TWM530964U - Disposable lens applied in electronic computing device for identification - Google Patents

Description

Disposable lens for electronic computing devices for identification

The present invention is an optical lens, especially a disposable lens that is applied to an electronic computing device for identification and has a convenient carrying and low cost.

Conventionally, an optical image expanding apparatus for expanding an image and being usable for identification is obtained by amplifying an image of an identification unit through a microscope or a lens, and thereafter identifying the identification unit. At present, the microscope or lens of the optical image expansion instrument sold on the market is molded by open molding, and the other connecting members are more complicated, which makes the process of manufacturing the optical image expanding instrument more complicated and time-consuming to manufacture. This in turn causes the cost of optical image expansion instruments to be high.

In addition, since the overall volume of the optical image expanding instrument is often too large, it is inconvenient for the user to carry it to the outdoors, and there is a lack of recognition of the identification unit immediately. In order to solve the problem of inconvenient carrying, the user will sample and seal the identification unit, and then use the optical image expansion instrument to identify the identification unit in the indoor environment.

However, the identification unit may change the initial parameters of the identification unit due to environmental factors such as sunlight during the sealing process or the transportation process. The user cannot obtain the most accurate and accurate data, and the identification unit may not be correctly judged. Authenticity.

Based on this, the conventional optical image expansion instrument has a complicated manufacturing process and a high cost, and the overall volume is too large, and there is a lack of recognition of the identification unit immediately, so it is necessary to improve it.

The purpose of the present invention is to provide an optical structure that can be combined with an electronic computing device and has a simple structure and a small size, is convenient to carry and low in cost, and can be immediately applied to an electronic computing device to instantly recognize the identification unit. .

According to the foregoing objective, the present invention proposes a disposable lens for use in an electronic computing device for identification, comprising a substrate, a lens and a fixing glue. The lens is disposed at one end of the substrate, and the lens corresponds to an image capturing unit of an electronic computing device. The fixing glue is attached to one side of the substrate to fix the substrate to the electronic computing device.

Further, the lens is set to be a cured polymer.

Further, the substrate is disposed between the image capturing unit and the lens.

Further, an identification unit is further included, and the image capturing unit is aligned with the identification unit via the lens.

Further, the identification unit is configured as an anti-counterfeiting structure, and the anti-counterfeiting structure includes at least one micro-engraving piece.

Further, the anti-counterfeiting structure includes at least one-dimensional barcode or at least one two-dimensional barcode.

Further, the identification unit is set as a biochemical sheet.

Further, the biochemical sheet comprises a test area and a calibration area.

Further, the calibration area includes at least one comparison reference object and at least one focus target object.

Further, the electronic computing device includes an application that is electrically connected to the image capturing unit.

The characteristics of this creation are:

1. The creation of the disposable lens has the advantages of simple structure and small carrying capacity, and the user can immediately identify the identification unit, thereby improving the loss of the conventional instrument which is large and inconvenient to carry and cannot be recognized immediately.

2. The lens structure of the disposable lens is simple and can reduce the manufacturing cost, which is different from the complicated and costly manufacturing process of the conventional precious instrument, thereby having relative advantages in volume, convenience and cost. .

3. The creation of the disposable lens as a light and thin form, the use does not have too much conflict with the carrying, and does not cause too much trouble for the user, which is different from the conventional optical image expansion instrument volume. Too big to carry a saved form.

4. The creation of the fixing glue enables the consumer to more conveniently and quickly fix the disposable lens on the electronic computing device and align the lens with the image capturing unit, which can then be used to identify the biochemical The sheet or the anti-counterfeiting structure is used to achieve the convenience of the front work.

In the following, together with the attached drawings, it is more convenient to understand how the structure of the creation is combined and used. It is easier to understand the purpose, technical content, characteristics and effects of the creation.

Please refer to FIG. 1 to FIG. 3, which is a disposable lens applied to an electronic computing device for identification. As shown in the figure, the combined structure of the present invention in combination with a disposable lens 2 on an electronic computing device 1 having an image capturing unit 10 can be used to identify an identification unit 3; wherein the disposable lens 2 includes a The substrate 20, a lens 21 and a fixing glue 22. The lens 21 is provided at one end of the substrate 20, and the lens 21 corresponds to the image capturing unit 10 of the electronic computing device 1. The fixing glue 22 is attached to the side of the substrate 20 for fixing the substrate 20 to the electronic computing device 1.

In the embodiment of the present invention, the lens 21 is disposed on the side of the substrate 20 and aligned with the image capturing unit 10, so that the substrate 20 is disposed between the image capturing unit 10 and the lens 21. The illustrated embodiment is not intended to limit the creation of the image, as long as the recognition unit 3 can align the image capturing unit 10 with the lens 21 to display the image displayed by the recognition unit 3 in the display unit 11 of the electronic computing device 1. The image capturing unit 10 can be set as the front lens of the electronic computing device 1 as shown in the drawing, or can be set as the rear lens of the electronic computing device 1 as shown in FIG. In addition, the substrate 20 of the present invention is applied to a transparent or transparent plastic sheet; and the lens 21 is applied to a curable polymer, and the cured polymer can be an epoxy resin, an ultraviolet curing adhesive, or a thermoplastic. Plastics, etc., to achieve low cost and mass production efficiency.

According to the above, the disposable lens 2 has the advantages of simple structure and small size and convenient carrying, so that the user can operate the identification unit 3 at any time or with one hand, thereby improving the volume of the conventional instrument. The lack of easy to carry and the lack of instant identification, this creation has a relative advantage in terms of size, convenience and cost. In the embodiment of the present invention, the electronic computing device 1 can be applied to a smart mobile device having a handheld image capturing and computing function, and can also be a notebook computer 6 or a tablet computer as shown in FIG. Electronic computing devices such as the iPad are applicable.

For the continuation, please refer to FIG. 4 to FIG. 6 , the identification unit 3 can be set as the biochemical sheet 4 or the anti-counterfeiting structure 5 in practical applications. First, FIG. 4 is a view for explaining an embodiment in which the identification unit 3 is a biochemical sheet 4 including a test area 40 at one end of the biochemical sheet 4 and a bit on the biochemical sheet 4. At one end and adjacent to the calibration zone 41 of the test zone 40; in operation, the object to be identified is first added to the test zone 40 of the biochemical sheet 4 to allow the analyte to be mixed with the biochemical reactant on the test zone 40, thereafter Aligning the test area 40 of the biochemical sheet 4 with the calibration area 41, the test area 40 and the calibration area 41 pass the lens 21, and the image capturing unit 10 allows the image capturing unit 10 to pass the image capturing unit 10 Scanning the change result of the test area 40 and the calibration area 41 and expanding the image thereof, and then displaying the expanded image through the display unit 11, the user can click between the enlarged change result and the calibration area 41. The difference is compared. Among them, the biochemical reactants in the test zone 40 can be based on the metal component content or pH value of the pollutants in the environment, or a special analyte in the physiological fluid of the human body such as blood, urine or saliva (such as glucose). , cholesterol, ketone bodies or specific proteins) awaiting identification for the application.

Further, the calibration area 41 further includes at least one comparison reference object (not shown), and the comparison reference object is embedded in the calibration area 41 according to the type of the object to be detected. The reference comparison data, more specifically, when the biochemical sheet 4 is to be used to detect the environmental metal component content or the pH value, the corresponding alignment value or table is embedded in the calibration area 41 as a comparison. The standard is; when it is to detect human physiological parameters such as blood sugar in blood, urine or saliva, the corresponding control data is similarly embedded in the calibration area 41, and so on.

Please repeat the picture shown in Figure 4, the difference between the test area 40 and the calibration area 41 can be manually identified, or identified by application automation. In an embodiment, the electronic computing device 1 includes an application (not shown) electrically connected to the image capturing unit 10, and automatically determines the change result of the test area 40 and the calibration through the application. Differences between zones 41 are compared. Even calibration can be performed through the application to improve accuracy. The calibration area 41 further includes at least one focus target object (not shown). The focus target object can be applied to a plurality of thick and thin stripes or square lattices or to align objects such as object alignment or light source or white balance. Due to the screen display or brightness setting parameters of different brands or models of electronic computing devices, or the various data settings (such as color temperature and white balance) of the image capturing unit are different. If the image capturing unit 10 adopts the non-autofocus mode, the image capturing unit 10 may have a different degree of accuracy when the biochemical sheet 4 is captured, and the setting of the focusing target object can be made by the creation of the image. The electronic computing device 1 controls the image capturing unit 10 through the application program, and causes the image capturing unit 10 to perform alignment or image focusing or white balance calibration on the biochemical sheet 4 to improve detection accuracy.

Please refer to FIG. 5 and FIG. 6 for explaining the implementation manner of the identification unit 3 for anti-counterfeiting identification; when a manufacturer develops a product requiring anti-counterfeiting identification, the anti-counterfeiting structure 5 is adhered to the product. When the user buys the product, the authenticity of the product can be discriminated according to the anti-counterfeiting structure 5. The security structure 5 includes a body 50, a transparent gel 51 disposed at one end of the body 50, and at least one micro-carving 52 disposed inside the transparent gel 51. The micro-engraving piece 52 is provided with a recognizable pattern or a character or a number. The transparent colloid 51 of the anti-counterfeiting structure 5 is aligned with the lens 21, so that the micro-engraving piece 52 passes through the lens 21, and the image capturing unit 10 causes the image capturing unit 10 to scan the image of the micro-engraving piece 52 and The image is expanded, and then the image expansion is displayed via the display unit 11 for the user to distinguish the authenticity of the product based on the image result.

Please refer to FIG. 5 and FIG. 6 . In an embodiment, the micro-carving 52 can be replaced by a bar code. The anti-counterfeiting structure 5 includes at least one-dimensional bar code 53 or at least one QR code (Quick). Response Code) 2D barcode 54. In practical applications, the micro-carving piece 52 or the one-dimensional bar code 53 or the two-dimensional bar code 54 can be used alternatively or in combination. In the embodiments listed in the present application, the combination is used as an example, and the combination is adopted. Can double check whether the product is a counterfeit. The one-dimensional bar code 53 or the two-dimensional bar code 54 can be disposed adjacent to the micro-carving piece 52, or the micro-carving piece 52 is disposed in the one-dimensional bar code 53 or the two-dimensional bar code 54. In the embodiment of Fig. 5 of the present invention, the micro-engraving piece 52 is disposed adjacent to the one-dimensional bar code 53. In the embodiment of Fig. 6 of the present invention, the two-dimensional bar code 54 is disposed in the two-dimensional bar code 54, but Not limited to this.

More specifically, the image capturing unit 10 enlarges the micro-engraving piece 52 or the one-dimensional bar code 53 or the two-dimensional bar code 54 to allow the consumer to manually identify the product, and more accurately determine the trueness of the product through multiple sets of anti-counterfeit objects. false. In an embodiment, the application can automatically identify the micro-carving 52 or the one-dimensional bar code 53 or the two-dimensional bar code 54 to reduce the error of human judgment.

In addition, the one-dimensional barcode 53 or the two-dimensional barcode 54 can also be used as the authorized identity verification of the product. After the product is purchased, the user can scan the security structure 5 through the image capturing unit 10 of the electronic computing device 1. After that, users can log in to their website to authenticate, register or authorize the product. If someone else counterfeits the certified product afterwards, if the consumer purchases counterfeit goods and wants to perform the certification, the system will display that the product has been certified, registered or authorized, and the consumer can know that the product is a counterfeit.

Because the disposable lens 2 has the advantages of simple structure and low cost, the related developer can use the biochemical sheet 4 or the anti-counterfeiting structure 5 respectively with the disposable lens 2 in the application of the actual product. The bundle is sold, or the biochemical sheet 4, the security structure 5, and the disposable lens 2 are sold separately. After the consumer identification is completed, the disposable lens 2 can be retained or discarded as the case may be. Since the disposable lens 2 is a lightweight and thin form, the structure is simple and the cost is low, and the consumer does not have to carry it with the carrier. Too much conflict, when you stay on your body, it won't cause too much space, and it will not cause consumers' annoyance. Even throwing the disposable lens 2 will not cause a cost burden, which is different from the conventional optical image expansion. The instrument is too large to carry the stored form. Moreover, the creation of the fixing adhesive 22 allows the consumer to more conveniently and quickly fix the disposable lens 2 to the electronic computing device 1 and align the lens 21 with the image capturing unit 10. Thereafter, It can be used to identify the biochemical sheet 4 or the anti-counterfeiting structure 5, thereby achieving the convenience of the front work.

Further, in an embodiment, the electronic computing device 1 includes a database (not shown) electrically connected to the application, so that the calculation result of the application can be stored in the database, As a follow-up support application such as data statistics, data analysis, or connection to a remote server.

In summary, this creation can achieve the following characteristics:

1. The creation of the disposable lens 2 is simple in structure and small in size, and the user can immediately recognize the identification unit 3, thereby improving the size of the conventional instrument which is inconvenient to carry and cannot be recognized immediately. .

2. The lens structure of the disposable lens 2 is simple and can reduce the manufacturing cost, which is different from the complicated and costly manufacturing process of the conventional expensive instrument, thereby having relative volume, convenience and cost. Advantage.

3. The creation of the disposable lens 2 as a light and thin form, the use does not have too much conflict with the carrying, and does not cause too much trouble for the user, which is different from the conventional optical image expanding instrument. The volume is too large to carry the preserved form.

4. The creation of the fixing glue 22 allows the consumer to more conveniently and quickly fix the disposable lens 2 on the electronic computing device 1 and align the lens 21 with the image capturing unit 10, after which It can be used to identify the biochemical sheet 4 or the anti-counterfeiting structure 5, thereby achieving the convenience of the front-end operation.

The foregoing is only a preferred embodiment of the present invention, and its purpose is to enable those skilled in the art to understand the contents of the present invention and to implement it, and not to limit the scope of the present invention. All changes or modifications to the shapes, structures and features described in the scope of this application are to be included in the scope of the patent application.

1‧‧‧Electronic computing device
10‧‧‧Image capture unit
11‧‧‧Display unit
2‧‧‧Disposable lens
20‧‧‧Substrate
21‧‧‧ lens
22‧‧‧Fixed adhesive
3‧‧‧ Identification unit
4‧‧‧Biochemical sheet
40‧‧‧Test area
41‧‧‧ calibration area
5‧‧‧Anti-counterfeiting structure
50‧‧‧ body
51‧‧‧Transparent colloid
52‧‧‧Micro-carving
53‧‧‧1D barcode
54‧‧‧2D barcode
6‧‧‧Note Computer

Fig. 1 is an exploded perspective view of the electronic computing device, the disposable lens and the identification unit. Figure 2: A plan view of the disposable lens of the present invention. Figure 3: A plan view of the front lens, disposable lens and identification unit of the electronic computing device. Figure 4: A perspective view of the biochemical sheet of the creation. Fig. 5 is a plan view showing the first embodiment of the creation of the anti-counterfeiting structure. Fig. 6 is a plan view showing a second embodiment of the creation of the anti-counterfeiting structure. Figure 7: A plan view of the rear lens, disposable lens and identification unit of the electronic computing device. Figure 8 is a perspective view of another embodiment of the electronic computing device of the present invention and a disposable lens.

1‧‧‧Electronic computing device

10‧‧‧Image capture unit

11‧‧‧Display unit

2‧‧‧Disposable lens

3‧‧‧ Identification unit

Claims (10)

A disposable lens for use in an electronic computing device for identification, comprising: a substrate; a lens disposed at one end of the substrate, the lens corresponding to an image capturing unit of an electronic computing device; and a fixing glue The fixing glue is attached to one side of the substrate to fix the substrate to the electronic computing device. A disposable lens for use in an electronic computing device for identification as described in claim 1, wherein the lens is a cured polymer. A disposable lens for use in an electronic computing device for identification as described in claim 1, wherein the substrate is disposed between the image capturing unit and the lens. The disposable lens applied to the electronic computing device for identification as described in claim 1 further includes an identification unit, and the image capturing unit is aligned with the identification unit via the lens. The disposable lens for use in an electronic computing device for identification as described in claim 4, wherein the identification unit is configured as an anti-counterfeiting structure, and the anti-counterfeiting structure includes at least one micro-engraving piece. The disposable lens for use in an electronic computing device for identification as described in claim 5, wherein the security structure comprises at least one-dimensional barcode or at least one two-dimensional barcode. A disposable lens for use in an electronic computing device for identification as described in claim 4, wherein the identification unit is a biochemical sheet. The disposable lens for use in an electronic computing device for identification as described in claim 7, wherein the biochemical sheet comprises a test area and a calibration area. The disposable lens for use in an electronic computing device for identification as described in claim 8, wherein the calibration area includes at least one comparison reference object and at least one focus target object. The disposable lens for use in an electronic computing device for identification, as described in any one of claims 5 to 9, wherein the electronic computing device includes an application electrically connected to the image capturing unit.