The present inventive concept relates to the transfer of notes between a note transport unit and a note handling unit.
More specifically, the present inventive concept relates to a note transport unit and a method for guiding notes to and from the note transport unit.
It is known to utilize a note transport unit for temporary connection with a stationary note handling unit in order to transport notes in a safer way, without human interaction with the notes during the transfer. In prior-art transport units, the notes are transferred in stacks between the stationary note handling unit and the note transport unit.
A general object is to provide enhanced control of input notes and output notes in a note transport unit during the transfer of notes to and from the transport unit.
According to a first aspect of the present inventive concept, there is provided a note transport unit for feeding notes one after the other to and from a note handling unit, the note transport unit having an infeed direction for input notes and an outfeed direction for output notes, wherein the note transport unit comprises at least one note storage drum on which the input notes are stored by being spooled around the drum between first and second films and from which the output notes are being spooled of, the first and second films presenting a lower and an upper film portion, respectively, which film portions converge towards each other in the infeed direction, a first note guide surface for guiding the input notes from the note handling unit towards the converging film portions and for guiding the output notes towards the note handling unit, a bidirectional roller arranged to transport the input notes and the output notes along the first note guide surface, and a second note guide surface which is arranged between the first note guide surface and the lower film portion and which is intersected by a plane defined by the lower film portion.
An effect which may be obtainable by the transport unit according to the inventive concept is a controlled bidirectional transfer of notes to and from the note transport unit.
The second guide surface may be intersected by the plane with an obtuse angle. Thereby, output notes may be effectively directed further in the outfeed direction. Especially, this design may reduce the risk of jamming of notes between the lower film portion and the second guide surface.
The second guide surface may be inclined downwardly relative to the first guide surface in the infeed direction. Because the second guide surface usually may not need to be active in the note infeed direction, input notes can thereby pass above the second guide surface towards the area where the further path of the input notes can be effectively controlled by the converging upper and lower film portions. Especially, one may thereby reduce the risk of output notes being jammed in transitional area between the lower film portion and the second guide surface.
The second guide surface and the bidirectional roller may be so located in relation to each other that output notes guided along the second guide surface in the outfeed direction are directed towards the roller. An effect which may be obtainable thereby is that the roller may guide an output note towards the first guide surface and thereafter, as a moving component rotating in an outfeed direction, transport the output note further in the outfeed direction along the first guide surface.
The first guide surface may be the first surface of the transport unit which receives input notes from the note handling unit and may be inclined upwardly in the infeed direction. An effect which may be obtainable thereby is that an input/output part of a note handling unit can enter into the note transport unit for safer note transportation and more robust connection between the note handling unit and the note transport unit. This may also enable connection of the note transport unit to a note handling unit which has a singe note infeed/outfeed opening and/or a uni-directional main transport belt.
The first guide surface may be provided with a protruding portion for bending the notes perpendicularly to the transport direction of the notes when transported along the first guide surface. The stiffness thereby obtained may result in a more controlled note path.
In a preferred embodiment, the first guide surface and the second guide surface may form a continuous guide surface. An effect which may be obtainable thereby is to avoid notes being jammed in any gap or similar between the first guide surface and the second guide surface in neither the note infeed direction nor the note outfeed direction.
According to a second aspect of the present inventive concept, there is provided a method in a note transport unit for bidirectional transfer of notes one after the other between the note transport unit and a note handling unit, the transport unit having a note infeed direction for input notes and a note outfeed direction for output notes, the method comprising:
a) when handling an input note:
b) when subsequently handling the input note as an output note:
Additional possible features and preferred embodiments are set out in the dependent claims and disclosed in the following.
The inventive concept and further advantages will now be described by way of a non-limiting embodiment, with reference to the accompanying drawings.
a and 7b are schematic illustrations of two examples of input note paths in the transport unit in
a and 8b are schematic illustrations of two examples of output note paths in the transport unit in
The note transport unit 10 may also be temporarily connected to a note handling unit for transferring notes of one or more denominations one after the other in the opposite direction from the note handling unit and into the note transport unit 10. Notes being feed into the note transport unit 10 will be referred to as input notes in the following.
The note transport unit 10 comprises an outer casing 12 having a note infeed/outfeed opening 14 in its bottom part 16 and being provided with exterior handles 18, 20 for carrying the note transport unit 10 and to facilitate placement of the note transport unit 10 on note handling units. Inside the casing 12, the transport unit 10 comprises a note storage drum 22, first and second film drums 24, 26, first and second films 28, 30, first and second film drum motors 32, 34 for driving the film drums 24, 26, a storage drum motor 36 for driving the note storage drum 12, and a bidirectional note guiding and feeding mechanism, indicated by general reference numeral 50 and arranged adjacent to the infeed/outfeed opening 14. This mechanism will be referred to as the infeed/outfeed mechanism 50, and the structure and operation thereof will be described in detail in the following.
The motors 32, 34 and 36 are operated simultaneously in either a note infeed direction or in a note outfeed direction. In the infeed direction, the films 28, 30 are spooled off from the film drums 24, 26 and spooled together on to the storage drum 22 with input notes being held between the films 28, 30. In the outfeed direction, the films 28, 30 are spooled off from the note storage drum 22 and back on the film drums 24, 26, whereby the notes may be fed out from the transport unit 10 as output notes.
In the illustrated embodiment, the transport unit 10 presents above the opening 14 an area where a part of the note handling unit 100 may protrude, as illustrated in
In this embodiment, the infeed/outfeed mechanism 50 is located at the bottom part of the casing 12 adjacent the infeed/outfeed opening 14. In the infeed direction, the infeed/outfeed mechanism 50 serves to receive input notes from the note handling unit 100 via the infeed/outfeed opening 14 and to guide and feed these input notes further in the infeed direction towards a location 52 in the transport unit 10 where the input notes are being caught by the moving films 28, 30, in order to be spooled upon the note storage drum 22.
In the outfeed direction, the infeed/outfeed mechanism 50 serves to receive output notes from the films 28, 30 being spooled off from the note storage drum 22 and to guide and feed these output notes further towards and out through the opening 14 of the transport unit 10.
From a note guiding perspective, the note infeed/outfeed mechanism 50 comprises a first converging area C1 which converges in the note infeed direction, a second converging area C2 which converges in the note outfeed direction, and a third converging area C3 which converges in the note infeed direction.
The first converging area C1 is formed between a lower film portion 28′ forming part of the first film 28 and an upper film portion 30′ forming part of the second film 30. In the infeed direction, the lower and upper film portions 28′, 30′ converges towards an area 52 (
In the embodiment illustrated, the infeed/outfeed mechanism 50 is formed by said converging film portions 28′, 30′, a ramp body 60 and a bidirectional guide and feed roller 70. The ramp body 60 has an upper first guide surface 62 which leads to/from the infeed/outfeed opening 14 and which normally would be the first surface infeed notes contact when they are received from the note handling unit 100. The first guide surface is inclined upward in the infeed direction. The ramp body 60 further has an upper second guide surface 64. The second guide surface 64 forms a continuous extension (no gap) of the first guide surface 62 and is in this embodiment shorter than the first guide surface 62. The second guide surface 64 is inclined downward in relation to the first guide surface 62. The ramp body 60 is supported by a spring mechanism 68 connected to the inner part of the transport unit 10.
In this embodiment, the feed roller 70 is positioned with its rotational axis 72 above the first guide surface 62 such that part of the roller extends in the infeed direction over the second guide surface 64. The roller 70 may be manufactured of e.g. foam material for good friction with notes. A separate motor 74 (
An effect of the first guide surface 62 being inclined upwardly in the note infeed direction is that the note guiding components of the infeed/outfeed mechanism 50 may be placed vertically higher in the note transport unit 10 so that the system of transport belts 110 of the note handling unit 100 can penetrate into the note transport unit 10 via the opening 14 during note transfer, as mentioned above. This enables the note handling unit 100 to use a uni-directional main belt and to have the same note input/output opening handling both output notes being fed into the note handling unit 100 and input notes being fed from the note handling unit 100 to the transport unit 10.
In the illustrated embodiment, in order to obtain an increased path control during note feeding, notes are being bent in a direction transverse to their transport direction when being transported by roller 70 along the first guide surface 70.
To this end the ramp body 60 (
As shown in
When an input note enters the note transport unit 10, it will pass through the converging areas C3, C2 and C1 in named order. However, area C2 would normally not have any guiding effect in the infeed direction since it is diverging in the infeed direction.
The input notes coming in through the opening 14 will enter the third converging area C3 and may be guided by the first guide surface 62 and/or the surface of the rotating roller 70. Initially, the input note may be transported by means of the note handling unit 100 until it reaches the roller 70 rotating in the note infeed direction. The roller 70 may then continue the transportation of the input note along the first guide surface 62.
The input note will then enter and pass through the second area C2. Thereafter, the input note enters the first converging area C1. The input note may be effectively captured in the first converging area C1 and guided in between the first and second films 28, 30.
When guiding the input note into the first converging area C1, transportation of the input note may initially be performed by the roller 70. When the input note has been caught between the first and second films 28, 30 further, transportation of the input note is possible by the films only. The input note can thereafter be stored on the note storage drum 22 between the films 28, 30.
When subsequently an output note (previously an input note) is dispensed from the note storage drum 12, the output note will be transported between the first and second films 28, 30 until it enters the first converging area C1 (now diverging in the note outfeed direction). When a leading part of the output note has entered the first converging area C1, a trailing part of the output note can still be transported in the note outfeed direction between the films. The second converging area C2 may then catch the output note in order to guide it further through the mechanism 50 towards the opening 14.
Due to initial bending, age, damage, etc of the input and output notes, the notes may follow different paths through the mechanism 50. However, due to the combined effect of the converting areas C1-C3 and the guide surfaces, all input and output notes will be effectively guided through the mechanism 50 without being caught in gaps or by rollers. Some different possible note paths will now be described with reference to
a is a schematic illustration of a first possible guide path of a input note N1 received by the transport unit in
In the example shown in
b is a schematic illustration of a second possible guide path of an input note N2 received by the note transport unit 10 in
As illustrated by the two infeed examples in
a is a schematic illustration of a first possible outfeed guide path of an output note N3 to be dispensed from the note transport unit 10 in
In this example, when the leading edge of the output note N3 reaches the roller 70 rotating in the outfeed direction, the output note N3 is deflected downward towards the first guide surface 62 of ramp body 60. In some instances, the deflection may involve the roller 70 directing the output note N3 towards the second guide surface 64 also. The second guide surface 64 may then re-direct the output note N3 towards the first guide surface 62. Thereafter, the roller 70 will transport the output note N3 in the outfeed direction to and out through the infeed/outfeed opening 14 of the note transport unit 10.
b is a schematic illustration of a second possible guide path of an output note N4. In this example the output note N4 is instead is guided along the lower film portion 28′ when entering the first converging area C1. The second guide surface 64 is intercepted by a plane (not shown) defined by the lower film portion 28′. As a result thereof, the output note N4 being guided and transported along the lower film portion 28′ in
In any other situation between the “extreme” situations illustrated in
To summarize, in the note infeed direction the third converging area C3 and the first converging area C1 are active guiding input notes (N1, N2), whereas in the note outfeed direction, the second converging area C2 is active in capturing and guiding output notes (N3, N4). Thus, in the note infeed direction, there are two active converging and guiding areas (C1, C3) for capturing/guiding input notes, whereas in the note outfeed direction there is one active converging area (C2). These interchangeable converging and diverging areas C1, C2, C3 provide an effective means for transporting notes in both direction at the interface with the not handling unit.
During Infeed
In a step S1, a note transport unit receives an input note from the note handling unit. The input note is received at a first guide surface of the note transport unit.
In a step S2, the input note is transported along the first guide surface by means of a bidirectional roller rotating in a first direction.
In a step S3, the input note is received in a first converging area (C1), formed between upper and lower film portions and converging in a note infeed direction. The upper and lower film portions form part of first and second films, respectively. The first and second film portions can be spoolable from respective film drums onto a note storage drum.
In a step S4, the input note is stored on a note storage drum between the first and the second films.
During Outfeed
In a step S5, an output note, which has previously been an input note received and stored on the note storage drum, is dispensed from the note storage drum.
In step S6, the output note is passed through the first converging area (C1) (now diverging in the outfeed direction) into a second converging area (C2). The second converging area is formed between the bidirectional roller and a second guide surface. The second converging area converges in a note outfeed direction.
In a step S7, the output note is guided towards the first guide surface by the bidirectional roller rotating in a second direction.
The person skilled in the art realizes that the present invention by no means is limited to the preferred embodiments described above. On the contrary, many modifications and variations are possible within the scope of the appended claims.
Number | Date | Country | Kind |
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SE 0701845-0 | Aug 2007 | SE | national |
This application is a continuation application of prior PCT application No. PCT/SE2008/050872, filed Jul. 15, 2008 and designating the United States, entitled “Note Transport Unit” which PCT application claims the benefit of U.S. Provisional Application No. 60/955,090, filed on Aug. 10, 2007, and Swedish Patent Application No. 0701845-0, filed Aug. 10, 2007. The entire disclosures of PCT Application No. PCT/SE2008/050872, filed Jul. 15, 2008; U.S. Provisional Application No. 60/955,090, filed Aug. 10, 2007; and Swedish Patent Application No. 0701845-0, filed Aug. 10, 2007, are incorporated herein by reference as if set forth in their entireties.
Number | Date | Country | |
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60955090 | Aug 2007 | US |
Number | Date | Country | |
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Parent | PCT/SE2008/050872 | Jul 2008 | US |
Child | 12695356 | US |