JPH01115094A - Card type illumination control device - Google Patents

Abstract

PURPOSE:To make it possible to light and control main illuminating lamps etc., independently provided on each of different facilities by a common program and relay part by providing a logical operation means sending an output signal when receiving either a direction signal directing the lighting of illuminating lamps sent from a first control means via a disconnection means or a direction signal directing the lighting of illuminating lamps sent from a second control means. CONSTITUTION:Illuminating lamps used in facilities for a tennis court or a ground are controlled based on information memorized in a magnetic or IC card in the captioned device, and when used for two courts, the device is used in the state where jumper wires 21-24 are disconnected. When the B court is selected with a selection switch with a card inserted in the device by a user, an one side input in a NAND circuit 18 is connected to 'L' (GND) based on a direction signal from a second control part 200, and a main illuminating lamp 13 in the B court is lit with a relay 5 operating. This makes it possible to light and control main illuminating lamps etc., independently provided on each of different facilities.

Description

[Detailed Description of the Invention] [Industrial Field of Application] The present invention provides lighting lamps used in facilities such as tennis courts and grounds based on information stored on a magnetic or IC card (hereinafter simply referred to as a card). The present invention relates to a card-type lighting control device that performs control based on the following information.

[Conventional technology]

FIG. 2 is a block diagram of a card type lighting control device used in a tennis court. In FIG. 2, 51 is a part of the card reader that reads the data on the card, 52 is an input section that includes a selection switch (not shown) that selects whether to use the coat or whether it is fully lit or half lit, and 53 is a micro convenience store that controls each of these parts. 54 is a storage section in which programs such as frequency calculation are stored, and 55 is a load section 56 such as illumination lights and residual lights (not shown). ON via magnetic contactor
・Relay part 57 including the relay to be turned off is a display section showing the court used, remaining time, etc.

Incidentally, a card used in a card-type lighting control device has a predetermined frequency (the length of time that the lighting lamp can be lit) written on it in advance, and is lent or sold to a user of the lighting lamp. The user inserts this card into the card type lighting control device to use the lighting. In this case, the time written on the card is subtracted according to the time the lamp was used, and the user can use the lamp until the time written on the card becomes "0".

When the user inserts the card into the card-type lighting control device and selects the court to be used, full lighting or half lighting using the selection switch, the CPU section 53 inputs the information written on the card read by the card reader section 51. Based on the information from the section 52 and the program etc. stored in advance in the storage section 54,
A signal is sent to the relay part 55 to turn on the necessary illumination lights.

Next, when the user inserts the card into the device again, the CPU
The unit 53 turns off the illumination light, subtracts the power according to the usage time of the illumination light from the card power at the time of card insertion, writes the remaining power on the card, and returns the card to the user.

FIG. 3 is a diagram showing the connection between a part of the relay and a load section when the card-type lighting control device is used for two coats.

In FIG. 3, 53a is a court control section in the CPU section 5 which controls the main illumination light etc. installed on court A of the two courts according to a program stored in advance in the storage section 54, and 53b is a court control section in the storage section 54. This is a court control section 3 in the CPU section 5 that controls the main lighting lights etc. provided on court B of the two courts according to a pre-stored program.

Further, 61 to 64 are relays that operate based on an instruction signal from the A court control section 53a, and 65 to 68 are relays that operate based on an instruction signal from the B court control section 53b.
Reference numeral 69 indicates a main illumination light for the A court that is turned on via an electromagnetic contactor (not shown) when the relay 61 is activated, 70 similarly corresponds to the A court end warning buzzer corresponding to the relay 62, and 71 corresponds to the relay 63. Insecticidal light for A court, 7
2 is a residual light for A court corresponding to relay 64, 73 is a main illumination light for B court corresponding to relay 65, 74 is a completion warning buzzer for B court corresponding to relay 66, and 75 is a B court corresponding to relay 67. insecticidal light, 76 is relay 68
This is the remaining light for B coat corresponding to the above.

Now, if the user selects, for example, A court with the selection switch after inserting the card into the device, the relays 61 and 6
One end of 3 and 64 is connected to GND (earth), respectively. Since the other end of each relay 61 to 68 is connected to Vcc, this activates the relays 61, 63, and 64, and correspondingly lights up the A court main illumination light 69 and the like.

Similarly, when the user selects the B court, the relays 65 and 6 are
7 and 68 are activated, and the B court main illumination light 73 etc. are turned on.

Further, when the lighting time of the A court is within a certain period of time while the A court is in use, one end of the relay 62 is connected to GND based on an instruction signal from the A court control section 53a, and the illumination light is turned off after a certain period of time. The A-coat end warning buzzer 70 is bright to notify you of this. The same applies to the B coat end warning buzzer 74.

FIG. 4 is a diagram showing a connection between a part of the relay and a load section when the lighting lamp of the card-type lighting control device is used in full lighting or half lighting mode. In FIG. 4, reference numeral 53c indicates a half-light control section within the CPU section 5, which controls the illumination lights of one court in a fully lit or half-lit state according to a program stored in advance in the storage section 54, and 81 to 85 indicate a half-light control section, respectively.・Half-light control section 5
The relay 86 that operates based on the instruction signal from 3e is approximately half of the main illumination lights installed on one court, and when the relay 81 is activated, the light is transmitted through an electromagnetic contactor (not shown). The 1/2 main lighting light that lights up, 87 is the 1/2 main lighting light that corresponds to the relay 82, and 88
89 is an insecticide lamp corresponding to relay 84, and 90 is a remaining lamp corresponding to relay 85.

Now, when the user inserts the card into the device and selects, for example, all lighting with the selection switch, the relays 81, 82,
One ends of 84 and 85 are connected to GND. Each relay 81
Since the other end of ~85 is connected to Vcc, this activates the relays 81, 82, 84, and 85, and correspondingly, the 1/2 main illumination lights 86, 87, etc. are turned on. Since the 1/2 main lighting lights 86 and 87 are approximately half the lighting lights of the main lighting lights installed on one court, when the 1/2 main lighting lights 86 and 87 are turned on, the lights installed on the court All main lighting lights will be on.

In addition, when the user selects half lighting, the full/manual control unit 5
Relays 81, 84, and 85 operate based on the instruction signal from 3C, and 1/2 main illumination light 86, insecticide light 89, and residual light 90 are activated.
and lights up. In this case, since the 1/2 main lighting lamp 87 is not lit, the illumination of the court becomes half the brightness of when the main lighting lamp is turned on. The operation of the end warning buzzer 88 is the same as described above.

In this way, in the conventional card type lighting control device, the CPU
By providing the control section 53a for the inner court in the section 5 section 3, the B court angle control section 53b, and the total/manual control section 53c, it is possible to provide the control section for two courts with one device as shown in Fig. 3. The main lighting lights, etc. provided for each court can be turned on and controlled independently for each court, or the main lighting lights installed on one court can be turned on or off in a fully lit state or a partially lit state, as shown in Figure 4. It's in control.

[Problem that the invention seeks to solve]

However, in the conventional card-type lighting control device, as mentioned above, the main lighting lights of the two courts can be turned on and off independently.
Since we needed a part of the relay and a program for controlling the main lighting of one court and for controlling the main lighting of one court in a fully lit state or a partially lit state, we created two types of programs and a part of the relay. The disadvantage was that it required

The present invention has been made based on the above circumstances, and it is possible to independently light and control main lighting lights etc. installed in different facilities by using a common program and a relay part.
Another object of the present invention is to provide a card-type lighting control device that can control the main lighting lights of one facility in a fully lit state or a partially lit state.

[Means for solving problems]

In order to achieve the above object, the present invention comprises a first control means and a second control means for reading information stored in a magnetic or IC card and controlling lighting of a lighting lamp according to a predetermined program, and the first control means. and a selection means capable of selecting at least one of the second control means, the first illumination light being turned on and off by the first control means and the first illumination light being turned on and off. 1 relay, a connection/disconnection means for connecting/disconnecting the output signal of the first control means, an instruction signal for instructing lighting of the illumination lamp which the first control means issues via the connection/disconnection means, and the second control means. a logical operation means that emits an output signal when receiving one of the instruction signals for instructing the lighting of the illumination lamp; and a switching means that turns on when receiving the output signal from the logic operation means. , is turned on and off by the switching means, and turns on the second illumination light.
- A second relay that turns OFF is provided.

[Effect]

According to the present invention, when the connecting/disconnecting means is first turned off by the means described above, the first control means controls ON/OFF of the first relay, and as a result, the first lighting lamp is turned on/controlled according to a predetermined program. . Further, the second control means turns on/off the second relay via the logic calculation means and the switching means.
As a result, the second lighting lamp is turned on and controlled according to a predetermined program. Therefore, for example, if the first control means is selected by the selection means, the first illumination lamp is turned on and controlled, and when the second control means is selected, the second illumination lamp is turned on and controlled.

Next, when the connection/disconnection means is brought into the connected state, the first control means controls the first relay to turn ON/OFF, and at the same time turns the second relay ON/OFF via the logic operation means and the switching means.
F control. As a result, the first illumination light and the second illumination light are simultaneously turned on and controlled according to a predetermined program. Further, the second control means controls ON/OFF of the second relay via the logic operation means and the switching means, and as a result lights up and controls the second lighting lamp according to a predetermined program. Therefore, for example, if the first control means is selected by the selection means, the first illumination lamp and the second illumination lamp are turned on and off.
If the second control means is selected, only the second illumination light is turned on and controlled.

In this way, by switching the connection/disconnection means, a set of the first control means and the second control means can independently light and control the first illumination lamp and the second illumination lamp, or You can turn on and control the illumination light and the second illumination light at the same time, or
Only lighting lights can be lit and controlled. Therefore, by arranging the first illumination light and the second illumination light, for example, at two different tennis courts, the illumination of the two tennis courts can be controlled independently. Furthermore, if the first lighting lamp and the second lighting lamp are set to approximately half of the lighting lamps installed on one tennis court, for example, the lighting of one tennis court can be turned on in a fully lit state or in a half lit state. can be controlled.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG.

FIG. 1 is a diagram showing a connection between a part of a relay and a load section of a card-type lighting control device according to an embodiment of the present invention. The block diagram of the card-type lighting control device, which is an embodiment of the present invention, is the same as the block diagram of the card-type lighting control device shown in FIG. 2, so detailed explanation thereof will be omitted. Further, in FIG. 1, parts having the same functions as those of the conventional example are given the same reference numerals, and detailed explanation thereof will be omitted.

In FIG. 1, 100 and 200 are CPs that control the main illumination lights, etc. according to a program stored in advance in the storage unit 54.
These are the U part 5 part 3 part 1 control part and the second control part. Also, 1
~4 is a relay controlled by the first control unit 100; 5~
8 is a relay controlled by the second control unit 200; 9 to 1;
6 is the load such as the main lighting, 17 is the pull-up resistor, 1
8 is a NAND circuit, 19 is a resistor, 20 is a transistor (
Usually, a driver IC is used. ), 21 to 24 (dotted line) are jumper wires, and 25 is a power source for sending power to loads 9 to 1G.

Depending on the presence or absence of jumpers vA21 to vA24, this device can be used for two coats as shown in FIG. 3 of the conventional example, or can control full lighting or half lighting as shown in FIG. 4 of the conventional example. It can be used for one coat.

First, when using it for two coats, use the jumper &? shown by the dotted line. ! 21 to 24 are used in a separated state. Load 9 is equipped with the main illumination light for A coat, load 1 is
0 is the end warning buzzer for A coat, load 11 is the insecticidal light for A coat, load 12 is the remaining light for A coat, load 13 is the main lighting light for B coat, load 14 is the B coat light. A coat end warning buzzer is connected to the load 15, a B coat insecticidal light is connected to the load 16, and a B coat remaining light is connected to the load 16.

Now, when the user inserts the card into the device and selects B to 1 with the selection switch, one input of the NAND circuit 18 is set to rL based on the instruction signal from the second control section 200.
Connected to J (GND).

Further, since the other inputs of the NAND circuit 18 are always pulled up by the resistor 17, the output of the NAND circuit 18 becomes rHJ (V c c), and the transistor 20
is set to ON state. This activates the relay 5 and lights up the main illumination light 13 of the B court.

The second control unit 200 also controls the relays 7 and 8 as necessary.
Via the insecticidal light 15 for B coat and the residual light 1 for B coat.
Completion warning buzzer 1 for B court that lights up 6 or informs that the illumination light will be turned off after a certain period of time via relay 6
Ring 4.

Furthermore, when the user selects the A court, the A court control section 100 similarly controls the loads 9 to 12 for the A court, such as the main illumination light 9 for the A court. With the jumper wires 21 to 24 separated in this manner, the main illumination lights and the like provided in courts A and B can be independently controlled.

Next, when using it for one coat that can control full lighting or half lighting, jumper wires 21 to 24 shown in dotted lines
Use with all connected.

The load 9 has a lighting lamp 1 which is approximately half of the main lighting lamp.
The load 13 is connected to the 1/2 main illumination light, which is the remaining half of the illumination light. In addition, the end warning buzzer, insecticidal light, and remaining light have a load of 10 to 12 or a load of 14 to 1.
6.

Now, when the user inserts the card into the device and selects the A court, one end of the relay 1 is connected to "LJ (GND)" and the relay 1 is activated.

At the same time, one of the inputs of the NAND circuit 18 becomes rLJ due to the jumper wire 21, so the output of the NAND circuit 18 becomes rHJ regardless of the state of the other inputs, turning on the transistor 20 and operating the relay 5. In other words, when the user selects A court, relay 1 and relay 5
Both are activated, and the 1/2 main lighting lamp connected to the load 9 and the 1/2 main lighting lamp connected to the load 13 are turned on, resulting in a fully lit state. Also, jumper *22, 23, 24
Therefore, one end of relays 2, 3, 4 and relays 6, 7, 8 are connected in parallel, and relays 2, 3, 4 and relays 6, 8 are connected in parallel.
7 and 8, the first control unit lOO controls the termination warning buzzer, the insecticidal light, and the remaining light connected to the loads 10 to 12 or the loads 14 to 15 as necessary, as in the conventional example. control.

Furthermore, when the user inserts the card into the device and selects the B court, the N
One of the inputs of the AND circuit 18 becomes rLJ, and the other inputs are always rHJ due to the resistor [7, so NAN
The output of the D circuit 18 becomes rHJ, and the transistor 20
is turned ON and relay 5 is activated. In this case, only the 1/2 main lighting lamp connected to the load 13 is lit, and the 1/2 main lighting lamp connected to the load 9 is not lit, resulting in a half-lit state. Also, in the same way as described above, the second section II Oshibe 200 controls the termination warning buzzer, insecticidal light, and remaining light connected to loads 10 to 12, for example, as necessary. When the lines 21 to 24 are connected and the load is connected, the user can insert the card into the device of this embodiment and select the A court to use the main illumination light with all points tr. If you select Coat B, you can use the main lighting in a half-lit state.

As described above, according to the device of this embodiment, if the jumper wire is separated, it can be used for two coats, and if the jumper wire is used in a connected state, full lighting or half lighting control is possible. It can be used for coating. Therefore, according to the device of this embodiment, unlike the conventional example, it is not necessary to provide a program and a relay part for each case, so that the program in the storage part and the relay part are l11tl! This has the advantage of saving you the trouble of managing inventory for some programs and relays.

In the above embodiment, a jumper wire was used as the connection/disconnection means, but this could be manually turned on.
- It may be a switch that turns off.

〔Effect of the invention〕

As explained above, according to the present invention, it is possible to independently light and control the main lighting lights etc. installed in different facilities using a common program and a relay part, or to independently light and control the main lighting lights etc. installed in each of different facilities. Since the lights can be controlled in a fully lit state or a partially lit state, the program in the memory section and part of the relay can be
Therefore, it is possible to provide a card-type lighting control device that can save the trouble of managing the inventory of programs and relays.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing a connection between a relay part and a load section of a card-type lighting control device according to an embodiment of the present invention, and FIG. 2 is a block diagram of a card-type lighting Fy1 control device used in a tennis court. Figure 3 is a diagram showing the connection between the relay part and the load section when the card-type lighting control device is used for two coats, and Figure 4 is a diagram showing the connection between the relay part and the load section when the card-type lighting control device is used for two coats. It is a figure which shows the connection of a part of relay and a load part in the case of use. 1 to 8...Relay, 9 to 16...Load, 17.1
9...Resistor, 18...NAND circuit, 20...
Transistor, 21-24...Jumper wire, 51.
...Card reader part, 52...Input section, 53...
CPU section, 54... Storage section, 55... Relay part, 5
6... Load section, 57... Display section. Applicant: i-Writing System Co., Ltd.

Claims (1)

[Claims] a first control means and a second control means that read information stored in a magnetic or IC card and control lighting of the illumination lamp according to a predetermined program; and at least one of the first control means and the second control means. A card-type lighting control device including a selection means that can select, a first relay that is turned on and off by the first control means and turns on and off a first illumination light, and an output signal of the first control means. an instruction signal issued by the first control means via the connection/disconnection means to instruct lighting of the illumination lamp; and an instruction signal issued by the second control means to instruct lighting of the illumination lamp. A logic operation means that outputs an output signal when receiving an instruction signal from one of the logic operation means, a switching means that turns on when receiving an output signal from the logic operation means, and a switching means that is turned on and off by the switching means and outputs an output signal. 1. A card-type lighting control device comprising a second relay for turning on and off two lighting lights.