JPS6226076B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a readout counter for remotely reading the usage of electricity, tap water, gas, etc., and more specifically, a clock pulse is supplied from a data collection station to the readout counter. , regarding a readout counter for sequentially reading the data of each digit of the readout counter by this clock pulse, and in particular, the readout counter is configured to read the data of each digit of the readout counter sequentially by a counter driving circuit and each digit of the counter driven by the counter driving circuit. and a readout circuit for sequentially reading data from the data collection station, and these counter drive circuits and readout circuits can be connected in parallel between two transmission lines from the data collection station. The number of transmission lines connecting the readout counters is limited to the minimum of two lines, and the power consumption of the readout counters is suppressed to the minimum.

The figure is an electric circuit diagram for explaining one embodiment of the readout counter according to the present invention.
0 indicates a readout circuit, and 20 indicates a counter drive circuit, and these readout circuit 10 and counter drive circuit 20 are connected in parallel between two transmission lines l ₁ and l ₂ connected to a data collection station (not shown). ing. The readout circuit 10 includes a bit counter 1
1. Consists of a digit counter 12, a counter 13 incremented by a counter drive circuit 20, and an AND gate circuit 14. During data collection, the clock pulse is transmitted from the data collection station through transmission lines _l1 and _l2 . The bit counter 11 is incremented by actuating the photocoupler Pc, and the digit counter 12 is incremented every time the bit counter 11 completes one cycle.For example, in the illustrated state, the digit counter 1
2 of 10 ³ digits are selected and bit counter 1
When output terminal 1 of 1 is selected, counter 13
The logical product of the AND gate circuit 14 is established through the 10 ^three -digit contacts, the transistor _T1 becomes conductive, and the potential of the transmission line _l2 decreases. Thereafter, while the bit counter 11 is moved up to 9, the logical AND of the AND gate circuit 14 is not established, and therefore the potential of the transmission line _l2 does not drop, so the bit counter 11 is moved from 0 to 9. If the data collection station monitors the timing at which the potential of the transmission line l ₂ decreases while moving to 9, in the state shown in the figure,
It can be known at the data collection station that the ¹⁰³ -digit data of the counter 13 is 1. When the bit counter 11 completes one cycle, the digit counter 12 is incremented by one and ¹⁰² digits are selected, and the bit counter 11 is again moved from 0 to 9. Therefore, in the illustrated state, when the output terminal 7 of the bit counter 11 is selected, the ^AND gate circuit 1 is
4 is established, transistor Tr ₁ becomes conductive, and the potential of transmission line l ₂ decreases, so this transmission line l ₂
If the data collection station monitors the timing at which the potential of the counter 13 decreases, the data collection station can know that the ^102- digit data of the counter 13 is 7. Hereafter, in the same way, 10 ¹ of counter 13
Read the data of digits and 10 ⁰ digits and read the counter 13.
This completes the reading of all the data in
The configuration and operation of the readout circuit 10 itself are not essential to the present invention.

According to the present invention, in the readout circuit as described above, the increment of the counter 13 is controlled by the counter drive circuit 2.
0, and this counter drive circuit is connected between the transmission lines l ₁ and l ₂ in the same way as the readout circuit 10 to reduce the number of transmission lines between the data collection station and the readout counter. The number of counter drive circuits is kept to a minimum, and the current consumption of the counter drive circuit is reduced as much as possible. That is, as shown in the figure, the counter drive circuit 20 is connected to a capacitor C ₀ for charging the voltage transmitted from the data collection station through the transmission lines l ₁ and l ₂ , and for discharging the charging voltage of the capacitor C ₀ . It is composed of a thyristor Tyr for control and an electromagnet 21 driven by the discharge current of a capacitor _C0 , and is connected between terminals a and b every time a water meter, gas meter, electric power meter, etc. (not shown) measures a predetermined unit amount. is short-circuited to make the thyristor Tyr conductive, thereby discharging the charging voltage of the capacitor C ₀ through the electromagnet 21 and incrementing the counter 13, so that the content of the counter 13 thus incremented, i.e. the water supply As mentioned above, the data representing the usage of water, gas, electricity, etc. is read by supplying clock pulses from the data collection station through the transmission lines l ₁ and l ₂ .
The power supply voltage for the counter drive circuit is supplied through l ₁ and l ₂ , so that only two transmission lines are needed to supply the power supply voltage and read data to the readout counter, which requires a power supply. be. Note that the counter drive circuit 20 includes an electromagnet 21
Since no current is consumed except when driving the readout counter, the power consumption of the readout counter can be minimized. Furthermore, if the value of the resistor _R1 is chosen as large as possible compared to the value of the resistor _R2 , the current flowing through the counter drive circuit 20 can be made as small as possible.
Therefore, when reading data, the counter drive circuit 2
Even if the voltage of capacitor C ₀ drops when C 0 operates, the voltage drop will hardly affect the readout circuit. Furthermore, the readout circuit 10
A Zener diode or the like is connected in series with the resistor _R2 , and the counter drive circuit 20 is normally driven with a voltage lower than the Zener voltage of the Zener diode, and when reading data, it is read using a clock pulse higher than the Zener voltage. If you do this, during normal times, except when reading data,
No current flows through the readout circuit, so the power consumption of the readout counter can be further reduced.

As is clear from the above description, according to the present invention, a readout counter that requires a power source and a data collection station are connected by at least two transmission lines.
Since power supply voltage is supplied from the data collection station to the readout counter through these two transmission lines, and data from the readout counter is read, the number of transmission lines between the data collection station and the readout counter can be reduced. In addition, a charging capacitor is provided on the readout counter side, and the discharge current of this capacitor is used to drive the counter, so the power consumption on the readout counter side is minimized. be able to.

[Brief explanation of the drawing]

The figure is an electrical circuit diagram for explaining one embodiment of a readout counter according to the present invention. 10... Readout circuit, 11... Bit counter, 12... Digit counter, 13... Counter, 20... Counter drive circuit, 21... Electromagnet.

Claims (1)

[Claims] 1 Consists of a readout counter and a data collection station connected to the readout counter via two transmission lines, the readout counter is controlled by a clock pulse sent from the data collection station through the transmission line. In the readout counter for sequentially reading each digit of data and reading the read data at the data collection station, the readout counter is driven by a counter driving circuit and the counter driving circuit. the counter drive circuit and the readout circuit are connected in parallel between the two transmission lines, and the counter drive circuit is connected to a capacitor charging circuit; and an electromagnet driven by the discharge current of the capacitor, the discharge circuit is controlled to drive the electromagnet, and the electromagnet increments the counter. A readout counter characterized by: