DE665783C - Conveyor device for the print strip pushed out of a strip printer and sent through a projection device - Google Patents

Description

Conveyor device for the pushed out of a tape printer, Printing strips sent through a projection device The invention relates to a strip printer projection machine. The use of such machines is special of great importance for brokerage purposes. With them he has to go through the projection device at the light opening passed strips are controlled so that it is always smooth and is free from vibrations. That is why damping devices have been installed which are in friction with the tape between the tape printer and the light opening, to prevent the vibrations given to the strip during printing on the located in front of the light opening part of the strip are transferred. This on Friction based Danish devices have come into practical use however, led to considerable difficulties. For example, if a cellophane strip was used, so it happened that in wet weather this strip on the finite friction damping means stuck during the rest breaks. if if the strip was removed from the friction points afterwards, it was considerable exposed to jerky loads. It also happened that when changes were made in the thickness of the stocked strips of paper or cellophane the print these friction devices did not fit for the different tape thicknesses, so that the damping organs worked properly with one thickness, but not with a different tape thickness. Also require such frictional Orders constant attention and precise adjustment from day to day, depending on the z. B. changing working conditions caused by moisture.

Another disadvantage of this friction arrangement is that as a result of the pressure to which the strip is subjected, the strip with a greater force must be pulled away as would be necessary to simply pull the strip through to pull the projector. To exercise such a particularly strong pulling effect pulling rollers with corrugated gripper surfaces were used. Such fluted Pulling organs also require time due to the wear and tear to which they are subject a readjustment at times. If you could use smooth pulleys and none especially If increased tension were to be exerted on the belt, there would be less wear take place and, as a result, maintenance can be made easier because readjustment hardly or not at all would be necessary.

In order to be able to adjust the work of the pulling device in such a way that the strip is only pulled through the projection apparatus to the extent that it is subsequently supplied by the printing device, devices have been made to keep the work of the motor driving the pulling roller to control that it starts and stops as soon as the printing apparatus starts operating or stops printing. The control takes the inertia of the motor into account, with a gradual acceleration and a. gradually stopping the strip access # j to be granted when starting and stopping " Afford. The last goal is tolerable satisfactorily achieved when the streak The printer was operated at a relatively low speed, i.e. at a tape speed of at most 90 cm per minute. As a result of the greatly increased business on the major stock exchanges, however, the tape printers used hitherto have recently lagged so far behind the speed of the market business that it has become necessary to use tape printers at a higher speed. Such faster running tape printers have been in use for a number of months, and the speed of the machines has been increased from cgo to about 100 centimeters per minute. With tape printers operating so quickly, however, it has been found that the inertia of the motor alone is not sufficient to ensure smooth gradual starting and stopping.

Apart from that, however, when using electrical 1Iotoreii -and when using the associated control devices for starting and stopping of the i \ LIotor in time with the stopping and starting of the printer A whole series of special machine parts are needed, all of which require special maintenance and require readjustment from time to time. It is for example Reduction gear between the electric motor and the strip pulley to switch elements, which are connected to an arm producing a belt loop for electrical connection lines to these switching elements and to variable resistances, which not only cause overheating of the engine, but also the speed of the engine must be regulated. In addition, there are devices to prevent an electric arc required, for example, a capacitor that creates the spark gap with the loop-forming arm bridged switch connected. Due to the fact, that the engine in the cold state at a different speed and with a different start-up curve when starting and stopping works than when heated, It is practically impossible to keep the belt evenly without constant monitoring of the machine to promote. As the parts of the engine began to wear out, the trouble subsided when regulating the conveying speed continues to increase. Besides, these were orders limited to strip printers with a very specific speed and were able to do so modern high-performance printers are not used in which the speed changes from time to time.

The aim of the invention is to remedy the deficiencies outlined above at will and a standard device suitable for different working conditions to create the without special damping means acting by friction, without a special reduction gear without interacting with a loop-forming arm Switch and without a variable resistance for the motor and the like. The standard device is made in the workshop according to the respective conditions set before it is set up at the point of use. It should be done with ease exchanged «. Furthermore, it should easily accommodate the different conveying speeds Up to 16o one in the minute and more can be adjusted, with the start-up and stopping is done gradually to smooth movement of the projected images to obtain. The conveying speed should be quick and without readjustment Adjust changes in the operating speed of the strip printer. The standard device should also be equipped with central lubrication.

Another object of the invention is to provide a device with a permanent running engine to accommodate the changes in the speed of the engine within predetermined limits. The tape is on its way from the printer-. exit opening to the exit end of the picture window in no way hindered by any machine parts, so that no sticking of the tape take place can if it is fed from the printer to the exit end of the image window. aside from that a smooth-surfaced pull roller can be used that has a sufficient Can exert tension to peel the tape past the image window from the strip printer.

An exemplary embodiment of the invention is shown in the drawings: They show: FIG. 1 a front view of the projection machine for displaying stock quotes according to the invention, Fig. 2 is a plan view of the device without the housing for the Projection collecting surface, Fig. 3 shows a section of the unit device with the most important Part of the invention embodying regulating devices for the drive, Fig. 3 a to 5 partial sections according to the corresponding lines in FIG. Fig. 6 shows a partial section along the line 6-6 of FIGS. 1 and; a partial image of the take-up roll in end view.

In your illustrated embodiment is a tape printer i mounted next to a projection apparatus 2. The band T, which is part of the Strip printer comes out, runs over the image window 3 of the projection apparatus 2 and then to a strip pull roller 4 from where it descends under a guide roller 5 is fed through the take-up roll 6. The ones on the strip Information is shown with the help of the objective lens on a mirror 8 and from there on thrown the screen 9. The mirror and screen are arranged above the objective lens. The strip printer i is intended to represent a high-performance printer.

After leaving the printer, the strip goes under first The finger io of a lever i i then runs over a roller 12 in front of your picture window and goes freely past this directly to the pulling roller 4, which, as shown in Fig. 5 can be seen, has a smooth surface. The highest point of this role lies above the level of the image window 3 and cooperates with the roller 12 to the Keep strip T.

Pull roller 1, lever i i and take-up roller 6 are part of the standard device, which are built into a housing 13 which is attached to the projector. To do this, I need to loosen the screws 14 and 15 that go through eyes 16 and 17 of the housing 13 screwed through into the side walls of the projection apparatus are. These various machine parts are connected with their drive connections described below attached to your housing 13. This housing can be quickly removed and be replaced by a new unit. The required setting is then carried out on the removed device in the workshop before it is at the place of use is set up. .

In addition to the housing 13, the motor 18 stands on a bracket in such a way that it can be connected to the drive parts in the housing 13. The motor 18 is a continuously rotating motor, the pulley 20 of which is connected by a belt 22 to a pulley 21 which is seated on a shaft 23 protruding through the walls 24 and 25 of the housing 13. The shaft is mounted in ball bearings 26, 27 in the walls of the housing. It carries a worm 28 which meshes with a worm wheel 29 which is mounted on a connecting piece 30. This sits on a block 31 in the wall 3 of the housing 13. Against the face of the worm wheel 29, an annular flange 33 rests with friction, which is formed by a cup-shaped part 34, which in turn has an inner screw thread and with a threaded on the shaft 35 is engaged. One end of this shaft is mounted in ball bearings 36 which are mounted centrally in the tapered part 3o of the block 31. The worm wheel 37, which meshes with the worm 38 of a vertical shaft shaft 39, sits on the shaft 35. The other end of the shaft 35 lies in ball bearings 4.o in the wall 41 of the housing 13. The shaft 35 extends beyond this wall and carries the pulling roller 4, on the inner end of which a pulley .12 is seated. It can thus be seen that the annular flange 33 and the end face 4.3 of the worm wheel 29 form a slip clutch for driving the pulling roller 4 and the belt pulley 2.

The worm wheel 37 carries a lateral projection 44 which forms a bearing for one end of a spring 45 which is also fastened there. The other end of the spring is fastened in the annular flange 33 of the cup-shaped part 3.4. The tension of the spring 45 causes the cup-shaped part 3.1 to rotate on the thread of the shaft shaft 35 in order to move the annular flange 33 outwards from the extension d..1 and to bring it into coupling engagement with the coupling surface 43 of the worm wheel 29. However, when the worm 38 comes to rest and with it the worm wheel 37 and the shaft 35, the further rotation of the worm wheel 29 causes the flange 33 to rotate counter to the tension of the spring 35, whereby the cup-shaped part 34 is rotated free from the coupling surface 4.3 . Of course, the rotation of the cup-shaped part 3.1 with respect to the shaft 35 when it comes to rest is only slight, but just sufficient to release the coupling pressure between the annular flange 33 and the surface 43 of the worm wheel 39. The following device is used to control the rotation of the worm 38 and thus the shaft 35: An annular flange 46 is firmly seated on the vertical shaft 39, from which two leaf springs 4.7 and 4.8 extend upwards. The upper ends of these leaf springs are attached to an annular flange 4.9, which sits on the shaft 39 so that it can be moved in the longitudinal direction. Against rotation, this flange is connected to the shaft by a pin 5o which passes through a slot 51 in the annular flange. This pin and slot connection allows limited axial displacement between the flange and the shaft. The leaf spring-like arms 47 and 48 carry centrifugal weights 52 and 53, which fly outwards when the skins 39 rotate and thereby pull the annular flange 49 downwards. When the shaft 39 comes to rest, the weights 52, 53 go inwards again and move the annular flange 49 upwards. At its upper end, the flange carries a disk 5d, which can lie on a surface 55 of a disk 56 seated at the upper end of the housing 13.

The shaft 39 is supported at the top in ball bearings 57 in the plate 56 and at the bottom in ball bearings 58 in a block 59 which is firmly seated in the lower wall 6o of the housing 13 . When the disc 54 is pressed up against the surface 55 of the plate 56, the friction created thereby hinders the free movement of the shaft 39, and when this friction is great enough, the shaft 39 comes to a standstill. In general, however, the disk 54 is free to rotate with respect to the surface 55.

In order to influence the disk 54 in such a way that it controls the movement of the shaft 39, the above-mentioned lever ii is provided. This sits firmly on a shaft 61 mounted in the upper end between the walls 41 and 32 of the housing (FIG. 5). In the middle of the shaft a cam is provided which cooperates with the free end 63 of a lever 64. This lever is pivotably mounted at 65 about a pin 66 which, as shown in FIG. is shown, protrudes from the wall d.1. The Hebellid. carries a button 67 which comes to lie under the disc 54 and can press against this disc when the lever 6,4 is raised by the cam 62. In order to limit the movement of the cam 62, a projection 68 is provided, which can strike the end of a stop screw 69 in the side wall 25. By turning the stop screw 69, the amount of movement of the projection 68 can be adjusted. If the lever ii is raised by the strip T (FIG. I), the cam 62 acts on the free end of the lever 63 and brings the button 67 up to the disc 54 so that it is raised.

From the foregoing it follows that when the tape printer is in operation and ejects the tape, this will initially form a loop under the finger io, so that this finger and with it the lever ii can go down, whereby the cam from the free one End 63 of the lever 64 is moved and this lever can go down, so that the disc 54 from the surface 55 of the plate 56 comes free. This release is sufficient to ensure that the annular flange 33, which is pressed against the surface 43 of the worm wheel 29, is carried along by the latter and now sets the shafts 35 and 39 in rotation. Because the shaft 35 rotates, the strip is again rolled. set in motion to pull the strip across the image window 30. As the shaft 39 rotates, the centrifugal weights 52 and 53 go outward and pull the disk 54 down. At the same time, the rotation of the centrifugal weights 52 and 53 effects a regulation of the rotational speed of the shaft 39 and thereby in turn the rotational speed of the shaft 35 in the usual manner.

As soon as the tape printer comes to rest, however, the rotation continues the strip pull roller q. the strip T is drawn further over the image window 3, the The loop of the strip under the finger is lifted and thereby also the lever i i. This now actuates the cam 62, whereby the lever 6.4 and so that the disk 54 is also raised. The first touch of the disc 54 through the knob 67, of course, immediately slows the rotation of the shaft 39 and this slowdown continues when the tape printer does not resume until the loop formed under the finger io of the strip is completely straightened out.

The conveying speed of the strip io can therefore be regulated according to the operating speed of the strip printer. The slowing down of the conveying speed after the tape printer stops working can be regulated as is most convenient. Because the slightest movement of the lever ii immediately reduces the pressure between the disk 54 and the surface 55, the strip conveying is resumed as soon as only a single letter is printed by the strip printer and the strip is pushed out by the corresponding piece, for example by 3 mm .

The lever carrying the feeler finger is made in two parts. It consists of a light part 71 reaching over the image window and a heavier part 70 in which the pivot point is located. In order to make the part 71 as light as possible, it is provided with numerous openings. The connection of the two parts of the lever takes place in such a way (see. Fig. 3a) that the light part 71 surrounds the end of the heavy part 70 like a sleeve and that these two parts are connected there by a screw 71a. The overlap of the two parts 70 and 71 held together by the screw 7ia allows the parts to be pulled out or pushed together to a certain extent after loosening the screw 71Q, so that the overall length of the lever can be lengthened and shortened. However, since the distance between the pivot point 61 and your feeler finger is given, the pivot pin 61 is mounted in a slot in the end of the lever part 7o, as shown in FIG. By changing the amount of overlap at the joint between the two lever parts 70 and 71, the pivot pin comes into different positions with respect to the heavy lever part 70 containing the slot. B. in the position shown in Fig. I at the right end of the slot, so almost the entire mass of the lever part 7o tries to press down the light part of the lever and the feeler finger carried by it. As a result, with such an adjustment, the feeler finger will very quickly follow a loop formation caused by a sudden change in the strip feed speed. If, on the other hand, the parts 7o and 71 are pulled apart and screwed together so that the pivot 61 comes to lie in the left end of the slot, the distance between the center of gravity of the entire lever system and the pivot is significantly smaller, since a considerable part is straight of the weight-loaded end 7o of this lever comes to lie on the other side of the pivot, thus counteracting the pivoting of the lever counterclockwise (in the sense of FIG. i) Loops do not follow so quickly, so that the control pulse derived from the movement of lever ii will take effect a little later when the ejection speed of the tape printer is changed than when the control lever is set differently. In other words, the speed of response of the Transmission control device can the respective of adapted to the type of tape printer used and its mode of operation, by shifting the center of gravity of the control lever accordingly and thus by changing the acceleration given to the feeler lever.

Apparently, the amount of acceleration can be the free end of the lever i i can also be changed in other ways. However, springs and the like can be used Devices are dispensed with. It can be avoided that your stripes in the printer i transmitted vibrations to that part of the strip T. that is dragged across the image window 3. Because the guide finger io is used solely to make the vibrations given to the strip disappear to bring, the tensile force of the pull roller d. can be significantly reduced. Consequently this role, as shown in Fig. 5, can get by with a smooth work surface.

The over the pull roller d. running strip is made by a cog 72 held in contact with the pulley. The small leadership role is on the outside Ends of arms 73 and 7.4. stored, which are attached to a frame 75, the is in turn pivotably mounted in an extension 76 of the housing wall 41 (Fig. 6). The frame 7 ″ contains a spring 77 through which the wheel carried by it 72 is pressed against the strip T in the manner shown in FIG. Of the small arm 73 is preferably equipped with a small handle 7 8, whereby the wheel 72 can be lifted from the strip T, if accepted «- should earth. In this way, the strip can also easily be pulled over the pulling roller .I be placed. The guide roller 5 shown in Figs. I and 5 is provided with a widened head 79 equipped, which the leadership of the strip T on this role relieved.

The take-up roll 6 preferably consists of two disks 8o and Si, between which the tape comes to lie. The disc 81 is preferably on the shoulder 82 of a hub 83 attached, which in turn in ball bearings 8d and 85 is mounted on a shaft 86 which protrudes from the free end of a projection 87. This approach extends, as can be seen from Fig. 5, from the lower wall 6o of the housing 13 down. The hub 83 forms a pulley 88, the diameter of which is larger than that of the pulley 42. One consisting of a coil spring Drive belt 9o comes into a shallow annular groove that allows a certain amount of slippage 89 of the pulley and runs from there up to a pointed, Ring groove of the belt pulley that does not allow slippage .I2.

The disc 8o of the take-up reel is seated on a mandrel 92 with a cylindrical part 93 (FIG. 7) in which an inclined slot 94 is made. A pin 95 seated on the hub 83 can enter this slot. The mandrel 92 preferably carries a handle 96 with which the disc 8o can be adjusted. To attach this disk 8o and the cylindrical part 93 to the hub 83, it is necessary to bring the slot 94 into engagement with the screw 95 carried by the hub 83 and then the disk 8o and the parts seated on it against the movement of the pulley To turn 88. If the disk is to be removed, for example when a roll of paper supplied by the dispute printer is sitting on the spool, it is only necessary to turn the disk 8o in the opposite direction so that the screw 95 comes free from the slot 9: I. The disk 8o can then simply be pulled off in the axial direction. On the other hand, the disk can also be removed from the hub 83 by rotating it in the same direction as the hub 83 revolves, but having to hurry ahead of the rotation of the hub. A wire spring is connected to the mandrel 92 for screwing the end of the tape to the spool formed in this way, which lies inside the cylindrical wall 93 and is attached to the handle 96 at its fixed end by means of a screw 98.

The invention also provides for central lubrication. For this purpose, all moving parts are more or less combined in your housing 13 . This is filled with 01 up to about 11, its height from the ground, as shown in FIG. 3. As a result of the rotation of the worm wheels 29 and the worm 38, the oil inside the housing is then sprayed in a known manner onto the other machine parts attached inside the housing.

Claims (3)

PATENT CLAIM: i. Conveyor device for the from a strip printer pushed out, sent through a projection device with print strips one between the printer and the image window on the strip, the trigger gear controlling sensing finger, characterized in that the one carrying the sensing finger (i o) Lever (i i) e.g. B. by pulling out a two-part lever and locking means Adjusting screw (, i ia) is adjustable so that it is with different weight loads rests on the print strip, for the purpose of working at different speeds Printers always have an even threading of the strip through the projection device to ensure. 2. Conveyor device according to claim i, characterized in that that the drive shaft (35) for the strip tension roller (4.) with a perpendicular to her arranged shaft (39) cooperates, for example, from a in Axially displaceable disc (3.1) and one firmly seated on the axis, with the disc by swaying-light-loaded springs (47, 4e), -: i Ringflztnscli (41u) impressive centr iftigali-egttlator (-9, j-2, r; 3) deceiving, drr @lie working speed of the Aiitriel, st-orriclituiil; steadi;: rt. 3. Belt conveyor according to claims 1 and 2, characterized in that the organs together with the band drive organs revolving disk (; 4) of the centrifugal regulator in `` drive @ -bintlung with <lein The feeler lever (i i) attached to the belt indicates the speed of the belt <nitrieljsvorriclitttng also regulate zti depending on the tensioning of the belt. ._j. Belt conveyor after Ati-: prticli @ ;, thereby gekcunzeiclmet, dal .; the feeler lever (i i ') -, whose Rash is expediently limited by an adjustable stop (69) by a cam (62) located on its shaft controls a second lever (63, (14), the tape withdrawal speed, for example by one of this lever (6.I) worn and pressed against the disc (54) brake pad (6;) regulates, which in turn the revolving disc (54 when the band is fed in by pressing it against a stationary braking surface (56) stops. 5. belt conveyor according to claim i, characterized in that the strip removal device monitored by the feeler lever contains a slip clutch, whose continuously rotating driven clutch part (29) entrains the other rotating coupling part (33) by friction, which in turn is in engagement with the belt drive members (35) by means of a screw connection, and a spring (.I5) seeks to rotate this coupling part so that it is in drive connection arrives with the first, preferably with the belt drive members stopped State so cooperate with the first coupling part that the second coupling part rotated against the action of the spring and uncoupled from the first coupling part will. 6. Belt conveyor according to claim i to 5, characterized in that the drive, coupling and regulating elements are combined in one housing (I3), which is partially filled with lubricants.