JP3551742B2 - Connection of multiple units - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
According to the present invention, a plurality of units are electrically connected in multiple stages using a connector, a plurality of signal lines are collectively connected to the first stage unit from the outside, and the first signal unit is connected to the first stage unit by a first signal line. The present invention relates to a connected body of a plurality of units that operates a driving unit and operates a driving unit of an N-th unit by an Nth signal line.
[0002]
[Prior art]
FIG. 6 shows an outline view of a light emitting diode type laminated indicator light which is a related-art connection unit of a plurality of units, and FIG. 5 shows a wiring connection diagram thereof.
The light-emitting diode-type laminated indicator light 1 has a first stage of red, a second stage of orange, a third stage of green, and a fourth stage (top) of blue light emitting diode unit 3 (hereinafter simply referred to as unit 3). Are connected to each other.
The first to fourth stage units 3 are provided with an input connector CNI and an output connector CNO, respectively, and the first to fourth stage units 3 are connected in series by the connectors CNI and CNO. Then, the lead connector CR which is a bundle of signal lines is connected to the input connector CNI of the first-stage unit 3.
FIG. 5 shows a state before the units are connected to each other by the connectors CNI and CNO.
[0003]
As shown in FIG. 5, the first-stage unit 3 has the No. of the input connector CNI. No. 1 terminal and No. 5 terminals (common terminals) are connected to a red light emitting diode which is a driving unit. No. 1 terminal to common terminal and No. of output connector CNO. One terminal to the common terminal are connected to each other.
The second stage unit 3 has the input connector CNI No. The two terminals and the common terminal are connected to an orange light-emitting diode. No. 1 terminal to common terminal and No. of output connector CNO. One terminal to the common terminal are connected to each other.
[0004]
The third unit 3 is the input connector CNI No. The third terminal and the common terminal are connected to a green light emitting diode. No. 1 terminal to common terminal and No. of output connector CNO. One terminal to the common terminal are connected to each other.
The fourth unit 3 is the input connector CNI No. Four terminals and a common terminal are connected to a blue light emitting diode. No. 1 terminal to common terminal and No. of output connector CNO. One terminal to the common terminal are connected to each other.
[0005]
With this structure, when the lead connector CR is connected to the input connector CNI of the first-stage unit 3, the lead wire No. The first wire (signal I) is electrically connected to the red light emitting diode, and the lead wire No. 1 is connected. The second line (signal II) is an orange light emitting diode, and the lead wire No. The third line (signal III) is a green light emitting diode, and the lead wire No. Line 4 (signal IV) is connected to the blue light emitting diode. Therefore, the red light emitting diode can be operated by the signal I, the orange light emitting diode can be operated by the signal II, the green light emitting diode can be operated by the signal III, and the blue light emitting diode can be operated by the signal IV.
[0006]
[Problems to be solved by the invention]
However, according to the light-emitting diode type stacked indicator, it is not possible to use a plurality of light-emitting diode units 3 of the same color and operate them with different signals. For example, when the red light emitting diode unit 3 is used in the first and fourth stages, the first and fourth red light emitting diodes operate by inputting the signal I 2, and the signal IV is input. The fourth red LED does not work. Even if the red light emitting diode unit 3 is arranged in the fourth row, the red light emitting diode is no. This is because it is not connected to the fourth line (signal IV). Similarly, if the first to fourth stages are all united by the light emitting diode units 3 of the same color, all the units from the first to fourth stages operate with one signal.
[0007]
That is, the signal I corresponds to a red light emitting diode, the signal II corresponds to an orange light emitting diode, the signal III corresponds to a green light emitting diode, and the signal IV corresponds to a blue light emitting diode. Therefore, for example, when the unit of the orange light emitting diode fails and there is no spare for the unit, the unit of the red light emitting diode cannot be substituted. As described above, since the number of the lead wire is determined to be what color in the light emitting diode type stacked indicator lamp, it is impossible to add or reserve a lead wire, and it is possible to stack only up to a total of four stages of one color. That is, the same color or five or more layers cannot be stacked, and there is a problem that the degree of freedom of combination of the units 3 is low.
[0008]
An object of the present invention is to improve the degree of freedom of combination of units in a connected body of a plurality of units.
[0009]
[Means for Solving the Problems]
The above-mentioned problem is solved by the invention of each claim.
According to the first aspect of the present invention, N units are electrically connected in N stages by a connector, and N signal lines from the first to the Nth are connected to the first stage unit, and the first signal line is used to connect the N units. A connection unit of a plurality of units configured to operate a driving unit of a first-stage unit and operate a driving unit of an N-th unit by an Nth signal line , wherein the unit includes an input connector and an output connector. The output connector of one unit and the input connector of another unit are connectable, and the input connector and the output connector of each of the units are No. No. 1 to No. N terminals up to N and a terminal to which a common line is connected . No. 2 to No. The terminals up to N are the output connector Nos. No. 1 to No. (N-1) are sequentially connected to the terminals, and the input connector No. No. 1 terminal is the output connector No. N terminal, and the common line terminals of the input connector and the output connector are connected to each other, and the input connector No. of each of the units is connected . One terminal and a terminal for a common line are connected to a drive unit of the unit.
Here, N represents a natural number.
[0010]
According to the present invention, the number of the input connector of each unit is no . No. 2 to No. The terminals up to N are output connector Nos. No. 1 to No. Terminals up to (N-1) are connected in order. The output connector of one unit and the input connector of another unit are connectable. For this reason, when the units are connected in two stages, the input connectors No. The first terminal (hereinafter referred to as a second-stage input No. 1 terminal) is the first-stage output connector No. No. 1 of the input connector of the first stage via the first terminal . 2 terminal (first stage input No. 2 terminal). Similarly, the second-stage input No. No. 2 terminals are No. 1 of the first stage output connector . The first-stage input No. via the second terminal Connected to three terminals. In addition, the second stage input No. (N-1) terminal is the No. of the first stage output connector . (N-1) terminal, the first-stage input No. Connected to N terminal.
When the units are connected in three stages, the third stage input No. Terminal 1 is the second stage input No. First-stage input No. via the second terminal or the like . Connected to three terminals. For this reason, when the units are connected in N stages, the Nth stage input No. As a result, the first terminal is the first-stage input No. Connected to N terminal.
Here, the input connector No. One terminal and the terminal for the common line are connected to the drive unit of the unit.
Therefore, the first-stage input No. No. 1 to No. By connecting the first to Nth signal lines to the N terminal, the first signal line drives the unit of the first unit, the second signal line drives the unit of the second unit,. Can drive the drive unit of the N-th unit.
Further, for example, even if the N-th stage unit and the first-stage unit are exchanged, the driving unit of the old N-th unit installed at the first stage can be operated by the first signal line. Similarly, the drive unit of the former first-stage unit installed at the N-th stage can be operated by the N-th signal line. Therefore, the units can be interchanged freely.
[0011]
The invention according to claim 2 is characterized in that the drive unit of one unit is different from the drive unit of another unit.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
Hereinafter, a connection body of a plurality of units according to the first embodiment of the present invention will be described with reference to FIGS. In this embodiment, the present invention is applied to a light-emitting diode-type laminated indicator light, and FIGS. 1 to 3 show a wiring diagram of a main part of the light-emitting diode-type laminated indicator light.
The light-emitting diode-type laminated indicator light 10 has substantially the same outer shape as the conventional light-emitting diode-type laminated indicator light 1 (see FIG. 6), with the first stage being red, the second stage being orange, and the third stage being orange. The light emitting diode unit 13 (hereinafter, simply referred to as a unit 13) of green and blue of the fourth stage is connected to each other.
[0016]
As shown in FIG. 1, each unit 13 has the same circuit configuration, and includes an input connector CNI and an output connector CNO. The input connector CNI of the first-stage unit 13 is connected to the lead connector RC which is a bundle of the signal lines (I to IV), and the output connector CNO of the first-stage unit 13 is connected to the second-stage unit 13. The input connector CNI is connected. The input connector CNI of the third-stage unit 13 is connected to the output connector CNO of the second-stage unit 13, and the input connector CNI of the fourth-stage unit 13 is connected to the output connector CNO of the third-stage unit 13. Is done. Thus, the units 13 are connected in four stages.
[0017]
The lead connector RC is a 5-pin connector. No. on one terminal. No. 1 signal line, No. No. 2 terminal. No. 2 signal line, No. No. 3 terminal. No. 3 signal line, No. No. 4 terminal. No. 4 signal line, No. A common line is connected to five terminals.
The input connector CNI and the output connector CNO of each unit 13 are also 5-pin connectors. 1 terminal is connected to the (-) terminal of the light emitting diode 14 in the unit 13, and the output connector CNO No. It is also connected to four terminals.
[0018]
In addition, the input connector CNI No. Two terminals are No. of output connector CNO. No. 1 input connector CNI No. The three terminals are No. of the output connector CNO. No. 2 of the input connector CNI is connected to two terminals. 4 terminals are No. of output connector CNO. It is connected to three terminals. Further, the input connector CNI No. 5 terminals are No. of output connector CNO. It is connected to five terminals and also to the (+) terminal of the light emitting diode 14.
[0019]
Therefore, when the lead connector RC is connected to the input connector CNI of the first-stage unit 13, the (+) terminal of the red light-emitting diode 14 of the first-stage unit 13 is no. 5 is connected to the common line via the terminal No. 5, and the (-) terminal is No. No. 1 of the lead wire via one terminal. Connected to one signal line.
When the input connector CNI of the second-stage unit 13 is connected to the output connector CNO of the first-stage unit 13, the (+) terminal of the orange light-emitting diode 14 of the second-stage unit 13 is No. 5 is connected to the common line via the terminal 5, and the (-) terminal is the input connector CNI No. of the second stage unit 13. 1 terminal (hereinafter referred to as a second-stage input No. 1 terminal), a first-stage input No. No. of lead wire through two terminals. Connected to two signal lines.
[0020]
When the input connector CNI of the third unit 13 is connected to the output connector CNO of the second unit 13, the (+) terminal of the green light emitting diode 14 of the third unit 13 is No. 5 is connected to the common line via the terminal 5, and the (-) terminal is connected to the third-stage input No. 1 terminal, 2nd stage input No. 2 terminal and first stage input No. No. 3 of the lead wire via three terminals. Connected to three signal lines.
Similarly, when the input connector CNI of the fourth unit 13 is connected to the output connector CNO of the third unit 13, the (+) terminal of the blue light emitting diode 14 of the fourth unit 13 is No. 5 is connected to the common line via the terminal 5, and the (-) terminal is connected to the fourth stage input No. 1 terminal, 3rd stage input No. 2 terminal, 2nd stage input No. 3 terminal and first stage input No. No. of the lead wire via the four terminals. 4 signal lines.
[0021]
For this reason, with respect to the light emitting diode type laminated indicator lamp 10, the lead wire No. When the signal I 2 is input from one signal line, the first-stage red light-emitting diode 14 operates (emit or emits light). In addition, the lead wire No. When the signal II is input from the second signal line, the second-stage orange light emitting diode 14 operates. In addition, the lead wire No. When the signal III is input from the third signal line, the green light emitting diode 14 in the third stage operates. Similarly, the lead wire No. When the signal IV is input from the four signal lines, the blue light emitting diode 14 in the fourth stage operates. That is, the light emitting diode 14 functions as a driving unit of the present invention, and the input connector CNI and the output connector CNO function as an input unit and an output unit of the connector of the present invention.
[0022]
As described above, according to the light-emitting diode-type laminated indicator lamp 10 according to the present embodiment, since the wiring in each unit 13 is equal, the units 13 can be interchanged. Therefore, for example, as shown in FIG. 2, even if the unit 13 of the red light emitting diode 14 used in the first stage is used instead of the unit 13 of the blue light emitting diode 14 in the fourth stage, The red light emitting diode 14 is No. It can be operated by signals IV from four signal lines. Further, even when the units 13 of the same color are used in the first to fourth stages, each unit 13 can be operated by the signals I to IV.
[0023]
Similarly, even if the adjacent unit 13 has the same color and the other unit 13 has a different color, each unit 13 can be operated by the signals I to IV. Further, for example, when the unit 13 of the orange light emitting diode 14 fails and there is no spare for the unit 13, the unit 13 of the red light emitting diode 14 can be substituted. As described above, according to the light-emitting diode-type laminated indicator lamp 10 according to the present embodiment, the degree of freedom of the combination of the units 13 is significantly improved. Further, the versatility of each unit 13 is improved, and the maintainability is improved.
[0024]
Further, since the input connector CNI and the output connector CNO of each unit 13 are connected in a state where the numbers are shifted one terminal at a time, the position (the number of stages) of the unit 13 and the number of the signal line connected from the outside can be easily determined. Can be made to correspond. Therefore, confusion does not occur even if the units 13 are freely replaced.
[0025]
Here, in the light-emitting diode-type laminated indicator lamp 10 according to the present embodiment, an example in which the units 13 are connected in four stages is shown, but the present invention is not limited to this, and as shown in FIG. It is also possible to connect in N stages. It is also possible to form two or three stages. Further, in the present embodiment, an example in which the driving unit is the light emitting diode 14 has been described. However, the present invention is not limited thereto. For example, the driving unit may be a buzzer, a rotating light, or the like. Further, in this embodiment, an example in which the input connector CNI and the output connector CNO are separately provided has been described, but an input unit and an output unit may be provided in one connector.
[0026]
[Second embodiment]
FIG. 4 is an internal wiring diagram of the unit 23 of the multiple unit connection body according to the second embodiment of the present invention.
The unit 23 has an input connector CNI and an output connector CNO. No. 1 terminal is connected to the output connector CNO No. via the changeover switch 23a. No. 1 terminal or No. Connected to N terminal. In addition, the input connector CNI No. The two terminals are connected to the output connector CNO No. via the changeover switch 23a. No. 1 terminal or No. Connected to two terminals. Further, the input connector CNI No. No. 3 terminal is connected to the output connector CNO No. via the changeover switch 23a. No. 2 terminal or No. Connected to three terminals. Similarly, the input connector CNI No. The N terminal is connected to the output connector CNO No. via the changeover switch 23a. N-1 terminal (No. 8 terminal in FIG. 4) or No. Connected to N terminal.
[0027]
Further, the input connector CNI No. The N + 1 terminal is the output connector CNO No. It is connected to the (N + 1) terminal and to the (+) terminal of the drive unit 24.
In addition, the input connector CNI No. No. 1 to No. The N terminal is connected to the (-) terminal of the drive unit 24 via the ON-OFF switch 23b. The ON-OFF switch 23b is No. No. 1 to No. Only one of the N terminals is connected to the drive unit 24.
[0028]
With this structure, for example, the ON-OFF switch 23b is used to set the input connector CNI No. 1 terminal is connected to the (-) terminal of the drive unit 24, and the changeover switch 23a is switched to the left in the figure (the state of FIG. 4), and the No. 1 of the input connector CNI is set. No. 1 to No. N terminal is the output connector CNO No. N terminal to No. By connecting to the N-1 terminal (eight terminals), a circuit configuration similar to that of the unit 13 (see FIGS. 1 to 3) in the first embodiment can be obtained.
[0029]
Further, the changeover switch 23a is switched to the right in the figure, and the No. of the input connector CNI is set. No. 1 to No. N terminal and output connector CNO No. No. 1 to No. By connecting the N terminals in correspondence with each other, a circuit configuration similar to that of the conventional unit 3 (see FIG. 5) can be obtained. Therefore, for example, if the two units have the same circuit configuration as the conventional unit 3, the two units can be simultaneously operated by one signal. Thus, by providing the changeover switch 23a and the ON-OFF switch 23b, the versatility of the unit 23 is further improved.
[0030]
In the present embodiment, an example in which the circuit is switched using the changeover switch 23a and the ON-OFF switch 23b has been described. However, a method in which the circuit is switched using a jumper pin or the like is also possible. Further, without providing the changeover switch 23a, the input connector CNI and the output connector CNO are formed into cylindrical connectors, and both connectors are relatively rotated by one terminal from a state where the respective terminals are connected. It is also possible to return to the circuit configuration of the unit 13 in the embodiment or to return to the circuit configuration of the conventional unit 3. According to this method, the circuit configuration can be easily known from the phase difference between the input connector CNI and the output connector CNO.
Further, in the present embodiment, the (+) side common circuit configuration is used, but a (−) common circuit configuration may be used. Further, the present invention can be applied not only to a DC circuit but also to an AC circuit.
[0031]
【The invention's effect】
According to the present invention, since the wiring in each unit is equal, it is also possible to exchange units having different types of driving units, and it is possible to improve the degree of freedom of unit combination in a connection unit of a plurality of units. In addition, since the versatility of each unit constituting the connected body of a plurality of units is improved, the operation rate of the units is improved and the maintainability is also improved.
[Brief description of the drawings]
FIG. 1 is a main part wiring system diagram of a connection unit of a plurality of units according to a first embodiment of the present invention.
FIG. 2 is a main part wiring system diagram of a connection body of a plurality of units according to the first embodiment of the present invention.
FIG. 3 is a main part wiring system diagram of a connection body of a plurality of units according to the first embodiment of the present invention.
FIG. 4 is a wiring diagram inside a unit of a connection body of a plurality of units according to a second embodiment of the present invention.
FIG. 5 is a main part wiring system diagram of a conventional connection unit of a plurality of units.
FIG. 6 is a front view (FIG. 6A) and a plan view (FIG. 7B) of a conventional connection body of a plurality of units.
[Explanation of symbols]
10. Light-emitting diode type stacked indicator (connecting multiple units)
13 Unit 14 Light emitting diode (drive unit)
CNI input connector (input part of connector)
CNO output connector (connector output section)
CR lead wire connector

Claims (2)

The N units are electrically connected in N stages by a connector, the first to Nth N signal lines are connected to the first stage unit, and the driving unit of the first unit is connected by the first signal line. was operated, a connection of a plurality of units of structure for operating the driving portion of the unit of the N-th stage by a signal line of the N,
The unit has an input connector and an output connector,
The output connector of one unit can be connected to the input connector of another unit,
Wherein the input connector and the output connector of each of said units, No. No. 1 to No. It has N terminals up to N and a terminal to which a common wire is connected,
No. of the input connector of each unit . No. 2 to No. The terminals up to N are the output connector Nos. No. 1 to No. (N-1) are sequentially connected to the terminals, and the input connector No. No. 1 terminal is the output connector No. N terminals, and further, terminals for common lines of the input connector and the output connector are connected to each other,
No. of the input connector of each unit . A connection unit of a plurality of units, wherein one terminal and a terminal for a common line are connected to a drive unit of the unit .   It is a connection body of a plurality of units according to claim 1,
A connected unit of a plurality of units, wherein a driving unit of one unit is different from a driving unit of another unit.

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