KR20170080527A - Sensing device and optical sensing module - Google Patents

Abstract

A sensing device comprising: an optical sensing module and an additional function module, wherein the optical sensing module includes a first base, a light source, and an optical sensing device, wherein the first base includes a first opening and a second opening, 1 optical sensing device is disposed in the second opening, and a first fixing structure is provided on the outside of the first base; Wherein the first base and the second base comprise a first base and a second base, wherein the first base and the second base comprise a first base and a second base, the second base comprises a second base and the second base, And are fixed to each other by a fixed structure and a second fixed structure.

Description

[0001] DESCRIPTION [0002] SENSING DEVICE AND OPTICAL SENSING MODULE [

Exemplary embodiments in accordance with the present disclosure relate to a sensing device and its sensing module, and more particularly to a sensing device and its optical sensing module used in optical identification technology.

As science and technology evolve, current reading books are often a combination of drawings and voices, allowing readers to be interested in reading books, for example, CD or MP sound 3 playback devices in which audio files are stored . However, these methods are inconvenient for the user to read the audio file related to the book when the user reads the book separately. Therefore, an optical reading pen has been introduced, which uses optical identification technology. When an optical reading pen is brought into contact with a character or figure on a book, the optical identification code thereon is read out, Thereby improving the reading learning effect.

Typically, the optical reading pen includes a light source and an optical sensing device, wherein the light source provides a light beam such that the light beam reaches a page of the book, causing the optical sensing device to sense the optical identification code on the page. Some optical reading pens include additional functional elements such as a pen tip and a corresponding pen tip to enable writing or touch control by tracking the movement trajectory or position of the writing or reading pen in addition to the reading of the optical reading pen. However, according to the present design of the optical reading pen, the pen core and the corresponding pen core are installed on the same base together with the conventional light source and the optical sensing unit. This not only makes the difficulty in making the mold of the base relatively difficult, If the design for one part of the base is changed, the mold for the entire base must be re-manufactured, which makes the rework uncomfortable. In addition, if such an element of the optical reading pen is mounted on the same base as described above, if the optical reading pen no longer requires a handwriting function through the pen shim, then the pen stem and its corresponding pen stand may be removed The volume of the optical reading pen can not be correspondingly reduced because the opening for mounting the pen stand and the pen stand formed on the base still occupies a space.

A base of the optical sensing module can be easily manufactured and reprocessed, and a sensing device having higher flexibility when matching an optical sensing module with an added functional element is provided.

It is an object of the present invention to provide an optical sensing module having a higher flexibility when the optical sensing module and the added functional element are matched.

According to exemplary embodiments, an optical sensing module and an additional function module, wherein the optical sensing module includes a first base, a light source, and an optical sensing device, the first base having a first opening and a second opening Wherein the light source is disposed at the first opening, the optical sensor is disposed at the second opening, and a first fixing structure is provided outside the first base; Wherein the additional function module includes a second base and a functional element, the second base has a third opening and a second fixing structure, the functional element is disposed in the third opening, And the second base is fixed to each other by the first fixing structure and the second fixing structure.

According to exemplary embodiments, the functional element is a pen-sym, wherein the pen-shim is installed through the third opening.

According to exemplary embodiments, the first fixing structure may include at least one fitting groove, the second fixing structure may include at least one fitting protrusion, and the fitting groove may include a sensing device for fitting the fitting protrusion do.

According to exemplary embodiments, the second base covers the outside of the base.

According to exemplary embodiments, a section of the functional element is located outside the third opening, and the second base is shielded from the section.

According to exemplary embodiments, the first fixing structure includes two position limiting portions, and the functional element is limited in position between the two position limiting portions.

According to exemplary embodiments, the light source provides a light beam to an article, and the optical sensing device senses an identification code on the article by the light beam.

According to exemplary embodiments, the light source provides the light rays along the outgoing direction to the surface of the article, wherein the outgoing direction is parallel to the surface of the article.

According to exemplary embodiments, there is provided a lithographic apparatus including a first base, a light source, and an optical sensing device, wherein the first base has a first opening and a second opening, a first fixing structure is provided outside the first base , The first base being fixed to each other by a second base on which the functional element is disposed and the first fixing structure; The light source is disposed in the first opening; The optical sensing device is disposed in the second opening.

According to exemplary embodiments, the first fixing structure has at least one fitting groove, and the fitting groove is fitted to the second base.

According to exemplary embodiments, an optical sensing module is provided in which the second base covers the outside of the first base.

According to exemplary embodiments, the first fixation structure includes two position constraints, and the functional element is constrained in position between the two position constraints.

According to exemplary embodiments, the light source provides a light beam to an article, and the optical sensing device is provided with an optical sensing module that senses an identification code on the article by the light beam.

According to exemplary embodiments, the light source provides the light rays to the surface of the article along an outgoing direction, the outgoing direction being parallel to the surface of the article.

According to exemplary embodiments, there is provided a lithographic apparatus comprising a first base, a light source and an optical sensing device, wherein the first base has a first opening and a second opening, a first fixing structure is provided outside the first base , The first base being fixed to each other by the first fixing structure and a housing for accommodating the first substrate; The light source is disposed in the first opening; The optical sensing device is disposed in the second opening.

According to exemplary embodiments, the first fixing structure includes at least one fitting groove, and the fitting groove engages with the housing.

According to exemplary embodiments, the housing is provided with an optical sensing module that covers the outside of the first base.

According to exemplary embodiments, the light source provides a light beam to an article, and the optical sensing device senses an identification code on the article by the light beam.

According to exemplary embodiments, the light source provides the light source to the surface of the article in accordance with the outgoing direction, and the outgoing direction is parallel to the surface of the article.

According to the above description, in the sensing device, the light source and the optical sensing device are mounted on the first base, the functional element is mounted on the second base, and the first base and the second base are fixed to the first fixing structure and the second fixing structure Or may be separated from each other. Therefore, the functional element, the light source, and the optical sensing device are provided on different bases, respectively, so that the structure of each base is relatively simplified, thereby lowering the degree of mold making difficulty, and the design of the first base or the second base is changed In this case, only the mold for the first base or the second base is required to be re-fabricated, and re-processing for all the bases is not required, so re-processing is relatively convenient. In addition, when the sensing device does not require a corresponding function provided through the added functional element, the second base and the functional element mounted on the second base can be separated from the first base, The volume is effectively reduced, and the flexibility of matching the optical sensing module with the added functional element is improved.

In order that the features and advantages of the present invention will be more clearly understood and understood, the present invention will be described in detail with reference to embodiments and drawings.

1 is a three-dimensional view showing a sensing device of an embodiment.
2 is a front view showing the sensing device of FIG.
Fig. 3 is a diagram showing the sensing device of Fig. 1 performing optical identification. Fig.
4 is an exploded view showing the sensing device of Fig.
5 is a diagram showing that the sensing device of another embodiment performs optical identification.

FIG. 1 is a three-dimensional view showing a sensing device of one embodiment, and FIG. 2 is a front view showing the sensing device of FIG. 1 and 2, the sensing device 100 of the present embodiment includes an optical sensing module 110 and the optical sensing module 110 includes a first base 112, a light source 114, Sensing unit 116 and the first base 112 includes a first opening 112a and a second opening 112b and the light source 114 may be a light emitting diode ) Light source, and the optical sensing device 116 is disposed in the second opening 112b.

Fig. 3 shows that the sensing device of Fig. 1 performs optical identification. In one embodiment, the sensing device 100 is, for example, an optical reading pen, and the light source 114 provides a light ray L as shown in FIG. 3, and the light ray L is incident on the first opening 112a. Is transmitted to the exterior of the first base 112 along the axial direction D1 of the article 50 to reach the surface 52 of the article 50 (e.g. the page of the book the user is reading) (L ') is transmitted to the optical sensor 116 to form an image, which allows the optical sensor 116 to sense the identification code on the surface 52 of the article 50 through the light beam. In addition, the sensing device 100 processes the image of the identification code through the other related device (e.g., a speaker) and transmits the generated response. In other embodiments, the sensing device 100 may be any other type of optical identification device, but is not limited thereto.

In one embodiment, the sensing device 100 may further include an additional function module 120, which provides, for example, a handwriting function, specifically the following. 1 and 2, the additional function module 120 includes a second base 122 and a functional element 124, and the second base 122 includes a third opening 122a (see FIG. 2 The functional element 124 is, for example, a pen-symmetrical structure, and is provided so as to penetrate through the third opening 122a so that the user can make a handwriting. In one embodiment, the add-on module 120 may receive a portion of the functional element 124, for example, by a tube 126 (e.g., a pen), and the tube 126 may be, for example, And may be connected to the second base 122 integrally.

4 is an exploded view of the sensing device of Fig. The first base 112 of the optical sensing module 110 and the second base 122 of the additional function module 120 are not integrally formed as shown in FIGS. 1, 2 and 4, They are designed to be coupled to each other or separated from each other. Specifically, a first fixing structure 112d is provided on the outer side 112c of the first base 112 and a second fixing structure 122b is provided on the second base 122. [ The first base 112 and the second base 122 are fixed to each other by a first fixing structure 112d and a second fixing structure 122b, respectively.

By mounting the functional element 124, the conventional light source 114 and the optical sensing device 116 on different bases (the first base 112 and the second base 122), respectively, according to the above arrangement method, The structure of each base is made relatively simple to lower the degree of difficulty in the molding of the mold and the change in the design of the first base 112 or the second base 122 occurs only when the first base 112 or the second base 112 Only the mold for the base 122 can be re-manufactured, and re-processing for all the bases is not required, so re-processing is relatively convenient. In addition, when the sensing device 100 does not require a corresponding function provided through the added functional element 124, the second base 122 and the functional element (not shown) mounted on the second base 122 124 can be directly separated from the first base 112 to effectively reduce the volume of the sensing device 100 and improve the flexibility of using the optical sensing module 110 and the added functional element 124 .

Hereinafter, the first fixing structure 112d and the second fixing structure 122b will be described in detail. As shown in Figure 4, in one embodiment, the first anchoring structure 112d includes two position limiting portions R, and the two position limiting portions R and the outer side of the first base 112 And two fitting grooves S are formed between the two engaging grooves 112c. Correspondingly, the second fixing structure 122b includes two fitting protrusions P, and the two fitting protrusions P are engaged with the two fitting grooves S along the fitting direction D, respectively The first fixing structure 112c and the second fixing structure 122b are fitted and fixed to each other by the fitting grooves S and the corresponding fitting projections P as shown in Figures 1 and 2, , And the functional element 124 is limited in position between the two position restriction portions R. In one embodiment, the second base 122 further comprises a cover portion 122c, the cover portion 122c is formed to cover the outer side 112c of the first base 112, and the functional element 124 Is positioned in a section 124a (shown in Fig. 4) outside the third opening 122a and is shielded and limited by the cover portion 122c of the second base 122, thereby making the overall structure more complete and robust . In one embodiment, the first fastening structure 112d and the second fastening structure 122b may also be fixedly secured to each other by hooks, latches, or other suitable structure, but are not limited thereto.

In one embodiment, the optical sensing module 110 and the add-on module 120 are also received by a housing (not shown), thereby allowing the sensing device 100 to have a better appearance and grip, It is not limited. In one embodiment, the sensing device 100 is not required to include the second base 122 and the functional element 124, and the first fastening structure 112d of the first base 112 may have a corresponding structure Such that the first base 112 is received within the housing and the housing covers the outer side 112c of the first base 112, Is fitted to the housing by the fitting groove (S) of the structure (112d). However, the manner of coupling the first base 112 to the housing is not limited thereto.

As shown in FIG. 3, in one embodiment, the light source 114 is, for example, a light emitting diode element and provides a light ray L along the outgoing direction A. The outgoing light direction A of the light source 114 is not parallel to the surface 52 of the article 50 and allows the light ray L to be directly transmitted to the surface 52 of the article 50. [ However, the outgoing light direction of the light source is not limited. Hereinafter, an example will be described with reference to the drawings.

5 is a diagram showing that the sensing device of another embodiment performs optical identification. In the sensing device 200 of the present invention, the optical sensing module 210, the first base 212, the first opening 212a, the second opening 212b, the optical sensing device 216, the additional function module 220 (Not shown), the functional element 224, and the body 226 are arranged in the same manner as the optical sensing module 110, the first base 112, the first The arrangement and operation of the opening 112a, the second opening 112b, the optical sensing device 116, the additional function module 120, the second base 122, the functional element 124, They will not be repeated here. According to the sensing device 200, the light source 214 can be emitted in the lateral direction such that the outgoing direction A 'of the light source 214 is parallel to the surface 52 of the article 50.

As described above, the luminous intensity of the light beam L irradiated to the surface 52 of the article 50 can be appropriately reduced if the light source 214 is designed to be emitted in the lateral direction. Therefore, when the article 50 is a liquid crystal display panel, the structure under the surface 52 of the liquid crystal display panel is a structure that prevents the irradiation of the light ray L from being sensed unexpectedly by the optical sensor 216, Ensuring that the optical sensing device 216 accurately senses the identification code on the surface 52. A further explanation is that if the article 50 is a liquid crystal display panel, a transparent thin film having, for example, the identification code may be attached on the surface 52 to allow the sensing device 200 to optically identify, The functional element 224, for example, does not have a writing function and serves only to support the structure between the optical sensing module 210 and the surface 52. In addition, by reducing the luminous intensity of the light ray L reaching the surface of the article 50 by designing the light source 214 to emit in the lateral direction as described above under a situation where the reflectance of the transparent thin film is somewhat high, It is possible to prevent the light L 'reflected by the transparent thin film from being excessively strong so as not to affect the normal operation of the optical sensing device 216.

5, the structure of the first opening 212a of the first base 212 is extended from the surface 52 of the article 50 to form the first opening 212a, The light source 214 in the light source 214 is relatively close to the surface 52 of the article 50 and the first base 212 has the exit 212b at the position of the first opening 212a, So that the light beam L emitted from the light guide plate 212d is smoothly transmitted to the surface 52. [ In other embodiments, the structure at the location of the first opening 212a of the first base 212 may be designed with a suitable shape and size, but is not limited thereto.

In the sensing device of the present invention, the light source and the optical sensing device are mounted on the first base, the functional element is mounted on the second base, the first base and the second base are fixed to the first fixing structure and the second They can be fixed to each other by a fixed structure or separated from each other. Therefore, by mounting the functional element and the conventional light source and the optical sensing device on different bases, the structure of each base can be made comparatively simple, the difficulty in mold making can be lowered, and the change in the design of the first base or the second base In this case, only the molds for the first base or the second base need to be re-manufactured, and re-processing for all the bases is not required, so reworking is relatively convenient. The second base and the functional element mounted on the second base can be directly removed from the first base when the corresponding function is not provided through the functional element to which the sensing device is attached, Thereby improving the flexibility of using the optical sensing module and the added functional element. More specifically, when it is not necessary to mount the second base and the functional element, the first fixing structure of the first base can be changed so as to be fixed to the housing of the sensing device, . In addition, the light source is designed to be emitted in the lateral direction to appropriately reduce the outgoing light intensity of the optical sensing module, thereby preventing the excessive operation of the optical sensor due to excessive light intensity of the light source.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory only and are not to be construed as limiting the present invention. And the scope of protection of the present invention is based on the appended claims.

50: article 52: surface
100, 200: sensing device 110, 210: optical sensing module
112, 212: first base 112a, 212a: first opening
112b, 212b: second opening portion 112c: outside
112d: first fixing structure 114, 214: light source
116, 216: Optical sensing device 120, 220: Additional function module
122: second base 122a: third opening
122b: second fixing structure 122c: cover part
124, 224: Functional element 124a:
126, 226: tube body 212d:
A, A ': Outgoing direction D: Assembly direction
L, L ': light ray P: fitting projection
R: Position limiting part S: Fitting groove

Claims (19)

An optical sensing module and an additional function module,
The optical sensing module includes a first base, a light source, and an optical sensing unit, wherein the first base has a first opening and a second opening, the light source is disposed in the first opening, 2 openings, and a first fixing structure is provided on the outer side of the first base;
Wherein the additional function module includes a second base and a functional element, the second base has a third opening and a second fixing structure, the functional element is disposed in the third opening, And the second base is fixed to each other by the first fixing structure and the second fixing structure. The method according to claim 1,
Wherein the functional element is a pen-sym, and the pen-shim is installed to penetrate the third opening. The method according to claim 1,
Wherein the first fixing structure includes at least one fitting groove, and the second fixing structure includes at least one fitting protrusion, and the fitting groove engages with the fitting protrusion. The method according to claim 1,
And the second base covers the outer side of the base. The method according to claim 1,
Wherein one section of the functional element is located outside the third opening and the second base covers the section. The method according to claim 1,
Wherein the first fixation structure includes two position constraints, and wherein the functional element is constrained in position between the two position constraints. The method according to claim 1,
Wherein the light source provides a light beam to an article, the optical sensing device sensing an identification code on the article by the light beam. The method according to claim 1,
Wherein the light source provides the light rays to a surface of the article along an outgoing direction, the outgoing direction being parallel to the surface of the article. A first base, a light source, and an optical sensing device,
Wherein the first base has a first opening and a second opening, a first fixing structure is provided on an outer side of the first base, the first base includes a second base on which the functional element is disposed, To be fixed to each other;
The light source is disposed in the first opening;
Wherein the optical sensing device is disposed in the second opening. 10. The method of claim 9,
Wherein the first fixing structure has at least one fitting groove, and the fitting groove is fitted to the second base. 10. The method of claim 9,
And the second base covers the outer side of the first base. 10. The method of claim 9,
Wherein the first fixation structure includes two position constraints, and wherein the functional element is constrained in position between the two position constraints. 10. The method of claim 9,
Wherein the light source provides a light beam to an article, the optical sensing device sensing an identification code on the article by the light beam. 10. The method of claim 9,
Wherein the light source provides the light rays to a surface of the article along an outgoing direction, the outgoing direction being parallel to the surface of the article. A first base, a light source, and an optical sensing device,
Wherein the first base has a first opening and a second opening, a first fixing structure is provided on an outer side of the first base, the first base includes a housing for accommodating the first substrate, Are fixed to each other;
The light source is disposed in the first opening;
Wherein the optical sensing device is disposed in the second opening. 16. The method of claim 15,
Wherein the first fixing structure has at least one fitting groove, and the fitting groove engages with the housing. 16. The method of claim 15,
And the housing covers the outer side of the first base. 16. The method of claim 15,
Wherein the light source provides a light beam to an article, the optical sensing device sensing an identification code on the article by the light beam. 16. The method of claim 15,
Wherein the light source provides the light source to a surface of an article in accordance with an outgoing direction, the outgoing direction being parallel to the surface of the article.

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