CS259253B1 - Swiveling device with thermo-head rigid carrier for thermal printers - Google Patents

Abstract

The swing device is intended primarily for parallel - line thermal printers. It allows the attachment and adjustment of several thermal heads in a row next to each other on a rigid monolithic carrier so that a deformable pad is inserted between them, which eliminates inaccuracies in the thickness of the thermal heads. The number of thermal heads is determined by the width of the heat-sensitive paper. The rigid carrier with thermal heads swings around an axis parallel to the axis of rotation of the printing cylinder and around an axis perpendicular to this axis. At the same time, the carrier with thermal heads is pressed against the printing cylinder by a torsion spring. The swing device is particularly suitable for use in printers for small computing equipment.

Description

SUMMARY OF THE INVENTION The present invention provides a pivoting device with a rigid carrier for thermo-printers.

Thermo-heads as powerful thermo-printers enable printing of alphanumeric characters and graphics. They are mounted on a swivel carrier which is spring-loaded to the printing cylinder. The swinging support is made of a material with good thermal conductivity. A paper with a heat-sensitive layer is guided between the printing cylinder and the thermocap, and when the electrical current is supplied to the thermocap according to the specified program, the desired character appears on the paper. In order to achieve the same print quality, it is important that the pressure of all thermo heads is the same. In addition, line-parallel printers in which multiple thermo heads are stacked side-by-side are required to print a straight line.

The thermocouple carriers of known thermoprinters are mounted either on flat springs that allow them to swing and press them simultaneously to the printing cylinder, or by means of a hinged support of the carrier separately for each thermocouple. In the case where only one wide thermo-head is used over the entire width of the paper, the carrier is pivotable at least about two axes. In the first case, there is the disadvantage of a solution in labor-intensive manufacturing, assembly and in the difficulty of aligning the thermoheaders side by side. The fatigue of the material, possibly under the influence of temperature, deforms the flat spring, causing the heads to rotate, resulting in uneven printing of the characters. Furthermore, it is necessary to create a plurality of joint bearings, which is in a series of thermoheaders. In the second case, if only one wide thermo-head is used, the disadvantage of the solution is that if the thermo-head is damaged, it must be replaced

These drawbacks are overcome by the swinging device with the rigid carrier of the thermo-heads for the thermal printers according to the invention, which is based on the fact that it allows the attachment of a. setting a plurality of side-by-side thermo heads on a rigid monolithic carrier such that, by means of a deformable washer, they form a compact unit, the carrier pivoting about an axis parallel to the axis of rotation of the printing cylinder and about perpendicularly to this axis; a spring firmly seated at one end in the hollow shaft and at the other end in the frame by means of a clamp joint as a connecting member. The pivoting of the carrier about two axes perpendicular to each other is made possible by a hollow shaft parallel to the axis of rotation of the printing cylinder and by a support adjusting screw whose axis is perpendicular to the axis of the hollow shaft.

The main advantage of the rigid thermoclave carrier swiveling device of the present invention is that it allows mounting and alignment of several thermoclaves adjacent to each other on a rigid monolithic carrier, eliminating the laborious adjustment of individual thermoclaves, such as using separate supports for each thermoclave, adjusting the pressing force of the solid support and tilting it by a single control element. A further advantage of the invention is that the replacement of only some of the damaged thermohead from the carrier is more economical than the replacement of the entire wide thermohead.

An example of a swivel device with a rigid carrier of a thermo-head for a thermo-printer according to the invention is shown in the accompanying drawings, in which: FIG. 1 is a side elevation view of the pivoting device; FIG. 2 is a section A - A of the pivoting device of FIG. 1, FIG. 3 is a detail B of the torsion spring attachment by the conical clamp of FIG. 1 and FIG. 4 is a view in the direction P of the conical clamp of FIG. Third

The swiveling device described consists of a frame (not shown) in which the printing cylinder 2 is rotatably mounted. A hollow shaft 3 is rotatably mounted in the frame 1 in parallel with the printing cylinder 2, on which a hinge 4 is fixed in the center by a cylindrical clamping connection. The support adjusting screw 3 in the hinge 4 is a pivotably supported rigid support 3. It has the shape of a flat prism with cooling and reinforcing ribs 39, 40, 41 made of a lightweight material with good thermal conductivity. In the central part of the rigid carrier 5 are formed two transverse holes 17, 18, the axis of which is perpendicular to the axis of rotation of the printing cylinder 2. In the holes 17, 18, a support adjusting screw 6 is rotatably mounted having axial displacement prevented by the locking ring 16. The rigid carrier 5 with the thermocouples 8 to 13 is pressed against the printing cylinder 2 by a torsion spring 13, which is fixed at one end in the hollow shaft 3 by means of screws 22 to 38. and at its other end it is fixedly mounted in the friction disc 19, which has at its periphery two circular grooves 43 through which the screws 20, 21 screwed in the frame 1 pass.

In the described example of the device, the support adjusting screw 6 can be replaced by a fixed pin on which the rigid support 3 is moved and rotated. For simplicity, the hinge 4 can be part of the hollow shaft 3. The conical clamp as coupling can be replaced by another known solution, e.g. clutch.

The contact force of the thermocouples 8 to 13 is adjusted by rotating the friction disc 19 of FIG. 3, 4 in a direction with a certain angle, and it is ensured by screws 20, 21. The friction plate 19 of the rotation will develop a torsion spring 13 a torque which is transmitted through the hollow shaft ¹ 3, hinge 4, the support set screw

9

6, a rigid carrier 5, a deformable backing 7 on the thermo-heads 8 to 13. In the upper part of the thermo-heads 8 to 13, the heating contact pads 42 are pressed against heat-sensitive paper (not shown). The paper moves between the printing cylinder 2 and the thermo-heads 8 to 13. For perfect surface contact of the thermo-heads 8 to 13 on the printing cylinder 2, it is necessary to align them side-by-side and washer 7, which is made e.g. of silicone rubber and screws 22-38

3 β to 13 do not touch the printing cylinder 2 at the locations of the heating contact pads 42, the position of the thermocouple carrier 5 to 13 is adjusted relative to the printing cylinder 2 by turning the support adjusting screw 6 to the left or right.

When cleaning, checking, replacing or adjusting the contact force of the thermocouples 8 to 13, the screws 20, 21 are loosened and the friction disc 19 is rotated against the direction S to access the thermocouples 8 to 13.

Claims (1)

23 9 5 6, a rigid support 5, a deformable support 7 on a thermostatic head 8 to 13. In the upper part of the thermostats 8 to 13, the heating contact pads 42 are pressed against a heat-sensitive non-illustrated sheet. The paper is moved by printing roller 2 and thermo-flaps 8 to 13. In order to make the flat face of the thermocouples 8 to 13 perfect for the printing cylinder 2, it is necessary to align them with the ledge and the heater touch pads. up to 13 in a plane by means of a deformable pad 7 which is made, for example, of silicone rubber and rings 22 to 38. If the thermo-cylinder 5 3 6 8 to 13 does not touch the printing cylinder 2 in the locations of the heating contact pads 42, the position is adjusted a carrier 5 with thermo-pressures 8 to 13 relative to the printing cylinder 2 by turning the support adjusting screw Bdol or left. When cleaning, checking, exchanging or adjusting the pressure force of the thermostats 8 to 13, the screws 20, 21 are released and the thermo-valve 8 to 13 is made accessible by turning the anti-roll plate 19 upstream. 13 with respect to the printing cylinder 2. OBJECT A swinging device with a rigid terradel carrier for thermo-presses with a spring pushing the carrier with at least double-heads to the printing cylinder, characterized in that between the solid support (5) and the thermoheads (8 to 13 ) a deformable washer (7) is inserted and the rigid support [5] with thermoheads (8 to 13) is pivotably mounted by means of a supporting adjustment of the screw (6) in the hinge (4) which is received with the hollow shaft (3) rotatable in the frame ( 1), wherein a torsion spring (15) is fixed to one end of the hollow shaft (3) and the torsion spring (15) is at the other end of the hollow shaft (3). with the coupling member (44) coupled to the frame (1). 3 sheets of drawings