DE102005039433A1 - Sheet depositing device for e.g. electrophotographically operating printing machine, has blower arrangement having radial vent with air exit channel, where arrangement is used for application of air to sheet - Google Patents

Abstract

The device has two coaxially rotatable cooperating sheet transport members (7, 8), where the member (7) essentially pre-specifies a path of curvature for the sheet to be transported by a generated surface. The member (8) has an overlap element entraining an accepted lead edge of the sheet. A blower arrangement includes a radial vent (9) with an air exit channel (2) that generates air current, where the arrangement is used for application of air to the sheet. A stack height feeler (1) is mechanically coupled with the members, and is mechanically controlled to lift off a sheet stack.

Description

The The invention relates to a device for storing sheets for a printing press, preferably for an electrophotographic printing machine comprising at least a rotating drivable Bogenförderorgan, which is for adoption or detecting a leading edge of a sheet and storing the Arch after passing a rotation path is provided.

Such devices are already in the older German patent applications DE 103 38 596.7 and 103 38 597.5, the disclosure of which is incorporated herein by express reference. In principle, however, rotating filing systems are also otherwise known, in particular in the field of money printing machines, for. B. from the US 4 431 178 ,

Especially Banknotes are relatively small in size and relatively stiff, so that be worked very quickly and precisely with rotating filing systems can. They are therefore there just to handle high volumes suitable. Can be problematic such rotating storage systems but when handling relatively larger sheets, even in areas of bows the size DIN A4, so with bows a length of about 30 cm, in addition, if their weight is relatively small, the Bows, then relatively thin are. For example, bows are the Size DIN A3 with a small bow weight of about 80 grams per square meter difficult to handle with rotating filing systems, in particular at relatively low rotational speeds, for example a conveying speed of 300 millimeters per second or less.

With an aforementioned sheet conveying member that is captured a bow at its leading edge and then for about one half turn of the bow conveyor taken, conveyed against a pile stop and then to his filing dropped. Through the delivery swing should the rear, released area of the arc through the whip stiffness of the bow whip like and also put it down so that the bow rolls off to its filing altogether is turned. But if a large, thin bow is relatively slow promoted in this way and turned around, so the subsidy momentum and the inherent rigidity of the bow may not be enough to the bow completely to turn or roll out turned, but the bow falls halfway turned like an omelet pocket-like in itself. It is then Naturally no clean pile training possible.

Of the Invention is therefore based on the object, the sheet storage and Turnover with a device of the type mentioned especially for larger and / or thinner Bows more reliable too do.

These The object is achieved by a device for aerating the sheet to be deposited, comprising at least one air outlet nozzle for generating a in the curvature directed along the path of rotation guided bow in Airflow.

By receives the air supply the filed and to be turned bow with advantage additional Momentum and its inherent rigidity is supported, so he after the Completely unwinding rotation of its leading edge.

Especially this air supply according to the invention is thus effective, that the air flow with the help of at least one air outlet nozzle in the curvature directed along the path of rotation guided arc in is. In this case, the air outlet nozzle one for their purpose, their position and have their orientation optimized emission characteristics. Especially is preferably a laminar flow from the nozzle generated. The nozzle can be trained and supplied with air that they are given priority with a jet pressure rather punctually acting on the bow or that they have a larger volume of air builds, which acts more like a pillow on the bow.

A Development of the device according to the invention provides that at least two coaxial rotatable with each other cooperating bow conveyor organ are provided, of which the first sheet conveying member with a support for the Arc serving lateral surface essentially a curvature path for the to be promoted Arc pretends and the second sheet conveying member at least one grip element to the attack the assumed sheet leading edge, such that the sheet leading edge between the engaging element and the lateral surface lorry capable is detectable.

there is the first bow conveyor preferably formed substantially disc or wheel-shaped and the second Sheet conveyor essentially designed as a two-armed pivoting beam, which in Range of its two radially outwardly facing free ends each having a Übergriffefement. In this case, the override element essentially as the curvature path of the first sheet conveying element formed approximately parallel or coaxially following tongue or tab be.

A preferred embodiment the device according to the invention provides that in each case two first and at least two second coaxial bow conveyors are provided, which are mirror-symmetrical on a common axis are arranged to each other, such that a sheet leading edge in their course parallel to the common axis of the sheet conveying organs of the total of four sheet conveyors collectively recordable.

The The aforementioned embodiment of the device according to the invention makes it possible in particular, that the air supply substantially in about Area of the plane of symmetry of the sheet conveyors and between them and additionally or instead, the air supply is substantially about Area can be done left and right next to the first sheet conveyors. This means that each detected and air-charged bow is taken centrally and / or close to the edge of the air or even the Bow sail-like filled with air and bloated can be. This can be further promoted by the fact that the Arc facing side of the gripping elements the second sheet conveyors Radially less away from the common axis than the overlapped outside of its thickness on the radius of the lateral surfaces of the first sheet conveyors applying bow, leaving the sheet leading edge in its course generating voltage in the region of the engaging elements somewhat in the direction the common axis is forced and bent, and moreover a stack stop for the sheet leading edges can be provided, with which the sheet conveyors when filing the bows interact.

The Vents can an optimized and predetermined or even adjustable beam direction obtained, for example, with an inclination of, for example, about 25 ° after below to vectorially promote laying down of the struck bow, and / or pivoted in a horizontal plane, for example, the outer nozzles about 5 ° to the middle directed towards. It could also each pair of nozzles or double nozzles be used.

A Further development of the invention provides that each of the second Sheet conveyors multiple times, preferably double, is present such that these multiple second sheet conveyors essentially independent are rotatable about the common axis of each other and so one of these second sheet conveyors is ready to accept or capture a next sheet, if another of these second sheet conveyors still with the transport or the filing of a previous sheet is occupied. To this Way, the device of the invention with little more construction effort in a quasi double stroke faster operate.

Also the Luftbeaufschlagung can according to a development of the invention clocked by a controller. In particular, the Air admission by means of switching on and off, interruption and / or distraction controllable. The air flow can provided according to the respective detection of a sheet so that there is air when it is needed, and then not flows, if it could disrupt the filing process.

Prefers will be the extra Air supply needed more towards the end of the filing process, though that of the bow conveyors detected leading edge of the sheet already struck against a stack edge has, a larger arc still the bow conveyors bent follows and the trailing edge end of the bow just from last transport rollers a printing material path is released. Then, namely, the Sheet conveying and application first not disturbed by the air, but the storage process with the help of air only completed and assembled. The air then enters the last, rear arched bay, for example and then smoothes out at which by this air pressure rolling out bow in the direction from its trailing edge. For a temporal coordination the airflow can be controlled accordingly.

A next Development of the invention is characterized in that at least two air outlet nozzles at different heights are provided. In particular, then for the upper air outlet nozzle a earlier Shutdown be provided as for the lower air outlet nozzle, so that the Airing the progress of depositing and rolling out of the respective sheet takes into account. This is especially advantageous when the sheet is folded by means of the respective steel pressure of the nozzles shall be. On the other hand, if above all an air volume is to be built up, it is helpful if, as another development of the Invention provided a detected sheet at least in the centrifugal direction blocking guide element between a detection point and a delivery point of the bow to the enforcement maintaining the radius of curvature is present through the bow, which in particular for longer sheet sizes for Wear comes and useful is. All nozzles can then to inflate of the arched one Bow are used and switching off the upper air outlet nozzle is preferred provided at a time after the trailing edge of the detected Bogens the arc in the centrifugal blocking guide element has left.

Another development of the invention provides that one or more cascades of air outlet nozzles are provided, in particular when working with a sufficient volume of air and less with directional air pressure jets.

A Embodiment of the device according to the invention could provide that for forming a cascade of air outlet nozzles a a curved one Course following air line is used, which provided with a number of air outlet nozzle openings is. In an advantageous way could to form the air duct a disc or wheel-shaped or disc or wheel segment shaped Sheet conveyor at least partially hollow, which is present anyway is, specifies the desired curvature and as an attachment for the respective sheet is provided.

embodiments the device according to the invention, which may also result in further inventive features on but the invention is not limited in scope, are shown in the drawing. It show, in part only schematically:

1 a perspective view of a part of a device according to the invention,

2 a schematic side view fewer elements of the device according to 1 with a bow at the time of its detection on a bow conveyor,

3 the side view according to 2 after abutment of the leading edge of the sheet on a stack stop,

4 the side view according to 2 after filing the bow on a pile,

5 the side view according to 2 after complete unrolling of the sheet on the stack,

6 a schematic front view of sheet conveying organs with indicated, possible locations for air outlet nozzles and

7 a possible formation of a nozzle cascade in a schematic side view.

1 shows a perspective view of a part of a device according to the invention. In this illustration, for the sake of clarity, only a very few elements of a sheet delivery device are indicated, and only so many that a coarse spatial orientation is possible.

The device has a kind of base frame 10 on. At this base frame 10 include a stacking tray 11 and a pile stop 4 for a pile 3 arranged from stored sheets. To determine the current level of the stack 3 Height sensors, not shown, are provided, which are clocked at each sheet storage and guided on guide frames 12 perform an up and down movement. These buttons are coupled to sensors that, depending on the detected level of the stack, the stacking tray 11 so adjust in height that the top of the stack 3 even with a growing stack 3 always at the same height, so that the path for sheet storage is the same for each sheet.

On an axis 2 are driven bow conveyors 7 and 8th arranged. First sheet conveyors 7 are formed substantially disc-shaped and serve the guide support and as a curvature of a sheet to be deposited. Held from the outside, the sheet to be deposited is thereby formed with tabs designed as engaging elements of the second sheet conveyors 8th of which in the 1 also largely only these tabs can be seen. The second sheet conveyors 8th are essentially designed as two-armed pivoting beam, each having an overreach element in the region of its two radially outwardly facing free ends. However, as already mentioned, this is not completely shown in the drawing for the sake of clarity. There are two first and at least two second coaxial bow conveyors provided on the common axis 2 are arranged mirror-symmetrically to each other, such that a sheet leading edge in its course parallel to the common axis of the GE bow conveyors 7 . 8th Of the total of at least four sheet conveyors 7 . 8th collectively recordable. Preference is given to each first sheet conveying member 7 two independently rotatable second sheet conveying members 8th provided to achieve a higher Bogenablagetakt. In addition, external bow conveyors also function 9 as curved contact surfaces for the sheet to be deposited as the first sheet conveyors 7 and act in the clamping detection of the sheet leading edge as abutment surfaces and could also be regarded and addressed as the first sheet conveying organs or in their training by first sheet conveying elements 7 be replaced.

Above the tabs of the second sheet conveyors 8th are Querverschiebollen 5 arranged on the last on the stack 3 filed bow can be lowered to temporarily press this on the stack and move it across as needed. In addition, each detected arc in its deflection and turn around the first sheet conveying organs 7 still from pressure rollers 6 to the first sheet conveyors 7 pressed. This is especially true for long format sheets Wear.

With arrows 1 are in the overview of the 1 Places indicated at which preferred air outlet nozzles according to the invention could be arranged to the respective detected sheet in its smooth-surfaced storage on the stack 3 to support. The air outlet nozzles 13 . 14 should preferably be approximately in the region of the arc center between the first sheet conveying members 7 in two levels one above the other and to the right and left of the first sheet conveyors 7 to be arranged in the area of the sheet edges. This is also once more roughly schematic in the front view of the 6 indicated.

The 2 to 5 show in schematic sectional or side views in different temporal phases the passage of an arc 15 by elements of the device according to the invention, wherein for the sake of clarity in these figures, only the contours of a first sheet conveying member 7 , a pressure roller 6 , the pile stop 4 and the pile 3 , as well as air outlet nozzles 13 and 14 have been indicated as arrows.

2 shows the phase of the entry of a bow 15 in the storage device. The bow is doing with its leading edge between the not shown engaging elements of the second sheet conveying organs 8th and the circumference of the first sheet conveyors 7 jammed and at the beginning of rotation of the first sheet conveying organs 7 in the presentation of the 1 also clockwise soon under the pressure rollers 6 led and additionally held by these. The air outlet nozzles 13 . 14 can and should be switched off at this stage.

3 shows the phase in the leading edge of the bow 15 already abuts the stack stop and the trailing edge, at least for longer bows 15 , still from the pressure rollers 6 at the first sheet conveyors 7 is held. Also in the 2 to 5 not shown Querverschollenollen 5 can now see the leading edge of the bow 15 already on the stack 3 to press. At least now are the air outlet nozzles 13 . 14 both turned on the bow 15 as shown, inflate sail-like and towards its storage on the pile 3 to press or to blow.

In 4 is the trailing edge of the bow 15 from the pressure rollers 6 freed. The arc 15 has been largely on the stack 3 rolled out and the upper air outlet nozzles 13 may be off or on.

In 5 is the bow 15 completely on the stack 3 rolled out and also the lower air outlet nozzles 14 may be off or on. At least now, the next bow can 15 be received from the storage device.

The air outlet nozzles 13 . 14 , are indicated with a slight downward slope to vectorially favor the storage of the bow 15 on the pile 3 to promote.

7 shows a possible formation of a nozzle cascade in a schematic side view. Such nozzle cascades could be in the outer bow conveyors 9 be integrated or similar elements could be provided for it. A tire segment 16 the bow conveyor 9 could be designed as an air line with a radial feed and there could be air outlet nozzle openings 17 in the air line 16 be introduced. The air outlet nozzle openings 17 are directed radially into the curvature of the arc and can thus fill the arc with an air volume. It could also be in suitable spaces between the sheet conveyors 7 and 9 tubular air ducts are routed curved and with air outlet nozzle openings 17 be provided to a similar constellation as in 7 to realize.

Claims (20)

Device for storing sheets for a printing press, preferably for one electrophotographic printing machine, comprising at least a rotating drivable Bogenförderorgan, which is for adoption or detecting a leading edge of a sheet and storing the Arch after passing a rotation path is provided marked by a Device for applying air to the sheet to be deposited, comprising at least one air outlet nozzle to create one in the curve directed along the path of rotation guided bow in Airflow. Device according to claim 1, characterized in that that at least two coaxially rotatable, cooperating with each other Sheet conveyors are provided, of which the first sheet conveying member with a support for the Arc serving lateral surface essentially a curvature path for the to be promoted Arc pretends and the second sheet conveying member at least one grip element to the attack the assumed sheet leading edge, such that the sheet leading edge between the engaging element and the lateral surface lorry capable is detectable. Device according to claim 2, characterized in that that the first sheet conveying organ is formed substantially disc or wheel. Device according to Claim 2 or 3, characterized that the second sheet conveying member in is designed essentially as a two-armed pivoting beam, the in the region of its two radially outwardly pointing free ends each an engaging element having. Device according to one of claims 2 to 4, characterized that the override element essentially as the curvature path of the first sheet conveying element approximately parallel following tongue or tab is formed. Device according to one of claims 2 to 5, characterized that each two first and at least two second coaxial bow conveyors provided are, on a common axis mirror symmetry to each other are arranged such that a sheet leading edge in parallel in its course to the common axis of the bow conveyors of the total four sheet conveyors together is detectable. Device according to claim 6, characterized in that that the air supply is substantially in the range of Symmetry plane of the bow conveyors is provided. Device according to claim 6 or 7, characterized that the air supply is essentially left in the area around and is provided to the right of the first sheet conveying members. Device according to one of claims 6 to 8, characterized that the side facing the sheet of the engaging elements of the second Sheet conveyors Radially less away from the common axis than the overlapped outside of its thickness on the radius of the lateral surfaces of the first sheet conveyors applying bow, leaving the sheet leading edge in its course generating voltage in the region of the engaging elements somewhat in the direction the common axis is forced and bent. Device according to one of the preceding claims, characterized through a stack stop for the sheet leading edges, with which the sheet conveyors in the filing of the Bows interact. Device according to one of the preceding claims, characterized in that each of the second sheet conveyors is repeatedly, preferably twice, is present, such that these several second sheet conveying organs essentially independent of each other are rotatable about the common axis and so one this second sheet conveying organs is ready to accept or capture a next sheet, if another of these second sheet conveyors still with the transport or the filing of a previous sheet is occupied. Device according to one of the preceding claims, preferably according to claim 14, characterized in that the Luftbeaufschlagung means On and off, interruption and / or distraction controllable is set up. Device according to claim 12, characterized in that that the control is clocked. Device according to one of the preceding claims, in particular according to claim 7 or 8, characterized in that at least two air outlet nozzles at different heights are provided. Device according to Claims 13 and 14, characterized that for the upper air outlet nozzle an earlier one Shutdown is intended as for the lower air outlet nozzle. Device according to one of the preceding claims, in particular according to claim 2, characterized by at least one detected Sheet at least in the centrifugal direction blocking guide element between a detection point and a delivery point of the sheet forcing the retention of the radius of curvature through the arc. Device according to claims 15 and 16, characterized in that that a shutdown of the upper air outlet nozzle is provided after the trailing edge of a bow that the captured sheet at least has left in the centrifugal blocking blocking element. Device according to one of the preceding claims, characterized in that cascades of air outlet nozzles are provided. Device according to claim 18, characterized in that that for forming a cascade of air outlet nozzles a a curved one Course following air duct is provided, with a number of air outlet nozzle openings is provided. Device according to claim 19, characterized in that that for the formation of the air duct a disc or wheel-shaped or disc or wheel segment shaped Sheet conveyor is at least partially hollow.