The present invention relates to a container adapted for containing a chain of a plurality of interconnected coin bags as well as being sealed by a seal. The invention also comprises a method of sealing a container, a kit for sealing a container, a sealed container containing a chain of a plurality of interconnected coin bags and a method of connecting two separate chains of a plurality of interconnected coin bags when both chains are arranged in separate containers.
Today, coins may be distributed from institutions such as banks to end users such as stores, shops, markets, companies and private persons, in units such as coin rolls or coin bags. The dispensing of such coin units is typically carried out by dispensing machines or in bank offices where users buy rolls or bags and pays with cash or cards. There is a general trend towards using automatic dispensing machines rather than expensive manual cash handling. Cash-in-transit companies are also often interested in providing automatic dispensing machines in cash-handling offices of stores, shops etc.
As already mentioned, it is quite common in some countries to distribute coins in rolls wrapped in paper. Coin rolls are compact, stable and easy to mark with information. However, it may be difficult to open a densely wrapped coin roll.
Coin bags constitute an alternative to coin rolls. A coin bag is normally a heat-sealed plastic bag containing a specific amount, typically 20-100 coins. The advantages of using coin bags are primarily associated with production as it is much easier and up to 50% cheaper to fill up a coin bag than producing a coin roll. Other advantages with coin bags are that they are easy to open and that it is possible to remove some but not all of the coins therein.
Coin bags are, however, also associated with some drawbacks. A bag filled with coins does not have any specific three-dimensional shape. Accordingly, it is difficult to pile up and store a multitude of such bags. It is also very difficult to estimate the amount of bags in a pile without counting the bags. Moreover, compared with the coin rolls solution, it is much more complex to manufacture a cash dispenser for bags of coins since each bag may have a different shape. Indeed, there is no efficient available automatic dispensing solution which could facilitate dispensing of the bags and cut the costs thereof.
Accordingly, there is a need for an improved system for distributing coin bags to end users.
The present invention aims at solving the above mentioned problems by providing, in a first aspect, a container adapted for containing a chain of a plurality of interconnected coin bags, and adapted for being attached to a seal, the chain having a first end and a second end, the seal having two end parts and anti-tamper seals at each end part as well as a double-adhesive part in vicinity of at least one of said anti-tamper seals, the container having a first short side, a second short side, two long sides, a bottom side and an upper opening, each of said short sides having a press area adjacent to said upper opening, and a clamping device below the press area, wherein each clamping device is adapted for releasably attaching one of said first or second end of said chain, and wherein each press area is adapted for giving firm support for a part of a chain end when such an end is stretched over said press area.
As disclosed herein, the term “container” relates to a structure suitable for enclosing a plurality of coin bags. It must have an upper opening enabling coin bags to enter and exit. It must be broader than the coin bags that are to be stored therein. The container may have many different shapes. A circular or hexagonal vertical cross-section is possible. However, the container shape is typically an essentially rectangular block having a bottom side, two short sides, two long sides and an upper side comprising an opening. For practical reasons, the weight of a container filled with coin bags should not exceed 20 kg, preferably not exceed 15 kg, and most preferably not 10 kg.
As disclosed herein, the terms “chain of a plurality interconnected coin bags” or “chain of interconnected coin bags” relates to a chain of plastic bags containing coins. Typically, such a chain has been obtained by filling coins into a plastic tube and closing the space occupied by the coins by heat-sealing. Suitable plastic materials are heat-sealable and sufficiently strong to be able to enclose heavy metal coins. Polypropylene is an example of a suitable plastic material. It is easy for a skilled person to find more suitable such materials. The chain furthermore has a first end and a second end. These ends preferably consist of heat-sealed portions. The ends of the chain are adapted for being releasably attached to the clamping devices of the container.
As disclosed herein, the term “seal” relates to an elongated sheet, or otherwise shaped sheet depending on the shape of a container to be sealed, adapted for being attached to the container in order to indicate that the container contains a chain of interconnected coin bags and to provide further information, such as the specific amount of coin bags in the container and the amount and type of coins in the bags. The seal comprises an information part and two end parts at the short sides of the elongated sheet. There are anti-tamper seals at both end parts. Furthermore, there is a double-adhesive part releasably attached to the lower side of the main part in vicinity of one or both the end parts.
As disclosed herein, the term “anti-tamper seal” relates to a part that adheres to a surface. When the part is removed from the surface, there is a display on the part itself and/or the surface to which it has adhered indicating that the seal has been manipulated and/or opened. Such anti-tamper seals are commercially available. The anti-tamper seal is firmly attached to the main part of the seal, typically by a glue.
As disclosed herein, the term “double-adhesive part” relates to a sheet structure having an adhesive on both sides. Typically, the double-adhesive part is arranged on the lower side of the main part of the seal in vicinity of an end part. Both sides of the double-adhesive part are intended to adhere to ends of chains of interconnected coin bags. The side of a double-adhesive part on a seal facing away from the main part is intended to adhere to an end part of a chain of interconnected coin bags that has been arranged inside a container to be sealed. When a seal of a container is removed, the other side of the double-adhesive part is exposed and may be used for adhering to an end part of another chain of interconnected coin bags. It is important to note that the double-adhesive part also may be fastened on the chain of interconnected coin bags without using the above described seal. For example, the double-adhesive part may comprise a protective film which can manually be peeled off to expose the other side of the double-adhesive part and then used for adhering to an end part of another chain of interconnected coin bags.
As disclosed herein, the term “press area” relates to an area on the upper short side of a container adapted for receiving an end part of a chain of interconnected coin bags. The press area may either protrude out from said upper short side or be at the same level as the rest of the short side. The function of the press area is to provide support to the double-adhesive parts when two chains of interconnected coin bags are joined.
As disclosed herein, the term “clamping device” relates to a device adapted for sticking or attaching one of the ends of a chain of interconnected coin bags, typically a clamp or a clip. In some embodiments, the end of said chain is only loosely attached to the clamping device and may be pulled out from it.
In some embodiments, the first and second short sides of the container have an identical design.
In some embodiments, each short side of the container comprises an actuation means which releases the clamping device when actuated.
As disclosed herein, the term “actuation means” relates to a means located on a short side of the container for releasing the clamping device when short sides of two different containers are pressed against each other. Accordingly, a suitable actuation means may be a push button on the surface, in a cavity or on a protruding part. In one embodiment one surface of a short side may comprise a protruding part whereas the other short side surface may comprise a cavity receiving the protruding part. The actuation means may also comprise a proximity sensor sensing if an object, for example a second container, is in the vicinity. According to some embodiments, the actuation means may comprise a sensor which only actuates if it senses a certain object, typically an object on the second container.
In some embodiments, the container comprises a pair of handles which optionally are foldable.
In some embodiments, the container further comprises a sensor means for detecting the presence of a chain extending through the upper opening, said sensor being adapted for being connected to a control system.
In a second aspect, the invention provides a kit for storing and dispensing coin bags, comprising
In some embodiments, the first end and the second end of said chain are constituted of heat-sealed portions.
In some embodiments, the kit further comprises a seal having two end parts and anti-tamper seals having adhesive lower layers at each end part as well as a double-adhesive part in vicinity of at least one of said anti-tamper seals.
In some embodiments, there is a release liner between the double-adhesive part and the seal. Typically, such a release liner is a thin sheet of plastic or paper that protects an adhesive surface of the double-adhesive part. When this adhesive surface should be used to adhere, for instance to an end part of a chain of a plurality of interconnected coin bags, the release liner is removed, thereby exposing the adhesive surface.
In some embodiments, the anti-tamper seals are adapted for being firmly attached to the one of the short sides of the container.
In a third aspect, the present invention provides a method of sealing a container in accordance with the first aspect, said container containing a chain of interconnected coin bags, comprising the steps of:
In a fourth aspect, the present invention provides a sealed container obtained by the method according to the third aspect.
In a fifth aspect, the present invention provides a method of joining two chains of a plurality of interconnected coin bags comprising the steps of
In some embodiments, the method involves use of containers in which each short side comprises an actuation means which releases the clamping device when actuated, and contacting step 2) therefore causes the actuation means of each of the second short side of the first container and the first short side of the second container to release the clamping devices of these particular short sides.
In a sixth aspect, the present invention provides a method of joining two chains of a plurality of interconnected coin bags comprising the steps of:
In some embodiments, the method involves use of containers in which each short side comprises an actuation means which releases the clamping device when actuated, and contacting step 3) therefore causes the actuation means of each of the second short side of the first container and the first shirt side of the second container to release the clamping devices of these particular short sides.
The above, as well as additional objects, features and advantages of the present invention, will be better understood through the following illustrative and non-limiting detailed description of embodiments of the present invention, with reference to the appended drawings, where the same reference numerals will be used for similar elements, wherein:
A container for holding a plurality of interconnected bags for coins is disclosed. Such a container 200 can be seen in
In the following, the invention will be described in terms of bags of coins, but it should be noted that the invention is not limited to bags containing coins. The invention could be used for bags of other items, such as candy, jewellery, bank-notes or any other item suitable for being enclosed in a bag.
The bags of coins contained in the container 200 are interconnected such that all bags of coins 212a . . . n in a container are attached in a long chain 211 of bags. Each bag is sealed by for example heat sealing. Consequently, there is a portion of material 214 between each bag of coins which is not part of any bag, hereinafter called sealing portion 214. This portion 214 may for example be a portion of heat sealed plastic. The ends of the first 212a and the last 212n bag in this row of bags of coins 212 are fixed to the container. The first end 216 is fastened on an outside of a first sidewall 204, e.g. one of the sidewalls of the short side of the container. The second end 218 is fastened on an outside of a second sidewall 206 opposite to the first sidewall. The portions 216, 218 fastened to the sidewalls of the container advantageously consist of material not being part of any bag 212a . . . n, for example the above described sealing portion 214 and according to some embodiments, further non-bag material. Consequently, no coins will be placed outside the sidewalls 204, 206, since the portions fastened on the outside of the sidewalls are not parts of any bag. Moreover, no coin will be placed on the edge of the sidewalls 204, 206 over which the first end 216 and the second end 218 is extending. This is advantageous since the risk of tearing the first 216 or second 218 ends may be reduced. More specifically, the end parts 216, 218 are arranged over press areas 217, 219 and releasably attached to clamping devices 222 on each short side 204, 206. The clamping device 222 will be further described below. Consequently, the container 200 and specifically the clamping device(s) 222 and the press area(s) 217, 219 are adapted for giving firm support for a part of a chain end 216, 218 when such an end is stretched over the press area 217, 219. The press area 217, 219 may be a protruding block as described in
By employing such clamping devices, the ends of the interconnected chain of coin bags are easily reachable. By stretching the interconnected bags over the edges of the first 204 and second 206 short sides, the stackability of the container 200 may be improved.
Since the weight and the size of coins may vary greatly, the size of a bag of coins may also advantageously vary. In order to allow for ergonomic handling of a container of such bags, the weight of the bags of coins 212a . . . n contained in the container 200 should not be too large. According to some embodiments, the total weight of the container 200 and the bags of coins 212a . . . n contained in the container 200 should not exceed a limit weight, for example 10 kilograms. The limit weight can according to other embodiments be any other suitable value such that 11, 13 or 15 kilograms. The container 200 is advantageously shaped such that it can be carried by a person using only one hand. Consequently, the person can carry two containers 200, one in each hand, for increased ergonomic handling. Consequently, the container 200 should not be too wide. According to some embodiments, the width of the container 200 is within the range of 6-40 centimetres, preferably 10-30 centimetres. The size of the container may typically amount to 40 cm33 30 cm×15 cm but these measurements may be varied considerably. What is important is that the weight of a container containing coin bags is not too large for an average person to carry by one hand, for example exceeding 20 kg.
The number of bags of coins 212a . . . n contained in the container may thus be limited by such a weight limit of the container 200. If the container 200 is made out of a light material, such as aluminium or plastic, the number of bags of coins 212a . . . n may be increased. The material of the container 200 should thus advantageously be both light and durable, in order to allow for an increased number of bags of coins 212a . . . n in a single container 200, and in order to be durable against wear out. Using steel as material, these advantages may be achieved. It may be noted that the container 200 can be made of any other suitable material, such as aluminium or any polymer-based material.
Another limit for the number of bags of coins 212a . . . n may be the volume of the container 200. According to some embodiments, the bags of coins 212a . . . n should not reach above the upper boundary of the container 200. According to other embodiments, the bags of coins 212a . . . n can reach above the upper boundary of the container to some extent, as long as a second container could be stacked above the container having the bags of coins 212a . . . n reaching above the upper boundary of the container 200. A feature of the container 200 according to the present invention is that it is stackable. For that reason, any handle(s) of the container 200, used when carrying the container 200 by a user as described above, may be foldable or removable (not shown in the figures). Consequently, when stacking or de-stacking a container, the handles can be retracted or extended accordingly.
The container 200 is designed for easy and safe stacking. For example, the container 200 may be designed such that a locking between a first container and another container stacked above the first container can be achieved. Features facilitating stacking are not shown in the figures.
The bags 212a . . . n for holding the coins may be made of any plastic material such that polypropylene. The bags 212a . . . n are advantageously transparent in order to allow the currency and denomination of the coin contained by a bag to be easily visible.
The bags of coins are advantageously put in the container in a zigzag pattern, as visualised for example in
According to embodiments, the first end 216 is fastened on an outside of an upper portion of the first sidewall 204 and the second end 218 is fastened an outside of an upper portion of the second sidewall 206. This reduces the amount of excess material, i.e. material not part of any bag 212a . . . n, which is needed for the first 216 and second 218 ends.
Both the ends 216, 218 may be fastened using a clamping device 222.
The clamping device 222 may according to some embodiments be opened, or released, by a connected actuating means 207 shown is
The first end 216 is provided with a double-adhesive part 220 which is adhering to the first end on the outside of the first short sidewall 204, on a side of the first end 216 which is not touching the first short sidewall 204. Consequently, the double-adhesive part 220 is free to be adhered to an object to which it is pressed against. Such a double-adhesive part may according to embodiment also be located on the outside of the second sidewall 206 on a side of the second end 218 which is not touching the second short sidewall 206. The double-adhesive part 220 is according to embodiments located between an upper edge of the first short sidewall 204 and the clamp 222 holding the first end 216 and additionally or alternatively similarly provided on the second short sidewall 206.
As shown, for example in
The first 216 and second 218 end is advantageously fastened equally far from an upper edge of the first 204 and the second 206 sidewall respectively. This may provide a symmetric design of the container 200, which may be advantageously since the filling process and fastening procedure of the container 200 may be more efficient if the direction of the container 200 is of no concern while performing the filling process and fastening procedure.
In order to improve the releasing functionality of the above described uninterrupted chain of bags, the method may further comprise the step of, after the step of pressing the first sidewall of the second container against the second sidewall of the first container as shown in
Since the double-adhesive part 720 should be strong enough to hold the two pluralities of interconnected bags 212a . . . n, 712a . . . n, together, the tacky properties of the double-adhesive part 720 is of importance. The double-adhesive part may for example be made from an adhesive very high bond (VHB) tape manufactured by 3M. Any other adhesive material with enough tacky properties is equally possible, for example a double-sided, pressure sensitive, closed-cell acrylic foam tape.
In order to improve security and provide identification of the content of a container, the container may be provided with a sealing. Such a sealing is described by way of example in
As can be seen in
As described in
The sealing of the container may be performed with a method comprising three steps. In step one, the kit of parts are provided. Step two comprises arranging the chain 211 of interconnected coin bags 212a-212n in the container 200 in such a way that all of the bags 212a-212n are inside the container, the first end 216 is arranged over the press area 217 and attached by the clamping device 222 of the first short side 204, and that the second end 218 is arranged over the press area 219 and attached by the clamping device 222 of the second short side 206. The third step comprises attaching a seal 500 to the container 200 obtained in step two in such a way that the seal 500 covers the upper opening 209 of the container, whereby the double-adhesive part 220 adheres to one of said first 216 or second 218 ends and anti-tamper seals 512 at each end part 534, 536 adheres to said first and second short sides 204, 206.
Going into more details of the third step, the attaching of the seal 500 to the container 200 may be done in such a way that the seal 500 covers said upper opening 209 of the container 200, the surface of the double-adhesive portion 220 facing away from the release layer 518 of the seal 500 adheres to one of said first 216 or second 218 ends of said chain 211 adjacent to a press area 217, 219, and the adhesive parts 512 at each end part 534, 536 adheres to the first and second short sides 204, 206 of the container 200.
When the containers 200, 700 shown in
In other words, the sealing 500 may be used for covering the opening of a container which comprises a plurality of interconnected bags 212a . . . n for coins. The container 200 may have a bottom and four sidewalls 202, 204, 206, 208 extending upwardly from the bottom. The plurality of interconnected bags 212a . . . n may have a first end 216 and a second end 218, wherein the first end 216 is being fastened on the outside of the first sidewall 204, the second end being fastened on the outside of the second sidewall 206, such that when the sealing 500 is applied to the container 200 for covering the opening of the container and subsequently removed, the first end 216 is provided with an double-adhesive part 220 being the double-adhesive part 220 of the sealing 500. The double-adhesive part 220 provided to the first end 216 is thus located on the outside of the first sidewall 204 on the side of the first end 216 of the plurality of interconnected bags 212a . . . n which is not touching the first sidewall.
As described above, the sealing 500 may further comprise adhesive parts 512 adapted for adhering to the surface of a container. According to some embodiments, the adhesive parts may be anti-tamper seals 512 positioned at each end of the information part. The anti-tamper seal has an adhesive layer 513 and is firmly attached to the main portion 508 by adhesive 514. In case someone has opened the anti-tamper seal 512 by using the finger lift 510, the anti-tamper seal will display some visual information regarding the fact that the seal 512 has been opened, i.e. showing a first appearance when adhered to a surface and a second appearance when having been torn away from the surface. The anti-tamper seal 512 may for example show the word “STOP” as a first appearance, as visualized in
As described above, the container 200, which the sealing 500 is covering the opening of, may comprise a plurality of interconnected bags which each contains coins. According to embodiments, the information part 508 may in this case comprise information regarding at least one of the currency of the coins, the denomination of the coins, the number of coins in each bag, the number of bags, and the total number of coins in the container. The area 520 may be color coded depending on at least one of the currency of the coins and the denomination of the coins. The computer readable identification means 506, such as the QR-code 506 or a RFID, may in this case comprise at least portions of the same information.
A dispensing apparatus 100 adapted for dispensing a bag for coins will now be described.
The dispenser apparatus comprises a bag storage compartment 104. The bag storage compartment 104 is adapted for storing the bags for coins before they are being dispensed. The bag storage compartment 104 may according to embodiments be adapted for holding container(s) comprising a plurality of interconnected bags for coins, as described above. According to other embodiments, the bag storage compartment may be adapted for storing any suitable container comprising a plurality of interconnected bags for coins.
According to embodiments, the bag storage department 104 is adapted for holding a first container at a first storage position 106, and a second container at a second storage position 108. The bag storage department 104 may further be adapted for holding a third container at a third storage position 110. The bag storage department 104 may according to embodiments be adapted for holding even further containers.
The bag storage compartment 104 in
The bag storage compartment 104 may further comprise guiding means 116 for guiding a container to a correct position for further handling of the interconnected bags of the container in the dispensing apparatus 100.
The dispensing apparatus 100 further comprises a container removing device 118 adapted to remove a container at the first position 106 from the bag storage department 104. As can be seen in
The dispenser apparatus 100 further comprises a container output compartment 124 which is separate from the bag storage compartment. This allows for easy access of a container which has been moved by the container removing device 118 from the first position 106 of the bag storage department 104 to the container output compartment 124. The container output compartment 124 advantageously comprises a declining surface 126 such that a container will be moved by gravity from the container removing device 118 when it is in its second position and holding the container. The second position of the container removing device 118 is when the two container supporting structures 122 has been lowered by the two structures 120 for moving the container supporting structures 122. According to other embodiments, the container output compartment 124 comprises a horizontal belt, such as a conveyer belt, for moving a container from the container removing device 118 when it is in its second position and holding the container. Other ways of implementing the container removing device 118 are left to the skilled person to implement.
The container output compartment 104 may further comprise guiding means 128 for guiding a container down the declining surface 126.
The dispensing apparatus further comprises a bag transporting device 130 for transporting the interconnected bags from a container in the bag storage compartment 104. The bag transporting device 130 comprises a lifting device 134 for lifting the interconnected bags from the bag storage compartment 104 through a transition area 129 located at the interface between the bag storage compartment 104 and the bag transporting device 130. The bag transporting device may further comprise a friction providing device 136. The bag transporting device 130 is adapted to deliver a bag to be dispensed to a cutting device 132 which is adapted for separating the bag to be dispensed from the interconnected bags. The bag transporting device 130 and the cutting device 132 are described in detail below.
The case 102 of the dispensing apparatus 100 comprises a dispense aperture 138 through which the bag to be dispensed is outputted from the dispensing apparatus 100. The case 102 further comprises a reject aperture 142 leading into a reject compartment 140 where a rejected bag is outputted from the dispensing apparatus 100. The dispensing and reject functionality will be described in detail below.
The bag transporting device 130 is thus adapted for guiding the chain 211 of a plurality of interconnected coin bags to the cutting device 132 followed by said dispense aperture 138. The dispensing apparatus 100 further comprises at least one motor (not shown) for driving the various moving parts of the dispensing apparatus, such as the conveyer belt(s) 108, 110, the lifting device 134, the cutting device 132 and the container removing device 118. The at least one motor may according to embodiments be an electric motor. The dispensing apparatus further comprises a control system 160 for controlling different parts of the dispensing apparatus and thus the dispensing process. Generally, the control system 160 is adapted for controlling at least the cutting device 132, first conveyor belt 112, bag transporting device 130, and the container removing device 118. In case additional conveyor belts exist in the dispensing apparatus 100, the control system 160 is adapted for controlling the additional conveyor belts as well.
It may be noted that the control system 160 may be a computer including a screen which may show information to an operator of the dispensing apparatus 100. The screen may according to some embodiments be omitted. The control system 100 may also communicate with the operator using other means such as lamps or sound. The control system 160 may comprise a device adapted to receive user input, such as a keyboard. The control system may or may not have a memory for storing and logging information. In its simplest form, the control system 160 is merely a chip controlling the different motors of the dispensing apparatus 100 depending on input from sensors of the apparatus 100. It may also be noted that the control system can in some embodiments be located separately from the dispensing apparatus 100 and wired or wireless connected to the dispensing apparatus 100.
The movement of containers comprising a plurality of interconnected bags for coins in the dispensing process will now be described in conjunction with
The bag storage compartment 104 of the dispensing apparatus 100 is adapted to receive a container 200, as shown in
Moreover, the bag storage compartment 104 may not be adapted to receive a container when the container output compartment 124 comprises a container. This may be realized, for example by the control system 160 controlling the motor not to start the conveyer belt 114 when the container 200 is positioned in the opening of the case 102 if a container is present in the container output compartment 124. The user may be notified by the control system 160 as described above. This is advantageous since the dispensing apparatus could malfunction if the container output compartment 124 comprised so many containers such that a container just removed from the first storage position 106 of the bag storage department 104 by the container removing device 118 could not slide down the declining surface 126 and away from the container removing device 118. According to other embodiments, the dispensing apparatus 100 stops if the container output compartment 124 has no room for a further container.
The dispensing apparatus 100 may further comprise means (not shown) for obtaining amount information about the coins and/or coin bags to be dispensed. This means may for example be a QR code reader adapted for reading information on a coin bag or on the information part 508 of a seal 500 of the containers to be received by the apparatus. Further, the means may be a RFID reader adapted for reading information on a coin bag or on the information part 508 of the seal 500 the containers to be received by the apparatus. The means may be a scanner which can be used by the operator of the dispensing apparatus for scanning the QR code or RFID of the seal 500 before removing the seal and putting the container in the dispensing apparatus 100. The means may also be a means for manually entering information such as a key pad. These means are advantageously coupled to the control system 160 of the dispensing apparatus 100.
The dispensing apparatus 100 may further comprise a sensor (not shown) for sensing a number of interconnected bags contained in a container 200 received by the dispensing apparatus. This information may for example be included in an identifier placed on the container 200, for example underneath it. The identifier may thus comprise an identifier comprising information relating to the number of interconnected bags contained in the container 200. The identifier, or information bearer, comprises information pertaining to content of the container such as currency of coins, coin type, amount of coins, amount of coin bags, amount of coins in each coin bag and/or filling address of the container. The information bearer may be a RFID chip or a QR code. The information relating to the number of interconnected bags may be used by the control system 160 of the dispensing apparatus 100, for example for keeping track of when a container is empty since all the bags has been transported from the container by the bag transporting device 130. For this reason, the dispensing apparatus 100 may further comprise a sensor (not shown) for sensing when an interconnected bag is transported from a container in the bag storage compartment 104. This sensor may for example be a camera, wherein the control system 160 comprises algorithms for recognizing when a bag is transported from the container. In case each bag in the container comprises an identifier, for example a QR code, or a RFID, the sensor may be adapted for recognizing this identifier and thus sensing when an interconnected bag is transported from a container in the bag storage compartment 104. According to embodiments, the dispensing apparatus 100 may further be adapted to overwrite the information on the above mentioned identifier placed on the container relating to the number of interconnected bags contained in the container when the bag transporting device 130 is transporting an interconnected bag from the container. This may be advantageous in that it simplifies stocktaking of how many bags are stored in the bag storage compartment 104, without examining each container by counting all bags contained in the container at the given moment. This may further reduce the risk of theft of bags, since the control system 160 as well as the identifier of each container may keep track of the number of bags stored in the container.
The dispensing apparatus 100 and the container 200, as described in conjunction with
In the case the bags in the container 200 comprises coins, the identifier placed on the container 200 may further comprise information regarding at least one of the currency of the coins, the denomination of the coins and the number of coins in each bag. The control system 160 may in this case be adapted to not allow a container 200 comprising coins of the wrong currency and/or wrong denomination and/or wrong number of coins in each bag. The operator may be informed if this happens according to above.
When successfully received by the bag storage compartment 104, the dispensing apparatus is adapted to transport the container 200 into the bag storage department 104 and further to the first storage position 106 by means of the conveyer belt(s) 114, 112.
In
The bag transporting device 130 is adapted for guiding the chain 902 of a plurality of interconnected coin bags from the bag storage compartment 104 to the cutting device 132 followed by said dispense aperture 138. In
In
The control system 160 may thus be adapted for receiving information about the amount of interconnected coin bags 212a-212n of a chain 902 in a container, e.g. the first container 200 in
The control device 160 may thus determine whether there are any interconnected coin bags left in the container based one or more input data. The input data may come from one or more sensors according to what have been described above, for example:
In other words, in
In
The control system 160 of the dispensing apparatus 100 is thus adapted instruct the dispensing apparatus 100 to remove an empty container from the bag storage compartment and further for instructing the first conveyor belt to forward a container, e.g. the second container 700 in
The dispensing apparatus 100 further comprises an opening (not shown in
The process of forming, and add on to, an uninterrupted chain of bags, and feeding the chain to the bag transporting device 130 for delivering the bag to be dispensed 904 to the cutting device 132, where it is separated from the uninterrupted chain of bags, is schematically shown in
The process of transporting the interconnected bags from the bag storage compartment to the cutting device for separating the bag to be dispensed from the interconnected bags will now be described in detail in conjunction with
It may be noted that a bag transporting device described in
The lifting device is powered and arranged at a higher level than the cutting device 132, such that it can deliver the bag to be dispensed from above, which will be described in conjunction with
The lifting device 134 may optionally comprise a flexible outer belt 1106, tightly wrapped around the movable parts 1102. In other words, the lifting device 134 may comprise a cover material 1106 covering a contact surface between the lifting device 134 and the interconnected bags when lifting the interconnected bags from the bag storage compartment. In yet other words, the lifting device 134 further comprises a cover material 1106 in communication with the movable parts 1102 and adapted for being in communication with a chain 902 of a plurality of interconnected coin bags. The flexible belt 1106 is thus covering the outer edges of the movable parts 1102 and is advantageously made out of a high friction material, such as a high friction rubber material, to further improve the pulling force exerted on the interconnected bags out from the bag storage compartment. The flexible outer belt 1106, i.e. the cover material 1106, may thus increase the friction between the lifting device and bags in contact with the lifting device. The flexible properties of the belt 1106 may ensure that the belt will move along with the movable parts 1102 towards the center 1104 of the lifting device 134 when in contact with a bag. According to other embodiments, an outer part 1124 of each movable part 1102 comprises a separate portion of such a cover material 1106.
Moreover, the functionality of the friction providing device 136 may be seen in
Moreover, the friction providing device may according to embodiments be used for checking the thickness of bags lifted by the lifting device 134. The max size that the dispenser apparatus 100 can handle is predetermined in the distance between the friction providing device 136 and the closest moving part 1102c in its inner position. In case a larger bag is transported by the bag transporting device 130, the dispenser apparatus 100 may be stopped. Alternatively or additionally, in case such a larger bag is transported by the bag transporting device 130, the operator of the dispenser apparatus may be notified and warned according to above. According to embodiments, the sensor 1130, connected to the control system 160, is configured for measuring the angle of a pivotable arm 1126, wherein an angle value above a certain value, i.e. when a too large bag is transported by the bag transporting device 130, induces the control system 160 to interrupt dispensing of coin bags and/or to warn the operator.
In
The dispenser apparatus may additionally or alternatively comprise a sensor (not shown) for sensing that bags are in contact with the lifting device, and the control system 160 may be adapted such that the dispenser apparatus 100 cannot be started if this is not the case.
As described above, each bag of the chain of interconnected bags 902 may be defined by a sealing portion 1404 on each side of the bag 1402a . . . n. This is shown in
The position sensed by the sensor may then be used by the control system 160 controlling the cutting device 132 for determining a cutting position such that the cutting device separates the bag to be dispensed 1402c at the sealing portion 1404 between the bag 1402c to be dispensed and the bag 1402b interconnected to the bag 1402c to be dispensed using the sensed position of the content.
In other words, the sensor 1410 is adapted to detect positions of content of bags in a chain 902 of a plurality of interconnected coin bags and to forward data corresponding to the positions to the control system 160. The control system 160 is adapted to calculate whether said chain 902 has been fed into a position where a coin bag 1402c could be cut off from the chain. If that is the case, the control system is adapted to instruct the cutting device 132 to cut off the coin bag 1402c which can be seen in
In case the separation fails, i.e. the bag 1402c to be dispensed is not separated from the interconnected bags 902, the cutting device may be adapted to retry to separate the bag 1402c to be dispensed a threshold number of times. The threshold may be 1, 2, 5 or any suitable number. This means that the process shown in
In
When in the reject mode, since the bag 1402c to be dispensed was not separated, despite several attempts by the cutting device, the dispensing apparatus is adapted to feed forward another bag, e.g. the bag 1402b (shown in
A user of the cash handling system 1600 may receive coin bags from the dispensing apparatuses 100 through an aperture 1612 of the housing of the cash handling system 1600. Moreover, an operator of the cash handling system 1600 may reach the dispensing apparatuses 100 and the cash and banknote handling unit 1602 thorough doors 1614 on a rear side of the cash handling system 1600. The operator may for example input a container comprising interconnected coin bags as described above into the dispensing apparatuses 100, or refill or empty the cash and banknote handling unit 1602. The rear side of the cash handling system 1600 may also comprise a user interface (not shown) for controlling the cash handling system 1600, for example a touch sensitive display or any other suitable user interfaces. The cash handling system 1600 may further comprise a control system (not shown) controlling all the separate units 100, 1602. The control system may thus be connected to the control systems 160 of the dispensing apparatuses 100 and a similar control system of the cash and bank note handling unit 1602. The rear side is usually no reachable for a regular user of the cash handling system 1600, e.g. a cashier that want to exchange bank notes for coin bags.
The overall process of producing bags of coins and deliver these to a dispenser for further dispensing of each bag to an end consumer such as a cashier in a warehouse may be as in the following.
The process of filling each bag that can be done with standardized volumes and types of coins in each bag or bags that are filled according to customer requirements, both with several denominations in each bag and varied number of coins. The content of each bag may be recorded in a server. The process of filling each bag may be linked to a unique RFID code that is located on the container and stored on the server. This data can be retrieved later from the server, for example when the container is entered in the dispensing apparatus. Consequently it can be verified that the correct customer gets the each container.
By having a RFID chip on each container may make it possible to enter information directly on the chip during the filling process and then make this information available during distribution or storage to easily identify the contents or stock location without having access to the server.
Each bag can be provided with a barcode or QRC which makes it possible to track every bag from production until it have been distributed to the end user, the code can be stored in the server and/or on the RFID chip of the container. It may thus be very easy to follow up what has been delivered and also identify if there is a loss while the container is delivered to the dispenser apparatus. A reader of the barcode or QRC may be available in the filling machine and the dispenser apparatus.
With these solutions, it is easy for the person responsible for the distribution to monitor the delivery via the server.
Number | Date | Country | Kind |
---|---|---|---|
1451062-2 | Sep 2014 | SE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/SE2015/050961 | 9/14/2015 | WO | 00 |