SU1147928A1 - Ink jet-type printing device having pneumatic deflector - Google Patents

Abstract

INK INKJET PRINTING DEVICE WITH A PNEUMATIC DEFLECTOR, containing a writing ink head, a pneumatic deflector, a print control unit connected by outputs to the corresponding inputs of a writing ink head and a pneumatic deflector, so that, in order to improve performance, in order to improve performance, in order to perform, in order to do anything, you can create an inkjet and pneumatic deflector. elastic vibration concentrator with sound guides, the axis of which is perpendicular to the axis of the output nozzle of the writing ink head, and the control unit It is stamped with an information register, a synchronization counter, logical transformation nodes, a trigger node, an information storage node, a control signal generation node, a digital-analog converter and an amplifier node, while the sound wave exciter is coupled with an elastic vibration concentrator, the output nozzles of which are located opposite each other to a friend with an air gap, the outputs of the first logical transformation node are connected with a control to these inputs of information regis tra, the outputs of which are connected to the respective control inputs of the information storage node of the node, amplifiers and the control signal generation node whose inputs are connected to the first outputs of the information storage node connected to the second outputs through a digital-to-analog converter with the first inputs (L of the amplifier node, the second the inputs of which are connected to the outputs of the node forming the control signals, the first inputs of the second node of the logical transformations are connected to the inputs of the synchronization counter, connected the first outputs with information inputs of the storage node, information, and the second outputs with inputs of the trigger node whose outputs are connected to the second output of the second logical conversion node and, additionally, with the control inputs of the information storage node, the control signal generation unit and the amplifier node , the outputs of which are connected to the corresponding electrical terminals of the sound wave exciter and the hub of elastic waves.

Description

I The invention relates to an ink jet recording apparatus for you and can be used to record infbmations. An inkjet printing device with a pneumatic deflector is known, which contains a writing ink head, a pneumatic deflector, a print control unit connected by outputs to the corresponding inputs of a writing ink head and a pneumatic deflector. A disadvantage of the known device is low speed. The purpose of the invention is to increase speed. I The goal is achieved by the fact that in an inkjet printing device with a pneumatic deflector, containing a writing ink head, a pneumatic deflector, a print control unit connected by outputs to the corresponding inputs of a writing ink head and a pneumatic deflector, the pneumatic deflector has an exciter of acoustic oscillations, a concentrator of elastic oscillations with suction lines, the axis of which is perpendicular to the axis of the output nozzle of the ink-writing head, and the print control unit is equipped with a formation register, a synchronization counter, logical transformation nodes, a trigger node, a information storage node ,. control signal generation unit. a digital-to-analog converter and an amplifier assembly, where the sound vibration exciter is articulated with the elastic vibration concentrator, the output nozzles of the sound ducts of which are opposite to each other with an air gap, the outputs of the first logical conversion node are connected to the control inputs of the information register, the outputs of which are connected to the corresponding control the inputs of the information storage unit, the amplifier unit and the control signal generation unit, the inputs of which are connected to the first output Dam of the information storage node connected by the second outputs via a D / A converter with the first 282 inputs of the amplifier node, the second inputs of which are connected to the outputs of the control signal generation node, the first outputs of the second logical conversion node are connected to the inputs of the synchronization counter connected by the first outputs, information inputs of the information storage node, and the second outputs with the inputs of the trigger node, the outputs of which are connected to the second output of the second logical transformation node and up to in addition, with the control inputs of the information storage unit, the control signal generation unit, and the amplifier unit, the outputs of which are connected to the corresponding electrical outputs of the sound wave exciter and the elastic vibration concentrator. FIG. 1 shows a diagram of the device; in fig. 2 is an electrical circuit of the print control unit in FIG. 3 shows a control memory programming table; FIG. 4 is a diagram of the operation of the control unit. The device has (Fig. 1) a piezoceramic element 1, a hub 2 of elastic oscillations, an injecting chamber 3 with a cam 4, a plate 5 with an opening 6, which forms an open capillary slot 7 with the middle wall of the injecting chamber, an outlet 8, an ink tank 9 . The pneumatic deflector contains a sound vibration exciter 10, rigidly connected to the direct and inverse wave hubs 11, sound ducts 12, the nozzles of which are arranged opposite to each other with an air gap, the control unit 13 of the seal. The layout of the print control unit 13 is shown in FIG. 2. The block contains an information register 14, an OR 15 element, an inverter 16, a switch 17, control signal generators 18 and 19, a recording amplifier 20, a digital-to-analog converter 21, signal amplifiers 22 and 23, a trigger 24, an SHSh 25 element information storage element 26 , trigger 27, inequality element 28, control memory element 29, triggers 30 and 31, And elements 32, 33, 34 and 35 "synchronization counter 36.

The first node of logical transformations has an element of inequality 28 and elements 32, 34.

The second, the node of logical transformations contains the element OR 15, the elements AND 33 and 35.

The trigger node includes triggers 24, 27, and the OR element 25.

The control signal generating unit has triggers 30, 31, an inverter 16, a switch 17, and control signal formers 18, 19.

The amplifier assembly comprises a recording amplifier 20 and amplifiers 22,:

-w- t- --W

23 signals.

The information storage unit has an information storage element 26 and control storage elements 29.

At the same time, the sound vibration exciter is articulated with the elastic vibration concentrator 2, the output nozzles of the sound ducts of which are opposite to each other with an air gap, the outputs of the first logical transformation unit are connected to the control inputs of the information storage unit, the amplifier unit and the control signal generating unit, the inputs of which are connected to the first outputs of the storage unit of information associated with the second outputs via the digital-to-analog converter 21 with the first inputs of the amplifier node, the second inputs s is connected to the output node generating said control signal, the first outputs of the second node logical transformations connected to inputs of the synchronization counter 36 associated with the first output data inputs of storage node information, and the second input node vyhodamis triggers. the outputs of which are connected to the second output of the second logical transformation node and, additionally, with the control inputs of the information storage unit, the control signal generation unit and the amplifier unit, the outputs of which are connected to the corresponding electrical terminals of the exciter, 10 acoustic oscillations and the hub 2 elastic oscillations.

In Fig. 4, the following notation is accepted: external sync pulses 371479284

SR imposition, write synchronization pulses 38, impulses 39 Ready, column code 40 impulse 40 and print resolution signal 41. 5 In static in the air gap of the deflector, there are no oscillations of the air column, they occur only after the application of external synchronization pulses, over which

10, counter 36, trigger, hera 24, and 27 begins to work, and a sequence of signals is needed.

Ink jet job

5 of the printing device with a pneumatic deflector is based on the deviation of flying ink droplets through an air gap in which the air pressure varies sinusoidally.

When the ink drops through the air gap of the deflector depending on the synchronization of the moment,. droplet ejection with a corresponding air flow oscillation phase of 25 in the gap occurs the maximum deviation of the ink droplet up from the horizontal flight path in the cjjyae the ink droplet falls into the maximum airflow upwards, the maximum deviation of the ink droplet down from the horizontal flight trajectory in the event of a fall ink drops in the maximum pressure of the air column in the gap directed downward, maintaining the horizontal trajectory of the ink droplet in its fall into the minimum pressure of the station forehead. air in the gap (when changing the sign of the air column pressure), any deviation up or down from the horizontal flight path in the event of a drop of ink flying into other

. Intermediate Lazy pressure air column.

If no points are printed in the column, no writing pulses are applied to the writing head.

50 The offset of the recording point relative to the initial position when using an acoustic deflector is related to the excitation of the exciter membrane by the following relation

± c4ir.

031 arc sin

where from t is the phase of the excitation of the membrane of the exciter, H is the instantaneous value of the displacement of the recording point from the initial position, C is the constant of the acoustic deflector determined by the design of the deflector and the recording head. A-K.I: R V where K is 0.58 10 L the width of the control air flow and the radius of the drop, the distance from the record head. si to carrier (paper), V, is the velocity of the drop, the amplitude value of the speed of the control airflow. The functional diagram of the device that implements the required synchronization law is shown in FIG. 2. To obtain signals of control of the exciter of sound vibrations and synchronization signals of recording pulses, the principle of dividing external synchronization pulses of increased frequency is used. The frequency of external synchronization pulses can be determined, on the one hand, the accuracy of determining the phase of oscillations, and on the other hand, by the speed of the head. To ensure the required exact timing of the write synchronization phase and the constant offset of the O - If / 2 segment, it is divided into 256 cycles, which corresponds to a minimum phase distance between two synchronization sequences of 20 cycles. Thus, using a 10 kHz head with an external synchronization pulse frequency should be 200 kHz. The external synchronization pulses of the SI arrive at the circuit at the inputs of the And 34 and 32 elements, the outputs of which are connected to the counting inputs of the eight-bit binary synchronization counter 36. The other inputs of the And 34 and 32 elements are connected to the outputs of the trigger 24 of the account control, which operates in the counting mode using the transfer signals from the counter 36, which arrive at its synchronizing input through the OR element 25. Thus, the counter 36 uses the external synchronization signals 286 Counting the score to the accumulation of code 255, after which, as a result of switching the trigger 24, it is switched to the counting mode to -1. Upon reaching the code O with the appearance of a signal at its output as a result of switching of the trigger 24, the counter 36 again switches to the counting mode to +1. The outputs of the counter 36 are connected to the corresponding address inputs of the information storage element 26, the external synchronization circuit is connected to the inverting input of the sampling resolution. The following signals are removed from the outputs of element 6: impulse 37 of external synchronization of recording, pulses 38 and 39 of setting and disarming the Ready signal (Fig. 4). The programming table of the control memory of the element 6 is shown in FIG. 3. To generate a sinusoidal sound wave excitation control signal, the state of counting direction control triggers 24, control of the sweep direction of column 27, UNEQUALITY element 28, the signal value at the output of which determines the polarity of the control signal of the exciter and control memory element 29, containing codes of values of Y, defined by the relation: Y sin t t, where Y is the code at the outputs of the elements 26 cot is the phase of the oscillations in the interval O - k / 2. The outputs of the control memory elements 29 are connected to the input of a digital-to-analog converter 21 chip, which ensures that a unipolar sinusoidal signal is formed at the output of the amplifier 22. The amplifier 23 converts it into a two-pole control signal of a sound vibration exciter in accordance with the polarity control signals from the output of the element 28. Thus, with the external synchronization pulses, the sound vibrations are generated with the frequency and phase required for the deflector to work.

The timing diagram of the unit is shown in FIG. 4, where the external synchronization pulses of the SI 32, the write synchronization pulses of the 38 trigger status 30 and 39 Ready, as well as the external control signals of the block — the write pulse of the column code 40 and the print enable signal 41 are presented.

For the purpose of presenting the timing diagram, the ticks corresponding to the unchanged states of the output signals of the control memory are omitted, and the ticks represented in the diagram are marked by the corresponding states of the counter 36.

After issuing the last column write pulse (cycle 196) in cycle 198, a negative pulse is generated at the output of element 6, resulting in an operability trigger 30 and a trigger for enabling the start of a print pulse 31 to be set to O. At the outputs of elements 32 and -33, 1, which brings the 15-bit code shift register of column 14 to parallel input mode. If there is a ready signal from an external symbol generator, the code of the next character column and the REC signal are output to the input bus of register 14. which element OR 15 enters the synchronization input of register 14. After the column code has been recorded in registrar 14 and the head is moved to the next printing position, the RP print resolution signal must be given to the trigger input 31. When accumulated in the counter code 244, the trigger 27 is switched, which controls the direction of the column sweep, and the counter 24 mode control trigger 24, which takes the latter into the subtraction mode. . In this case, in a stroke 197, a negative pulse is output at the output of element 6, which leads to the setting of 1 flip-flop 30. At the same time, the outputs of the elements 32 and 33 are set to the values determined by

This is done by trigger 27, which ensures that register 14 is set to the sequential shift mode in the corresponding direction. In the next cycle 196, a synchronization pulse is written to the first point of the column, which through inverter 16 is fed to the input of switch 17, to the other inputs of which the corresponding outputs of the trigger control direction of the column sweep and the outputs of the first and fifteenth register bits are connected. exit

15, the switch 17 generates a pulse starting the drivers 18 and 19 depending on the direction of the sweep of the column and the state of the corresponding register bit 14. By

20, the falling edge of the write pulse through the inverter 15 shifts the code in register 14.

When code 195 accumulates in the counter, the counter is again transferred

25 into account mode on and issue

the write clock pulses are repeated in the reverse sequence of clock cycles, however, with the register 14 operating at the previous mode.

30, in counter code 196, the described cycle is repeated.

The design of the device provides a significant simplification of the device by reducing the number of components and parts entering into it, which means a significant increase in the speed of the device, since the work takes place at the maximum frequency of the writing year and is clever because of applied; a pulsed ink-head that ensures the emission of ink droplets at the required time and there is no pneumatic separation of ink droplets; an absence of effect on the ink drop deflector adjacent to the deflectable currently.

The use of the invention is enhanced. There is no speed information application.

/ stop

Claims (1)

An ink-jet inkjet printing device with a pneumatic deflector, comprising a recording ink head, a pneumatic deflector, a print control unit connected to the outputs of the respective inputs of the recording ink head and a pneumatic deflector, characterized in that, for the purpose of increasing the speed of response, the deflector has a pneumatic concentrator, a pneumatic deflector elastic vibrations with sound ducts whose axis is perp. it is dicular to the axis of the output nozzle of the writing ink head, and the print control unit is equipped with an information register, a synchronization counter, logical conversion units, a trigger unit, an information storage unit, a control signal generation unit, a digital-to-analog converter and an amplifier unit, while the sound vibration exciter is coupled to a hub of elastic vibrations, the output nozzles of the sound ducts of which are located towards each other with an air gap, the outputs. / of the first node of the logic converters connections are connected to the control inputs of the information register, the outputs of which are connected to the corresponding control inputs of the information storage unit, the amplifier unit and the control signal generation unit, the inputs of which are connected to the first outputs of the information storage unit, connected through the digital-to-analog converter with the first inputs of the amplifiers node, the second the inputs of which are connected to the outputs of the node forming control signals, the first outputs of the second node of logical transformations with are connected to the inputs of the synchronization counter associated with the first outputs with the information inputs of the storage unit, information, and the second outputs with the inputs of the trigger unit, the outputs of which are connected to the second output of the second logical conversion unit and additionally with the control inputs of the information storage unit, the control signal generation unit, and amplifier unit, the outputs of which are connected to the corresponding electrical terminals of the pathogen of sound vibrations and the hub of elastic vibrations. (19)>