TWM474216U - Valuable document receiving device - Google Patents

Description

Valuable document receiving device

The present invention provides a value document receiving device, in particular, the identification device corresponding to the channel inside the receiving device is located between the light emitting body and the light receiving body, and is provided with an optical module, which can condense light through the optical module. Focusing on one light receiver for reception reduces the number of settings and reduces costs to increase overall system design flexibility.

According to the current development of social civilization and science and technology, not only has it accelerated the pace of people's lives, but the requirements for quality of life have become more convenient and faster. Therefore, in many public places, in order to consider the convenience and timeliness of the people's attention. The metropolitan area is equipped with automated vending machines, teller machines or other value document receivers. In addition to significant savings in personnel employment costs, more and more features are required as more types of goods are sold.

Furthermore, the automatic vending machines, teller machines or other value document receivers on the market generally use the receiving device to provide users with the insertion of valuable documents for operation, in order to achieve unmanned operation and self-service, but with automated vending machines The types of goods that can be traded and sold are increased and the unit price is not the same, or the receiving function of the value documents is carried out in response to the teller machine and the deposit machine, and in order to prevent many unscrupulous people from inserting counterfeit banknotes, securities or other valuable documents. For the operation and use, the receiving device inside the body is mostly provided with an identification module for performing the identification action of the authenticity of the valuable document.

When the value document identifies the identification module of the receiving device, each single-point light source (such as a light-emitting diode) is used to respectively transmit a corresponding light source receiving component (such as a sensor). Sexual or reflective light, and with the anti-counterfeiting features of the tested area on the value document (such as watermark, stencil, hidden bar code or laser label) and material thickness, the value file inserted into the internal channel of the body can be true. Pseudo-identification action, except that the light emitted by the light source must contain the measured area across the entire value document, so the number of settings required for each single-point illumination source and light source receiving component needs to be large in order to pass the value document. The luminous flux covers the entire information of the value document to further judge the authenticity of the value document, which will increase the number and cost of the overall component, and the amount of information received by the light source receiving component will also increase. And the speed of the overall identification is reduced. If the number of sources and light source receiving components is reduced, the luminous flux cannot be included. All information problem by measuring the entire surface area, resulting in decreased ability to identify and prone to false positives occur on the parts, and those working in this industry to be re-designed to be effectively addressed.

Therefore, in view of the problems and shortcomings of the conventional receiving devices, the new creators have collected and reviewed relevant materials through multi-party evaluation and consideration, and have continuously tried and modified the years of R&D experience in this industry to design a new type of valuable document receiving device. Born.

The main purpose of the creation is that the inside of the seat body of the receiving device is formed with a channel for inserting valuable documents, and a control module is arranged corresponding to the channel inside the seat body, and the position of the valuable document can be displaced to the position of the identification device. The transmission device includes: at least one light emitter, a light receiver, and an optical module disposed on a light path between the light emitter and the light receiver, and the light source emitted by the light emitter penetrates the price The tested area of the document is either The surface of the price document is reflected, so that the light can be reflected by the optical module and concentrated and concentrated at a light receiving body for receiving and recording the light flux information of the light source signal, thereby reducing the number of the plurality of light receiving bodies to one. The cost is reduced, and the predetermined curvature is changed to reflect the light source to a predetermined area, so as to increase the flexibility of the overall mechanism design, thereby simplifying the number of components, properly arranging the overall space configuration, and being more cost-effective.

The secondary purpose of the creation is that the identification device can use the light emitter to emit a plurality of point light sources, linear light sources or surface light sources to penetrate the tested area on the value document or to reflect from the surface of the value document, and The light is concentrated by the optical module through at least three refractions or reflections and concentrated on one light receiving body for receiving, and then the light receiving body cooperates with the control module to record the luminous flux information of the light source signal to identify the authenticity of the valuable document. If the light emitter emits a plurality of point light sources, and the information amount of the light source received by the light receiver is constant, the number of the plurality of light receiving bodies can be reduced to one light receiving body, thereby reducing the setting of the light receiving body. The quantity reduces the cost; however, if the light emitter emits a linear light source or a surface light source, the information amount of the light source signal received by the light receiver is relatively reduced, thereby increasing the speed of recognition and reducing the light emitter and The number of light receivers is set to greatly reduce the cost.

Another object of the present invention is to further identify a perforation of the housing of the outer cover of the light emitter of the device to further provide a lens array, and use the lens array to refract the scattered light emitted by the light emitter to form a parallel The parallel light of the optical axis is then incident into the channel of the base by the light transmitting portion, so that the light can be irradiated on the value document to cover all the tested areas or reflected from the surface of the value document to improve the accuracy of the identification. stability.

1‧‧‧ Subject

10‧‧‧ accommodating space

11‧‧‧ panel

111‧‧‧ socket

2‧‧‧ receiving device

20‧‧‧ channel

21‧‧‧ body

211‧‧‧First base

212‧‧‧Second base

213‧‧‧Transmission Department

2131‧‧‧Dust cover

22‧‧‧Control Module

221‧‧‧ boards

222‧‧‧ sensor

23‧‧‧Transmission

231‧‧‧Motor

232‧‧‧Drive wheel set

24‧‧‧ Identification device

240‧‧‧shell

2401‧‧‧Perforation

241‧‧‧Light emitters

242‧‧‧Light receiver

243‧‧‧Optical module

2431‧‧‧First optical component

2432‧‧‧Second optical component

2433‧‧‧ Third optical component

244‧‧‧ lens array

25‧‧‧Storage device

251‧‧‧Resistance agency

252‧‧‧ 匣 匣

3‧‧‧Value documents

The first figure is a three-dimensional appearance of the preferred embodiment of the present invention.

The second drawing is a perspective exploded view of the preferred embodiment of the present invention.

The third drawing is a side cross-sectional view of a preferred embodiment of the present invention.

The fourth figure is a partial enlarged view of the third figure of the creation.

The fifth figure is a schematic diagram of the light path of the identification device of another preferred embodiment of the present invention.

The sixth figure is a schematic diagram of the light path of the identification device according to still another preferred embodiment of the present invention.

In order to achieve the above objectives and effects, the technical means and its construction adopted in the present invention are described in detail in the preferred embodiment of the present invention, and the structure and function are as follows.

Please refer to the first, second, third, fourth and fifth figures, which are respectively a perspective view, an exploded view, a side cross-sectional view, a partial enlarged view of the third figure and another comparison of the preferred embodiment of the present invention. A schematic diagram of the light path of the identification device of the preferred embodiment, as is clear from the figure, the present invention includes a main body 1 and a receiving device 2, wherein the panel 11 at the front of the main body 1 is provided with a socket 111, and is provided in the main body The receiving space 2 of the receiving device 2 is integrally formed or separated from the first base 211 and the second base 212. A passage 20 communicating with the socket 111 of the panel 11 is formed between the first base 211 and the second base 212.

In addition, the interior of the base 21 of the receiving device 2 is provided with a control module 22, a transmission device 23 and an identification device 24 corresponding to the upper and lower sides of the channel 20, and a pressing mechanism 251 and a receiving portion are disposed behind the channel 20. The storage device 25 of the 匣252, and the control module 22 includes at least one circuit board 221, and is located on the control body 22 at the base 2 Preferably, the two upper and lower sides of the channel 20 are provided with two opposite circuit boards 221, and the two circuit boards 221 are respectively provided with a detectable value document 3 when the channel 20 is passed through the channel 20 to start or stop the transmission device 23 to drive the value document 3 The displacement complex sensor 222; further, the transmission device 23 includes at least one motor 231 and a driving wheel set 232, and is driven by the motor 231 to drive the wheel set 232 to drive the value document 3 to be transported to the position of the identification device 24 for authenticity. Identification action.

However, the identification device 24 includes at least one light emitter 241 and a light receiver 242 disposed on the circuit board 221 of the control module 22, and is disposed on a light path between the light emitter 241 and the light receiver 242. An optical module 243 is provided, and the optical module 243 has a first optical component 2431, a second optical component 2432, and a third optical component 2433, and the light emitter 241 and the light receiving body 242 are respectively disposed on the channel 20 of the base 21. The upper and lower sides are only a preferred implementation state, and the light emitter 241 and the light receiving body 242 may be disposed at the same side above or below the channel 20, and the light emitter 241 may preferably be a light source. High-power light-emitting diode (LED) or laser diode (LD) of various colors, but in practical applications, it can also be a linear light source, a light source of a surface light source or other light-emitting module, and the light The receiving body 242 and the light emitter 241 can be a photodiode (PD), a phototransistor (PT), a complementary metal oxide semiconductor (CMOS), a charge coupled device (CCD), a reflective/ Penetrating optical sensor or other Sensors emit light of different wavelengths of the light emitter 241 received.

In addition, the seat body 21 is located at the inner wall surface of the upper and lower sides of the channel 20 to have a light transmitting portion 213 corresponding to the identification device 24, and is combined at the light transmitting portion 213. The illuminating dust cover 2131 is provided, and the light emitting body 241, the light receiving body 242 of the identification device 24 and the optical module 243 are externally covered with at least one housing 240, and at least one housing 240 is disposed on the housing 240. Corresponding to the light emitter 241 and the perforation 2401 at the light receiving body 242.

The value document receiving device of the present invention is preferably implemented for use in a banknote receiver, but in practical applications, it is not intended to limit the scope of the patent of the present invention, and may also be applied to an automated vending machine, a gaming machine or the like. The utility model is used in a consumer system for purchasing goods and consuming services, and the main body 1 is disposed inside a host (not shown) of the banknote receiver, the automated vending machine or the teller machine, so that the receiving device 2 can pass through the control module. The connector on the circuit board 221 is connected to the host for data and power transmission, thereby providing a banknote receiver, an automated vending machine or a teller machine having the function of authenticating, receiving and withdrawing the valuable document 3, and is applicable to all countries. Use of paper documents, securities (such as checks, money orders, stocks, ownership, return tickets or gift certificates) or security documents (such as ID cards, passports, driver's licenses or passports).

When the user inserts the value document 3 into the socket 111 of the panel 11 of the main body 1, the value document 3 can be entered into the channel 20 of the receiving device 2 until the value document 3 is displaced to any of the sensing modules 22. The position of the device 222 triggers the sensor 222 to detect that there is a value document 3 input in the channel 20, and the motor 231 of the transmission device 23 is activated to operate synchronously and is driven to drive the wheel set at the upper and lower sides of the channel 20. 232 to drive the value document 3 to the position of the identification device 24, and then the light emitter 241 and the light receiver 242 cooperate with the optical module 243 and the control module 22 to perform the identification operation of the value document 3; however, if the identification device 24 According to the result of the comparison, it is judged that the value document 3 is In the case of a genuine banknote, the transmission device 23 causes the storage device 25 displaced by the value document 3 to the rear of the channel 20 to be pressed into the storage cassette 252 by the pressing mechanism 251 to perform the receiving operation. If the value document 3 is determined based on the comparison result, When a counterfeit banknote is issued, the value document 3 is caused to exit toward the socket 111 of the panel 11.

In the process of identifying the value document 3, the light emitter 241 of the identification device 24 can emit light of different wavelengths, and is incident on the inside of the channel 20 of the seat body 21 through the light transmitting portion 213 through the through hole 2401 of the casing 240. The light is sequentially passed through the measured area on the value document 3, the other transparent portion 213, and the through hole 2401 of the housing 240, so that light is incident on the first optical element 2431 of the optical module 243 for refraction or reflection. And concentrating the light incident on the second optical element 2432, concentrating and condensing according to a predetermined curvature, reducing at a point to the third optical element 2433, and then reflecting by the third optical element 2433 to a predetermined area or designation of the light receiving body 242 When the position is received, the light receiving body 242 cooperates with the control module 22 to sense the transmittance of the light source or the light transmittance of the reflective light passing through the tested area of the document of value 3 or its own ink, and After the preset values are compared, the authenticity of the value document 3 is determined.

Therefore, the present invention is directed to the identification device 24, which can use the light emitter 241 to emit a plurality of point light sources, linear light sources or surface light sources to penetrate the measured area on the value document 3 or to be reflected by the surface of the value document 3. The light is collected by the optical module 243 through at least three refractions or reflections and concentrated on one light receiving body 242 for receiving, and then the light receiving body 242 cooperates with the control module 22 to record the luminous flux information of the light source signal. In order to identify the authenticity of the value document 3, if the light emitter 241 emits a plurality of point light sources, and the information received by the light receiver 242 receives the light source signal, the plurality of light receivers can be changed. The number of 242 is reduced to one light receiving body 242, so that the number of light receiving bodies 242 can be reduced to reduce the cost; however, if the light emitting body 241 emits a linear light source or a surface light source, the light receiving body 242 receives the light source. The information amount of the signal is relatively reduced, so that the speed of the identification can be increased, and the number of the light emitter 241 and the light receiving body 242 can be reduced to greatly reduce the cost, and the number of the light emitter 241 and the light receiver 242 can be effectively solved. Too much is derived from the problem of occupying volume and space configuration, and can change the predetermined curvature to reflect the light source to a predetermined area, so as to increase the flexibility of the overall mechanism design, thereby simplifying the number of component settings, properly arranging the overall space configuration, and cost more. For low cost.

However, the first optical component 2431 of the optical module 243 of the identification device 24 may be a lens, a mirror or a mirror, and reflect or refract the light source emitted by the light emitter 241 and irradiated onto the value document 3 to the second. At the optical element 2432, the second optical element 2432 can be a planar mirror, a spherical mirror or a concave mirror concentrated and concentrated to a third optical element 2433 according to a predetermined curvature, and the third optical element 2433 can be A lens, a mirror or a mirror is reflected or refracted to a predetermined area or a designated position of the light receiving body 242 for receiving. However, the type and type of optical components used in the optical module 243 are many, and the actual requirements can be seen. The number and position of the optical module 243 are selected and changed, so that the light source emitted by the light emitter 241 can be collected by the optical module 243 with a predetermined curvature and a light path to collect the light to the light receiving body 242 for use. And the simple modifications and equivalent structural changes of the contents of the drawings shall be included in the scope of the patent of this creation and shall be combined with Chen Ming.

Please also refer to the third, fourth and sixth figures, which are respectively a side cross-sectional view of a preferred embodiment, a partial enlarged view of the third figure, and a light of the identification device of a further preferred embodiment. A schematic diagram of the line path, as clearly seen in the figure, wherein the outer surface of the light-emitting body 241 of the identification device 24 is covered with a lens array 244 at the perforation 2401 of the housing 240, and the lens array 244 is further provided by the lens array 244. The light emitted by the light emitter 241 is refracted to form parallel light parallel to the optical axis, and then incident on the inside of the channel 20 of the base 21 by the light transmitting portion 213, so that the light can be irradiated onto the value document 3 to cover all the tested. The area is either reflected by the surface of the document of value 3 to improve the accuracy and stability of its identification.

The above detailed description is intended to illustrate a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and other equivalents and modifications may be made without departing from the spirit of the invention. Changes are to be included in the scope of patents covered by this creation.

In summary, the above-mentioned valuable document receiving device can achieve its efficacy and purpose. Therefore, this creation is a practical and excellent creation, which is in line with the application requirements of the new patent, and the application is submitted according to law. The case will be granted as soon as possible to protect the hard work of the new creators. If there is any doubt in the bureau, please do not hesitate to give a letter, and the new creators will try their best to cooperate with them.

1‧‧‧ Subject

11‧‧‧ panel

111‧‧‧ socket

2‧‧‧ receiving device

20‧‧‧ channel

21‧‧‧ body

211‧‧‧First base

212‧‧‧Second base

213‧‧‧Transmission Department

2131‧‧‧Dust cover

22‧‧‧Control Module

221‧‧‧ boards

222‧‧‧ sensor

232‧‧‧Drive wheel set

24‧‧‧ Identification device

240‧‧‧shell

2401‧‧‧Perforation

241‧‧‧Light emitters

242‧‧‧Light receiver

243‧‧‧Optical module

2431‧‧‧First optical component

2432‧‧‧Second optical component

2433‧‧‧ Third optical component

3‧‧‧Value documents

Claims (10)

A value document receiving device includes a main body and a receiving device, wherein the main body is positioned with a receiving device, and a channel for inserting a value document is formed inside the seat body of the receiving device, and the inside of the seat body corresponds to The transmission device is provided with a control module and a displacement device capable of driving the value document to the position of the identification device, wherein the identification device comprises at least one light emitter, a light receiver and a light emitter and An optical module on a light path between the light receiving bodies, when the light source emitted by the light emitting body penetrates the measured area on the value document or is reflected by the surface of the value document, the light can pass through the light The optical module reflects and concentrates on one of the light receiving bodies for receiving, and then the light receiving body records the luminous flux information of the light source signal. The value document receiving device of claim 1, wherein the front panel of the main body has a socket for inserting the value document therein, and the base of the receiving device is the first base. The base and the second base are separately formed, and a passage connecting the socket of the panel is formed between the first base and the second base. The value document receiving device of claim 1, wherein the seat of the receiving device is located at an inner wall surface of the channel and has a light transmitting portion corresponding to the identifying device, and the light emitting body and the light of the identifying device At least one perforation is provided on the housing of the receiving body and the outer cover of the optical module. The value document receiving device according to claim 3, wherein the light-emitting body of the identification device is covered by a housing, and the light-emitting body is further provided with a light that is scattered by the light-emitting body. A lens array of parallel light parallel to the optical axis, and the lens array injects light into the channel of the body to illuminate the value document. The value document receiving device of claim 1, wherein the optical module of the identification device has a light that can be emitted from the light emitter by condensing or reflecting at least three times to concentrate the light receiving. The first optical element, the second optical element, and the third optical element that receive the predetermined area or the specified position. The value document receiving device of claim 5, wherein the first optical component of the optical module is a lens, a mirror or a mirror. The value document receiving device of claim 5, wherein the second optical component of the optical module is a planar reflection having a predetermined curvature for concentrating light to be concentrated at a point to the third optical component. Mirror, spherical mirror or concave mirror. The value document receiving device of claim 5, wherein the third optical component of the optical module is a lens, a mirror or a mirror. The value document receiving device of claim 1, wherein the light emitting body of the identifying device is a high power light emitting diode, a laser diode or a light tube. The value document receiving device according to claim 1, wherein the light receiving body of the identification device is a photosensitive diode (PD), a phototransistor (PT), a complementary metal oxide semiconductor (CMOS), and a charge coupled device. (CCD) or reflective/transmissive optical sensor.