SU793816A1 - Typewriter - Google Patents

Description

The invention relates to inkjet printing machines and can be used to stabilize the processes of charging and deflecting a droplet jet.

An inkjet typewriter is known in which the phase correction is based on measuring the current flowing between the charge droplet collector and the zero bus 1.

Such an adjustment is necessary, since a change in the phase of the drop-forming reduces the level of charge on the drop, which, like the change in the speed of the drop, significantly changes the amplitude of the deflection of the charged drop and, therefore, degrades print quality.

The closest in technical essence to the device presented is a writing mask in which a sequence of pulses is used to phase a drop into a drop charge and deflect it to a sensitive element that only fully charged drops strike. The sensing element is made of a piezoelectric material. In the case of incorrect phasing of the charge, the droplets do not hit the sensitive element, and there is no signal. As a result, the circuit is triggered and the phase is shifted.

signal acting on the electromechanical converter 2.

The disadvantage of the correction system in these devices is that only the drops that are charged from special signals are used for control, which does not allow for the absence of a regular process. In addition, the control of the rate of charge on the basis of the deviation of the drop, which depends on these parameters, which requires multiple adjustments to the phase of drop formation and speed, limits the accuracy of the adjustment and increases its time. All this significantly reduces print quality.

The purpose of the acquisition is to improve print quality.

Claims (2)

The goal is achieved by the fact that a n-chuided mantin containing a pump is equipped with a chamber with an inlet capillary, a frequency generator connected via a frequency divider with a nerve amplifier and a device for phase clocking, an electromechanical transducer connected to the chamber n connected to the output of the nerve amplifier , operational memory, the input of which is connected to the output of the device for phase delay, and the output through the series-connected signal generator and the second amplifier is connected to the charging electrode, the device for the deviation of charged droplets, the trap of uncharged droplets II, a tank installed between a trap and a pump with a control unit, a trigger, element I, a speed regulator, a phase regulator and a photo sensor with two optical radiation receivers, are located nii to half the length of the wave. The photosensor is located by a device for deflecting charged particles by distance from the cannllar nozzle, a multiple of the disturbance wavelength II is connected to the speed controller, one output of which is connected to the PR unit with a pump, the second output is connected through the series-connected trigger and element I is connected to the controller phases. The second input element And is associated with the third output of the speed regulator. The second input of the phase regulator is connected to the output of the CTFB phase delay device, the second input of which is connected to the nerve output of the phase regulator, the second output of which is connected to the second input of the trigger. The speed controller contains a comparison unit, a time counter and a counter for the number of droplets, the inputs of which are connected by the controller inputs, and the outputs are connected to the inputs of the comparison unit, the outputs of which are connected to the controller outputs. The phase regulator contains coarse and fine phase adjustment blocks, the inputs of which are connected to the first input of the block, and the outputs to the control unit of the phase regulator, whose output is connected to the first output of the phase regulator, the second output of which is connected to one of the outputs block of exact adjustment of a phase. The second output of the phase regulator is associated with the output of the coarse phase adjustment unit. FIG. 1 shows a schematic diagram of a typewriter; in fig. 2 is a block diagram of the speed controller; in fig. 3 is a block diagram of a phase regulator; and in fig. 4 - timing diagrams of speed correction (C, D, D1, D2) and phase correction of the charging pulse. The machine contains a frequency generator /, frequency divider 2, amplifier 3, electromechanical converter 4, device for phase 5 delay, operational memory 6, signal generator 7, amplifier 8, charging electrode 9, photo sensor 76 with two optical radiation receivers, device for deflecting ill drops, sealed surface 12, trap of uncharged drops 13, reservoir 14 with ink, speed controller 15, element I 16, phase 17 regulator, J8 trigger, pump control unit 19 and pump 20. Phase regulator contains coarse block regulations and phases, which includes an inverter O, a delay circuit 31, an AND 32 element, a thrasher 33, and a fine adjustment block, which includes a converter 4, an AND 55-38 element, and a control unit 39, which acts on the phase delay device 5. G1ii1un, and Mai: works as follows. The signal from the high-frequency generator / i costoiast and frequency divider 2, then through amplifier 3 to electromechanical transducer 4 and to a device for delaying phase 5, which controls the operation of memory 6, issuing information to sign generator 7, controlling through charging amplifier 8, droplets, flight 1, through the charging electrode 9. Drops fly in front of the photosensor W, which consists of two optical receivers. At the same time, charged Kahil.ch are deflected by the plates // onto the sealed surface 12, and the uncharged are collected into the trap J3 and sucked into the ink reservoir 14. Drops flying in front of the photosensor 10 cause current changes sequentially in the first and second receivers , which leads to pa effecting their outputs of signals that follow time-shifted (see Fig. 4) to speed controller 15. The distance between the first and the second receivers is chosen equal to half the wavelength. catch, UQ is changing at a speed of propelling. The signal of the nerve receiver through the element And 16 enters the phase regulator 17 in the presence of a signal coming from the speed regulator through the trigger 18, changing the state inie when a pulse passes from the speed regulator 15. The signal from the photo sensor 10 is fed to the phase regulator 17, which, affecting the delay device phase 5, makes the adjustment phase. The pulse from the photo sensor through the amplifier 21 acts on the trigger 23, which allows the high-frequency signal from the generator / frequency / through the element 24 to pass to the time counter 25, and this signal adds one to the drop number counter 26. Following the pulse C, the pulse D (D1 , D2) through the amplifier 22 and further, the trigger 23 is reset to zero. At the time counter 25, the number of units equivalent to the time t is recorded. Then the cycle is repeated k times (where k is the conversion factor of counter 26). With the arrival of a pulse on the element And 27, a comparison unit 28 is triggered, comparing the codes from the time counter 25 and the speed reference block 29. If the code from the counter 25 is greater or less than the specified code on block 29, then the pump control lines An ink pressure ratio is applied to the system, which leads to a decrease or increase in the speed of flight of the droplets. If the codes are equal, then the trigger 18 is set to one state and as a result, the electronic controller for phase 17 performs phase adjustment. If the trigger 33 is set to the zero state, then from its inverse output, a signal is sent to the control device 39j, which, acting on the phase delay device 5, changes the phase of the charging impuls by 180 °. After the time set by the delay circuit 31, the trigger 33 is set to one state and the AND element 35 also sends a signal to the fine phase adjustment circuit. When signals are present at the inputs of the control device 39, the phase delay device 5 increases or decreases the delay of the charging pulse until the pulses take the position shown in FIG. 4 (L). Here, the impulses A and B are formed by the converter. M 34. When the emulsions A, B n C coincide in time, the trigger 18 is set to the zero state. This completes the phase adjustment and the cycle of operation is repeated. Thus, in the proposed device, the levels of charge on the canal and the speed of the drop are stabilized. As a result, print quality and increase. In the proposed squeezing machine, phase and speed reglisation can be carried out during printing, and regression time is reduced, since this adjustment is carried out automatically. This increases the print quality, reliability and accuracy of the device. Claim 1. Power unit comprising a pump connected to the camera by an input capillary, a frequency generator connected via a frequency divider to the first amplifier with a device for phase delay, an electro-mechanical converter connected to the camera and connected to the output of the first amplifier, an operational storage device , the input of which is connected by the output of the device for phase delay, LOW through the series connected on the generator and the second amplifier is connected to the charging electrode, the device l drops, a catch of uncharged drops, and a reservoir, fixed between a catch and a pump with a control box, characterized in that, in order to improve the quality of the peati, it contains a trigger, an element And, a speed controller, a phase regulator and a photo sensor with dism. Optical radiation detectors located at half-wavelength from each other, the photosensor is located in front of the device. M For disconnected charged drops at a distance from the capillary nozzle, a multiple of the wavelength of the air, and soydia with the regulator speed odii the output of which is connected to the pump control unit, the second output through the successively connected trigger and element I. is connected to the phase controller, the second input of the AND element is connected to the third output of the speed controller, the second input of the phase regulator is connected to the output of the delay device phase, the second input of which is connected to the first output of the phase regulator, the second output of which is connected to the second trigger input. 2. The feeding machine according to claim 1, that is, with the fact that the speed controller contains a comparison unit, a time counter and a channel counter, the inputs of which are connected to the controller inputs, and the outputs to the inputs of the controller The outputs are connected to the outputs of the controller. 3. The writing machine according to claim 1, wherein the phase controller comprises coarse and fine phase adjustment units, the inputs of which are connected to the first input of the unit, and the outputs - to the phase regulator control unit, the output of which is connected to the first output phase regulator, the second output of which is connected to one of the outputs of the phase fine adjustment unit, the second output of the phase regulator is connected to the output of the coarse phase adjustment unit. Reference to information taken into consideration by experts: I. US Patent No. 3465351, cl. 346-75, onlib. 1969. 2. US patent 3465350, class 346-75, annul. 1969 (prototype).