CN215934932U - Scanning pen - Google Patents

Scanning pen Download PDF

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Publication number
CN215934932U
CN215934932U CN202121927234.2U CN202121927234U CN215934932U CN 215934932 U CN215934932 U CN 215934932U CN 202121927234 U CN202121927234 U CN 202121927234U CN 215934932 U CN215934932 U CN 215934932U
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China
Prior art keywords
light
scanning
wand
pen
disposed
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CN202121927234.2U
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Chinese (zh)
Inventor
王会
毛细玉
杨文涛
孙志宇
徐洋
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Baidu Online Network Technology Beijing Co Ltd
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Baidu Online Network Technology Beijing Co Ltd
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Abstract

The utility model provides a wand relates to smart machine technical field. The scanning pen includes casing, light filling device, photosensitive device and control panel, and light filling device, photosensitive device and control panel all set up in the casing, and light filling device and photosensitive device all are connected with the control panel, and photosensitive device configuration is for the luminance of sensing scanning medium face, and under the luminance of scanning medium face was less than the condition of predetermineeing the luminance value, control panel control light filling device opened in order to carry out the light filling to scanning medium face. The scanning pen in the embodiment of the disclosure can avoid the light supplementing device from being opened under the condition of no need, reduce the power consumption of the scanning pen, ensure that the brightness of the scanning medium surface always keeps proper brightness, ensure that the image under the proper brightness can be collected, ensure the definition of the collected image, and improve the user satisfaction.

Description

Scanning pen
Technical Field
The present disclosure relates to the field of image processing, and more particularly, to smart device technology.
Background
The scanning pen realizes reading of paper texts or images through an image recognition technology, and brings great convenience to work and life.
In the prior art, the power consumption of the scanning pen is large, the charging frequency is increased, and the user satisfaction is reduced.
SUMMERY OF THE UTILITY MODEL
The utility model provides a scanning pen, including casing, light filling device, photosensitive device and control panel all set up in the casing, and light filling device and photosensitive device all are connected with the control panel, and photosensitive device configuration is the luminance of sensing scanning medium face, and under the condition that the luminance of scanning medium face is less than preset luminance value, control panel control light filling device opened in order to carry out the light filling to scanning medium face.
In some possible embodiments, the scanning pen further includes a light-conducting element, the light incident surface of the light-conducting element receives and conducts the light reflected by the scanning medium surface, and the light-sensing device faces the light emitting surface of the light-conducting element.
In some possible embodiments, a light shielding member is disposed between the light sensing device and the light emitting surface of the light conducting element, the light shielding member is provided with a light emitting hole, and the light sensing device receives the light emitted from the light conducting element through the light emitting hole.
In some possible embodiments, the housing has a light-transmitting hole, the light-transmitting element includes a plate-shaped body and a light-receiving portion disposed on the plate-shaped body, the light-receiving portion is located in the light-transmitting hole, and the light-sensing device is located on a side of the plate-shaped body away from the light-receiving portion.
In some possible embodiments, the scan pen further includes an image acquisition device and a transparent member, the housing includes a head portion facing the medium-scanning surface and a scanning window, the image acquisition device is disposed in the housing, the transparent member is disposed at the scanning window, and the light incident surface of the light conducting element is disposed on the transparent member.
In some possible embodiments, the angle between the transparent member and the length direction of the wand is 35 ° to 45 °;
when the scanning pen works and the length direction of the scanning pen is vertical to the surface of a scanning medium, the distance between the transparent piece and the surface of the scanning medium is 14mm to 18 mm.
In some possible embodiments, the light supplement device includes a first light supplement device and a second light supplement device, the first light supplement device and the second light supplement device are located on two sides of a visual angle range of the image acquisition device and located between the transparent member and the image acquisition device, and virtual images of the first light supplement device and the second light supplement device on the other side of the transparent member are located outside the visual angle range of the image acquisition device.
In some possible embodiments, the scanning pen further includes a display device fixed to the housing, the display device has a display surface disposed in a length direction of the scanning pen, distances between the first and second light supplement devices and the display surface are both 6.5mm to 7.5mm, and a range of the distance between the first and second light supplement devices is 8mm to 9 mm.
In some possible embodiments, when the scanning pen is in operation and the length direction of the scanning pen is perpendicular to the scanning medium surface, the distances between the first and second light supplementing devices and the scanning medium surface are both 18.6mm to 20.6mm, and the angles between the light emitting surfaces of the first and second light supplementing devices and the scanning medium surface are both 30 ° to 50 °.
In some possible embodiments, the housing includes a scanning window, the light-conducting element is elongated, and a light-receiving surface of the light-conducting element is located at the scanning window and faces the scan medium face.
The scanning pen in the embodiment of the disclosure can avoid the light supplementing device from being opened under the condition of no need, reduce the power consumption of the scanning pen, ensure that the brightness of the scanning medium surface always keeps proper brightness, ensure that the image under the proper brightness can be collected, ensure the definition of the collected image, and improve the user satisfaction.
It should be understood that what is described in this summary section is not intended to limit key or critical features of the embodiments of the disclosure, nor is it intended to limit the scope of the disclosure. Other features of the present disclosure will become apparent from the following description.
Drawings
The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, like or similar reference characters designate like or similar elements, and wherein:
FIG. 1 is a state diagram of a wand during operation in accordance with an embodiment of the present disclosure;
FIG. 2 is a schematic diagram of an internal structure of a scanning pen according to an embodiment of the present disclosure;
FIG. 3 is a schematic diagram of a display side of a wand according to an embodiment of the present disclosure;
FIG. 4 is a schematic exploded view of a scanning carriage of a scanning pen according to an embodiment of the present disclosure;
FIG. 5 is a schematic view of an exploded view of a lower portion of a scanning pen according to an embodiment of the present disclosure;
FIG. 6 is a schematic view of a lower portion of a wand according to an embodiment of the present disclosure;
FIG. 7 is a right side view of FIG. 6;
FIG. 8a is a schematic diagram illustrating an internal structure of a scanning pen according to an embodiment of the present disclosure;
FIG. 8b is a schematic view of another perspective of FIG. 8 a;
FIG. 9a is a schematic diagram of a position structure of internal components of a wand according to an embodiment of the present disclosure;
FIG. 9b is a schematic diagram illustrating the position relationship of the internal components of the wand according to an embodiment of the present disclosure;
FIG. 10a is a schematic view of a first usage state of a wand according to an embodiment of the present disclosure;
FIG. 10b is a schematic view of a second operational state of the wand of the present disclosure;
FIG. 11 is a schematic view of the object distance of the wand during use in accordance with an embodiment of the present disclosure.
Description of reference numerals:
10. a housing; 100. scanning the medium surface; 101. a light-transmitting hole; 102. scanning the window; 11. a head portion; 121. a first slideway; 122. a second slideway; 131. a first support base; 132. a second support seat; 14. a light supplement device; 14a, a first light supplementing device; 14b, a second light supplementing device; 15. a light sensing device; 16. a light supplement device; 161. a first light supplement device; 162. a second light supplement device; 17. a control panel; 18. an image acquisition device; 19. a transparent member; 20. scanning the support; 21. a first work plate; 211. a first support rib; 212. a first columnar projection; 213. a first trigger end; 22. a second work plate; 221. a second support rib; 222. a second cylindrical protrusion; 223. a second trigger end; 25. a contact end portion; 25a, a first contact end; 25b, a second contact end; 251. a working surface; 261. a first reset member; 262. a second reset member; 30. a light-conducting element; 31. a plate-like body; 32. a light receiving section; 33. a light shielding member; 331. a light exit hole; 41. a first surface; 42. a second surface; 61. a central axis.
Detailed Description
Exemplary embodiments of the present disclosure are described below with reference to the accompanying drawings, in which various details of the embodiments of the disclosure are included to assist understanding, and which are to be considered as merely exemplary. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the present disclosure. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.
Fig. 1 is a state diagram of a scanning pen in a working process according to an embodiment of the present disclosure, fig. 2 is a schematic diagram of an internal structure of the scanning pen according to an embodiment of the present disclosure, fig. 3 is a schematic diagram of a display side of the scanning pen according to an embodiment of the present disclosure, and fig. 4 is a schematic diagram of an exploded structure of a scanning support portion of the scanning pen according to an embodiment of the present disclosure.
As shown in fig. 1 to 4, the wand may include a housing 10 and a scanning carriage 20. The housing 10 includes a head 11. The scanning stand 20 is inserted into the housing 10. The scanning stand 20 includes a first working plate 21 and a second working plate 22 which are oppositely disposed and coupled. The first working plate 21 and the second working plate 22 each include a contact end portion 25 protruding from the head portion 11, and the contact end portion 25 is provided with a working surface 251 for contacting the medium scanning surface 100, as shown in fig. 1, the working surface 251 is a smooth curved surface. Wherein the head 11 is configured to face the scan medium face 100 during operation of the scanning pen.
Illustratively, the contact end portion 25 may include a first contact end portion 25a provided to the first working plate 21, the first contact end portion 25a being provided with a first working face for contacting the scan medium face 100; the contact end portion 25 may further include a second contact end portion 25b provided to the second working plate 22, the second contact end portion 25b being provided with a second working surface for contacting the scan medium surface 100.
In the related technology, the working surface of the scanning pen is a plane, and in the working process of the scanning pen, the plane-shaped working surface is in surface-to-surface contact with the surface of a scanning medium, so that the scanning pen and the scanning medium are in a fixed angle, and the use freedom degree of the scanning pen is reduced.
In the scanning pen of the embodiment of the present disclosure, the contact end portion 25 is provided with a working surface 251 for contacting with the scanning medium surface 100, and the working surface 251 is a smooth curved surface. The scanning pen is in the course of the work, the working face 251 and the scanning medium face contact of smooth curved surface form, along with the change of angle between scanning pen and the scanning medium face, working face 251 can all the time with scanning medium facial line contact, not only can support the work of scanning pen well, enlarged the angle scope of scanning pen in the course of the work and between the scanning medium face moreover, improved the use degree of freedom and the flexibility ratio of scanning pen, improved user experience.
In one embodiment, as shown in fig. 2 and 3, the scanning carriage 20 is movable toward the housing 10 with a predetermined stroke s in the range of 1mm to 1.4mm (inclusive) toward the housing 10. Illustratively, the preset stroke by which the scanning carriage 20 is movable toward the housing 10 may be any value from 1mm to 1.4mm, such as 1mm, 1.2mm, or 1.4 mm. The preset travel range of the scanning support is set to be 1mm to 1.4mm, so that the use habit of a user is met, and the use of the user is facilitated.
When the user uses the scanner pen, the contact end 25 is brought into contact with the medium surface 100, the user presses the scanner pen against the medium surface, and the scanning holder 20 moves toward the housing 10 by the force of the medium surface. The magnitude of the acting force can be set according to the use habit of the user. For example, the pressing force of the user on the scanning pen may be set to a range of 90 to 110 grams force, for example, 100 grams force, so that after the user presses the scanning pen towards the scanning medium surface 100, the contact end surface 25 may receive a reaction force of 100 grams force of the scanning medium surface 100, so that the scanning bracket 20 moves towards the housing 10 by a preset stroke.
Illustratively, the scanning carriage 20 may be movable along the length of the wand towards the housing 10. In addition, after the scanning stand 20 moves toward the housing 10, the scanning stand 20 may be reset in the non-operating state of the scanning pen.
In order to reset the scanning carriage 20 in the non-operating state of the scanning pen, in one embodiment, as shown in fig. 2 and 4, a first reset member 261 is disposed between the first working plate 21 and the housing 10, and a second reset member 262 is disposed between the second working plate 22 and the housing 10. After the scanning carriage 20 moves toward the housing 10 by the predetermined stroke, the first and second reset members 261 and 262 may apply an outward force toward the first and second working plates 21 and 22, respectively, after the scanning pen leaves the scanning medium surface 100, so that the scanning carriage 20 is reset for the next use of the scanning pen.
In one embodiment, as shown in fig. 2, the first and second restoring members 261 and 262 may each include a spring. During the movement of the scan stand 20 toward the housing 10, the first and second restoring members 261 and 262 may apply a reaction force to the scan stand 20, so that the scan stand 20 may be stably maintained during the movement.
In one embodiment, the first and second returning members 261 and 262 may be both conical springs, a small end of which faces the first or second working plate 21 or 22, and a large end of which faces the housing 10. By adopting the arrangement mode, in the process that the scanning support 20 moves towards the shell 10, the large end of the conical spring is kept, and the small end of the conical spring is compressed towards the large end, so that the stability of the conical spring in the moving process of the scanning support 20 is improved, the conical spring is prevented from being twisted, and the stability of the scanning support 20 in the moving process is further improved.
In one embodiment, as shown in fig. 2 and 4, a first slide rail 121 and a second slide rail 122 are disposed in the housing 10 and located at both sides of the scanning stand 20 and extending along the length direction of the housing 10. Illustratively, the first slideway 121 is located on a side of the first work plate 21 facing away from the second work plate 22, and the second slideway 122 is located on a side of the second work plate 22 facing away from the first work plate 21, as shown in fig. 4.
The first working plate 21 is provided with a first support rib 211 protruding toward the first slideway 121 side, and the first support rib 211 is slidably provided to the first slideway 121. Thus, the first support rib 211 can slide along the first slide rail 121. One end of the first slide rail 121, which is far away from the head 11, is provided with a first support seat 131, and a first reset piece 261 is arranged between the first support rib 211 and the first support seat 131.
The second working plate 22 is provided with a second support rib 221 protruding toward the second runner 122 side, and the second support rib 221 is slidably provided to the second runner 122. Thus, the second support rib 221 may slide along the second slide 122. The end of the second slide 122 away from the head 11 is provided with a second support seat 132, and the second restoring member 262 is disposed between the second support rib 221 and the second support seat 132.
By adopting the structure, the moving slide way of the scanning support is limited in the moving process of the scanning support, the scanning support is prevented from being dislocated in the moving process, and the stability of the structure is ensured.
In one embodiment, as shown in fig. 4, the first supporting rib 211 or the first supporting seat 131 is provided with a first columnar protrusion 212 protruding toward the first restoring member 261, and the first restoring member 261 is sleeved on the first columnar protrusion 212. The second support rib 221 or the second support seat 132 is provided with a second column-shaped protrusion 222 protruding toward the second restoring member 262, and the second restoring member 262 is sleeved on the second column-shaped protrusion 222. The first columnar protrusion 212 and the first columnar protrusion 212 can position the corresponding reset piece to prevent the reset piece from falling off.
Illustratively, the first stud bump 212 is disposed on the first support rib 211, and the second stud bump 222 is disposed on the second support rib 221, as shown in fig. 4. When the first restoring member 261 and the second restoring member 262 are both conical springs, the small end of the first restoring member 261 contacts with the first support rib 211, and the small end of the second restoring member 262 contacts with the second support rib 221; the large end of the first restoring member 261 contacts with the first supporting seat 131, and the large end of the second restoring member 262 contacts with the second supporting seat 132.
The scanning support 20 can rub against surrounding components during movement, which can affect the use experience. In one embodiment, the material of the scan support 20 may include Polyoxymethylene (POM) and a self-lubricating material. Illustratively, the scan support 20 is made of POM material doped with self-lubricating material. Therefore, the degree of lubrication of the scanning support 20 can be increased, the scanning support 20 can slide smoothly in the moving process, the friction between the scanning support 20 and surrounding parts is reduced, and the service life is prolonged.
The proportion of the POM and the self-lubricating material in the material of the scanning holder 20 may be set as required, as long as the friction coefficient of the scanning holder 20 can be reduced.
The material of the scanning holder 20 is not limited to POM, and other resin materials may be selected as necessary. In particular implementations, conventional self-lubricating materials may be selected as desired, so long as friction between the scanning carriage 20 and surrounding components is reduced.
In one embodiment, as shown in FIG. 2, the wand further includes a contact switch located within the housing 10. The first work plate 21 includes a first trigger end 213 distal from the contact end 25. The second work plate 22 includes a second trigger end 223 distal from the contact end 25. The contact switch is located on the stroke path of the first working plate 21 and/or the contact switch is located on the stroke path of the second working plate 22. The first trigger end 213 and/or the second trigger end 223 are adapted to trigger a contact switch generating an image acquisition signal.
It should be noted that after the touch switch 14 is triggered, it indicates that the user is using the wand. The contact switch 14 is triggered to generate an image acquisition signal so as to control image acquisition, so that abnormal starting of the image acquisition device can be avoided, and the service life of the image acquisition device is prolonged.
Illustratively, a first contact switch 14a is disposed on a stroke path of the first operating plate 21, and a second contact switch 14b is disposed on a stroke path of the second operating plate 22. During the preset stroke of the scanning support 20 moving towards the housing 10, the first trigger end 213 triggers the first contact switch 14a, the second trigger end 223 triggers the second contact switch 14b, and both the first trigger switch 14a and the second trigger switch 14b generate image capturing signals after being triggered.
In one embodiment, the wand may further include an image capture device and a control panel disposed within the housing 10. The contact switch 14 and the image acquisition device are both connected with the control panel. In the case where the control board receives the image pickup signal of the trigger switch 14, the control board controls the image pickup device to start image pickup.
Illustratively, in a case where the control board receives the image pickup signal of the first contact switch 14a and the image pickup signal of the second contact switch 14b, the control board controls the image pickup device to turn on for image pickup.
Illustratively, the control board controls the image capturing device to start image capturing under the condition that the control board receives the image capturing signal and the image capturing signal is kept for a preset time. This way, it is possible to avoid that the contact end 25 is touched by a person causing the image capturing device to be turned on by mistake.
In one embodiment, the control board may include a flexible circuit board and a main board.
Fig. 5 is an exploded view of a lower portion of a scanning pen according to an embodiment of the present disclosure, fig. 6 is a view of a lower portion of a scanning pen according to an embodiment of the present disclosure, and fig. 7 is a right side view of fig. 6. In one embodiment, as shown in fig. 1 and 5, the scan pen may further include a light sensing device 15 disposed in the housing 10, where the light sensing device 15 is configured to generate a fill-in signal when sensing that the brightness of the light on the scan medium surface 100 is lower than a preset brightness value.
Illustratively, the scanning pen may further include a light supplement device configured to supplement light to the scanning medium surface 100 when the light sensing device 15 generates a light supplement signal.
In the related art, a lighting device is arranged in the scanning pen, and the lighting device is turned on when the scanning pen is used. In this way, the illumination device is always in the on illumination state, which not only causes waste but also may cause unclear captured images due to too high brightness of the scanning medium surface 100 in the case that the brightness of the scanning medium surface 100 is sufficient.
In the embodiment of the present disclosure, the light sensing device 15 senses the luminance of the scanning medium surface 100, and the light supplementing signal is generated when the light sensing device 15 senses that the luminance of the scanning medium surface 100 is lower than a preset luminance value, so that the light supplementing device is turned on to supplement light to the scanning medium surface 100. In this way, the light supplement device is not turned on to supplement light when the luminance brightness of the scanned medium surface 100 is sufficiently large, that is, greater than or equal to the preset luminance value, and is turned on to supplement light only when the luminance brightness of the scanned medium surface 100 is lower than the preset luminance value. Therefore, the light supplementing device can be prevented from being started under the condition of no need, the power consumption of the scanning pen is reduced, the brightness of the scanning medium surface 100 can be guaranteed to be kept at proper brightness all the time, the image under the proper brightness can be collected, the definition of the collected image is guaranteed, and the user satisfaction is improved.
Fig. 8a is a schematic view of an internal structure of a scanning pen according to an embodiment of the present disclosure, and fig. 8b is a schematic view of another viewing angle of fig. 8 a. In one embodiment, the scanning pen may further include a light supplement device 16 and a control board 17. The photosensitive device 15, the light supplement device 16 and the control panel 17 are all arranged in the housing 10. The light supplementing device 16 and the photosensitive device 15 are both connected with the control board 17. The photosensitive device 15 is configured to sense the brightness of the scanned medium surface 100, and the control board 17 controls the light supplement device 16 to turn on to supplement light to the scanned medium surface 100 when the brightness of the scanned medium surface 100 is smaller than a preset brightness value.
Illustratively, the control board 17 controls the light supplement device 16 to turn on after receiving the light supplement signal from the light sensing device 15.
The scanning pen of the embodiment of the present disclosure can avoid the light supplementing device 16 from being turned on under the condition of not being needed, so as to reduce the power consumption of the scanning pen, and can ensure that the luminance brightness of the scanning medium surface 100 is always kept at a proper luminance, ensure that the image under the proper luminance can be collected, and ensure the definition of the collected image.
In one embodiment, as shown in fig. 1 and fig. 5, the scan pen may further include a light conducting element 30, the light incident surface of the light conducting element 30 receives and conducts the light reflected by the scan medium surface 100, and the light sensing device 15 faces the light emitting surface of the light conducting element 30.
Illustratively, the light-transmitting member 30 may include a light-receiving surface from which light rays reflected by the scanning medium surface 100 enter the light-transmitting member 30 and are transmitted therein, and a light-emitting surface from which light rays exit. The light-sensing portion of the light-sensing device 15 faces the light-emitting surface of the light-transmitting member 30 so as to collect the light emitted from the light-transmitting member 30.
In practical implementation, the installation position of the photosensitive device 15 may be limited and the brightness of the scanned medium surface 100 may not be directly acquired. Light conduction is performed by arranging the light conduction element 30, so that the brightness of the scanning medium surface 100 can be collected by the photosensitive device 15, and then the light supplement of the light supplement device is controlled. In such a way, the arrangement position of the photosensitive device 15 is more flexible, and the structural design of the scanning pen is facilitated.
In one embodiment, as shown in fig. 1 and fig. 5, a light shielding member 33 may be disposed between the light sensing device 15 and the light exiting surface of the light conducting element 30, and the light shielding member 33 is opened with a light exiting hole 331. The light sensing device 15 receives the light emitted from the light guide member 30 through the light emitting hole 331. By arranging the light shielding member 33, the light emitted from the light conducting element 30 can be prevented from being emitted outward, which is beneficial to improving the detection accuracy of the photosensitive device 15. Illustratively, the material of the light blocking member 33 may be a sealing foam.
In one embodiment, as shown in fig. 1, 5 and 6, the light-transmitting member 30 may include a plate-shaped body 31 and a light-receiving portion 32 disposed on the plate-shaped body 31. The housing 10 is provided with a light hole 101. The light hole 101 may face the scan medium side 100 during operation of the scanning pen. The light transmitting member 30 is located in the housing 10, and the light receiving portion 32 is located in the light transmitting hole 101. The photosensitive device 15 is located on a side of the plate-like body 31 facing away from the light receiving portion 32. With this structure, the light reflected by the scanning medium surface 100 can enter the light-transmitting member 30 through the light-receiving portion 32, and is transmitted in the light-transmitting member 30 to exit from the side of the plate-like body 31 facing the light-sensing device 15, and the light-sensing device 15 can sense the exiting light to detect the brightness of the scanning medium surface 100.
In addition, the position of the light-transmitting hole 101 may be set as needed. Illustratively, the light transmissive holes 101 may be proximate the head 11 of the housing 10 such that the light transmissive holes 101 are closer to the scan media face 100.
In one embodiment, as shown in fig. 6, 7 and 8, the wand may further include an image capture device 18 and a transparent member 19. The housing 10 includes a scanning window 102, the scanning window 102 being adjacent to the head 11, the scanning window 102 facing the medium scanning surface 100 during operation of the scanning pen. An image capture device 18, such as a Camera (Camera), is located within the housing 10 for capturing images of the scan media face 100. The transparent member 19 is disposed at the scanning window 102 and between the image pickup device 18 and the head 11. The transparent member 19 is disposed at the scanning window 102, so as to protect the components inside the housing 10, and to achieve an aesthetic effect, thereby improving the user satisfaction.
Illustratively, the transparent member 19 may be glass, and the transparent member 19 may be subjected to a double-sided antireflection treatment to improve the light transmittance of the transparent member 19. The light transmittance of the transparent member 19 is greater than 98%.
In one embodiment, the light incident surface of the light conducting element 30 may be disposed on the transparent member 19. The transparent member 19 is disposed at the scanning window 102, and the transparent member 19 is closer to the medium scanning surface 100, so that the light incident surface of the light conducting element 30 is disposed on the transparent member 19, the light conducting element 30 can better collect the brightness of the medium scanning surface 100, and the detection accuracy of the photosensitive device 15 is further improved.
In one embodiment, the light-conducting element 30 may be elongated, with the light-receiving surface of the light-conducting element 30 located at the scanning window 102 and facing the scan media face 100. The light-transmitting member 30 with such an arrangement not only can better receive the light scanned from the medium surface 100 and transmit the light to the photosensitive device 15, but also the light-transmitting member 30 with a long strip shape can be more flexibly arranged in the housing 10, thereby providing convenience for the position arrangement of the photosensitive device 15.
Fig. 9a is a schematic diagram of a position structure of internal components of a wand in an embodiment of the present disclosure, and fig. 9b is a schematic diagram of a position relationship of the internal components of the wand in an embodiment of the present disclosure. It will be appreciated that fig. 9a and 9b are schematic views from two opposite directions of the wand, respectively. In one embodiment, as shown in fig. 9a and 9b, the angle a between the transparent member 19 and the lengthwise direction of the wand may range from 35 ° to 45 ° (inclusive). The angle a may be any value of 35 ° to 45 °, and exemplarily, the angle a may be 38 °.
Fig. 9a and 9b show a state in which the scanner pen is in operation and the longitudinal direction of the scanner pen is perpendicular to the medium scanning surface 100. As shown in fig. 9a and 9b, the distance d1 between the transparent member 19 and the scan media face 100 is 14mm to 18mm (inclusive). The distance d1 may be any value from 14mm to 18 mm. Illustratively, the distance d1 may be 16 mm. It will be appreciated that the distance d1 may be the distance between the center of the transparent member 19 and the scan media face 100.
Fig. 10a is a schematic diagram of a first usage state of a wand of an embodiment of the present disclosure, and fig. 10b is a schematic diagram of a second usage state of the wand of the embodiment of the present disclosure. In fig. 10a and 10b, the scanning pen is in operation, and in fig. 10a, the scanning pen is in a first use state, and in the first use state, an angle between the length direction of the scanning pen and the scanning medium surface 100 is 90 °. In fig. 10b, the stylus is in a second use state in which the angle between the longitudinal direction of the stylus and the surface 100 of the scanned medium is 60 °. In one embodiment, during operation of the wand, the wand is oriented at an angle of between 90 ° and 60 ° (inclusive) to the medium face 100. That is, during the operation of the scanning pen, the angle between the longitudinal direction of the scanning pen and the surface 100 of the scanning medium is any one of 90 ° to 60 °.
In the related technology, the scanning pen forms a fixed angle with a scanning medium surface in the using process, so that the using freedom degree of the scanning pen is reduced. In the embodiment of the disclosure, in the use process of the scanning pen, the angle between the length direction and the scanning medium surface 100 is 90-60 degrees, and in this range, the scanning pen can acquire a cleaned image and perform image recognition with high quality, so that the use freedom of the scanning pen is enlarged, and the use experience of a user is improved.
In one embodiment, as shown in fig. 9a and 9b, the angle b between the central axis of the image capturing device 18 and the length direction of the wand may be 10 ° to 20 ° (inclusive). The angle b may be any value from 10 ° to 20 °, and exemplarily, the angle b may be 10 °.
It should be noted that the central axis of the image capturing device 18 is a line that passes through the center of the image capturing plane of the image capturing device 18 and is perpendicular to the image capturing plane.
In one embodiment, as shown in fig. 9a and 9b, the distance d2 between the image capture device 18 and the scan medium face 100 ranges from 23mm to 24mm (inclusive) when the wand is in operation and the length of the wand is perpendicular to the scan medium face 100. Illustratively, the distance d2 may be any value from 23mm to 24mm, for example, the distance d2 is 23.1 mm.
As shown in fig. 1 and 9b, the housing 11 of the stylus may include a first surface 41 and a second surface 42 in a direction sliding along the paper (left-right direction in fig. 1), the first surface 41 may be a flat surface, and the second surface 42 may be a curved surface or a flat surface. In one embodiment, the wand may further include a display device 50, the display device 50 being secured to the housing 11, the display device 50 having a display surface 51 disposed in a longitudinal direction of the wand, the display surface 51 being parallel to the first surface 41.
In one embodiment, as shown in FIG. 9b, the distance d3 between image capture device 18 and display surface 51 ranges from 6mm to 8mm (inclusive). Illustratively, the distance d3 may be any value from 6mm to 8mm, for example, the distance d3 may be 7.08 mm.
In the case of representing the distance between the image pickup device 18 and a certain member, the center of the image pickup plane of the image pickup device 18 is used as a reference point. For example, distance d2 is the distance between the image capture center of image capture device 18 and scan media face 100, and distance d3 is the distance between the image capture center of image capture device 18 and display surface 51.
The wand in the embodiment of the present disclosure defines the relative position relationship between the image capturing device 19 and the transparent member 19 by defining the angle a, the angle b, the distance d1, the distance d2 and the distance d3, so that the viewing angle range of the image capturing device 19 passes through the inside of the transparent member 19, the viewing angle range of the image capturing device 19 is prevented from exceeding the transparent member 19, and it is ensured that images within the viewing angle range of the image capturing device 19 can be captured by the image capturing device 18.
In one embodiment, as shown in FIG. 9b, the distance d7 between the transparent member 19 and the display surface 51 may range from 6mm to 9mm (inclusive). Illustratively, the distance d7 may be any value from 6mm to 9mm, such as 8 mm.
In one embodiment, as shown in fig. 8, the light supplement device 16 may include a first light supplement device 161 and a second light supplement device 162. The first light supplement device 161 and the second light supplement device 162 are located at two sides of the image acquisition device 18 and located between the transparent member 19 and the image acquisition device 18. The first light supplement device 161 and the second light supplement device 162 are located outside the visual angle range of the image acquisition device 18, and virtual images of the first light supplement device 161 and the second light supplement device 162 on the other side of the transparent member 19 are located outside the visual angle range of the image acquisition device 18. Therefore, the first light supplement device 161, the second light supplement device 162 and the virtual images thereof do not enter the shooting range of the image acquisition device 18, and the images shot by the image acquisition device 18 are not affected.
In one embodiment, as shown in fig. 8, the first light supplement device 161 and the second light supplement device 162 may be symmetrically disposed with respect to a central axis of the image capturing device 18.
In one embodiment, the distance d4 between the first light supplement device 161 and the second light supplement device 162 ranges from 8mm to 9mm (inclusive). That is, the distance d4 may be any value between 8mm and 9mm, for example, the distance d4 may be 8.5 mm. Distance d 4's setting can realize that first light filling device 161 and second light filling device 162 and its virtual image can not get into image acquisition device 18's shooting scope to guarantee that the light that first light filling device 161 and second light filling device 162 sent can shine the region that image acquisition device 18 corresponds uniformly, improve the light filling effect.
It should be noted that the distance d4 is a distance between the center of the light emitting surface of the first light supplement device 161 and the center of the light emitting surface of the second light supplement device 162.
For example, the first light supplement device 161 and the second light supplement device 162 may be LED lamps. It is to be understood that the first light supplement device 161 and the second light supplement device 162 are not limited to LED lamps, and may be devices capable of supplementing light, such as infrared lamps.
In one embodiment, as shown in fig. 9b, the distances d5 between the first and second light supplement devices 161 and 162 and the display surface 51 are in a range from 6.5mm to 7.5mm (inclusive). The distance d5 may be any value from 6.5mm to 7.5 mm. For example, the distance d5 is 7.08 mm. Distance d 5's setting can realize that first light filling device 161 and second light filling device 162 and its virtual image can not get into image acquisition device 18's shooting scope to guarantee that the light that first light filling device 161 and second light filling device 162 sent can shine the region that image acquisition device 18 corresponds uniformly, further improve the light filling effect.
The distance d5 is a distance between the center of the light emitting surface of the first light supplement device 161 and the display surface 51, or the distance d5 is a distance between the center of the light emitting surface of the second light supplement device 162 and the display surface 51.
In one embodiment, as shown in fig. 8a and 9b, when the scanning pen is in operation and the length direction of the scanning pen is perpendicular to the scanning medium surface 100, the distance d6 between the first and second light supplementing devices 161 and 162 and the scanning medium surface 100 is in a range of 18.6mm to 20.6mm (inclusive). Illustratively, the distance d6 may be any value from 18.6mm to 20.6mm, such as 19.6mm for distance d 6. In one embodiment, the angles c between the light-emitting surface of the first light supplement device 161 and the light-emitting surface of the second light supplement device 162 and the scanning medium plane 100 are both 30 ° to 50 °. Distance d6 and angle c's setting can realize that first light filling device 161 and second light filling device 162 and virtual image can not get into image acquisition device 18's shooting scope to guarantee that the light that first light filling device 161 and second light filling device 162 sent can shine the region that image acquisition device 18 corresponds uniformly, further improve the light filling effect.
It should be noted that the distance d6 is a distance between the center of the light emitting surface of the first light supplement device 161 and the scanned medium surface 100, or the distance d6 is a distance between the center of the light emitting surface of the second light supplement device 162 and the scanned medium surface 100.
It should be noted that, as shown in fig. 8, the light emitting surface of the first light supplement device 161 is inclined toward the second light supplement device 162, so that the angle between the light emitting surface of the first light supplement device 161 and the scanned medium surface 100 is 30 ° to 50 °; the light emitting surface of the second light supplement device 162 is inclined toward the first light supplement device 161, so that the angle between the light emitting surface of the second light supplement device 162 and the scanned medium surface 100 is 30 ° to 50 °.
In one embodiment, the depth of field of the image capture device 18 is 20mm to 24 mm.
FIG. 11 is a schematic view of the object distance of the wand during use in accordance with an embodiment of the present disclosure. Referring to fig. 10a and 10b, in the first usage state shown in fig. 10a, the angle between the central axis 61 of the image capturing device 18 and the length direction of the wand is-10 °. Referring to fig. 10a and 11, in the first usage state, the object distance range of the subject of the image capturing device 18 is 23.1mm to 26.7 mm. It should be noted that the "object distance" is a distance between the image capture center of the image capture device 18 and the scan medium plane 100. In fig. 10a, the maximum object distance is 26.7mm and the minimum object distance is 23.1 mm. The length M1 of line 1 in fig. 10a is the viewing length, which is the size of the viewing range of the image acquisition device 18 on the scan medium side.
In the second use state as shown in fig. 10b, the angle between the central axis 61 of the image capturing device 18 and the longitudinal direction of the scanning pen is 20 °. Referring to fig. 10b and 11, in the second usage state, the object distance range of the subject of the image capturing device 18 is 17.1mm to 23.1 mm. In fig. 10b, the maximum object distance is 23.1mm and the minimum object distance is 17.1 mm. The length M3 of line 3 in fig. 10b is the viewing length.
Fig. 11 also shows the corresponding viewing lengths of the scanning pen in two other states of use. For example the viewing length corresponding to line 2.
In the scanning pen of the embodiment of the disclosure, in the use process, the angle range between the length direction of the scanning pen and the scanning medium surface is 90 ° to 60 ° (including an end point value), and correspondingly, the object distance range of the shooting object is 17.1mm to 26.7mm (including an end point value).
In the description of the present specification, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present disclosure and to simplify the description, but are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present disclosure.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present disclosure, "a plurality" means two or more unless specifically limited otherwise.
In the present disclosure, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integral; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present disclosure can be understood by those of ordinary skill in the art as appropriate.
In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise the first and second features being in direct contact, or may comprise the first and second features being in contact, not directly, but via another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly above and obliquely above the second feature, or simply meaning that the first feature is at a lesser level than the second feature.
The above disclosure provides many different embodiments or examples for implementing different features of the disclosure. In order to simplify the disclosure of the present disclosure, specific example components and arrangements are described above. Of course, they are merely examples and are not intended to limit the present disclosure. Moreover, the present disclosure may repeat reference numerals and/or reference letters in the various examples, which have been repeated for purposes of simplicity and clarity and do not in themselves dictate a relationship between the various embodiments and/or arrangements discussed.
The above detailed description should not be construed as limiting the scope of the disclosure. It should be understood by those skilled in the art that various modifications, combinations, sub-combinations and substitutions may be made in accordance with design requirements and other factors. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present disclosure should be included in the scope of protection of the present disclosure.

Claims (10)

1. The utility model provides a scanning pen, its characterized in that, includes casing, light filling device, photosensitive device and control panel, the light filling device the photosensitive device with the control panel all sets up in the casing, the light filling device with the photosensitive device all with the control panel is connected, the photosensitive device configuration is for the luminance of sensing scanning medium face under the luminance of scanning medium face is less than the condition of predetermineeing the luminance value, control panel control the light filling device is opened in order to right scanning medium face carries out the light filling.
2. The wand of claim 1, further comprising a light-conducting element, wherein the light-incident surface of the light-conducting element receives and conducts the light reflected by the surface of the scanning medium, and the light-sensing device faces the light-emitting surface of the light-conducting element.
3. The scan pen of claim 2, wherein a light shielding member is disposed between the light sensing device and the light emitting surface of the light conducting member, the light shielding member defines a light emitting hole, and the light sensing device receives the light emitted from the light conducting member through the light emitting hole.
4. The wand of claim 2, wherein the housing defines a light-transmitting aperture, the light-transmitting element includes a plate-like body and a light-receiving portion disposed on the plate-like body, the light-receiving portion is disposed in the light-transmitting aperture, and the light-sensing device is disposed on a side of the plate-like body facing away from the light-receiving portion.
5. The wand of claim 2, further comprising an image capture device and a transparent member, wherein the housing comprises a head and a scanning window, the image capture device is disposed within the housing, the transparent member is disposed at the scanning window, and the light incident surface of the light transmissive element is disposed on the transparent member.
6. The wand of claim 5, wherein the angle between the transparent member and the lengthwise direction of the wand is from 35 ° to 45 °;
when the scanning pen works and the length direction of the scanning pen is perpendicular to the scanning medium surface, the distance between the transparent piece and the scanning medium surface is 14mm to 18 mm.
7. The wand of claim 5, wherein the light supplementing device comprises a first light supplementing device and a second light supplementing device, the first light supplementing device and the second light supplementing device are located at two sides of a visual angle range of the image acquisition device and between the transparent member and the image acquisition device, and virtual images of the first light supplementing device and the second light supplementing device at the other side of the transparent member are both located outside the visual angle range of the image acquisition device.
8. The stylus according to claim 7, further comprising a display device fixed to the housing, wherein the display device has a display surface disposed in a length direction of the stylus, distances between the first and second light supplement devices and the display surface are both 6.5mm to 7.5mm, and a range of the distance between the first and second light supplement devices is 8mm to 9 mm.
9. The stylus according to claim 8, wherein when the stylus is in operation, and a length direction of the stylus is perpendicular to the scanning medium surface, distances between the first light supplement device and the scanning medium surface and between the second light supplement device and the scanning medium surface are both 18.6mm to 20.6mm, and angles between light emitting surfaces of the first light supplement device and the second light supplement device and the scanning medium surface are both 30 ° to 50 °.
10. The wand of claim 2, wherein the housing includes a scanning window, the light-conducting element is elongated, and a light-receiving surface of the light-conducting element is positioned at the scanning window and faces the medium-scanning surface.
CN202121927234.2U 2021-08-17 2021-08-17 Scanning pen Active CN215934932U (en)

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CN202121927234.2U CN215934932U (en) 2021-08-17 2021-08-17 Scanning pen

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Application Number Priority Date Filing Date Title
CN202121927234.2U CN215934932U (en) 2021-08-17 2021-08-17 Scanning pen

Publications (1)

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CN215934932U true CN215934932U (en) 2022-03-01

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