WO1982000724A1 - Programmable timer - Google Patents

Abstract

A programmable timer reading in an storing a plurality of pieces of set point information relating to the on/off operation of a load and then executing the on/off control over the load according to the stored content. Using a mark card having a plurality of marking columns corresponding to a plurality of set point informations relating to the on/off operation of the load, marks are entered into the marking columns corresponding to the kinds and the times of the desired operations, so that it is possible to compare and check the set point information on the mark card, and it is possible to make the setting operation by simply reading the mark card so as to practise the on/off control over the load according to the desired information designated by the mark card and additionally to make the setting operation even when it is required to make a lot of settings relating to the on/off control over the load.

Description

 ¾ Details

 Name of invention Opening timer

 Technical field

 The present invention reads the desired information specified by a mark-type card, and more specifically, reads the desired information specified by a mark card, and loads the data based on the stored contents. □ Z-off control over time.

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 Background technology

 In general, a zero-ram timer is, as shown in Figure 1,

A control circuit such as a micro-processor including a clock section that operates in synchronization with the clock path (control circuit) and the current time and load; Also, whether to turn off the time and load to turn off or turn off the load: / Set information such as the turn-off operation command and co-process this. The time input operation part 27 to be input to the control part 36 and the time display part 41 for displaying the time based on the ffi force from the control circuit part 36 are formed. The clock signal received from the input terminal 37 is used as the base signal. □ One) The time of the circuit section 36 is used. Compared to the time, when the two are the same, the load is turned off or turned off based on the operation command set by the time input operation unit 27 when the two are the same. The control signal to be turned off is transmitted from the output terminal 3S. The time input operation unit 27 used for this kind of roll-type timer is conventionally shown in FIG.

Such a switch matrix employs switch matrices, such as a switch switch or a switch switch, which constitutes the switch matrix. By operating the switch, information such as the current time, the operation time of the load, and the on / off command for the load is set, and the information is controlled (controlled) and input to the circuit section. . However, in addition to setting the current time, when setting the operation time of the load or turning off the load, it is necessary to set a large number of operation times. Such a switch must be repeatedly operated and operated, and the time setting operation and the off-command setting operation for the load are troublesome, and this operation takes a long time. However, if the switch operation is interrupted halfway, it is easy to forget the settings made up to that point, making it difficult to correctly resume the setting operation. There is a problem that the setting must be corrected from the beginning.) In particular, the load operation time setting must be changed to “day” in addition to “hour” and “minute”. If you want to do more than one load, you can also: When specifying the load to be controlled by the trolley circuit section in this formula, the load specification operation is added to the above operation, and the above switch is used. This makes the operation of setting more complicated. Specifically, the case where the conventional time input operation unit formed by the switch matrix shown in FIG. 2 is operated to control the load off; / Z off. explain

0 This switch matrix is used to set the load operation time.

OMPI Is not performed in the units of “day of the week”, “hour”, “minute”, and “second”, and is controlled by the circuit section 36. It is designed to specify the desired one of the four load circuits. To set the current time, first turn on timer 3; just switch SW !. As a result, the output terminal K _{0 of the} trolley circuit section _{36 is connected} . I Se Tsu preparative signals that will be output is returned to the co-2 / collected by filtration Lumpur circuit section 3 6 input kappa iota ₃ co filtrated over circuit section 3 6 force; Thailand厶§ catcher scan Bok ¾ - de and Do, day of the week cell Tsu door scan i pitch SW ₂ to the next, when the cell Tsu door switch's SW _3, minute cell Tsu door switch's SW _4, second cell Tsu door scan i pitch SW ₅ , And output terminal K〇 of the controller j circuit section 36. , K _{0 l} , 0 ₂ , οο ₃ , and set the output signal back to the input terminal 回路 ι ₂ of the circuit section 36, and control the circuit. At 6 the current time is set. If you want to set the operating time of or load, in Thailand Ma Se Tsu door scan I pitch SW _e to throw entering the output end K o ₂ by output is the cell Tsu Bok signal the input end Κι ₃ Set the operation time in the same procedure as setting the current time after setting the circuit section 36 to the operation time setting mode. It is. After that, the four circuit set switches SW to specify the load circuit SW; SW1 ₍₎ Any _one of the switches is turned on and the corresponding output end is output. Returning the set signal to the input terminal K] ^; □ □ — J From the circuit section 36: / / Off Specify the load circuit that receives the control signal. and to the call back to the o set the scan I pitch SW _U and was put output end K o ₀ or these cell Tsu Bok signal the input end ] 7) Control is applied to the circuit section 36, and a command to turn off the load is given at the previously set time. The time setting is completed, and then the time is set again. similar click the搡作]? return to the operation time and circuit designation of rows that Tsuteka et al setting, O full set scan I pitch SW ₁₂ the input to the output end _κ 0ι by i? of the back Tsu door and By returning the signal to the input terminal Κι ₀ , the command to turn off the load at the set operation time is given to the control circuit section 36 to set the off time. I do . Sw ₁₃ in the figure is a switch for displaying the current time on the time display section 41. This switch is an e-switch. After the on-off time is set, this switch is turned on. When the switch is turned on, the clock display 1 is used as a normal time. The above specifically described]), the current time, the operation time of the load, and the off-time of the load are obtained by a conventional slot-type timer using switch matrices. When specifying settings, etc., the number of switches to be operated and the number of times of operation will increase as the information to be specified increases as in the case of off-load control many times during the day. Many.

¾i? As described above, not only does it take time to set various operation commands for the load, but also there is a problem that operation mistakes are easily caused. The present invention has been made to solve the problems included in the above-described conventional technology, and various information is input:? □ Disclosure of the improved disclosure of the information input system in the claim timer.

Disclosure of the invention

The invention provides a wealth of information about the on-off behavior of the load. Using a mark input provided with a mark entry field for reading the mark card, the mark card is read by a simple setting operation such as reading this mark card. The load can be controlled on-off based on the desired information specified in the command, and even if it is necessary to set a lot of information on the on-off operation of the load, this setting operation is performed at once. It is intended to disclose a column timer that can do this. The ai? Dynamic timer basically specifies the time at which the load is to be turned off, the off-time information, and whether the load is turned off or off. This is a card with multiple mark entry fields corresponding to timer setting information such as off-operation information, and by marking the appropriate mark entry. A mark card on which desired information is specified, and a reading means for reading information specified in a mark entry field marked with a mark on the mark card. And a storage means for storing information read by the reading means, and a clock section operating in synchronization with a clock pulse, and the current time obtained by the clock section. And the on / off time information read from the storage means, In response to the above-mentioned off-operation information, a timer output that determines the on-off operation of the load is sent to a load control circuit for on-off control of the load. 2 The control circuit is composed of a control circuit and time display means for displaying the current time obtained by the control circuit. First, the off-off time information and off-off operation provided on the mark input Multiple marks corresponding to the information After marking the desired places in the entry frame with a delta, etc., read the marked mark card by the reading means. After that, the control circuit controls the load on / off as desired over time based on the information specified by the mark card.]? For example, when a large amount of setting information is given, for example, when the load is repeatedly turned on / off during a day, the setting operation is performed as shown in the conventional example described above. It is unlikely that any information will be confused with the information before and after, and each piece of information will be instructed to the mark mode while checking each other on the mark mode. It is possible to read the mark force at a time even if there is a lot of information to specify. In combination with the above, it is possible to easily and erroneously set information on the on-off operation of the load, and the switch can be set like a conventional α-lammed timer. Eliminates the need for complicated setting operations.

 In addition, according to the present invention, when writing desired o / o time information on a mark card, the character corresponding to the set time is included in the numbers 0-9. Finding and setting from the box By dissolving the box with numbers attached to it by filling it with lead, etc., you can easily enter the set time in the mark field. O

In addition, in the present invention, the control circuit section selectively turns on / off a load connected to this load control circuit to a plurality of independent load control circuits. Send to Yes, the mark card shows the circuit designating information to specify each load control circuit, and the entry frame for the number corresponding to the load control circuit is disclosed. According to this structure, the number of times set to one load control circuit in response to the mark entry frame for specifying the on-off time provided on the mark card is more than a predetermined number. Even when the load cannot be controlled on / off, two or more load control circuits can be specified in separate marksheets and the same load control circuit can be used by using these load control circuits. By controlling the load off, it is possible to increase the number of on / off controls for the same load.

O O

 In addition, the present invention discloses a structure in which the day of the week can be easily specified in addition to the time, and the load can be easily controlled at a specific time on a specific day of the week. are doing.

 Also, in the present invention, a load having two different operation purposes, such as a time, a time to be notified, and a relatively short time e.g. A load that requires a relatively long operation time, such as the above, can be selected using a mark card, and each load is off-controlled at appropriate time intervals. Disclosure of possible structures.

 Further, one of the features disclosed in the present invention is a mark entry field corresponding to the time at which the load is turned on and a mark entry field corresponding to the time at which the load is turned off. By arranging the marks on the mark card alternately along one direction, it is possible to easily specify the load off operation in the order of time, and to specify the load off operation after the designation.

(OMPr In some cases, recognition has become easier. Another feature is that when a time signal is issued by operating a load such as a vehicle or a vehicle as described above, the time is used as a load for notifying the time signal. When a type that requires a preparation time to perform a normal notification operation is used, the preset time notification time is set ahead of the preset time notification time set in advance. It is possible to turn off the load for performing hourly notification, and perform normal hourly alarm notification operation at a predetermined hourly alarm time.

Drawing tube

Fig. 1 shows a conventional roller-type timer. Fig. ^{1 is a 5} -section diagram. Fig. 2 is a circuit diagram showing the switch matrix used in the conventional example. FIG. 3 is a basic diagram showing an embodiment of the present invention.

 The lock diagram and Fig. 4 are the lock diagrams and

 Fig. 5 to Fig. 7 are partial plan views showing the marker card used in the above. Fig. 8 is a circuit diagram showing an example of a reading element used in the above. Same reading! Fig. 10 is a diagram showing the operation of reading the mark card by the element. Fig. 10 is the same as above. Fig. 10 is the reading R. Fig. 11 is a waveform diagram showing an example of the output from the element. Fig. 12, Fig. 12 is a circuit diagram showing the waveform shaping circuit used in the present invention, and Fig. 13 (a) is the reading characteristic of the same.

 A waveform diagram showing an example of the output from the element, FIG. 13 () is a waveform diagram showing the output of the waveform shaping circuit of the above, and FIG. 14 is a matrix selector used in the above. Fig. 15 (a) is the same as above

O PI K WIPO FIG. 15B is a diagram showing a tine signal generated in response to a tick mark marked on the mark mark of FIG. FIG. 16 shows a time-division signal for controlling the multiplexer, and FIG. 16 is a flowchart for explaining a read operation in the control circuit section used in the above. It is a fault.

 BEST MODE FOR CARRYING OUT THE INVENTION

 Embodiments of the present invention will be described below with reference to the accompanying drawings. The roll-type timer according to the present invention basically has a load of 44, 4

Specifying the time at which 5 is turned on / off On / off time information and load 44 Specify whether to turn off or turn off load 4, 4, 5 o // off operation information, etc. A card provided with a plurality of mark entry fields 2 and 3 corresponding to the timer setting information, and marking the appropriate mark entry fields 2 and 3 with a mark 17. Mark Card 1 where the desired information is specified, and Mark Marks 2 and 3 marked with Marks 17 on Mark Card 1 Clock means for reading the information specified in columns 2 and 3; storage means 20 for storing the information read and read out from the read means 1.0; clock; It has a clock section 33 that operates in synchronization with the path Cp, and the clock section 33 reads the current time obtained and the storage means 20, 21, and 22. The on / off time is compared with the time information, and when they match, the load control circuits 42, 43 for controlling the loads 44, 45 to turn on / off are turned on / off. The controller circuit 30 that sends a timer output that determines the on / off operation of the loads 44 and 45 in accordance with the off-operation information and outputs J9, and

OMPI It is constituted by ^ time display means 40 for displaying the current time obtained by the control circuit section 30.

The mark card 1 is formed in a rectangular shape that is long in the horizontal direction. I) The mark card 1 is provided with a mark entry field corresponding to a large number of ft reports. Each mark entry contains at least one entry box, and the appropriate 15 pieces are blackened out with black brush and marked with 17]. -As shown on card 1 above. The mark card 1 is fed in the horizontal direction, and the mark 17 thus marked on the mark card 1 is read by the reading means 10. Therefore, the mark 17 on the mark card 1 is converted into electrical information. As shown in FIG. 3, FIG. 8, and FIG. 9, the means 10 comprises a light-emitting diode for irradiating infrared light to the surface of the marker 1 and an LED. ₁₂ reflection-detection optical reading elements Si to S12 composed of a phototransistor and a PT that receive reflected light They are arranged in a single row along the direction orthogonal to and. Mark card 1 element S ^ ~S ₁₂ or et al ¾ read in cormorants by passing through the mark 1 7 is the most detected not easy position in the element S! S ^ reading on the mark card 1 Only difficulties d are transported intermittently. When you try this is marked 1-7 on mark card 1 you pass a position corresponding to the element St～S ₁₂ reading, emission ^ i O over de LED by irradiated infrared light is black The amount of light absorbed 3 by the smashed mark 17 and reflected from the marker force 1 surface D is reflected in accordance with the mark 17

O PI That's all. At this time, the amount of light received by the phototransistor PT decreases, and the collector current IG of the phototransistor PT decreases.], And the collector current Ic The presence or absence of the mark 17 is detected based on the change in. That is, the phototransistor PT has the operating characteristics as shown in Fig. 11], and the light-emitting diode LED irradiates the marker card 1. When the reflected light of the infrared light to be reflected is the reflected light from the mark 17, the light is induced by the light 3 because the amount of light received by the star PT is small. Pause current IB. Is small ?? If there is reflected light from the part without the mark 17, the light received by the photo-transistor PT is large, so The base current 13 induced by this increases. Therefore, the base of the transistor PT, I Ξ: the voltage V _CE between the reflection and the reflected light at the portion indicated by the mark 17 and the portion other than the mark 17 is obtained. It changes according to the operating point represented by the intersection of the load line LL with the characteristic curve of the corresponding base current I¾, IB !, respectively. Their, the results read I) output SO of the element S! To S _12, Ni would Yo of the first 0 view and first FIG. 1, that Ru acquired waveform corresponding to the presence or absence of mark 1 7. The peaks of this waveform correspond to the portions marked 17, and the valleys correspond to portions other than the marks 17. In the figure, E is the power supply voltage, t is the time, is the current limiting resistance of the light-emitting diode, ₂ is the phototransistor, and the coctor resistance of the star PT.

Output SO for this reading element S to S _12, each read肷element S to S, ₂ in the respective Se' is Ru 1 2 of the waveform shaping circuit WS

 OMPI

WIPO It is applied to the provided comparator circuit section 12. ^ The shaping circuit WS includes an operational amplifier OP and resistors R ₃ and R ₄ , as shown in FIG. To KazuSatoshi, reading the positive input terminal of the arithmetic增巾unit 0 P]? Is output OS is applied element St~ S _12, the the negative input terminal supply voltage of the operational增巾unit 0 P dividing resistors R _3, reference voltages Mr. S obtained by the partial pressure in R4 is applied to the arithmetic增巾unit 0 P! ? The reading elements S to S ₁₂ ® The output SO is compared with the reference voltage SL, and according to the magnitude relation between the two, it is connected to the output terminal of the operational amplifier 0 P by a rectangle as shown in Fig. 13 (b). The wave output SR is obtained. Thus, in response to the presence or absence of the mark 17, the high level signal (hereinafter abbreviated as H) and the low level signal (hereinafter abbreviated as L and L) of the signal are respectively determined. can get. Here, the rectangular shaping circuit SW is not limited to the one using the operational amplifier 0P, but may use a shot-trigger or the like.

The output SR of the comparator circuit section 12 whose waveform has been shaped is then applied to the multiplexer 15 in a multiple manner. As shown in FIG. ₁₄ , the multiplexer ₁₅ is formed by ₁₂ analog switches ASj ^ Asu corresponding to the read element ~ S12, as shown in FIG. . _{These 12 analog switches} A _Sl to As ₁₂ constitute one j-square with four pieces, and are divided into three groups. Anal b ^ scan I pitch _{A Sl ~As 4, As 5 ~} As s, co down Bok opening one j that controls the opening and closing of the A _Sg ~A _Sl2 terminals that make up the jar each click over the posterior segment over And each controller is connected to one and is grouped together with each crawler ^ Rule circuit section 30]]? Output time-division signal STo, ST! , ST ₂ is applied. Time division signal ST. , S, ST ₂ is Remind as in the first 5 figure is sent to the service Lee clicking three time division signal STo, ST:, U Owa whether we have ST ₂ starts to be sent The time required until this is 200 μs. The time period of the three time-division signals S Τ ₀ s ST _t ST ₂ is set to 1.2 ms, and the time-division signal 3 is used. , 31 \, 31 ¹ repetitive Shi period of ₂ that have been short or Ku also set by the time that reading the mark 1 7 1 Tsu tR enough. Output terminal of each § na ports ^ scan I pitch AS ASU is _{ASi s As, As 9. As} 2, s s, As 10 · As 3 As e As "· AS 4 each tooth of As _7, As ₁₂ one The four outputs are connected to each other, and the combined four outputs are applied to the control circuit section 30. The input applied in parallel at 12 bits to the loudspeaker 15 is time-divisionally converted to a 4-bit serial output.

 As shown in FIG. 4, the circuit section 30 is read from the mark card 1 by the reading means 10 as shown in FIG. Information with internal RAM that receives the information output from the server 15 and exchanges this information with external memories 20, 21, and 22, which are storage means. The input section 31, the operation determination section 32 that determines the control contents of the loads 44, 4.5 based on the information, the clock generation circuit 25, and the clock path CP generated by the clock path CP The clock section 33 which operates synchronously, a τ core section 34 for converting the output of the clock section 33 and the like into a signal suitable for the input of the time display means 40, an operation judging section 3 2 To the output of

OMPI A load control section 35 for sending and outputting the outputs to the load control circuits 42 and 43 accordingly is provided. The information input section 31, the operation determination section 32, the clock section 33, the decode section 34, and the load control section 35 all have a clock generation circuit 2 formed by a crystal oscillator circuit. 5) □ Operates in synchronization with the output clock pulse Cp. The clock section 33 is set by the operation of the time setting section 26, which is composed of multiple switches, and then synchronized with the clock pulse C? Then, a signal indicating the current time is output. The signal indicating the current time is sent to a time display means 40 such as a liquid crystal display panel or a sec- tion display element of a light source via a τ core section 34. Then, the current time is displayed on the time display means 40. On the other hand, information input to the circuit section 30 is stored in an external memory 20 composed of a RAM via the information input section 31. , 21 and 22 are written. In the figure, C _{EI to} CE ₃ are three external mails 20, 21, and 22: external mails 20, 21, and 22 that perfume and read information. The I / O terminal transmits a notification between the control circuit section 30 and the external memories 20, 21, 22, and-. Τ data input / output terminals, RZW, select whether to write information to external memories 20, 21, 22 or read information from external memories 20, 21, 22. The read no-write terminal and AD are address selection terminals for specifying addresses in external memories 20, 21, and 22. The output terminals Co, Ρθ, and Το of the load controller 35 are Even when connected to the six load control circuits 42 and 43 that drive Ry, the time and clock included in the information stored in the external memories 20, 21, and 22 are included. When the operation determination unit 32 determines that the current time obtained in 33 coincides with the current time, the output from the load control unit 35 is sent to predetermined load control circuits 42 and 43. The load 44 is applied, the contact r of the relay Ry is opened and closed, and the loads 44 and 45 are controlled on-off. AC in the figure is the commercial power supply. The loads 44 and 45 have a first load 44 that takes a relatively long time from turning on to turning off as in the case of lighting, and a user and a switch for notifying a time signal. There is a second load 45 that takes a relatively long time from turning it on to turning it off. In addition, the clock Cp) is not limited to the one output from the clock generation circuit 25, and the clock Cp can be obtained from an external device. Then, synchronization with the external device may be obtained.

The operation of the circuit section 30 will be described below in connection with the control in connection with the mark card 1. As shown in Fig. 5, on the surface of the mark card 1, up to 31 entry frames arranged in the longitudinal direction and one row of timers arranged on the same column in the entry frame The prints are printed in a row in the horizontal direction. In the first line, the entry frame 14 corresponding to the circuit designation information for designating one of the six load control circuits 42 and 43 described above, and the load to be controlled Mark entry column 18 indicating that the load corresponds to the second load 45, and the load to be controlled corresponds to the first load 44, such as the lighting. Mark entry field 19, which indicates the time to control the loads 44, 45, etc. Mark entry field 2, which specifies the day of the week in the off-time information, Marks for setting the time / time of the second load 45 when the second load 45 is operated, and marks 23 for setting the time / time of the second load 45 are arranged in order in the horizontal direction. That is, the mark card 1 is conveyed in the above-described direction, as described above, and is read in the above-described order. It has become. There are six entry boxes 14 corresponding to the circuit designation information, the same number as the load control circuits 42 and 43, and each entry box 14 has a number from 1 to 6 in parentheses. Is printed. Mark 1 to indicate that the second load 4 5 is controlled, and Mark 1 to indicate the control of the first load 44. Each box is printed with a letter in parentheses. The mark entry for day of the week 2 has seven entry boxes 16 in parentheses with the characters day, month, fire, ... corresponding to the name of each day of the week. . In the mark entry field 23 for setting the on-time of the second load 45, a numeral 10 with parentheses and a numeral 1 to 30 with parentheses are printed. . In this mark entry column 2 3 numbers Ru Ttei Ru door seconds 0 second row L ₂ or first 1 row L _n or,玆to display the time of time of 2 4 hours a day ' The first entry group 4 and the first entry group 4 are printed in parentheses with each digit from 0 to 2 corresponding to the 10th digit and each digit from 0 to 9 corresponding to the 1's digit. 2 Entry box group 5, number of minutes to display

OMPI The third box in which each digit from 0 to 5 corresponding to the tenth digit and each digit from 0 to 9 corresponding to the one's digit are printed in parentheses, one line at a time. There are a plurality of mark entries Nos. 2 and 3 composed of four entry boxes 4, 5, 6, and 7 in group 6 and the 4th E entry slot group 7. If the control of the first load 44 is specified in the mark entry column 19 on the first line, the mark entry columns 2 and 3 are used in the figure. Left! The odd-numbered mark entry field 2 corresponds to the time when the load 44 is turned off, and the even-numbered mark entry field 3 corresponds to the time when the load 44 is turned off. To Also, in the case of a call for controlling the second load 4 5 specifies the first row of the mark entry column 1 8, second row L ₂ or we first first line L All " Ma - click entry column 2, 3 o Thailand Mi emissions mark ... ... which corresponds to the time at which the load 4 5 to tail between the first 1 row L _u first row or et al. unexpected rather black at a position aligned on the same line of the input frames and縱direction!) one Busa is, the first two lines L ₁₂ that are lined I Do streaking. the mark entry column arranged in the first row Is printed with the circuit designation, time signal, timer, day of the week designation, team, and sounding time designation (seconds) corresponding to the entry frames, respectively. hour and minute between the L _2, (:). characters and symbols are printed, with a stamp 1 7 to mark card 1 when you, the information you对応its entry Azusa So that the contents can be identified To kill the timer using the mark card 1 as follows: First, the time interval between on-offs is relatively long like lighting. The case of controlling the first load 44 will be described. In Fig. 6, the first load 44 is connected to the third load control circuit 42, the days on which the load 44 operates are set to Monday, Wednesday, and Friday, and the load 44 is connected. The time to turn off is set to 12:30 and the time to turn off is set to 15:45, as shown in the figure. 1 3 Number 3 corresponding to the third load control circuit 4 2, Entry field indicating information to control the first load 4 4 1 Characters entered in 9, Entry field to specify the day of the week 2 month, water, gold 'character, and a number of对応from the second row L ₂ to the mark entry column 2, 3 of the load 4 4 O 2 / and time off of the first one line L _u Each of them is soaked in black with a pencil and a mark 17 is placed on the mark card 1. If the on-off time is previously inserted in the (: :) symbol as shown in the figure, the set time can be easily confirmed. On the other hand, when controlling the second load 45 for notifying the hourly signal, a marker 1 is created as shown in FIG. That is, in the example shown in FIG. 7, a channel is connected to the sixth load control circuit 43 as the second load 45, and the load 45 operates on the day of the week. Are fires, Thursdays, and Saturdays, the load 45 operation time is set to 11 seconds for time notification, and the time for reporting the time signal is 12:00:00. is there. The chair used here will sound at the set time by turning on the power 10 seconds before the time for notifying the set time signal. It is what it is. Therefore, the mark for setting the on-time of the second load 45 is equivalent to the preparation time required for ringing in the 2 3

O PI

WIPO The numbers corresponding to 10 and 11 corresponding to the operation time of the load 45 are blacked out, and the mark 17 is added. The other entry boxes are the same as those for controlling the first load 44 described above. However, in the case of the second load 45, it is necessary to set the time to turn off the load 45 because the operation time is separately specified by one mark entry field 23. If the load 45 is the same as above and the preparation time is unnecessary, set the ON time of the second load 45. It is not necessary to squash the number 1 1 0 in the mark box 23. The mark card 1 created as described above is read by the reading means 10 with the mark 17 as described above, and the information is transferred to the control circuit section 3. Next, the operation of reading information into the control circuit section 30 will be described with reference to the flowchart shown in FIG. Each Anal port scan I of the mark mosquitoes over each line on the de 1 -~ L _l2 and to intends Ma Le Chi-click for one five-inch A _Sl ~A _Sl2 is that support in reverse order to each other. To ¾ KazuSatoshi, the first row of the mark card 1 is to Anal Russia click the scan I pitch A _Sl2, Tei corresponds to the first two lines L ₁₂ there na b ^ scan I pitch A _Sl You. Send Mark Card 1]? At the beginning, control is performed and the time division signal ST is sent from the circuit 30 to the multiplexer 15. There is sent to对応the ninth line L ₉ forceゝet first 2 row L ₁₂ on mark over de 1 Anal b ^ scan I pitch A _Sl ~ As ₄ input Ru applied Tei in Output to the circuit section 30. Doo-out of this, Thailand Ξ down click Ma over the first two lines L ₁₂ click c〗 ...... only write If the signal TC obtained by the above is H, the core 2 / trolley) circuit 30 is provided with the analog switches A _Sl to

Once write-free output of As ₄ to the information input unit 3 1 of internal RAM. Followed by and the time-division signal ST ^ to H, Anal □ click the scan Lee Tsu Chi As ₅ ~ As _s capture the output of the information input section 3 1 of the built-in RAM, or the same in a time-division signal the ST ₂ in the H capture the output of Anal Russia scan I pitch As ₉ ~ a _Sl2 on-chip RAM. In this way, the 12-bit information is time-divisionally divided into 4-bit units and control is performed. Built-in circuit section 30: RAM is stored during 200 μs time. ) When one reading is completed in this way, the same operation is repeated again with an interval of 1 ms.

[3] The return of [3] is continued when the signal Ξ: / ^ signal TC continues to be high, and stops when the signal TC becomes low. In other words, the take signal TC becomes は while the take mark C _t … on the mark card 読 み 取 is read by the reading means 10. Then, at that time, the sign 17 attached to the entry box lined up with the line of Thai 5: Mark C: …… is also read by the reading means 10. It is done. The timer signal TC is counted by the control circuit section 30, and the timer signal TC corresponds to the row of the timing mark…. The information is detected so as to recognize which information the read information corresponds to. In addition, when reading the report, in order to achieve a malfunction due to noise, the time-divided tied signal is output when the signal goes to H twice. Chizusa 1

OMPI The output of 5 is taken into the built-in RAM.]? As described above, the presence or absence of the mark 17 on the mark card 1 is read as information, and the information is temporarily stored in the built-in RAM of the control circuit section 30. After that, the data is stored in the external memories 20, 21, and 22, and the timer setting is completed. In this case, the mark card 1 can perform the on / off control of the first load 44 for 15 times each in the on / off control.

 The capacity of the external memories 20, 21, and 22 can also store the set time of on-off control of one load control circuit 42, 43, corresponding to that. You. Therefore, when one load 44 is turned off for one day or more ?? 15 times or more, two or more marks with different load control circuits 42 are specified. By using the load 1 and connecting the outputs of a plurality of specified load control circuits 4 2 in parallel to connect one load 4 4, more than 15 ON-Z off-controls are possible It is what becomes. At this time, the load control circuit 42 that can specify each mark card is one circuit.], And it is assumed that a large number of circuits are specified for one mark card 1. In this case, it is assumed that the load control circuit 42 corresponding to the large number is designated. In addition, when controlling the second load 45 for reporting a time signal, the number of operations per day is 30 times, but when the number of operations is increased more times, the first operation is performed. As in the case of controlling the load 44, two or more marker cards 1 each specifying a different load control circuit 43 may be used.

 As described above, load 4 4, 4 5 force; on / off control

O P1 The time and the types of loads 44 and 45 to be controlled are recorded in external memories 20, 21 and 22. Of the information stored in the external memories 20, 21, and 22, the information on the specified day and time is specified by the clock section 33 in the control circuit section 30. When the operation determination unit 32 determines that the signal matches the output signal corresponding to the current time, the designated circuit and the type of the load 44, 45 stored simultaneously with the time information and the type Z Information on which control is to be performed is identified, and the load control circuits 42 and 43 are controlled according to the information. In this way, the first load 44 is turned off from the timer output terminal To connected to the load control circuit 42 for controlling the first load 44 to be illuminated. The second load 45 is output from the first time signal output terminal P ₀ to which the load control circuit 4 ′ 3 that outputs the timer to be controlled and controls the second load 45 is connected. : / Z Sends the time signal output for off-control, and turns on the power supply prior to the operation before the second load 45 is sounded. The time signal output from the second time signal output terminal Co to the load control circuit 43! ). Load control in the above description; II route 42, 43 and control j Output terminals Co, Po, and To of circuit section 30 are changed to load 44, 45 type. For the sake of convenience, they are all the same at the festival. Also, if the first load 44 and the second load 45 are specified at the same time on the mark card 1, it is determined that the first load 44 has been specified. As you can see, the leading position has been decided. In addition, of the information set The contents can be displayed on the time display section 40 by an appropriate setting content calling means. Marker 1 has a printed description of its handling on the back, and a margin in the front.

Claims

The scope of the claims

 (1) Specify the time at which the load is turned off.Off/Off Specify the time information and whether the load is turned off or off. D A mark card that specifies the desired information by marking the appropriate mark entry field with a mark that draws the corresponding mark marks. Reading means for reading the information specified by the mark entry mark marked with the mark of the mark on the mark card, and information read by the reading means. The memory has a memory unit g that stores the current time and a clock unit that operates in synchronization with the clock pulse, and reads out from the current time and memory means obtained by this clock unit. Load control for comparing the time information with and controlling the load on / off when the two match. A load control circuit that sends a timer output that determines a load switch in accordance with the above-mentioned switch operation information to the circuit; -) A time timer for displaying the current time obtained by the circuit section.

 (2) Time The mark marking machine corresponding to the time is arranged on the above-mentioned mark card alternately along the direction, and each mark filling corresponds to the tenth place of the hour display. A first entry group consisting of a plurality of entry boxes on which each number to be printed is printed, and a second entry group consisting of a plurality of entry boxes on which each number corresponding to the first digit of the hour display is printed. (2) A group of boxes and a number of boxes with each number corresponding to the tenth digit printed on the minute.)

OMPI It is characterized by the fourth entry consisting of a multi-layered, self-contained box with each letter printed on the first digit of the group and minute display. Patent II range ^ based on the description in Paragraph 1. □ Ram-type timer.

 (3) The α-circuit section has a function to selectively send the above-mentioned timer output to the independent load control leg circuit of the multi-kind, and to the macro card. Indicates the circuit designating information for designating each load control circuit. An entry frame is provided for each load control circuit, and the circuit designation information indicated in the marked entry frame is read. At the same time, the circuit specification information is stored in the ISil means, and the circuit specification information is read out from the storage means by the □ -I circuit, and the circuit specification information is read out. The scope of the patent request that the upper timer output is sent to the desired load control circuit specified in the paragraphs 1 to 7t is the program described in the paragraph 2. Formula Timer

(4) On-Z Off Mark for time information The IS IS Brocade has IB entry slots of 5 times each day of the month and 3 times a day. ¾: An ID frame to be set is provided, and the current Sf time obtained by the control circuit section is determined by one day of every reasonable day and 3f time of one day. The range of patent request for special motto a

2 Your own programmatic timer.

! 5) Indicates the time at which the first load is turned on / off; S on / off time Tf Report # 1 Determines whether to turn on the load of report 1ォ Z る io 1 1 1 1 1 io 1 io 1 ォ ォ ォ 1 1 1 1 Z 1 ォ Z Z ォ Z Z ォ Z Z Load 2: Specify the time. Mark the time corresponding to the time notification time information. Mark the field corresponding to the time notification time information to set the second load time to notify the time signal. A mark indicating information for controlling the first load of the first and second loads, and a mark indicating information for controlling the second load of the first and second loads. A mark card with an entry field, and a mark on which the desired information is specified by marking the appropriate mark entry field, and a mark on the mark card. A means for reading the information specified by the mark entry marked with a mark in the mark entry field], a storage means for storing and holding the information read by the reading D means, It has a clock section that operates in synchronization with the

 1? Compare the obtained current time with the information on the time read out from the storage means, : When the power is off: The timer output that determines the off / off operation of the first load in response to the off operation information and the second load in response to the hourly notification time 1W A load control circuit that controls the first load by the off-Z control, and

 Load control for off-load control of load 2: Control circuit to send out to a path, and Time display means to display the current time obtained by the control circuit And the above-mentioned code 0-j circuit section reads out the second load, which has been changed to D by the above-mentioned time signal output, from the above-mentioned storage means, and outputs the second load indicated by the time report time information. O 2 / Turn off at the end of time ^ Send the output to the corresponding load control circuit! ? With the function

OMPI WIPO s And a 0-column timer.

 (6) The mark entry field corresponding to the time and the mark entry field corresponding to the off time are alternately arranged along the direction in the mark card, and Each mark entry box is composed of a first entry group consisting of a number of entry boxes with each number printed corresponding to the tenth digit of the hour display.]? A second group of entry boxes consisting of a plurality of entry boxes with each corresponding number printed on it, and a plurality of entry boxes with each number corresponding to the tenth digit on the minute display A patent that features a combination of a third group of entry boxes and a fourth group of entry boxes consisting of a plurality of entry boxes on which the corresponding numbers are printed, with a corresponding number in the first digit. According to the claim 5. □ Clam-type timer.

 (7) The control circuit section has a function to selectively send the above timer output to a plurality of independent load control circuits that control the first load on / off. The mark card is provided with a plurality of entry frames indicating circuit designation information for designating each load control circuit, and the circuit designation information indicated in the marked entry frames is read by the above-mentioned reading means. While being read, the above-mentioned memory means is stored and held, and the control section reads out the circuit designation information from the storage means and sends it to a desired load control circuit designated by the circuit designation information. The □ -type timer according to claim 5, wherein the timer output is transmitted.

(8): マ Marks corresponding to the off-time information Brocade has multiple entry boxes corresponding to each day of the week and the time of day. Claims characterized by having an entry frame to be set and the current time obtained by the control circuit part being determined by each day of the week and the time within one day. The role type timer according to item 5 or 6.

 (9) Hourly notification time information Fill in the corresponding mark. C is the second load of the second load indicated in the time notification and time information;; the second load of the second load from the predetermined time before the time. Claims that claim that an entry for designating the operation has been provided. Claim 5 or Claim 6 □ A claim timer.