奥地利专利AT509985A4 SELF-STAINING STAMP WITH A HOUSING

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专利摘要:

公开号:AT509985A4
申请号:T0154410
申请日:2010-09-16
公开日:2012-01-15
发明作者:
申请人:Colop Stempelerzeugung Skopek；
IPC主号:

专利说明:

The invention relates to a Selbstfärbesterapei with a housing in which an arranged for receiving a color pad ink pad holder and a stamp types Stempei unit are arranged, and with a displaceably mounted on the housing operating bracket, with a turning mechanism for pivoting the punch unit between a in operation on Ink pad adjacent Einfärbesteliung and an intended for printing an impression surface impression position is coupled.
Self-inking stamp with integrated ink pad are known for example from WO 2004/082949. The Selbst.-färbesternpel shown therein has a hood-like Betätigungsbügei, which is mounted on a compact stamp housing. For stamping the actuating yoke is manually moved in the direction of the pressure surface against the force of a arranged between punch housing and operating handle spring, wherein an applied in Oberschlag-coloring on the ink pad punch unit is turned by 180 ° to the punch set attached to the stamp assembly in contact with the impression surface bring.
Such self-inking stamps have achieved a great market success, since the stamping process is considerably simplified compared to conventional hand stamping with a separate ink pad. However, in the known self-inking temples no practicable way to draw conclusions about the state or the dyeing capacity of the existing ink pad exists. It would also be desirable to be able to obtain information about the already performed actuation processes at any time.
In CN 2 900 178 Y, JP 05-016 512 A and CN 201 309 308 Y, in connection with other types of pre-inked hand stamps in which the color memory is contained in the stamp plate, it has already been proposed to provide a counter for detecting the stamp operations , Such "pre-inked" stamps require only a slight amount of pressure on a stamp handle to create an impression to displace the stamp plate over a relatively short distance. The detection of these up and down movements is unreliable, so that miscalculations can not be excluded.
Accordingly, the object of the invention is to allow for a self färbestempei of the type mentioned reliable detection of the actuation processes.
This object is achieved in the case of the self-inking paste of the type mentioned at the outset by providing signal pulses which are set up to detect a displacement of the actuating bar into an actuating position corresponding to the printing position, with an electronic rake or evaluation unit for processing or evaluation of an encoder signal supplied by the Signalgebermitte] n are connected, wherein the computing or evaluation has a counting module for counting the actuation operations. About the ongoing recording of the individual operations of Selbstfärbestempeis can be concluded on the condition or color content of the Farbkisser.s used that contains color for a certain number of stamp imprints. For the review of the ink pad, it is therefore not necessary to remove the color pad holder from the self-inking, which represents a considerable simplification in handling. The Zählm-odul logs the stamp operations in a count, which gives information about the total number of all previous operations. In use, the signaling means monitor the position of the actuating bar, which transfers the punch unit via the turning mechanism in the impression position. The signal generating means are adapted to signal a stamping operation only when the actuating bar has actually reached the actuating position corresponding to the impression position; however, an incomplete displacement of the actuating yoke is ignored in order reliably to avoid false counts. Thus, a particularly accurate detection of stamping operations is achieved, which allows specific conclusions about the condition of the ink pad.
In order to detect the actuation processes, electro-mechanical signal-generating means, in particular a push-button, are provided in a preferred embodiment. Upon reaching the end or operating position of the actuating bracket, the button closes an electrical contact, whereby an electrical signal is caused, which is transmitted to the computing or evaluation:. The count detected by the counting module is correspondingly increased by one.
A further preferred embodiment is an electro-optical Si gnelgebermi means, in particular τη the type of a light barrier before. Such photocells are known per se in many embodiments in the prior art. When moving the Actu-tion flyer attached to the operating handle light barrier is conveniently introduced into a beam path of the electro-optical signal generator means, the interruption of the beam is registered by the signal generator means. Upon reaching the print position a Gebersigna] is output, which is processed by the computing or evaluation, the count is increased in Zahlmodui accordingly. The light barrier may be designed as a one-way light barrier with transmitter or receiver arranged opposite one another; Alternatively, a reflex light barrier is provided in which the signal light is reflected by a reflector on the transmitter / receiver.
According to a further preferred embodiment, inductive or capacitive signal generator means are provided. During the actuation process, a suitable actuation or
Trigger element, which is coupled to the actuating bracket, approximated to a coil or a capacitor, whereby a change in the output voltage of the signaling means is caused; when a specified threshold value for the change of the output voltage is exceeded, a stamping process is detected.
In order to provide the ink pad holder information in a simple manner, it is advantageous if the ink pad holder has a transponder, in particular an RFID transponder, for identifying the ink pad holder by means of an external reader. The (RFID) transponder represents a simple, cost-effective possibility for identifying or localizing an ink pad holder used in the stamp housing. For reading out data contained in the transponder, in particular a code specific to the respective ink pad holder, a special reader is used , the low-power magnetic field b2w. Produces radio parts, which are received by the transponder and modulated in a suitable manner. Preferably, an autonomous or passive transponder is provided, which is supplied by the external reader;
Around. the before. It is advantageous if the transponder has a memory which in particular contains the number of actuation processes detected by the counting module. For this purpose, the transponder is connected to the computing or evaluation unit, which preferably transmits data on the number of actuation processes carried out in the examination period to the transponder. Of course, a wide variety of data can be stored in the transponder, which can be stored in the memory from the factory or in use can be transmitted continuously or periodically to the transponder by the computing or evaluation unit.
In a preferred embodiment, it is provided that the ink pad holder has marking means for detecting an unused or used state of the ink pad holder. The marking means signal via their state change in the first actuation process, that a color pad holder used in the housing has already been used, which may be of interest in the purchase of stamps.
In order to achieve a structurally simple, inexpensive to produce embodiment, it is advantageous if the marking means have a flap attached to the ink pad holder, which is separated at first displacement of the actuating bracket in the operating position. For separating the tab, a projection attached to the operating bracket is preferably provided which impinges on the tab during the actuating operation, which projection is broken off during a further displacement of the actuating bracket. The connection between the tab and the ink pad holder is expediently to be chosen such that the manual force which is typical for producing a stamping pressure is sufficient to separate the tab during the first operation. The ft ft * 1 f f 4 · · · · · · · t * 4 ft ft • ft * t i t i i I >
Absence of the tab thus signals at first glance that the Farbkissenhaiterung was already in use.
For automatic detection of the state of the ink pad holder, it is advantageous if the tab in the unused state of the color "pillow holder makes contact with a connected to the computing or evaluation unit Schalomiotei that is interrupted at ab-separated tab. A first-time use of the stamp causes a change in the state of the scarf suitably designed as a switch or switching means. The change of the switching state is detected by the computing or evaluation unit to determine the used state of the Farbkissenhaiterung. The information about the state of the ink pad holder can be stored, for example, in a memory of the computer or evaluation unit in order to be read out as required.
In order to continue to use the self-inking stamp after consumption of the ink pad, it is advantageous if the Farbkissenhaiterung is interchangeable disposed in the housing, with another connected to the computing or evaluation unit switching means is provided, which is switched when inserting or removing the Farbkissenhaiterung. The computing or evaluation unit can determine in this way whether just a Farbkissenhaiterung is present in the housing or whether the existing Farbkissenhaiterung is new. Depending on the switching state of the switching means, suitably a button or switch, the computing or evaluation unit is signaled the presence or absence of Farbkissenhaiterung.
In order to restart the counting of the actuation processes after replacing a worn ink pad, it is advantageous if the computing or evaluation unit is set up to reset the count module when inserting an unused Farbkissenhaiterung. The onset of an unused Farbkissenhaiterung is detected by an ongoing monitoring of the switching states of the switching means, which signal the presence of Farbkissenhaiterung or the state of the Farbkissenhaiterung. If the switching states of the switching means indicate that on the one hand a Farbkissenhaiterung is present and this Farbkis-
«* *« I ι «·« «« * · · II II II II II II II II II II II II II t t t t t t t t t t t t t t t t t ; - 6 - senhalterung has not yet been used, the counting module sets the count to zero.
For processing the encoder signal of the signal generator means, it is favorable if a microcontroller is provided as the computing or evaluation unit. In this way, moreover, a space-saving arrangement of the computing or evaluation unit in the self, fä rbeempei, in particular in the stamp housing, can be achieved.
In order to inform the user about the state of the ink pad holder, it is advantageous if the computing or evaluation unit is connected to a display unit for outputting a display signal dependent on the number of actuation processes. On the one hand, the indication signal can contain an exact indication of the number of actuation processes that have taken place at the respective time; however, in many cases it is sufficient to display jgnai at a particular interval of detected actuation events (eg, less than 4000 cycles, between 4000 and 5000 cycles, more than 5000 cycles). In this case, therefore, only a small number of distinguishable display signals is required, which is a structurally simple embodiment of the display unit, e.g. with only three different display means enabled.
For this purpose, it is particularly advantageous if the display unit has at least one light-emitting diode arranged on a visible side of the actuating yoke or of the housing. Preferably, a plurality, in particular three, light-emitting diodes are provided which emit a distinguishable light signal in each case for a specific interval of actuation processes, as mentioned above.
For reading out data stored in the computing or evaluation unit, it is advantageous if the computing or evaluation unit is connected to an interface, in particular a USB interface, for data transmission to an external device. The (USB) interface is expediently provided at a readily accessible from the outside of the stamp housing; For data transmission, as is well known in the art, a suitable transmission cable connected to an external device, in particular a human resources
Computer, being connected.
The invention will be hereinafter elucidated with reference to the drawing in the accompanying Äusführungsbeispi, but to which they are not limited. In detail, in the drawing:
Figure 1 is a view of a self-inking stamp known per se with a Haubenförrr.ig placed on a stamp housing actuator handle, which is displaceable in a Abdrucksteliung corresponding actuating position.
FIG. 2 shows a vertical section through the self-inking stamp illustrated in FIG. 1 along the line II-II in FIG. 1; FIG.
Fig. 3 is a partially cutaway view of a self-staining polyester according to a first embodiment of the invention, with electro-mechanical transducer means for detecting an actuation operation;
Fig. 4 is a partially cutaway view of a self-inking stamp according to another embodiment of the invention, with electro-optical signaling means;
Fig. 5 is a partially sectional view of a self-inking stamp according to yet another embodiment of the invention, with inductive signal generating means;
Fig. 6 is a block diagram of the electric circuit of a self-inking die according to Figs. 3 to 5;
Figure 7 is a schematic, partially broken away view of a self-inking stamp having, according to a preferred embodiment, a frangible tab for identifying an unused color pad holder;
Fig. 8 shows the detail illustrated in Fig. 7 with a circle VIII in contrast to an enlarged scale;
9 is a view of a self-inking stamp with a USB-8
Interface for data transmission to an external device;
Fig. 10 is a view of a Selbstfärbestempeis arranged on the stamp housing LEDs for illustrating the number of performed actuation operations; and
11 is a perspective view of a Farbkissenbalterung with an RFID transponder for identifying the ink pad holder by means of a reader provided on the stamp. In Figs. 1 and 2, a conventional self-inking stamp 1 is generally shown, which has a frame-like formed stamp housing 2 (hereinafter housing 2 briefly). The housing 2 has an insertion compartment 3 for a color pad holder 4 arranged interchangeably therein, in which a color pad 5 (see Fig. 2) is received. In the interior of the housing 2, a stamp unit 6 is furthermore arranged, which has a stamp plate 7 attached to a stamp plate carrier 7 'with punch types. The stamp unit 6 is shown in Fig. 2 in a voltage applied to the ink pad 5 Einärbestellung.
To actuate the Selbstfärbestempeis 1 an operating bracket 8 is provided, which is hood-like mounted on the housing 2. The operating bracket 8 has legs 9, 10, which are inserted into matching guides on the narrow side walls of the housing 2 and guided therein displaceably. Between the actuating bracket 8 and the housing 2 acts a spring 11 which holds the operating bracket 8 in its upper position shown and thus the punch unit 6 in the Einfärbestellung. The displacement of the actuating bar 8 in its lower end or operating position is transmitted in a known manner via a turning mechanism 12, which causes a pivoting of the stamp unit 6 from the Einfärbestellung shown in an intended for printing an impression surface impression position and at the same time a downward movement. In the impression position, the sterile stacking plate 7 projects with the stamp types through a lower opening 13 of the housing 2, so that an impression can be produced on an impression surface. The turning mechanism 12 has a well-known in the art curve control or slot guide to turn the punch unit 6 upon actuation of the actuating bracket 8 by 180 ° in the impression position.
An embodiment of a self-inking stamp 1 according to the invention is shown schematically in each case in FIGS. 3 to 5, which enables a reliable detection of the actuation processes carried out from the point of view of operation, in order to provide information about the condition of the color silk 5 contained in the ink pad holder 4. For this purpose, the self-inking stamp 1 on signal generator means 14 which detect a shift of the operating bracket 8 in di.e to the impression position of the ink pad holder 4 corresponding operating position. An actuation operation is detected only when the actuator 8 is moved from its upper rest position over a set distance; to avoid miscalculations, the actuation process is registered only upon reaching the actuation position. The signaling means 14 are coupled to an electronic computing or evaluation unit IS, which is shown schematically in the diagram of FIG. 6. The electronic computing or evaluation unit 15 processes the encoder signals supplied by the signal generator means 14, which contain information about the position of the actuating bracket 8. For the sake of simplicity, in FIG. 6 three different signal-generating means 14, corresponding to FIGS. 3, 4, and 5, are shown, but of course only one type of signal-generating means 14 is provided for a given self-inking stamp 1.
From a displacement of the actuating bracket 8 in the operating position can be closed to a stamping process, which is recorded to monitor the state of the ink pad holder 4 and the ink pad 5 received therein. The computing or evaluation unit 15 has for this purpose a (in the circuit diagram of FIG. 6 schematically illustrated) counting module 16 for counting the operations carried out on; the counting module 16 is connected to a memory 17 (shown schematically in FIG. 6) of the computing or evaluation unit 15, in which the count continuously adapted during use is stored. 10
The embodiment of the self-inking stamp 1 shown in FIG. 3 provides electromechanical signal-generating means 14, which have a button 18 arranged on the actuating clip 8, which can be closed by means of a contact element 19 attached to the housing 2. Upon a displacement of the actuating bar 8 in its end or qiqsposition actuator reaches the button 18 relative to the contact in a contact or closed position; By closing the electrical contact, an electrical signal is generated, which is detected by the computing or evaluation unit 15 and registered as a stamping process (see also Fig. 6). The counting module 16 subsequently increases the count stored in the memory 17 by the value "1",
Fig. 4 shows an alternative embodiment with electro-optical signaling means 14 in the manner of a conventional photocell in the art. The light barrier has a send or. Receiving unit 20 for transmitting or receiving schematically in the drawing dargesteilten light rays. At the operating bracket 8, a light barrier 21 is mounted, which upon actuation of the actuating bracket 8 in the beam path of the transmitting or. Receiving unit 20 is pushed. An interruption of the light beam causes a change in the output signal of the transmit or. Receiving unit 20, which is supplied as encoder signal to the computing or evaluation unit 15. Upon reaching the print position thus the computing or evaluation unit 14 is signaled a stamping operation. As can be seen from FIG. 6, a signal-shaping unit 22 is connected between the transmitting or receiving unit 20 and the computing or evaluation unit 14 in order to supply a suitable pulse signal to the computing or evaluation unit 15.
FIG. 5 shows a further embodiment of the signaling means 14, which provides an inductive detection of the actuating operations. For this purpose, a suitable magnetic element 23 is mounted on the actuating bar 8, which upon actuation of the actuating bar 8 in a magnetic sensor 24, e.g. a coil 24 'or a reed sensor, possibly Hall sensor, the signal generator means 14 is introduced. The inductive coupling between the trigger element 23 and the coil 24 'causes a change in an output voltage of the signal generator means 14, which in turn is conditioned in a signal detection unit 22 and used to detect the BetaLigungsvorgangs. When the change of the output voltage exceeds a threshold value corresponding to the reaching of the print position, the arithmetic unit 15 registers a stamping operation. Miscalculations are reliably avoided by performing incomplete actuation, i. a section-wise displacement of the Betätigungsbüge! s 8, is not considered a stamping process.
In another embodiment (not shown in the drawing), capacitive sensors 15 are provided, which are composed of a condenser suitably arranged in the housing 2 and a displaceable dielectric element coupled to the actuating arm 8. The capacitance of the capacitor is monitored by means of an electrical circuit. Upon actuation of the actuator yoke 3, the dielectric member is slid between the capacitor plates, causing a change in the capacitor charge used to detect a stamping operation.
As can be seen from FIG. 6, a magnetic sensor 24, in particular a reed relay or a Hall sensor, can also be provided to form the signal-generating means 14, which can be actuated by means of a magnet 23. The magnetic sensor 24 and the magnet 23 are attached to the housing 2 and the mounting bracket 8, respectively. Upon a displacement of the actuating bracket 8 in its operating position of the magnet 23 is approximated to the magnetic sensor 24, as illustrated in Figure 6 with an arrow. in the case of a reed relay, when approaching the magnetic sensor 24, a normally open contact is closed, thereby causing an encoder signal which is used to identify the actuation process. When Hall sensor caused by the magnet 23 Hall voltage is used as a sensor signal for detecting the actuation process.
From Fig. 6 is also very generally the interconnection of the electronic components of the self-inking 1 shows. The electro-optical, magnetic or electro-mechanical signaling means 14 are shown in Fig. 6 below; Of course, as already mentioned, only one of the above-explained alternatives is sufficient for detecting the stamping processes in the counting module 16 12 of the calculating or evaluating unit 15. In order to transmit the encoder signals, one (not illustrated in detail in FIG. 6), provided for connection to the computing or evaluation unit 15, is provided with a respective signal line 25.
The computing or evaluation unit 15 is preferably formed with a microcontroller 25, which is connected to a power supply 26. The power supply 26 conveniently has an accumulator 26 ', more particularly one under the brand name " Goldcap " known double-layer capacitor battery, on.
As can further be seen from FIG. 6, the computing or evaluation unit 15 is connected to a display unit 27 in order to display information about the self-inking stamp 1 to the user. The display unit 27 has an LCD unit with three each in a different color (red, yellow, green) light emitting diodes 28, which are arranged according to the embodiment shown in Fig. 10 in the middle of a broadside wall of the housing 2. The light-emitting diodes 28 each signal a specific interval of the detected actuation processes. For example, can be displayed with a green light emitting diode 28 that since commissioning of the ink pad holder 4 less than 4000 stamping operations have been performed. In this case, it can be assumed that sufficient ink is still contained in the ink pad 5. In the interval between 4000 and 5000 actuations, a yellow LED 28 may light up to indicate a depleting level of the ink pad 5. Finally, a red light emitting diode 28 which lights up for 5000 activations signals that the ink pad 5 has been used up and should be replaced.
The display unit 27 further has a display panel 29, which is arranged on a visible side of the housing 2 or of the actuating bracket 8, and which displays the exact number of stamping operations carried out so far. The display panel 29 is preferably formed as an LCD panel, which is connected to a contrast voltage source 30.
As can be further seen from Fig. 6 in conjunction with Fig. 9, • • '* * * * ♦' '• • m * ► * * + ♦ * * * · • «· · *« · «· * · · A conventional interface 30 is provided in order to be able to transmit the data stored in the memory 17 of the computer or evaluation unit 15 to an external device. In the illustrated embodiment, a common serial USB bus (USB) interface is provided which requires no further explanation. As can be seen in Fig. 9, the US3 interface is located on the housing 2 of the self-powered connector. dyeing stamp 1. A suitable USB cable is connected for data transmission.
As can be seen from FIG. 6 in conjunction with FIG. 11, the computing or evaluation unit 15 is connected to a transponder circuit 31 in order to operate with an RFID ("radio-frequency identification") attached to the ink pad holder 4. Transpon-the 31 'to communicate. The transponder 31 'is used to identify the Farbkissenhaiterung 4 by means of an external reader. The structure of such an RFID transponder 31 'is well known in the prior art, so that more detailed explanations at this point may be unnecessary. For reading out (code) data contained in the RFID transponder 31 ', the reader, i. the circuit 31, an electromagnetic alternating field to which the RFID transponder 31 '(also referred to as RFID tag) is exposed. The recorded via an antenna 32 of the reader field energy is used in passive versions of the transponder 31 'as a power supply during a Kommuni-kationsvorganges. The activated transponder 31 'decodes the commands sent by the reader 31; For transmitting information to the reader 31, the transponder 31 'influences or modulates the irradiated electromagnetic field. The transponder 31 'is attached to the ink pad holder 4 to locate the ink pad holder 4 when installed based on an individual serial number of the ink pad holder 4. The serial number of the respective ink pad holder 4 can be read out with the reader 31 if necessary. The RFID transponder 31 'further has a memory 33 (illustrated schematically in FIG. 11) which, in the installed state of the ink pad holder 4, is connected to the arithmetic or evaluation unit 15 in order to obtain the count detected by the counting module 16. The data transmitted by the computing or evaluation unit 15 to the memory 33 of the RFID transponder 31 '*. * * be read out. Alternatively or additionally, as mentioned, a data transmission via the USB interface 30 take place.
The transponder circuit 31 has, as further apparent from Fig. 6, a high-frequency part 34, especially a high-frequency choke, and acting as a transmitting part output stage 3b. The computing or evaluation unit 15 transmits a carrier rectangular signal, for example with 125 kHz, to the high-frequency Te.iJ 34, which in turn supplies a sinusoidal carrier signal to the output stage 35. The transponder circuit 31 further comprises a rectifier filter circuit 36, which before. the antenna 32 receives a modulated signal. The rectifier filter circuit 36 supplies a filtered signal without the carrier frequency to a logic circuit 37 configured to process the obtained data, which transmits the processed data to the computing or evaluation unit 15.
As can be seen from FIG. 6 in conjunction with FIGS. 7 and 8, marking means 38 are provided which are adapted to detect a first actuation of the actuating bar 8 in order to detect an unused or new condition of the ink pad holder 4 from a used or new condition to distinguish used condition. The marking means 38 have a switching means 39, which is switched on the first use of the ink pad holder 4 by operating the operating bracket 8.
According to the exemplary embodiment illustrated in FIG. 7 or FIG. 8, a tab 40 fastened to the ink pad holder 4, for example adhesively bonded or integrally formed with the ink pad holder 4, is provided which is broken off when the actuating clip 8 is first displaced into the actuation position. To separate the tab 40 projecting from the operating bracket 8 projection 41 is provided, which impinges on the tab 40 during the first actuation operation and this separates in a further displacement in the direction of the actuation position. In order to facilitate the separation of the tab 40, the contact surfaces between the tab 40 and the projection 41 are tapered wedge-shaped. In the unused state of the ink pad holder 4, an electrical contact of the switching means 39, which is designed as a button, is closed via the tab 40, which is interrupted when the tab 40 breaks (see FIG. This change in the switching state of the switching means 39 is detected by the computing or evaluation unit 15, the len first use of the ink pad holder 4 zustei. The information on the state of the ink pad holder 4 can be stored in the memory 17 of the arithmetic or Auswcrleeinheit 15 or in the memory 33 of the RFID transponder 31 'to be read out as needed.
To check the presence of a color pad holder 4 in the slot 3, is. the computing or evaluation unit 15 is connected to a further switching means 42 in the manner of a pushbutton, which is switched to the respectively other switching state during insertion or removal of the ink pad holder. When inserting the ink pad holder 4 in the insertion compartment 3, an electrical contact is suitably closed via the further switching means 42, which is detected by the computing or evaluation unit 15. When removing the ink pad holder 4, the switching means 42 returns to its idle state, wherein the electrical contact is interrupted.
The computing or evaluation unit 15 is adapted to monitor the switching state of the switching means 39, 42, on the one hand to determine the presence of the ink pad holder 4 in the insertion compartment 3 and also the state of the ink pad holder 4 used. The monitored switching states of the switching means 39, 42 can be used to initialize or reset the counter created with the count module 16, when the onset of a new ink pad holder 4 is detected with an unconsumed ink pad 5. After resetting the count, the detection of stamping starts at zero.

权利要求:
Claims (15)
[1]
1. A self-inking stamp (1) having a housing (2) in which an ink pad holder (4) adapted to receive a parcel cushion (5) and a stamping member; aufweiser.de stamping unit (5) are ancje-ordnet, and with a on the housing (2) displaceable! I mounted operating handle (8), with a turning mechanism (12) for pivoting the punch unit (6) between one in operation on the ink pad ( 5) adjacent Einfärbestellung and an imprint area for printing an impression surface is coupled, characterized in that signal generating means (14) which are adapted to detect a shift of Betätigungsbugeis (8) in one of the impression position corresponding actuating position, with an electronic computing or Evaluation unit (15) for processing or evaluation of one of the signal generating means (14) supplied encoder signal are connected, wherein the computing or evaluation unit (15) has a counting module (16) for paying the actuation operations.
[2]
2. self-inking stamp according to claim 1, characterized in that electro-mechanical signal generating means (14), in particular a button, are provided.
[3]
3. self-ink stamp according to claim 1, characterized in that electro-optical signal generating means (14), in particular in the manner of a light barrier, are provided.
[4]
4. self-inking stamp according to claim 1, characterized in that inductive or capacitive signal generating means (14) are provided.
[5]
5. ink stamp according to one of claims 1 to 4, characterized in that the ink pad holder (4) has a transponder (31 '), in particular an RFID transponder, for identifying the ink pad holder (4) by means of a reader (31).
[6]
6. self-ink stamp according to claim 5, characterized in that the transponder (31) has a memory (33) which contains in particular the counting module (16) detected by the number 17 of the actuation operations.
[7]
7. self-inking stamp according to one of claims 1 to 7, characterized in that dae color key holder (4) marking means (38) for detecting an unused oaer used state of the ink pad holder (4).
[8]
8. self-inking stamp according to claim 7, characterized in that the marking means (38) on the ink pad holder (4) attached tab (40) which is separated at the first shift of the actuating bracket (8) in the operating position.
[9]
9. self-inking stamp according to claim 8, characterized in that the tab (40) in the unused state of the ink pad holder (4) makes contact with a computing or evaluation unit (15) connected to the switching means (39), with a separated tab ( 40) is interrupted.
[10]
10. self-inking stamp according to one of claims 1 to 9, characterized in that the ink pad holder (4) is arranged interchangeably in the housing (2), wherein another with the computational or. Evaluation unit (15) connected switching means (42) is provided which is switched upon insertion or removal of the ink pad holder (4).
[11]
11. Selbstfärbestempel according to claim 10, characterized in that the computing or evaluation unit (15) is adapted to reset the counting module (16) when inserting an unused ink pad holder (4).
[12]
12. self-inking stamp according to one of claims 1 to 11, characterized in that as a computing or evaluation unit (15), a microcontroller (25) is provided.
[13]
13. self-inking stamp according to one of claims 1 to 12, characterized in that the computing or evaluation unit (15) is connected to a display unit (27) for outputting a dependent of the number of actuation signals display signal. 18
[14]
14. self-inking stamp according to claim 13, characterized in that the display unit (27) has at least one on a visible side of the actuating bracket (8) and the housing (2) arranged light emitting diode (28).
[15]
15. self-inking stamp according to one of claims 1 to 14, characterized in that the computing or evaluation unit (15) with an interface (30), in particular a USB interface steep, is connected to the data transmission to an external device.

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同族专利:

公开号 | 公开日

CN102555557B|2016-01-13|

AT509985B1|2012-01-15|

ITTO20110831A1|2012-03-17|

US20120067233A1|2012-03-22|

DE102011052993A1|2012-08-09|

CN102555557A|2012-07-11|

US8695500B2|2014-04-15|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

CH86031A|1919-11-15|1920-07-16|Kuhn Hermann|Stamp with counter.|

US4532642A|1982-09-30|1985-07-30|Spectrum Manufacturing Inc.|Counting stamper apparatus|

US5271322A|1992-10-13|1993-12-21|John Palma|Disposable postage stamp marker|

CN2185677Y|1994-04-05|1994-12-21|张小明|Counting seal|

CN2257244Y|1996-08-27|1997-07-02|上海吉普生办公用品有限公司|Automatic ink-supply seal|

DE29703669U1|1997-02-28|1997-04-30|Reinhard Richard|Hand stamp device with electronic counter for counting the number of stamps|

TW576807B|2002-07-05|2004-02-21|Taipao Chin|The seals' registration and management system|

AT6731U1|2003-03-18|2004-03-25|Colop Stempelerzeugung Skopek|SELF-STAINING STAMP WITH HIGH-PURPLE COLORING AND COLOR CUSHION CONTAINER HIEFÜR|

CN2616380Y|2003-05-28|2004-05-19|邝仲平|Stamp for preventing illegal use|

JP3823109B2|2004-01-07|2006-09-20|新吾植木|Stamping equipment|

CN2730628Y|2004-03-17|2005-10-05|高虎|Counter stamp|

CN2900178Y|2005-10-28|2007-05-16|王建伟|Memory stamp|

US7954429B1|2007-05-23|2011-06-07|Hatim Abukhdair|Combined ink stamp and digital counter device and associated method|

CN201214319Y|2008-05-26|2009-04-01|陈桂林|Count seal imprint stamp|

CN201309308Y|2008-11-19|2009-09-16|李健雄|Counting stamp|USD665444S1|2010-03-19|2012-08-14|Trodat Gmbh|Hand stamp|

CN103522777A|2012-07-03|2014-01-22|上海豪普森生物识别应用科技有限公司|Fingerprint seal turning mechanism|

US10300725B2|2016-07-05|2019-05-28|Charles Bishop|Tally stamp devices, systems, and methods|

US10286701B2|2017-05-04|2019-05-14|Silicon Valley Micro E Corp.|Hand stamp with use count and smart phone authorization|

CN111483243B|2020-05-25|2021-12-31|李其伦|Safety seal based on intelligent network|

CN111845135A|2020-06-18|2020-10-30|江苏群杰物联科技有限公司|Internet of things seal management equipment capable of automatically returning ink and preventing seal stealing|

法律状态:
2021-05-15| MM01| Lapse because of not paying annual fees|Effective date: 20200916 |

优先权:

申请号 | 申请日 | 专利标题

AT0154410A|AT509985B1|2010-09-16|2010-09-16|SELF-STAINING STAMP WITH A HOUSING|AT0154410A| AT509985B1|2010-09-16|2010-09-16|SELF-STAINING STAMP WITH A HOUSING|

DE102011052993A| DE102011052993A1|2010-09-16|2011-08-25|Self-inking stamp with a housing|

US13/199,718| US8695500B2|2010-09-16|2011-09-07|Self-inking hand stamp comprising a housing|

IT000831A| ITTO20110831A1|2010-09-16|2011-09-15|MANUAL STICKING STAMP INCLUDING A CASE|

CN201110319146.9A| CN102555557B|2010-09-16|2011-09-16|Tool is chlamydate carries ink seal|

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