relation to other functions of the machine, such as copy sweep, paper feed and sheet removal from the drum. With this in mind, the invention includes a step switch 5TR (see fig. 4 to 7) similar to the copy count switch described below and which is influenced under control of the programming system.

As indicated schematically in fig. 4, the coil 5TR (count) is energized to drive an actuator 804. The actuator 804 is held in the

inactive position shown in fig. 5, using a spring 812.

..When the actuator 804 is actuated by the coil 5TR (count), an actuator arm 8l4 grips a gear 8l6 and thereby incrementally moves the step switch 5TR which acts on a slide contact arm 832. The actuator arm 8l4 is rotatable on the actuator 804 about a pivot point 8l8 and is held in it for

fig. 4 shows the position of a spring 820 which is mounted by means of an angle 822. When the actuator arm 814 is actuated the arm moves downward and engages the gear 816 and moves simultaneously with the gear until the actuator engages the coil and a pawl 824 engages the gear. When the coil 5TR (count) is released, the actuator arm is moved back into the one in fig. 4 and 5 showed position by means of the springs 820 and 812 ready to move the step switch again.

The pawl 824 is rotatably mounted on the angle 822 by means of a shaft 826 having a coil spring 828 mounted thereon to engage the pawl 824 with the slots in the wheel 816.

The gear wheel 816 is connected by means of a shaft 830 which grips a sliding contact arm 832 and contacts 833 mounted on an insulated plate 834. ) and affect the counters MC-1 or MC-2 and MC-3 accordingly. The influence of 12LS and 13LS which are mounted on the plate 834 and the actuator 804 is described below.

After a particular document has been copied the required number of times, the programmer affects a coil 5TR (reset) which serves to reset the stage shifter in a manner that will be described below. A resetting actuator arm 838 is held in an inactive position, as shown in fig. 5> by means of a spring 840 which is similar to the spring 812 which holds the actuator 804 in the inactive position.

When the reset actuator 838 is actuated, an outer member 842 contacts the pawl 824 and rotates it about the shaft 826, thus releasing the gear 816. The gear 816 is returned to its initial position by means of the return coil spring 844 which will serve to turn the gear in the direction anti-clockwise, as shown in fig. 6. When the outer part 842 of the resetting actuator contacts the pawl 824, a hook 846 which is rotatable about a shaft 848 is moved in a counter-clockwise direction, as shown in fig. 6, by means of a spring 850. The hook 846 serves to keep the pawl 824 out of contact with the gear 816 before the gear fully returns and comes to rest when the forward projecting portion 831 of the gear 816 contacts the stop member 852. When the actuator 804 is again actuated, the actuator 814 contacts the outer portion 854 of the hook 846 thereby releasing the pawl 824 and the resetting actuator arm 838 to that of FIG. 5 showed position.'.

During each sweep, a pulse is imprinted on the counter MC-1

or MC-2. The step shifter switch 5TR is connected so that the first three copies are counted on MC-1 and the remaining copies that are taken are counted on MC-2. When the step shifter switch has been actuated 15 times, which is the number of contacts on the switch in this case, and 15 copies have been counted, the sliding contact arm 832 opens the switch 12LS mechanically, as shown in dotted lines in fig. 6, allowing the counter to continue counting the copies taken as described below. When the switch 12LS. is opened by means of the sliding contact arm when 5TR (count) is actuated, the switch 13LS is closed until the power is turned off at the end of the machine program. This is done to ensure that the 5TR switch is fully stepped to the fifteenth or final position. The machine can thus continue to operate in a continuous or multiple manner at the step shifter in the last or fifteenth position, and all counts go to MC-2. A jumper point between MC-1 and MC-2 can be selected by correctly setting the contacts on the step shifter. The contacts are set by means of a connection device which is connected in advance to provide the desired over-connection between the counter MC-1 and MC-2.

As mentioned above, various changes can be made to the arrangements by adapting the connections for the step shifter contacts and the counters. In an alternative arrangement, three counters are provided, the first counter being actuated at each copy taken in each reproduction series by connecting the counter to the sliding contact arm 832. Another counter is connected to the first five contacts contacted by the arm 832 as it moves from its returned position, and a third counter is connected to the next five contacts, that is, the sixth to tenth contacts contacted by the arm 832. In this arrangement, the first counter counts all the copies taken, and the second counter counts the first five copies in each reproduction series. If the first and third meter theft scheme is charged with 7 øre per registered number, and the other meter is charged 14 øre per registered number, the charging rate is equal to 21 øre per copy for the first five copies, 14 øre per copy for the next five copies and 7 øre per copy for every copy over ten in each reproduction series. The contact arm 832 is reset to its first position at the end of a press cycle,

or to avoid misuse of the system it can be arranged to also be reset when the cover 6 is lifted from the plate to insert

an original to be copied. The plate handle can, for example, be connected to a mercury switch that is tilted so that it breaks the electrical connection between its contacts when the cover is lifted.

Claims (4)

1. Copy counting body to cumulatively indicate the number of copies which produced by a copying machine during successive copying series, characterized in that it comprises a first per se known counter (MC-1) to indicate the sum of copies up to a predetermined number in each copying series and at least one further per se known counter (MC -2) to indicate at least the sum of copies up to another predetermined number above the first predetermined number in each copy series, a count influencing means (50) responsive to the production of each copy as well as a switching means for causing the first counter to be first influenced by the actuating means after the production of each individual copy up to the first predetermined number of copies for each copying series and to cause the second counter to be subsequently actuated after the production of each individual copy up to the second predetermined number of copies for each copying operation. 2. Counting device in accordance with claim 1, characterized in that the coupling device is adjustable to set the predetermined number. 3- Counting means in accordance with claim 1 or 2, characterized in that it comprises a third counter (MC-3) which reacts to the influencing means to indicate h<y>er single copy for each copying series. 4. Counting means in accordance with one of claims 1 to J>, characterized in that it comprises a further, resettable counter which responds to the influencing means to indicate each individual copy for each copy series.