1. Field of the Invention
The present invention relates to a bill discriminating device in which a bill insertion port is protected by a mask portion that covers a front surface of the bill discriminating device except the bill insertion port, and light from a light source apart from the bill insertion port in the bill discriminating device is guided to the bill insertion port via a light guide member to illuminate the bill insertion port over a wide range, thereby facilitating discrimination from the outside.
2. Related Background Art
Many vending machines include no security camera, and are placed in insufficiently illuminated places. Thus, bills stored in a vending machine can be stolen without many persons and much equipment, though it takes a relatively long time. For stealing bills in a vending machine, a bill insertion port of a bill discriminating device is often broken and the bills in the bill discriminating device are taken out of the broken port. Thus, there is a strong need from users for a bill discriminating device that can be protected against such a crime.
One method for solving the above-described problem is to reduce a vertical width of a bill insertion port in a mask portion of a bill discriminating device as small as possible, and form the entire surface of the mask portion except the bill insertion port from a rigid member to increase strength of the bill insertion port and a periphery thereof. However, reduction in an area of the bill insertion port as described above makes it difficult for customers who buy products from a vending machine placed in an insufficiently illuminated place to discriminate the bill insertion port. Thus, in order for the customers to be able to easily discriminate the bill insertion port in the insufficiently illuminated place, the bill insertion port itself needs to have a light emitting function.
For example, Japanese Utility Model Application Laid-Open No. H2-38666 discloses a configuration in which a bill insertion port of a bill discriminating device is formed of a material consisting of light harvesting resin, and the bill insertion port is illuminated by a light source placed in a vending machine and outside the bill discriminating device so that the bill insertion port of the bill discriminating device has a light emitting function. In the above-described configuration, the light source is placed outside the bill discriminating device, and thus the bill insertion port and the light source are placed apart from each other under physical constraints. Thus, the intensity of light emitted from the light source must be relatively high, and the entire bill insertion port cannot be illuminated even with a high intensity light source. Also, use of the high intensity light source causes inconvenience in terms of the life of the light source.
Japanese Utility Model Application Laid-Open No. H5-30215 discloses a configuration in which a bottom surface of a bill insertion port is formed of a light transmitting material, a pyramid-shaped member formed of a light reflecting material is placed below the bottom surface, and a light emitting diode (LED) is placed in the pyramid-shaped member so that the bill insertion port has a light emitting function. With the above-described configuration, direct light from the LED and reflected light from the pyramid-shaped member cause the bill insertion port to emit light. However, in the above-described configuration, the pyramid-shaped member and the light emitting diode (LED) need to be placed, thereby increasing a size of an opening of the bill insertion port. Also, a separate substrate needs to be placed close to the bill insertion port, thereby increasing complexity of a production process and production costs. Further, the entire bill insertion port cannot be illuminated, though a periphery of the LED can be illuminated.
Japanese Patent No. 3220235 discloses a configuration in which a bottom surface of a bill insertion port is formed of a colored translucent synthetic resin member, and an LED is placed on a substrate placed inside the bottom surface to illuminate the bill insertion port. Like the above-described configuration, this configuration encounters problems of a significant increase in production costs and impossibility to illuminate the entire bill insertion port.
Therefore, the present invention has an object to provide a bill discriminating device in which light from a light source on a main substrate placed apart from a bill insertion port in the bill discriminating device is guided to the bill insertion port via a light guide member to illuminate the bill insertion port over a wide range with the guided light, thereby eliminating the need for placing a separate substrate close to the bill insertion port. Such a configuration provides a simple production process and significantly reduces production costs. Further, the present invention has another object to provide a bill discriminating device that allows light guided from a light source via a light guide member to linearly illuminate a bill insertion port along a long side thereof and illuminate the entire bill insertion port in addition to an extremely limited range in the center of the bill insertion port.
The bill discriminating device according to the present invention includes: a body; and a mask portion, the body includes a main substrate having a light source, the mask portion includes a bill insertion port formed to be placed in a front surface of the bill discriminating device, and a bill chute passage having one end connected to a bill conveying passage and the other end extending to the bill insertion port, at least one surface of the bill chute passage is formed of a light guide member including a portion extending from the light source to the bill insertion port, and light emitted from the light source is optically connected to the bill insertion port via the light guide member.
In the above-described bill discriminating device, the main substrate having the light source is placed apart from the bill insertion port in the bill discriminating device. The light guide member is formed to have a lateral width matching a size of at least one light source at a connection end to the light source, and a width matching a lateral width of the bill insertion port at the other end of the bill chute passage extending to the bill insertion port.
Further, in the above-described bill discriminating device, the mask portion is preferably formed of a rigid member such as a die-casting alloy.
With the above-described configuration, the bill insertion port and the light source are placed apart from each other via the light guide member, and thus the need can be eliminated for placing a separate substrate close to the bill insertion port by placing the light source on the main substrate. This provides a simple production process, and significantly reduces production costs. Further, the above-described configuration allows light guided from the light guide via the light guide member to linearly illuminate the bill insertion port along a long side thereof and illuminate the entire bill insertion port in addition to an extremely limited range in the center of the bill insertion port.
In the state in
When the bill insertion sensor 12 detects the insertion of the bill, the bill conveying motor 7 is activated to drive bill conveying means (not shown, hereinafter the same). In the bill discriminating portion 2a, a conveying position detection sensor 13 is provided along the bill conveying passage 8, and detects a conveying position of the bill. When the inserted bill reaches an escrow position, the bill conveying passage 8 is blocked by a shutter member 15 so as to prevent the inserted bill having reached the escrow position from going backward through the bill conveying passage 8. When the conveying position detection sensor 13 and the bill insertion sensor 12 detect the bill in this order before the bill conveying passage 8 is blocked by the shutter member 15, it is determined that the bill is improperly taken out, and bill discriminating means outputs no bill determining signal.
When the bill discriminating sensor determines the effectiveness of the bill, and determines the bill as effective, the shutter member 15 blocks the bill conveying passage 8. The bill is discriminated using a magnetic sensor and an optical sensor together to determine whether the bill is true by pattern matching of the inserted bill. In this determination, the bill discriminating sensor determines a bill within a certain range as an effective bill. When the bill discriminating sensor determines that the inserted bill is not effective, the bill is returned to the bill insertion port 5 through the bill conveying passage 8 and the bill chute passage 8a in an opposite direction to a bill inserting direction with the shutter member 15 opening the bill conveying passage 8. When the bill discriminating sensor determines that the inserted bill is effective, the bill discriminating means outputs a bill determining signal, and the bill is conveyed to the stacker in the bill accommodating portion 2b.
In order to protect against recent crimes, the bill insertion port 5 formed in the mask portion 1 is preferably protected by the mask portion 1 formed of a rigid member such as die casting. The bill insertion port 5 is formed into a rectangular shape matching a section of a bill perpendicular to the inserting direction, and has long sides parallel to an upper surface of the bill discriminating device, and short sides parallel to right and left side surfaces of the bill discriminating device. The short side preferably has a width of 7 to 12 mm. Thus, for a vending machine placed in a place without illumination therearound, it is extremely difficult for a customer to discriminate the bill insertion port 5 during the night. For such a reason, means for indicating the bill insertion port 5 with some method is needed.
In the present invention, a light source 11 placed on the main substrate 6 in the body 2, and the light guide member 4 optically connected to the light source 11 are used to guide light from the light source 11 to the bill insertion port 5 via the light guide member 4 and illuminate the bill insertion port 5 with the guided light. The light guide member 4 includes a portion 4a that forms at least one surface of the bill chute passage 8a in the mask portion 1 and extends from the light source 11 to the bill insertion port 5. The portion 4a extending from the light source 11 to the bill insertion port 5 extends from the bill insertion port 5 to the light source 11 perpendicularly to the front and rear surfaces of the bill discriminating device. The portion 4a extending from the light source 11 to the bill insertion port 5 is formed into, for example, a sheet with a triangular shape so as to have a width matching a size of at least one light source at an optical connection end to the light source 11 and a width matching a length of the long side of the bill insertion port 5 at a boundary between the bill chute passage 8a and the bill insertion port 5 in the mask portion 1. The light guide member 4 including the portion 4a that forms part of at least one surface of the bill chute passage 8a and extends from the light source 11 to the bill insertion port 5 may be a general optical fiber. A distance of mode dispersion of propagating light is insignificantly extremely short, and thus the light guide member 4 may be formed of a plastic fiber or a polymer fiber having a plastic core and a plastic cladding. The light guide member 4 may be formed of a material such as polyimide fluoride for an optical waveguide. The light emitted from the light source 11 reaches the bill insertion port 5 via the light guide member 4 and illuminates the bill insertion port 5. A surface of an end of the light guide member 4 on the side of the bill insertion port 5 is formed to have grain (fine asperities) so that the light propagating through the light guide member 4 is scattered. Thus, the light having reached the bill insertion port 5 linearly illuminate the bill insertion port 5 along the long side thereof and illuminate the entire bill insertion port in addition to an extremely limited range in the center of the bill insertion port 5.
As shown in
Returning to
As described above, in the bill discriminating device according to the present invention, the light from the light source 11 on the main substrate 6 placed apart from the bill insertion port 5 in the bill discriminating device is guided to the bill insertion port 5 via the light guide member 4 to illuminate the bill insertion port 5 over a wide range with the guided light, thereby eliminating the need for placing a separate substrate close to the bill insertion port 5. Further, the bill discriminating device according to the present invention allows the light emitted from the light source 11 to linearly illuminate the bill insertion port 5 along the long side thereof and illuminate the entire bill insertion port in addition to an extremely limited range in the center of the bill insertion port 5.
The above description relates to the embodiment of the present invention, and the gist of the present invention should not be construed as limited to this. In the technical field of the present invention, various modifications may be made by those skilled in the art, and fall within the technical scope of the present invention as long as embodied devices caused by such modifications are equivalent to the present invention.
Number | Date | Country | Kind |
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2004-376723 | Dec 2004 | JP | national |