CS215964B1 - Connection of the keyboard on the computer - Google Patents

Description

The invention relates to the connection of a tastatur to a computer, in particular to transmit 5 + 2-digit information in code 2 of 5, and solves the problem of guaranteed trouble-free transmission of operative charter information from various measurement or reading sites.

Tastatures are used to transmit information of an operational nature, which has not reached the control computer by way of scanning from individual detached sensors, and must be delivered to the computer in a timely and operative manner. They are therefore an essential part of the computer mainly in the production control of, for example, steel in converters. These types of computers usually involve sending 7-digit information in code 2 of 5. The tastas used so far work on the principle of mechanical contact switching, with separate decades being used for each of the individual locations. Upon completion of the selection, the broadcast information is scanned and after processing, the computer gives a bad signal of readiness to receive more information. All signals are based on relay technology. Disadvantages of mechanical switching elements and relay technology are their low reliability, high failure rate due to contact material fatigue, sparks and dangers from incomplete switching, causing uncontrolled broadcasting and misinformation. The disturbance of the tastatic system generally prevents the introduction of the necessary information into the computer, the elimination of the production control by the computer and thus the costly and lossy transition to the classical control. In addition, the device does not allow full control of the correct selection and, above all, it is not possible to block the premature deletion of the selected and transmitted information before the processing is completed in the computer, especially on a longer wait.

The above-mentioned drawbacks are eliminated and the problem is solved by the connection of the tastature to the computer according to the invention, whose essence is that the input of transmitted information in code 2 of 5 to the computer is connected to a decade of information buttons.

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-i10 to code 2 of 5 and through a voltage level converter which converter is simultaneously connected to the transmit and fault buttons. Further, an option and transmitter blocker is connected to the transmit and error pushbuttons via blocking terminals, and a step counter of the last dialing point is connected therefrom. The sliding clock gate is connected with a step counter of the last dialing point and from it a decade of information buttons and an election and transmitting blocker and on the shifting register of the code 10 to 2 out of 5 and shifting register of the code 10 to ABCD equipped with decatrons. There is also created an autonatical zero code recorder, which is connected to the reset button by its input and at the same time it is connected to the computer by its Start input and connected to the shifting register of the code 10 to 2 of 5 converter. via the reset terminals, the last-dial counter and the display shift register, code 10 to ABCD converter, are connected in parallel.

The wiring from the decade of the information buttons is preferably such that there are 10 terminals of code 10 to 2 of 5 decoders connected to the shift register of the code 10 to 2 out of 5 converter and also to the automatic zero code writer. they are routed through inverters and work resistance signals. Likewise, a display shift register is connected to the ABCD code via four code 10 decoders and Sa1a through the inverters and through the clock gate to the option and transmit blockers.

Further, the wiring of the automatic zero code recorder is preferably designed such that the reset button is connected through the work gate and the flip flip circuit and the computer is connected through the start switch and through the monostable reset flip circuit. Furthermore, an automatic zero code recorder is connected through the zero code flip flop in the code register 10 to 2 out of 5 shift register and through the monostable flip clock circuit to the sliding clock gate equipped with the clock generator.

The advantages of the invention are mainly in the design of a conceptually modern, easy to operate and completely reliable device. Despite being assembled from available household elements, mechanical switching elements are excluded. The new solution of the information and control line connection in combination with clocking and blocking elements and, in particular, the complete resetting of the reset line with the automatic zero code recorder, create possibilities for its versatile use and use in computer technology at its substantially lower cost. The tastature involved in the present invention has been successfully used and, in addition to the above-mentioned advantages, has made it possible to gradually replace flood-operated or discarded tastatures, streamline the operation of the computer, and allow full control of production via the computer.

An example of an embodiment according to the invention is shown in the attached drawing in a block diagram. The device comprises information buttons 11, a transmission button 12, a fault button 13, and a reset button 14, whose transmission terminals 111, 400 and 401 are connected to the computer 70 via other elements of the information path, respectively. control or blocking. From the ten information buttons 11, the terminals 111 are routed first through the inverters 25 and the resistors 26 connected, both as double inputs 211 to the five decoders 24 of code 10 to code 2 of 5, of which three terminals 212 are connected to shift register 22 and two terminals 213 to an automatic zero code recorder 41. The inputs 511 of the inverters 25 are routed to four decoders 55 of the code 10 to the ABCD code, of which the terminals 512 are connected to the display shift register 52 and simultaneously through the ABCD inverters 611 and the clock gate 612, the terminal 65 being connected to the select and transmit blockers. 33. ' The information terminal 215 from the shift register 22 is connected to the voltage level converter 23, at the same time the terminal 400 from the transmit button 12 and the terminal 401 from the fault button 13 are connected, from which the information terminal 216 is connected to the computer 70. 52, the control terminal 115 is connected to decatrons 54 which are connected from a 175 V voltage source 80 from terminal 81 = The terminals 301 of the transmit button 12 and 302 of the fault button 13 are connected to the select and transmit blocker 33 of which the blocking terminal 300 is connected to the step counter 32 of the last digit of the selection. Further, clocking pins 100 from information buttons 11 and 112 from the select and transmit blocker 33 are connected to the slide clock gate 34, via pin 113 from the step counter 32.

A shift register 22, a shift register 22, a code converter 10 to a 2 out of 5 input 214 and a display shift register 52 through an input 114 are further coupled from the shift clock gate 78, which is equipped with a 66 clock generator. button 14 via terminal 500 via work gate 47 and transmit flip-flop 42 and used for computer 70 via starter terminal 503 through switch 73 and mono-stable reset flip-flop. S1 is connected to shifting register 22 and flip-flop 43 For recording the zero code, Sa1 is connected to the monostable flip-flop 44 of the clock production. The terminal 501 from the reset button 14 and the terminal 504 from the computer 60 are simultaneously connected directly to the step counter 64 and the diplay shift register 52. All circuits are connected to a 5V voltage from the terminal 82 of the source 80 and the computer 70 and the converter 23 are connected to 24V voltage from terminal 83.

After switching on the stabilized voltage source, all flip-flops are in the basic position. Pressing the reset button 14 sets the decoder 24 to a zero code. By pressing one of the information buttons 11, the decoder 55 is set to the corresponding compressed number and the first of the four display shift registers 52, and is displayed in the last decathron 54. At the same time, this decoder 24 is set to the corresponding compressed number in the information path. and the first of the five shift registers 22 is also set by its code information, thereby providing information for the computer 70, which is still converted from the 5V to 24V operating voltage of the computer in the converter 23. When further numbers are pressed, the data in shift registers 22 and 52 are shifted until all seven information has been selected. The choice of other numbers is prevented by the last dialing point counter 32 and the dialing and transmitting blocker 33, which simultaneously performs the function of blocking, for example, the reset path after pressing the button 14 and the like. By pressing the button 14 before sending the information, it is possible to select ODak while clearing the flood dial. By pressing the transmit button 12 or the button 13, the computers are instructed to receive and process. Until then, the option is blocked, and only after the information has been processed, the computer 70, via the automatic zero code writer 41, provides a start reset signal after which the dialing and transmission can be performed. The reset operation of the pushbutton 14 is accomplished by changing the gate 47, then flipping the circuit 42, then changing the gates, and then changing the flip-flop 43 to release the outputs 413. Further change on the flip-flop 44 releases signals from the clock generator 66, allows you to upload a zero code to the entire shift register 22.

Claims (3)

From the sliding gate gate provided with the cycle generator 66, the sliding register 24 of the converter 10 of the converter 10 is also connected to code 2 of 5 by input 214 and a display slider region 52 by input 114. Zero code automatic recorder 41 is connected to a reset button 14 through the gate 500 and through the gate 47 and the flip-flop 42 and simultaneously to the computer 70 via the starter terminal 503 via the switch 73 and via the mono-stable flip-flop circuit, the terminal 505 is connected to the sliding region 22 and via the flip-flop Zero code hooking 43 is connected to a monostable circuit 44 of the clock cycle. The outlet 501 from the reset button 14 and the current outlet 504 of the counter 20 are both directly connected to the step counter and to the diplay shift register52. All circuits are connected to the 5V voltage from the power supply terminal 82 and the computer 70 itself and the converter 23 are connected to the 24V voltage and from the terminal 83. When the tastatore is turned on, the flip-flops are all in the j-position. Pressing the reset button 14 sets the decoder 24 to zero code. By pressing any of the information buttons 11, the decoder 55 is set to the respective pressed number and on the first of the four display shift registers 52 while displaying the last decathlon 54. At the same time, in the control path, the decoder 24 is reset to the corresponding pressed number in the information path. The first five shift registers 22 are also set up by the code code information to provide the appropriate information for the computer 70, which is converted from the 5V to the 24V working voltage of the computer in the converter 23. When pressing additional numbers, the shifts in the shift registers 22 and 52 will only take place after all seven information has been selected. The other numbers are counteracted by the counter 32 of the last location of the choice and transmission blocker 33, which at the same time functions as a blocking of, for example, a zero route after pressing the button 14 and the like. By pressing the button 14 before sending the information, the call can be READED while the flood selection is deleted. Pressing the transmit button 12 or button 13 instructs the computers to receive and process. Until then, the call is blocked and only after processing the information, the computer 70 through the automatic zero code recorder 41 will provide a start reset signal after which the selection and transmission of the signal can be performed. The resetting operation of the pushbutton 14 is ensured by a change in the gate 47 by subsequent flipping of the circuit 42, then a change in gates and the subsequent change on the flip-flop circuit 43 is released by the outputs 413. Another change on the flip-flop 44 releases the signals from such a generator 66, allowing the zero code to be replaced by the entire shift register 22. BEFORE THE INVENTION 1. Connecting a tastat to a computer, in particular transmitting 5 + 2-digit information in code 2 of 5, characterized in that the broadcast information input (216) in code 2 from 5 to computer (70) is connected to a decade of information buttons (11). via a code shift sliding register (22) of code 10 to code 2 of 5 and via a voltage level converter (23) which is simultaneously connected to a transmit button (12) and a fault button (13) via terminals (400,401), via terminals (301,302) the pushbuttons (12, 13) are connected to the call and send blocker (33) and through it to the step counter (32) of the last location by means of the lock terminal (300), the gate (34) of the shift times is connected to the information buttons (11) and to a transmitting blocker (33) via a stepper (32) of the last dialing location via inputs (100, 112, and 113) and a translation code shift register (22) of code 2 of 5 and a by means of a terminal (114) to a display shift register (52) of a code converter 10 to an ABCD code equipped with a decathlon (54) ft-key, an automatic zero-code recorder (41) is connected to the input (500) of the reset button (14) and simultaneously to The start input (503) of the computer (70) and the outlet (505) of the shift register (22), wherein the counter (32) is connected directly to the reset button (14) and to the computer (70) via pins (501,504). and, on the other hand, a display shift register (52). 2. Connection according to claim 1, characterized in that the ten pins (111) of the information buttons (11) are on the shift register (22) and also on the automatic zero code recorder (41) of the connected code decoders (24). 5, into which the inputs (211) are guided through the inverters (25) with the working resistance signal (26), the display shift register (52) is connected via the inputs (5H) through the terminals (111) via four decoder decoders (55) the ABCD code and through the inverters (611) and the clock gate (612) are connected to the transmitter (33). 3. Connection according to claim 1, characterized in that the automatic zero code recorder (41) is connected from the reset button (14) via the working gate (47) and the flip-flop circuit (42) is simultaneously connected to the computer (70) via the start switch (73). and through the monostable resetting circuit (45), via the zero-code flip-flop (43) and through the monostable circuit clock (44) to the clock (34) of the shift clocks provided with the clock generator (66). 1 drawing