JP2017126982A - Detection device and optical detection module - Google Patents

Abstract

PURPOSE: To provide a detection device used for optical identification, and to provide an optical detection module.SOLUTION: A detection device comprises an optical detection module and an additional function module. The optical detection module comprises a first base, a light source, and an optical sensor. The first base has a first opening and a second opening, the light source is disposed in the first opening, and the optical sensor is disposed in the second opening and has a first fixing structure at an outer side of the first base. The additional function module includes a second base and a functional member. The second base has a third opening and a second fixing structure, and the functional member is disposed in the third opening, and the first base and the second base are fixed to each other by the first fixing structure and the second fixing structure.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a detection device and a detection module, and more particularly to a detection device and an optical detection module used in an optical identification technique.

  With the advancement of science and technology, the reading of existing books is combined with figures and voices to make them interested in reading books. For example, a CD or MP3 playback device that stores an audio file. However, in such a system, when a user reads a book, it is necessary to search for a related audio file, which is inconvenient for reading. Therefore, an optical reading pen is created, which utilizes optical identification technology, and when the optical reading pen points to a character or image on a book, it reads the optical identification code. Thus, it is possible to improve the reading learning effect by generating voice through the voice device.

  In general, an optical reading pen includes a light source and an optical sensor, and the light source supplies light onto a page surface of a book so that the optical sensor detects an optical identification code on the page surface. Many optical reading pens are further provided with additional functional members, such as cores and corresponding pen axes, which are not only used for reading, but also the movement trajectory or position of the reading pen. You can record and track, write and touch. However, in the current optical reading pen design, the core and the corresponding pen shaft and the existing light source and optical sensor are mounted on the same base, which increases the difficulty of mold manufacture of the base, and any part of the base When there is a design change, it is necessary to manufacture a new mold for the entire base, which makes inconvenience of reworking. Also, since these parts of the optical reading pen are all attached to the same base, when the optical reading pen does not need to provide the function of writing with the lead, the base can be removed even if the lead or the corresponding pen shaft is removed. The opening used to attach the pen shaft / core above occupies space, and the volume of the optical reading pen cannot be reduced correspondingly.

  It is an object of the present invention to provide a detection device in which the base of the optical detection module of the detection device is easy to manufacture and rework, and the degree of freedom to use the optical detection module and an additional functional member together is improved. .

  An object of the present invention is to provide an optical detection module in which the base of the optical detection module is easy to manufacture and rework, and the degree of freedom to use the optical detection module and an additional functional member together is improved.

  The detection apparatus according to the present invention includes an optical detection module and an additional function module. The optical detection module includes a first base, a light source, and an optical sensor. The first base has a first opening and a second opening, the light source is disposed in the first opening, the optical sensor is disposed in the second opening, and has a first fixing structure outside the first base. The additional function module includes a second base and a functional member. The second base has a third opening and a second fixing structure, and the functional member is disposed in the third opening, and the first base and the second base are fixed to each other by the first fixing structure and the second fixing structure. Is done.

  In an embodiment of the present invention, the functional member is a core penetrating through the third opening.

  In an embodiment of the present invention, the first fixing structure has at least one slot, the second fixing structure includes at least one block, and the slot engages with the block.

  In an embodiment of the present invention, the second base covers the outside of the first base.

  In an embodiment of the present invention, one section of the functional member is located outside the third opening, and the second base covers the section.

  In an embodiment of the present invention, the first fixing structure includes two stoppers, and the functional member is limited between the two stoppers.

  In an embodiment of the present invention, the light source is suitable for supplying a light beam to an object, and the optical sensor detects an identification code on the object by the light beam.

  In an embodiment of the present invention, the light source is suitable for supplying light rays to the surface of the object along the direction of light emission, the light emission direction being parallel to the surface of the object.

  The optical detection module according to the present invention includes a first base, a light source, and an optical sensor. The first base has a first opening and a second opening, has a first fixing structure outside the first base, and the first base and the second base are fixed to each other by the first fixing structure. The functional member is disposed on the second base. The light source is disposed in the first opening. The optical sensor is disposed in the second opening.

  In an embodiment of the present invention, the first fixing structure has at least one slot engaged with the second base.

  In an embodiment of the present invention, the second base covers the outside of the first base.

  In an embodiment of the present invention, the first fixing structure includes two stoppers, and the functional member is limited between the two stoppers.

  In an embodiment of the present invention, the light source is suitable for supplying a light beam to an object, and the optical sensor is suitable for detecting an identification code on the object by the light beam.

  In an embodiment of the present invention, the light source is suitable for supplying a light beam to the surface of the object along the direction of light emission, the light emission direction being parallel to the surface of the object.

  The optical detection module according to the present invention includes a first base, a light source, and an optical sensor. The first base has a first opening and a second opening, and has a first fixing structure outside the first base, and the first base and the case are suitable for being fixed to each other by the first fixing structure, The case is suitable for housing the first base. The light source is disposed in the first opening. The optical sensor is disposed in the second opening.

  In an embodiment of the present invention, the first fixing structure has at least one slot that engages with the case.

  In an embodiment of the present invention, the case covers the outside of the first base.

  In an embodiment of the present invention, the light source is suitable for supplying a light beam to an object, and the optical sensor is suitable for detecting an identification code on the object by the light beam.

  In an embodiment of the present invention, the light source is suitable for supplying a light beam to the surface of the object along the direction of light emission, the light emission direction being parallel to the surface of the object.

  Based on the above, in the detection device of the present invention, the light source and the optical sensor are attached to the first base, the functional member is attached to the second base, and the first base and the second base are the first fixing structure and the first base. The two fixed structures can be fixed or detached from each other. As a result, the functional member and the existing light source and optical sensor are attached to different bases, simplifying the structure of each base, reducing the difficulty of mold manufacture, and changing the design of the first base or the second base. In some cases, it is only necessary to manufacture a new mold for the first base or the second base, and it is not necessary to rework the entire base. In addition, when the detection device does not need to provide a corresponding effect by an additional functional member, the volume of the detection device is effectively removed by directly removing the second base and the functional member attached thereto from the first base. The degree of freedom of using both the optical detection module and the additional functional member can be improved.

  In order to further clarify the above-described features and advantages of the present invention, several embodiments will be described below in detail with reference to the drawings.

It is a perspective view of the detection apparatus in the embodiment of the present invention. It is a front view of the detection apparatus of FIG. Fig. 2 illustrates the execution of optical identification by the detection device of Fig. 1; It is an exploded view of the detection apparatus of FIG. Figure 6 illustrates performing optical identification by a detection device in another embodiment of the invention.

  FIG. 1 is a perspective view of a detection apparatus according to an embodiment of the present invention. FIG. 2 is a front view of the detection apparatus of FIG. Referring to FIGS. 1 and 2, the detection apparatus 100 in the present embodiment includes an optical detection module 110, and the optical detection module 110 includes a first base 112, a light source 114, and an optical sensor 116. The first base 112 has a first opening 112a and a second opening 112b. The light source 114 is, for example, a light emitting diode (LED) light source, and is disposed in the first opening 112a. The optical sensor 116 is a first light source. It arrange | positions in the two opening 112b.

  FIG. 3 illustrates the execution of optical identification by the detection device of FIG. In the present embodiment, the detection apparatus 100 is, for example, an optical reading pen, and the light source 114 is used to supply a light beam L as shown in FIG. 3, and the light beam L is a second light beam along the axial direction of the first opening 112a. The light beam L ′ transmitted outside the base 112 reaches the surface 52 of the object 50 (for example, the page surface of a book read by the user), and is reflected by the surface 52 to the optical sensor 116 to form an image. 116 causes the ray to detect the identification code on the surface 52 of the object 50, and the detection device 100 transmits a response that occurs after processing and determining the image of the identification code by other related devices (eg, speakers). In other embodiments, the detection device 100 may be other types of optical identification devices, and the present invention is not limited thereto.

  The detection apparatus 100 according to the present embodiment further includes an additional function module 120. The additional function module 120 is used to provide, for example, a writing function, and details will be described below. As shown in FIGS. 1 and 2, the additional function module 120 includes a second base 122 and a functional member 124. The second base 122 includes a third opening 122a (shown in FIG. 2). For example, a user can write with a core attached through the third opening 122a. In this embodiment, the additional function module 120 accommodates a section of the functional member 124 by, for example, a tubular body 126 (for example, a pen shaft), and the tubular body 126 is integrally formed with the second base 122, for example. Connected to.

  FIG. 4 is an exploded view of the detection apparatus of FIG. Referring to FIGS. 1, 2, and 4, in the present embodiment, the first base 112 of the optical detection module 110 and the second base 122 of the additional function module 120 are not integrally molded, but can be assembled and removed from each other. Designed. Specifically, the outer side 112c of the first base 112 has a first fixing structure 112d, and the second base 122 has a second fixing structure 122b correspondingly. The first base 112 and the second base 122 are fixed to each other by the first fixing structure 112d and the second fixing structure 122b.

  The functional member 124, the existing light source 114, and the optical sensor 116 are attached to different bases (the first base 112 and the second base 122) by the above arrangement method, and the structure of each base is simplified to manufacture a mold. When the design of the first base 112 or the second base 122 is changed, it is only necessary to manufacture a new mold for the first base 112 or the second base 122. Since base rework is not required, rework becomes easier. In addition, when the detection device 100 does not need to provide a corresponding effect by the additional functional member 124, the second base 122 and the functional member 124 mounted thereon are directly removed from the first base 112 to detect. The volume of the apparatus 100 can be effectively reduced to improve the freedom to use the optical detection module 110 and the additional functional member 124 together.

  Hereinafter, specific structures of the first fixing structure 112d and the second fixing structure 122b in the present embodiment will be described. Referring to FIG. 4, the first fixing structure 112 d in the present embodiment includes two stoppers R, and two slots S are formed between the two stoppers R and the outer side 112 c of the first base 112. Correspondingly, the second fixing structure 122b includes two blocks P, which are suitable for fitting into the two slots S along the assembly direction D, respectively. 112d and the second fixing structure 122b are engaged with each other by the block P corresponding to each slot S as shown in FIGS. 1 and 2, and the functional member 124 is limited between the two stoppers R. Furthermore, the second base 122 in the present embodiment further includes a cover part 122c. The cover part 122c covers the outer side 112c of the first base 112 and is a section 124a (outside the third opening 122a of the functional member 124). 4) is covered and limited by the cover portion 122c of the second base 122, which makes the overall structure more complete and stable. In other embodiments, the first fixing structure 112d and the second fixing structure 122b may be fixed to each other by another appropriate structure such as a hook and a latch, and the present invention is not limited thereto.

  In the above-described embodiment, the optical detection module 110 and the additional function module 120 may be further accommodated by a case (not shown) so that the detection device 100 has a suitable appearance and grip feeling. It is not limited. Further, the detection device 100 does not need to arrange the second base 122 and the functional member 124, and the first fixing structure 112d of the first base 112 is used to fix the corresponding structure in the case to each other. The first base 112 may be accommodated in the case, and the case may cover the outer side 112c of the first base 112, and for example, the first base 112 may be engaged with the case by the slot S of the first fixing structure 112d. However, the present invention does not limit the coupling method of the first base 112 and the case.

  Referring to FIG. 3, in the present embodiment, the light source 114 is, for example, a light emitting diode element, and is suitable for supplying the light beam L along the light emission direction A. The light emission direction A of the light source 114 is not parallel to the surface 52 of the object 50, but transmits the light beam L directly to the surface 52 of the object 50. However, the present invention is not limited to the light emission direction of the light source, and will be described below with reference to the drawings.

  FIG. 5 illustrates performing optical identification by a detection device in another embodiment of the invention. Optical detection module 210, first base 212, first opening 212a, second opening 212b, optical sensor 216, additional function module 220, second base (not shown), functional member 224 in the detection apparatus 200 of the present invention. The arrangement and operation of the tubular body 226 are the same as the optical detection module 110, the first base 112, the first opening 112a, the second opening 112b, the optical sensor 116, the additional function module 120, and the second base 122 in FIGS. The arrangement and operation of the functional member 124 and the tubular body 126 are similar and will not be repeated here. The different locations of the detection device 200 and the detection device 100 are such that the light emission direction A ′ of the light source 214 is parallel to the surface 52 of the object 50, and causes the light source 214 to emit side light.

  As described above, the light source 214 may be designed to radiate to the side, and the light intensity of the light L applied to the surface 52 of the object 50 may be appropriately reduced. Accordingly, when the object 50 is a liquid crystal display panel, the structure under the surface 52 of the liquid crystal display panel is not unexpectedly detected by the optical sensor 216 due to the irradiation of the light beam L, and the optical sensor Ensure that 216 detects accurately against the identification code on surface 52. It is necessary to explain that when the object 50 is a liquid crystal display panel, a transparent film having, for example, the identification code is pasted on the surface 52 of the object 50 to perform optical identification of the detection device 200 and a functional member. 224 is merely a structure that is supported between the optical detection module 210 and the surface 52, for example, without the ability to write. Further, in the situation where the reflectance of the transparent film is high, as described above, the light source 214 is designed to radiate to the side surface to appropriately reduce the light intensity applied to the surface 52 of the object 50 of the light L, You may avoid affecting the normal operation | movement of the optical sensor 216 because the light ray L 'reflected by the said transparent film is too strong.

  In the present embodiment, the structure of the first base 212 in the first opening 212a extends to the surface 52 of the object 50, as shown in FIG. 5, and the light source 214 in the first opening 212a is close to the surface 52 of the object 50. The first base 212 has a radiation port 212d in the first opening 212a, and the light L emitted from the light source 214 can be smoothly transmitted to the surface 52 by the radiation port 212d. In other embodiments, the structure of the first base 212 in the first opening 212a may be designed in other suitable shapes and sizes, and the present invention is not limited thereto.

  As described above, in the detection device of the present invention, the light source and the optical sensor are attached to the first base, the functional member is attached to the second base, and the first base and the second base are the first fixing structure and the second base. They can be fixed to each other or removed by a fixed structure. As a result, the functional member and the existing light source and optical sensor are attached to different bases, simplifying the structure of each base, reducing the difficulty of mold manufacture, and changing the design of the first base or the second base. In some cases, it is only necessary to manufacture a new mold for the first base or the second base, and the entire base is not reworked. In addition, when the detection device does not need to provide a corresponding effect by an additional functional member, the volume of the detection device is effectively removed by directly removing the second base and the functional member attached thereto from the first base. The degree of freedom of using both the optical detection module and the additional functional member can be improved. Further, in the situation where the second base and the functional member are not attached, the first base first fixing structure is changed to be used to fix the detection device case to the first base first fixing The versatility of the structure can be improved. In addition, the light source may be designed to radiate to the side to appropriately reduce the radiation intensity of the optical detection module to avoid affecting the normal operation of the optical sensor due to the radiation intensity of the light source being too large. .

  Although the present invention has been shown as in the above embodiments, the present invention is not limited to this embodiment, and can be changed or modified by those skilled in the art without departing from the spirit of the present invention. The protection scope of the invention shall extend to an equivalent range.

  The present invention provides a detection apparatus and an optical detection module used for optical identification.

50: Object 52: Surface 100, 200: Detection device 110, 210: Optical detection module 112, 212: First base 112a, 212a: First opening 112b, 212b: Second opening 112c: Outside 112d: First fixing structure 114 214: Light source 116, 216: Optical sensor 120, 220: Additional function module 122: Second base 122a: Third opening 122b: Second fixing structure 122c: Cover portion 124, 224: Functional member 124a: Sections 126, 226 : Tubular body 212d: Radiation port A, A ': Light radiation direction D: Assembly direction L, L': Light beam P: Block R: Stopper S: Slot

Claims (19)

A first base having a first opening and a second opening; a light source disposed in the first opening; and an optical sensor disposed in the second opening; An optical detection module having a structure;
A second base having a third opening and a second fixing structure; and a functional member disposed in the third opening, wherein the first base and the second base are the first fixing structure and the second base. An additional function module fixed to each other by a fixed structure;
A detection apparatus comprising:   The detection device according to claim 1, wherein the functional member is a core penetrating through the third opening.   The detection according to claim 1, wherein the first fixing structure includes at least one slot, the second fixing structure includes at least one block, and the slot engages with the block. apparatus.   The detection device according to claim 1, wherein the second base covers the outside of the first base.   The detection device according to claim 1, wherein a section of the functional member is located outside the third opening, and the second base covers the section.   The detection device according to claim 1, wherein the first fixing structure includes two stoppers, and the functional member is limited between the two stoppers.   The detection apparatus according to claim 1, wherein the light source is suitable for supplying a light beam to an object, and the optical sensor is suitable for detecting an identification code on the object by the light beam.   The detection device according to claim 1, wherein the light source is suitable for supplying a light beam to a surface of an object along a light emission direction, and the light emission direction is parallel to the surface of the object. A first base having a first opening and a second opening and having a first fixing structure on the outside;
A light source disposed in the first opening;
An optical sensor disposed in the second opening;
With
The optical detection module, wherein the first base and the second base are suitable for being fixed to each other by the first fixing structure, and the functional member is suitable for being disposed on the second base.   The optical detection module according to claim 9, wherein the first fixing structure has at least one slot engaged with the second base.   The optical detection module according to claim 9, wherein the second base covers the outside of the first base.   The optical detection module according to claim 9, wherein the first fixing structure includes two stoppers, and the functional member is limited between the two stoppers.   The optical detection module according to claim 9, wherein the light source is suitable for supplying a light beam to an object, and the optical sensor is suitable for detecting an identification code on the object by the light beam.   The optical detection module according to claim 9, wherein the light source is suitable for supplying a light beam to a surface of an object along a light emission direction, and the light emission direction is parallel to the surface of the object. A first base having a first opening and a second opening and having a first fixing structure on the outside;
A light source disposed in the first opening;
An optical sensor disposed in the second opening;
With
The optical detection module, wherein the first base and the case are suitable for being fixed to each other by the first fixing structure, and the case is suitable for accommodating the first base.   The optical detection module according to claim 15, wherein the first fixing structure has at least one slot engaged with the case.   The optical detection module according to claim 15, wherein the case covers the outside of the first base.   The optical detection module according to claim 15, wherein the light source is suitable for supplying a light beam to an object, and the optical sensor is suitable for detecting an identification code on the object by the light beam.   The optical detection module according to claim 15, wherein the light source is suitable for supplying a light beam to a surface of an object along a light emission direction, and the light emission direction is parallel to the surface of the object.