JPS59100496A - Display - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a display device in which a large number of display elements are arranged in a plane and controlled from a central operation panel.

Conventionally, this type of display device (5), as shown in Figure 1, has a large number of display elements (L)' (12) each having a number display board arranged on the front of a lamp. are arranged in a plane, and the display elements (1
t)' (12 units... 75≦ where all the lights were turned on or off. However, in this conventional example, each display element (i +) (LL)... -
The wires are wired so that there is a one-contact correspondence (1:1 correspondence) between ... and the central operation panel's switch/child, and the display element (1+XL□
)...... increases, the number of wiring 1 increases, and the number of switches also increases, so the display element ('riX12')
There was a problem that it was not easy to increase the number of... The present invention has been made in view of the above points, and its □objective is to easily add display elements, and to set an address setting that sets a unique address corresponding to each display element. It is an object of the present invention to provide a table and water device having a simple configuration and an easy address setting operation.

Examples will be described below using figures. Figures 2 to 4 show the basic configuration of the present invention, in which the central operation panels (B1) (B2) and the display device (8) are connected to a commercial power source (AC).
The power line (1) of ')' is connected at the entrance, and the central operation i
Day between (BO) ()3g) and - Fusogo, CAJ,
Evening transmission: 100 receivers use a power line carrier method that transmits high-frequency signals superimposed on commercial power (AC). :Figure 3 shows the basic unit of the display section [(A).
10) is a signal processing section, and a central operation panel (Bl')'C
The transmission signal (Vs) sent from I3'2) via the power line (J?) is received and demodulated, and the central operation panel (
An invariant demodulation circuit (11) that modulates the carrier wave with the data returned to BI) and (B, 2) to form the entire return signal (VB).
and a synchronization signal generation circuit (12) that outputs a zero-cross signal ('Vz) synchronized with the 1!10 cross point of the commercial power supply (A'C). '03) is a logic processing unit and the address data ('AD) transmitted at the received transmission □Satoru (Vs) is sent to the address setting unit (14).
), the display control data (CD) transmitted following the address data (AD) is captured and displayed on the display element (1).
Forms a continuous lighting signal (Vc) or a blinking lighting signal (,Vp) that controls the entire display and sends it to the display drive unit (1~), and also creates data to be sent to the ice operation panel (B・) (B・) The signal is sent to the rear circuit (12).
Vz), full count and flashing clock (V'ct,)
'x generating clock generator (CL) and AND circuit (A
ND), reverse r blocking → diode (D'1
VCL) when the display element t1), the display element f+)
It's getting worse to turn off the lights.

Figure 4 shows the concentrated operation "board; B, ゛・XB・)", 'cp'
7 cases (30) (7) ＋ provided on the top surface
- Board (Go up to 3i+ and change table rf, - code 1 key display □ Element (1'1X12)...... input the number and display upper - code (dotted 2 blinks, light off) The input data is immediately sent to the display hole via a power line, and the corresponding display element (1
r) (12) The - code on the display is changed. In the figure, 4 indicates a human power data display section, and [33] indicates a confirmation consisting of light emitting diodes corresponding to each display element (1+) (L)... / j (33+) (,332)
This is an operation display section consisting of...

Figure 5 shows an example of the transmission signal ('Vs), in which the half cycle period (Fl) of the commercial power supply (AC) is divided into four,
Depending on whether or not a high frequency signal is superimposed on each divided section (h]) to (h4), the "
1”, “0” are transmitted, and the 4 +ll’
A control signal is formed at the terminals (Slh, ) to (SB4). That is, if the control signals are (o, 'l, 0 .
1) If ', all start data (SD), (,0,1
, 1, 1), the case is transmitted data/111', (o ,
1°0.0), the transmission data “0”, (0, i, 1
．． 0) is defined as end data (ED), for example, start data (SD), address data (AD) for terminal calling consisting of 8 bits of transmission data, and 2 bits of transmission data. Display control data (,,
, c p ) and end data (ED) ゛ '
"' A transmission signal (Vs) is formed.

Below, we will explain the usage example and operation of the above-mentioned display device (N).This type of display system is used, for example, in the Senfuto corner of a department store. Along with placing
A central operation panel (B2) is placed at the product packaging site, and a display device (A) is distributed so that the entire image can be clearly seen. Now, when a customer's product is accepted at the reception desk, a number tag is handed over to the customer, and the number corresponding to the number on the number tag (this number is displayed on the display element) is displayed on the central operation panel (Bl). lx) (1□
1:1 correspondence with the numbers in )...), press the function operator - indicating reception, and display elements (11), (12), etc. are lit continuously. Enter the data to do so. In the display device (A), the corresponding display elements (, l l)' (12) are turned on completely continuously by the transmission signal (Vs) from the central control panel (B1). At the same time as this lighting, a return signal (VB) is transmitted from the display hole, and this return signal (VB) is received by each central operation panel (Bl) (B2) and is received by the corresponding confirmation run ``j (33+) (332 ,)...All lights up.

Next, when the packaging of the product is completed at the packaging site, both the cow and the cow enter the number corresponding to the product on the operator board 4'311 of the central operation panel (B2) installed at the site. Press the button indicating completion and input the data for displaying the display elements (1+), (12), etc., all blinking nose lights. Then, the central control panel (B
A transmission signal (:Vs) is transmitted from 2) to the display device, and the display device V(5) transmits the blue hydrogen element (il) (,:i2
)...River... flashes on and off. At the same time, the return signal (VB,
1 is sent and the confirmation lamp (331X3, 32) corresponding to the flashing display-child (11012) on each collection's CP operation panel (Bl) (B2) flashes and lights up. let Next, at the reception, the display element (
11
1) When the confirmation lamp (331X332)-= blinks, the clerk at the reception desk will know that the packaging of the product with the corresponding number has been completed.

Next, when the customer has exchanged the number tag and the product, at the reception desk, enter the number corresponding to the number on the ten board (31) of the central operation panel (B1), press the exit function button, and display the display element. (L) (12) Input data to turn off the light. As a result, a transmission signal ("v's,") for turning off the display element (L) (12)... is transmitted, and the display device receives this transmission signal (Vs). Display element: 11x12)...
・-=-When all the lights are turned off, a return signal (VB) is sent to all the lights and corresponds to the turned off display elements (1+) (12) of the central control panel (13+) (Bx). Confirmation 5.7
(33+X332)... is turned off.

In the basic example configured as above, the display element (1
θ(12)...When all the units are expanded, logic processing unit 0
3) All you need to do is add the entire unit, and the central operation panel (, BL) (B
Since there is no need to increase the number of wiring between 2) and the display device (5), the display elements (1x), (1z)...
・It has all the advantages of being easy to expand. However, in such a basic example, if the upper hits of the unique addresses preset in the logic processing units (18) corresponding to the display elements (11X12) arranged in close proximity are the same, However, all the pits of the unique address are set individually by the switches (S+) to (B8) of the address setting part Q4)', and the number of switches in the address setting part o4)' is This has the disadvantage that it becomes a store error and is cumbersome to operate.

6 to 8 show an embodiment of the present invention made in view of the above points, and the schematic structure is substantially the same as the basic example in FIG. 3. That is, in the embodiment, as shown in FIG.
) to (3h5) 2 are formed, and display units (31) to (
3□5) are arranged in 5 rows horizontally and 3 columns vertically, and 120 display elements (11 x 12) are arranged in a matrix, and each display unit (3) )～(3+s)
Inside, there are 8 thin membranes containing the same basic unit as shown in Fig. 3.

However, the clock and generator (C) of the display drive section (J5)
L) is shared, and each display element (1, XlΣ)-
, 4, 7, and 1 have the same blinking cycle and are designed to blink in synchronization. By the way, in the embodiment, the display element (11) in the upper row of the display unit 1 lid (31)
) to (14) respectively, logic processing units (131)
The address setting section (14) of ~(134) performs each logical process!
'<131) to (134) A lower address setting unit (14a) consisting of a switch (SIXS2) that separately sets the lower two pits of the unique addresses, and each logic processing unit (131
) to (134), and an upper address setting section (14b) consisting of six switches (Ss) to (B8) for commonly setting the upper six hits of the unique addresses. −
10,000, lower row display element (15) of display unit (31) ~
Logic processing units (135) to (18) respectively corresponding to
The address setting section α4) of 13g) is similarly configured.

Below, we will specifically explain how to set the unique addresses corresponding to the display elements (11) to (18) of the display units (31) to (3is).
Logic processing unit (13+) corresponding to 1) to (14), i:
The data values set in the lower address setting section (, 14a) of (13g), (13s), and (134) are (0, 0, respectively).
), (OJ), (1,0), (1,1), and the logic processing unit (1
The data values set in the lower address setting section (14a) of 35), (136), (137), and (13B) are also the same as in the upper row (0,0), (0,1), (1,0), (1,1), and the data value of the lower address setting section (14a) of each display unit (31) to (316) is always fixedly set as described above. Next, the data values set in the upper address setting sections (14b) in the upper and lower columns are set according to the arrangement positions of the display units (31] to (3+5), for example, in the upper left corner. Upper row display elements (1]) to (x4') of the display unit (31) arranged in
K is set in the corresponding upper address setting section (14b),
The data value to be set is (0°0, Q, 0.0.0), and the data to be set in the upper address setting!f1.(14b) corresponding to the display elements (1 unit) to (14) in the lower row. The values are (0, o, o, i, o, g. Similarly, predetermined data can be set in the upper address setting section (14b) of each display unit (32) to (31g), In this case) the lower address setting section (14a) is the display unit (
3+) to (3ts), so they may be fixed. Therefore, the operation for setting a unique address can be simplified to 1), making installation easier when a large number of display elements are all installed. As described above, the present invention arranges a large number of display elements on the entire plane, receives all the transmission signals sent from the central operation panel via the commercial power line, and then reads the address data transmitted by the transmission signals. A logical processing unit is provided corresponding to each display element to take in display control data transmitted following the address data when the address data matches a unique address set in advance and control the display on the display element. In addition, it is possible to add display elements without increasing the number of signal lines, and it is also possible to install all the lower-order parts of the logic processing section separately, corresponding to an appropriate number of display elements arranged in close proximity. A lower address setting section can be installed in each of the above logic processing sections, and an upper address setting section for setting the upper pitches of the unique At1nos of each logic processing section in common can be installed. The present invention has the advantage that it is possible to provide a display device with a simple configuration of an address setting section for setting a unique address to be used, and a simple address setting operation.

[Brief explanation of drawings]

Fig. 1 is a front view of the display device according to the present invention, Fig. 2' is a diagram of m pieces of the display system, Fig. 3 is a block diagram of a basic example, and Fig. 1 is a top view of the central operation. Figure 5 shows the transmission signal P! FIG. 6 is a front view of one embodiment of the present invention, FIG. 7 is a perspective view of necessary parts of the same, and FIG. 8 is a block circuit diagram of the same.゛(+j (1+X12)...
... is a display element, (13) (1'31) to (138)
is a logic processing section, (14a) is a lower address setting section, (1
4b) is an upper address setting section. Agent Patent Attorney Ishi 1) Choshichi

Claims (1)

[Claims] (1) A large number of display elements are arranged in a two-dimensional manner, and the transmission signal sent from the central operation panel via the power line of the commercial power source is received, and the buttress data transmitted by the transmission signal is set in advance. A display device that is provided with a logic processing unit corresponding to each display element, which takes in display control data that is transmitted following the address data and controls the display top of the display element when the address matches the unique address assigned to the display device. In this case, each logic processing section is provided with a lower address setting MS for individually setting the lower pits of the logic processing section corresponding to an appropriate number of displays and elements disposed in close proximity, and each of the logic processing sections A display device 0 characterized in that it is provided with an upper address setting section that commonly sets upper pits of individual addresses of sections.