RU2020583C1 - Printing device - Google Patents

Abstract

FIELD: automatics, computer facilities. SUBSTANCE: device has microprocessor 1, motors of drives of carriage 2, papers 3, letter carriers 4, three groups of keys 5, 6, 7, electromagnets of onset 8 and tape transport 9, decoders 14, 17, 19, sound transformer 10, light indicator 11, inverting amplifier 18. Design of the device makes it possible to reduce a number of elements and links among them. Possibility of doubling of readings of sound transformer and light indicator provides increased reliability of change of printing modes of operation. EFFECT: enhanced reliability of operation of the device as a result of reduction of elements and links among them. 1 dwg

Description

 The invention relates to automation and computer technology and can be used in typewriters and input-output devices.

 The aim of the invention is to simplify the device and increase its reliability.

 The drawing shows a structural diagram of a device.

 The device includes a control unit 1 on a microprocessor, a printing mechanism with motors 2, 3, 4 of a carriage, paper and letter carrier, respectively, a group of keys for a carriage 5 engine, for paper 6, for letter 7, an onslaught electromagnet 8, a tape rewind electromagnet 9, an audio transducer 10, a light indicator 11, a phase number bus 12, an engine selection bus 13, a first decoder 14, a power supply bus 15, an electromagnet switching bus 16, a third decoder 17, an inverting amplifier 18, a second decoder 19, a bus 20.

 The device operates as follows.

 To print the required character, a command is sent to the microprocessor either from the keyboard or via an interface from an external device (not shown in the drawing). The microprocessor calculates the required number of steps for the stepper motor 4 of the letter-carrier and sends a series of commands to the second decoder 19 of the letter-carrier and via bus 16 a signal about the supply of the required voltage to the power switches 7 for the letter-carrier to operate. Since there is no signal on bus 15, the electromagnets 8 and 9 are de-energized. After working out this series of commands and outputting the letter carrier to the required position, the microprocessor removes the signal from the bus 16. At the same time, the reduced voltage necessary for fixing the letter carrier at the selected position is applied to the power switches 7. After that, the microprocessor 1 on the bus 15 supplies a signal to the third decoder 17. At the same time, the decoder 17 supplies a voltage to the electromagnet 8, which, when triggered, provides the print of the required character. Then the microprocessor sends a signal on the bus 16 through the decoder 17 to turn off the electromagnet 8 and turn on the electromagnet 9. In this case, the ink ribbon is moved to a position that ensures the next character is printed. After that, the microcomputer 1 removes the signal from the buses 15 and 16 and the electromagnet 9 is de-energized.

 After printing a character, you need to move the carriage to the position for printing the next character. For this, the microprocessor 1 sends a signal via bus 13 to connect the decoder 14 to the keys 15 to control the stepper motor 2 of the carriage drive and sets the required sequence for controlling the phases of the stepper motor 2 via bus 12, i.e. a line is captured on the information medium. When approaching the end of the line, the end of line is indicated. To do this, the microprocessor delivers an even number of switches on the bus 20. The supply of an even number of switches provides automatic installation of the indicator light 11 in the initial state (a state that provides a signal to the bus 20). When the signal is switched over the bus 20, the indicator light 11 and the sound transducer 10 are triggered. A piezoelectric transducer of the type ZP-1, ZP-2, etc., can be used as an audio transducer. Connecting the sound transducer 10 to the input and output of the inverting amplifier 18 ensures the operation of the sound transducer from alternating voltage.

 After capturing the entire line, the information carrier is moved to the line. For this, the microprocessor remembers the position of the phases of the stepper motor 2 of the carriage, sends a signal to the decoder 14 via the bus 13 to turn off the power keys 5 and connect the power keys 6 to control the paper stepper motor 3. This process is carried out similarly to controlling a stepper motor 2. After the paper is moved, the microprocessor remembers the position of the phases of the motor 3 and transfers control to the motor 2 via the decoder 14 through the bus 13. The introduction of the position of the phases of the motor 3 into the memory of the microprocessor 1 restores the phase position on the motor 2. The printing device is ready to print the next line.

 If during the printing process it is necessary to carry out a change in the indications of the light indicator, then the microprocessor 1 on the bus 20 delivers an odd number of switches. In this case, the indicator changes the reading (turns on or off). Management on the bus 20 allows you to duplicate the readings of the sound transducer 10 and the light indicator 11.

 Thus, the use of this technical solution provides a device with high reliability and low cost. In addition, the manufacture of the electronic part of this product is accompanied by low labor intensity and high adaptability. This printing device provides the consumer with good compatibility with other electrical appliances due to the low level of interference. The possibility of duplicating the readings of the sound transducer and light indicator provides the consumer with increased reliability of changing print modes, which is especially important in rooms with increased noise or in the presence of hearing defects in the operator.

Claims (1)

 A PRINTING DEVICE containing three groups of keys, a microprocessor control unit, an audio converter, a light indicator, a printing mechanism, which includes carriage, paper and letter-drive motors, onslaught and tape reel electromagnets, the inputs of the carriage, paper and letter-drive motors being connected to the outputs corresponding groups of keys, the microprocessor control output is connected to the first output of the sound transducer, characterized in that, in order to simplify the device and increase e about reliability, three decoders are introduced into it, an inverting amplifier, the input of which is connected to the control output of the microprocessor, and the output is connected to the second output of the sound converter and to the input of the light indicator, the first and second information outputs of the microprocessor are connected to the inputs of the first decoder, the first and second outputs which are connected respectively to the inputs of the first and second groups of keys, the third information output of the microprocessor is connected to the input of the second decoder, the output of which is connected to the information ion input of the third group of keys, the fourth information output of the microprocessor is connected to the control inputs of the third group of keys and the third decoder, the information input of which is connected to the fifth information output of the microprocessor, the first and second outputs of the third decoder are connected respectively to the inputs of the onslaught electromagnets and tape rewind.