DE1561111C - Device for collecting and transferring sheets, e.g. B. Sheet - Google Patents

Description

The invention relates to a device for collecting and transferring sheets, e.g. B. Printed sheets, with a sheet conveying device, a collecting drum for successive reception and collecting individual sheets and means for removing one. Arch package from the Collecting drum.

There are various designs of collection and transfer mechanisms known in which cut paper webs or paper sheets are fed to a collecting drum via a conveying device which collects a plurality of such sheets into a package on its circumference and then the sheet package is directed from the collecting drum to a stack.

In a known device for collecting and transferring sheets is used for transferring the sheet on the collecting drum uses a feed conveyor belt, which the sheets one after the other The collecting drum is used to hold the sheet on the circumference - with the exception of a feed point - is wrapped around by conveyor belts. For collecting the sheets on the drum or for removing them of the collected package from the collecting drum, it is known to provide controlled tongues (German patent specification 678 472). Next is the use of devices of the previously identified type an air jet on the edge of a sheet known to deflect and align the sheet, in particular in order to be sorted out by means of conductor tracks or guide tongues on a reject pile to discard.

In practice it has been found that sheets, especially printed sheets, with high quality, the are generally very shiny, can be damaged by scratching if not done with great To be handled with care. This applies in particular when using devices of the previously marked ones Art using mechanical collecting and stripping fingers. This disadvantage could can be reduced by coating the fingers with substances, e.g. B. a polyamide, however, scratching cannot be completely ruled out.

The invention is based on the object of a device for collecting and transferring To create sheets, in particular printed sheets, in which the occurrence of scratch marks on the sheet is avoided when directing the sheet onto the collecting drum and discharging a sheet package no mechanical means are used by the collecting drum.

The solution of the invention lies in a device of the type mentioned in that for Pressing the sheet on the drum circumference a first blow nozzle device in the area of the feed point above the drum and removing the collected sheet inside the provided with a porous or perforated circumferential jacket Drum a second blow nozzle device are provided, and that both extend over the entire length of the drum extending blow nozzle devices are controllable as a function of one another.

According to one embodiment of the invention, to control the air flow to the blow nozzles in the line between the compressed air source and the blower nozzles is a rotating control disc with passages be provided, which controls the

Air jet from the blower nozzles at the right moment.

The control of the air flow for the blower nozzles can according to a modified embodiment of the invention also take place via cam-controlled air valves, or it can be a cam-controlled Switches may be provided for operating solenoid valves which control the flow of air to the air nozzles steer.

In the drawing, embodiments of the invention are shown by way of example.

F i g. 1 is a schematic view of a preferred embodiment of the invention;

F i g. Figure 2 is a view of the honeycomb surface of the preferred collection drum according to the invention;

F i g. 3 is a longitudinal sectional view of the embodiment according to FIG. 1;

F i g. 3A is a vertical sectional view taken along line 3A-3A of FIG. 3;

F i g. FIG. 4 is an exploded view of a preferred air timing device according to FIG Invention;

F i g. 5 is a view of a modified embodiment of an air timer device according to FIG the invention;

F i g. 6 is a view of another modified embodiment of an air timer device according to the invention.

According to FIG. 1 conveyor belts 10 and 12 are provided, which by a corresponding purpose, not shown Device are driven at constant speed and work together, around web-shaped or sheet-shaped material, for example paper, at spaced intervals to lead to a collecting drum 14, the peripheral speed of which is constant and the speed the conveyor belts 10 and 12 is identical. A sheet 16, previously from the front end of a running web has been cut, is on the hollow and perforated collecting drum 14 through Air streams 20 and 21 guided out of air flow devices 18 and 19 upon arrival of the front end of the sheet 16 can be delivered to the collecting drum 14. Direct the air currents 20 and 21 the leading end of the sheet 16 onto the perforated collection drum 14 and between the drum 14 and the belts 22. The sheet 16 is held on the drum 14 as it rotates by the belts 22 around disks 24, rollers 26, 28, 30 and 32, around disks 34 and around the Collect drum 14 run back to disks 24. The straps 22 are by engagement with the Drum 14 driven and thus run at the same constant speed as the Collecting drum 14.

In normal operation, four sheets 16 are collected on drum 14 and, if a fifth When sheet 16 approaches drum 14 via belts 10 and 12, the leading ends of the four become up sheets 16 located in drum 14 are blown away from drum 14 by an air stream 36, which is released at the right time from an air flow device 38 and through the perforated Drum 14 passes through. The four arches together with the fifth arch form a flat one or even package of five sheets, first by belts 10 and decelerating belts 40 and then by braking belts 40 and 42 with the speed

3 4

Density of the drum 14 away from the drum 14, which is attached to the frame parts 58 and 60 by means of

to be led. When the rear end of the five bearing arms 102 and 104 is arranged, which with

Arches of the existing package from the drum 14 free to the frame parts 58 and 60 are rigidly connected.

comes, the belts 40 and 42 pass through a "The feed tube 100 is closed at 101. The

Deceleration and acceleration circuit, where 5 transfer air jet device 38 is at outlet

they first decelerate in order to support the supports 106 and 108, which are

packages consisting of five arches are appropriately attached to a support 110 and 112,

to be taken up, on which the paper is in turn arranged on the feed pipe 100

is stacked, and then they are on the. Air supply passages 114 and 116 are through

Speed of the drum 14 in the correct io nipples 118 and 120, which are attached to the air jet

Speed up the time to the next five arches device 38 are attached by lines 122 and 124

existing package. and formed by nipples 126 and 128 attached to the

As described above, the drum 14 is attached to a feed pipe 100. The transfer cave Drum with an open honeycomb-like air jet device 33 is perforated as it is through Area that is shown in FIG. 2 is shown. The area is indicated 15 holes or rays 130 so that air made of metal strips 44 and 46, which to- from her at the right time to remove the are welded together to form a very rigid open collected paper discharged from drum 14 Form surface. Rolls with an open surface can be.

or perforated rolls of other types, for example air, is fed to the supply pipe 100 by means of a lei drums, which is fed by means of punched or drilled device 132 from 'to rotary timer valve 72. Holes may also have been perforated. The air then passes through the tube 100 to the however the honeycomb roll is preferred through passages 114 and 116 and then to the over, namely according to their structural strength guide air jet device 38, the holes and the unlimited large open area. or rays 130 in the direction towards the inner surface

As best shown in FIG. 3, the perforation 25 of the drum 14 is directed.

ured collecting drum 14 by means of hollow shafts 50 and the collecting air jet devices 18 and 19 52 supported by bearings 54 and 56 on the frame- are preferably made of stainless steel and parts 58 and 60 are supported. The main drive is threaded on both ends "as well as on for the drum 14, the air distribution lines 80 and 82 are not shown by means of an actuating drive device Via a timing belt 57 3 ° nuts 140 and 142 and lock nuts 144 transferred to a washer 59, which is mounted on the shaft 52 and 146. The feed tube 100 is pre-rigid is arranged. A pulley 62 is preferably also formed from stainless steel the shaft 50 is rigidly arranged and drives by means of lines 122 and 124 are by means of appropriate timing belts 64 a pulley 66 on a corresponding hose clamps 150 on the nipples 118, Valve shaft 68, which is held by means of a bearing 70 on 35 120, 126 and 128.

a frame part 58 is supported. A Spin Time The preferred air timing device, a Master valve 72 is carried on valve shaft 68, and rotary timer valve 72, is best shown in FIG. 4 a rotary valve disc 74 which is shown on the shaft 68. The valve 72 has an inlet valve arranged is rotates with this. The pulley plate 152, the rotary valve disk 74, an outlet 62 On shaft 50 drives pulley 66 on valve plate 154 and shaft 68. The rotary valves Shaft 68 in a ratio of 5: 1, so disk 74 is for rotation on shaft 68 means that for every five revolutions of the shaft 50 and a key 156 on the shaft 68 and slotted the drum 14 has the pulley 66, the shaft 68 splines 158 formed therein, and the rotary valve disc 74 one turn. The inlet valve plate 152 is threaded. 45 see pin 153, which through holes 159 in the

On the frame parts 58 and 60, the outlet valve plate 154 and springs are also passed through Air jets 18 and 19 for assembly 160, rings 162 and nuts 164 for assembly arranged of arches. Pick up the air jets from the rotary valve 72. The inlet devices 18 and 19 are between the air distribution valve plate 152 and the outlet valve plate 154 Lines 80 and 82 arranged appropriately, 50 with low-friction wear surfaces 155 and 157 which are not provided on the frame parts 58 and 60, for example with surfaces made of a poly Appropriate facilities rigid amide, a polytetrafluoroethylene or brass, are arranged. Manifold 82 is at 84 and areas 155 and 157 are through either closed by a pipe closure piece 85. For the appropriate device on the valve plates At the right time, air is attached by the turn-time 55, for example by adhesive or by sensor valve 72 fed to a line 86, which screws.

the valve 72 with the air distribution line 80. The rotary valve disc 74 is at 170, 171, 172,

binds. The air jets 18 and 19 are 173 and 174 slotted. The rotation distance between

perforated, as indicated by holes or rays 90 and slots 170 and 171, 171 and 172, 172 and

91 (Fig. 3A) is indicated, so that air out of them ⁶ ° 173 is the same, with the centers of the slots in one

released and in the direction of the outer circumference are spaced 72 ° and each slot in the same

the drum 14 can be directed. The air radial distance from the center of the disc 74 ad-

Radiation devices 18 and 19 are arranged in each order. The slot 174 is also in one

looks identical, and the rays 91 of the device spaced 72 ° from the slots 173 and 170 at-

19 are slightly rotated from the vertical, arranged around 65, but are closer to the center of disk 74

cylindrical circumference of the drum 14 to ent- than the other slots just described.

to speak. The inlet valve plate 152 is by means of lines

The hollow shafts 50 and 52 take a feed pipe 180 and 182, accumulators 184 and 186.

5 6

regulators 188 and 190 and a main air supply 114 and 116 to the transfer air jet inlet 192 (Fig. 1). The air accumulator device 38. Air is released from the orifices or nozzles mulators 184 and 186 have been shown to be desirable 130 of the device 38 in the form of a jet or to discharge a large amount of air to the valve 72 for shock, which lasts as long as the supply short time intervals and any 5 slot 174 is in alignment with the opening 196 pressure fluctuations or pressure surges in the air. Keep the flow of air from the transfer air jet to a minimum. Accordingly, direction 38 discharged airflow 36 expresses the air flowing out of the accumulator 184 through the four-arched package from the drum 14 conduit 180 to the inlet valve plate 152. When away from and between the belts 10 and 40, which have a slot 170, 171, 172 and 173 with an opening 10 lead four arches and the fifth arch, which is arranged on them 194 in the inlet valve plate 152 and the ver, away from the drum 14 as a package consisting of five wear surfaces 155 by rotating the disc 74 in arches. The package consisting of five orientation, air flowing through the slot arcs is then received by the belts and then through the exit valve plate 154 to the 40 and 42, which has a programmed line 86 running through the collection air jet 15 delay period to the Package is connected to lines 18 and 19 (Fig. 3). To be delivered to a receiving station, after which the belt flows at any point in time at which a slot 170, 171, the 40 and 42 accelerate to the speed 172 or 173 with the opening 174 in alignment with the drum 14 in the correct time Take air through rotary valve 72 to the next collected sheet package.
Collective air jets 18 and 19. 20 A device other than a rotary timer-out Fig. 4 it can be seen that the. Slit 174 valve can be used to periodically align with an orifice 196 at the entry time airflow to the collection air valve plate 152 and wear surface 155 through jets 18 and 19 and the overfeed of disc 74. Induce air approximately air jet device 38. Then flows from the accumulator 186 through the 25, for example, a poppet valve can be used, line 182 to the inlet valve plate 152 through, as shown in FIG. 5 is shown.
the rotary valve 72 to the line 132 which is connected to the valve 72 (FIG. 3), which cam 200 is arranged on the shaft 68 in place of the transfer air jet device 38, and this cam is connected. 2CO performs for every five revolutions of the drum. From the above, it can be seen that for every 30 mel 14 one revolution. The rotational distance of one revolution of the disk 74 air four times the collecting between the ridges 202 and 204, 204 and air jets 18 and 19 and one of the 206, 206 and 208 of the cam 200 is 72 °, and transfer air jetting means 38 supplied the rotary distance between the ridge 208 and will. 202 is 144 ^C.

In actual operation, the leading edge 35 reaches a valve 210 for the collecting air jets.

a sheet of paper the drum 14 just then, directions 18 and 19 is in appropriate

if a slot is located in the disc 74, for example the way above the cam 200 and has

Slot 170, with opening 194 in the entry two air passages 212 and 214 passing through a

valve plate 152 comes into alignment. Thus, poppet valve 216 becomes general with respect to one another

the collecting air jet devices 18 and 19 40 are closed. A cam roller 218 is on the

Air is supplied and discharged from this as long as the end of the valve stem 220 is arranged and passed through

as long as the slot 170 with the opening 194 is loaded by a spring 222. The cam roller 218 runs

is directed. The air passing through the jets 90 and onto the cam 200.

91 of the air jet device 18 and 19 in the form The timing of the valve 200 is such that one of a short puff of air is released, the 45 elevation pushes the leading edge of the sheet of paper under the cam roller 218 just when the leading edge of a sheet of paper passes sheet 16 in F i g. 1, on the drum 14 and between the drum 14 arrives. A ridge, the drum 14 and the belts 22 between them. As the ridge 202, for example, the poppet valve pushes the drum 14 five times for each revolution of the 216 rotates upward into the broken line disk 74, as described above, Position 217 shown in 50, so that the passages reach the leading edge of the next following paper 212 and 214 are open to each other. Air from arches the drum 14 just when the one accumulator, for example from the accumulator slot 171 with the opening 194 in the inlet mutator 184 according to FIG. 1, flows through the line valve plate 152 into alignment. This bend 118, the passages 212 and 214 and the line are also opened by means of the air streams 20 and 21, the 55 86th which, as described above, are allocated to the collecting air jets 18 and 19 from the air jets 18 and 19 the drum 14 pressed, and he is binding. Air is drawn in from the air jets is placed in precise alignment on the sheet 16 previously arranged on the directions 18 and 19 in the form of jets-off drum 14. As the slots 172 and 173 align with the opening 194 60, as discussed above in connection with the rotation, two more paper timer valves 72 are described. Three more sheets on the sheets already on the drum 14 are arranged on the drum 14 in two sheets one above the other. The leading edge of a fifth sheet of paper is directed when the cam reaches the drum 14 just when the slot 65 elevations 204, 206 and 208 the poppet valve 216 174 with the opening 196 in alignment reaches, open and air to the collecting Luftstrahleinrich- and air flows through the valve 72, the line lines 18 and 19 flows.
132, the supply pipe 100 and through the passages. In connection with Fig. 5, it should be noted that

a second cam is provided which has only a single elevation 224. This cam is also carried on the shaft 68 and arranged with respect to the cam 200 so that its elevation 224 of the elevations 208 and 202 of the cam 200 is each at a distance of 72 °. A Transfer air jet poppet valve, which corresponds to the collective air jet poppet valve 210 according to the above Description is identical, is also provided. The 'cam rise 224 opens the Transfer air jet valve, and air flows from the accumulator 186 through line 182, through the transfer air jet valve, and line 132 to the transfer air jet 38 around the four previously collected on the drum 14 Take off bows. The four sheets are removed from the drum 14 by the air jet, which exits the transfer air jet device 38 just when the leading edge of the fifth sheet of paper arrives at the drum 14. Accordingly, it becomes one consisting of five arcs The package is guided away from the drum 14 by the belts 10 and 40 as described above.

Another type of valve that can be used to air the at the right time To supply air jets 18, 19 and 38 is a solenoid valve shown in FIG. A Cam 240 is disposed on shaft 68 in place of valve 72 (Fig. 3), and it leads for every five Revolutions of the drum 14 from one revolution. The cam 240 has ridges 242, 244, 246 and 248, which with the exception of the distance between the bumps 248 and 242, which are at a distance of 144 °, are arranged at a distance of 72 °.

A collective air jet solenoid valve 250 is suitably positioned over the cam 240 and has an air inlet line 180 and an air outlet line 86 which are usually closed with respect to one another. A microswitch 256 is provided with a cam roller 258 which rides on cam 240. The switch 256 and solenoid valve 250 are connected to a source of electrical energy by lines 252, 253 and 254, respectively.

The timing of cam 240 is the timing of the above in connection with FIG. 5 described Cam 200 identical. If there is a cam ridge, such as ridge 242, under the cam roller 258 passes, the switch 256 is closed and it energizes the solenoid valve 250, so that the air lines 180 and 186 are opened to each other and air to the collecting air jet device 18 and 19 is fed. Thus, lobes 242, 244, 246 and 248 excite this Valve 250, causing jets of air to overlay four sheets of paper to be arranged on the drum 14.

Another cam, another microswitch, and another valve similar to the one just described Components that are identical are provided for supplying air to the transfer air jet device 38. This cam is also arranged on the shaft 68 and has an elevation 260 that is in one Distance of 72 ° from the cam elevations 248 and 242 lies. The cam lobe 260 opens that Transfer air jet valve by closing the associated microswitch and air becomes the transfer air jetting device 38 fed at the right time to the previously on the drum to remove the collected four sheets. The four sheets are removed from the drum 14,

ίο when the leading edge of a fifth sheet on the Drum 14 arrives and a package of five sheets is fed through belts 10 and 40 guided away from the drum 14.

From the above description it can be seen that sheets of paper or other material are replaced by others Means can be collected and transferred as mechanical fingers. With the one just described Execution, all mechanical elements move during collection and transfer come into contact with the sheet material, at the speed of the sheet material, so that a Scratching due to the movement of the sheet material over fixed facilities is avoided. The collecting and transferring device according to the invention can advantageously be connected Used with printing presses to get printed materials picked up by the press have been to collect and transfer.

Claims (4)

Patent claims: 1. Device for collecting and transferring sheets, e.g. B. sheet, with a sheet conveyor, a collecting drum for successive receiving and collecting individual Sheets and a device for removing a sheet package from the collecting drum, characterized in that for pressing the sheet on the drum circumference a first blower nozzle device (18, 19) in the area of the feed point above the drum (14) and for removing the collected sheets inside the with a porous or perforated peripheral jacket provided drum (14) a second blow nozzle device (38) are provided, and that both blow nozzle devices extending over the entire length of the drum are dependent are controllable from each other. 2. Device according to claim 1 using a compressed air source which can be brought into connection with the blower nozzle devices, characterized by the arrangement of a control disc (74) provided with passages (170 to 174 ) for controlling the air jet of the blower nozzle devices (18, 19, 38 ). 3. Apparatus according to claim 1, characterized in that cam-controlled air valves (210) are provided for controlling the air flow to the blowing nozzle devices (18, 19, 38). 4. Apparatus according to claim 1, characterized in that a cam-controlled switch (256) for actuating solenoid valves (250) is provided for controlling the workers of the blow nozzle devices (18,19,38). For this purpose 2 sheets of drawings 109 646/135