SU922823A1 - Mosaic printing head - Google Patents

Description

The invention relates to a part of ne? chat devices designed to output information from data processing systems. * from

Known mosaic printing devices, the heads of which contain a number of printing mallets having an individual drive for its movement for each malleus (G). 10

However, this design is complex, as it contains a significant number of parts.

The closest technical solution to the proposed one is a mosaic printhead containing ^e- print hammers made in the form of plates with protrusions associated with movable typesetting elements, which in turn are associated with a control electromagnet corresponding to each of them for returning the print mallets th typesetting elements in the initial state are the springs [2]. OS

A disadvantage of the known construction is also its complexity, since there is a corresponding number of control electromagnets in the head for controlling each of the printing mallets through the typesetting elements, · ^ and for the return of each printing hammer and the typesetting element there is a spring.

The purpose of the invention is the simplification of the mosaic print head.

This goal is achieved by the fact that in a mosaic print head 'containing printing mallets made in the form of plate electrodes connected with stacking elements made in the form of movable stops and with an element for returning the printing hammers to their original state, and a drive for moving the printing mallets a common electrode is introduced, made in the form of a tape of a ferromagnetic material with a residual magnetism value, installed along movable stops, at one end of which there is a recording winding, therealong - two circuits control windings connected counter-sequentially and shifted relative to one another to move fold distance between the movable abutments and drive ^- moving the print hammers is in the form of an electromagnet, disposed along the plate electrodes, moreover, the return element of the print hammers in The initial3 state is made in the form of an electromagnet.

In FIG. 1 shows a head, a section, and also a storage medium drive and a drive for moving it; in FIG. 2 - common electrode with 5 windings; in FIG. 3 - the position of the movable stops depending on the magnetization of individual sections of the common electrode \ in FIG. 4 - inclusion of windings; Fig. 5 is a diagram of the re-magnetization of sections of a common electrode when recording information to be printed on it.

The mosaic printhead of the printing device contains a print-. 15 hammers 1, made in the form of a set of plate electrodes made of a ferromagnetic material with a residual value of magnetism. The magnetic fields of the drive to move the printing 20 hammers to their initial state, which is an executive electromagnet consisting of a coil 2 and a core 3, and the element for returning the printing hammers to their initial 25 state, made in the form of an electromagnet consisting of a 'coil 4 and a core 5, are closed through hammers 1, On one side of the hammers 1 in the immediate vicinity of them are the ink ribbon 6 and the storage medium. The carrier 7 is pulled by the drive shaft 8 using the pinch roller 9. On the other side of the hammers 1 there are movable stops 10. The stops 10, like 35 and the hammers 1, are made of ferromagnetic material. The magnetic field of the polling electromagnet, consisting of a coil 11 and a core 12, closes through the stops 10. The stops 10 can have mechanical contact with a common electrode made in the form of a tape 13 made of a ferromagnetic material with a residual magnetism value. Along the tape 13 there are two chains 45 14 and 15 of the control windings, which are connected to the control unit 18 through the switch 16 and the address setting unit 17. The magnetic circuit 13 at one end has a recording winding 19 connected through a memory unit 20 to a control unit 18. Each of the circuits 14 and 15 is a series of counter-series-connected windings 21-26, made in the form of flat tires. Hammer 1. has a punch 27.

The device operates as follows.

A current pulse is supplied to coil 4. Under the influence of the magnetic field of the core 5, the hammers 1 occupy the initial position. In this case, the stops 10 carry out their blocking. Then on. tape 13 '(Fig.1,2 and 4) is written binary information to be printed. 65

In this case, sections of the tape 13 are magnetized so that, acting on the stops 10, they allow printing or blocked the hammers 1. Information is recorded on the tape 13, similar to recording on a magnetic shift register.

Magnetization of the initial section of the tape 13 is carried out by the winding 19 of the record, which, at the command of the control unit 18, depending on the information accumulated by the memory unit 20 _g . and subject to printing, can magnetize it in one direction or another.

(figure 4). Next, the magnetized section is moved along the tape 13 (Fig. 5a, b, c, d, d). To do this, on the circuit 14 and 15 of the control windings are fed alternating bipolar pulses (figure 5). Further advancement of the magnetized portion along the tape 13 occurs due to the magnetic field of the windings 21-26 (figure 5) adjacent to its end zones. Due to the fact that the windings are connected in series with each other and have a counter-series connection, the advance pulses generated by the 'command of the control unit 18, the number of which is determined by the address setting unit 17, and the sequence and polarity by the switch 16, always extend one of the end zones and shorten the opposite. The direction of movement is provided by the switch 16, by alternating the polarity of the pulses. The parameters of the windings 21-26 are selected so that their energy is sufficient only to shift the boundaries of the magnetized sections along the tape 13, however, the magnitude of this energy is insufficient to magnetize the magnetization sections in their middle.

After recording on the tape 13 information to be printed, a current pulse is supplied to the coil 11. Under the influence of the magnetic field of the core 12, the loose ends of the movable stops 10, overcoming the elastic forces, are attracted to it and enter into mechanical contact with the tape 13. The interaction of the stops 10 with the tape 13 is determined by the interaction of the dispersion fluxes of the multipolar magnetization sections (Fig. 3). At the end of the action of the current pulse, part of the movable stops 10 will remain attracted to the tape 13. Their fixation is carried out by the dispersion fluxes of the magnetized sections, while the force of attraction should exceed the elastic force. The remaining stops 10 will return to their original position and block the hammers 1.

Further, a current pulse is supplied to coil 2. Under the influence of the magnetic field of the core 3, all the hammers 1 are attracted to it, however, only unlocked stops 10 can move it. In this case, the hammers 1 are transferred through the ink ribbon 6 with a print on the carrier 7.

When a current pulse is supplied to coil 4, all hammers 1 return to their original position. Then, the carrier 7 is pulled one step. Information is again recorded on tape 13 and the entire printing cycle is repeated.

Thus, the mosaic print head performs simultaneous printing of a whole line in the form of spots (dots). The size of the spots is determined by the size and shape of the sections of the printing hammers in contact with the ink ribbon. The distance between the spots is determined by the step of installing the hammers 1 and the step of broaching the carrier 7. The head can print a line of characters in a few 2θ cycles, the number of which is determined by the accepted number of points (elements) of the decomposition of the sign in the direction of broaching of the carrier.

If you remove the ink ribbon 6, and ^ 5, the blow of the hammers 1 is made strong enough so that the punches 27 pierce the medium 7, then the mosaic print head turns into a punch.

The proposed mosaic printhead is much simpler in design than the known one.

Claims (2)

Claim 1. A mosaic printhead containing printing mallets made in the form of plate electrodes connected with typesetting elements made in the form of movable stops and with an element for returning the printing hammers to the initial state, the drive for moving the printing hammers, which that, in order to simplify the head, it contains a common electrode, made in the form of a tape of ferromagnetic material with a residual magnetism value, installed along the movable stops, at one end of which is located recording winding therealong and - two circuits control windings connected in series and counter-shifted relative to one another to move the distance between the fold movable stops, and the drive movement of the print hammers is in the form of an electromagnet, disposed along the plate electrodes. 2. The head according to claim 1, characterized in that the element for returning the print hammers to their initial state is made in the form of an electromagnet.