KR101782960B1 - Apparatus for controlling print to security paper - Google Patents

Abstract

An apparatus for controlling printing on paper according to the present invention is characterized in that when the paper is supplied to a printing means (for example, a drum assembly) for printing, if fine conductive pieces are distributed on the paper to be fed, And a controller for determining whether all or a part of the sheet is the ground of the security sheet based on the electrical signal outputted from the sensing unit, And a control unit for selectively stopping the printing of the image data. Here, the control unit may set a factor (for example, a criterion for the duration of the specific state of the electrical signal) relating to discrimination as to whether or not the sheet of paper is a paper sheet to a given printing condition (for example, Time, etc.).

Description

[0001] Apparatus for controlling printing on secure paper [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for controlling printing on a printing paper, in particular, a security paper distinguished from a commonly used plain paper.

Today, as technological competition among companies becomes more and more intense, the importance of technology security to prevent outflow of technology to the outside world is emphasized. Accordingly, security technologies for controlling the exporting of various storage media capable of recording digital data to outside or the transmission to outside are also developing.

In addition to the need to block outflow of digital data to the outside, there is also a need for control to prevent the outflow of printed documents to the outside world, so that some companies, as disclosed by Pub. No. 10-2008-0107977 A special paper having a detection tag attached to the same print paper is used and a system capable of detecting the special paper at a door or the like is introduced to prevent the main technology from flowing out to the outside in the form of a printed document.

However, in the case of the special paper having the special detection tag attached to the printing paper which is generally used, since the position of the detection tag can be known by looking at the paper in the light, the detection tag can be intentionally damaged, There may be a security problem that can not completely block the leakage to the user.

For this reason, a security sheet such as a tag for detection, in which a material that can be detected by a specific sensor is not dispersed in a specific area of the sheet and is dispersed in the sheet, is developed and used. This type of security paper has two to ten thin fragments 2 of yarn made of a special magnetic amorphous material (a composition based on cobalt), as illustrated in FIG. 1, 1a and 1b in a state in which they are irregularly arranged. In the case of the security paper 10 to be manufactured in this manner, it is considerably cumbersome and difficult to detect only the fragments on the printed security paper and to damage and leak the fragments to the outside.

Patents 10-1174078, 10-1265900, and 10-2009-0120300 both present techniques based on identifying this type of secure paper. In this case, the disclosure of Japanese Laid-Open Patent Application No. 10-2009-0120300 discloses a technique for causing a printing operation to proceed when a print sheet is identified as a secure sheet, and to stop printing when a sheet that is not identified as a secure sheet is fed .

Through the control of whether or not to print based on such security paper, security of technology can be further enhanced by permitting only limited use of security paper, which can detect the export to outside of company's main technology contents It was possible.

1, a magnetic field generated by a fine magnetic piece 2 (or a piece that can be magnetized by a magnetic field) in the sheet is a current flowing through a magnetic field A magnetoresistive sensing method for identifying whether or not the sheet is a security sheet is applied. This is possible because the magnetic pieces inserted into the security sheet can form a magnetic field enough for the MR type sensor to detect.

1 is relatively complicated as compared with plain paper, and since the raw material for magnetic fine particles is expensive compared to pulp, which is a paper material, the security paper produced as shown in FIG. 1 is about 10 times or more The price is relatively high because it forms a price. Due to the price of these relatively expensive security papers, companies are reluctant to use security papers and thus are not able to enhance security to the extent that technology can be prevented from flowing out through printed documents.

In order to overcome these shortcomings, the need for a security paper that can be made cheaper has been constantly emerging, and as a result, a new type of security paper is being developed in a trial. This new type of security paper is produced by crushing a special material, amorphous material, into a much smaller piece of magnetic grain than is used in previous security papers, mixing it with pulp, the material of the paper, It is made in the same way as making plain paper.

Therefore, this new type of security paper not only reduces the manufacturing cost due to the simplification of the production process, but also reduces the material cost by significantly reducing the amount of amorphous material used as a special material used per sheet of paper.

This new type of security paper is an irregularly scattered and distributed irregularly distributed material throughout the paper because the amorphous material with conductivity is mixed with pulp and made of paper, Minute pieces) are very small, the total amount of amorphous material to be input per individual sheet is relatively small as compared with the security sheet produced as in FIG.

However, since each fine piece of the new security sheet thus manufactured may have a very small magnetic field generated in the magnetized state or may not be dependent on the material to be used, the magnetic fine piece 2 as shown in Fig. 1 An MR system capable of detecting a magnetic field can not be applied. Even though it is applied, MR type sensing can not be used for identification of this type of security paper because it is sometimes detected according to the degree of density of fine fines, but in most cases is not detected.

Therefore, a new detection method is needed for a new type of security paper made from pulp raw materials in which a conductive amorphous material is pulverized and mixed into a sheet-like form. In addition, since the fine particles are randomly distributed on the paper, the density thereof may be very arbitrary, and there is a concern that the newly developed detection method can not certainly identify 100% whether the paper is a security paper. In view of this, there is a need for a reliable and reliable method for detecting the inclusion of amorphous materials and thus for identifying secure papers.

An object of the present invention is to provide a print control apparatus capable of reliably identifying whether or not conductive fine particles are security paper distributed arbitrarily, thereby giving security to printing accordingly.

It is another object of the present invention to provide a print control apparatus capable of applying a degree of security for printing while appropriately considering security for printing on paper and convenience in printing.

It is still another object of the present invention to provide a print control apparatus capable of adaptively setting a security degree based on whether or not the intention of the technology outflow is high at the time of printing on paper.

It is to be understood that the object of the present invention is not limited to the explicitly stated objects, but, of course, it is an object of the present invention to achieve the effect which can be derived from the following specific and exemplary description of the present invention.

According to one aspect of the present invention, an apparatus for controlling printing on a sheet of paper is provided that when the sheet is fed to the printing means for printing, if the conductive pieces are distributed on the sheet being fed, And a control unit that determines whether all or a portion of the sheet is a ground surface of the security sheet based on the electrical signal output from the sensing unit, And a control unit configured to selectively stop the power supply. Here, the control unit changes and applies a factor related to determining whether the security paper is a paper sheet according to a given printing condition.

In one embodiment according to the present invention, the relevant factor is a criterion for the electrical signal to be fulfilled in order to be identified as security paper. The printing condition may be a first condition in which a time elapsed from the time when a tray filled with paper for supplying the printing means is opened and closed is within a predetermined reference time, It may be a second condition in which the paper is manually fed. In the present embodiment, the control unit is configured to apply a stronger enhancement to the criterion than when it does not correspond to the first condition or the second condition.

According to an embodiment of the present invention, when the first condition is satisfied, the number of sheets of paper normally printed by the printing means is not more than a predetermined number The control unit may change the criterion to that before the enhancement.

In another embodiment of the present invention, the printing condition may be a rating for a security sheet fed to the printing means. In this case, the control unit is configured to apply a stronger enhancement to the criterion when the grade for security paper is higher than when it is lower.

In the embodiments described above, the criterion may be a time limit at which it is determined that the specific signal state, which is present when the conductive pieces are not detected in the electrical signal output by the sensing unit, . Further, in this embodiment, the control unit may be further configured to apply either the first time or the second time with different lengths as the time limit. In this case, the control unit applies the first time to the electrical signal output from the leading end of the arbitrary paper sheet, and determines whether or not the reversal state of the specific signal state with respect to the arbitrary paper is present in the electrical signal The electrical signal is compared with the duration of the specific signal state by applying the second time.

In another embodiment according to the present invention, the related factor may be the number of the electrical signals based on determining whether all or part of the sheet is the ground of the security sheet. In this case, when the condition is satisfied, the control unit judges whether or not the sheet of security paper is ground based on mutually independent numbers of a larger number of electrical signals as compared with when the condition is not satisfied.

In an embodiment according to the present invention, the at least one sensing portion is provided at a position further away from the printing means than a length along the conveying direction of the sheet to the printing means.

According to another aspect of the present invention, there is provided an apparatus for controlling printing on a sheet of paper, comprising: a magnetic field applying unit for applying a magnetic field to any sheet supplied to a printing unit for printing, and an eddy current induced by the applied magnetic field At least one sensing unit configured to sense whether the magnetic field is changed by the eddy current and output a signal reflecting the sensed state when the arbitrary sheet is supplied to the printing unit, And to stop printing on the arbitrary paper of the printing means if a specific signal state that is not detected in the signal output by the sensing unit when the magnetic field is not changed is longer than a predetermined time limit And a control unit.

At least one embodiment of the present invention, as described in detail above with reference to the present invention or the accompanying drawings, is to provide a security paper which is manufactured such that the total amount of amorphous material Can be distinguished from plain paper to a degree that is sufficiently reliable, it is possible to prevent the technical contents and the like from being printed using plain paper rather than security paper.

In addition, the present invention can prevent a print job from being printed even on a security paper that can be manufactured to partially misidentify security paper as a security paper on a plain paper, Can be prevented.

In the embodiment according to the present invention, the criterion applied to the secure paper identification for the secure paper having the randomly distributed fine paper is adaptively adjusted in consideration of the possibility that the printing at the present time is due to the technology release intention. do. In other words, in the case of printing in which the intention of leaking technology can be interrupted, by raising the criterion discriminating as security paper, strict leakage of the technology by the printed information is strictly prohibited. Otherwise, By mitigating the discrimination criterion, it is possible to prevent the inconvenience of the user, which may result in a misunderstanding in a part of the security sheet when the upward reference is applied. Therefore, the present invention has the effect of thoroughly blocking the printing intended to leak out the technology while improving convenience for the user.

FIG. 1 is a view showing a conventional security paper made by joining two sheets of paper with thin magnetic piece pieces,
2 schematically shows a configuration of an example of a printer including an apparatus for controlling printing based on whether or not the sheet is security paper according to an embodiment of the present invention,
FIG. 3 is a view showing a security sheet to which fine particles are irregularly distributed over a whole area to which a security sheet identification method according to the present invention is applied,
FIG. 4 is an exemplary illustration of a signal detected for the security sheet of FIG. 3 when the security sheet identification method according to the present invention is applied,
5 is a diagram schematically illustrating a process of determining that there is a non-security area on a sheet fed for printing according to an embodiment of the present invention,
Figs. 6 and 7 show examples of temporary security paper partially lapped with plain paper and security paper to erroneously recognize plain paper as security paper,
8 is a table showing that a criterion applied to determine whether a portion of a security sheet is differently applied according to an existing security level according to an embodiment of the present invention,
FIG. 9 is a diagram illustrating a signal obtained by performing a logical OR operation on a plurality of detection signals according to a security level when a plurality of inductive sensors are used according to an embodiment of the present invention, FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the description of the embodiments according to the present invention and the accompanying drawings, like reference numerals denote like elements unless otherwise specified. Of course, for convenience of explanation and understanding of the present invention, the same constituent elements may be assigned with different numbers if necessary.

2 schematically shows a configuration of an example of a laser printer 100 including an apparatus for controlling printing based on whether or not the sheet is security paper according to an embodiment of the present invention.

The laser printer 100 illustrated in FIG. 2 includes a known component for laser printing (a laser scanning unit, a toner, a developer roller, a photoreceptor drum assembly, a discharge lamp, a fuser, , A security control unit 20 for additionally controlling printing on the paper in accordance with a given method and / or security level, and a security control unit (not shown) And an inductive sensor 21 for detecting whether conductive material is contained in an inductive manner with respect to the paper to be fed.

The laser printer 100 includes an optical sensor 22 for detecting the passage of a sheet on a sheet feeding path of a sheet of paper, a switch for opening / closing the tray 102 of the laser printer 100, A detection sensor 23, and a speaker 24 for sounding a warning sound when necessary.

In the drawing, the inductive sensor 21 and the optical sensor 22 are arranged side by side in the traveling direction of the paper, but they are only for indicating the components according to the embodiment, (21, 22) are arranged side by side in the direction transverse to the traveling direction of the paper. This is because it is advantageous to specify a valid period (here, a valid period means a signal period to be detected with respect to the paper area) in the detection signal output from the inductive sensor 21. Of course, even if the sensors 21 and 22 are located apart from each other along the traveling direction of the paper, the effective period can be specified. In this case, the security controller 20 identifies a valid period in a signal detected from the inductive sensor 21, by reflecting a gap between the paper and the drum assembly.

In another embodiment according to the present invention, the output signal of a feed sensor provided in a normal printer may be used instead of the optical sensor 22. In this case, after the output of the ON signal of the paper feed sensor is reflected from the time difference until the print paper passes the point just below the inductive sensor 21, The section is specified.

In one embodiment of the present invention, the security control unit 20 may not be installed in the laser printer 100, but may be installed outside the printer in a casing separately from the printer.

The optical sensor 22 is a sensor that irradiates light and detects the amount of reflected light and converts it into a current. Generally, since the printing paper is white and has a large light reflection amount, the output current of the optical sensor 22 transits to, for example, a HIGH state with respect to the paper surface.

The inductive sensor 21 is a sensor that detects whether there is a change in the intensity of a magnetic field generated by the inductive sensor 21 while generating a magnetic field in a direction toward a paper feeding path where paper is fed to the drum assembly.

As shown in FIG. 3, when the sheet to be fed from the tray 102 of the laser printer 100 is a security sheet 30 having randomly distributed conductive fine pieces 30a distributed at random throughout the sheet, , And the primary magnetic field generated from the inductive sensor 21 induces an eddy current in the fine particles of the paper. The magnetic field generated secondarily by the induced eddy current affects the primary magnetic field generated by the inductive sensor 21 and changes its intensity.

Therefore, the inductive sensor 21 can detect a signal level logically classified (for example, HIGH if there is a change in the magnetic field or LOW And is applied to the security control unit 20.

Then, the security control unit 20 determines whether the paper (or the area of the paper) currently fed from the level change of the applied signal is normal paper (or a portion of the plain paper) (Or a portion of the security sheet). If it is determined that the sheet is a sheet, the printing operation for the sheet currently fed from the tray 102 is performed according to the normal control operation of the print control unit 101 Stop.

One of the methods of stopping printing on the paper is that the security control unit 20 applies the print stop signal PSS to the print control unit 101. [ When the print stop signal is applied, the print control unit 101 stops the printing on the paper according to the normal method and also stops the mechanical operation for discharging the paper. For example, a paper jamming state.

Another method of stopping printing on paper is to turn off a specific output voltage (e.g., developing voltage) of the drive voltage terminals provided in the laser printer. Turning off this voltage can be accomplished by the print interruption signal through appropriate electrical wiring. In this case, the operation during printing is stopped and the ejection of the sheet is stopped.

On the other hand, when the security control unit 20 makes a decision to stop the printing, the security control unit 20 drives the speaker 24 to output a warning sound sufficient to warn people around. This is to allow employees, employees, and the like in the same space to recognize that printing is currently being attempted as plain paper.

Hereinafter, a process for the security controller 20 to determine the paper and to stop the printing operation accordingly will be described in more detail.

3, the inductive sensor 21 is placed in contactless contact with the security paper 30 randomly distributed over the entire circumference of the conductive fine pieces 30a along the paper feed path or within a predetermined distance, An eddy current is induced across the entire area of the paper due to the irregular distribution of the micro-pieces, or a secondary magnetic field due to the eddy current generated by the eddy current is generated in the primary magnetic field by the inductive sensor 21 (I.e., a change over the threshold value) does not necessarily occur.

3, the signal output by the inductive sensor 21 is a signal that is generated by partially overlapping the micro-pieces, as illustrated in Fig. 4 The pulse group 40 of arbitrary width output at an arbitrary interval due to recognition is formed. The example of FIG. 4 illustrates a signal waveform assuming that a high level is output from the inductive sensor 21 when an eddy current due to fine particles forms an induction magnetic field.

In this case, the security control unit 20 outputs the valid period of the signal applied from the inductive sensor 21 (this period is the same as the above- The number of transitions from LOW to HIGH (or vice versa)) is smaller than a specified reference number T _N (for example, from the detection signal from the optical sensor 22) If it is 2) or more, it is determined that the currently fed sheet is a security sheet, and otherwise, it is determined that the sheet is a plain sheet.

Since the specified number of reference (T _N) is 1 may be mubang, but due to noise caused by electromagnetic waves caused by mechanical operations such as sheet feed / discharge the inductive sensor 21 is also erroneously detected, to the reliability of the paper is determined It is preferable to designate the reference number T _N as 2 or more. However, since the larger the reference number, the security paper may be discriminated as plain paper, it is preferable to designate the reference number as an appropriate number that is not too large.

In an embodiment according to the present invention, the reference number T _N may be set differently according to the security level set in the security control unit 20. [ The higher the security level, the larger the value is set for the reference number. The adaptive setting of the security level and the print control operation accordingly will be described later.

When the paper being fed is determined to be plain paper, the security control unit 20 prevents the printing operation from being performed on the current paper as described above.

A laser printer or the like usually has a path length 201 (hereinafter referred to as " paper feeding length (full length) ") between a point at which printing is actually performed (drum assembly in FIG. 2) And it tends to be very short. This is because it is advantageous to reduce the possibility of mechanical malfunction in the sheet feeding.

However, from the number of pulses detected by the inductive sensor 21 over the entire length of the paper (normally the length of the paper, 297 mm in the case of A4 paper) in the conveying direction as in the previous embodiment, In order to start printing according to the result of discrimination as to whether or not the sheet is present, the total length of the sheet should be at least the vertical length of the printing sheet. However, this conflicts with the need to shorten the battlefield by feeding.

Therefore, in another embodiment according to the present invention, when the paper is short, the paper is short, and in the state where the security paper is not discriminated with respect to the entire paper, or in a partially secured area (i.e., It is judged whether or not the current portion of the paper is in the secure area even when the leading end portion of the paper is being printed in the state of being discriminated. And controls the operation. Hereinafter, the present embodiment will be described in more detail.

In this embodiment, when the printing paper is fed from the tray 102, the security control unit 20 detects the leading edge of the paper from the reflected light detection signal of the optical sensor 22, and, as illustrated in FIG. 5, (Hereinafter, referred to as " LOW ") of the signal output from the inductive sensor 21 due to the fact that the fine strips can not be detected on the paper starting from the point 51 corresponding to the detected tip assumed to) the time (50) the duration, period is above a specified threshold period (T _LIM), the security control unit 20 is the current media portion of the (in practice, the area immediately before) a non-secure media area (the , &Quot; non-security area ") (S51). When the non-security area is recognized as such, the security control unit 20 stops the printing-related operation in the manner described above either during the printing of the current leading end portion or immediately before the start of printing.

The limit time T _LIM is determined based on the paper feeding speed of the laser printer 100 and the vertical length of the printing paper type (letter, A4, etc.). For example, / 8 or < RTI ID = 0.0 > 1/5. ≪ / RTI > That is, if the feeding speed is v _FEED and the paper length is P _L , the time limit can be set to 0.1 * P _L / v _FEED , 0.125 * P _L / v _FEED or 0.2 * P _L / v _FEED .

If the limit time (T _LIM ) is set short, the print interruption can be made due to the unrecognized portions of the fine fingers, even for the normal security paper due to the irregular distribution and density of the fine fingers. If it is set too long, it may be exploited by a malicious user who wants to leak technology. For example, a security sheet provided on the tray 102 is taken out and a part of the sheet is laminated with plain paper, an adhesive, a thin tape or the like as shown in FIG. 6, (Hereinafter, referred to as " ghost paper ") for causing the printer 100 to perform printing. The treasured paper 60 exemplified in Fig. 5 can be recognized as a security paper by the fine grain before the fine _grain recognition duration exceeds the limit time (T _LIM ) set at a long time. When the portion 61 of the security paper is removed from the printed treasure hatch paper 60 through the inducement of such a mistaken expression, it is possible to pass through a door provided with a device for detecting leakage of the security paper and the like without any problem.

Therefore, even if the content of the main technique is printed by inducing misunderstanding by malignantly created ghost paper, the limited time is a length of the printed portion corresponding to a very small portion of the paper so that the printed content becomes meaningless (The limit time values shown above are set to 10%, 12.5%, or 20% of the paper, this vertical width is determined).

In this embodiment, it is determined whether or not the duration of the LOW exceeds the limit time only at the start point of the paper, and it is determined whether or not irregular after the output of the HIGH level due to the detection of the fine fines from the inductive sensor 21 It is checked whether the continuous state of the LOW exceeds the limit time from the transition point every time the transition is made to the LOW due to the fine particle distribution. If it is determined that the LOW continuous state exceeds the predetermined time limit, .

By confirming the duration of the LOW level every time the detection signal level is changed each time the detection signal level is detected, a single horizontal section (or a part of the horizontal section) It is possible to prevent the leakage of the print contents by removing the security paper portion after making the print paper using the paper. If the duration of the LOW level is compared with the time limit at every time of the detection signal level and the printing is selectively stopped according to the result of the comparison, the printing is not normally completed Because it stops on the way.

In an embodiment according to the present invention, the limit time to be compared with the duration of the LOW from the leading edge of the paper and the limit time to be compared with the duration after the detection signal changes from HIGH to LOW are set as different values . Preferably, the latter time limit is set to a value longer than the former time limit. That is, when fine fines are detected once for one printing paper, the criterion adapted for discrimination to the next non-security area is relaxed.

The limit time applied to the discrimination criterion in the above-described manner can be adaptively changed according to the security level described later. For example, if the security level is set adaptively high according to the printing condition (that is, the current printing environment or situation), the limit time is changed to a shorter value accordingly (81 in FIG. 8). That is, at the high security level, the criterion to be discriminated as the non-security area is further relaxed, which means that the criterion recognized as the security paper area becomes stricter. Specific examples in which the security level is adaptively adjusted will be described later.

According to an embodiment of the present invention, a plurality of inductive sensors 21 may be provided instead of the single inductive sensor 21, and each detection signal may be applied to the security controller 20. In the present embodiment, a plurality of inductive sensors are arranged at equal intervals in the lateral direction with respect to the traveling direction of the paper. When a single inductive sensor is provided, a portion of the security paper is combined with the path 71 passing through the inductive sensor, as shown in FIG. 7, It is possible to prevent printing on the sheet.

Even in the case of using a single inductive sensor, it is possible to block printing on the non-visible paper 70 made of the paper combination as shown in Fig. 7 in such a manner as to move its position arbitrarily by a motor or the like.

In the case where a plurality of inductive sensors are provided according to the above-described embodiment, it is also possible to select all or a part or all of the plurality of inductive sensors according to the currently set security level. Here, 'used' means that the detection signal output from the sensor is used to identify whether or not it is a non-security area. If the security level is the lowest, a single sensor is used, as illustrated in FIG. 8, but multiple or all of the sensors may be used (82) depending on the security level.

Fig. 8 is a graph showing the relationship between the above-mentioned variables (the limit time, the number of inductive sensors used or the detection signal used) to be set differently according to the security level that is set adaptively The table is based on the assumption that the security level to be set is divided into three levels: 'upper', 'middle' and 'lower'. The number of pulses to be discriminated as security paper corresponds to the above-mentioned variable mentioned in the above embodiment.

When a plurality of inductive sensors are used, it is determined whether each of the signals detected by the sensor is in the non-security area in the manner described above, and the printing operation is controlled accordingly. That is, if any of the plurality of detection signals to be used is discriminated as a non-security area, printing on the current paper is stopped.

Depending on the security level, for example, when the current security level is the lowest, the detection signal of each sensor is ORed (90) as illustrated in FIG. 9, even if a plurality of inductive sensors are used The addition signal 91 may be used for discriminating whether or not the current paper portion corresponds to a non-security area.

In the case of two sensors, a method of using a plurality of sensors according to a currently set security level will be described. As an example, when the security level is 'up', signals detected from the two sensors are individually And when the security level is 'middle', one of the two sensors is selected and used. When the security level is 'low', as shown in FIG. 9, The signal 91 obtained by ORing the signal is used for determining whether or not the signal 91 is a non-security area.

The security level serving as described above is input to the print control unit 101 through a user interface unit (for example, a keypad and a liquid crystal panel) provided in the laser printer 100, (20). Alternatively, a separate input means for setting a security level may be provided and may be set directly to the security control unit 20 through the input means. Information on the security level may be displayed on the display unit (liquid crystal panel or the like) provided in the laser printer 100 by the print control unit 101 or may be displayed on a separate display unit And may be displayed directly by the control unit 20. [

In an embodiment according to the present invention, the security level that acts as described above may be manually set by the operator of the printer 100, but may be set automatically. Hereinafter, a method of automatically determining the security level will be described in detail.

According to an exemplary embodiment of the present invention, the security level is determined according to a class of a security paper (i.e., a security paper filled in the tray 102) input by an operator of the laser printer 100. [ Here, the grade of the security paper is determined by the conductivity, the content ratio, the density and / or the distribution of the fine particles in the paper. The higher the conductivity, content, or density, the more uniform the distribution, the higher the security grade. The security control unit 20 sets the security level to a high level if the security level of the security sheet is higher than the security level of the security level transmitted from the print control unit 101 or input via a separate input unit. .

By lowering the level of security when the level of the security paper is low (by lowering the security level as described above, the criterion to be discriminated as the non-security area is strengthened as described above, that is, ), And even though it is a security paper, it is often identified as a non-security area, thereby reducing the possibility of frequent printing interruptions and warning beeps. Of course, if you use a high grade security sheet and accordingly the security level is automatically set high, security against printing will be fully assured.

In another embodiment according to the present invention, when the tray 102 is opened and closed, the security level is automatically changed. The opening / closing of the tray 102 is confirmed from a signal from the opening / closing detection sensor 23. When the tray 102 is opened and closed, the security controller 20 controls the opening / Set to the highest security level automatically. The newly closed tray means that the new print paper has been filled in. Since the newly filled print paper may be a sheet of paper that may be mistaken for paper having no non-security area, the security is automatically set to the highest level The possibility of misunderstanding is minimized.

After the predetermined time has elapsed after the tray 102 is closed, the security controller 20 returns to the security level before the automatic setting of the highest level or to the security level of the middle level.

In an embodiment according to the present invention, in the printing operation for the paper fed from the tray 102 even before the predetermined time elapses after the tray 102 is closed, If printing is completed without interruption by passing the security check as described above, the security level returns to the security level before the highest level automatic setting.

According to an embodiment of the present invention, when the laser printer 100 includes a manual feed slot capable of feeding the print paper sheet by sheet, the security control unit 20 controls the paper feeding unit The paper is fed from the paper feed tray through a manual paper feeder and is inspected through a separate sensor. When the paper is fed from the tray 102, When paper is fed through the earth, the security sheet is inspected by applying the highest security level. That is, for the paper to be manually fed, the most strict criteria is applied to check whether the area of the security paper is the area. Then, the individual supply of the paper through the manual feeder is stopped, and when the paper is supplied again through the tray 102, the paper is returned to the pre-change security level to the highest level, and based on the criterion determined by the level, It is inspected whether it is a paper area.

Heretofore, various methods of controlling the printing operation according to whether the paper supplied for printing is plain paper or security paper have been described in detail as an example applied to a laser printer. However, the identification of the security paper area according to the principle and the technical concept of the present invention and the print control operation thereof can be applied regardless of the type of the printer (laser, inkjet, etc.) The present invention can be applied to all printing apparatuses in which printing is performed. Accordingly, it should be understood that regardless of whether a printing apparatus is used for a purpose, the claimed scope falls within the scope of the present invention as long as the object is included in the scope.

The various embodiments described above and the structures and operations described in the embodiments can be selectively combined with each other in various ways unless they are incompatible with each other.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention. Alteration, substitution, addition, or the like.

20: security control unit 21: inductive sensor
22: optical sensor 23: opening / closing sensor
24: speaker 30: security point
30a: conductive amorphous micro-pieces 60, 70:
100: laser printer 101: print control unit
102: Tray

Claims (10)

1. An apparatus for controlling printing on paper, comprising:
At least one sensing unit configured to output an electrical signal associated with the distribution when conductive sheets are distributed on the sheet being fed as the sheet is fed to the printing means for printing,
Wherein the control unit is configured to determine whether all or a portion of the sheet is a ground surface of the security sheet based on the electrical signal output from the sensing unit and to selectively stop printing of the printing unit on the paper in accordance with the determination result, And a control unit configured to change and apply a factor related to determination of whether or not the security paper is ground according to a given printing condition,
Wherein the printing condition includes a first condition that a time elapsed from the time when a tray filled with a sheet to be fed to the printing means is opened and closed is within a predetermined reference time,
The related factor is a criterion for the electrical signal to be satisfied for discrimination as security paper,
Wherein the control unit is configured to apply a stronger enhancement to the criterion when the first condition is satisfied than when the first condition is not satisfied. delete The method according to claim 1,
When the number of sheets of paper that have been normally printed by the printing means is equal to or more than the predetermined number of times without stopping printing from the time when the first condition is satisfied, Wherein the control unit is further adapted to apply the change before the enhancement. The method according to claim 1,
Wherein the printing condition includes a second condition in which the paper supplied to the printing means is manually fed,
Wherein the control unit is configured to apply a stronger force to the reference than when the paper loaded in the tray is automatically fed when the second condition is satisfied. The method according to claim 1,
Wherein the printing condition includes a rating for a security sheet fed to the printing means,
Wherein the control section is configured to apply a strengthening to the reference when the grade for the security paper is high as compared with when the grade is low. 6. The method according to any one of claims 1 to 5,
Wherein the criterion is a time limit at which it is determined that the paper sheet is not the paper sheet of the security paper when the specific signal state that appears when the conductive pieces are not detected in the electrical signal output by the sensing unit is more persistent. The method according to claim 6,
Wherein the controller is further configured to apply either a first time or a second time of different lengths as the time limit,
The first time is applied to the electrical signal outputted from the leading end of the arbitrary paper, and for the electrical signal after the reversed state of the specific signal state with respect to the arbitrary paper appears in the electrical signal, And comparing the time with the duration of the specific signal state. The method according to claim 1,
Wherein the printing condition further includes a third condition that the paper supplied to the printing means is manually fed,
The number of the electrical signals based on determining whether all or a part of the sheet is the ground of the security sheet corresponds to the related factors,
When the first condition or the third condition is satisfied, the control unit controls the amount of the electric signal, which is the ground surface of the security sheet, based on a larger number of electrical signals than when the first condition or the third condition is not satisfied The print control apparatus comprising: The method according to claim 1,
Wherein the at least one sensing unit is provided at a position spaced further from the printing means than a length along the feeding direction of the sheet to the printing means. delete

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