SE530791C2 - Device for separating sheets of paper by blowing air - Google Patents

Description

25 30 530 751 2 exhaust nozzles at the magazine or magazines from a central unit located at a distance from the magazine or magazines.

The object of the present invention is to solve the above-discussed problem of electrostatic charging of sheets in friction picking machines.

This object is achieved with a device of the kind initially stated with the features stated in claim 1.

With the present invention, a pre-separation of the sheets in the stations is thus achieved by air blowing, so that when the top sheet in a stack is to be picked, it does not abut. but it is separated from the underlying sheet by an air fi ch. Thus, in the picking operation, the sheet will not be pulled over the underlying sheet, thereby avoiding loading of the sheet. In addition, the risk of accidentally picking your sheets at the same time is reduced. By arranging separate fl hubs in each station of the picking machine, the construction becomes considerably simpler than if the exhaust air were supplied from a central fl hub unit to each station through central supply ducts with associated, required valve or flap devices. In addition, a central air supply would have problems in achieving the same pressure and the same air flow at the different stations, since the air supply ducts would be relatively long in high friction picking machines with many stations. Simple and cheap fittings, without any valve or flap arrangement at all, can be used with the device according to the invention, which makes the construction as a whole simple and cheap. Friction picking machines equipped with the device according to the invention become in this way also useful in areas and for applications, where hitherto reference has been made to using the much more complicated and more expensive vacuum picking machines.

According to an advantageous embodiment of the device according to the invention, in each station two pegs are arranged at opposite sides of the support surface for the sheet stack. In this way a very efficient separation of the sheets is achieved.

According to another advantageous embodiment of the device according to the invention, the spouts are mounted in side stops to the bearing surface in each station.

By mounting the brackets directly in the side stops, you get a simple and efficient construction.

According to other advantageous embodiments of the device according to the invention, each år is provided with a nozzle with a slit-shaped exhaust opening oriented substantially perpendicular to the support surface for blowing a substantially vertical air curtain through a stack of sheets, preferably on the support surface, and designed to produce an air curtain, the height of which exceeds the maximum permissible height of the stack of sheets lying on the storage surface. In this way, efficient sheet separation is achieved regardless of how high the sheet stack is.

According to yet another advantageous embodiment of the device according to the invention, the height of the nozzle outlet of the nozzle exceeds the height of the outlet from the shaft itself, and the nozzle outlet of the nozzle widens in the upper part of the nozzle. Through this design of the nozzle opening, an air curtain is obtained, the height of which exceeds the height of the outlet from the själva shaft itself. Because the nozzle's exhaust opening thus has a throttle in its central part, the exhaust air will also be directed out towards the widened upper part of the opening, which is above the height of the outlet from the shaft itself. Furthermore, in the case of fl spouts of the type in question, in which air is absorbed axially in the fl spout and is blown out radially, the air tender fate tends to vary over the height of the blown air curtain. By designing the nozzle as stated, a correction of this effect is also achieved.

According to a further advantageous embodiment of the device according to the invention, the outlet opening of the nozzle widens in the lower part of the nozzle.

Namely, a heavier air fate is required at the lower part of the stack of sheets in order to effectively achieve the initial separation of the sheets in the stack. In the upper part of the stack it is only required that already separated sheets continue to be kept separated by intermediate air films. For this, a lower air fate is sufficient.

According to yet another advantageous embodiment of the device according to the invention, the owners are individually controllable for each station. By making the fls individually controllable, preferably by providing each kt with its own electrical supply, the air flow can be easily adapted to, for example, the weight of the sheets, which can vary from station to station if the stations contain sheets of different types. Such individual control of the air flow to the individual stations would be very complicated in a design with a central, constant air supply.

Complicated, continuously controllable valve and valve arrangements would be required, not only to individually increase and decrease the air flow through the individual air gaps but also to compensate for the effect that, when the air flow through certain nozzles is restricted, the flow through other nozzles increases due to central air supply is constant. The invention also relates to a friction picking machine of the initially indicated type, which comprises a device of the above-mentioned type for separating sheets of paper by air blowing.

In order to explain the invention in more detail, an exemplary embodiment of the device according to the invention will now be described in more detail with reference to the accompanying drawings, in which Figs. with the device according to the invention, Figure 3 illustrates in principle the discharge or picking of sheets from a stack of sheets in a station at a picking machine according to Figures 1 and 2, Figure 4 is a top view of a station in the friction picker, and Figure 5 is a detail view illustrating an example of the design of the exhaust nozzle at the device according to the invention.

Figures 1 and 2 show an embodiment of a vertical friction picking machine from the front and in side view, respectively, which is provided with a device according to the invention.

The machine comprises a number of superimposed stations 8, resting on an apparatus cabinet 10, containing the other apparatus of the machine, figures 1 and 2. Each station 8 is intended to accommodate a stack of superimposed sheets 1 of paper, shown in the top station 8 in Figure 1. Each station 8 comprises a paper magazine with a storage surface 2 on which the stack of sheets rests, see also Figure 3. From the paper magazines sheets 1 are fed or picked, one at a time, with feed rollers 5, which are brought into frictional engagement with the top sheet. 1 in the bar, as shown in Figure 3.

Figure 2 also shows controls for controlling the machine, in the form of an LCD screen 11 for displaying various information about the machine's operation and a number of controls. In each station, two fans 3 are arranged at opposite sides of the support surface 2 for the sheet stack. The fans 3 are mounted directly in the side stop 4 for the bearing surface 2 in each station, see Figure 4.

Each pocket 3 is provided with a nozzle with a substantially vertical or substantially perpendicular to the bearing surface oriented, slit-shaped outlet opening 7, see Figure 5, for blowing a substantially vertical air curtain through the stack of sheets to thereby separate the sheets 1 in the stack. This is illustrated in 20 25 30 E30 791 5 fi gur 3. The sheets 1 are then separated by an air m ch. Thus, when the top sheet 1 in the sheet stack is picked with the feeder 5, the sheet will not be pulled over the most underlying sheet and thus the sheet is electrostatically charged with the inconveniences discussed above.

The nozzle outlet 7, see 5 gur 5, is designed as a gap or perpendicular to the bearing surface oriented to produce a substantially vertical air curtain. The height of the air curtain significantly exceeds the maximum allowable height of the uninflated sheet stack resting on the storage surface of the station, since the height of the stack increases when air is blown against the stack and the sheets 1 are separated.

The height of the nozzle outlet 7 of the nozzle therefore exceeds the height of the outlet 6 from the shaft itself, see Figure 5. The exhaust opening 7 is further widened in its upper part. As a result, the exhaled air will also be directed out towards this part, which is located above the outlet 6 of the själva itself, since the flow resistance is lower in this widened part of the nozzle than in the central, narrower part. As a result, an air curtain is thus obtained, the height of which exceeds the height of the actual ut spout 6.

Such a design of the nozzle opening 7 also gives another favorable effect. In the type of fl shaft used, air is sucked into the fl shaft axially and blown out radially. Such fl spikes are prone to produce a blowout fate which varies over the height of the air curtain. Due to the described design of the nozzle opening 7, a certain correction of this effect is also obtained, so that a substantially equally strong fl fate is obtained along the entire height of the air curtain.

As can be seen from Figure 5, the opening 7 of the nozzle is also widened in its lower part. Namely, a larger air gap is desirable in the lower part in order to effectively effect the initial separation of the sheets in the lower part of the sheet stack. In the upper part of the stack, an equal fl fate is not needed to keep already separated sheets separated by air films.

The hourglass-like design of the nozzle opening 7 with a choke in the intermediate part of the opening 7 is also shown in Figure 3.

Separate pulleys 3 are, as described above, arranged in each station 8 of the picking machine. This makes it easier to maintain the same air pressure and the same amount of air in each station 8 than in a construction with a central drive unit which feeds all stations via valve or flap-provided ducts, as discussed above. By further arranging the 3 3 individually individually controllably, suitably by providing each 3 3 with its own electrical supply, the air flow can easily be adapted to, for example, the weight of the sheets in the individual stations. This is important because the weight of the sheets can vary from station to station if the stations 8 contain sheets 1 of different types.

Claims (7)

15 20 3. 30 530 79'l PATENT REQUIREMENTS An apparatus for separating sheets of paper by blowing air at a vertical friction picking machine, comprising a plurality of superimposed stations, each intended to contain a stack of superimposed sheets of paper, one sheet at a time intended to be picked from the stations in predetermined arrangement for further processing, characterized in that in each station at least one fl pile is arranged next to the bearing surface of the sheet stack for blowing air substantially horizontally through the stack to separate sheets in the stack, each fl pile being provided with a nozzle having a substantially perpendicularly oriented to the support surface, a slit-shaped outlet opening for blowing a substantially vertical air curtain through a stack of sheets lying on the support surface, which outlet opening is designed to produce a light curtain. whose height exceeds the maximum permissible height of the stack of sheets lying on the storage surface. Device according to claim 1, characterized in that in each station there are two fl spikes arranged at opposite sides of the storage surface for the sheet stack. Device according to Claim 1 or 2, characterized in that the sprockets are mounted in side stops on the bearing surface in each station. Device according to one of Claims 1 to 3, characterized in that the height of the nozzle outlet of the nozzle exceeds the height of the outlet from the shaft itself, and in that the outlet of the nozzle widens in the upper part of the nozzle. Device according to one of Claims 1 to 4, characterized in that of the nozzle outlet opening widening in the lower part of the nozzle. Device according to one of the preceding claims, characterized in that the mats are individually controllable for each station. A vertical friction picking machine, comprising a plurality of superimposed stations, each intended to contain a stack of 530,791 sheets of paper lying on top of each other, one sheet at a time intended to be picked from the stations in a predetermined order for further processing, characterized in that the machine comprises a device for separating sheets of paper by air blowing according to any one of the preceding claims.