JPS63249091A - Time switch - Google Patents

Abstract

PURPOSE:To process detection output by an operational processing means, to facilitate day transfer setting an to eliminate the necessity of increasing set capacity even when day transfer setting is performed, by providing a set weekday detection means and a set time detection means to a microcomputer. CONSTITUTION:Control machinery is subjected to ON/OFF control on the basis of a plurality of programs relating to the alteration of a weekday or the like by a microswitch having a microcomputer built therein. A weekday performing the ON/OFF control of the control machinery is set by the weekday setting means 13 of said microswitch and a time turning the control machinery ON and OFF is set by a time setting means 14. The weekday set by the means 13 is detected by the set weekday detection means 15 of the microcomputer 6 and the time of the means 14 is detected by a set time detection means 16 and both detection outputs are operationally processed by an operational processing means 17. When the weekday controlling the control machinery is same and an ON-time is later than an OFF-time, the programs are carried out over two days or more when one of the time of the means 14 and the detection output of the means 16 is outputted.

Description

[Detailed description of the invention]

TECHNICAL FIELD The present invention relates to an electronic time switch that has a built-in micro combiator and is capable of setting a schedule for each day of the week.

[Background technology]

As a time switch, one that has a built-in microcomputer and can be set to turn on and off a control device according to multiple programs such as for each day of the week is available. With conventional electronic time switches, when performing program settings (hereinafter referred to as daily settings) as shown in Fig. 16 (1) over two or more days (consecutive), the settings shown in Fig. 8 (b) to
The method shown in <e) is to connect program settings within one day to make settings, which is cumbersome as it requires inputting multiple programs for one program setting. Further, in this case, there was also the problem that a large set capacity was required. [Objective of the Invention 1] The present invention has been made in view of the above points, and its purpose is to facilitate day-to-day setting, and to avoid the need to increase the set capacity even if day-to-day setting is made. DISCLOSURE OF THE INVENTION 1 (Structure) The present invention is a time switch that includes a built-in microcomputer and performs on/off control of a control device according to a plurality of programs such as for each day of the week, day-of-the-week fixed means for setting on/off days of the control device; time setting means for setting on/off times of the control device; and days of the week for on/off of the control device set by the day-of-the-week setting means. The set day of the week detection means and the day of the week when the control equipment is turned on and off set by the day of the week setting means are the same, and the on set time set by the time setting means is set to be off. A set time detection means that detects that the time is later than the set time, and when a detection output from either of the above two detection means occurs, it is determined that the program has been running for two days or more, and the program continues to run for two or more days. The time switch itself is equipped with arithmetic processing means for executing the program, and by having both of the above detection means, the time switch itself determines whether the set program is for one day or less or is set for one day. This allows the above mortar crossing setting to be set to 1.
By making it possible to use the same settings as programs for days or less, and by allowing the time switch itself to recognize that the settings are for days, programs for days and days can be memorized in the same way as programs for days or less. This eliminates the need to increase the capacity. (Embodiment) An embodiment of the present invention is shown in FIGS. 1 to 15. The time switch of this embodiment has a built-in microcomputer and can be installed in a DIN72 panel size power distribution board or control board. Figure 4 shows the functional blocks of this time switch.
The switch operation section 2 is used to set the time, program settings, output switching, etc., and the microcomputer 6 performs arithmetic processing as appropriate by operating the switch operation section 2. Note that the time switch of this embodiment is , regardless of the program set by the switch operation section 2, the external interrupt input section 4 can perform on/off control of the control equipment according to an external input signal input from an external device such as a sensor. The 0 display unit 1 shown in FIG. 1 displays the current time, program setting time, output status, etc. using the microcomputer 6 output. The power supply unit 3 converts a free voltage input of AC 30V to 240V to DC 5V to supply power to the microcomputer 6 and other circuits, and is capable of compensating for power outages using a battery. The output unit 5 is equipped with a relay driven by an output signal from the microcomputer 6, and this relay contact output is used to output two signals according to an independent program.
The circuit can be controlled. The specific configuration of the time switch of this embodiment will be explained with reference to FIG. 5. As mentioned above, the casing 7 of the time switch of this embodiment has a rectangular box shape that can be installed in a DIN72 panel size power distribution board or control panel. The display section 1 and the switch operation section 2 are disposed on the front surface thereof, and terminal sections 8 for connecting power lines and input/output lines are formed on both upper and lower sides. The display section 1 is composed of a liquid crystal display 12, and a time display section 12a1 that numerically displays the current time and the program setting time "hour", "1 minute", and "second"; a day of the week display that is a rectangular mark indicating the day of the week; It is possible to display an output display section 12b, an output display section 12e for displaying the output status, and the like. The switch operation unit 2 is arranged above the liquid crystal display 12 and has three modes: a normal mode in which the current time or an appropriate display for normal use is displayed on the liquid crystal display 12, a time setting mode in which the time is set, and a setting mode in which program settings are made. Mode switch 2a for switching
. A manual switch 2b, , 2b, provided for each circuit selects whether the control equipment is controlled by a program by the microcomputer 6 or manually.
, day switches 2c, - 2c7, which are arranged in a horizontal line below the liquid crystal display 12 and select each day of the week, 1 o'clock setting switch 2d, and minute J switch to set the hour when setting the time.
1 minute to set the setting switch 2e. "Seconds" setting switch 2f to set "seconds", day of the week change (
The call switch 2g calls up the day of the week on which the program to be changed is set when executing (details will be described later). It consists of an interval switch 2b for repeatedly setting the same time schedule, a day change switch 211 for selecting to change the day of the week, and an erase switch 2j for deleting programs such as changing the day of the week. Note that the above-mentioned "1 second" setting switch 2f also serves as a write switch used when changing the day of the week. The power supply unit 3, the interrupt input unit 4, and the output unit 5 are housed in a casing 7, and the power supply input terminal 9 of the power supply unit 3 and the output layer 10 of one circuit of the output unit 5. ~10. is provided on the lower terminal section 8, and the external input terminal 11 of the interrupt input section 4 and the output w6
The output layers 104 to 106 of another circuit of 5 are provided in the upper terminal section 8. Note that the output terminal 101 of this embodiment
~10. The terminal arrangement of the output section 5 is as shown in FIG.
Output terminals 1G, 10. is a common terminal, 10s*1
0s is the NC terminal, 10. . 10 is an NC terminal. Above switch section 2
are the switches 2a to 2 disposed on the front of the casing 7.
In addition to 1, an operation setting switch is provided on one side of the casing 7. This operation setting switch is composed of four switches 2 and 2, and a power failure compensation function selection switch 2, which selects whether or not the time switch has a power failure compensation function, and an external 2 (
The operation of this interrupt function selection switch 2 will be described later), and two setting changeover switches 2 and 3-2 that switch the operation of each circuit by the output section 5. By turning off the compensation function selection switch 2, the microcomputer 6 can be reset. In addition, the operation of the output unit 5 includes a timer operation for setting the on/off time of the control equipment, and 1iIIIl
There is a pulse operation in which cyclic operation is performed for a certain period of time by repeatedly turning lW1n on and off, and either operation can be selected with the operation state changeover switch 2k3.2k. In the following explanation, a case will be explained in which the time switch is operated as a timer. Next, the setting operation for setting the current time in this embodiment will be explained. In this case, first, the screen switch 2a is switched to a mode for setting the current time. At this time, the time display section 12m of the liquid crystal display 12 is fixed except for the "second" display section 12f,
"F hour" until the display section 12e shows the desired "hour" and "1 minute" respectively. 1 minute" setting by pressing the setting switches 2d and 2e multiple times to advance the numerical value. The second setting switch 2j is designed to start displaying 0 seconds to 1 second the moment you press and release it, and after setting the hour and minute, press and release to set 1 second. do. In addition, if it is necessary to change the day of the week, use the day of the week switch 2c1-2.
You can change the day of the week with cy. Then, by switching the mode switch 2a to the normal mode, the current time setting operation is completed. Next, the program settings for turning on and off the control equipment will be explained. In this case, the setting changeover switches 2k, 2k need to be switched so that the time switches perform time operation. First, the mode switch 2a is switched to the setting mode. In this state, the current time of the liquid crystal display 12 is displayed on the time display section 12m, and the "hour" and "minute" display sections 12d, 1
2e becomes "-1:--J" as shown in FIG. 7(a), and the symbol "ON" is displayed on the output display section 12c on the left side of this display. Note that "ON" displayed on the output display section 12e in the normal mode is a display indicating that the control device is in the on state, and in the setting mode, this rONJ display indicates that the time to be input from now on will be controlled. This display indicates that it is time to turn on the controlled device. In addition, a number from 1 to 16 is displayed in the seconds display 2 of the time display. This number is the remaining number of settings that indicates the number of programs that can be set, and by looking at this remaining number of settings, the user can The number of programs or the set capacity can be confirmed.Then, the time to turn on the control device is set using the "hour" and "minute" setting switches 2dt2e in the same manner as in the case of time adjustment described above. Note that the day of the week is set using the day of the week switches 2c1 to 2ct, and in most cases, the control equipment is turned on at the above times from Monday to Friday. If you want to turn it off, press the appropriate day switch 2C of the day switches 2cl to 2c7.
When c is pressed, the day of the week display section 12b is displayed. Figure 7(b) shows the display state of the liquid crystal display 12 with the ON time of the control equipment set in this way. This is done by pressing the "1 second" setting switch 2". When this [seconds] setting switch 2f is pressed, the LCD display 12 automatically changes the hours and minutes to 2d*2.
As shown in FIG. 7(d), e becomes r--knee-J, and the "ON" display on the output display section 12c on the left side of this display changes to rOFFJ display.In this example, In this case, the ON and OFF times of the control equipment are set as a set, and the setting of only the ON time and OFF time must be set as a set in order for the micro combinator 6 to accept the settings. At this time, the remaining setting number becomes one less than the value when setting the ON time of the control device.
In this embodiment, the off time of the control device is set in the same way as the on time described above.In this embodiment, up to 16 operations can be set, with each of the on time setting and off time setting of the control device being one operation. . Therefore, when no programs are programmed, the remaining number of settings is 16, and each time one program is set, the remaining number of settings decreases by 2 (by checking this remaining number of settings, the user can be sure You can check whether the program settings have been completed. When the program settings have been completed, the LCD display 12
As shown in FIG. 7(e), the display becomes the initial state at the time of setting the on time, and then the control equipment is turned on. You can set the off time. This program ends by switching the mode switch 2a to the normal mode. Here, the processing by the microcomputer 6 in the above program setting is as shown in FIG.
Since the has been switched to setting mode, the operation moves to display the remaining number of settings, and if there are remaining settings, the series of operations described above is executed, and if there are no remaining settings, the remaining settings are displayed. If you want to erase this program setting that displays "0" in the number and ends the operation without receiving the input signal of the switch operation section 2, use the above program setting. Similarly, the mode switch 2a is switched to the setting mode. By pressing the erase switch 2j in this state, one program in which the on and off times of the control equipment are set is erased. In this embodiment, the number of remaining settings increases by two. Therefore, the user can check whether the settings have been definitely deleted by checking the remaining number of settings. In addition, since the ON and OFF settings of the control equipment are set as a set,
The program can be erased even when the off time of the control equipment is displayed on the liquid crystal display 12. Please note that the above explanation is based on a typical electronic time switch.
Although the explanation is similar to the operation for setting a program within one day, in this embodiment, it is possible to set a program for two or more days as described below. The setting procedure for this day crossing setting is almost the same as the setting procedure for the program setting described above. However, in this embodiment, when setting the program for setting the on/off times of the control equipment, it is possible to set the programs for different days of the week, thereby enabling day-to-day settings. That is, in this embodiment, as shown in FIG.
Setting day of the week detection means 1 for detecting that the days of the week that are off are different
5 and the "hour", "1 minute", "second" setting switch 2 d, 2 which has the same day of the week when the control equipment is turned on and off as set by the day of the week switch 2 c, and which serves as the time setting means 14.
2 days when the set time detection means 16 detects that the ON setting time set in et 2 f is later than the OFF setting time and a detection output from either of the above-mentioned detection means 15 or 16 occurs. It is provided with an arithmetic processing means 17 which determines that the above-mentioned program is a daily setting and executes one program continuously for two or more days. Note that the operations of the set day of the week detecting means 15, set time detecting means 16, and arithmetic processing hand fi17 are performed by the software of the microcomputer 6)0 For example, as shown in FIG. 12: When operating the control device 8 times 9 at OO*, control 8! When setting the day of the week for the device's on setting time, set Monday and the time, and when setting the off setting time, set Thursday and the time. In this case, since the days of the week are different, the set day of the week detection means 15 of the micro convenience store 26
Since the setting is detected, the day crossing setting is automatically performed. Furthermore, even if the ON setting time is later than the OFF setting time on the same day of the week, the setting time detection means 16 of the microcomputer 6 detects that the setting is for the daytime setting, so the daytime setting is automatically set. . Incidentally, a chart 70 showing the determination processing program by the microcomputer 6 for the above-mentioned daily crossing setting is shown in FIG. In this way, daily settings can be made with one program similar to the program settings for one day or less, so the complexity at the time of setting can be reduced and the program capacity can also be reduced. Note that it is impossible for the on and off setting times to be the same on the same day of the week, so in this case, the microcomputer 6 handles the error. Furthermore, this embodiment has a day of the week change function described below.For example, as shown in FIG. 9(a), the control 8! In addition to operating the equipment, do you only control it from 16:00 to 20:00 on Sundays? l! ! It is assumed that a one-week time schedule has been set to operate the equipment. Assume that next week's Tuesday and Wednesday are holidays, and the control equipment should be operated in the same way as Sunday. In this case, using the above day of the week change function, the programs for Tuesday and Wednesday will be temporarily set to the same program as Sunday for the next week, and the next week will automatically have the same time settings as this week. This is what I did. First, the setting procedure for performing this day of the week change function will be explained. In this case, the mode switch 2a is switched to the time setting mode. Then, press the day of the week change switch 21. At this time, as shown in FIG. 10(b),
) From the display state of the liquid crystal display 12 shown in
The display except for the day of the week display section 12b such as "a" disappears, and all the rectangular marks that are the day of the week display section 12b change to "2".
Flashes at a frequency of Hz. In this state, I want to change 1IW
Press the day of the week switch 2c that matches 80 For example, to change Thursday and Friday, press the day of the week switch 2cH2e
Press s, this will cause the
Except for Thursday and Friday (the mark disappears and the mark becomes non-blinking. If you make a mistake in this selection, press the day switch 2C for the wrong day of the week again, and the mark for that day will be Kiyomoto, If you press the day switch 2C for another day of the week, the mark for that day will light up.Also, this setting number is 2.
You can set up to 6 programs (not limited to 6). Next, select the day of the week on which the program you want to change is set. In this case, press the call switch 2g. As shown in d), the leftmost mark among the extinguished marks other than those for the day of the week to be changed appears and blinks at a cycle of 2 Hz. This makes it possible to confirm that the desired program has moved to the selection operation for the set day of the week. Then, by pressing the day switch 2c corresponding to the day of the week on which the desired program is set, the day of the week to be changed is selected. Assuming that the day of the week on which the time setting to be changed is set is Wednesday, the day of the week switch 2e is pressed. At this time, as shown in FIG. 10(e), the mark indicating Wednesday flashes at a frequency of 2 Hz. Then, in order to write this set program into the memory of the Microfunbinitaro, switch 2, which also functions as a write switch, is used for 1 second.
Press f. This sets the program for changing the day of the week. At this time, as shown in FIG. 10('f), the liquid crystal display 12 returns to the state showing the current day of the week and time. Then, by returning the mode switch 2a to the normal mode, all day of the week setting operations are completed. Note that even when the mode switch 2a is switched to the normal mode, the mark indicating the current day of the week flashes at a frequency of IHz, as shown in Figure 10 (+r), indicating that the day of the week is being changed. This is so that the user can understand. Next, the program processing of Micro Convenience Store Taro for changing the day of the week in this embodiment will be explained. The determination as to whether the next day is the day for changing the day of the week is made when the time reaches 23:59:59. At this point, as shown in FIG. 11, the personal computer 6 calls up the stored changed day of the week and determines whether this changed day matches the next day's day of the week.
If they match, the process moves to change day of the week processing. Note that if this changed day of the week and the next day of the week do not match, the program for the next day of the week is called as usual, and this program is executed the next day. When the process shifts to day of the week change processing as described above, the day of the week specified for the day of the week to be executed is read, and the program for this day of the week is read. Then, the next day, the program will be executed according to the changed day of the week, and when the execution of this program is finished,
The original day of the week is called in, and the day of the week changing operation ends. That is, at this point, the day of the week changing operation is canceled, and from the week after next, the same program as this week will be executed, and there is no need to newly set the original program. Therefore, this embodiment is extremely effective when temporarily changing program settings. The setting procedure for canceling this day of the week change will be explained with reference to FIG. In this case, the mode switch 2a is switched to the time setting mode and the day of the week change switch 21 is pressed in the same manner as in the case of the above-mentioned day of the week change setting. At this time, the display shown in Fig. 12 (c) similar to Fig. 10 (e) showing the case where the previously set day of the week change call switch 2g is pressed and the day of the week switch 2c to which the program to be changed is set is pressed is displayed. It is displayed on the liquid crystal display 12. In this state,
By pressing the erase switch 2j, the day of the week change program is erased. At this time, the display on the liquid crystal display section 1 is as follows.
As shown in FIG. 12(c), the display returns to displaying the current day of the week and time, and the blinking of the mark indicating the day of the week also stops. Then, by switching the mode switch 2a to the normal mode, the operation for canceling the day of the week change is completed. Furthermore, by omitting the operation of pressing the erase switch 2j in the operation of canceling the day of the week change, the changed day of the week can be confirmed from the display on the liquid crystal display 12 shown in FIG. 13(a). Note that even if the program is set to run on a daily basis, it is also possible to change only a specific day of the week. External interrupt to ta! +1111 will be explained according to FIGS. 14 and 15. This external interrupt control is possible only when the manual switch 2b is set to automatic, and is performed with priority over the program set as described above. Furthermore, this external interrupt control is performed as follows by setting the interrupt operation switch 2 of the operation setting switch described above. Figure 14 shows the case where the interrupt operation switch 2 is turned on. In this case, when a T level signal is input to the interrupt input terminal 11, the control ffi device starts operating. On the other hand, Fig. 15 shows the interrupt operation switch 2kt.
is set to OFF, and when an H level signal is input to the interrupt input terminal 11, the operation of the control device is stopped. Note that in the event of a power outage, the external interrupt control function will stop. [Effects of the Invention] As described above, the present invention is a time switch that has a built-in microcomputer and performs on/off control of a control device according to a plurality of programs for each day of the week. a day of the week setting means for setting the on/off time of the control equipment; a time setting means for setting the on/off time of the control equipment; and a set day of the week detection means for detecting that the days of the week for the on/off of the control equipment set by the day of the week setting means are different. and set time detection for detecting that the on and off days of the control device set in the day of the week setting means are the same and that the on set time set in the time setting means is later than the off set time. and an arithmetic processing means that determines that the program has been run for two days or more when a detection output from either of the above-mentioned two detection means occurs, and continuously executes the program for two days or more. Therefore, by providing both of the detection means described above, the time switch itself can determine whether the set program is for one day or less, or whether it is a daily setting. It can be done with the same settings as the programs within 1 day, making it easy to set up daily travel, and since the time switch itself can recognize that it is a day travel setting, a program set for day travel can also be set as a program within 1 day. It can be stored in the same way, and there is no need to increase the set capacity.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a schematic configuration of the main parts of the present invention, FIG.
Figures 3(a) and 3(b) are explanatory diagrams of the same day crossing setting as above, Figure 4 is a block diagram showing the schematic configuration of the function of the time switch as above, and Figures 5(a) and (b) are respectively A front view and a side view showing the external appearance of the time switch as above, Figure 6 is a terminal layout diagram of the terminal section as above, Figures 7 (a) to (e) are explanatory diagrams of the setting procedure of the same program, The figure is a 70-chart of the display process of the remaining number of settings as above, Figure 9<a)t(b) is an explanatory diagram of the day of the week change function as above, and Figures 10 (a) to (g)
is an explanatory diagram of the setting procedure for changing the day of the week as described above, FIG. 11 is a 70-chart of the determination process of changing the day of the week as described above,
) to (C) are explanatory diagrams of the procedure for canceling the same day of the week change,
FIGS. 13(a) and 13(b) are explanatory diagrams of the confirmation procedure for changing the day of the week as described above, FIGS. 14 and 15 are explanatory diagrams of external interrupt processing as described above, and FIGS. 16(a) to (e) FIG. 2 is an explanatory diagram showing a conventional daily travel setting method. 13 is a day of the week setting means, 14 is a time setting means, 15 is a set day of the week detecting means, 16 is a set time detecting means, and 17 is a calculation processing means. Agent Patent Attorney Ishi 1) Long 7 Figure 1 Figure 3 (0) S'l'ij't5Ih6 -White 1=Soil 1-
■12den■-■121oO(k)) Pug 9A
-1-[1==ni2=r]-L-■12a-■1
20゜＠Tsuba! ! ! + Fig. 5 (b) Fig. 6 Fig. 7 Fig. 8 Fig. 9 Fig. 11 Fig. 12 Fig. 13 Fig. 14 Fig. 15 Fig. 16 (b) 11-
1-1”-〇12-00-@0-00(C) Puar
r=mu2 -111-L==1--1--ri-■0
1004) O-00(d) -rarr=ym3-
上一一上-fl-ト ■0・00-■o-o.

Claims (1)

[Claims] (1) A time switch that has a built-in microcomputer and performs on/off control of a control device according to multiple programs for each day of the week, and includes a day setting means for setting the day of the week on which the control device is turned on or off, and a control device. a time setting means for setting the on and off times of the control device; a set day of the week detection means for detecting that the on and off days of the control equipment set by the day of the week setting means are different; set time detection means for detecting that the on and off days of the control equipment are the same and the on set time set by the time setting means is later than the off set time, and either of the above both detecting means When one detection output occurs 2
A time switch comprising: arithmetic processing means that determines that the program has been used for more than one day, and executes the program continuously for more than two days.