DE1260206B - Pneumatically operated hammer system for a printer - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

Number:
File number:
Registration date:
Display day:

G06k

German KL: 42 m6 - 15/02

S99599IXc / 42m6
September 23, 1965
1st February 1968

The performance of a high-speed printer depends on the number of items that can be executed per unit of time Printing processes and the number of printable, different characters. For the concept of a high-speed printer, the product of both sizes is mainly important, which in turn the surface speed of the type carrier is essentially determined. The increase in performance of a high-speed printer, be it by expanding the character set or by increasing the number of characters per unit of time printable characters or both at the same time, therefore initially requires a higher type carrier speed. For the entire hammer system, which consists of a print hammer with a drive and trigger mechanism, therefore result the following requirements: In order to get a sharp, non-smudged writing, must be with flying High-speed printing has a sufficiently short contact time between paper and Color and type carriers can be achieved. The contact time becomes shorter, the higher the impact speed of the hammer with which it hits the paper or the type carrier. To achieve Character with sufficient sharpness are required impact speeds of the hammer that are at least as great as the surface speed of the type carrier.

A number of high performance printing arrangements have now become known in which the energy required for printing is converted from electrical to mechanical form in the mechanism itself. However, this has the decisive disadvantage that the energy conversion takes place with such a poor efficiency that to remove the resulting heat loss, which would result in a temperature increase that would prevent the function from remaining in the mechanism, a power expenditure for the cooling air would be required, which in itself is a multiple of the maximum energy required for printing per unit of time. This disadvantage does not apply if the energy conversion at the place of energy consumption is avoided in that the energy is supplied to the printing mechanism in the mechanical form, e.g. B. in the form of compressed air. Such an arrangement is e.g. B. from US Pat. No. 3,045,590. The hammer system shown there consists essentially of a cylinder filled with compressed air, which is closed on one side and the other side of which is closed by means of a piston sliding in this cylinder. The piston has a pneumatically operated hammer system on the side protruding towards the cylinder
a printer

Applicant:

Siemens Aktiengesellschaft, Berlin and Munich, 8000 Munich 2, Wittelsbacherplatz 2

Named as inventor:

Dr.-Ing. Karl Lindner, 7036 Schönaich

Stamp with a print hammer attached to the end. The printing process is triggered by actuating a latch which engages a nose on the stamp and which is triggered electromagnetically at the time of printing. The compressed air in the cylinder drives the piston out of the cylinder until the print hammer strikes the medium to be printed. The piston releases an opening in the cylinder wall through which the compressed air can now escape, so that a return spring attached to the punch can now bring the punch back into its initial position, where it is locked by the pawl.
However, this arrangement has a decisive disadvantage, particularly with regard to the requirement of high impact speed raised at the beginning. The kinetic energy that the hammer is allowed to have at the moment of impact is limited, because otherwise the medium to be printed would be destroyed. As the impact velocity increases, the hammer mass must therefore decrease proportionally to the square of the impact velocity. Since the kinetic energy of the known arrangement is relatively high due to the design, the impact speed and the printing speed are inevitably limited. Another disadvantage is that mechanical parts are used to trigger the printing process, which cannot be manufactured with any precision. However, since the tolerance for the time of impact is inversely proportional to the speed of the type carrier in accordance with the specified permissible writing error, the printing speed cannot be increased arbitrarily with the known arrangement for this reason either. Furthermore, a relatively high expenditure of energy is necessary to accelerate the release mechanism, which corresponds to the above-mentioned un-

709 747/285

3 4

Desired heat development also feed The hammer system for the high-speed printer exists

perform. Another disadvantage of the known arrangement essentially consists of a cylinder 2 free

tion can be seen in the fact that to retrieve the flying hammer 1, which in turn consists of three parts

the pressure ram is composed of a coil spring used. So the hammer consists of a 5 a part la, which is made of a material with a low vibration, which is at the latest up to the earliest specific weight, an anchor plate 1 & possible next triggering point decayed from ferromagnetic material and finally has to be one , because the hammer at this point in time third part 1c, which must be made of a material with a high again to have its defined starting position. internal friction exists, i.e. high damping otherwise the random error would have the io. The armature plate 1 b is held in the magnet 3 by an electrical starting position via shock travel and shock time, which is received by an exciter winding 4 written status errors. is constantly excited. From a collecting line 5, in British patent specification 933 909, a load-independent, constant air in an arrangement is known, with a pressure prevailing, the storage chamber 6 is filled with compressed air via the cylinder free-flying piston-shaped pressure throttle 7 , which now has a force hammer, which closes in its rest position with an end face on the Hameine closing the outlet opening 8, which exerts the cylinder with a 1 mer. This force is smaller than the holding storage chamber connects, and one at the same force of the electromagnet 3.If there is now a controllable electromagnet command arranged on the pressure face, the until then currentless to hold the print hammer receives one of the force 20 ejecting winding 9 a pulse which exerts a magnetic field opposite to that of the propellant and greater force previously generated by the coil 4 on the piston and whose field is opposite to the pressure hammer and generates approximately the same size, holding field strength by a pressure command so far that the force holding the hammer disappears , is reduced so that the force of the pressure medium is sufficient so that it is now acting in the chamber 6 by moving the pressure hammer. This causes the pressure to be accelerated outwards. The known arrangement eliminates some of the hammer for a while on the impact resistance disadvantages of the above-mentioned USA.-Patent Stand 12, the type carrier or the arrangement that has become known to be labeled. It has printing paper that is shown to be moved, but still has the disadvantage that the print hammer releases a throttle 10 which opens into a low pressure line 11 after a printing process and reflection 30 have been carried out. From this point onwards, the one at the shock resistance flies with almost the entire energy hammer at about the same speed, which he pours even further outwards after the printing process has been carried out, because the air flows out into the opening and the electromagnet of the low-pressure line 11 a pressure drop in the flies. In doing so, the urine space behind the piston cannot be avoided. The hammer hits more there when it hits it is again reflected 35 at the end of its path on the resistor 12 and and until it comes to a complete standstill possibly more is reflected there with a loss of energy. On his rere experiences bruises. On the way back, it first separates the via opening 8

The invention is therefore based on the object with the storage chamber 6 in connection in such an arrangement, such bruises of the cylinder space from the throttle 10 and compressed to avoid the printing time as precisely as possible before the separated air volume, including a part of the adjust and thus the pressure output of a solar remaining kinetic energy consumed chen high-speed printer by being. As a result, the hammer returns at the end of sei-reverse of the free-flying nes return path, which serves as a hammer, with a comparatively moderate piston is influenced in such a way that it returns to its starting position at a comparable speed and wise low kinetic energy in its output 45 strikes at the pole ends of the magnet, the intermediate position returns and see wiedei by the electromagnet there by switching off the ejection current can be captured and held. Invention has become active and thus the hammer in accordance with this is achieved in that a first is able to catch and hold. Here is dei Throttle is provided through which the propellant from excess kinetic energy of the returning a supply line in the storage chamber one 50 hammer except for a remainder, which the safe ride, that the print hammer guarantees after an acceleration of the starting position, in potential travel distance, but before it meets an energy of the air in the storage chamber, collision resistance converts one located in the cylinder wall. This has in addition to saving energy second throttle which opens into a low pressure line has the additional advantage that vibrations are avoided, in the direction of which the storage chamber will be blocked off, which could occur when the kine closing The opening releases and that the driving force of the medium pressure impinging on the electromagnet, the volume of the storage chamber, which is enough for the hammer to move away from it To solve the cross section of the outlet opening and the cross section. That between the anchor plate elf and the the first throttle are matched to each other, supports part la located damping material Ic that the hammer 60 reflected by the impact resistance thereby exerts the effect of the trapped air volume Walking back so slowed down and doing his mens. When the print hammer is back from the magnetic kinetic Energy is at least partially captured in potential th 3, the opening 8 is energized again converted into the form of propellant pressure, so that the pressure in the accumulator is that he can rebuild a comparison chamber 6 at the end of the return, whereupon the Hamweise has low kinetic energy and of which 65 mer 1 is ready to print again. The cross section of the Electromagnet is captured and held. Throttle 7, the cross section of the throttle 10 and the

In the following the invention is based on the air pressure in the opening 8 are in the embodiment

Figure explained in more detail. match so that the

following triggering of the resistor 12, Hammer reflected on approaching the magnet like this is braked so that it can be caught and held by the magnet 1. Besides, the Cross section of the throttle 7 and the cross section of the throttle 10 are matched to one another so that on the one hand with the opening 8 closed, the pressure in the chamber quickly reaches its maximum value and that on the other hand with an open passage from 7 to 10 the pressure in the intermediate one Space sinks sufficiently quickly and far. A particular advantage of the arrangement can be seen in the fact that that the dependence of the release time on manufacturing inaccuracies of the mechanism largely avoided and the number of sources of error that the synchronization of the movement of the Hammer to affect that of the type carrier is limited to a minimum. That The absence of any self-oscillating structure as well as the small moving masses cause further that the arrangement has a very favorable vibration behavior, so that high pressure outputs can be achieved permit.

Claims (3)

Patent claims: 1. Pneumatically operated hammer system for a printer with one in a cylinder free flying piston-shaped pressure hammer, which in its rest position has an opening with an end face closes, which connects the cylinder with a storage chamber, and one on the same Front side arranged controllable electromagnet for holding the print hammer, the exerts a force on the piston that is opposite and greater than the force of the propellant, and whose field strength holding the print hammer is reduced by a print command to such an extent that that the force of the pressure medium is sufficient to move the print hammer, characterized in that that a first throttle (7) is provided through which the propellant from a supply line (5) enters the storage chamber that the print hammer after an acceleration distance, but before it hits an impact resistor (12), one in the cylinder wall located second throttle (10), which opens into a low pressure line (11), in the direction of the opening (8) closing off the storage chamber (6) releases and that the propellant pressure, the volume of the storage chamber (6), the cross section of the outlet opening (8) and the cross section of the first throttle (7) are coordinated so that the impact resistance (12) reflected hammer (1) when walking back so slowed down and thereby its kinetic energy is at least partially converted into potential energy in the form of propellant pressure, that he has a comparatively low kinetic energy at the end of the return and of that Electromagnet is captured and held. 2. Hammer system according to claim 1, characterized by a pressure hammer composed of three parts, in which the part resting on the electromagnet is made of ferromagnetic material (1 b), the part (la) that is in operative relationship with the medium to be printed is made of a material with a low specificity Weight and the part provided between these two parts is made of a material (lc) with high internal friction. 3. Hammer system according to claim 1, characterized by one on the electromagnet attached holding winding (9) and a discharge winding (4), which is the one through the holding winding generated field causes opposite field. Considered publications:
Austrian Patent No. 228 544;
British Patent No. 933,909;
U.S. Patent No. 3,045,590. 1 sheet of drawings 709 747/285 1.68 © Bundesdruckerei Berlin