DE3412855A1 - MATRIX PRINT HEAD - Google Patents

Abstract

1. A matrix print head with printing wires (8) which can be operated to print selectively by means of an electromagnet coil (21) allocated to each printing wire (8) with magnetic hinged armatures (18) for the dot-wise formation of characters on a record carrier (3), with the printing wires (8) resting against the inner ends of the associated hinged armatures (18) and being mounted and guided in a forward part of the print head housing (5) and the magnetic hinged armatures (18) in the rear part of the print head housing (5), and with the electromagnet coils (21) being combined on a base plate (24) to form a magnet block (23) and the base plate (24) being connected to the print head housing (5), with the base plate (24) of the magnet block (23) together with the magnet yokes (22a and 22b) consisting of a one-piece coil holder (25) receiving the electromagnet coils (21), the coil holder (25) being connected to a coaxially aligned core bushing (27), the printing wires (8) extending away from the side of the magnetic hinged armatures (18) which is opposite the side of these hinged armatures (18) facing the base plate (24), and the point of rotation of the hinged armatures being located between the two hinged armature ends and on the respective inner pole arms (22b) of the magnet yokes (22a, 22b), characterised in that the coil holder (25) is rigidly connected to the core bushing (27), with the end face (28) of the core bushing (27) which faces the inner hinged armature ends lying at an exact tolerance distance (30) from the end face (29) of the magnet yokes (22a, 22b) due to subsequent machining, and that a stop disc (31) is arranged on the core bushing (27) centrally for the inner ends of the magnetic hinged armatures (18) in such a manner that its stop surface (31b) is at a tolerance distance from the end face (29) of the magnet yokes (22a, 22b).

Description

The invention relates to a matrix print head with printing wires that for the point-wise formation of characters on a recording medium, optionally by means of one assigned to each printing needle Electromagnetic coil with armature can be driven to print, the

Print needles stored in a front part of the housing and

are guided and the armature in the rear part of the housing and wherein the electromagnetic coils to a magnetic block on a Combined base plate and the base plate is connected to the housing.

Such matrix print heads produce in matrix printers by reciprocating movements in front of the parallel platen (Platen) over an ink ribbon on the recording medium pressure points that occur continuously or step-by-step Feed of the recording medium result in alphanumeric characters. In addition to the speed for the back and forth movement of the matrix print head the frequency when firing the individual print needles is of decisive importance for the printing speed. For the printing precision and for the service life of the matrix print head The structure of the print needle drive assembly is essential.

Matrix print heads with printing needles are known, the structure of which is relatively complicated, so that manufacturing inaccuracies in several places occur, which adds up to considerable storage errors for printing pins, majnet anchors and other movable ones Represent parts. For this reason, such matrix print heads operate relatively imprecisely and are subject to a large amount Wear, which is partly determined by heating, so that the service life of such matrix print heads is limited.

The invention is therefore based on the object of proposing a matrix print head for matrix printers, which is initially in the accuracy of the manufacture of the individual parts or the individual assemblies, generally economic tolerances allowed, which also has a functional stability, i.e. a long service life, and which is ultimately economical to assemble is.

The task at hand is given with the matrix print head mentioned at the beginning solved according to the invention in that the base plate of the magnet block together with the magnet yokes from a one-piece, the coil support receiving the electromagnetic coils and that the coil carrier with a stop washer for the magnet armature having core bushing is connected, which is developed into a heat sink with cooling fins. This invention has the advantages of economical production with economical production tolerance, furthermore the advantage of reduced assembly time and the matrix print head according to the invention achieves a stability during operation that 0 could not be achieved so far, so that a long service life is achieved.

The stability of the magnet block and the low-wear power transmission from the solenoid coils to the print wires 5 achieved according to further features of the invention in that the base plate of the magnetic block forms a base ring has, to which the magnet yokes are molded in one piece and from the same material in the investment casting process or in the sintering process are.

The economics of making one earlier out of several Assemblies composed of individual parts with appropriate dimensional accuracy, appropriate tolerance quality and appropriate resistance is also achieved in that the one-piece coil carrier consists of an iron-silicon alloy.

-5- 3A12855

The advantage of a stable structure while reducing the manufacturing tolerances to be observed is also thereby favors that the one-piece bobbin carrier is riveted to the core bushing. In practice there are only two essential ones Operations required for the manufacture of a coil carrier prepared for the assembly of the electromagnetic coils are.

An independent invention, which, however, can also be used in conjunction with the previous invention can be used, provides a matrix print head with damping stop means for the backward movement the armature. It is advantageous that a Stop washer heat-insulating an end face of the core bushing opposite the printhead housing made of plastic covered.

This idea is now being further developed to the effect that the heat-insulating and the movements of a magnet armature dampening Stop washer with recesses for the connection cable to the Electromagnet coils is provided. This additional suggestion has the advantage that the matrix print head against heat generation of the electromagnetic coils, which to a certain Part cannot be avoided, is protected.

Embodiments of the invention are shown in the drawing and are described in more detail below. Show it:

Flg. 1 shows an axial cross section through the in the operating position matrix print head located (without the moving carriage of the matrix printer),

Fig. 2 shows a cross section (II - II according to FIG. 3) through the separately shown assembly of coil carrier with core bushing and stop disk and
FIG. 3 shows a plan view of FIG. 2.

The matrix print head lies with its print needle guide assembly 1 opposite the platen 2, which consists of the platen 2a. The recording medium 3, usually a paper web 3a, is transported through the platen 2a. The ink ribbon 4 is also located in front of the b recording medium 3.

The print wire guide assembly 1 has a housing 5a as part of the printhead housing 5. In the housing 5a are guides 6 and

7 for the print wires 8. The column of the print wires 8, i.

several, e.g. five to twelve, one above the other!

8 are also very close to that in the guide mouthpiece 9 Pressure abutment 2 out. The guide mouthpiece 9 is also attached to the guide support 10 and by means of the stop 11, the spring 12, the electromagnet 13 and the adjustable

Working air gap 14 adjustable in two height positions. the

However, height adjustment is not part of the present invention. The pressure needles 8 can therefore also be vertically non-adjustable in the guide mouthpiece 9 be led.

The print wire drive assembly 15 has a connector housing 5b on, which is held by means of inserts 16 from the housing 5a at a distance that allows the position of the printing needles 8 on Guide mouthpiece 9 basically and at any point during the life of the matrix print head.

2b set or reset. The print needles 8 are stored in a rear print needle bearing 17 and their needle head 8a rests against a bearing surface 17a via the compression spring 8b.

In addition, in the embodiment (Fig. 1), a magnet armature 18 is provided, which rests on the needle head 8a, also on a conventional plastic ring 19 is supported and by means of the electromagnet 20 can be actuated. The electromagnetic coils 21 and the Magnet yokes 22a and 22b with further features are one Magnetic block 23 combined and shown separately in FIG.

In FIG. 2, the magnet block 23 is drawn without the winding 21. The magnet block 23 has a base plate 24 which has a ring 24a forms, on which the magnet yokes 22a and 22b are formed in one piece, so that the base plate 24 (ring 24a) together with the

Magnet yokes 22a and 22b a one-piece coil carrier 25

form. Here, the base plate 24 is by a press connection 26 connected to a core bushing 27. The core bushing 27 forms a transition to a receiving rim 27b through ribs 27a. the Core bushing 27 is machined on end face 28 or on face 29 after connection to coil carrier 25, if not already through the manufacturing process (investment casting process, Sintering process) processing should have become unnecessary. During processing, a precise distance 30 arises, with the Tolerance quality can be maintained easily and economically.

On the core bushing 27 is the stop disk 31, which

consists of a tough and wear-resistant plastic or the like. The core bushing 27 is designed at the same time as a heat sink 32 with cooling fins 33. The stop disk 31 forms a Zentrleransatz 31a, a stop surface 31b, which of course is in the tolerance distance to the surface 29. The stop washer 31 further forms a recess 31c between two ribs 27a through which connecting cables 34a and 34b to the electromagnetic coils 21 run (Fig. 3).

Another design form of a stop disk 35, however fulfills the same functions and properties of the stop disk 31 is shown in FIG. 1, the only modification shows the relocation of the recesses 31c: There are other recesses 36 through the ring 24a and through the receiving rim 27b intended. Both the recess 31c and the recess 36, however, lie within the largest diameter of the matrix print head.

In the core bushing 27 or the stop disk 31 are through holes 37 (Fig. 2 and 3) for fastening screws 38 (Fig. 1) intended. The fastening screws 38 connect the magnet block 23 to the connection housing 5b.

.9.

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Claims (6)

Mannesmann Aktiengesellschaft 1984 Mannesmannufer 2 22 976 - Dusseldorf Matrix print head Claims ι Matrix print head with print needles, which can be driven for the point-by-point formation of characters on a recording medium by means of an electromagnetic coil with armature assigned to each print needle, the print needles being supported and guided in a front part of the housing and the anchors in the rear part of the housing and wherein the electromagnetic coils are combined to form a magnetic block on a base plate and the base plate is connected to the housing,
characterized, that the base plate (24) of the magnet block (23) together with the magnet yokes (22a or 22b) from a one-piece, the electromagnetic coils (21) receiving coil carrier (25) and that the coil carrier (25) with a stop disc (31) for the Magnetic armature (18) having core bushing (27) is connected, which is developed into a heat sink (32) with cooling fins (33). 2. Matrix print head according to claim 1,
characterized, that the base plate (24) of the magnet block (23) has a base-forming ring (24a) on which the magnet yokes (22a, 22b) b are integrally formed and made of the same material in the investment casting process or in the sintering process. 3. Matrix print head according to Claims 1 and 2, characterized in that that the one-piece coil carrier (25) made of an iron-silicon alloy consists. 4. Matrix print head according to Claims 1 to 3, characterized in that that the one-piece coil carrier (25) is riveted to the core bushing (27). 5. Matrix print head, with damping stop means for the backward movement of the armature, in particular according to one or more of claims 1 to 4,
characterized, that a stop disk (31) has an end face opposite the printhead housing (5) made of plastic (28) of the core bushing (27) covered in a heat-insulating manner. 6. Matrix print head according to one or more of claims 1 to 5, characterized, that the heat insulating and the movements of a magnet armature (18) damping stop disc (31) with recesses (31c) for the Connection cable (34a or 34b) to the electromagnetic coils (21) is provided.