DE4128088A1 - Automatic drafting machine with paper feed - has separate drive shaft carrying toothed gears - Google Patents

Abstract

The drafting machine has a drawing board (2); a transport to move sheets of paper onto the board and a paper cutter or pin (10). There is a rotating press-on roller (145-), a parallel drive roller (16), a pair of toothed gears (36,38), engaging in holes in a sheet of paper (88), and a drive. An additional drive shaft (20) is located under the drawing board, and parallel to the drive roller. The shaft carries the toothed gears so as to be non-turnable, and at least one of them is moveable along the drive shaft. ADVANTAGE - Increases range of paper sizes that can be used.

Description

The invention relates to an automatic drawing machine with paper through train according to the preamble of claim 1.

The automatic drawing machine from which the invention is based (JP-A 58-1 97 073) has a drive roller, which together with one or more rer pressure rolls a sheet of paper transported by friction. In addition are coaxial to the drive roller toothed disks, also called toothed drums, provided with which laterally perforated paper sheets are conveyed can.

A disadvantage of the arrangement explained above is that with the tooth shank ben only paper sheets can be transported whose width is greater than that is the drive roller and vice versa due to the drive roller only paper Sheets can be transported, the width of which is less than the distance of the two lock washers. This will make the possibilities of automatic Drawing machine significantly affected.

The object of the invention is now the known automatic drawing machine to design and develop with paper threading that at the same The range of paper sheets that can be used is enlarged.

The above-described object is achieved by the automatic time according to the invention chenmaschine by the characterizing features of claim 1. He according to the invention, the toothed disks are on a separate drive shaft arranges, whose axis parallel to the longitudinal axes of the drive roller and the Pressure roller runs. The toothed lock washers are non-rotatable on the drive shaft arranged, with at least one of the toothed disks on the drive shaft is also movable. Should a sheet of paper pass through the drive roller and the Pressure roller are transported, so the movable lock washer beforehand moved outward along their drive shaft so that the toothed lock washers do not hinder the transport of the paper sheet. Should a sheet of paper with With the help of the tooth lock washer, the movable tooth disc moved so far inwards that the toothed discs with their teeth engage in the transport holes provided on the paper sheet. Since the  Toothed lock washers independent of the drive roller on a separate drive shaft arranged and can also be moved along this, with the paper to be transported on the toothed disks also have a width, which is less than the width of the drive roller or the pressure roller. On the other hand, this can be too trans with the drive roller and the pressure roller porting paper have a width that only depends on the Size of the automatic drawing machine is. Paper can also be the same are transported in time through the toothed lock washers and the drive shaft, which has the advantage that the paper to be transported is close to the Drawing position again by the pressure roller or the pressure rollers is additionally pressed onto the drawing board, so that exact drawings possible are.

In particular, there are a multitude of possibilities for the invention to further develop and design the automatic drawing machine. This will on the one hand to the subordinate claims subordinate to claim 1, on the other hand to the explanation of a preferred embodiment referred to the drawing. In the drawing shows

Fig. 1 in side view a schematic representation of an OF INVENTION to the invention automatic drawing machine,

Fig. 2 is a perspective view of a schematic representation of an automatic drafting machine according to the invention,

Fig. 3 is a perspective view of a section of an inventive he automatic drawing machine and

Fig. 4 shows a schematic representation of a drive for transporting paper of an automatic drawing machine according to the invention.

Fig. 1 shows a side view of an automatic drawing machine according to the teaching of the invention. The automatic drawing machine 4 includes a drawing board 2 , which is attached to a machine frame, not shown in the drawing. A drawing head 6 is arranged on a guide rail (not shown in the drawing) and can be moved along the guide rail transversely to the transport direction of a paper sheet, that is to say perpendicular to the drawing plane of FIG. 1. The drawing head 6 has holding elements 8 , on which a pin 10 or a cutting element is fastened in an exchangeable manner. On a fastening rail, not shown in the drawing, running parallel to the guide rail, a pair of pressure levers 12 is pivotably arranged, of which at least one is also adjustable along the fastening rail. The pressure levers 12 carry a pressure roller 14 on their one lever arm and are acted upon by springs, for example, in such a way that the pressure rollers 14 are pressed in the direction of the drawing plate 2 against a drive roller 16 . The drive roller 16 and a drawing roller 18 are arranged below the drawing board 2 and reach through the drawing board 2 (see. Fig. 2). The drive roller 16 and the drawing roller 18 are rotatable about their parallel to the guide rail of the drawing head 6 extending longitudinal axes and connected to a drive.

Below the drawing plate 2 , drive shafts 20 , 22 are arranged in the machine body parallel to the drive roller 16 and to the drawing roller 18 with a square cross section and each carry two toothed disks 36 , 38 . One of the drive shafts 20 , 22 is arranged in front in the paper transport direction and the other of the drive shafts 20 , 22 in the paper transport direction behind the drive roller 16 and the drawing roller 18 . A guide rail 24 , 26 is provided parallel to each drive shaft 20 , 22 . As shown in Fig. 2, each forms a drive shaft 20 , 22 together with a guide rail 24 , 26 a guide on which two sliding elements 28 , 30 are arranged, one of which is also displaceable in the longitudinal direction of the guide. It is also possible, as in the illustrated embodiment, to arrange both sliding elements 28 , 30 movably. The drive shafts 20 , 22 grip through openings of the sliding elements 28 , 30 in which they can rotate freely. Each of the toothed disks 36 , 38 is arranged on its drive shaft 20 , 22 in a rotationally fixed manner and is rotatably fastened by axial bearings 44 to the mutually facing inner sides of the sliding elements 28 , 30 . The movable along a drive shaft 24 , 26 sliding elements 28 , 30 have a fastening mechanism 46 , with the help of which they can be attached to their respective guide rails 20 , 22 . For this purpose, the fastening mechanism 46 has, for example, an actuating lever 48 . 38, a pressing member 50 is attached to the slide members 28, 30, respectively, above the sprocket 36, pivotally mounted and is urged for example, by the force of a spring element downwards against the toothed disc 36, 38th The pressing elements 50 each have openings 52 which are arranged at the same intervals as the individual teeth of the toothed disks 36 , 38 . In operation, the teeth of the toothed disks 36 , 38 engage in these openings 52 , so that rotation of the toothed disks 36 , 38 is not hindered by the pressing elements 50 .

The sign plate 2 has at its movable toothed discs 36, 38 facing sides recesses 2 a, 2 b, into which the toothed pulleys 36 can be pushed 38. The recesses 2 a, 2 b are in the longitudinal direction by the drive shafts 20, 22 relatively long. As shown in FIG. 3, the drive shafts 20 , 22 for the toothed disks 36 , 38 have jackets 54 , which are each formed in the area between a toothed disk 36 , 38 and the inner edge of the associated recess 2 a, 2 b as bellows elements. The bellows members are flush with the surface Oberflä from the sign plate 2, so that a paper sheet b in the region of the recesses 2 a, 2 a support has.

Fig. 4 shows a drive that is used to drive the drive roller 16 and the drawing roller 18 and the drive shafts 20 , 22 for the toothed disks 36 , 38 equally. The drive includes a motor 56 which is supported on the machine body and to whose drive shaft a gearwheel 58 is fastened. To drive the drive roller 16 and the drawing roller 18 meshes the gear 58 with a gear 60 , the rotation of which via a clutch 62 to the drawing roller 18 and via a gear 64 arranged on the drawing roller 18 , an intermediate gear 66 and one arranged on the drive roller 16 Gear 68 is transmitted to the drive roller 16 . To drive the drive shafts 20 , 22 for the toothed disks 36 , 38 , the gear 58 located on the drive shaft of the motor 56 meshes with a gear 70 . Rotation of the gear 70 is transmitted via a clutch 72 to an intermediate shaft and from there via belt drives to the drive shafts 20 , 22 . For this purpose, a belt pulley 74 , 80 are rotatably arranged on the intermediate shaft for each belt drive, which are connected via belts 76 , 82 with pulleys 78 , 84 arranged in a rotationally fixed manner on the drive shafts 20 , 22 . The translations for the drive roller 16 and the drawing roller 18 on the one hand and the drive shafts 20 , 22 for the toothed discs 36 , 38 on the other hand are chosen so that the drive roller 16 , the drawing roller 18 and the toothed discs 36 , 38 each have the same peripheral speed.

In the following, the mode of operation of the arrangement explained above should be be written.

If a simple sheet of paper is to be conveyed with the aid of the drive roller 16 , the transmission for the toothed disks 36 , 38 carrying drive shafts 20 , 22 is uncoupled from the motor 56 by the corresponding coupling 72 being released. At the same time, the gear part for the drive roller 16 and the drawing roller 18 is coupled by the clutch 62 to the motor 56 . The fastening mechanism 46 of the movable sliding elements 28 , 30 is released with the aid of the actuating elements 48 , so that the sliding elements 28 , 30 along the guide rails 24 , 26 with the toothed disks 36 , 38 fastened to them can be pushed outwards, so that the paper sheet 86 to be transported can no longer come into contact with the toothed disks 36 , 38 (cf. FIG. 2). The paper sheet 86 lies on the drawing plate 2 and is held between the drive roller 16 and the pressure roller 14 . A rotation of the output shaft of the motor 56 is made via the gear 60 meshing with the gear 58 located on the output shaft of the motor 56 and the coupling 62 to the drawing roller 18 and via the gear 64 sitting on the drawing roller 18 , the intermediate gear 66 and that on the drive roller 16 seated gear 68 is transmitted to the drive roller sixteenth Depending on the direction of rotation of the motor 56 , the paper sheet 86 is moved back and forth perpendicular to the longitudinal axis of the drive roller 16 . Simultaneously, the drawing head 6 is moved transversely and to the movement direction of the paper sheet 86 along is ner guide rail by a not shown in the drawing engine of the pin held by the drawing head 6 10 toward lowered or to signals of a controller to mark roller 18 lifted off from it. Since a drawing is carried out on the paper sheet 86 . Depending on the width of the paper sheet 86 , the pressure rollers 14 can be moved and positioned along their mounting rail.

If, as shown in FIG. 3, a paper sheet 88 perforated at the edge is to be transported with the aid of the toothed disks 36 , 38 , this can be done with or without the drive roller 16 . If the sheet of paper 88 is transported solely through the toothed disks 36 , 38 , the pressure lever 12 with the pressure rollers 14 are first raised by appropriate lifting devices and the gear for the drive roller 16 and the roller sign 18 is by means of the corresponding clutch 62 from the engine Ent 56 couples, so that the drive roller 16 and the drawing roller 18 can rotate freely and the gear part for driving the toothed discs, 36 , 38 is coupled with the aid of the corresponding clutch 72 to the drive shaft of the motor 56 . Otherwise, the drive roller 16 and the character roller 18 remain coupled to the motor 56 so that they rotate in synchronism with the toothed disks 36 , 38 . The movable sliding elements 28 , 30 are moved along the guide rails 24 , 26 so far that the teeth of the toothed disks 36 , 38 are inserted into the transport holes of the paper sheet 88 . If the width of the paper sheet 88 is less than the width of the Zei chenplatte 2 as shown in Fig. 3, so can the movable toothed disks 36, 38 in the recesses 2 a, 2 b of the sign plate are moved. In the corresponding position, the sliding elements 28 , 30 are locked with the aid of the fastening mechanisms 46 and the pressing elements 50 are lowered onto the toothed disks 36 , 38 , the paper sheet 88 being clamped between the pressing elements 50 and the toothed disks 36 , 38 and thus being held in its position . In operation, the rotation of the output shaft of the motor 56 is transmitted to the drive shafts 20 via the gear 70 meshing with the gear 58 seated on the output shaft of the motor 56 , the clutch 72 and the belt drives 74 , 76 , 78 and 80 , 82 , 84 , 22 transmitted for the toothed disks 36 , 38 . If the drive roller 16 and the Zei roller 18 are also switched on, they rotate at the same speed and in the same direction as the toothed disks 36 , 38 . In this case, the teeth of the toothed disks 36 , 38 engage in the corresponding transport holes in the paper sheet 88 and the paper sheet 88 is clamped simultaneously between the drive roller 16 and the pressure rollers 14 . As a result, the paper sheet 88 is transported both by the drive roller 16 and by the toothed disks 36 , 38 . A drawing can be made with the pen 10 on the paper sheet 88 or, if the pen 10 is replaced by a cutting element, the paper sheet 88 can be cut.

Claims (5)

1. Automatic drawing machine with paper feed with a drawing plate ( 2 ), a device for transporting sheets of paper on the drawing board ( 2 ) in a paper transport direction and a cutting element or pen ( 10 ) movable transversely to the paper transport direction, the device for transporting paper at least one pressure roller ( 14 ) rotatably arranged about its longitudinal axis, a drive roller ( 16 ) arranged parallel to the pressure roller ( 14 ) and rotatable about its longitudinal axis, a pair of toothed disks ( 36 , 38 ) and a drive for driving the drive roller ( 16 ) and the toothed discs (36, 38) belong, wherein the pressure roller (14) can be pressed by a spring element against the drive roller (16) so that upon rotation of the drive roller (16) about its longitudinal axis a between the drive roller (16) and the Pressure roller ( 14 ) jammed paper sheet ( 86 ) is transported by friction and wherein the toothed discs ( 36 , 38 ) z to transport paper with its teeth into transport holes of a paper sheet ( 88 ) to be transported, characterized in that a drive shaft ( 20 ) is arranged below the drawing plate ( 2 ) and parallel to the drive roller ( 16 ), the drive shaft ( 20 ) Pair of toothed disks ( 36 , 38 ) rotatably carries and at least one of the toothed disks ben ( 36 , 38 ) along the drive shaft ( 20 ) is movable. 2. Automatic drawing machine according to claim 1, characterized in that both toothed disks ( 36 , 38 ) along the drive shaft ( 20 ) are movable. 3. Automatic drawing machine according to claim 1 or 2, characterized in that in addition to the drive shaft ( 20 ) a further a pair of toothed disks ( 36 , 38 ) rotatably supporting drive shaft ( 22 ) is provided, at least one of the further drive shaft ( 22 ) arranged Toothed disks ( 36 , 38 ) can be displaced along the drive shaft ( 22 ) and one of the drive shafts ( 20 , 22 ) in front of the paper transport direction and the other of the drive shafts ( 20 , 22 ) in the paper transport direction are arranged behind the drive roller ( 16 ). 4. Automatic drawing machine according to one of claims 1 to 3, characterized in that in the drawing plate ( 2 ) in the region of the toothed disk ben ( 36 , 38 ) recesses ( 2 a, 2 b) are provided so that the movable toothed disks ( 36 , 38 ) are each movable along their drive shaft ( 20 , 22 ) into the area of the drawing plate ( 2 ). 5. Automatic drawing machine according to one of claims 1 to 4, characterized in that for the movable toothed disks ( 36 , 38 ) each have a fastening mechanism ( 46 ) for locking the toothed disks ( 36 , 38 ) on the drive shaft ( 20 , 22 ) is provided .