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US3090870A - Detection of stamps on documents - Google Patents

Detection of stamps on documents
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US3090870A
US3090870AUS130424AUS13042461AUS3090870AUS 3090870 AUS3090870 AUS 3090870AUS 130424 AUS130424 AUS 130424AUS 13042461 AUS13042461 AUS 13042461AUS 3090870 AUS3090870 AUS 3090870A
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circuit
envelope
reflectance
gate
signal
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US130424A
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Ruckert Horst
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International Standard Electric Corp
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International Standard Electric Corp
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Description

May 21, 1963 H. RUCKERT DETECTION OF' STAMPS ON DOCUMENTS Filed Aug. 9, 1961 Unite States are This invention relates in general to a circuit arrangement for detecting the presence of an identification mark on a document, such as, for example, a stamp on an envelope.
In particular, the invention relates to an arrangement of the above type in which a normally stamped envelope is conveyed passed a photoelectric scanning device to produce a signal which is characteristic of the envelopes stamped condition. The signal is then applied to the inputs of two branched circuits so designed that, if an output signal is simultaneously obtained from each circuit, the signals cause a coincident gate to open and pass a control signal which may be used to inlluence the further conveyance of the envelope in any desired manner or to indicate the presence of a stamp.
A modification of the invention consists in adding to the circuit arrangement, described in the preceding paragraph, a third circuit whose output signal must also be applied to the coincidence gate in order to obtain the control signal. The control signal in this case may be used to influence the further motion of the envelope in a modified manner, or to indicate a stamp, usually in a more restricted sense.
There presently exists a known circuit arrangement for detecting the presence or absence of a stamp or other identification mark on a document or piece of mail. U.S. Patent 2,966,594, issued December 27, 1960, discloses the known arrangement which was jointly invented by Werner Hinz and the present applicant. The patent is assigned to the assignee of the present patent application. The disclosure of the patent is incorporated by reference in the present application.
To specifically point out the present invention is is believed desirable first to describe briefly the field in which the invention is to be used and then to locate the invention in the field.
It is well known that an envelope with its stamp, in moving relative to a beam of light in a photoelectric scanning device, will modulate the youtput of a photocell due vto the variation of the light reilected from its surface toward the photocell.
It is also known that the signal may be applied to each of a number of branch circuits connected in parallel and consisting of various combinations of amplitude responsive threshold gates, integrating circuits, storage units, AND gates, counters, etc., and, depending on the combined output signals from each circuit, a determination can be made regarding the stamped condition of the envelope. Examples of various types of known circuits are illustrated and their method of operation described in U.S. Patent 2,966,594, above reference-d.
This present invention discloses a particular manner of of the relative background brightness of the envelope as compared with the average brightness of the stamp.
These and other objects of the invention will become more apparent by reference to the following description taken in conjunction with the *accompanying drawing, in which:
FIG. 1 is a block diagram illustrating a preferred embodiment of my invention.
FIG. 2 is a block diagram illustrating a modification of my invention by which a more limited selection of the stamped condition of an envelope can be obtained as compared with the embodiment of FIG. l.
Referring to FIG. l,block 1 symbolizes a photoelectric scanning device in which a light beam is directed onto a succession of stamped envelopes, or the like, as they pass the device. The device includes a photoelectric cell which receives light reflected from the stamped envelopes and generates a signal voltage proportional to the intensity of the reflected light. Theamplifier 2 raises the level of the signal voltage to the desired value for application to the -branch circuits 3a and 3b simultaneously.
The circuit 3a comprises an amplituderesponsive gate 6 which passes a signal voltage to anintegrating device 7 only when the amplitude of the signal fromamplifier 2 is lower than that corresponding to a predetermined opti-Y mum reflectance value defi ned as follows: The percentage of the incident light reflected by diffusion from the envelope or the stamp in the direction of the photocell forming part of the photoelectric device is called the reflectance value. In general the reflectance value of postage stamps is usually below as compared to 100% lfor a standard white reflecting surface. In this appliaction the reflectance value that is usually not exceeded is called the optimum reflectance value, as distinct from the various actual reflectance values that any particular stamp may have. It will be'clear that, even though the mean stamp reflectance value will be below the optimum value, there will be occasions during the scanning period when the stamp reflectance value may rise above the Voptimum value. Hereinafter the optimum value will be vreferred to as 65%.
Theintegrating device 7 may comprise the conventional series resistor-shunt capacitor network. When the capacitor accumulates a predetermined charge, a voltage Apulse is applied to the store B, which may comprise a conventional bistable multivibratoror dip-'llop circuit. The resulting change in the vcondition of the {lip-flop places a marking voltage on one of the inputs of AND gate F. The amount of the charge depends on the choice of several parameters, for example, the time constant of the RC network, the speed with which the envelope passes the photoelectric cell of the scanning device, and the Iamplitude of the voltage applied to the capacitor at the beginning of the charging period.
The invention has been found to operate satisfactorily when the parameters are such that the predetermined charge necessary to produce the required voltage is accumulated during the time interval required for a width somewhat less than the -width of the stamp to pass the light beam. l
Thecircuit 3b comprises a direct-current suppressor circuit 10, amplituderesponsive gate 11, AND gate K, pulse Shaper 12, pulse counter V13 and store E. The purpose of thecircuit 3b is to provide a second marker voltage fon-AND gate F in response to information stored 'in E. The need of this second marker voltage arises from the fact that a dark envelope having a reflectance value less than 65% will cause a marker voltage to be Vapplied to AND gate F whether the envelope is stamped or not. It is clear that this condition of operation rwould be undesirable and hence the necessity of having a second criterion, essentially independent of reflectance values, to indicate that the envelope is stamped (or unstamped).
Patented May 2l., 1963 V The second criterion is based on the counting of a predetermined number of pulses before a second store or ilip-ffop circuit is ipped to the condition that indicates that the desired count has been completed and that that information has been stored. On the completion of the store, a second marking voltage is applied to the second input of AND gate F. As previously stated the simultaneous application of both marking voltages causes the gate F to open and pass a signal indicating that the envelope is stamped.
The countingk operation is performed as follows:
'Ihe input signal voltage applied tocircuits 3a and 3b consists ofwan A.C. voltage superimposed on a D.C. voltage. The A.C. componentresults from changes in the reflectance value due to the printing on the stamp. At the output of the amplitude responsive gate 6 a voltage appears for that part of the input signal representing a reflectance f less than 65%. Such a condition exists when (1) a light or bright envelope is stamped, (2) a dark envelope is stamped, and (3) a dark envelope is not stamped. No ioutput signal appears when a light envelope isrnot stamped. The pulse is applied as aV first marker pulse to one input of AND gate K.
The second marker pulse for AND gate K is obtained from the input pulse after the D.C. component has been removed bysuppressor circuit 10 and after the amplituderesponsive gate 11 has passed only those pulses having an amplitude greater-than a predetermined value. The amplitude responsivegate thus eliminates pulses which may be produced from stray A.C. signals and cause a dark unstamped envelope to go through as a stamped envelope. Thesuppressor circuit 10 may be a conventional peaker or differentiating circuit. The pulses passed by AND gate K are shaped in Shaper 12. and counted in counter '13. 'Ihe counter is so designed that following a predetermined number of counts a voltage is applied to a store E as information as above described.
It will be clear that lwhen a dark envelope having no stamp is'scanned there will be nomarker pulse applied to storage device E since, with no stamp, there will be no A.C.,pulses applied to AND lgate K and no count made by counter y13. As a result, AND gate F cannot pass a signal indicative of a stamped envelope. It will *also be clear that when a bright envelope with no stamp isscanned there can be no information stored in either store B or store E and AND gate P will not indicate a stamped envelope.
Referring now to FIG. 2, illustrating a modification of the invention, albranch circuit 3c is also connected inparallellwith branch circuits 3a and 3b.Branch circuit 3c comprises substantially the same combination of circuit elements as'does branch circuit 3a. The amplitude responsive gate4' delivers anoutput signal only when the amplitude of the input signal is greater than the optimum reflectance value, rather than less than that value as was the case forgate 6.Integrating device 5 may have the same design -as that described fordevice 7, except for the value'of the time constant 'of the RC network.Branch circuit 3c operates well with branch circuit 3a when the RC time constant of the integratingdevice 5 is such that vthe predetermined charge necessary to producek the required voltage is accumulatedA during Va time period at least somewhat lgreater than the sum of the periods for which-.the reflectance value of the stamp is greater than 65%. 'I'his insures that, in order to recognize a stamp when employing the threebranch circuits, a certain por- Vtion ofY the'total scanning length must have a reflectance "value greater than the optimum reflectance value.-
- Branch circuit-3c also containsa store or ipaflop circuit A. When information is stored in A an output voltageis also applied tothe input of AND gate F. A signal is passed to the output circuit of F only when input or marker. voltages are applied simultaneously to each of the three inputs.
A feature of the invention illustrated in FIG. 2 is'that a selection can be made between light and dark envelopes when both are stamped. It is clear that only the light envelope would give an output voltage from AND gate F.
The blocks W in FIGS. 1 and 2 represent work or -load circuits which may be controlled in response to the output or control signal from AND gate F.
The leads, labled RESET, to the stores A, B, and E and to thecounter 13 are toindicate that these circuits must be restored or reset to theirl original condition prior to the scanning of each envelope. Such resetting circuits are Well-known to those Vskilled in the tart andare not illustrated in detail since they formno part of the present invention. Y
While I have described above the principlesofmy invention in connection with specific apparatus, it is to be clearly understood that this description is made only by way of example and not as a limitation to the scope of my invention as set forth in the objects thereof and in the accompanying claims.
I claim:
l. A circuit arrangement to determine Ithe stamped condition of an envelope or document regardless of the background reflectance of lthe envelope as compared with the reflectance of a stamp having a certain number of reflectance variations below `an optimum reflectance value comprising:
means to generate a signal voltage proportional to theV successive reflectance values of a portion of said envelope onY which a stamp may/be .normally placed;
means to apply saidvoltage simultaneously to the inputs of' a first circuit having a first storage device and a second circuit having a second storage device including a bistable device;
means in said first circuit to Store information in said first storage device only when'said signal contains reflectance values lower than said optimum reflectance value for a predetermined time period;
a secondk means in `said second circuit to store information in said second storage device only when said signal contains said certain number of variations in reflectance values exceeding a given range in a time period substantially equal to said first mentioned predetermined time period;
means connecting the outputof each of said storage devices to an AND gate whereby the simultaneous occurrence of information in said devices produces a signal in the output of said AND gate to indicate the stamped condition of said envelope.
2. A circuit arrangement according to claim l wherein said first means to store information comprises:
a first amplitude responsive gate which passes said signal voltage only whenV the amplitude thereof is lower than the voltage corresponding to said optimum reflectance value;
an integrating circuit connected between said first amplitude responsive gate and said rst `storage device;
and wherein said second means to store information comprises:
a second amplitude responsive gate which passes said signal voltage only when the amplitude thereof exceeds a predetermined value;
a second AND gate to which the output signals of said first and second amplitude responsive gates are simultaneously applied; and
means for counting the output signals from said second ,AND gate until a predetermined number of counts is obtained and the information stored stored in sai second storage device. t 3. A circuit arrangement according toclaim 2 further comprising a direct current suppressor circuit connected between said second amplitude responsive device and said signal voltage generating means.
4. A circuit arrangement according toclaim 2 further comprising a pulse shaper connected between said second AND gate and said counting means.
5. A circuit arrangement according toclaim 1 further comprising:
a third circuit connected to said generator means and containing a third storage device; and means 1n said third circuit to store information in said third storage device only when said signal contains a reilectance value greater than said optimum reiiectance value for a predetermined time period. 6. A circuit arrangement according toclaim 5 wherein said third means to store information comprises:
a third amplitude responsive gate which passes said signal voltage only when the amplitude of said voltage is greater than that corresponding to the optimum 15 2,991,369
reflectance value of said stamp; and
6 an integrating circuit connected between said third amplitude responsive gate and said third storage device.
7. A circuit arrangement according .to claim' 6 wherein said integrating circuit has a time constant which is greater than the sum of the time periods for which the reflectance value of the stamp is `greater than the optimum reflectance value.
References Cited in the file of this patent UNITED STATES PATENTS 2,928,949 Steinbuch Mar. 15, 1960 2,966,594 Hinz et al. Dec. 27, 1960 Grewe July 4, 1961

Claims (1)

1. A CIRCUIT ARRANGEMENT TO DETERMINE THE STAMPED CONDITION OF AN ENVELOPE OR DOCUMENT REGARDLESS OF THE BACKGROUND REFLECTANCE OF THE ENVELOPE AS COMPARED WITH THE REFLECTANCE OF A STAMP HAVING A CERTAIN NUMBER OF REFLECTANCE VARIATIONS BELOW AN OPTIMUM REFLECTANCE VALUE COMPRISING: MEANS TO GENERATE A SIGNAL VOLTAGE PROPORTIONAL TO THE SUCCESSIVE REFLECTANCE VALUES OF A PORTION OF SAID ENVELOPE ON WHICH A STAMP MAY BE NORMALLY PLACED; MEANS TO APPLY SAID VOLTAGE SIMULTANEOUSLY TO THE INPUTS OF A FIRST CIRCUIT HAVING A FIRST STORAGE DEVICE AND A SECOND CIRCUIT HAVING A SECOND STORAGE DEVICE INCLUDING A BISTABLE DEVICE; MEANS IN SAID FIRST CIRCUIT TO STORE INFORMATION IN SAID FIRST STORAGE DEVICE ONLY WHEN SAID SIGNAL CONTAINS REFLECTANCE VALUES LOWER THAN SAID OPTIUM REFLECTANCE VALUE FOR PREDETERMINED TIME PERIOD; A SECOND MEANS IN SAID SECOND CIRCUIT TO STORE INFORMATION IN SAID SECOND STORAGE DEVICE ONLY WHEN SAID SIGNAL CONTAINS SAID CERTAIN NUMBER OF VARIATIONS IN REFLECTANCE VALUES EXCEEDING A GIVEN RANGE IN A TIME PERIOD SUBSTANTIALLY EQUAL TO SAID FIRST MENTIONED PERDETERMINED TIME PERIOD; MEANS CONNECTING THE OUTPUT OF EACH OF SAID STORAGE DEVICES TO AN AND GATE WHEREBY THE SIMULTANEOUS OCCURRENCE OF INFORMATION IN SAID DEVICES PRODUCES A SIGNAL IN THE OUTPUT OF SAID AND GATE TO INDICATE THE STAMPED CONDITION OF SAID ENVELOPE.
US130424A1960-08-181961-08-09Detection of stamps on documentsExpired - LifetimeUS3090870A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3245532A (en)*1962-08-011966-04-12Ball Brothers Co IncMethod and apparatus for detecting surface unevenness
US3457421A (en)*1966-02-241969-07-22Transmarine CorpRadiation sensitive paper security validation apparatus
US3488511A (en)*1966-10-251970-01-06Tokyo Shibaura Electric CoAutomatic identifying apparatus of postage stamp indications
US3525869A (en)*1967-07-311970-08-25Nat Res DevAutomatic background level compensation
US4127194A (en)*1977-04-041978-11-28Bell & Howell CompanyDevice for sorting mail according to zip codes
US4201339A (en)*1970-11-231980-05-06Gunn Damon MArticle sorting apparatus and method
EP0062473A3 (en)*1981-03-301985-12-18Minnesota Mining And Manufacturing CompanyMethod and apparatus for sensing and identifying information within a large interrogation zone

Citations (3)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2928949A (en)*1956-07-131960-03-15Int Standard Electric CorpMethod of and apparatus for locating an identification mark attached to a written orprinted item
US2966594A (en)*1958-02-101960-12-27Int Standard Electric CorpArrangement for detecting characteristic markings on articles
US2991369A (en)*1956-05-241961-07-04Int Standard Electric CorpApparatus for determining the position of printed items

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US2991369A (en)*1956-05-241961-07-04Int Standard Electric CorpApparatus for determining the position of printed items
US2928949A (en)*1956-07-131960-03-15Int Standard Electric CorpMethod of and apparatus for locating an identification mark attached to a written orprinted item
US2966594A (en)*1958-02-101960-12-27Int Standard Electric CorpArrangement for detecting characteristic markings on articles

Cited By (7)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3245532A (en)*1962-08-011966-04-12Ball Brothers Co IncMethod and apparatus for detecting surface unevenness
US3457421A (en)*1966-02-241969-07-22Transmarine CorpRadiation sensitive paper security validation apparatus
US3488511A (en)*1966-10-251970-01-06Tokyo Shibaura Electric CoAutomatic identifying apparatus of postage stamp indications
US3525869A (en)*1967-07-311970-08-25Nat Res DevAutomatic background level compensation
US4201339A (en)*1970-11-231980-05-06Gunn Damon MArticle sorting apparatus and method
US4127194A (en)*1977-04-041978-11-28Bell & Howell CompanyDevice for sorting mail according to zip codes
EP0062473A3 (en)*1981-03-301985-12-18Minnesota Mining And Manufacturing CompanyMethod and apparatus for sensing and identifying information within a large interrogation zone

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