NO138376B - PROCEDURE FOR PREPARING 1-BETA-D-RIBOFURANOSYL-1,2,4-TRIAZOLE-3-CARBOXAMIDE - Google Patents

Abstract

Process for the preparation of 1-B-D-ribofuranosyl-1,2, 4-triazole-3-carboxamide.

Description

Switchable drive device for color ribbons for printing works.

The purpose of the present invention is to provide a switchable drive device for color ribbons for printing works, which drive device is provided with two color ribbon spools that engage with each worm wheel drive, and where a holder carries the two worm wheels at the end of unwinding from one of the spools, under the influence of a resulting increased color band pull relative to a rotating shaft that holds the two augers, is swung about a point between the two augers to engage one auger and disengage the other.

With a known drive device of this kind, the swinging movement of the holder takes place at the end of the unwinding from a reel in such a way that with the increased draw in colour- | the belt is suddenly stopped, the worm wheel of the connected drive is stopped, and the worm, which is still turning as a result of the pressure exerted on the teeth of the worm wheel, pushes this wheel out of engagement. This results in an all the greater load on the color band, the greater the force required for the holder's swinging movement. If there are yielding devices for fixing the holder in one or the other of its two operating positions, or if a resistance arises as a result of incorrect positioning of the worm wheel's teeth in relation to the worm's teeth when one drive is engaged, this force can be rather large and cause the color ribbon to fray or tear loose at its ends on the reels.

The invention aims to avoid

such strong stresses on the color band.

This is achieved according to the invention by the fact that the axially displaceable screw shaft is displaced under the influence of the increased color ribbon pull over the worm wheel engaged for winding the color ribbon against the action of a springy raster positioning device, and that two switchable turning devices are arranged for the holder's oscillation in relation to the screw shaft, which consists of a cam sitting on the screw shaft and two fittings arranged on the holder, and of which one is engaged when the screw shaft is displaced and the other is disengaged.

With such a device, the worm for the engaged drive, when an increased color band pull occurs, will twist along the worm wheel in engagement with the worm. The pull to be taken up by the color band in this way corresponds only to the force required for the displacement of the screw shaft, which is insignificant in relation to the force required for the pivoting movement of the holder. The latter force, in contrast to known drive devices, causes no appreciable strain on the color ribbon.

The invention shall be described in more detail in the following in the form of an embodiment for printing calculators and with reference to the drawings where fig. 1 is a plan view of the drive device and fig. 2 a section along the line II—II in fig. 1.

The screw shaft 5, which is rotatably and axially displaceable stored between the machine's side walls 6, carries at its ends outside the side walls the screws 7 and 8. The shaft is driven in a manner not further described by means of the gear wheel 9 attached to it and is turned during the machine's operation.

On the outer ends of the holder 13 for the color ribbon spools, hereinafter referred to as the holder, the worm wheels 10 and 11

stored on studs 12. The worm wheels are be-

counted on alternate interventions with sneak-

kenes 7 and 8 and have such a toothing that their directions of rotation during operation are mutually

the opposite screw shaft 5 turns in an unchanged direction. To produce the alternating engagement, the holder is stored in a point 32 on the stand. It is also provided with guide slots 28 in which some studs 29 attached to the side walls 6 engage. The holder can be swiveled a negligible angle

in its plan, so that either one or the other of the two operated 7, 10 and 8 respectively,

11 can intervene.

The color ribbons stored on the pins 12-

reels 15 and 16 are in driving connection with the worm wheels 10, 11. The color band 14

is attached via pins to extensions of the holder 13 carried at a small distance from the type

the heads 18.

The worm shaft 5 is displaceable a negligible distance in the axial direction. One (in Fig. 1 the upper) end position determines

mes by impact of a control part 19 against the one in fig. 1 uppermost side wall 6

and the other end position (in Fig. 1 the bottom one) similarly determined by the contact of the gear wheel 9 against the lower side wall 6. In order for the worm shaft 5 to always occupy only one of these two end positions, the control

the part 19 provided with a double cone which is under the influence of a weight arm 21 provided with an egg 20. This is rotatably supported about a fixed pin 22 and its egg 20 is pressed by a spring 23 against the control

part's 19 double cone.

A coupling cam 24 is attached to the steering part 19 and to the gear wheel 9 a coupling cam 25, both of which are designed as eccentric center discs. In the lower end position of the shaft 5

ling, there is a stop 26 attached to the holder 13 within the rotation area of the cam 24, while at the upper end position of the shaft

ling in a similar way, a stop 27 attached to the holder 13 is located within the cam 25's rotation area. The interacting relationships between the shaft 5 and the holder 13

is such that only one of the cams 24, 25 can engage with its respective stop 26, 27 and that the egg 20 of the weight arm 21 has already passed past the circle of contact between the cones on the part 19 before one of the cams 24 and 25 can adjust the holder 13. On in this way, complete certainty is obtained that a reversal of the color band direction will be achieved.

To ensure the engagement of the worm gear can

where on the holder 13 a latching device consisting of a ball or a raster weight arm is arranged. However, it is also sufficient to design the disks 31 held by the guide screws 29 as spring disks, which

when the holder swings, it slows down

ne by the side walls 6.

It is assumed that the worm gear 7, 10 is engaged. Thereby, the color

the ribbon in the direction of the arrow A and is wound off the color ribbon spool 16. After complete un-

rewinding the ribbon from this reel,

this cannot be turned further, as one end of the color ribbon is attached to the reel.

Thereby, it is effectively increased on the color band

pull so that the worm wheel 10 can no longer be turned. Then, however, snail hair ulsaxe-

len 5 is turned further, this must be twisted vi-

on the worm wheel 10 in the axial direction upwards (Fig. 1) against the action of the spring

force that presses the weight bar 21 against the upper conical surface of the part 19. During the overcoming of this spring force, the egg of the weight bar 21 first reaches the circle of contact between the two conical surfaces, which

corresponds to half the displacement length of the shaft 5.

From there, the axial displacement ends

quickly by moving the barbell down

over the lower conical surface of part 19

and at the screw 7 continued screwing of the screw wheel 10, so that the shaft 5 is brought to its upper end position. Through this displacement, the cam 25 reaches into the area next to the abutment 27 and hits the continued rotation of the shaft 5 against this abutment. This means that the holder 13 is swung anti-clockwise so that the worm wheel 11 now engages with the worm 8 at the same time as the worm wheel engagement 7, 10 is released.

Thereby, the color band's direction of movement is reversed and the color band now runs in the B direction of the arrow.

The engagement movement between the screw axis

len and the worm wheels on the holder 13 can of course be kinematically reversed so that the holder is fixedly supported and the worm shaft performs a swinging movement in addition to its

cial displacement motion.

Claims (1)

Switchable driver for color ribbons for printing presses, with two color ribbon spools that are in drive connection with each worm wheel drive, and where a holder that carries the two worm wheels, at the end of unwinding from one of the reels, under the influence of a resulting increased color ribbon pull, swings in relative to a rotating shaft that forms the two lead screws, about a point between the two worm wheels for engagement of one worm wheel and disengagement of the other worm wheel, characterized in that the axially displaceably stored worm shaft (5) is displaced under the influence of the increased color ribbon pull above that for the winding of the color ribbon (14) engaged worm wheels (10 or 11) against the action of a springy grid positioning device (19, 20, 23), and that there are two engageable and disengageable swing devices for the swing of the holder (13) in relation to the screw shaft (5), which consist of chambers (24, 25) sitting on the screw shaft (5) and stops (26, 27) arranged on the holder (13), and of which the one is engaged and the other disengaged when the screw shaft (5) is displaced.