CN104376853A - Information maintaining medium and information reading device - Google Patents

Abstract

The invention provides an information maintaining medium and an information reading device. The information maintaining medium is capable of relatively reducing misidentification of maintained information. An information processing system (1) comprises the information maintaining medium (2) and an information reading device (3). The information maintaining medium (2) is provided with two-dimensional arrangement of unit data parts (11). Tabs (13) used for forming digital codes are formed in the arrangement of the unit data parts (11). Patterns of tabs in the X directional sequences of adjacent two unit data part lines in the Y direction are different from each other. The information reading device (3) detects tabs (13) according to each of the unit data part lines, generates data streams and reads the digital codes based on groups of data streams generated according the each of the unit data part lines. A second detection part (22) is arranged on the information reading device (3). The data streams are generated when control signals are input into the second detection part (22). The second detection part (22) acts via the information maintaining medium (2) and outputs control signals controlling reading action of the digital codes.

Description

Information keeps medium and information read device

Technical field

The present invention relates to a kind of information and keep medium and information read device.

Background technology

In the past, there will be a known following information and keep medium, namely, available multiple numerical code is in gaming kept as the jog corresponding with it, when being mounted to the installation portion of game device, whether pressed by jog based on the switch being arranged on installation portion and read concavo-convex combination, thus making game device read the numerical code (such as patent documentation 1) corresponding with it.

Information described in patent documentation 1 keeps the jog of medium to be data section signal and synchronizing signal part arranged in parallel are formed, and this data section signal and synchronizing signal part are made up of the combination of recess and protuberance respectively, when keeping medium to be inserted in game device information, each protuberance of jog presses switch.

[background technology document]

[patent documentation]

[patent documentation 1] Japanese Patent Laid-Open 2010-221004 publication

Summary of the invention

[inventing problem to be solved]

Information described in patent documentation 1 keep the synchronizing signal part of the jog of medium only indicate specific go out the protuberance of data section signal whether pressed the sequential of switch, itself does not represent any information.Therefore, if synchronizing signal part can be removed, and replace it and then the second data section signal is set, then can increase the expressible quantity of information of jog.But, in protuberance continuous print situation, because last protuberance carries out with marginal the distinguishing by means of only switch becomes to be off of a rear protuberance, if therefore make jog accelerate relative to the speed of switch movement, then there are the misgivings last protuberance and a rear protuberance being mistakenly identified as a protuberance.

One object of the present invention is to provide a kind of information to keep medium and information read device, and this information keeps medium relatively can reduce situation about by mistake identifying kept information.

[technological means of dealing with problems]

Information of the present invention keeps the feature of medium to be, it is the numerical code person keeping reading by information read device, and comprise: multiple mark, in order to form described numerical code, and is arranged on first direction and in the arrangement in the unit data portion of second direction that intersects with this first direction; And drive division, for keeping medium to make this information read device carry out reading the action of described numerical code to the installation of described information read device with this information; And this information keeps medium to be mounted to described information read device with the relative movement to described second direction, and in arrangement in the described second direction of the unit data portion row extended along described first direction, the indicia patterns of the described first direction sequence of adjacent two unit data portions row is mutually different.

In addition, keep in medium in information of the present invention, length in the described second direction of the described mark that the unit data portion at the end be arranged in the arrangement of described second direction also can be made to arrange is larger than the length be arranged in the described second direction of the described mark that other unit data portion arranges.

In addition, keep in medium in information of the present invention, also can be arranged with three the above unit data portions in said first direction, and the indicia patterns of the described first direction sequence of two adjacent in this second direction unit data portion row is at least mutually different at two positions.

In addition, keep in medium in information of the present invention, also described mark can be configured to be formed in medium front protuberance and.

In addition, keep in medium in information of the present invention, also can and then comprise along the extended and guidance part that is that engage with the guidance part of described information read device side of described second direction, and described guidance part is also used as described drive division.

In addition, the feature of information read device of the present invention is, it reads the numerical code person be held in described information maintenance medium, and comprise: installation portion, keeps medium to install this information to the relative movement of described second direction keep medium with described information; First test section, detects the described mark that the described information being installed on described installation portion keeps medium, and exports the detection signal corresponding with testing result for each described unit data portion row; Handling part, produces serial data based on the described detection signal exported from described first test section, and the group of this serial data produced based on each for described unit data portion row reads described numerical code; And second test section, keep the described drive division of medium and action by the described information being installed on described installation portion, and export the control signal of the read action controlling described handling part; And described handling part is when having described detection signal from described first test section input, only when having described control signal from described second test section input, produce described serial data based on this detection signal.

In addition, information read device of the present invention also can be formed as follows: during before the described mark that the constituent parts data portion being detected described information by described first test section and keep the unit data portion to end that arrange from leading unit data portion in the arrangement of the described second direction of medium to arrange is arranged, described second test section exports described control signal continuously.

In addition, information read device of the present invention also can be formed as follows: described handling part based on the described detection signal inputted in the decline of described control signal and the sequential of rising, and detects described information and keeps medium relative to the installation of described installation portion and removal.

In addition, information read device of the present invention also can be formed as follows: when making described information keep medium to described second direction relative movement, described second test section started to export described control signal before being detected described information to keep the described mark of the described leading unit data portion row of medium by described first test section, and stopped exporting described control signal during being detected described information to keep the described mark of the unit data portion row at the described end of medium by described first test section.

In addition, in information read device of the present invention, also can be described second test section and comprise: slide block, keep medium to be pushed to described second direction by described drive division to the installation of described installation portion with described information; And switch, export described control signal; And described slide block is provided with sliding part, this sliding part slides and makes this switch export described control signal on described switch, and described sliding part is extended along described second direction, and the length in the described second direction of this sliding part, larger than the distance of end side to the unit data portion row at described end side from described leading unit data portion row.

In addition, in information read device of the present invention, also can be described information and keep being labeled as the protuberance being formed in medium front described in medium, and described first test section of described information read device is comprised the switch pressed by described protuberance and forms.

In addition, in information read device of the present invention, also can and then comprise: operating member; And storage part, store in order to make the action data of described operating member action be associated with described numerical code; And described handling part reads the action data corresponding with read described numerical code from described storage part, and based on this reading action data and make described operating member action.

In addition, in information read device of the present invention, described operating member is exportable at least any one the performance comprised in sound or luminescence also.

[effect of invention]

According to the present invention, the situation that kept information is identified by mistake relatively can be reduced.

Accompanying drawing explanation

Fig. 1 is the figure of the formation of an example of the information handling system representing to illustrate embodiments of the present invention.

Fig. 2 (A), (B) represent that the information of Fig. 1 keeps the figure of the formation of medium.

Fig. 3 represents the information being formed in Fig. 2 to keep the indicia patterns in the arrangement in the unit data portion of medium to replace with the figure of the numerical code of the two-value data of " 1 " or " 0 ".

Fig. 4 is the figure of the mac function of the information read device representing Fig. 1.

Fig. 5 is the figure of the first test section of the information read device representing Fig. 4 and the formation of the second test section.

Fig. 6 is the figure of the detection signal of the first test section output of the information read device represented from Fig. 1 and the example from the control signal of the second test section output.

Fig. 7 (A)-(F) is the figure of an example of the storer stores processor schematically showing the serial data produced based on the detection signal shown in Fig. 6.

Fig. 8 is the figure of the flow process representing the process performed by the information read device of Fig. 1.

Fig. 9 is the figure of the flow process representing the process performed by the information read device of Fig. 1.

Figure 10 is the figure of the example representing the form be associated by the various voice datas that numerical code and the information read device by Fig. 1 export.

Figure 11 is the figure of the detection signal of the first test section output of the information read device represented from Fig. 1 and another example from the control signal of the second test section output.

Embodiment

Fig. 1 represents the formation of an example of the information handling system that embodiments of the present invention are described.

Information handling system 1 comprises: information keeps medium 2, keeps numerical code; And information read device 3, the numerical code that reading information keeps medium 2 to keep.

The installation portion 4 of mount message maintenance medium 2 is provided with at information read device 3.Information read device 3 reads the numerical code that the information being installed on installation portion 4 keeps medium 2 to keep.

In the example in the figures, information keeps medium 2 to be formed as imitating the shape of train, and is inserted into installation portion 4 with the relative movement to the direction (Y-direction) corresponding with the direct of travel of train, thus is mounted to installation portion 4.In addition, information keeps medium 2 to be pulled out from installation portion 4 with the relative movement to the direction contrary with Y-direction, thus from installation portion 4 removal.

Installation portion 4 is provided with a pair guidance part 5a, 5b, slide block 6, engagement pin 7 and action button 8.

Guidance part 5a, 5b are the relative movements of the Y-direction keeping medium 2 in order to guidance information, extended in parallel to each other along Y-direction, and are formed as cross section roughly L-shaped.

Slide block 6 is arranged on the sidepiece of one of them guidance part 5a, and is supported movably in the Y direction.Slide block 6 accompanying information keeps medium 2 to the insertion of installation portion 4, keeps medium 2 to engage and pushed by Y-direction with information.In addition, slide block 6 is pushed to the direction contrary with Y-direction by not shown biasing member, thus information is kept medium 2 to pulling out direction pressing when information keeps medium 2 to be pulled out from installation portion 4.

Engagement pin 7 keeps medium 2 to be retained in installation portion 4 in order to make information, is set to give prominence to and to submerge, and is pushed to projected direction by not shown biasing member.Engagement pin 7 accompanying information keeps medium 2 to terminate and outstanding to the insertion of installation portion 4, thus keeps medium 2 to engage with information.Thus, information keeps medium 2 resist the pressing of slide block 6 and be retained in installation portion 4.

Action button 8 is submerged in order to make engagement pin 7, and when engagement pin 7 is with when submerging to the operation of action button 8, engagement pin 7 and information keep the engaging of medium 2 to be removed.Thus, information keeps medium 2 pressed by slide block 6 and be pushed out from installation portion 4.

Fig. 2 represents that information keeps the formation of medium 2.

Information keeps medium 2 to comprise: dielectric matrix 10, is formed as the shape of imitating train; The arrangement in unit data portion 11, is arranged on the back side 10a of dielectric matrix 10; And a pair guidance part 12a, 12b, be similarly formed in back side 10a.

Guidance part 12a, 12b are extended in parallel to each other along Y-direction, and are formed as cross section roughly L-shaped.Be sticked in guidance part 5a, 5b of installation portion 4 respectively by guidance part 12a, 12b, information keeps medium 2 to be guided by Y-direction in the insertion to installation portion 4.In addition, accompanying information keeps medium 2 to the insertion of installation portion 4, and one of them guidance part 12a is connected to slide block 6 in its front end, thus is pushed to Y-direction by slide block 6.

The arrangement in unit data portion 11 keeps numerical code, is arranged between guidance part 12a, 12b, and above arranges in two-dimentional shape in X-direction (first direction) and Y-direction (second direction).In the example in the figures, unit data portion 11 is provided with three in the X direction, and is provided with three in the Y direction, but the magnitude setting in unit data portion 11 in all directions of X-direction and Y-direction there is no particular restriction.

In the arrangement in unit data portion 11, be formed with the multiple marks 13 forming numerical code.In the example in the figures, mark 13 is configured to have the protuberance of specific height, and respectively unit data portion 11 is given to the two-value data of " 1 " or " 0 " according to the presence or absence of mark 13, thus, forms numerical code.

Fig. 3 represents that the indicia patterns in the arrangement in the unit data portion 11 by being formed in Fig. 2 replaces with the numerical code of the two-value data of " 1 " or " 0 ".

Comprise each of unit data portion row 14a, 14b, the 14c in three the unit data portions 11 arranged in the X direction, comprise at least one mark 13 and form.

And in the arrangement of the Y-direction of unit data portion row 14a, 14b, 14c, the indicia patterns of the X-direction sequence of two adjacent unit data portion row is mutually different.Such as when the indicia patterns of the X-direction sequence of unit data portion row 14a is " have, without, nothing ", and the serial data of correspondence is when being " 1,0,0 ", the indicia patterns of the X-direction sequence of unit data portion row 14b for " without, without, have ", and the serial data of correspondence be " 0,0,1 " and difference mutually.In addition, in the present embodiment, in a numerical code, identical serial data is not comprised.That is, in a numerical code, arrange adjacent unit data portion with the unit data portion of serial data of " 1,0,0 " that represents to arrange the unit data portion that can not become the serial data representing " 1,0,0 " and arrange, and the serial data of " 1,0,0 " there will not be twice, therefore the control part 26 of information read device 3 can judge read error when reading out such serial data.That is, easily read error can be judged.

Information keeps medium 2 using the unit data portion row 14a of the end side of the arrangement of Y-direction as leading and be inserted into installation portion 4, thus is mounted to installation portion 4.Below, unit data portion row 14a is called that leading unit data portion arranges, the unit data portion row 14c of another side is called that unit data portion, end arranges.

Fig. 4 represents the mac function of information read device 3, and Fig. 5 represents the first test section of information read device 3 and the formation of the second test section.

Information read device 3 comprises: the first test section 20, detects the mark 13 in the arrangement in the unit data portion 11 being formed in information maintenance medium 2, and exports the detection signal corresponding with testing result; Handling part 21, obtains the detection signal from the first test section 20 output and reads the numerical code of information maintenance medium 2 and perform various process; Second test section 22, exports the control signal of the action of the reading numerical code in control treatment portion 21; And power supply unit 23, to each portion's supply electric power of information read device 3.And handling part 21 comprises operating member 24, storage part 25 and control part 26 and forms.

Operating member 24 is configured to exportable at least any one the performance comprised in such as sound or luminescence, in the example in the figures, comprises loudspeaker 27 and is configured to the exportable data comprising sound.

Storage part 25 comprises such as ROM (Read Only Memory, ROM (read-only memory)) or RAM (Random AccessMemory, random access memory) etc. storage medium, and store the program that performed by control part 26 or form etc. that the information that is imparted to keeps the various numerical code of medium 2 to be associated with the various voice datas making operating member 24 export.

Control part 26 comprises the treating apparatus such as such as microprocessor, according to being stored in the program of storage part 25 and action, and the action in each portion of Comprehensive Control information read device 3.

First test section 20 comprise keep the mark 13 in the arrangement in the unit data portion 11 of medium 2 to press by being arranged on information interrupteur SW 1, SW2, SW3 and form.Interrupteur SW 1, SW2, SW3 are provided with and keep with information the quantity that the magnitude setting in the unit data portion 11 of the X-direction of medium 2 is identical, and arrange in X direction on the front of circuit substrate 28, these movable parts expose on installation portion 4 (with reference to Fig. 1) between guidance part 12a, 12b.

The each of interrupteur SW 1, SW2, SW3 is become connection (ON) state and exports the detection signal of high level (High level) during being pressed by mark 13, pressing of carrying out utilizing mark 13 is automatically risen after being removed, and becomes the detection signal being off (OFF) state and output low level (Low level) during rising.

Accompanying information keeps medium 2 to the insertion of installation portion 4 or pulling out from installation portion 4, and unit data portion row 14a, 14b, 14c are sequentially by interrupteur SW 1, SW2, SW3.When a unit data portion arranges upper by interrupteur SW 1, SW2, SW3, the switch corresponding with the indicia patterns that the unit data portion passed through arranges becomes on-state, exports the detection signal corresponding with the testing result marking 13 from interrupteur SW 1, SW2, SW3.

Control part 26 produces serial data for each unit data portion row based on the detection signal exported from interrupteur SW 1, SW2, SW3.In this example, interrupteur SW 1, SW2, SW3 are formed in the mode exporting high level or low level detection signal, control part 26 with in signal level for distributing " 1 " data when high level, the mode of distribution " 0 " data is formed in for low level situation in addition.Therefore, such as the X-direction sequence of leading unit data portion row 14a indicia patterns " have, without, nothing " and produce the serial data (with reference to Fig. 3) of " 1,0,0 ".Then, the group of serial data that control part 26 produces based on each for unit data portion row 14a, 14b, 14c reads the numerical code that information keeps medium 2.

Second test section 22 exports the control signal of the action of the reading numerical code controlling control part 26.Second test section 22 comprises and forms as lower part, namely comprises: slide block 6; Sliding part 30, with slide block 6 interlock; And interrupteur SW 4, pressed by sliding part 30.Interrupteur SW 4 is arranged on the back side of circuit substrate 28, and sliding part 30 configures side by side with interrupteur SW 4 in the Y direction.

Accompanying information keeps medium 2 to the insertion of installation portion 4, and slide block 6 keeps guidance part (drive division) 12a of medium 2 to be pushed by Y-direction by information.When slide block 6 is pushed to Y-direction, sliding part 30 also moves to equidirectional.Sliding part 30 is with the movement to Y-direction, and interrupteur SW 4 is pressed one side and slided in interrupteur SW 4 by one side.

Interrupteur SW 4 becomes on-state and exports control signal during being pressed by sliding part 30, and automatically rises after pressing of utilizing sliding part 30 to carry out is removed, and during rising, becomes off-state and do not export control signal.

Form as follows, length L1 in the Y-direction of i.e. sliding part 30, keep the distance L2 of terminal to the top of unit data portion, end row 14c from leading unit data portion row 14a of medium 2 (with reference to Fig. 2) large than information, and during detected the mark 13 arranged to the constituent parts data portion of unit data portion, end row 14c from leading unit data portion row 14a by interrupteur SW 1, SW2, SW3, control signal (that is, interrupteur SW 4 becomes on-state) is exported continuously from interrupteur SW 4.

Control part 26 is when from interrupteur SW 1, SW2, SW3 output detections signal, only when export from interrupteur SW 4 have a control signal (namely, only when interrupteur SW 4 becomes on-state), produce serial data based on the detection signal exported from interrupteur SW 1, SW2, SW3.Then, control part 26 accompanying information keeps medium 2 to the insertion of installation portion 4 or pulling out from installation portion 4, and the serial data sequentially obtained for each unit data portion row is stored in the memory area guaranteed in storage part 25.

And then, sliding part 30 is formed as follows, namely started to export control signal (namely from interrupteur SW 4 before the mark 13 being detected leading unit data portion row 14a by interrupteur SW 1, SW2, SW3, interrupteur SW 4 becomes on-state), and stop exporting control signal from interrupteur SW 4 during detecting the mark 13 of unit data portion, end row 14c by interrupteur SW 1, SW2, SW3.

Control part 26 is in the rising of control signal exported from interrupteur SW 4 and the sequential of decline, based on the detection signal from interrupteur SW 1, SW2, SW3, Detection Information keeps medium 2 to start to the insertion of installation portion 4, inserts and to terminate and from the end of pulling out of installation portion 4, and performs and start with insertion, insert process corresponding to each that terminates and pull out end.In addition, in the present embodiment, if be low level in the sequential of the rising of the control signal exported from interrupteur SW 4 from the detection signal of interrupteur SW 1, SW2, SW3, then control part 26 is detected as to insert and starts, in addition, if be high level in the sequential of the decline of the control signal exported from interrupteur SW 4 from the detection signal of at least arbitrary switch in interrupteur SW 1, SW2, SW3, then control part 26 is detected as to insert and terminates.In addition, if be also low level in the sequential of the decline of the control signal exported from interrupteur SW 4 from the detection signal of the arbitrary switch output interrupteur SW 1, SW2, SW3, then control part 26 is detected as and pulls out end.

The example of control signal that Fig. 6 represents the detection signal that exports from the first test section 20 when information being kept medium 2 to be inserted into installation portion 4 and exports from the second test section 22, Fig. 7 schematically shows an example of the storer stores processor of the serial data produced based on the detection signal shown in Fig. 6, Fig. 8 and Fig. 9 represents the flow process of the process performed by control part 26.

First, in storage part 25, guarantee have: primary memory region m and secondary memory area M1, M2, M3 with unit data portion row equal number, store the serial data produced by control part 26; And code memory region C, store the numerical code read.

Accompanying information keeps medium 2 to the insertion of installation portion 4, and slide block 6 is pushed by Y-direction, and interrupteur SW 4 is pressed at sequential T0 with the sliding part 30 of slide block 6 interlock.Interrupteur SW 4 becomes on-state, thus starts to export control signal from interrupteur SW 4.

Control part 26, when detecting the rising of the control signal exported from interrupteur SW 4 at sequential T0 (step S1), first judges that the whichever in interrupteur SW 1, SW2, SW3 is on-state (that is, whether detection signal is high level).If certain switch is on-state, then this means by information being kept medium 2 to start to pull out after terminating to the installation of information read device 3, and interrupteur SW 4 is changed to on-state from off-state, therefore control part 26 waits for the change of the signal exported from interrupteur SW 1, SW2, SW3, SW4 again.In addition, control part 26 judge in interrupteur SW 1, SW2, SW3 any one all for on-state (that is, detection signal is not high level but low level) when, the information that is set to keeps the installation of medium 2 to start, primary memory region m and secondary memory area M1, M2, M3 emptied and deletes over the serial data stored, and also the flag F that expression information keeps medium 2 to terminate to the installation of installation portion 4 being emptied (flag F ← false (vacation)) (step S2) in the lump.

Then, the mark 13 of leading unit data portion row 14a is detected at sequential T1 by interrupteur SW 1, SW2, SW3.According to the indicia patterns of the X-direction sequence of leading unit data portion row 14a " have, without, nothing ", in interrupteur SW 1, SW2, SW3, only interrupteur SW 1 is pressed and becomes on-state, the detection signal of high level is exported from interrupteur SW 1, but from the detection signal of interrupteur SW 2, SW3 respectively output low level.

Control part 26 works as the rising (step S3) of the detection signal of at least one switch detected in interrupteur SW 1, SW2, SW3, then judges whether interrupteur SW 4 is on-state.Herein, when judging interrupteur SW 4 not for on-state, be set to and carried out utilizing finger to wait pressing interrupteur SW 1, the improper operation such as SW2, SW3, control part 26 does not carry out any process, and again waits for the signal intensity exported from interrupteur SW 1, SW2, SW3, SW4.In addition, when judging interrupteur SW 4 for on-state, then judge whether the flag F that expression information maintenance medium 2 terminates to the installation of installation portion 4 is true (very).If be the situation of flag F=true, then judge to keep medium 2 to pull out after temporarily terminating to install to information, control part 26 does not process, and waits for the signal intensity exported from interrupteur SW 1, SW2, SW3, SW4.In addition, when judging not for flag F=true, control part 26 produces serial data based on the detection signal exported from interrupteur SW 1, SW2, SW3.Then, the serial data produced temporarily is stored in primary memory region m (step S4) by control part 26.

At sequential T1, control part 26 detects the rising (step S3) of the detection signal of interrupteur SW 1, then judges whether interrupteur SW 4 is on-state.Owing to being connection in sequential T1 interrupteur SW 4, therefore then determine whether flag F=true.Owing to being not flag F=true at sequential T1, therefore then based on the detection signal exported from interrupteur SW 1, SW2, SW3, and the serial data producing " 1,0,0 " is as the serial data corresponding with leading unit data portion row 14a.The serial data " 1,0,0 " produced, as Suo Shi Fig. 7 (A), is temporarily stored in primary memory region m (step S4) by control part 26.

When passing through on interrupteur SW 1, SW2, SW3 at sequential T2 leading unit data portion row 14a, interrupteur SW 1 becomes off-state from on-state, and the detection signal exported from interrupteur SW 1 declines from high level to low level.

Control part 26 is when detecting the decline of detection signal of at least one switch in interrupteur SW 1, SW2, SW3 (step S5), first judge whether that any one in interrupteur SW 1, SW2, SW3 be not all for on-state, that is judges that information keeps the unit data portion row of medium 2 whether to pass through interrupteur SW 1, SW2, SW3.If any one in interrupteur SW 1, SW2, SW3 of control part 26 is on-state, is set to unit data portion row and not yet passes interrupteur SW 1, SW2, SW3, and again wait for the change of the signal exported from interrupteur SW 1, SW2, SW3, SW4.And, control part 26 when judge in interrupteur SW 1, SW2, SW3 any one all for on-state, then for the M2 in secondary memory area M1, M2, M3, determine whether M2 ≠ 0, namely judge that whether M2 is not " sky ".If be M2 be not the situation of " sky " (M2 ≠ 0), secondary memory area has been stored in second unit data portion arranges serial data corresponding to (being unit data portion row 14b in the present embodiment) from end, therefore current being stored in the m of primary memory region is arrange (if illustrated in the present embodiment with the unit data portion at end, be then unit data portion row 14c) corresponding serial data, but interrupteur SW 1 as step S5, SW2, the detection signal of the arbitrary switch in SW3 is declined to become following situation, namely in interrupteur SW 1, SW2, SW3 detects the unit data portion row 3 at end, and after primary memory region m stores corresponding serial data, and information keep the installation of medium 2 terminate before (before interrupteur SW 4 one-tenth is off, and before stopping from the control signal that interrupteur SW 4 exports), information kept the location restore of medium 2 to interrupteur SW 1, SW2, till the position of the detection signal decline of at least one switch in SW3, therefore the serial data be stored in the m of primary memory region is not stored in secondary memory area M3, and again wait for from interrupteur SW 1, SW2, SW3, the change of the signal that SW4 exports.In addition, control part 26 judge not for M2 ≠ 0 (that is, M2=0, storing the secondary memory area M2 of second serial data from end is " sky ", only in secondary memory area M1, store serial data (that is, only complete and detect leading unit data string (in present embodiment said unit data portion row 14a)), or secondary memory area M1 be also " sky " (that is, the situation of unit data portion row is detected first after firm mount message maintenance medium 2)), carry out the serial data being stored in primary memory region, with be stored in secondary memory area M1, M2, the comparison of the serial data of M3.If for determining the serial data and any one the consistent situation in the serial data being stored in secondary memory area M1, M2, M3 that are stored in primary memory region m, then be judged as read error, do not carry out the renewal of the serial data being stored in secondary memory area M1, M2, M3 by being stored in the serial data of primary memory region m, primary memory region m is emptied (deleting the serial data stored).Its reason is as mentioned above, in the numerical code that the information of present embodiment keeps medium 2 to keep, can not comprise identical serial data in a numerical code.In addition, control part 26 when the serial data judging to be stored in primary memory region m be stored in the serial data of secondary memory area M1, M2, M3 any one all inconsistent, upgrade secondary memory area M1, M2, M3 (step S6) respectively by the serial data be stored in secondary memory area M2, M3 and primary memory region m.

At sequential T2, control part 26 detects the decline (step S5) of the detection signal of interrupteur SW 1, any one in interrupteur SW 1, SW2, SW3 is not all on-state, that is, information keeps the unit data portion of medium 2 to arrange by interrupteur SW 1, SW2, SW3, in addition, under the state of Fig. 7 (A), be not secondary memory area M2 ≠ 0 (M2=0, be " sky "), the serial data therefore carrying out primary memory region m compares with the serial data being stored in secondary memory area M1, M2, M3.Herein, control part 26, when judging inconsistent, upgrades secondary memory area M1, M2, M3 (step S6) respectively by the serial data being stored in secondary memory area M2, M3 and primary memory region m.Under the state of Fig. 7 (A), any one of secondary memory area M1, M2, M3 is " sky ", therefore inconsistent with the serial data " 1,0,0 " of a sub-region m, therefore, control part 26 by serial data " 1,0,0 " being stored in secondary memory area M3 as Suo Shi Fig. 7 (B), and upgrades secondary memory area M1, M2, M3.In addition, the serial data of primary memory region m and the serial data being stored in secondary memory area M1, M2, M3 compare by control part 26, when judging consistent, primary memory region m is emptied (deleting the serial data stored), and again wait for the change of the signal exported from interrupteur SW 1, SW2, SW3, SW4.

Then, the mark 13 of unit data portion row 14b is detected at sequential T3 by interrupteur SW 1, SW2, SW3.According to the indicia patterns of the X-direction sequence of unit data portion row 14b " without, without, have ", in interrupteur SW 1, SW2, SW3, only interrupteur SW 3 is pressed and becomes on-state, the detection signal of high level is exported from interrupteur SW 3, and from the detection signal of interrupteur SW 1, SW2 output low level.

Control part 26, when detecting the rising of detection signal of at least one switch in interrupteur SW 1, SW2, SW3 (step S3), then judges whether interrupteur SW 4 is on-state.Herein, when judging interrupteur SW 4 not for on-state, control part 26 does not carry out any process, and again waits for the signal intensity exported from interrupteur SW 1, SW2, SW3, SW4.In addition, when judging interrupteur SW 4 for on-state, then judge whether the flag F that expression information maintenance medium 2 terminates to the installation of installation portion 4 is true.If be the situation of flag F=true, judge to keep medium 2 to pull out after temporarily terminating to install to information, thus control part 26 do not process, and wait for the signal intensity exported from interrupteur SW 1, SW2, SW3, SW4.In addition, when judging not for flag F=true, control part 26 produces serial data based on the detection signal exported from interrupteur SW 1, SW2, SW3.Then, by control part 26, produced serial data is temporarily stored in primary memory region m (step S4).

At sequential T3, control part 26 detects the rising (step S3) of the detection signal of interrupteur SW 3, then, judges whether interrupteur SW 4 is on-state.In sequential T3 interrupteur SW 4 for connecting, therefore then determine whether flag F=true.Owing to being not flag F=true at sequential T3, therefore then based on the detection signal exported from interrupteur SW 1, SW2, SW3, and the serial data producing " 0,0,1 " is as the serial data corresponding with unit data portion row 14b.The serial data " 0,0,1 " produced temporarily is stored in primary memory region m (step S4) by control part 26 as Suo Shi Fig. 7 (C).

When passing through on interrupteur SW 1, SW2, SW3 at sequential T4 unit data portion row 14b, interrupteur SW 3 is changed to off-state from on-state, and the detection signal exported from interrupteur SW 3 declines from high level to low level.

At sequential T4, control part 26 detects the decline (step S5) of the detection signal of interrupteur SW 3, any one in interrupteur SW 1, SW2, SW3 is not all on-state, that is, information keeps the unit data portion of medium 2 to arrange by interrupteur SW 1, SW2, SW3, in addition, under the state of Fig. 7 (C), be not secondary memory area M2 ≠ 0 (M2=0, be " sky "), the serial data therefore carrying out primary memory region m compares with the serial data being stored in secondary memory area M1, M2, M3.Then, control part 26, when judging inconsistent, upgrades secondary memory area M1, M2, M3 (step S6) respectively by the serial data being stored in secondary memory area M2, M3 and primary memory region m.Under the state of Fig. 7 (C), the serial data " 0,0,1 " of primary memory region m is inconsistent with the serial data (" 1,0,0 " and " sky ") being stored in secondary memory area M1, M2, M3, therefore control part 26 is as Suo Shi Fig. 7 (D), the serial data " 1,0,0 " being stored in secondary memory area M3 is before this stored in secondary memory area M2, the serial data " 0,0,1 " being stored in primary memory region m is stored in secondary memory area M3, thus upgrades secondary memory area M1, M2, M3.In addition, the serial data of primary memory region m and the serial data being stored in secondary memory area M1, M2, M3 compare by control part 26, when judging consistent, primary memory region m is emptied (deleting the serial data stored), and again wait for the change of the signal exported from interrupteur SW 1, SW2, SW3, SW4.

Then, the mark 13 of unit data portion, end row 14c is detected at sequential T5 by interrupteur SW 1, SW2, SW3.According to the indicia patterns of the X-direction sequence of unit data portion, end row 14c " without, have, nothing ", in interrupteur SW 1, SW2, SW3, only interrupteur SW 2 is pressed and becomes on-state, the detection signal of high level is exported from interrupteur SW 2, and from the detection signal of interrupteur SW 1, SW3 output low level.

At sequential T5, control part 26 detects the rising (step S3) of the detection signal of interrupteur SW 2, then judges whether interrupteur SW 4 is on-state.Owing to being connection in sequential T5 interrupteur SW 4, therefore then determine whether flag F=true.Owing to being not flag F=true at sequential T5, therefore then based on the detection signal exported from interrupteur SW 1, SW2, SW3, and the serial data producing " 0,1,0 " is as the serial data corresponding with unit data portion, end row 14c.The serial data " 0,1,0 " produced, as Suo Shi Fig. 7 (E), is temporarily stored in primary memory region m (step S4) by control part 26.

Then, when when sequential T6 sliding part 30 is by interrupteur SW 4, interrupteur SW 4 becomes off-state, during detecting the mark 13 of unit data portion, end row 14c by interrupteur SW 1, SW2, SW3, stops exporting control signal from interrupteur SW 4.

In addition, be arranged on the length in the Y-direction of the mark 13 of unit data portion, end row 14c, than be arranged on other unit data portion row 14a, 14b mark 13 Y-direction on length large.Thus, the restriction to the sequential that the output of control signal stops can being relaxed.

Control part 26 detects the decline (step S7) of control signal, and confirms whether the detection signal that the sequential declined in control signal exports from least one switch interrupteur SW 1, SW2, SW3 is high level (on-state) (step S8).

Then, control part 26 is when the detection signal exported from least one switch is high level (on-state), be confirmed whether the flag F=true for expression information keeps medium 2 to terminate to the installation of installation portion 4, namely whether former time sequence information keeps medium 2 to be mounted to installation portion 4.Herein, if YES (Yes), this only refers to following situation, namely insertion temporarily terminate after (that is, carry out with after installing the action that terminates), information kept medium 2 to return to position that interrupteur SW 4 becomes on-state, and again return to the position that interrupteur SW 4 becomes off-state, therefore control part 26 does not carry out with installing the action terminated, and again waits for the change of the signal exported from interrupteur SW 1, SW2, SW3, SW4.In addition, if be not the situation of flag F=true (flag F=false), confirm in secondary memory area M1, whether store serial data (whether whether is M1=0, be namely " sky ").If do not store serial data in secondary memory area M1, then be set to and carried out some improper operation (such as, user not mount message keeps medium 2, but utilize finger to wait operating switch SW1, SW2, SW3, SW4 and for the situation etc. of the voice data that keeps the numerical code of medium 2 corresponding with the information do not held from information read device 3 output), thus carry out error handle.And, (M1 ≠ 0 in store serial data in secondary memory area M1, namely be not the situation of " sky "), the serial data that control part 26 then carries out primary memory region m and the comparing of serial data being stored in secondary memory area M1, M2, M3.Then, control part 26 when the serial data judging primary memory region m be stored in the serial data of secondary memory area M1, M2, M3 any one all inconsistent, be set to normal termination and insert information maintenance medium 2 (namely to installation portion 4, detect to insert and terminate), and upgrade secondary memory area M1, M2, M3 (step S9) respectively by the serial data be stored in secondary memory area M2, M3 and primary memory region m.In addition, control part 26 is when judging that the serial data of primary memory region m is consistent with any one in the serial data being stored in secondary memory area M1, M2, M3, be set to and there is certain read error or improper operation, and be set to install and terminate and the flag F that expression information keeps medium 2 to terminate to the installation of installation portion 4 is set to true, do not carry out the control beyond it, and again wait for the change of the signal exported from interrupteur SW 1, SW2, SW3, SW4.

At the sequential T6 that control signal declines, control part 26 detects the decline (step S7) of control signal, because the detection signal exported from interrupteur SW 2 is still high level (step S8), therefore determines whether flag F=true.Due at sequential T6, flag F remains the state being set to false in the step S2 of sequential T0, and therefore control part 26 judges to be not flag F=true, then determines whether secondary memory area M1=0, that is, judge whether secondary memory area M1 is " sky ".Due under the state of Fig. 7 (E), secondary memory area M1=0, is that is " sky ", therefore control part 26 serial data that then carries out primary memory region m and the comparing of serial data being stored in secondary memory area M1, M2, M3.Due at sequential T6, secondary memory area is the state of Fig. 7 (E), therefore relative to being stored in the serial data of primary memory region m for " 0,1,0 ", and the serial data being stored in secondary memory area M1, M2, M3 is " sky ", " 1,0,0 ", " 0,0,1 ", therefore, control part 26 is judged inconsistent, and upgrades secondary memory area M1, M2, M3 (step S9) respectively by the serial data being stored in secondary memory area M2, M3 and primary memory region m.Namely, the serial data " 1,0,0 " being stored in secondary memory area M2 is before this stored in secondary memory area M1 by control part 26, the serial data " 0,0,1 " being stored in secondary memory area M3 is before this stored in secondary memory area M2, and the serial data " 0,1,0 " being stored in primary memory region m is stored in secondary memory area M3, thus upgrade secondary memory area M1, M2, M3.So, control part 26 is when being stored in secondary memory area M3 by the serial data being temporarily stored in memory area m, the serial data of secondary memory area M2 is moved, is stored in secondary memory area M1, and the serial data of secondary memory area M3 is moved, be stored in secondary memory area M2.

By above storer stores processor, as Suo Shi Fig. 7 (F), in secondary memory area M1, M2, M3, sequentially store each for unit data portion row 14a, 14b, 14c and the serial data produced.

Then, control part 26 sequentially takes out serial data from secondary memory area M1, M2, M3 and is stored in code memory region C (step S10).Now, the flag F also making expression information keep medium 2 to terminate to the installation of installation portion 4 is changed to true.Then, control part 26 is based on being stored in the serial data of code memory region C and identification number character code, and with reference to the form that the various numerical code being stored in storage part 25 is associated with the various voice datas making operating member 24 export, read the voice data corresponding with identified numerical code, and make operating member 24 action (step S11) based on read-out voice data.

Figure 10 represents an example of form numerical code be associated with the various voice datas making operating member 24 export.

Such as in the above example, sequentially store in the C of code memory region sequentially take out from secondary memory area M1, M2, M3 serial data " 1,0,0 ", " 0,0,1 ", " 0,1,0 ", control part 26 reads " voice data 1 " as the voice data corresponding with the numerical code identified based on these serial datas, and makes operating member 24 action based on this " voice data 1 ".

The example of control signal that Figure 11 represents the detection signal that exports from the first test section 20 when information being kept medium 2 to pull out from installation portion 4 and exports from the second test section 22.In the following description, also suitably with reference to the flow process shown in Fig. 8 and Fig. 9.

First, detect the mark 13 of unit data portion, end row 14c at sequential T7 by interrupteur SW 1, SW2, SW3, export the detection signal of high level from interrupteur SW 2, and from the detection signal of interrupteur SW 1, SW3 output low level.But, at sequential T7, do not export control signal from interrupteur SW 4, even if control part 26 detects the rising (step S3) of the detection signal of interrupteur SW 2, also can not carry out based on the detection signal exported from interrupteur SW 1, SW2, SW3 and produce serial data.

Then, to the sliding part 30 of the direction movement contrary with Y-direction, interrupteur SW 4 is pressed together with slide block 6 at sequential T8.Interrupteur SW 4 becomes on-state, starts to export control signal from interrupteur SW 4.Control part 26 detects the rising (step S1) of the control signal from interrupteur SW 4, but is in on-state due to the interrupteur SW 2 in interrupteur SW 1, SW2, SW3, does not therefore advance to step S2, again waits for the change of interrupteur SW 1, SW2, SW3.

Then, the detection signal exported from interrupteur SW 2 at sequential T9 declines from high level to low level.Control part 26 detects the decline (step S5) of the detection signal of interrupteur SW 2, first, determines whether that at least one switch in interrupteur SW 1, SW2, SW3 is on-state.Due at sequential T9, any one in interrupteur SW 1, SW2, SW3 is not all on-state, and therefore then control part 26 determines whether secondary memory area M2 ≠ 0.Due at sequential T9, the state of secondary memory area is the state shown in Fig. 7 (F), therefore M2 ≠ 0, namely be not " sky ", therefore, the serial data being stored in primary memory region m is emptied, and again wait for the change of interrupteur SW 1, SW2, SW3.

Then, detect the mark 13 of unit data portion row 14b at sequential T10 by interrupteur SW 1, SW2, SW3, export the detection signal of high level from interrupteur SW 3, and from the detection signal of interrupteur SW 1, SW2 output low level.Control part 26 detects the rising (step S3) of the detection signal from interrupteur SW 3, first, judges whether interrupteur SW 4 is on-state.Due at sequential T10, interrupteur SW 4 is on-state, therefore then determines whether flag F=true.Due at sequential T10, accompanying information keeps medium 2 terminate to the installation of installation portion 4 and be set with flag F (flag F=true), even if therefore control part 26 detects the rising (step S3) of the detection signal of interrupteur SW 3, do not carry out based on the detection signal exported from interrupteur SW 1, SW2, SW3 and store serial data to primary memory region m, again waiting for the change of interrupteur SW 1, SW2, SW3 yet.

Then, the detection signal exported from interrupteur SW 3 at sequential T11 declines from high level to low level.Control part 26 detects the decline (step S5) of the detection signal of interrupteur SW 3, first, determines whether that at least one switch in interrupteur SW 1, SW2, SW3 is on-state.Due at sequential T11, any one in interrupteur SW 1, SW2, SW3 is not all on-state, and therefore then control part 26 determines whether secondary memory area M2 ≠ 0.Due at sequential T11, the state of secondary memory area is the state shown in Fig. 7 (F), therefore M2 ≠ 0, is namely not " sky ", therefore the serial data being stored in primary memory region m is emptied, and again wait for the change of interrupteur SW 1, SW2, SW3.

Then, detect the mark 13 of leading unit data portion row 14a at sequential T12 by interrupteur SW 1, SW2, SW3, export the detection signal of high level from interrupteur SW 1, and from the detection signal of interrupteur SW 2, SW3 output low level.Control part 26 detects the rising (step S3) of the detection signal from interrupteur SW 3, first, judges whether interrupteur SW 4 is on-state.Due at sequential T12, interrupteur SW 4 is on-state, therefore then determines whether flag F=true.But, due at sequential T12, also accompanying information keeps medium 2 terminate to the installation of installation portion 4 and be set with flag F (flag F=true), even if therefore control part 26 detects the rising (step S3) of the detection signal of interrupteur SW 1, do not carry out based on the detection signal exported from interrupteur SW 1, SW2, SW3 and store serial data to primary memory region m, again waiting for the change of interrupteur SW 1, SW2, SW3 yet.

Then, the detection signal exported from interrupteur SW 1 at sequential T13 declines from high level to low level.Control part 26 detects the decline (step S5) of the detection signal of interrupteur SW 1, first, determines whether that at least one switch in interrupteur SW 1, SW2, SW3 is on-state.Due at sequential T13, any one in interrupteur SW 1, SW2, SW3 is not all on-state, and therefore then control part 26 determines whether secondary memory area M2 ≠ 0.Due at sequential T13, the state of secondary memory area is the state shown in Fig. 7 (F), therefore M2 ≠ 0, namely be not " sky ", therefore, the serial data being stored in primary memory region m is emptied, and again wait for the change of interrupteur SW 1, SW2, SW3.

Then, at sequential T14 sliding part 30 by interrupteur SW 4, interrupteur SW 4 becomes off-state, thus stops exporting control signal from interrupteur SW 4.Now, leading unit data portion row 14a is by interrupteur SW 1, SW2, SW3, and the detection signal exported from interrupteur SW 1, SW2, SW3 all becomes low level.

The decline (step S7) of control part 26 detection control signal, and be confirmed whether that the detection signal that the sequential declined in control signal exports from least one switch interrupteur SW 1, SW2, SW3 is high level (on-state) (step S8).

Due at sequential T14, any one in interrupteur SW 1, SW2, SW3 is not all on-state, therefore the serial data be stored in primary memory region m, secondary memory area M1, M2, M3, code memory region C empties by control part 26, and judges whether flag F is true.Due at sequential T14, accompanying information keeps medium 2 terminate to the installation of installation portion 4 and be set with flag F (flag F=true), and therefore advance to step S12, flag F is set to false and processes at the end of pulling out by control part 26.That is, control part 26 is under the detection signal exported from all interrupteur SW 1, SW2, SW3 is low level situation, and the information that detects through particular procedure keeps medium 2 to pull out end from installation portion 4.Then, at the end of control part 26 ought detect and pull out, read the process at the end of the specific sound data being stored in storage part 25 are used as pulling out, and make operating member 24 action based on read-out voice data.

As described above, keep in medium 2 and information read device 3 in this information, the indicia patterns of two unit data portion row adjacent in the arrangement of unit data portion row 14a, 14b, 14c is mutually different, from detection signal change between adjacent two unit data portion row that at least one interrupteur SW 1, SW2, SW3 exports.

Therefore, serial data is produced according to the detection signal of interrupteur SW 1, SW2, SW3 by switching (decline) sequential at detection signal, can not indicate separately control part 26 and produce the sequential of serial data, and can make control part 26 precision well recognition unit data portion row 14a, 14b, 14c boundary and produce the serial data of each unit data portion row.

The indicia patterns of two preferably adjacent unit data portion row is at least two position differences.Thus, the precision of the boundary identification of unit data portion row 14a, 14b, 14c can further be improved.

And, owing to need not indicate to control part 26 sequential producing serial data separately, therefore can use the arrangement in whole unit data portion 11 and form numerical code, thus the classification of numerical code can be made to increase.

Especially, due to the interrupteur SW 4 of the control signal that keeps the read action of medium 2 driver output to information read device 3 to control by information, and based at the rising of control signal keeping the installation of medium 2 or removal to associate with information and the interrupteur SW 1 of the sequential of decline, the detection signal of SW2, SW3, and Detection Information keeps the installation of medium 2 and the end of removal, therefore can not limit the indicia patterns of leading unit data portion row 14a or unit data portion, end row 14c, thus the classification of numerical code can be made to increase.

In addition, due to only when having control signal from interrupteur SW 4 output, information read device 3 can carry out read action, therefore can prevent the misoperation of information read device 3, in addition, also can prevent analogizing of numerical code.Especially, by the reading of the existing serial data of the unit data portion list of leading grade except end only from interrupteur SW 1, SW2, the detection signal that SW3 exports becomes low level (interrupteur SW 1, SW2, SW3 becomes off-state) sequential carry out, relative to this, only for the reading (being the storage to secondary memory area in the present embodiment) by the existing serial data of the unit data portion list at end, be not only from interrupteur SW 1, SW2, the detection signal that SW3 exports becomes low level (interrupteur SW 1, SW2, SW3 becomes off-state) sequential, but also be stopping the sequential exporting control signal from interrupteur SW 4 to carry out, even if therefore such as user because of not have etc. reason not mount message keep medium 2, replace and utilize finger to wait operating switch SW1, SW2, SW3 and the group of the serial data corresponding with the numerical code that this information keeps medium 2 to have is inputed to information read device 3, and make this information read device 3 export the sound etc. corresponding with this numerical code, as long as but not to be noted the serial data at the end of numerical code is different from the serial data except end, if not at the mode operating switch SW1 to export the detection signal corresponding with the serial data at end, SW2, make interrupteur SW 4 state of being off would not carry out reading (not being stored in secondary memory area) under the state of SW3, improper operation so successfully (would not export sound etc.), therefore can expect to reduce the motivation for carrying out improper operation.That is, in information read device 3, in order to carry out the operation of the reading by the existing serial data of the unit data portion list of leading grade except end (in the present embodiment for from interrupteur SW 1, SW2, the detection signal that SW3 exports becomes any one from the state that any one is high level and is low level state, and interrupteur SW 1, SW2, SW3 is that the state connected becomes any one state be all off from any one), with in order to carry out (exporting control signal for stopping from interrupteur SW 4 in the present embodiment by the operation of the reading of the existing serial data of the unit data portion list at end, and make interrupteur SW 4 be off state) different this point is also the feature of present embodiment.

In the above description, mark 13 is configured to have the protuberance of specific height, keeps the unit data portion 11 of medium 2 to give two-value data, but be not limited to two-value data to the data that unit data portion 11 gives according to the presence or absence of mark 13 to information.Also can use such as highly different marks, and give three values above data by the mark height that has that it's too late of mark to unit data portion 11.In addition, as long as mark 13 can obtain multiple discrete value for specific physical quantity, such as, the different color of reflectivity can be utilized painted and form mark 13 to unit data portion 11.

[explanation of symbol]

1 information handling system

2 information keep medium

3 information read devices

4 installation portions

5a, 5b guidance part

6 slide blocks

7 engagement pins

8 action buttons

10 dielectric matrixs

11 unit data portions

12a, 12b guidance part

13 marks

14a, 14b, 14c unit data portion arranges

20 first test sections

21 handling parts

22 second test sections

23 power supply units

24 operating members

25 storage parts

26 control parts

27 loudspeakers

28 circuit substrates

30 sliding parts

Claims (13)

1. information keeps a medium, keeps the numerical code read by information read device, and this information keeps medium to comprise:

Multiple mark, in order to form described numerical code, and is arranged on first direction and in the arrangement in the unit data portion of second direction that intersects with this first direction; And

Drive division, for keeping medium to the installation of described information read device with this information, and makes this information read device carry out reading the action of described numerical code; And

This information keeps medium to be mounted to described information read device with the relative movement to described second direction, and

The indicia patterns of the described first direction sequence of two unit data portion row adjacent in the arrangement of the described second direction of the unit data portion row extended in said first direction is mutually different.

2. information according to claim 1 keeps medium, wherein be arranged on the length in the described second direction of the described mark of the unit data portion row at the end in the arrangement of described second direction, longer than the length be arranged in the described second direction of the described mark that other unit data portion arranges.

3. information according to claim 1 and 2 keeps medium, is wherein arranged with three the above unit data portions in said first direction, and

The indicia patterns of the described first direction sequence of two adjacent in this second direction unit data portion row is at least mutually different at two positions.

4. information according to claim 1 and 2 keeps medium, and wherein said mark is configured to the protuberance being formed in medium front.

5. information according to claim 1 and 2 keeps medium, itself so that comprise guidance part, this guidance part is extended along described second direction, and is sticked in the guidance part of described information read device side, and

Described guidance part is also used as described drive division.

6. an information read device, read the numerical code being held in information according to claim 1 and keeping medium, and this information read device comprises:

Installation portion, keeps medium to install this information to the relative movement of described second direction with described information and keeps medium;

First test section, detects the described mark that the described information being installed on described installation portion keeps medium, and exports the detection signal corresponding with testing result for each described unit data portion row;

Handling part, produces serial data based on the described detection signal exported from described first test section, and the group of this serial data produced based on each for described unit data portion row and read described numerical code; And

Second test section, keeps the described drive division of medium and action by the described information being installed on described installation portion, and exports the control signal of the read action controlling described handling part; And

Described handling part, when having described detection signal from described first test section input, only when having described control signal from described second test section input, produces described serial data based on this detection signal.

7. information read device according to claim 6, during before the described mark wherein arranged in the constituent parts data portion being detected described information by described first test section and keep the unit data portion to end that arrange from leading unit data portion in the arrangement of the described second direction of medium to arrange, described second test section exports described control signal continuously.

8. information read device according to claim 7, wherein said handling part, based on the described detection signal of the sequential input in the decline of described control signal and rising, detects described information and keeps medium relative to the installation of described installation portion and removal.

9. information read device according to claim 8, wherein said second test section is formed as follows, namely when described information keeps medium to described second direction relative movement, started to export described control signal before being detected described information to keep the described mark of the described leading unit data portion row of medium by described first test section, and stop exporting described control signal during being detected described information to keep the described mark of the unit data portion row at the described end of medium by described first test section.

10. the information read device according to any one of claim 7 to 9, wherein said second test section comprises: slide block, keeps medium to be pushed to described second direction to the installation of described installation portion by described drive division with described information; And switch, export described control signal;

Described slide block is provided with sliding part, and this sliding part slides and makes this switch export described control signal on described switch,

Described sliding part is extended along described second direction, and the length in the described second direction of this sliding part, larger than the distance of end side to the unit data portion row at described end side from described leading unit data portion row.

11. information read devices according to any one of claim 6 to 9, wherein said information keeps being labeled as the protuberance being formed in medium front described in medium, and

Described first test section of described information read device is comprised the switch pressed by described protuberance and forms.

12. information read devices according to any one of claim 6 to 9, itself so that comprise: operating member; And storage part, store in order to make the action data of described operating member action be associated with described numerical code; And

Described handling part reads the action data corresponding with read described numerical code from described storage part, and based on this reading action data and make described operating member action.

13. information read devices according to claim 12, wherein said operating member is exportable comprises at least any one data in sound or luminescence.