JP3135140U - Lens module to prevent electromagnetic interference and electrostatic interference - Google Patents

Abstract

A lens module for preventing electromagnetic interference and electrostatic interference of a classifier is provided.
A lens base is fixed on a circuit board, and a plurality of perforations are provided in the lens base. The lens base is manufactured from a conductive material, or a conductive layer is plated on the outer edge surface. Is done. The lens set 2 is fixed above the lens base 1, and a plurality of identification members 51 are electrically connected to the circuit board 5, and the plurality of identification members 51 are located at the bottom of the perforation 12 of the lens base 1. Corresponds to the upper lens set 2. An earth portion 52 is installed around the plurality of identification members 51, and the earth portion 52 and the conductive material of the lens base 1 form an earth circuit, thereby forming an electromagnetic shield on the outer edge of the identification member 51 and further accumulating it. The static electricity is absorbed and guided to the ground portion 52 of the circuit board 5 to be removed.
[Selection] Figure 2

Description

  The present invention relates to a lens module that prevents electromagnetic interference and electrostatic interference, and more particularly, to a lens module that is used in a discriminator to identify bills, securities, or certificates.

  With the development of science and technology, vending machines such as card vending machines, ticket vending machines or currency exchange machines are installed in many public places to realize the convenience and speed required by modern people. Vending machines not only save labor costs significantly, but also provide users with a lot of convenience. Coin and bill validators are used in current vending machines.

  Since the beginning of the monetary economy, the issue of counterfeit money has been a headache for sellers and consumers, and as computer technology has advanced, computers have been used to scan, copy and print banknotes to generate counterfeit banknotes. Since it has become easier to manufacture, various anti-counterfeit technologies have been applied to banknotes currently on the market. As visible parts, consumers can easily identify genuine banknotes in materials, inks and patterns, etc., and are equipped with elaborate anti-counterfeit technology that cannot be identified with the naked eye. The characteristics of various banknotes are identified by various light beams generated from the identification members, and the face value and authenticity of the banknotes are determined.

  In order to cope with the development of vending machines, it is necessary to solve the problem of signal interference caused by the electromagnetic effects received during the identification in precision banknote discriminators. Generally, the cause of noise interference affecting the discriminators is large. There are two. One is electromagnetic interference from each electronic element of the classifier, and the other is electromagnetic interference from the outside such as a cellular phone signal or wireless radio wave communication. Usually, the identification machine installed in the vending machine performs light source identification with respect to the forgery prevention characteristic of the banknote, enlarges the detected numerical value acquired by the receiver after the identification, and determines whether the banknote is authentic. However, when noise is generated due to external high-frequency radio wave interference when the discriminator performs discrimination, the receiver will amplify the interference signal and perform false detection, so the industry improves how to solve this problem It was a problem that was seeking.

  Electric charges are generated and stored under certain circumstances, whether they are conductors or nonconductors, and almost all substances generate static electricity. In a vending machine, when bills, securities or certificates (and IC cards, etc.) are inserted into an internal identification machine, most of them introduce the bills, securities or certificates by rollers and authenticate Or check the face value. However, since the casing or roller in the discriminator is made of an insulating material (for example, plastic or rubber), it easily generates static electricity due to friction with banknotes, securities or certificates, and the potential of the static electricity is 10 KV. Also reach. The amount of accumulated static electricity is related to the driving speed of the roller. The faster the roller rotates, the faster the electrostatic charge that is generated, and this type of discriminator has the following drawbacks when used.

  1. After long use, static electricity generated by friction between rollers and banknotes, securities or certificates will not be accumulated and released in large quantities on the plastic casing. The chip element is damaged due to electrostatic interference, and the accuracy of the waveform signal of the discriminator is affected. Also, the discriminator may be affected by external electromagnetic interference, and if the discriminator misdetects by amplifying noise, the discriminating accuracy may decrease or the operation may be stopped due to a discriminating error. There is also a possibility, and for a vending machine without a manager, a long shutdown will cause a significant loss to the merchant.

  2. If the vending machine sells tobacco, alcohol, drugs or other regulated goods, it is necessary to check the age or identity of the consumer, so the identification machine can be used to identify and purchase the consumer certificate Check whether or not. In this certificate identification process, the relevant data is stored in the memory of the classifier. The data may be useful information when the police track the suspected crime, and it is possible to know the purchase time, the purchase place or the purchased product. If the internal memory is destroyed by electrostatic interference or electromagnetic interference, the important data will be lost.

  3. When a large amount of static electricity accumulates and then discharges, the electronic elements and circuit boards inside the identification device are damaged by electric shock, the life is shortened, the memory is destroyed, and important stored data is lost. Repair costs.

  4). The discriminator is destroyed by the electrostatic discharge phenomenon, or a flammable gas or combustible material (for example, banknotes) is burned by the spark generated by the discharge. Fire or explosion may occur and personnel or property may be damaged.

  Therefore, how to solve the above-mentioned drawbacks of the prior art, perform accurate and stable identification of banknotes, securities or certificates, and absorb a large amount of static electricity in the limited space of the identification machine. Whether or not to solve the defect that static electricity interferes with signal identification by installing equipment to prevent electromagnetic interference has been a matter of improvement in the industry.

In view of the above-mentioned drawbacks, the present inventor collected related materials, and after many years of experience and many trial productions, finally devised a lens module for preventing electromagnetic interference and electrostatic interference according to the present invention.
Japanese Patent Laid-Open No. 06-45090 Japanese Patent Laid-Open No. 2002-302286

A first object of the present invention is that a lens base having conductive characteristics is fixed above an identification member to shield electromagnetic waves and remove static electricity, and electromagnetic noise is amplified by the optical receiver of the identification member, and the accuracy of the waveform at the time of identification Prevents damage to the electronic device, and at the same time, directly removes a large amount of static electricity accumulated in the discriminator to prevent electric shock to electronic elements during discharge. , Increase accuracy and durability, reduce false detection rate and failure rate of identification members, increase counterfeit money recognition rate of vending machine without administrator, and do not stop operation for a long time due to failure The object is to provide a lens module that prevents electromagnetic interference and electrostatic interference.
The second object of the present invention is to identify the bill, securities or certificate introduced by the transmission device, and the transmission device and the bill, securities or certificate rub against each other to generate static electricity on the plastic casing. It is not accumulated and discharged, and when the static electricity is accumulated to a certain extent, it is discharged and the identification member is easily affected by electrostatic interference, resulting in false detection or failure of bills, securities or certificates. An object of the present invention is to provide a lens module that absorbs static electricity accumulated by a conductive material and prevents electromagnetic interference and electrostatic interference that guides and removes static electricity to a ground portion of a circuit board.
The third purpose of the present invention is to check the age or identity of the consumer when the vending machine sells tobacco, alcohol, drugs or other regulated products and store the data in the memory of the identifier. In order to prevent the memory from being damaged by electromagnetic noise interference or electrostatic interference, it is necessary to check whether it is available for purchase by consumers. It is an object of the present invention to provide a lens module that eliminates electromagnetic interference and electrostatic interference that prevents the loss of important data. The data identified and stored in the process of identifying the certificate may be useful information when the police track the suspected criminal and knowing the record of relevant data such as time of purchase, place of purchase or product purchased Can do.

The fourth purpose of the present invention is that when a large amount of static electricity is accumulated and the battery is discharged, the electronic elements and circuit board inside the discriminator are damaged by electric shock, the life is shortened, and the memory is destroyed. Therefore, important stored data will be lost, so the static electricity accumulated in large quantities will be absorbed by the conductive material of the lens base, and the static electricity will be guided to the grounding part of the circuit board to be removed. It is an object of the present invention to provide a lens module that prevents electromagnetic interference and electrostatic interference that extends the service life of a substrate and reduces the failure rate and repair cost.
The fifth object of the present invention is that the discriminator is destroyed by an electrostatic discharge phenomenon, or a combustible gas or a combustible substance (for example, a bill) is burned by a spark generated by the discharge, so that a conductive layer is plated on the surface. We provide a lens module that removes a large amount of static electricity with a lens stand and prevents electromagnetic interference and electrostatic interference that prevents the vending machine from causing fire or explosion due to sparks and damaging people and property. There is to do.
The sixth object of the present invention is that the volume of the discriminator is reduced and its internal space is limited, but a large amount of static electricity is generated in the friction part between the transmission device and banknotes, securities or certificates. Therefore, by removing a large amount of static electricity by plating a conductive layer on the surface of the lens base of the lens module to be identified, there is no need to install a static eliminator or grounding member outside, and the original member position Another object of the present invention is to provide a lens module that prevents electromagnetic interference and electrostatic interference that can remove a large amount of static electricity without changing the space.

  In order to solve the above-mentioned problems, the invention of claim 1 is a lens module that is used in a discriminator and discriminates bills, securities or certificates, and a lens board of the lens module is provided in advance. The lens base is provided with a plurality of perforations, the surface of the lens base is provided with a conductive layer, the lens set of the lens module is fixed above the lens base, and the plurality of identification members are provided on the circuit board. Electrically connected, the plurality of identification members are located at the bottom of the perforation of the lens base, correspond to each other with the lens set above the perforation, and a grounding portion is installed around the plurality of identification members on the circuit board. A lens module for preventing electromagnetic interference and electrostatic interference, characterized in that an earth circuit is formed by the portion and the conductive layer of the lens base.

  The invention according to claim 2 is the lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, characterized in that an annular tank on which the lens set is fixed is projected on the upper surface of the lens base. .

  The invention of claim 3 is provided with a screwing portion that is screwed and fixed onto the circuit board on the outer side of the lens base, a screwing hole is provided in the grounding portion of the circuit board, and the bolt is provided from the back of the circuit board. 2. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the lens module penetrates the screwing hole and is screwed and fixed in the screwing portion.

  According to a fourth aspect of the present invention, the lens set includes a flat base portion, a plurality of arranged arc convex portions are provided on the upper surface of the base portion, and a plurality of flat portions corresponding to the arc convex portions are provided on the lower surface of the base portion. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the flat portion has a cylindrical shape and is fixed in a corresponding perforation.

  According to the fifth aspect of the present invention, an upper lid is installed above the lens set, forms a module structure with the lens base, a hooking piece curved downward is provided on the side of the upper lid, and a hooking piece is provided on the surface of the lens base side. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein a hooking portion corresponding to is projected.

  The invention according to claim 6 is characterized in that a plurality of arranged through holes are provided on the surface of the upper lid, and the plurality of through holes correspond to the arc convex portions of the lens set. It is a lens module that prevents interference.

  The invention according to claim 7 is characterized in that the conductive layer is made of a material having excellent conductivity such as zinc, nickel, copper, other metals or metal alloys, and prevents electromagnetic interference and electrostatic interference according to claim 1. This is a lens module.

  The invention according to claim 8 is the lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the plurality of identification members are LEDs or optical receivers.

  The invention according to claim 9 is the lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the connecting legs of the plurality of identification members and the ground portion of the circuit board are separated.

  The invention of claim 10 is characterized in that the lens module is installed on both sides of the passage of the discriminator, and bills, securities or certificates pass above the lens set. It is a lens module that prevents

  The invention of claim 11 is a lens module that is used in a discriminator and discriminates banknotes, securities or certificates. The lens base of the lens module is fixed on a circuit board provided in advance, and the lens base is electrically conductive. It is manufactured from material, and a plurality of perforations are provided inside the lens base, the lens set of the lens module is fixed above the lens base, a plurality of identification members are electrically connected on the circuit board, and the plurality of identification members are Located at the bottom of the perforation of the lens base and corresponding to the lens set above the perforation, a grounding part is installed around the plurality of identification members on the circuit board, and the lens base manufactured from the grounding part and the conductive material A lens module for preventing electromagnetic interference and electrostatic interference, characterized in that an earth circuit is formed.

  The invention according to claim 12 is the lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein an annular tank on which the lens set is fixed is projected on the upper surface of the lens base. .

  The invention according to claim 13 is provided with a screwing portion that is screwed and fixed onto the circuit board on the outer side of the lens base, a screwing hole is provided in the grounding portion of the circuit board, and a bolt is provided from the back of the circuit board. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the lens module penetrates the screwing hole and is screwed and fixed in the screwing portion.

  According to a fourteenth aspect of the present invention, the lens set includes a flat base portion, a plurality of arranged arc convex portions are provided on the upper surface of the base portion, and a plurality of flat portions corresponding to the arc convex portions are provided on the lower surface of the base portion. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the flat portion has a cylindrical shape and is fixed in a corresponding perforation.

  According to the fifteenth aspect of the present invention, an upper lid is installed above the lens set, forms a module structure with the lens base, and a hooking piece curved downward is provided on the side of the upper lid, and a hooking piece is provided on the surface of the lens base side. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein a hooking portion corresponding to is projected.

  The invention according to claim 16 is characterized in that a plurality of arrayed through holes are provided on the surface of the upper lid, and the plurality of through holes correspond to the arc convex portions of the lens set. It is a lens module that prevents interference.

  The invention according to claim 17 prevents electromagnetic interference and electrostatic interference according to claim 11, wherein the conductive material is a material having excellent conductivity such as zinc, nickel, copper, other metals or metal alloys. This is a lens module.

  The invention of claim 18 is the lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the plurality of identification members are LEDs or optical receivers.

  The invention according to claim 19 is the lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the connecting legs of the plurality of identification members and the ground portion of the circuit board are separated.

  The invention of claim 20 is characterized in that the lens module is installed on both sides of the path of the discriminator, and bills, securities or certificates pass above the lens set. It is a lens module that prevents

  The lens base is manufactured from a conductive material, or a conductive layer is plated on the outer edge surface, and the lens base having conductive characteristics is fixed above the identification member to shield the electromagnetic wave and remove static electricity. Since it is amplified by the optical receiver to prevent the accuracy of the waveform from being affected at the time of identification, at the same time, a large amount of static electricity accumulated in the identification machine is directly removed to prevent electric elements from being bombarded by discharge, The identification accuracy of the identification member for banknotes, securities or certificates can be improved, the stability, accuracy and durability of the identification machine can be increased, and the failure rate can be reduced to prevent the operation from being stopped for a long time due to a failure. .

Embodiments showing the objects, features, and effects of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a perspective view showing a preferred embodiment of a lens module for preventing electromagnetic interference and electrostatic interference according to the present invention. FIG. 2 is a three-dimensional exploded view of the embodiment of the present invention (FIG. 1). FIG. 3 is a three-dimensional exploded view of another embodiment of the present invention. As can be seen from the figure, the lens module of the present invention comprises a lens base 1, a lens set 2 and an upper lid 3.

  An annular tank 11 to which the lens set 2 is fixed is projected on the upper surface of the lens base 1, and a plurality of perforations 12 are provided on the inner surface surrounding the annular tank 11, and a circuit board is provided on the outer side of the lens base 1. 4 is provided, and a hooking portion 14 is provided on one side adjacent to the screwing portion 13. An accommodation portion 15 corresponding to the perforation 12 is provided on the lower surface of the lens base 1, and a fixing portion 16 fixed on the circuit board 5 extends around the lower surface of the lens base 1.

  The lens set 2 is fixed in the annular tank 11 of the lens base 1, and the lens set 2 includes a flat base portion 21, and a plurality of arranged arc convex portions 22 are provided on the upper surface of the base portion 21. A plurality of flat portions 23 corresponding to the circular arc convex portions 22 are provided on the lower surface of the base portion 21, and the flat portions 23 are cylindrical and are fixed in the corresponding perforations 12.

  The upper lid 3 is installed above the lens set 2 and forms a module structure with the lens base 1. A plurality of arranged through holes 31 are provided on the upper surface of the upper lid 3, and the plurality of through holes 31 are arcs of the lens set 2. This corresponds to the convex portion 22. A storage tank 32 communicating with the through hole 31 is formed on the lower surface of the upper lid 3. The storage tank 32 stores the annular tank 11 and the lens set 2 fixed in the annular tank 11 correspondingly. On both sides, engaging pieces 33 that are bent downward and are engaged with the engaging portions 14 are provided.

  When assembling the above-described members, first, the conductive layer 4 is plated on the surface of the lens base 1. The conductive layer 4 is a material having excellent conductivity such as zinc, nickel, copper, other metals or metal alloys. Thereafter, the lens set 2 is press-fitted into the annular tank 11 of the lens base 1 and fixed, the flat portion 23 of the lens set 2 is inserted into the corresponding perforation 12 of the lens base 1 and fixed, and the upper lid 3 is fixed to the lens set 1. 2, the lens set 2 fixed in the annular tank 11 is received in the receiving tank 32 of the upper lid 3 by engaging the engaging pieces 33 on both sides of the upper lid 3 with the engaging portion 14 of the lens base 1. In this way, the arc-shaped convex portion 22 of the lens set 2 can be made to correspond to the through hole 31 of the upper lid 3, and the lens module of the embodiment of the present invention is formed.

  FIG. 2 is an exploded view showing an embodiment of the present invention. FIG. 4 is a sectional view showing a state in which the embodiment of the present invention is installed on a circuit board. As shown in the figure, when using the lens module of this embodiment, the lens base 1 is first installed on the circuit board 5. A plurality of SMT type identification members 51 are arranged on the circuit board 5. The identification member 51 is an LED or an optical receiver, and a ground portion 52 is provided around the plurality of identification members 51, and the connection leg 511 of the identification member 51 is separated from the ground portion 52. After fixing the fixing portion 16 of the lens base 1 to the predetermined fixing hole 53 on the circuit board 5, a plurality of identification members 51 can be installed in the corresponding accommodating portions 15 of the lens base 1, and the lens base One screwing portion 13 can correspond to the screwing hole 54 on the circuit board 5. The position of the screw hole 54 can be opened at the position of the ground portion 52.

  After the lens base 1 is fixed on the circuit board 5, the conductive layer 4 plated on the surface of the lens base 1 can be brought into electrical contact with the ground portion 52 of the circuit board 5, and the bolt 55 is connected to the circuit board 5. The screw hole 54 penetrates from the back and is screwed and fixed in the screw part 13 of the lens base 1. In this way, the conductive layer 4 and the ground portion 52 are in close contact with each other, and when the identification member 51 performs the identification operation of bills, securities, or certificates 7, a large amount is accumulated by the conductive layer 4 on the surface of the lens base 1. Static electricity is absorbed and guided to the ground portion 52 of the circuit board 5 to be removed, a large amount of static electricity is accumulated and discharged, and the identification member 51 is prevented from receiving interference, and at the same time, electromagnetic interference from outside is shielded. Thus, it is possible to prevent the waveform error of the identification signal from occurring, and to improve the stability, accuracy and durability of the identification member.

The lens base 1 of the embodiment of the present invention can be manufactured directly from a conductive material without plating the conductive layer 4, and the conductive material has excellent conductivity such as zinc, nickel, copper, other metals or metal alloys. Materials can be used. When the lens base 1 is fixed on the circuit board 5, an earth circuit may be formed by the lens base 1 directly made of a conductive material and the ground portion 52. The plating of the conductive layer 4 can be formed on a part or the whole of the surface of the lens base 1 according to necessity or design. When the lens base 1 is fixed to the circuit board 5, the conductive layer on the surface of the lens base 1 is used. 4 may contact the ground portion 52 to form a ground circuit.
The above-described embodiment shows a preferred example of the present invention, and does not limit the scope of the present invention. The simple modification using the contents of the specification and drawings of the present invention and the change of the equivalent effect are described. Are all included in the present invention.

  FIG. 5 is a cross-sectional view showing a state in use of the embodiment of the present invention. As shown in the figure, the lens module of the present invention is mainly used for identifying bills, securities or certificates 7. The identification member 51 performs authenticity determination and identity recognition on the banknote, securities, or certificate 7 and mainly has a structure in which two lens modules correspond to each other, and one lens module emits light ( The identification member 51 is an LED), and the other lens module receives light (the identification member 51 is an optical receiver). When one identification member 51 (LED) emits light toward the perforation 12 of the lens base 1, the light beam is applied to the flat portion 23 of the lens set 2, and the light beam is projected upward by the refraction action of the lens set 2. The light beams emitted in parallel from the unit 22 are emitted onto the lens set 2 of the other lens base 1, enter the arc convex portion 22 of the lens set 2, and then finally refracted by the lens set 2. On the other hand, the light rays are concentrated from the flat portion 23 and concentrated on the identification member 51 (optical receiver), whereby the intensity of the wavelength of the light source is detected.

  The identification member 51 (that is, the LED) described above can emit pulsed light of various wavelengths, and a plurality of LED chips of different wavelengths can be sealed simultaneously in the LED, and each LED chip has a red wavelength of 615 nm to 635 nm. Since it is possible to irradiate light, 515 nm to 532 nm green light, 460 nm to 475 nm blue light, and stronger 850 nm first infrared light or 940 nm second infrared light, respectively, the LED irradiates differently Wavelength transmitted light can be applied to anti-counterfeiting properties and thickness on banknotes, securities or certificates 7 and by irradiating the same position with pulsed light of different wavelengths, the banknotes, securities or certificates Whether the certificate 7 is true or false can be identified. The bills, securities or certificates 7 further include traveler's checks or securities, and structures and devices that achieve the aforementioned effects are included in the present invention, and all simple modifications and equivalent effect changes are included in the present invention.

  FIG. 6 is a cross-sectional view showing a state in which the embodiment of the present invention is installed in a discriminator. As can be seen from the figure, the lens module of the present invention is mainly used in the identification machine 6 of a general vending machine, and the identification module 6 is provided with a lens module corresponding to the top and bottom having the same structure. A bill, securities or certificate 7 enters from the passage 61, and the bill 62, securities or certificate 7 is sent between the two lens modules by the transmission device 62 for identification. At this time, the identification member 51 on one side (that is, the LED) emits pulsed light of different wavelengths in order, and the pulsed light enters the flat part 23 of the lens set 2 and enters the bill as a parallel light flux from the arc-shaped convex part 22. The surface of the security or certificate 7 is irradiated to form a detection area of a predetermined area, after which the light beam is transmitted from the other surface of the banknote, the security or the certificate 7 and the arc-shaped convexity of the lens set 2 on the other side Enters the unit 22, concentrates in the other identification member 51 (that is, the optical receiver) from the flat part 23 of the lens set 2, generates a signal on the basis of the transmittance of rays of different wavelengths after reception, and outputs the figure Finally, the intensity distribution is detected, and finally, a reference value set inside by a control unit (not shown) in the discriminator 6 is compared with the received transmittance value of each wavelength, so that bills, securities or certifications are obtained. The truth of Proof 7 is analyzed It is.

The judgment method of light source detection is shown below.
As a first determination method, the paper quality of the banknote, the securities or the certificate 7 is discriminated. The bills, the securities or the certificates 7 are irradiated with light of different wavelengths, and the banknotes, the securities or the certificates 7 are irradiated. Since different transmissivities are generated in the detection area on the surface, the authenticity of the bill, the securities or the certificate 7 is judged by comparing the transmissivities of the light beams having different wavelengths with a predetermined value. As the second determination method, ink of banknotes, securities or certificate 7 is used, and specific transmitted light is generated by excitation and filtration of light of different wavelengths, and the specific transmitted light is received. Thus, it can be compared with a predetermined value, and the authenticity of the bill, the securities or the certificate 7 is judged.

Therefore, the embodiment of the present invention has the following advantages.
1. The lens base 1 having conductive characteristics is fixed above the identification member 51 to shield the electromagnetic wave and remove static electricity. The electromagnetic wave noise is amplified by the optical receiver of the identification member 51, and the accuracy of the waveform is affected at the time of identification. At the same time, by directly removing a large amount of static electricity accumulated in the discriminator 6, it is possible to prevent the electronic element from being discharged by electric discharge, and the discrimination rate of the discriminating member 51 to the banknote, securities or certificate 7 is stable. The accuracy, accuracy, and durability are improved, and the false detection rate and failure rate of the identification member 51 are reduced to increase the discrimination rate of counterfeit money of vending machines without managers, so that there is no long-term shutdown due to failure.

  2. If the vending machine sells tobacco, alcohol, drugs or other regulated items, check the consumer's age or identity and store the data in the memory of the identifier 6 to see if the consumer can purchase In order to prevent the memory from being damaged due to electromagnetic noise interference or electrostatic interference, the lens base 1 having a conductive layer 4 plated on the surface can be electromagnetically shielded or subjected to a large amount of static electricity. Perform removal to prevent the loss of important data. The data identified and stored in the process of identifying the certificate may be useful information when the police track the suspected criminal and knowing the record of relevant data such as time of purchase, place of purchase or product purchased Can do.

  3. When a large amount of static electricity is accumulated and the battery is discharged, the electronic elements and the circuit board 5 inside the discriminator 6 are shocked and damaged, the life is shortened, the memory is destroyed, and important stored data is lost. Therefore, a large amount of static electricity accumulated by the conductive layer 4 plated on the surface of the lens base 1 is absorbed, and the static electricity is guided to the ground portion 52 of the circuit board 5 to be removed. The service life of the element and circuit board 5 is extended, and the failure rate and repair cost are reduced.

  4). Since the discriminator 6 is destroyed by an electrostatic discharge phenomenon, or a combustible gas or a combustible material (for example, a bill) is burned by a spark generated by the discharge, a large amount of static electricity is generated by the lens base 1 having a conductive layer 4 plated on the surface. And prevent people and property from being damaged by sparks that cause the vending machine to fire or explode. This is the most important issue to solve, especially for vending machines without managers.

  5. The volume of the discriminator 6 is miniaturized, its internal space is limited, and a large amount of static electricity is generated in the frictional part between the transmission device 62 and the banknote, securities or certificate 7, so that the lens for discrimination By removing the large amount of static electricity generated by plating the conductive layer 4 on the surface of the lens base 1 of the module, there is no need to install a static eliminating device or a grounding member outside, and the original position and space of the member can be changed. Without removing a large amount of static electricity.

  The conductive layer 4 plated on the surface of the lens base 1 is electrically connected to the ground portion 52 on the circuit board 5, and a large amount of static electricity accumulated can be removed by the conductive layer 4 of the lens base 1. The point which raises the identification rate of the identification member 51 of 1 bottom part is the most important technical feature of this invention, The above-mentioned detailed description shows the Example of this invention, and does not restrict | limit the scope of this invention. Rather, all modifications and changes based on the spirit of the present invention are included in the present invention.

It is a perspective view which shows the Example of this invention. FIG. 3 is an exploded view showing an embodiment of the present invention. It is a three-dimensional exploded view showing another embodiment of the present invention. It is sectional drawing which shows the state which installed the Example of this invention on the circuit board. It is sectional drawing which shows the state at the time of use of the Example of this invention. It is sectional drawing which shows the state which installed the Example of this invention in the identification device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Lens stand 11 Annular tank 12 Perforation 13 Screw part 13 Engagement part 15 Accommodation part 16 Fixing part 2 Lens set 21 Base part 22 Arc convex part 23 Flat part 3 Upper lid 31 Through-hole 32 Accommodation tank 33 Engagement piece 4 Conductive layer 5 Circuit Substrate 51 Identification member 511 Connection leg 52 Grounding part 53 Fixing hole 54 Screwing hole 55 Bolt 6 Identification machine 61 Passage 62 Transmission device 7 Banknote, securities or certificate

Claims (20)

A lens module that is used in an identification machine to identify banknotes, securities or certificates,
The lens base of the lens module is fixed on a circuit board provided in advance, a plurality of perforations are provided inside the lens base, a conductive layer is provided on the lens base surface,
The lens set of the lens module is fixed above the lens base,
A plurality of identification members are electrically connected on the circuit board, the plurality of identification members are located at the bottom of the perforation of the lens base, correspond to the lens set above the perforation, and a plurality of identification members on the circuit board A lens module for preventing electromagnetic interference and electrostatic interference, wherein a grounding portion is installed around an identification member, and a grounding circuit is formed by the grounding portion and the conductive layer of the lens base.   The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein an annular tank on which the lens set is fixed protrudes on the upper surface of the lens base.   A threaded portion that is screwed and fixed onto the circuit board is provided on each outer side of the lens base, a screw hole is provided in the ground portion of the circuit board, and a bolt is screwed from the rear surface of the circuit board. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the lens module penetrates through a hole and is screwed and fixed in the screwing portion.   The lens set includes a flat base portion, a plurality of arranged arc convex portions are provided on the upper surface of the base portion, and a plurality of flat portions corresponding to the arc convex portions are provided on the lower surface of the base portion, The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the flat portion has a cylindrical shape and is fixed in the corresponding perforation.   An upper lid is installed above the lens set to form a module structure with the lens base, and a hooking piece curved downward is provided on the side of the upper lid, and the surface of the side of the lens base corresponds to the hooking piece. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the engaged portion is projected.   6. The electromagnetic interference and electrostatic interference according to claim 5, wherein a plurality of arranged through holes are provided on the surface of the upper lid, and the plurality of through holes correspond to arc convex portions of the lens set. Lens module.   2. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the conductive layer is made of a material having excellent conductivity such as zinc, nickel, copper, other metals or metal alloys.   The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the plurality of identification members are LEDs or optical receivers.   2. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 1, wherein the connection legs of the plurality of identification members are separated from the ground portion of the circuit board.   2. The electromagnetic interference and electrostatic interference according to claim 1, wherein the lens modules are installed on both sides of the path of the identification device, and the bills, securities or certificates pass above the lens set. Lens module. A lens module that is used in an identification machine to identify banknotes, securities or certificates,
The lens base of the lens module is fixed on a circuit board provided in advance, the lens base is manufactured from a conductive material, a plurality of perforations are provided inside the lens base,
The lens set of the lens module is fixed above the lens base,
A plurality of identification members are electrically connected on the circuit board, the plurality of identification members are located at the bottom of the perforation of the lens base, correspond to the lens set above the perforation, and a plurality of identification members on the circuit board A lens module for preventing electromagnetic interference and electrostatic interference, characterized in that a grounding portion is installed around an identification member, and a grounding circuit is formed by the grounding portion and a lens base manufactured from the conductive material.   The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein an annular tank on which the lens set is fixed is provided on the upper surface of the lens base.   A threaded portion that is screwed and fixed onto the circuit board is provided on each outer side of the lens base, a screw hole is provided in the ground portion of the circuit board, and a bolt is screwed from the rear surface of the circuit board. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the lens module penetrates a hole and is screwed and fixed in the screwing portion.   The lens set includes a flat base portion, a plurality of arranged arc convex portions are provided on the upper surface of the base portion, and a plurality of flat portions corresponding to the arc convex portions are provided on the lower surface of the base portion, The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the flat portion has a cylindrical shape and is fixed in the corresponding perforation.   An upper lid is installed above the lens set to form a module structure with the lens base, and a hooking piece curved downward is provided on the side of the upper lid, and the surface of the side of the lens base corresponds to the hooking piece. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the engaged portion is projected.   16. The electromagnetic interference and electrostatic interference according to claim 15, wherein a plurality of arranged through holes are provided on the upper lid surface, and the plurality of through holes correspond to arcuate convex portions of the lens set. Lens module.   12. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the conductive material is a material having excellent conductivity such as zinc, nickel, copper, other metals or metal alloys.   12. The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the plurality of identification members are LEDs or optical receivers.   The lens module for preventing electromagnetic interference and electrostatic interference according to claim 11, wherein the connection legs of the plurality of identification members are separated from the ground portion of the circuit board.   The electromagnetic interference and electrostatic interference according to claim 11, wherein the lens module is installed on both sides of the path of the identification device, and the bills, securities, or certificates pass above the lens set. Lens module.

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