HEAT-TRANSFER PRINTING DEVICE

DESCRIPTION

OBJECT OF THE INVENTION

The present invention relates to the field of the printing machines by thermal transfer and to a printing device.

An object of the invention is that the printing device incorporates means which allow a constant tension to be obtained of the printing ribbon during the phase in which the printing operation is being performed by means of the thermal heads with the purpose of optimising the conditions in which the same is carried out.

BACKGROUND OF THE INVENTION

Printing machines with thermal head transfer the ink from a printing ribbon to the material to be printed by means of heating a number of points on the thermal printing head producing the ink release.

In a first generation of printing machines the system of moving the transfer ribbon was driven by a motor in the take-up spool and had different combinations of braking devices in the feed spool to control the quantity of ribbon supplied.

During the printing phase it is of great importance that the transfer ribbon has a tension as constant as possible in order to achieve a high quality printing. For this purpose, some manufacturers have developed movable devices which are displaced while maintaining the ribbon at constant tension, which determines a relative movement between the head and the printing ribbon, the feed spool and the take-up spool being stopped.

Patent US 5,975,777 discloses to a printing apparatus which incorporates a moving carriage which constitutes the element which moves the ribbon with respect to the thermal head, and maintains the tension of the ribbon during printing while at least one of the spools remains fixed.

Other solutions employed to maintain the ribbon at constant tension consist on acting on the different speeds of the motors of the feed and take-up spools.

These systems are complex and difficult to handle with a high degree of inaccuracy, and they also have the inherent limitations in speed determined by the inertia of the mechanical devices when starting up.

Another solution developed by the same applicant of the present invention consists of equipping the device with a drum located after the thermal printing head which attracts the ribbon to form a loop, thereby maintaining the ribbon at constant tension during the printing phase. The means of attraction used to maintain the ribbon on the drum consists in the application of an electric field on the load drum or in the application of a pneumatic system of suction

inside the drum.

DESCRIPTION OF THE INVENTION

The heat-transfer printing device that constitutes the object of this invention allows the tension of the printing ribbon to be maintained constant in a simple way during the phase in which the heads perform the printing operation.

Fundamentally, the device has a feed spool of printing ribbon, a thermal printing head and a take-up spool and it is based fundamentally on the incorporation, after the thermal head, of a load drum with which it contacts the printing ribbon in combination with a swivelling roller located immediately thereafter.

The swivelling roller is provided with a rotary movement which is applied on the printing ribbon, which has previously passed over the thermal head, directing it to the periphery of the drum over which it is wrapped partially forming a loop. The formation of that loop produces a tension in the ribbon that will remain this way during the printing.

The axis of rotation of the swivelling roller is displaced concentrically with the drum with rotary movement of approximately 180°. The swivelling roller is mounted on a spring in such a way that it maintains the ribbon permanently subjected to tension, the roller swivelling between the extreme positions of a curved trajectory which has the centre of curvature in the centre of the drum.

Depending on the rotation of the spools, be it the supply spool or the take-up spool, the ribbon would vary its tension which serves to compensate the roller subjected to the action of the spring moving along its curved trajectory.

In a possible embodiment the device has a motor which allows the swivelling roller to rotate to an extreme position in which the initial assembly of the ribbon is made, the motor being disconnected thereafter.

The motor will be preferably linked to one of the ends of a connecting rod, which is connected by its other end to the swivelling roller, the swivelling roller being connected to the drum by means of a spring, such as a torsion spring, which is compressed with the swivelling displacement of the roller around the drum when the loop is formed.

The quantity of transferred ribbon which forms part of the loop is monitored by means of sensors which detect the position of the swivelling roller. The sensors are located in correspondence with the ends of the trajectory of the swivelling roller.

When the ribbon arrives at the position of one of the sensors, the presence of the ribbon is detected and the feed or take-up spool of the printed ribbon is activated to maintain the tension of the ribbon at all times during the printing phase.

By means of this device the intervention a brake is not necessary, nor a sensor associated therewith, and it is only required to monitor the quantity of

ribbon transferred to the loop to compensate the speeds of the printing ribbon feed and ribbon take-up spools.

DESCRIPTION OF THE DRAWINGS

To complete the description that is being made and with the object of assisting in a better understanding of the characteristics of the invention, in accordance with a preferred example of embodiment thereof, attached as an integral part of said description, is a set of drawings in which, by way of illustration and not of limitation, the following has been represented:

Figures 1 to 3 show schematic views of the sequence of tensioning the transfer ribbon in which it is observed how the loop is formed by the movement of the swivelling roller.

Figure 4 shows an elevation view of a possible embodiment of the device in which the movement of the swivelling roller is appreciated through the action of a motor to facilitate the initial positioning of the ribbon on the device.

Figure 5 shows a side view of the device of the previous figure.

PREFERRED EMBODIMENT OF THE INVENTION

With reference to the figures, a preferred embodiment is described hereunder of the printing device which constitutes the object of this invention.

According to figures 1 to 3, the device has at least one input guide roller (1 ) which guides the printing ribbon (2) towards a drum (3) placed after the printing head (10) and before some output guide rollers (4).

The device is characterised fundamentally by the incorporation of a snivelling roller (5) which rotates around the drum (3) with the printing ribbon (2) located between them, forming temporarily a loop of printing ribbon (2) on the drum (3) which determines a tension in the ribbon (2) during the printing operation.

The swivelling roller (5) rotates following a curved trajectory (11 ), such as is shown in figure 4, the centre of curvature of which coincides with the axis of rotation of the drum (3).

The swivelling roller (5) is in a floating arrangement mounted on a spring (7), preferably a torsion spring, which facilitates the formation of the loop, such as it is shown in figures 1 to 3, maintaining the ribbon (2) in tension all times.

The device is fitted with sensors (8), as it is shown in figure 4, located in correspondence with the end points of the trajectory (11 ) of the swivelling roller (5).

In a specific embodiment represented in figures 4 and 5, the incorporation of a motor (6) is contemplated, the output shaft of which can be mounted in line with the axle of the drum (3) and connected to one end of a connecting rod

(9) which is linked by its other end to the swivelling roller (5) which it drives

with a rotational movement produced by the turning of the motor (6) to facilitate the initial assembly of the ribbon (2). The motor (6) is subsequently disconnected under normal working conditions.

In figure 5 the torsion spring (7) has also been represented, wound on the drum (3) and linked by one end to the swivelling roller (5) subjecting the ribbon (2) to a permanent tension.