WO2019237677A1 - 交互智能平板的摄像头安装结构及交互智能平板 - Google Patents
交互智能平板的摄像头安装结构及交互智能平板 Download PDFInfo
- Publication number
- WO2019237677A1 WO2019237677A1 PCT/CN2018/118642 CN2018118642W WO2019237677A1 WO 2019237677 A1 WO2019237677 A1 WO 2019237677A1 CN 2018118642 W CN2018118642 W CN 2018118642W WO 2019237677 A1 WO2019237677 A1 WO 2019237677A1
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- WIPO (PCT)
- Prior art keywords
- support
- camera
- support shaft
- frame
- friction member
- Prior art date
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Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M13/00—Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles
- F16M13/02—Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16M—FRAMES, CASINGS OR BEDS OF ENGINES, MACHINES OR APPARATUS, NOT SPECIFIC TO ENGINES, MACHINES OR APPARATUS PROVIDED FOR ELSEWHERE; STANDS; SUPPORTS
- F16M11/00—Stands or trestles as supports for apparatus or articles placed thereon ; Stands for scientific apparatus such as gravitational force meters
- F16M11/02—Heads
- F16M11/04—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand
- F16M11/06—Means for attachment of apparatus; Means allowing adjustment of the apparatus relatively to the stand allowing pivoting
Definitions
- the present invention relates to the technical field of intelligent interactive devices, and in particular, to a camera mounting structure of an interactive smart tablet and an interactive smart tablet.
- the camera After the camera is rotated multiple times to adjust the camera, the camera is easily affected by external influences, which makes it difficult for the camera to maintain a set shooting angle.
- An interactive smart tablet camera mounting structure includes a support and a support shaft.
- the support is rotatably mounted on the support shaft.
- a friction member is provided between the support shaft and the support.
- One side of the friction member is elastic to the support.
- the abutment, the other side of the friction member elastically abuts against the support shaft, the support is used to install the camera, and the friction member is used to provide the support with the rotation damping of the support shaft.
- the friction member In the camera mounting structure of the interactive smart tablet, two sides of the friction member elastically abut against the support and the support shaft, respectively.
- the camera is mounted on the support, and the rotation of the camera is achieved through the rotation of the support.
- the relative damping of rotation of the support shaft provided by the friction member to the support is used to maintain the position of the support relative to the support shaft, thereby maintaining the shooting angle of the camera. Because the friction member is in elastic contact with the support and the support shaft, when there is a gap between the friction member, the support and the support shaft, the friction member can make up for the gap between the friction member, the support and the support shaft, so that the support can Damped by maintaining the camera's shooting angle.
- FIG. 1 is a schematic diagram of a camera installation structure according to an embodiment
- FIG. 2 is a schematic diagram of a local explosion at A in FIG. 1;
- FIG. 3 is a schematic diagram of a camera installation structure according to an embodiment
- FIG. 4 is a schematic diagram of an interactive smart tablet according to an embodiment
- FIG. 5 is a schematic structural diagram of a heat dissipation structure of a camera according to an embodiment
- FIG. 6 is a schematic structural diagram of a heat dissipation support and a support shaft according to an embodiment
- FIG. 7 is a partial exploded view at A in FIG. 6;
- FIG. 8 is a schematic structural diagram of an interactive smart tablet according to an embodiment
- FIG. 9 is a schematic structural diagram of a camera positioning structure according to an embodiment.
- FIG. 10 is a schematic structural diagram of a camera positioning structure according to an embodiment
- FIG. 11 is a schematic structural diagram of a camera stop structure according to an embodiment
- FIG. 12 is a schematic structural diagram of an interactive smart tablet according to an embodiment
- FIG. 13 is a schematic structural diagram of a camera mounting assembly according to an embodiment
- FIG. 14 is a schematic structural diagram of a base frame according to an embodiment
- FIG. 15 is a schematic structural diagram of a card holder according to an embodiment
- FIG. 16 is a schematic diagram of a mating structure of a mounting bracket and a connecting bracket according to an embodiment
- FIG. 17 is a schematic structural diagram of an interactive smart tablet according to an embodiment
- FIG. 18 is a schematic structural diagram of a screen frame, an attachment mounting component, a screen frame with integrated accessories, and an interactive smart tablet according to an embodiment
- 19 is an installation assembly diagram of a mounting bracket and a connecting bracket according to an embodiment
- 20 is a schematic structural diagram of an accessory installation component according to an embodiment
- 21 is a schematic structural diagram of a base frame according to an embodiment
- 22 is a schematic structural diagram of a card holder according to an embodiment.
- Reference sign description A100, support, A110, carrier plate, A120, first connection plate, A121, first mounting hole, A130, second connection plate, A200, support shaft, A210, first support shaft, A211, Adjustment section, A212, positioning member, A220, second support shaft, A300, friction member, A310, dish spring, A311, through hole, A400, adjustment member, A500, dial, A600, camera, A700, bracket, A800 , Thermal layer, A900, Frame;
- cooling support B110, carrier board, B120, first connection plate, B121, first mounting hole, B130, second connection plate, B200, support shaft, B210, first support shaft, B211, adjustment section, B212 , Positioning member, B220, second support shaft, B300, friction member, B310, dish spring, B311, through hole, B400, adjustment member, B500, dial, B600, camera, B700, bracket, B800, thermal conductive layer, B900, border;
- connection hole, D400 mounting bracket, D410, base frame, D411, mounting groove, D412, clamping block, D413, guide block, D415, limit piece, D415a, limit boss, D415b, mounting block, D420 , Card holder, D421, first partition, D422, second partition, D423, card slot, D425, bump, D427, cover, D427a, perimeter D427a, D428, stopper, D500, connecting frame, D510 , Bracket, D520, base plate, D521, first connection hole, D522, third connection hole, D600, back cover, D610, fifth connection hole;
- Embodiment 1 With reference to FIGS. 1-4, this embodiment provides a camera mounting structure and an interactive smart tablet, which is applicable to electronic devices or smart terminals, especially large-screen intelligent interactive products such as smart interactive tablets and smart blackboards.
- the camera A600 can be used for framing, especially taking pictures, image recognition, video recording, and assisting in completing some interactive functions realized through images
- the support A100 is the installation basis of the camera A600.
- the base A100 plays the role of carrying the camera A600, so that the camera A600 can rotate with it.
- the support shaft A200 is called a shaft, it is not limited to the setting form of the shaft.
- the friction member A300 mainly provides rotation damping for the support A100.
- the rotation of the support A100 is restricted by the damping provided by the friction member A300, so that the support A100 can not rotate under gravity, and the support A100 can pass under the condition of gravity
- the damping provided by the friction member maintains the original state, so that the friction member A300 can keep the shooting angle unchanged.
- a camera mounting structure includes a support A100 and a support shaft A200.
- the support A100 is rotatably mounted on the support shaft A200.
- a friction member A300 is provided between the support shaft A200 and the support A100.
- One side of the piece A300 is elastically abutted with the support A100, and the other side of the friction piece A300 is elastically abutted with the support shaft A200.
- the support A100 is used to install the camera A600, and the friction piece A300 is used to provide a relative support shaft for the support A100.
- A200 rotation damping is used to provide a relative support shaft for the support A100.
- the camera A600 is installed on the support A100, and the rotation of the camera A600 is realized by the rotation of the support A100.
- the rotation damping provided by the friction member A300 to the support A100 relative to the support axis A200 is used to maintain the position of the support A100 relative to the support axis A200, thereby maintaining the shooting angle of the camera A600.
- the support shaft A200 includes a first support shaft A210 and a second support shaft A200 spaced apart.
- One side of the support A100 is rotatably connected to the first support shaft A210, and the other side of the support A100 is connected to the first support shaft A200.
- the two support shafts A220 are rotationally connected; the friction member A300 is disposed on the first support shaft A210, one side of the friction member A300 is elastically abutted with the support A100, and the other side of the friction member A300 is abutted with the first support shaft A210.
- the two sides of the support A100 are rotatably connected to the first support shaft A210 and the second support shaft A220, respectively. Compared with a single-sided connection support, such a two-sided connection can improve the connection stability of the support A100.
- the support A100 includes a carrier board A110, a first connection board A120, and a second connection board A130.
- the first connection board A120 and the second connection board A130 are disposed on the carrier board A110 at a relative distance.
- the first connection plate A120 is rotatably connected to the first support shaft A210
- the second connection plate A130 is rotatably connected to the second support shaft A220
- the carrier plate A110 is used for mounting the camera A600
- one side of the friction member A300 It is in elastic contact with the first support shaft A210, and the other side of the friction member A300 is in elastic contact with the first connection plate A120.
- an adjustment member A400 is provided on the first support shaft A210, the adjustment member A400 is spaced from the first connection plate A120, and the friction member A300 is located between the adjustment member A400 and the first connection plate A120.
- the adjusting member A400 can move in a direction close to or away from the first connecting plate A120, one side of the friction member A300 is elastically abutted with the first connecting plate A120, and the other side of the friction member A300 is elastically abutting with the adjusting member A400.
- the damping of the rotation of the support A100 relative to the first support shaft A210 can be adjusted, so that the support A100 can be subjected to Sufficient damping to limit rotation.
- the first connection plate A120 is provided with a first mounting hole A121
- the first support shaft A210 is provided with an adjustment section A211
- the adjustment section A211 penetrates the first installation hole.
- the adjusting member A400 is located between the first connecting plate A120 and the second connecting plate A130, and the adjusting member A400 is connected to the adjusting section A211.
- the first support shaft A210 is rotatably connected to the first connection plate A120 through an adjustment section A211 that penetrates the first mounting hole A121.
- the adjustment member A400 is located between the first connection plate A120 and the second connection plate A130.
- the adjustment is moved in a direction close to or away from the first connection plate A120.
- A400 which can avoid changing the installation dimensions of the first support shaft A210 and the second support shaft A220 during the process of moving the adjustment member A400.
- the first support shaft A210 is provided with a positioning member
- the positioning member A212 is located on a side of the first connection plate A120 away from the second connection plate A130, and the positioning member A212 is in abutment with the first connection plate A120. .
- the positioning member A212 has a positioning shaft shoulder on the first support shaft A210.
- the positioning member A212 may also be a pin that is threadedly connected to the first support shaft A210, or a positioning projection that is snap-fitted to the first support shaft A210, and is used to restrict the first connection plate A120 on the first support shaft A210. Positioner for axial position.
- the adjusting member A400 is threadedly connected to the adjusting section A211.
- the adjusting member A400 is threadedly connected to the adjusting section A211. In this way, the distance between the first connecting plate A120 and the adjusting member A400 can be adjusted through forward and reverse rotations, thereby controlling the damping of maintaining the shooting angle of the camera A600.
- the camera mounting structure of the interactive smart tablet further includes a dial A500 and a camera A600, and the dial A500 and the camera A600 are respectively installed on opposite surfaces of the carrier board A110, and the dial Block A500 is used to rotate the support A100.
- the dial A500 and the camera A600 are respectively installed on the opposite surfaces of the carrier board A110. This can save the size of the carrier board A110 while avoiding the impact of the dial A500 on the camera A600.
- the carrier board A110 is a heat-dissipating carrier board.
- the camera A600 and the carrier board A110 are disposed on a heat-conducting layer A800.
- the camera A600 transmits heat to the heat-dissipating carrier board through the heat-conducting layer A800.
- the camera mounting structure of the interactive smart tablet further includes a bracket A700, which is disposed on the carrier board A110, an installation space is formed between the bracket A700 and the carrier board A110, and the camera A600 is installed in the installation space.
- the mounting space of the camera A600 between the bracket A700 and the carrier board A110 facilitates the installation and fixing of the camera A600, and the bracket A700 can also protect the camera A600 from impact.
- the friction member A300 is a dish-shaped elastic piece A310
- the dish-shaped elastic piece A310 is provided with a through hole A311
- the dish-shaped elastic piece A310 is mounted on the support shaft A200 through the through hole A311.
- the dish spring A310 is mounted on the support shaft A200 through the through hole A311, so that the positional relationship between the dish spring A310 and the support shaft A200 can be ensured, and the stability of the damping of the camera A600 shooting angle can be maintained.
- the friction member A300 may be a combination of a friction block and a spring.
- the friction block is used to provide the damping of the rotation of the support A100 relative to the support shaft A200.
- the spring is located between the support shaft A200 and the friction block. , One end of the spring is in contact with the support shaft, and the other end of the spring is in contact with the friction block.
- this embodiment also provides an interactive smart tablet, which includes a frame A900, a camera A600, a support A100, and a support shaft A200.
- the support shaft A200 is mounted on the frame A900, and the support A100 is mounted for rotation On the support shaft A200, a friction member A300 is provided between the support shaft A200 and the support A100.
- One side of the friction member A300 is in elastic contact with the support A100, and the other side of the friction member A300 is in elastic contact with the support shaft A200.
- the support A100 is used to install the camera A600, and the friction member A300 is used to provide the support A100 with friction resistance against the rotation of the support shaft A200; the camera A600 is installed on the support A100 and can rotate with the support A100.
- the friction member A300 elastically abut against the support A100 and the support shaft A200, respectively.
- the camera A600 is installed on the support A100, and the rotation of the camera A600 is realized by the rotation of the support A100.
- the damping of the relative support axis A200 provided by the friction member A300 for the support A100 is used to maintain the position of the support A100 relative to the support axis A200, thereby realizing the camera A600 shooting Maintenance of angle.
- the interactive smart tablet further includes a rear cover (not shown in the figure), which is connected to the frame A900.
- the rear cover is used to cover the camera A600, the support A100, the support shaft A200, and the friction member.
- A300, the back cover is provided with an opening corresponding to the support A100, and the opening is used to rotate the support A100.
- the back cover can protect the camera A600, the support A100, the support shaft A200, and the friction member A300.
- the support A100 can be rotated through the opening, so it is convenient to adjust the shooting angle of the camera A600 from the outside.
- the interactive smart tablet further includes a dial A500, the dial A500 is connected to the support A100, and the dial A500 partially protrudes from the opening.
- the dial A500 is connected to the support A100, and the dial A500 part protrudes out of the opening. This adjustment is convenient and simple.
- Embodiment 2 With reference to FIGS. 5-8, this embodiment provides a camera heat dissipation structure and an interactive smart tablet, which is applicable to electronic devices or smart terminals, especially large-screen smart interactive products such as smart interactive tablets and smart blackboards.
- the camera B600 can be used for framing, especially taking pictures, image recognition, video recording, and assisting in completing some interactive functions realized through images
- the cooling support B100 is the installation base of the camera B600.
- the cooling support B100 plays a role of carrying the camera B600, so that the camera B600 can rotate with it.
- the support shaft B200 is called a shaft, it is not limited to the setting form of the shaft.
- the support shaft B200 is mainly provided with a rotation fulcrum for the support B100 so that the support B100 can rotate around a certain direction.
- the thermally conductive layer B800 is a heat transfer medium located between the heat dissipation support B100 and the camera B600. Although it is called a layer, it is not limited to a layered form, and it mainly transfers the heat of the camera B600.
- this embodiment provides a camera heat dissipation structure including a support shaft B200, a camera B600, and a heat sink support B100.
- the heat sink support B100 is rotatably mounted on the support shaft B200, and the camera B600 is installed.
- a thermally conductive layer B800 is provided between the camera B600 and the heat dissipation support B100. The heat conductive layer B800 is used to transfer the heat of the camera B600 to the heat dissipation support B100.
- the heat dissipation structure of the camera uses the heat dissipation support B100 carrying the rotation of the camera B600 as the heat dissipation of the camera B600.
- the heat dissipation support B100 can transfer the heat of the camera B600 to the heat dissipation support B100 while the camera B600 rotates.
- the heat dissipation support B100 is used to increase the heat dissipation area of the camera B600 to ensure that the camera B600 can have good heat dissipation.
- the camera heat dissipation structure further includes a bracket B700.
- the bracket B700 is disposed on the heat sink support B100.
- An installation space is formed between the bracket B700 and the heat sink support B100.
- the camera B600 is installed in the installation space. Inside. The mounting space formed by the combination of the bracket B700 and the heat sink support B100 can better install and fix the camera B600, and at the same time, the camera B600 can be effectively protected by the bracket B700 and the heat sink support B100.
- the thermally conductive layer B800 is made of a thermal interface material.
- the thermal interface material can fill the uneven holes on the surface of the camera B600 and the heat sink support B100, thereby improving the heat dissipation performance of the camera B600.
- the thermal interface material is thermally conductive silica gel or thermal grease, which has low cost and good thermal conductivity.
- the support shaft B200 includes a first support shaft B210 and a second support shaft B220 spaced apart.
- One side of the heat sink support B100 is rotatably connected to the first support shaft B210, and the other side of the heat sink support B100. It is rotatably connected with the second support shaft B220.
- the arrangement of the first support shaft B210 and the second support shaft B220 can improve the rotation installation stability of the heat dissipation support B100 and ensure the rotation reliability of the heat dissipation support B100.
- the heat dissipation support B100 includes a carrier board B110, a first connection board B120, and a second connection board B130.
- the first connection board B120 and the second connection board B130 are disposed at intervals.
- the carrier board B110 is located between the first connection board B120 and the second connection board B130.
- One side of the carrier board B110 is connected to the first connection board B120, and the other side of the carrier board B110 is connected to the second connection board B130.
- the first connection plate B120 is rotatably connected to the first support shaft B210
- the second connection plate B130 is rotatably connected to the second support shaft B220
- the camera B600 is installed on the carrier plate B110, which has a simple structure and convenient installation.
- an adjustment member B400 is provided on the first support shaft B210, the adjustment member B400 is spaced from the first connection plate B120, and a friction member B300 is provided between the adjustment member B400 and the first connection plate B120.
- the adjusting member B400 can move in a direction close to or away from the first connecting plate B120.
- One side of the friction member B300 is elastically abutted with the first connecting plate B120, and the other side of the friction member B300 is elastically abutting with the adjusting member B400.
- the damping of the rotation of the support B100 relative to the first support shaft B210 can be adjusted, so that the support B100 can be subjected to Sufficient damping to limit rotation.
- the first connection plate B120 is provided with a first mounting hole B121
- the first support shaft B210 is provided with an adjustment section B211
- the adjustment section B211 penetrates the first installation hole.
- the adjusting member B400 is located between the first connecting plate B120 and the second connecting plate B130, and the adjusting member B400 is connected to the adjusting section B211.
- the first support shaft B210 is rotatably connected to the first connection plate B120 through an adjustment section B211 that penetrates the first mounting hole B121.
- the adjusting member B400 is located between the first connecting plate B120 and the second connecting plate B130.
- the adjusting member B400 is moved and adjusted in a direction close to or away from the first connecting plate B120.
- Piece B400 this way can avoid changing the installation size of the first support shaft B210 and the second support shaft B220 during the process of moving the adjustment member B400.
- the first supporting shaft B210 is provided with a positioning member B212, and the positioning member B212 is located on a side of the first connecting plate B120 away from the second connecting plate B130, and the positioning member B212 is in contact with the first connecting plate B120.
- the positioning member B212 is in contact with the first connection plate B120, so that the support B100 can be prevented from moving in the axial direction of the first support shaft B210.
- the positioning shaft shoulder on the first supporting shaft B210 of the positioning member B212 is provided with a positioning member B212, and the positioning member B212 is located on a side of the first connecting plate B120 away from the second connecting plate B130, and the positioning member B212 is in contact with the first connecting plate B120.
- the positioning member B212 is in contact with the first connection plate B120, so that the support B100 can be prevented from moving in the axial direction of the first support shaft B210.
- the positioning shaft shoulder on the first supporting shaft B210 of the positioning member B212 is provided with a positioning member B212, and the positioning member B212
- the positioning member B212 can also be a pin screwed on the first support shaft B210, or a snap-on and a positioning projection on the first support shaft B210 to restrict the first connection plate B120 from moving axially on the first support shaft B210. Positioning parts.
- the friction member B300 is a dish-shaped elastic piece B310
- the dish-shaped elastic piece B310 is provided with a through hole B311
- the dish-shaped elastic piece B310 is mounted on the support shaft B200 through the through hole B311.
- the dish spring B310 is mounted on the support shaft B200 through the through hole B311. This can ensure the positional relationship between the dish spring B310 and the support shaft B200 and ensure the stability of the damping of the camera B600 shooting angle.
- the above interactive smart tablet uses the cooling bracket B100 carrying the rotation of the camera B600 as the camera B600 to dissipate heat.
- the cooling bracket B100 can transfer the heat of the camera B600 to the cooling bracket B100 while the camera B600 rotates.
- the heat dissipation support B100 is used to increase the heat dissipation area of the camera B600 to ensure that the camera B600 can have good heat dissipation.
- the interactive smart tablet further includes a bracket B700, which is mounted on the support B100, the bracket B700 cooperates with the support B100 to form an installation space, and the camera B600 is installed in the installation space.
- the mounting space formed by the combination of the bracket B700 and the heat sink support B100 can better install and fix the camera B600, and at the same time, the camera B600 can be effectively protected by the bracket B700 and the heat sink support B100.
- the support shaft B200 includes a first support shaft B210 and a second support shaft B220 spaced apart, and the heat dissipation support B100 is located between the first support shaft B210 and the second support shaft B220.
- the heat dissipation support One side of B100 is rotatably connected to the first support shaft B210, and the other side of the heat dissipation support B100 is rotatably connected to the second support shaft B220.
- the arrangement of the first support shaft B210 and the second support shaft B220 can improve the rotation installation stability of the heat dissipation support B100 and ensure the rotation reliability of the heat dissipation support B100.
- the heat dissipation support B100 includes a carrier board B110, a first connection board B120, and a second connection board B130.
- the first connection board B120 and the second connection board B130 are spaced apart, and the carrier board B110 is located at Between the first connection board B120 and the second connection board B130, one side of the carrier board B110 is connected to the first connection board B120, and the other side of the carrier board B110 is connected to the second connection board B130.
- the first connection board B120 It is rotatably connected to the first support shaft B210, the second connection plate B130 is rotatably connected to the second support shaft B220, and the camera B600 is installed on the carrier plate B110, which has a simple structure and convenient installation.
- the interactive smart tablet further includes a rear cover (not shown in the figure), which is connected to the frame B900.
- the rear cover is used to cover the camera B600, the support B100, the support shaft B200, and the friction member.
- B300 the back cover is provided with an opening corresponding to the support B100, and the opening is used to rotate the support B100.
- the back cover can protect the camera B600, the support B100, the support shaft B200, and the friction member B300.
- the support B100 can be rotated through the opening, so it is convenient to adjust the shooting angle of the camera B600 from the outside.
- the interactive smart tablet further includes a dial block B500, which is connected to the support B100, and the dial block B500 partially protrudes from the opening.
- the dial block B500 is connected to the support B100, and the dial block B500 part protrudes out of the opening, and this adjustment is convenient and simple.
- Embodiment 3 With reference to FIGS. 9-12, this embodiment provides a camera limit structure and an interactive smart tablet, which is suitable for electronic devices or smart terminals, especially large-screen smart interactive products such as smart interactive tablets and smart blackboards.
- the camera C520 can be used for framing, especially taking pictures, image recognition, video recording, and assisting in completing some interactive functions realized through images
- the support C100 is the installation basis of the camera C520.
- the base C100 plays the role of carrying the camera C520, so that the camera C520 can rotate with it.
- the support shaft C200 is called a shaft, it is not limited to the setting form of the shaft.
- the support shaft C200 mainly provides a pivot for the support C100, so that the support C100 can rotate around a certain direction.
- the stopper C120 is a component that cooperates with the rotation stopper C620, and the two can interfere with each other with respect to the rotation path. Through the interference between the stopper C120 or the rotation stopper C620 during rotation, the rotation range of the support C100 is limited.
- the position piece C120 and the non-rotation piece C620 may be part of the support C100 or the support shaft C200, or may be components connected to the support C100 or the support shaft C200.
- an embodiment provides a camera stopper structure including a support C100, which is used to install a camera C520 (not shown in the figure); a support shaft C200 configured as the support The rotation axis of the seat C100; the stopper C120 and the rotation stopper C620, one of which is linked with the support C100 and the other is linked with the support shaft C200, and the rotation paths of the two interfere with each other; wherein the limiter C120 includes a first limiting portion C123a and a second limiting portion C123b, and the rotation stopper C620 is located between the second limiting portion C123b and the second limiting portion C123b.
- the support C100 is rotatably mounted on the support shaft C200
- the camera C520 is mounted on the support C100
- the camera C520 rotates with the support C100.
- the rotation stopper C620 It moves relative to the limiter C120.
- the rotation stopper C620 abuts the first limiter C123a or the second limiter C123b of the limiter C120.
- the camera C520 is restricted to a safe corner range, thereby ensuring the normal use of the camera C520.
- the limiting member C120 is disposed on the support C100, the limiting member C120 defines a limiting hole C123, and the rotation stopper C620 is located in the limiting hole C123.
- the first limiting portion C123a and the second limiting portion C123b are inner walls of the limiting hole C123 that is in contact with the rotation stopper C620.
- the rotation stopper C620 is installed in the limiting hole C123, and the inner wall of the limiting hole C123 is used as the first limiting portion C123a and the second limiting portion C123b.
- the structure is simple and the installation is convenient.
- the limiting hole C123 is an arc-shaped hole
- an inner wall of one end of the arc-shaped hole is a first limiting portion C123a
- an inner wall of the other end of the arc-shaped hole is a second limiting portion C123b.
- the rotation stopper C620 moves relative to the stopper C120 in an arc-shaped hole.
- the opening of the arc-shaped hole can weaken the strength of the stopper C120 to a small extent.
- the above-mentioned limiting member C120 may also be disposed on the support shaft C200, and the positioning member C212 may be disposed on the support C100.
- the structure can refer to the structure in which the middle limiter C120 is disposed on the support C100, and the positioning member C212 is disposed on the support shaft C200.
- the limiter C120 includes a first limiter block and a second limiter block (not shown in the figure) provided on the support C100, and the first limiter block and the first limiter block Two limit blocks are set at intervals, the rotation stopper C620 is located between the first limit block and the second limit block, and the first limit portion C123a corresponds to the second limit block on the first limit block
- the second limiting portion C123b is the side corresponding to the first limiting block on the second limiting block.
- the rotation limiter C620 is restricted by the first limit block and the second limit block provided on the support C100, which has a simple structure and convenient installation.
- the camera-limiting structure further includes a support member C610.
- the support member C610 is provided with a rotation prevention hole C612, and the support member C610 is installed on the support shaft C200 through the rotation prevention hole C612.
- the rotation stopper C620 is disposed on the support shaft C200, the support member C610 is installed on the support shaft C200 through the rotation stop hole C612, the support member C610 is fixed with the support shaft C200, and the rotation stopper C620 is provided on the support member, which is convenient. Limit the rotation stopper C620 to the support shaft C200.
- the rotation prevention hole C612 is a non-circular hole, and may be a square hole, a strip hole, a rectangular hole, an oval hole, or the like.
- the interference between the inner wall of the rotation prevention hole and the support shaft C200 is used to prevent the support C610 from rotating around the support shaft C200.
- the support shaft C200 is provided with a positioning member C212, the positioning member C212 is spaced from the support C100, and the support member C610 is located between the positioning member C212 and the support C100.
- One side is in contact with the support C100, and the other side of the support member C610 is in contact with the positioning member C212.
- the abutment of the positioning member C212 and the support C100 on the supporting member C610 can limit the position between the supporting member C610 and the limiting member C120, and prevent the supporting member C610 from moving away from the cooperation of the limiting member C120 along the axial direction of the supporting shaft C200. .
- the support C100 includes a carrier plate C100C, which is used to install a camera C520, the carrier plate C100C has an upper limit piece C120, and the limit piece C120 is rotatably connected to the support shaft C200.
- the support C100 is rotatably connected to the support shaft C200 through a limiting member C120 provided on the carrier board C100C, and has a compact structure.
- the support shaft C200 includes a first support shaft C210 and a second support shaft C220 spaced apart.
- One side of the support C100 is rotatably connected to the first support shaft C210, and the support C100
- the other side of the bracket is rotatably connected to the second support shaft C220; the support member C610 is mounted on the first support shaft C210 through the rotation prevention hole C612.
- the arrangement of the first support shaft C210 and the second support shaft C220 can improve the rotation installation stability of the support C100 and ensure the rotation reliability of the support C100.
- a connecting member C130 is further provided on the carrier board C100C, and the connecting member C130 is spaced from the stopper C120 on the support shaft C200.
- the first support shaft C210 is rotatably connected to the stopper C120.
- the second support shaft C220 is rotatably connected to the connecting member C130.
- the support C100 is rotatably connected to the first support shaft C210 and the second support shaft C220 through the stopper C120 and the connection member C130, respectively, to realize the rotation of the support C100.
- a first groove is provided on a surface of the support member C610 opposite to the stopper C120, and the first groove is used for storing lubricating oil or grease.
- a second groove C611 is provided on a surface of the limiting member C120 opposite to the support member C610, and the second groove C611 is used for storing lubricating oil or grease.
- the lubricating oil or grease stored in the first groove or the second groove C611 can reduce the friction between the support member C610 and the stopper C120, and reduce the mutual wear between the two.
- first groove and the second groove C611 may be opened at the same time, or only one of them may be opened.
- the camera limiting structure further includes a bracket C530, which is mounted on the support C100, and the bracket C530 cooperates with the support C100 to form an installation space, and the installation Space for the camera C520.
- the mounting space formed by the combination of the bracket C530 and the support C100 can better install and fix the camera C520, and at the same time, the camera C520 can be effectively protected by the support C530 and the support C100.
- the support shaft C200 is provided with a second mounting hole C230, and the second mounting hole C230 is used for connecting with the frame C550.
- the connection between the support shaft C200 and the frame C550 is completed through a fastener penetrating into the second installation hole C230.
- a friction member C300 is provided between the position-limiting member C120 and the first support shaft C210, and one side of the friction member C300 is elastically abutted against the first support shaft C210 to cause friction. The other side of the piece C300 is elastically abutted with the limit piece C120.
- the support C100 is provided with the damping of the support C100 relative to the first support shaft C210 and the second support shaft C220.
- the friction member C300 and the support member C610 are disposed on both sides of the stopper C120; by separating the friction member C300 and the support member C610 on both sides of the stopper C120, it is possible to avoid a gap between the insert member and the support member C610. Mutual interference occurs, so that the friction member C300 cannot provide the support C100 with sufficient damping to limit rotation.
- the first supporting shaft C210 is provided with an adjustment member C400, the adjustment member C400 is spaced from the stopper C120, and the friction member C300 is located between the adjustment member C400 and the stopper C120, and is adjusted.
- the piece C400 can move in a direction close to or away from the limit piece C120.
- One side of the friction piece C300 is elastically abutted with the limit piece C120, and the other side of the friction piece C300 is elastically abutted with the adjustment piece C400.
- the damping of the rotation of the support C100 relative to the first support shaft C210 can be adjusted, so that the support C100 can be sufficiently Limited rotation damping.
- the stopper C120 is provided with a first mounting hole C121
- the first support shaft C210 is provided with an adjustment section C211
- the adjustment section C211 penetrates into the first installation hole C121
- the adjustment member C400 is located between the limiting piece C120 and the connecting piece C130
- the adjusting piece C400 is connected to the adjusting section C211.
- the first supporting shaft C210 is rotatably connected to the limiting member C120 through an adjusting section C211 penetrating the first mounting hole C121.
- the adjusting member C400 is located between the limiting member C120 and the connecting member C130.
- the adjusting member C400 is moved in a direction close to or away from the limiting member C120. This method can avoid changing the installation dimensions of the first support shaft C210 and the second support shaft C220 during the process of moving the adjustment member C400.
- the first supporting shaft C210 is provided with a positioning member C212, the positioning member C212 is located on a side of the stopper C120 away from the connecting member C130, and the stopper C212 abuts on the stopper C120.
- the abutment of the positioning member C212 and the stopper C120 can prevent the support C100 from moving in the axial direction of the first support shaft C210.
- the positioning member C212 has a positioning shaft shoulder on the first support shaft C210.
- the positioning member C212 can also be a pin screwed on the first support shaft C210, or a positioning projection that is snap-fitted to the first support shaft C210, and is used to limit the stopper C120 on the first support shaft C210. To the positioning member C212.
- the adjusting member C400 is threadedly connected to the adjusting section C211.
- the adjusting member C400 is screw-connected to the adjusting section C211. In this way, the distance between the limiting member C120 and the adjusting member C400 can be adjusted through forward and reverse rotations, thereby controlling the damping of maintaining the shooting angle of the camera C520.
- the stopper C120 connected to the first support shaft C210 and the connection member C130 connected to the second support both have a plate shape, and the plate surfaces of the two are disposed at opposite sides of the carrier plate C100C.
- the friction member C300 is a dish-shaped elastic piece C310
- the dish-shaped elastic piece C310 is provided with a through hole C311
- the dish-shaped elastic piece C310 is mounted on the support shaft C200 through the through-hole C311.
- the dish spring C310 is mounted on the support shaft C200 through the through hole C311, so that the positional relationship between the dish spring C310 and the support shaft C200 can be guaranteed, and the stability of the damping of the camera C520 shooting angle can be maintained.
- the carrier board C100C is a heat sink carrier board, and the camera C520 and the carrier board C100C are disposed on a heat conducting layer C540.
- the camera C520 conducts heat to the heat sink carrier board through the heat conducting layer C540.
- an embodiment provides a camera assembly including the camera limiting structure, and further includes a camera C520, which is mounted on the support C100.
- the support C100 is rotatably mounted on the support shaft C200, and the camera C520 is mounted on the support C100.
- the camera C520 rotates with the support C100.
- the rotation stopper C620 and the stopper C120 are opposed to each other.
- the rotation stopper C620 is in contact with the first limiter C123a or the second limiter C123b of the limiter C120.
- the camera C520 is restricted to a safe corner range, thereby ensuring the normal use of the camera C520.
- an embodiment provides an interactive smart tablet including the camera assembly, a frame C550, and a rear cover.
- the support shaft C200 is mounted on the frame C550.
- the rear cover is connected to the frame C550.
- the cover is used to cover the camera C520.
- the rear cover can protect the camera C520.
- the camera assembly can be used in conjunction with the first stopper C123a and the second stopper C123b and the rotation stopper C620 to limit the camera C520 to a safe corner range, ensuring The normal use of the camera C520.
- the back cover is provided with an opening corresponding to the support C100, and the opening is used to rotate the support C100.
- the support C100 can be rotated through the opening, so it is convenient to adjust the shooting angle of the camera C520 from outside.
- the interactive smart tablet further includes a dial C510, the dial C510 is connected to the support C100, and the dial C510 partially protrudes from the opening.
- the dial C510 is connected to the support C100, and the dial C510 partially protrudes out of the opening. This adjustment is convenient and simple.
- Embodiment 4 With reference to FIGS. 13-17, this embodiment provides a camera mounting component and an interactive smart tablet, which are applicable to electronic devices or smart terminals, especially large-screen smart interactive products such as smart interactive tablets and smart blackboards.
- the camera D310 can be used for framing, especially taking pictures, image recognition, video recording, and assisting in completing some interactive functions realized through images
- the mounting bracket D400 is the basis for the installation of the camera D310.
- the role of the D400 is to carry the camera D310 so that the camera D310 can move with it.
- the mounting bracket D400 is "rack"
- the mounting bracket D400 is not limited to the frame.
- the mounting bracket D400 is actually Carrier.
- the principle of the base frame D410 and the card frame D420 are the same as those of the mounting frame D400. Both are limited to the frame body and can also be a housing or the like. The role of the two is to limit the camera D310 and make the camera D310 move with the two.
- a camera mounting assembly includes a camera D310 and a mounting bracket D400.
- the mounting bracket D400 includes a base frame D410 and a card frame D420.
- the base frame D410 is detachably connected to the card frame D420.
- the camera D310 is arranged between the base frame D410 and the card frame D420.
- the camera mounting assembly includes a camera D310 and a mounting bracket D400.
- the camera D310 is disposed between a base frame D410 and a card bracket D420 of the mounting frame D400.
- the camera mounting assembly is used to be installed in the receiving cavity D210 of the frame D200, and can be detached out of the receiving cavity D210 through a disassembly hole D230 communicating with the receiving cavity D210.
- take out the camera mounting assembly from the accommodation cavity D210 use the detachable connection of the base frame D410 and the card frame D420, separate the base frame D410 and the card frame D420, and take out and configure Camera D310 between D410 and D420. This makes it easy to maintain the camera D310.
- the base frame D410 is provided with a mounting groove D411, and the camera D310 is installed in the mounting groove D411.
- a stopper D428 is provided on the card frame D420.
- the block D428 corresponds to the slot of the mounting groove D411, and the block D428 is used to limit the camera D310 to the mounting groove D411.
- the camera D310 is installed in the mounting slot D411 on the base frame D410.
- the camera D310 is limited to the mounting slot D411 by the stopper D428 corresponding to the mounting slot D411 slot on the card holder D420. This prevents the camera D310 from leaving the mounting slot D411.
- the positional relationship between the camera D310 and the mounting bracket D400 is guaranteed.
- a shooting window corresponding to the lens of the camera D310 is opened at the bottom of the mounting groove D411, and the lens of the camera D310 obtains shooting information through the shooting window.
- the limit of the camera D310 can be completed by contacting the block D428 and the inner wall of the mounting groove D411 to the camera D310.
- the base frame D410 is provided with a mounting block D415b, and the mounting block D415b is spaced from the card frame D420 to form an insertion space.
- the mounting block D415b is disposed on the base frame D410, and the mounting block D415b is spaced from the card frame D420 to form an insertion space.
- the limit of the mounting bracket D400 in the receiving cavity D210 is completed by inserting the connecting bracket D500 into the insertion space.
- the mounting block D415b includes a first mounting block and a second mounting block, and the first mounting block and the second mounting block are disposed at intervals.
- the connecting frame D500 is located between the mounting block D415b and the card frame D420.
- the abutment of the connecting frame D500 to the mounting block D415b limits the mounting frame D400 and the receiving cavity D210.
- the mounting block D415b includes a first mounting block and a second mounting block spaced apart. This can increase the resistance position of the connecting frame D500 and the mounting block D415b, and improve the mounting stability of the mounting frame D400.
- first mounting block and the second mounting block are arranged side by side on both sides of the slot of the mounting groove D411.
- a mounting guide D415b is provided on the mounting block D415b at the opening of the insertion space.
- the installation of the insertion guide can facilitate the installation of the mounting bracket D400 in the insertion space.
- the insertion guide portion and the corresponding portion of the card holder D420 corresponding to the insertion guide portion form a wedge-shaped insertion opening. This facilitates the insertion of the connecting frame D500.
- the above-mentioned insertion guide is an arc-shaped guide surface.
- the card frame D420 is mated with the base frame D410.
- the snap-fit structure is simple and easy to disassemble.
- the above-mentioned card frame D420 and the base frame D410 are detachably connected through a snap fit.
- the detachable connection between the card frame D420 and the base frame D410 may be other detachable connections such as a screw connection.
- a first partition D421 and a second partition D422 are provided on the card frame D420 with intervals, and a card slot is provided on the first partition D421 or the second partition D422.
- D423, as shown in FIG. 14, the base frame D410 is provided with a card block D412 corresponding to the card slot D423. As shown in FIG. 13, the card block D412 is installed in the card slot D423.
- the base frame D410 cooperates with the first and second partitions of the card frame D420, and the card block D412 on the base frame D410 is sent to the first partition D421 or In the card slot D423 of the second partition plate D422, it is convenient for the base frame D410 and the card frame D420 to be installed.
- the first partition plate D421 and the second partition plate D422 are opposite to each other to form a card position.
- the base frame D410 is installed in the card position.
- the first partition plate D421 or the second partition plate D422 is in the slot D423.
- first partition D421 and the second partition D422 are each provided with a slot D423, and the base frame D410 is provided with a slot corresponding to the slot D423 on the first partition D421 and the second partition D422. Block D412. In this way, the base frame D410 can be uniformly loaded and stable in structure.
- the card holder D420 is provided with a first guide portion
- the base frame D410 is provided with a second guide portion
- the first guide portion and the second guide portion are slidably fitted.
- the first guide portion is a guide channel
- the second guide portion is a guide block D413
- the guide block D413 is slidable along the guide channel.
- the second guide portion is a guide channel
- the first guide portion is a guide block D413
- the guide block D413 is slidable along the guide channel.
- the card holder D420 is provided with a projection D425 spaced from the first partition D421 or the second partition D422, and the projection D425 is matched with the first partition D421 or the second partition D422.
- the guide channel is formed.
- the projection D425, the first partition D421, or the second partition D422 at the opening of the guide channel is provided with a mounting guide.
- a mounting guide provided on the convex block D425 or the first partition plate D421 makes the inlet section of the guide channel wedge-shaped, and the big end faces outward. This makes it easy for the guide block D413 to enter the guide channel.
- the first partition plate D421, the second partition plate D422, and the two bumps D425 are all provided with mounting guides.
- the mounting guide on the first partition D421 and the guide mounting on the projection D425 corresponding to the first partition D421 cooperate to form a wedge-shaped inlet;
- the mounting guide on the second partition D422 and the second partition cooperates to form a wedge-shaped inlet.
- the base frame D410 and the card frame D420 are latched in the process of the guide block D413 entering the guide channel.
- the camera mounting assembly further includes a cover D427, and the cover D427 is disposed on a side of the card holder D420 facing away from the base frame D410.
- the cover D427 is located outside the frame D200, and the connection of the cover D427 to the mounting frame D400 is used to remove the mounting frame D400 from the receiving cavity D210 of the frame D200.
- an interactive smart tablet includes a frame D200 and the camera mounting component.
- the frame D200 is provided with a receiving cavity D210 and a mounting hole D230.
- the mounting hole D230 and the mounting cavity D210 The connecting cavity D210 is provided with a connecting frame D500.
- the connecting frame D500 is detachably connected to the frame D200.
- the camera mounting component is located in the receiving cavity D210.
- the camera mounting component is detachable from the connecting frame D500.
- the mounting and dismounting hole D230 is used to remove the camera mounting assembly from the receiving cavity D210.
- the camera mounting component in use, is used to be installed in the receiving cavity D210 of the frame D200, and can be detached out of the receiving cavity D210 through the disassembly hole D230 communicating with the receiving cavity D210.
- the camera mounting assembly takes out the camera mounting assembly from the frame D200, use the detachable connection of the base frame D410 and the card frame D420, separate the base frame D410 and the card frame D420, and take out and configure it on the base frame.
- Camera D310 between D410 and card holder D420. This makes it easy to maintain the camera D310.
- the interactive smart tablet further includes a cover D427 connected to a side of the card holder D420 facing away from the base frame D410, and a limiter D415 provided on the mounting frame D400.
- the cover D427 is located in the receiving space. Outside the cavity D210, the cover D427 abuts the frame D200, the limiting piece D415 is located in the containing cavity D210, and the side of the limiting piece D415 near the cover D427 abuts the connecting frame D500.
- the camera D310 cover D427 receives the abutment force from the frame D200 toward the receiving cavity D210 and the stopper D415 receives the abutment force from the connecting frame D500 toward the receiving cavity D210.
- the abutment force in two different directions will
- the mounting bracket D400 is limited to the receiving cavity D210. Simple structure. When the camera mounting component is removed, the camera mounting component can be removed from the receiving cavity D210 when the force of the connecting frame D500 on the frame D200 is cancelled.
- the above-mentioned cover D427 is located outside the accommodation cavity D210, and the cover D427 is not limited to be located outside the accommodation cavity D210 as a whole.
- the cover D427 is provided with a guide edge.
- the surrounding edge D427a on the cover D427 will cooperate with the inner wall of the disassembly hole D230 for installation and guidance.
- the surrounding edge D427a may be partially located in the receiving cavity D210. Therefore, the fact that the cover D427 is located outside the accommodating cavity D210 means that a part of the cover D427 is located outside the accommodating cavity D210, instead of limiting the cover D427 to be entirely outside the accommodating cavity D210.
- the limiting member D415 includes a limiting boss D415a and the mounting block D415b, and the limiting boss D415a is disposed on the base frame D410.
- the connecting bracket D500 can abut both the mounting block D415b and the limiting boss D415a, so that the mounting bracket D400 can be stably stressed.
- the limiting boss D415a is located on the base frame D410.
- the connecting frame D500 is used to simultaneously apply the contact force away from the mounting and dismounting hole D230 to the limiting boss D415a and the mounting block D415b.
- the base frame D410 and the card frame The gap between D420 is reduced, and at the same time, the force receiving position of the base frame D410 can be increased, so that the base frame D410 is uniformly stressed.
- the frame D200 is provided with a mounting hole D220, and the mounting hole D220 is in communication with the receiving cavity D210;
- the connecting frame D500 includes a connected bracket D510 and a substrate D520, and the substrate D520 is disposed in the container Outside the cavity D210, the substrate D520 is connected to the frame D200, the bracket D510 penetrates the mounting hole D220 and extends into the accommodation cavity D210, and the bracket D510 abuts the side of the stopper D415 near the cover D427.
- connection between the substrate D520 and the frame D200 may be a direct connection or an indirect connection.
- the following uses the indirect connection as an example for description.
- the interactive smart tablet also includes a back plate D100, a frame D200 is provided on the edge of the back plate D100, a base plate D520 is provided with a third connection hole D522, and a back plate D100 is provided with a fourth connection hole D110 corresponding to the third connection hole D522.
- a detachable second fastener (not shown in the figure) is inserted through the third connecting hole D522 and the fourth connecting hole D110.
- the interactive smart tablet further includes a control board D320, and the control board D320 is electrically connected to the camera D310.
- control board D320 is disposed outside the accommodating cavity D210, and the control board D320 is detachably connected to the substrate D520.
- the substrate D520 is provided with a first connection hole D521
- the control board D320 is provided with a second connection hole D321 corresponding to the first connection hole D521
- the first connection hole D521 and the second connection A first fastener is passed through the hole D321.
- the interactive smart tablet further includes a back cover D600, which is detachably connected to the frame D200 or the back plate D100, and the back cover D600 is used to cover the installation hole D220 and the control board D320.
- the rear cover D600 can cover the mounting holes D220 and the control board D320. This prevents the control board D320 and the camera D310 module from receiving external impact, which ensures the normal use of the camera D310.
- the back cover D600 is provided with a fifth connection hole D610
- the frame D200 is provided with a sixth connection hole D240 corresponding to the fifth connection hole D610
- the fifth connection hole D610 and the sixth connection A third removable fastener (not shown in the figure) is passed through the hole D240.
- the removal and installation of the back cover D600 can be completed by disassembling the third fastener in the fifth connection hole D610 and the sixth connection hole D240.
- the first fastener, the second fastener, the third fastener, and the fourth fastener are bolts, screws, and the like.
- Embodiment 5 With reference to FIGS. 18-22, this embodiment provides a screen frame, an attachment mounting component, a screen frame with integrated accessories, and an interactive smart tablet, which is suitable for an electronic device or a smart terminal, especially an intelligent interactive tablet, smart Large-screen intelligent interactive products such as blackboards.
- the frame refers to a frame bar provided around the screen, which can be used to install functional accessories.
- the general screen frame includes four frames, which are an upper frame, a lower frame, and a left frame. And one of the right borders.
- the accommodating cavity is not a closed space inside the frame, but may be an open space.
- the main function of the accommodating cavity is to accommodate the accessories, so that the accessories are partially located in the frame or all of them are located in the frame.
- the disassembly hole is not limited to a hole shape, but it can also be connected with other shapes such as a slot.
- the disassembly hole mainly connects the accommodation cavity with the external connection, and it is mainly a channel for the accommodation cavity to communicate with the outside, so that the accessories can be accommodated easily. Remove the cavity.
- a screen frame in one embodiment, includes a frame, and the frame has a receiving cavity and a dismounting hole.
- the dismounting hole is in communication with the receiving cavity.
- the receiving cavity is used for receiving an accessory, and the dismounting hole is opened in the frame. Appearance surface.
- the frame has a receiving cavity, and the appearance surface of the frame is provided with a disassembly hole, and the disassembly hole communicates with the receiving cavity.
- the accessory is installed in the accommodation cavity.
- the accessories can be taken out of the accommodating cavity through the disassembly holes on the appearance surface, so that the maintenance and repair of the accessories can be completed without disassembling the whole machine.
- the accommodating cavity is used for accommodating accessories, and the accessories may generally be cameras, speakers, sensors, and other accessories that need to be hidden.
- the receiving cavity is used to hide the accessory.
- the above-mentioned appearance surface refers to the surface area on the screen frame that can be viewed by the user without the need to disassemble the whole machine. That is, the appearance surface does not refer to a certain surface on the frame, but refers to a collection of some surfaces.
- the appearance surface can be the surface facing the user on the frame; it can also be the surface that the user cannot see on the frame in use, such as the top surface of the upper frame, the bottom surface of the lower frame, and the left surface of the left frame. And the right side of the right border.
- the frame is an upper frame
- the aforementioned disassembly hole is opened on the top of the upper frame.
- the removal hole is located on the top of the upper frame. When the user uses the whole machine, the removal hole can be hidden on the surface that is not easy for the user to notice.
- the frame is a lower frame, and the aforementioned disassembly hole is opened at the bottom of the lower frame.
- the removal hole is located at the bottom of the upper frame. When the user uses the whole machine, the removal hole can be hidden on the surface that is not easy for the user to notice.
- the frame is a left frame, and the aforementioned disassembly hole is opened on the left side of the left frame.
- the removal hole is located on the left side of the left frame. When the user is using the whole machine, the removal hole can be hidden on the surface that is not easy for the user to notice.
- the above-mentioned frame is a right frame, and the aforementioned disassembly hole is opened to the right of the right frame.
- the removal hole is located on the right side of the right frame. When the user uses the whole machine, the removal hole can be hidden on the surface that is not easy for the user to notice.
- the position of the disassembly hole is not limited to one of the above mentioned upper frame, lower frame, left frame, or right frame, and the disassembly hole may be opened in the upper frame, lower frame, left frame, and right frame. Any two, three, or four. Here, it is not limited in particular that two or three frames are provided with mounting and dismounting holes.
- the present invention further provides a cover body, which is used for movably connecting with the frame in the aforementioned screen frame body, and is used to cover the disassembly hole.
- the cover can cover the accessories located in the containing cavity.
- the disassembly hole is opened through the movement of the cover relative to the frame, so that the maintenance personnel can take out the accessory from the accommodation cavity through the disassembly hole, and the cover can protect the accessory in the accommodation cavity from external influence.
- the movable connection of the cover with respect to the frame may be a sliding connection between the cover and the frame, and the disassembly hole is opened by sliding the cover with respect to the frame.
- the movable connection of the cover body and the frame can be a rotary connection, and the cover body can be opened and closed by the relative rotation of the cover body.
- the movable connection of the cover body and the frame may be a snap connection.
- the cover body is installed on the frame by a snap connection method. When the disassembly hole needs to be opened, the cover body opens the disassembly hole by detaching the frame.
- the cover body is provided with a mounting bracket, which is used to install accessories.
- the mounting frame can move relative to the frame with the cover body. In this way, while the cover body is being moved, the mounting bracket on which the accessories are installed can be moved along with the cover body, and then the accessories can be removed from the accommodating cavity by moving the cover body.
- the mounting frame includes a base frame and a card frame
- the base frame is provided with a mounting slot
- the mounting slot is used for mounting accessories
- the card frame is provided with a limiting block opposite to the bottom of the mounting slot
- the limiting block is used to limit the accessories in the mounting groove.
- the accessory is installed in the mounting slot of the base frame, and the card frame is connected with the base frame.
- the limiting block on the card frame limits the accessory to the mounting slot. This kind of fixing facilitates the installation and fixing of accessories.
- the card frame is provided with a first baffle plate and a second baffle plate.
- the first baffle plate and the second baffle plate are arranged at intervals to form a card position, and the base frame is disposed in the card position.
- the first baffle or the second baffle is provided with a card slot, and the base frame is provided with a card block corresponding to the card slot.
- the card block is located in the card slot, and has a simple structure and convenient disassembly and assembly.
- the card frame is provided with a convex block, the convex block and the first baffle plate or the second baffle plate are spaced apart from each other to form a guide channel, the base frame is provided with a guide block, and the guide block is located at the Mentioned guide channel.
- the base frame and the card frame complete the positioning and engagement of the card frame and the base frame through the guide cooperation of the guide block and the guide channel, so as to improve the accuracy of the positioning of the two, thereby ensuring the accuracy of the installation and positioning of the accessories.
- the present invention further provides an accessory mounting assembly for cooperating with the above-mentioned screen frame, including any one of the accessory and the cover in the above embodiment, and the accessory can move with the cover.
- the cover body includes a mounting bracket provided, and the accessory is mounted on the mounting bracket, and the accessory can be moved relative to the frame with the cover body through the mounting bracket.
- the above-mentioned mounting frame includes a base frame and a card frame, the base frame is provided with a mounting slot, the mounting slot is used to install accessories, and the card frame is provided with a limiting block opposite to the bottom of the mounting slot.
- the limiting block is used to limit the attachment to the installation slot.
- the card frame is provided with a first baffle plate and a second baffle plate.
- the first baffle plate and the second baffle plate are disposed at intervals to form a card position, and the base frame is disposed in the card position.
- the first baffle or the second baffle is provided with a card slot, and the base frame is provided with a card block corresponding to the card slot, and the card block is located in the card slot.
- the card frame is provided with a convex block, the convex block and the first baffle plate or the second baffle plate are spaced apart from each other to form a guide channel, the base frame is provided with a guide block, and the guide block is located at the Mentioned guide channel.
- the base frame and the card frame complete the positioning and engagement of the card frame and the base frame through the guide cooperation of the guide block and the guide channel, so as to improve the accuracy of the positioning of the two, thereby ensuring the accuracy of the installation and positioning of the accessories.
- the present invention further provides a screen mounting frame with integrated accessories, which includes a frame in any one of the above embodiments and an accessory mounting component in any one of the above embodiments.
- the present invention further provides an interactive smart tablet, which includes the screen mounting frame of the integrated accessory described above, and further includes a control board which is electrically connected to the accessory.
- a mounting hole is provided at the back of the frame, the mounting hole is in communication with the accommodation cavity, the connection frame includes a substrate and a bracket, the substrate is connected to the frame, and the control board is mounted on the substrate on.
- the following uses a camera as an example to describe the structure of an interactive smart tablet having the above-mentioned installation structure. It should be noted that, when the accessory is another device such as a speaker, the above-mentioned structure can draw on the following structure.
- the upper frame E200 has a receiving cavity E210 and a dismounting hole E230 opened on the top surface of the upper frame E200.
- the dismounting hole E230 communicates with the receiving cavity E210, and the camera E310 is installed in the receiving cavity E210.
- the camera E310 is installed in the accommodation cavity E210, and the camera E310 can be removed from the upper frame E200 through the mounting and dismounting hole E230.
- the upper frame E200 further includes a cover E427, the cover E427 is fastened to the upper frame, and the cover E427 is used to cover the mounting hole E230.
- a cover E427 is provided with a mounting bracket E400, the mounting bracket E400 is disposed in the receiving cavity E210, and the camera E310 is disposed on the mounting bracket E400.
- the camera E310 is small in size, and the camera E310 can be easily installed through the mounting bracket E400. At the same time, the camera E310 can be installed through the mounting of the mounting bracket E400.
- the mounting bracket E400 includes a base bracket E410 and a card bracket E420 that is engaged with the base bracket E410.
- the base bracket E410 is provided with a mounting slot E411 (combined with the figure) 21)
- the card holder E420 is provided with a limiting block E428 opposite to the bottom of the mounting slot E411 (combined with FIG. 22)
- the camera E310 is placed in the mounting slot E411, and the limiting block E428 and The camera E310 abuts to limit the camera E310 into the mounting slot E411.
- the stop block E428 on the card mount E420 that abuts the camera E310 limits the camera E310 to the mounting slot E411.
- This kind of restricted installation camera E310 has a simple structure and is easy to disassemble.
- the card holder E420 is provided with a first baffle E421 and a second baffle E422, the first baffle E421 and the second baffle E422 are spaced apart to form a card slot, and the base frame E410 It is set in the card slot.
- the first baffle E421 or the second baffle E422 is provided with a card slot E423.
- the base frame E410 is provided with a card block E412 corresponding to the card slot E423.
- the card block E412 is located in the card slot. It is described in the card slot E423; the structure is simple, and it is easy to disassemble.
- the card holder E420 is provided with a projection E425, and the projection E425 is spaced apart from the first baffle E421 or the second baffle E422 to form a guide channel, and the base frame E410 is provided with a guide.
- Block E413, the guide block E413 is located in the guide channel.
- protrusions E425, and the two protrusions E425 are respectively spaced from the first baffle plate E421 and the second baffle plate E422 to form a first guide channel and a second guide channel;
- There are two blocks E413, and the two guide blocks E413 are respectively located in the first guide channel and the second guide channel.
- a connecting frame E500 is provided in the accommodating cavity E210, and the connecting frame E500 is aligned with the mounting frame E400.
- the connecting bracket E500 can improve the installation and positioning accuracy of the mounting bracket E400 in the receiving cavity.
- the mounting bracket E400 is provided with a limiting boss E415, the limiting boss E415 is located in the receiving cavity E210, and a side of the limiting boss E415 near the cover E427 abuts the connecting bracket E500. Then, the side of the cover E427 near the limiting boss E415 abuts the upper frame E200. The cover E427 and the limiting boss E415 abut the upper frame E200 and the connecting frame E500 respectively to limit the mounting frame E400 to the receiving cavity E210. When disassembling, the limit mounting of the mounting bracket E400 can be released through the connecting bracket E500.
- the interactive smart tablet further includes a control board E320, and the control board E320 is electrically connected to the camera E310.
- the control board E320 is electrically connected to the camera E310.
- the control board E320 can drive the camera E310 to work.
- a mounting hole E220 is provided on the back of the upper frame E200, and the mounting hole E220 is in communication with the receiving cavity E210.
- the connecting frame E500 includes a base plate E520 and a bracket E510.
- the frame E200 is connected, and the control board E320 is mounted on the substrate E520.
- the control board E320 is connected to the base plate E520, and the bracket E510 cooperates with the mounting bracket E400, so that the positional relationship between the control board E320 and the camera E310 can be ensured, and the electrical connection reliability between the two is high.
- the interactive smart tablet further includes a back plate E100, and the upper frame E200 is connected to the top of the back plate E100.
- the base plate E520 is provided with a third connection hole E522
- the back plate E100 is provided with a fourth connection hole E110 corresponding to the third connection hole E522, and the third connection hole E522 and the fourth connection hole E110 are penetrated inside.
- Removable second fastener (not shown). The disassembly and assembly of the connecting frame E500 can be completed by disassembling the second fasteners in the third connection hole E522 and the fourth connection hole E110.
- the substrate E520 is provided with a first connection hole E521
- the control board E320 is provided with a second connection hole E321 corresponding to the first connection hole E521
- the first connection hole E521 and the second A first fastener is inserted through the connecting hole E321.
- the structure in which the control board E320 is connected to the base plate E520 by the first fastener penetrating through the first connection hole E521 and the second connection hole E321 is simple.
- the interactive smart tablet further includes a rear cover E600, the rear cover E600 is connected to the upper frame E200, and the rear cover E600 is used to cover the installation hole E220 and the control board E320.
- the rear cover E600 can cover the mounting holes E220 and the control board E320. This prevents the control board E320 and the camera E310 from impacting to the outside, ensuring the normal use of the camera E310.
- the back cover E600 is provided with a fifth connection hole E610
- the upper frame E200 is provided with a sixth connection hole E240 corresponding to the fifth connection hole E610, the fifth connection hole E610 and the first connection hole E610.
- the six connecting holes E240 are provided with a detachable third fastener (not shown in the figure). The removal and installation of the rear cover E600 can be completed by disassembling the third fastener in the fifth connection hole E610 and the sixth connection hole E240.
- the first fastener, the second fastener, the third fastener, and the fourth fastener are bolts, screws, and the like.
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Abstract
一种交互智能平板的摄像头安装结构及交互智能平板,交互智能平板的摄像头安装结构包括支座(A100、B100、C100)及支撑轴(A200、B200、C200),所述支座转动安装于支撑轴上,所述支撑轴与支座间设有摩擦件(A300、B300、C300),摩擦件的一侧与支座弹性抵接,摩擦件的另一侧与支撑轴弹性抵接,支座用于安装摄像头(A600、B600、C520、D310、E310),摩擦件用于为支座提供相对支撑轴转动的阻尼;由于摩擦件与支座和支撑轴是弹性抵接,在摩擦件、支座和支撑轴之间存在间隙时,摩擦件能弥补摩擦件、支座及支撑轴之间的间隙,使支座能受到维持摄像头拍摄角度的阻尼。
Description
本发明涉及智能交互设备技术领域,特别是涉及一种交互智能平板的摄像头安装结构及交互智能平板。
一般的智能交互设备的摄像头有内置式和外置式。外置式通过支架将摄像头固定于智能交互设备的外;内置式是通过支架将摄像头安装于交互智能设备内。由于摄像头内置能使交互智能平板整体简洁大方,内置摄像头的交互智能设备更受消费者青睐。
当大型会议室内使用智能交互设备时,由于一般的内置式摄像头不能调节,摄像头的拍摄区域受限,拍摄效果受到影响。
为了增大摄像头的拍摄区域,一般是通过转动内置式摄像头的方式来实现。
在多次转动摄像头调节摄像头后,摄像头容易受外界的影响而转动,以致摄像头难以维持设定的拍摄角度。
发明内容
基于此,本发明在于克服现有技术的缺陷,提供一种交互智能平板的摄像头安装结构及交互智能平板,来解决摄像头难以维持设定的拍摄角度的问题。
一种交互智能平板的摄像头安装结构,包括支座及支撑轴,所述支座转动安装于支撑轴上,所述支撑轴与支座间设有摩擦件,摩擦件的一侧与支座弹性抵接,摩擦件的另一侧与支撑轴弹性抵接,支座用于安装摄像头,摩擦件用于为支座提供相对支撑轴转动的阻尼。
上述交互智能平板的摄像头安装结构,摩擦件的两侧分别与支座和支撑轴弹性抵接。使用中,摄像头安装于支座上,通过支座的转动实现摄像头的转动。在将摄像头调整到一定拍摄角度时,利用摩擦件为支座提供的相对支撑轴转动的阻尼,使支座维持相对支撑轴的位置,进而维持摄像头的拍摄角度。由于摩擦件与支座和支撑轴是弹性抵接,在摩擦件、支座和支撑轴之间存在间隙时,摩擦件能弥补摩擦件、支座及支撑轴之间的间隙,使支座能受到维持摄像头拍摄角度的阻尼。
图1为一实施例中所述的摄像头安装结构示意图;
图2为图1中A处的局部爆炸示意图;
图3为一实施例中所述的摄像头安装结构示意图;
图4为一实施例中所述的交互智能平板示意图;
图5为一实施例所述的摄像头散热结构的结构示意图;
图6为一实施例中所述的散热支座与支撑轴的结构示意图;
图7为图6中A处的局部爆炸图;
图8为一实施例中所述的交互智能平板的结构示意图;
图9为一实施例所述的摄像头限位结构的结构示意图;
图10为一实施例所述的摄像头限位结构的结构示意图;
图11为一实施例所述的摄像头限位结构的结构示意图;
图12为一实施例所述的交互智能平板的结构示意图;
图13为一实施例所述的摄像头安装组件的结构示意图;
图14为一实施例所述的基架的结构示意图;
图15为一实施例所述的卡架的结构示意图;
图16为一实施例所述的安装架与连接架的配合结构示意图;
图17为一实施例所述交互智能平板的结构示意图;
图18为一实施例所述的屏幕框体、附件安装组件、集成附件的屏幕框体及交互智能平板的结构示意图;
图19为一实施例所述安装架及连接架的安装组配图;
图20为一实施例所述附件安装组件的结构示意图;
图21为一实施例所述基架的结构示意图;
图22为一实施例所述卡架的结构示意图。
附图标记说明:A100、支座,A110、载板,A120、第一连接板,A121、第一安装孔,A130、第二连接板,A200、支撑轴,A210、第一支撑轴,A211、调节段,A212、定位件,A220、第二支撑轴,A300、摩擦件,A310、碟形弹片,A311、通孔,A400、调节件,A500、拨块,A600、摄像头,A700、支架,A800、导热层,A900、边框;
B100、散热支座,B110、载板,B120、第一连接板,B121、第一安装孔,B130、第二连接板,B200、支撑轴,B210、第一支撑轴,B211、调节段,B212、定位件,B220、第二支撑轴,B300、摩擦件,B310、碟形弹片,B311、通孔,B400、调节件,B500、拨块,B600、摄像头,B700、支架,B800、导热层,B900、边框;
C100、支座,C100C、载板,C120、限位件,C121、第一安装孔,C123、限位孔,C123C、第一限位部,C123b、第二限位部,C130、连接件,C200、支撑轴,C210、第一支撑轴,C211、调节段,C212、定位件,C220、第二支撑轴,C230、第二安装孔,C300、摩擦件,C310、碟形弹片,C311、通孔,C400、调节件,C510、拨块,C520、摄像头,C530、支架,C540、导热层,C550、边框,C610、支撑件,C611、第二凹槽,C612、止转孔,C620、止转件;
D100、背板,D110、第四连接孔,D200、边框,D210、容置腔,D220、安装孔,D230、拆装孔,D240、第六连接孔,D310、摄像头,D320、控制板,D321、第二连接孔,D400、安装架,D410、基架,D411、安装槽,D412、卡块,D413、导块,D415、限位件,D415a、限位凸台,D415b、安装块,D420、卡架,D421、第一隔板,D422、第二隔板,D423、卡槽,D425、凸块,D427、盖体,D427a、围边D427a,D428、挡块,D500、连接架,D510、支架,D520、基板,D521、第一连接孔,D522、第三连接孔,D600、后盖,D610、第五连接孔;
E100、背板,E110、第四连接孔,E200、上边框,E210、容置腔,E220、安装孔,E230、拆装孔,E240、第六连接孔,E310、摄像头,E320、控制板,E321、第二连接孔,E400、安装架,E410、基架,E411、安装槽,E412、卡块,E413、导块,E415、限位凸台,E420、卡架,E421、第一挡板,E422、第二挡板,E423、卡槽,E425、凸块,E427、盖体,E428、限位块,E500、连接架,E510、支架,E520、基板,E521、第一连接孔,E522、第三连接孔,E600、后盖,E610、第五连接孔。
为了便于理解本发明,下面将参照相关附图对本发明进行更全面的描述。附图中给出了本发明的较佳实施方式。但是,本发明可以以许多不同的形式来实现,并不限于本文所描述的实施方式。相反地,提供这些实施方式的目的是使对本发明的公开内容理解的更加透彻全面。
需要说明的是,当元件被称为“固定于”另一个元件,它可以直接在另一个元件上或者也可以存在居中的元件。当一个元件被认为是“连接”另一个元件,它可以是直接连接到另一个元件或者可能同时存在居中元件。相反,当元件被称作“直接在”另一元件“上”时,不存在中间元件。本文所使用的术语“垂直的”、“水平的”、“左”、“右”以及类似的表述只是为了说明的目的,并不表示是唯一的实施方式。
除非另有定义,本文所使用的所有的技术和科学术语与属于本发明的技术领域的技术人员通常理解的含义相同。本文中在本发明的说明书中所使用的术语只是为了描述具体的实施方式的目的,不是旨在于限制本发明。本文所使用的术语“及/或”包括一个或多个相关的所列项目的任意的和所有的组合。
实施例一,结合图1-4,本实施例提供一种摄像头安装结构及交互智能平板,适用于电子设备或者智能终端,特别是智能交互平板、智慧黑板等大屏智能交互产品中。需要解释的是, 在下述的实施例中:摄像头A600可应用于取景,特别是拍照、图像识别、录像、以及辅助完成一些通过图像实现的交互功能;支座A100是摄像头A600的安装基础,支座A100起到的作用是承载摄像头A600,使摄像头A600能够随其转动。支撑轴A200虽然名为轴,但不限于轴的设置形式,其在此处主要是为支座A100提供转动支点,使支座A100能够绕一定方向转动。摩擦件A300主要是为支座A100提供转动的阻尼,通过摩擦件A300提供的阻尼限制支座A100转动,使支座A100在受重力是能够不转动,支座A100能够在受重力的情况下通过摩擦件提供的阻尼维持原有的状态,使摩擦件A300能够保持拍摄角度不变。
结合图1所示,一种摄像头安装结构包括支座A100及支撑轴A200,所述支座A100转动安装于支撑轴A200上,所述支撑轴A200与支座A100间设有摩擦件A300,摩擦件A300的一侧与支座A100弹性抵接,摩擦件A300的另一侧与支撑轴A200弹性抵接,支座A100用于安装摄像头A600,摩擦件A300用于为支座A100提供相对支撑轴A200转动的阻尼。
结合图4所示,上述交互智能平板的摄像头安装结构,摩擦件A300的两侧分别与支座A100和支撑轴A200弹性抵接。使用中,摄像头A600安装于支座A100上,通过支座A100的转动实现摄像头A600的转动。在将摄像头A600调整到一定拍摄角度时,利用摩擦件A300为支座A100提供的相对支撑轴A200转动的阻尼,使支座A100维持相对支撑轴A200的位置,进而维持摄像头A600的拍摄角度。由于摩擦件A300与支座A100和支撑轴A200是弹性抵接,在摩擦件A300、支座A100和支撑轴A200之间存在间隙时,摩擦件A300能弥补摩擦件A300、支座A100及支撑轴A200之间的间隙,使支座A100能受到维持摄像头A600拍摄角度的阻尼。
一实施例中,所述支撑轴A200包括间隔设置的第一支撑轴A210和第二支撑轴A200,支座A100的一侧与第一支撑轴A210转动连接,支座A100的另一侧与第二支撑轴A220转动连接;所述摩擦件A300设置于第一支撑轴A210上,摩擦件A300的一侧与支座A100弹性抵接,摩擦件A300的另一侧与第一支撑轴A210抵接。支座A100的两侧分别与第一支撑轴A210和第二支撑轴A220转动连接,相较于单侧连接支撑,此种两侧连接能够提高支座A100的连接稳定性。
一实施例中,所述支座A100包括载板A110、第一连接板A120及第二连接板A130,所述第一连接板A120和第二连接板A130相对间隔设置于载板A110上,所述第一连接板A120与第一支撑轴A210转动连接,所述第二连接板A130与第二支撑轴A220转动连接,所述载板A110用于安装摄像头A600,所述摩擦件A300的一侧与第一支撑轴A210弹性抵接,摩擦件A300的另一侧与第一连接板A120弹性抵接。
一实施例中,所述第一支撑轴A210上设有调节件A400,所述调节件A400与第一连接板A120间隔设置,所述摩擦件A300位于调节件A400与第一连接板A120之间,调节件A400可在靠近或远离第一连接板A120的方向上移动,摩擦件A300的一侧与第一连接板A120弹性抵接,摩擦件A300的另一侧与调节件A400弹性抵接。在生产组装或产品维护的过程中,通过在靠近或远离第一连接板A120的方向上移动调节件A400,能调节支座A100相对第一支撑轴A210转动的阻尼,进而使支座A100能够受到足够的限制转动的阻尼。
结合图2所示,一实施例中,所述第一连接板A120设有第一安装孔A121,所述第一支撑轴A210设有调节段A211,所述调节段A211穿入第一安装孔A121内,所述调节件A400位于第一连接板A120和第二连接板A130之间,调节件A400与调节段A211连接。第一支撑轴A210通过穿入第一安装孔A121的调节段A211与第一连接板A120转动连接。调节件A400位于第一连接板A120和第二连接板A130之间,在第一支撑轴A210和第二支撑轴A220安装于边框A900上后,在靠近或远离第一连接板A120方向上移动调节件A400,此种方式能避免在移动调节件A400的过程中改变第一支撑轴A210和第二支撑轴A220的安装尺寸。
一实施例中,所述第一支撑轴A210设有定位件,所述定位件A212位于第一连接板A120远离第二连接板A130的一侧,定位件A212与第一连接板A120抵接配合。通过定位件A212与第一连接板A120的抵接,能防止支座A100在第一支撑轴A210的轴向移动。具体,定位件A212第一支撑轴A210上的定位轴肩。当然定位件A212也可以是螺纹连接在第一支撑轴A210上的销钉,或者是卡装与第一支撑轴A210上的定位凸块等,用于限制第一连接板A120在第一支撑轴A210轴向位置的定位件。
一实施例中,所述调节件A400与所述调节段A211螺纹连接。调节件A400与调节段A211 螺纹连接,如此可通过正、反转调节第一连接板A120与调节件A400之间的间距,进而控制维持摄像头A600拍摄角度的阻尼。
结合图3所示,一实施例中,交互智能平板的摄像头安装结构还包括拨块A500和摄像头A600,所述拨块A500和摄像头A600分别安装于载板A110的相对板面上,所述拨块A500用于转动支座A100。拨块A500和摄像头A600分别安装于载板A110的相对板面上,如此能在节省载板A110尺寸的同时,避免拨块A500对摄像头A600的影响。
一实施例中,所述载板A110为散热载板,所述摄像头A600与载板A110之间设置于导热层A800,摄像头A600通过导热层A800将热量传导至散热载板上。
一实施例中,交互智能平板的摄像头安装结构还包括支架A700,所述支架A700设置于载板A110上,支架A700与载板A110之间形成安装空间,所述摄像头A600安装于所述安装空间内。摄像头A600位于支架A700与载板A110之间的安装空间,方便了摄像头A600的安装固定,同时支架A700也能保护摄像头A600免受撞击。
一实施例中,所述摩擦件A300为碟形弹片A310,所述碟形弹片A310设有通孔A311,所述碟形弹片A310通过通孔A311安装于支撑轴A200上。碟形弹片A310通过通孔A311安装于支撑轴A200上,如此能保证碟形弹片A310与支撑轴A200的位置关系,保证维持摄像头A600拍摄角度的阻尼的稳定性。
需要说明的是,在其他实施例中,摩擦件A300可以是摩擦块与弹簧的组合件,摩擦块用于提供支座A100相对支撑轴A200转动的阻尼,弹簧位于支撑轴A200与摩擦块之间,弹簧的一端与支撑轴抵接,弹簧的另一端与摩擦块抵接。
结合图4所示,本实施例还提供一种交互智能平板,包括边框A900、摄像头A600、支座A100、支撑轴A200,所述支撑轴A200安装于边框A900上,所述支座A100转动安装于支撑轴A200上,所述支撑轴A200与支座A100间设有摩擦件A300,摩擦件A300的一侧与支座A100弹性抵接,摩擦件A300的另一侧与支撑轴A200弹性抵接,支座A100用于安装摄像头A600,摩擦件A300用于为支座A100提供相对支撑轴A200转动的摩擦力阻力;所述摄像头A600安装于支座A100上并可随支座A100转动。
上述交互智能平板,摩擦件A300的两侧分别与支座A100和支撑轴A200弹性抵接。使用中,摄像头A600安装于支座A100上,通过支座A100的转动实现摄像头A600的转动。在将交互智能平板的摄像头A600转到一定角度时,利用摩擦件A300为支座A100提供的相对支撑轴A200转动的阻尼,使支座A100维持相对支撑轴A200的位置,进而实现了摄像头A600拍摄角度的维持。由于摩擦件A300与支座A100和支撑轴A200是弹性抵接,在摩擦件A300、支座A100和支撑轴A200之间存在间隙时,摩擦件A300能弥补摩擦件A300、支座A100及支撑轴A200之间的间隙,使支座A100能受到维持摄像头A600拍摄角度的阻尼。
一实施例中,所述的交互智能平板还包括后盖(图中未示出),所述后盖与边框A900连接,后盖用于遮盖摄像头A600、支座A100、支撑轴A200及摩擦件A300,所述后盖上设有与支座A100对应的开口,所述开口用于转动支座A100。后盖能保护摄像头A600、支座A100、支撑轴A200及摩擦件A300,通过开口能转动支座A100,如此方便了从外部拨动调节摄像头A600的拍摄角度。
一实施例中,所述的交互智能平板还包括拨块A500,所述拨块A500与支座A100连接,拨块A500部分凸出与开口外。拨块A500与支座A100连接,拨块A500部分突出于开口外,此种调节方便简单。
实施例二,结合图5-8,本实施例提供一种摄像头散热结构及交互智能平板,适用于电子设备或者智能终端,特别是智能交互平板、智慧黑板等大屏智能交互产品中。需要解释的是,在下述的实施例中:摄像头B600可应用于取景,特别是拍照、图像识别、录像、以及辅助完成一些通过图像实现的交互功能;散热支座B100是摄像头B600的安装基础,散热支座B100起到的作用是承载摄像头B600,使摄像头B600能够随其转动。支撑轴B200虽然名为轴,但不限于轴的设置形式,其在此处主要是为支座B100提供转动支点,使支座B100能够绕一定方向转动。导热层B800是位于散热支座B100和摄像头B600之间的热传递介质,虽然名为层,但不限于层状的形式,其在此主要是转移摄像头B600的热量作用。
结合图5所示,本实施例提供一种摄像头散热结构,包括支撑轴B200、摄像头B600及散 热支座B100,所述散热支座B100可转动地安装于支撑轴B200上,所述摄像头B600安装于散热支座B100上,所述摄像头B600与散热支座B100之间设有导热层B800,所述导热层B800用于将摄像头B600的热量传递给散热支座B100。
上述摄像头散热结构,以载着摄像头B600转动的散热支座B100为摄像头B600散热,如此散热支座B100在实现摄像头B600转动的同时,能利用导热层B800将摄像头B600的热量传递给散热支座B100,利用散热支座B100增大摄像头B600的散热面积,以保证摄像头B600能有良好散热。
一实施例中,所述的摄像头散热结构还包括支架B700,所述支架B700设置于散热支座B100上,支架B700与散热支座B100间形成安装空间,所述摄像头B600安装于所述安装空间内。通过支架B700与散热支座B100配合构成的安装空间能够较好地安装固定摄像头B600,同时也能利用支架B700和散热支座B100有效地保护摄像头B600。
一实施例中,所述导热层B800采用热界面材料制成。热界面材料能填补摄像头B600和散热支座B100表面凹凸不平的孔洞,进而提高了调摄像头B600的散热性能。
一实施例中,所述热界面材料为导热硅胶或导热硅脂,其成本低廉、导热效果良好。
一实施例中,所述支撑轴B200包括间隔设置的第一支撑轴B210和第二支撑轴B220,散热支座B100的一侧与第一支撑轴B210转动连接,散热支座B100的另一侧与第二支撑轴B220转动连接。第一支撑轴B210和第二支撑轴B220的设置能提高散热支座B100转动安装的稳定性,保证散热支座B100转动可靠性。
结合图6所示,一实施例中,所述散热支座B100包括载板B110、第一连接板B120和第二连接板B130,所述第一连接板B120和第二连接板B130间隔设置,所述载板B110位于第一连接板B120和第二连接板B130之间,载板B110的一侧与第一连接板B120连接,载板B110的另一侧与第二连接板B130连接,所述第一连接板B120与第一支撑轴B210转动连接,所述第二连接板B130与第二支撑轴B220转动连接,所述摄像头B600安装于载板B110上,结构简单,安装方便。
一实施例中,所述第一支撑轴B210上设有调节件B400,所述调节件B400与第一连接板B120间隔设置,调节件B400和第一连接板B120之间设有摩擦件B300,调节件B400可在靠近或远离第一连接板B120的方向上移动,摩擦件B300的一侧与第一连接板B120弹性抵接,摩擦件B300的另一侧与调节件B400弹性抵接。在生产组装或产品维护的过程中,通过在靠近或远离第一连接板B120的方向上移动调节件B400,能调节支座B100相对第一支撑轴B210转动的阻尼,进而使支座B100能够受到足够的限制转动的阻尼。
结合图7所示,一实施例中,所述第一连接板B120设有第一安装孔B121,所述第一支撑轴B210设有调节段B211,所述调节段B211穿入第一安装孔B121内,所述调节件B400位于第一连接板B120和第二连接板B130之间,调节件B400与调节段B211连接。第一支撑轴B210通过穿入第一安装孔B121的调节段B211与第一连接板B120转动连接。调节件B400位于第一连接板B120和第二连接板B130之间,在第一支撑轴B210和第二支撑轴B220安装于边框B900上后,在靠近或远离第一连接板B120方向上移动调节件B400,此种方式能避免在移动调节件B400的过程中改变第一支撑轴B210和第二支撑轴B220的安装尺寸。
一实施例中,所述第一支撑轴B210设有定位件B212,所述定位件B212位于第一连接板B120远离第二连接板B130的一侧,定位件B212与第一连接板B120抵接配合。通过定位件B212与第一连接板B120抵接,能防止支座B100在第一支撑轴B210的轴向移动。具体定位件B212第一支撑轴B210上的定位轴肩。当然定位件B212也可以是螺纹连接在第一支撑轴B210上的销钉,或者是卡装与第一支撑轴B210上的定位凸块等限制第一连接板B120在第一支撑轴B210轴向移动的定位部件。
一实施例中,所述调节件B400与所述调节段B211螺纹连接。调节件B400与调节段B211螺纹连接,如此可通过正、反转调节第一连接板B120与调节件B400之间的间距,进而控制维持摄像头B600拍摄角度的阻尼。当然在其他实施例中,所述调节段B211上开设有条形孔,调节件B400通过穿过条形孔的螺栓安装于调节段B211上。
一实施例中,所述摩擦件B300为碟形弹片B310,所述碟形弹片B310设有通孔B311,所述碟形弹片B310通过通孔B311安装于支撑轴B200上。碟形弹片B310通过通孔B311安装于 支撑轴B200上,如此能保证碟形弹片B310与支撑轴B200的位置关系,保证维持摄像头B600拍摄角度的阻尼的稳定性。
结合图8所示,本实施例还提供一种交互智能平板包括边框B900、支撑轴B200、摄像头B600及散热支座B100,所述支撑轴B200安装于边框B900上,所述散热支座B100可转动安装于支撑轴B200上,所述摄像头B600安装于散热支座B100上,摄像头B600可随散热支座B100转动,所述摄像头B600与散热支座B100间设有导热层B800,所述导热层B800用于将摄像头B600的热量传递给散热支座B100。
上述交互智能平板,以载着摄像头B600转动的散热支座B100为摄像头B600散热,如此散热支座B100在实现摄像头B600转动的同时,能利用导热层B800将摄像头B600的热量传递给散热支座B100,利用散热支座B100增大摄像头B600的散热面积,以保证摄像头B600能有良好散热。
一实施例中,所述的交互智能平板还包括支架B700,所述支架B700安装于支座B100上,所述支架B700与支座B100配合形成安装空间,所述摄像头B600安装于安装空间内。通过支架B700与散热支座B100配合构成的安装空间能够较好的安装固定摄像头B600,同时也能利用支架B700和散热支座B100有效地保护摄像头B600。
一实施例中,所述支撑轴B200包括间隔设置的第一支撑轴B210和第二支撑轴B220,所述散热支座B100位于第一支撑轴B210和第二支撑轴B220之间,散热支座B100的一侧与第一支撑轴B210转动连接,散热支座B100的另一侧与第二支撑轴B220转动连接。第一支撑轴B210和第二支撑轴B220的设置能提高散热支座B100转动安装的稳定性,保证散热支座B100转动可靠性。
一实施例中,所述散热支座B100包括载板B110、第一连接板B120和第二连接板B130,所述第一连接板B120和第二连接板B130间隔设置,所述载板B110位于第一连接板B120和第二连接板B130之间,载板B110的一侧与第一连接板B120连接,载板B110的另一侧与第二连接板B130连接,所述第一连接板B120与第一支撑轴B210转动连接,所述第二连接板B130与第二支撑轴B220转动连接,所述摄像头B600安装于载板B110上,结构简单,安装方便。
一实施例中,所述的交互智能平板还包括后盖(图中未示出),所述后盖与边框B900连接,后盖用于遮盖摄像头B600、支座B100、支撑轴B200及摩擦件B300,所述后盖上设有与支座B100对应的开口,所述开口用于转动支座B100。后盖能保护摄像头B600、支座B100、支撑轴B200及摩擦件B300,通过开口能转动支座B100,如此方便了从外部拨动调节摄像头B600的拍摄角度。
一实施例中,所述的交互智能平板还包括拨块B500,所述拨块B500与支座B100连接,拨块B500部分凸出与开口外。拨块B500与支座B100连接,拨块B500部分突出于开口外,此种调节方便简单。
实施例三,结合图9-12,本实施例提供一种摄像头限位结构及交互智能平板,适用于电子设备或者智能终端,特别是智能交互平板、智慧黑板等大屏智能交互产品中。需要解释的是,在下述的实施例中:摄像头C520可应用于取景,特别是拍照、图像识别、录像、以及辅助完成一些通过图像实现的交互功能;支座C100是摄像头C520的安装基础,支座C100起到的作用是承载摄像头C520,使摄像头C520能够随其转动。支撑轴C200虽然名为轴,但不限于轴的设置形式,其在此处主要是为支座C100提供转动支点,使支座C100能够绕一定方向转动。限位件C120是与止转件C620配合的部件,二者可相对转动路径向相互干涉,通过限位件C120或者止转件C620在转动时的相互干涉,限制支座C100的转动范围,限位件C120和止转件C620可以是支座C100或者支撑轴C200的一部分,也可以是支座C100或者支撑轴C200连接的部件。
结合图9、图10所示,一实施例提供一种摄像头限位结构,包括支座C100,支座C100用于安装摄像头C520(图中未示出);支撑轴C200,配置为所述支座C100的转轴;限位件C120和止转件C620,两者其一与支座C100联动,另一与所述支撑轴C200联动,且两者转动路径相互干涉;其中,所述限位件C120包括第一限位部C123a和第二限位部C123b,所述止转件C620位于第二限位部C123b和第二限位部C123b之间。
上述摄像头限位结构,使用中,支座C100转动安装于支撑轴C200上,摄像头C520安装于支座C100上,摄像头C520随支座C100转动,在支座C100转动的过程中,止转件C620和限位件C120相对运动,在支座C100转至极限位置时,止转件C620与限位件C120的第一限位部C123a或第二限位部C123b抵接。通过第一限位部C123a和第二限位部C123b与止转件C620的配合,将摄像头C520限制在安全的转角范围内,保证了摄像头C520的正常使用。
结合图9所示,在本实施例中,所述限位件C120设置于支座C100上,所述限位件C120开设有限位孔C123,所述止转件C620位于限位孔C123内,所述第一限位部C123a和第二限位部C123b为与止转件C620抵接的限位孔C123的内壁。止转件C620安装于限位孔C123内,以限位孔C123内壁作为第一限位部C123a和第二限位部C123b,结构简单,安装方便。
一个实施例中,所述限位孔C123为弧形孔,所述弧形孔一端的内壁为第一限位部C123a,弧形孔另一端的内壁为第二限位部C123b。止转件C620相对限位件C120在弧形孔运动,弧形孔的开设能较小地削弱限位件C120的强度。
需要说明的是,上述的限位件C120也可以设置于支撑轴C200上,定位件C212设置于支座C100上。其结构可以借鉴上述中限位件C120位设置于支座C100,定位件C212设置于支撑轴C200上的结构。
另外,在其他实施例中,所述限位件C120包括设置于支座C100上的第一限位块和第二限位块(图中未示出),所述第一限位块和第二限位块间隔设置,所述止转件C620位于第一限位块和第二限位块之间,所述第一限位部C123a为第一限位块上与第二限位块对应的一侧,所述第二限位部C123b为第二限位块上与第一限位块对应的一侧。通过设置于支座C100上的第一限位块和第二限位块限制止转件C620,结构简单,安装方便。
一个实施例中,所述的摄像头限位结构还包括支撑件C610,所述支撑件C610上设有止转孔C612,所述支撑件C610通过止转孔C612安装于支撑轴C200上。所述止转件C620设置于支撑轴C200上,支撑件C610通过止转孔C612安装于支撑轴C200上,支撑件C610随支撑轴C200固定,止转件C620设置于支撑件上,如此方便了将止转件C620限制于支撑轴C200上。
需要说明的是,止转孔C612是非圆孔,可以是方孔、条形孔、矩形孔、椭圆孔等。利用止转孔内壁与支撑轴C200的干涉来防止支撑件C610绕支撑轴C200转动。
一个实施例中,所述支撑轴C200设有定位件C212,所述定位件C212与支座C100间隔设置,所述支撑件C610位于定位件C212和支座C100之间,所述支撑件C610的一侧与支座C100抵接,支撑件C610的另一侧与定位件C212抵接。通过定位件C212和支座C100对支撑件C610的抵接能限制支撑件C610与限位件C120之间的位置,防止支撑件C610沿支撑轴C200的轴向移动脱离与限位件C120的配合。
具体,上述定位件C212可以是支撑轴C200上的轴肩,也可以是连接于支撑轴C200上的凸块等。
一个实施例中,所述支座C100包括载板C100C,所述载板C100C用于安装摄像头C520,所述载板C100C上限位件C120,所述限位件C120与支撑轴C200转动连接。支座C100通过载板C100C上设置的限位件C120与支撑轴C200转动连接,结构紧凑。
结合图10,一个实施例中,所述支撑轴C200包括间隔设置的第一支撑轴C210和第二支撑轴C220,所述支座C100的一侧与第一支撑轴C210转动连接,支座C100的另一侧与第二支撑轴C220转动连接;所述支撑件C610通过止转孔C612安装于第一支撑轴C210上。第一支撑轴C210和第二支撑轴C220的设置能提高支座C100转动安装的稳定性,保证支座C100转动可靠性。
具体一实施例中,载板C100C上还设有连接件C130,连接件C130与限位件C120间隔设置于支撑轴C200上,所述第一支撑轴C210与限位件C120转动连接,所述第二支撑轴C220与连接件C130转动连接。支座C100通过限位件C120和连接件C130分别与第一支撑轴C210和第二支撑轴C220转动连接实现支座C100转动。
一个实施例中,所述支撑件C610与限位件C120相对的面上设有第一凹槽,所述第一凹槽用于存储润滑油或者润滑脂。
在其他实施例中,所述限位件C120与支撑件C610相对的面上设有第二凹槽C611,所述第二凹槽C611用于存储润滑油或者润滑脂。
使用中,在第一凹槽或第二凹槽C611内存储的润滑油或润滑脂能够减小支撑件C610与限位件C120的摩擦力,降低二者之间的相互磨损。
需要说明的是,第一凹槽和第二凹槽C611可同时开设,也可仅开设其中之一。
结合图11所示,一个实施例中,所述的摄像头限位结构还包括支架C530,所述支架C530安装于支座C100上,所述支架C530与支座C100配合形成安装空间,所述安装空间用于安装摄像头C520。通过支架C530与支座C100配合构成的安装空间能够较好的安装固定摄像头C520,同时也能利用支架C530和支座C100有效地保护摄像头C520。
结合图12所示,一个实施例中,所述支撑轴C200设有第二安装孔C230,所述第二安装孔C230用于与边框C550连接。安装中通过穿入第二安装孔C230内的紧固件完成支撑轴C200与边框C550的连接。
结合图10所示,具体,在一实施例中,所述限位件C120与第一支撑轴C210间设有摩擦件C300,摩擦件C300的一侧与第一支撑轴C210弹性抵接,摩擦件C300的另一侧与限位件C120弹性抵接。通过摩擦件C300为支座C100提供支座C100相对第一支撑轴C210和第二支撑轴C220转动的阻尼。
一实施例中,摩擦件C300及支撑件C610设置于限位件C120的两侧;通过将摩擦件C300和支撑件C610分设于限位件C120的两侧,能避免莫插件与支撑件C610间发生相互干扰,以致摩擦件C300不能为支座C100提供足够的限制转动的阻尼。
一实施例中,所述第一支撑轴C210上设有调节件C400,所述调节件C400与限位件C120间隔设置,所述摩擦件C300位于调节件C400与限位件C120之间,调节件C400可在靠近或远离限位件C120的方向上移动,摩擦件C300的一侧与限位件C120弹性抵接,摩擦件C300的另一侧与调节件C400弹性抵接。在生产组装或产品维护的过程中,通过在靠近或远离限位件C120的方向上移动调节件C400,能调节支座C100相对第一支撑轴C210转动的阻尼,进而使支座C100能够受到足够的限制转动的阻尼。
一实施例中,所述限位件C120设有第一安装孔C121,所述第一支撑轴C210设有调节段C211,所述调节段C211穿入第一安装孔C121内,所述调节件C400位于限位件C120和连接件C130之间,调节件C400与调节段C211连接。第一支撑轴C210通过穿入第一安装孔C121的调节段C211与限位件C120转动连接。调节件C400位于限位件C120和连接件C130之间,在第一支撑轴C210和第二支撑轴C220安装于边框C550上后,在靠近或远离限位件C120方向上移动调节件C400,此种方式能避免在移动调节件C400的过程中改变第一支撑轴C210和第二支撑轴C220的安装尺寸。
一实施例中,所述第一支撑轴C210设有定位件C212,所述定位件C212位于限位件C120远离连接件C130的一侧,定位件C212与限位件C120抵接配合。通过定位件C212与限位件C120的抵接,能防止支座C100在第一支撑轴C210的轴向移动。具体,定位件C212第一支撑轴C210上的定位轴肩。当然定位件C212也可以是螺纹连接在第一支撑轴C210上的销钉,或者是卡装与第一支撑轴C210上的定位凸块等,用于限制限位件C120在第一支撑轴C210轴向位置的定位件C212。
一实施例中,所述调节件C400与所述调节段C211螺纹连接。调节件C400与调节段C211螺纹连接,如此可通过正、反转调节限位件C120与调节件C400之间的间距,进而控制维持摄像头C520拍摄角度的阻尼。
具体,一实施例中,上述与第一支撑轴C210连接的限位件C120和第二支撑连接的连接件C130均呈板状,二者板面相对间隔设置于载板C100C的两侧。
一实施例中,所述摩擦件C300为碟形弹片C310,所述碟形弹片C310设有通孔C311,所述碟形弹片C310通过通孔C311安装于支撑轴C200上。碟形弹片C310通过通孔C311安装于支撑轴C200上,如此能保证碟形弹片C310与支撑轴C200的位置关系,保证维持摄像头C520拍摄角度的阻尼的稳定性。
一实施例中,所述载板C100C为散热载板,所述摄像头C520与载板C100C之间设置于导热层C540,摄像头C520通过导热层C540将热量传导至散热载板上。
结合图9-11所示,一实施例提供一种摄像头组件,包括所述的摄像头限位结构,还包括摄像头C520,所述摄像头C520安装于支座C100上。使用中,支座C100转动安装于支撑轴C200 上,摄像头C520安装于支座C100上,摄像头C520随支座C100转动,在支座C100转动的过程中,止转件C620和限位件C120相对运动,在支座C100转至极限位置时,止转件C620与限位件C120的第一限位部C123a或第二限位部C123b抵接。通过第一限位部C123a和第二限位部C123b与止转件C620的配合,将摄像头C520限制在安全的转角范围内,保证了摄像头C520的正常使用。
结合图12所示,一实施例提供一种交互智能平板,包括所述的摄像头组件、边框C550及后盖,所述支撑轴C200安装于边框C550上,所述后盖与边框C550连接,后盖用于遮盖摄像头C520。后盖能保护摄像头C520,同时,摄像头组件能够在使用中,通过第一限位部C123a和第二限位部C123b与止转件C620的配合,将摄像头C520限制在安全的转角范围内,保证了摄像头C520的正常使用。
一个实施例中,所述后盖上设有与支座C100对应的开口,所述开口用于转动支座C100。通过开口能转动支座C100,如此方便了从外部拨动调节摄像头C520的拍摄角度。
在其中一个实施例中,所述的交互智能平板还包括拨块C510,所述拨块C510与支座C100连接,拨块C510部分凸出与开口外。拨块C510与支座C100连接,拨块C510部分突出于开口外,此种调节方便简单。
实施例四,结合图13-17,本实施例提供一种摄像头安装组件、交互智能平板,适用于电子设备或者智能终端,特别是智能交互平板、智慧黑板等大屏智能交互产品中。需要解释的是,在下述的实施例中:摄像头D310可应用于取景,特别是拍照、图像识别、录像、以及辅助完成一些通过图像实现的交互功能;安装架D400是摄像头D310的安装基础,安装架D400起到的作用是承载摄像头D310,使摄像头D310能够随其移动,需要说明的是,虽然安装架D400名称为“架”,但是安装架D400并非不局限于架体,安装架D400实为载体。基架D410和卡架D420与安装架D400的原理相通,二者均因为局限于架体,也可以是壳体之类的,二者的作用是限制摄像头D310,使摄像头D310随二者移动。
结合图13所示,一种摄像头安装组件,包括摄像头D310及安装架D400,所述安装架D400包括基架D410和卡架D420,所述基架D410与卡架D420可拆卸连接,所述摄像头D310配置于基架D410和卡架D420之间。
结合图17所示,上述摄像头安装组件包括摄像头D310及安装架D400,摄像头D310配置于安装架D400的基架D410和卡架D420之间。使用中,摄像头安装组件用于安装在边框D200的容置腔D210内,并可通过与容置腔D210连通的拆装孔D230拆卸出容置腔D210外。在需要对边框D200内的摄像头D310进行维护时,将摄像头安装组件从容置腔D210内取出,利用基架D410和卡架D420的可拆卸连接,分离基架D410和卡架D420,取出配置在基架D410和卡架D420之间的摄像头D310。如此方便了维护摄像头D310。
一实施例中,结合图14所示,所述基架D410设有安装槽D411,所述摄像头D310安装于安装槽D411内;结合图15所示,所述卡架D420上设有挡块D428,结合图13所示,所述挡块D428与安装槽D411的槽口对应,所述挡块D428用于将摄像头D310限制于安装槽D411内。摄像头D310安装于基架D410上的安装槽D411内,通过卡架D420上与安装槽D411槽口对应的挡块D428将摄像头D310限制于安装槽D411内,如此能防止摄像头D310脱离安装槽D411,保证了摄像头D310与在安装架D400上的安装位置关系。
具体,在一实施例中,所述安装槽D411的槽底开设有与摄像头D310的镜头对应的拍摄窗,摄像头D310的镜头通过拍摄窗获取拍摄信息。为了限制摄像头D310在安装槽D411内的内置,可通过挡块D428和安装槽D411内壁对摄像头D310的抵接完成摄像头D310的限位。
一实施例中,结合图14所示,所述基架D410上设有安装块D415b,所述安装块D415b与卡架D420间隔设置形成插装空间。安装块D415b设置于基架D410上,安装块D415b与卡架D420间隔设置形成插装空间。安装使用中,通过向插装空间内插装连接架D500来完成安装架D400在容置腔D210内的限位。
一实施例中,所述安装块D415b包括第一安装块和第二安装块,所述第一安装块和第二安装块间隔设置。结合图17所示,使用中,连接架D500位于安装块D415b与卡架D420之间,通过连接架D500对安装块D415b的抵接将安装架D400限制与容置腔D210内。安装块D415b包括间隔的第一安装块和第二安装块,如此能增大连接架D500与安装块D415b的抵接受力位 置,提高安装架D400的安装稳定性。
具体一实施例中,所述第一安装块和第二安装块并列设置于安装槽D411槽口的两侧。
一实施例中,位于所述插装空间开口处的安装块D415b上设有插装导向部。插装导向部的设置能方便安装架D400安装于插装空间内。一般插装导向部及卡架D420上与插装导向部对应的部位配合形成楔形的插装口。如此方便了连接架D500的插装。
具体一实施例中,上述的插装导向部为弧形导向面。
一实施例中,所述卡架D420与基架D410卡接配合。卡接配合的结构简单,拆装方便。
需要说明的是,上述提及卡架D420与基架D410通过卡接配合实现可拆卸连接。在其他实施例中卡架D420与基架D410的可拆卸连接可以是螺纹连接等其他可拆卸连接。
一实施例中,结合图15所示,所述卡架D420上设间隔的第一隔板D421和第二隔板D422,所述第一隔板D421或第二隔板D422上设有卡槽D423,结合图14所示,所述基架D410上设有与卡槽D423对应的卡块D412,结合图13所示,所述卡块D412安装于卡槽D423内。在基架D410和卡架D420的卡装中,基架D410与卡架D420的第一隔板和第二隔板配合,基架D410上的将卡块D412送入至第一隔板D421或第二隔板D422的卡槽D423内,如此方便了基架D410和卡架D420的卡装。
具体一实施例中,结合图13所示,上述第一隔板D421和第二隔板D422板面相对形成卡位,基架D410安装于卡位内,基架D410上的卡块D412安装于第一隔板D421或第二隔板D422的卡槽D423内。
具体一实施例中,上述第一隔板D421和第二隔板D422均设有卡槽D423,基架D410上设有与第一隔板D421和第二隔板D422上的卡槽D423对应的卡块D412。如此能是基架D410卡装受力均匀,结构稳定。
一实施例中,所述卡架D420设有第一导向部,所述基架D410设有第二导向部,所述第一导向部和第二导向部可滑动配合。在第一导向部和第二导向部的配合下,能提高卡架D420和基架D410的卡装精度。
具体一实施例中,所述第一导向部为导向通道,所述第二导向部为导块D413,所述导块D413可沿导向通道滑动。
当然在其他实施例中,所述第二导向部为导向通道,所述第一导向部为导块D413,所述导块D413可沿导向通道滑动。
一实施例中,所述卡架D420上设有与第一隔板D421或第二隔板D422间隔设置的凸块D425,所述凸块D425与第一隔板D421或第二隔板D422配合形成所述导向通道。
一实施例中,所述导向通道开口处的凸块D425、第一隔板D421或第二隔板D422上设有安装导向部。在凸块D425或第一隔板D421上设有的安装导向部使导向通道的入口段呈楔形,且大端朝外。如此方便了导块D413进入导向通道。
具体一实施例中,凸块D425有两个,两个凸块D425分别与第一隔板D421和第二隔板D422对应形成导向通道。
具体一实施例中,第一隔板D421、第二隔板D422及两个凸块D425均设有安装导向部。第一隔板D421上的安装导向部和与第一隔板D421对应的凸块D425上的导向安装部配合形成楔形的导入口;第二隔板D422上的安装导向部和与第二隔板D422对应的凸块D425上的导向安装部配合形成楔形的导入口。导块D413有两个,两个导块D413分别与两个导向通道对应。
使用中,基架D410和卡架D420在导块D413在进入导向通道的过程中完成卡接。
一实施例中,结合图13和图15所示,所述的摄像头安装组件还包括盖体D427,所述盖体D427设置于卡架D420上背离基架D410的一侧。使用中,盖体D427位于边框D200外,通过盖体D427与安装架D400的连接将安装架D400从边框D200的容置腔D210内取出。
结合图16所示,一种交互智能平板,包括边框D200及所述的摄像头安装组件,所述边框D200设有容置腔D210及拆装孔D230,所述拆装孔D230与容置腔D210连通,所述容置腔D210内设有连接架D500,所述连接架D500与边框D200可拆卸连接,所述摄像头安装组件位于容置腔D210内,摄像头安装组件与所述连接架D500可拆卸连接,所述拆装孔D230用于将摄像头安装组件从容置腔D210内取出。
上述交互智能平板,使用中,摄像头安装组件用于安装于边框D200的容置腔D210内, 并可通过与容置腔D210连通的拆装孔D230拆卸出容置腔D210外。在需要对边框D200内的摄像头D310进行维护时,将摄像头安装组件从边框D200内取出,利用基架D410和卡架D420的可拆卸连接,分离基架D410和卡架D420,取出配置在基架D410和卡架D420之间的摄像头D310。如此方便了维护摄像头D310。
一实施例中,所述的交互智能平板还包括与卡架D420上背离基架D410一侧连接的盖体D427及设置于安装架D400上的限位件D415,所述盖体D427位于容置腔D210外,盖体D427与边框D200抵接,所述限位件D415位于容置腔D210内,所述限位件D415靠近盖体D427的一侧与连接架D500抵接。摄像头D310盖体D427受到边框D200施加的朝向容置腔D210外的抵接力和限位件D415受到连接架D500施加的朝向容置腔D210内的抵接力,通过两个不同方向上的抵接力将安装架D400限制于容置腔D210内。结构简单。拆卸摄像头安装组件时,在撤销连接架D500对边框D200的作用力时,便可将摄像头安装组件从容置腔D210内取出。
需要说明的是,上述的盖体D427位于容置腔D210外并非限定盖体D427整体位于容置腔D210外,结合图13和图15所示,当盖体D427上设有导向安装的围边D427a时,盖体D427上的围边D427a会与拆装孔D230的内壁配合进行安装导向。在围边D427a向安装孔D220内延伸较多时,围边D427a可部分位于容置腔D210内。所以此处的盖体D427位于容置腔D210外是指盖体D427上有一部分位于容置腔D210外,而非是限定盖体D427全部位于容置腔D210外。
一实施例中,所述限位件D415包括限位凸台D415a及所述安装块D415b,所述限位凸台D415a设置于基架D410上。在限位件D415包括安装块D415b、限位凸台D415a时,连接架D500可与安装块D415b和限位凸台D415a均抵接,如此能使安装架D400受力稳定。
具体,一实施例中,所述限位凸台D415a位于基架D410上。在基架D410与卡架D420卡接安装时,利用连接架D500对限位凸台D415a和安装块D415b同时施加远离拆装孔D230的抵接力,在抵接力的作用下基架D410与卡架D420之间的缝隙减小,同时能增加基架D410的受力位置,使基架D410受力均匀。
一实施例中,所述边框D200设有安装孔D220,所述安装孔D220与所述容置腔D210连通;所述连接架D500包括相连的支架D510和基板D520,所述基板D520设置于容置腔D210外,基板D520与边框D200连接,支架D510穿入安装孔D220延伸入所述容置腔D210内,所述支架D510与限位件D415靠近盖体D427的一侧抵接。
需要说明的是,基板D520与边框D200的连接可以是直接连接也可以是间接连接。下面以间接连接为例进行说明。
交互智能平板还包括背板D100,边框D200设置于背板D100的边缘上,基板D520设有第三连接孔D522,背板D100上设有与第三连接孔D522对应的第四连接孔D110,所述第三连接孔D522和第四连接孔D110内穿设有可拆卸的第二紧固件(图中未示出)。
一实施例中,所述的交互智能平板还包括控制板D320,所述控制板D320与摄像头D310电性连接。
一实施例中,所述控制板D320设置于容置腔D210外,控制板D320与基板D520可拆卸连接。
具体一实施例中,所述基板D520设有第一连接孔D521,所述控制板D320设有与第一连接孔D521对应的第二连接孔D321,所述第一连接孔D521和第二连接孔D321内穿设有第一紧固件。
一实施例中,所述的交互智能平板还包括后盖D600,所述后盖D600与边框D200或背板D100可拆卸连接,所述后盖D600用于遮盖所述安装孔D220及控制板D320。后盖D600能遮盖安装孔D220和控制板D320,如此避免控制板D320及摄像头D310模组收到外部撞击,保证了摄像头D310的正常使用。
具体一实施例中,所述后盖D600设有第五连接孔D610,所述边框D200设有与第五连接孔D610对应的第六连接孔D240,所述第五连接孔D610和第六连接孔D240内穿设有可拆卸的第三紧固件(图中未示出)。通过拆装第五连接孔D610和第六连接孔D240内的第三紧固件即可完成后盖D600的拆装。
上述的第一紧固件、第二紧固件、第三紧固件及第四紧固件为螺栓、螺钉等。
实施例五,结合图18-22,本实施例提供一种屏幕框体、附件安装组件、集成附件的屏幕框体及交互智能平板,适用于电子设备或者智能终端,特别是智能交互平板、智慧黑板等大屏智能交互产品中。需要解释的是,在下述的实施例中:边框是指围绕屏幕周围设置的框条,其可用用于安装功能性附件,一般屏幕框体包括四条边框,分别是上边框、下边框、左边框及右边框之一。容置腔并非是框体内的密闭空间,其可以是开放空间,容置腔的主要作用是容纳附件,使附件部分位于边框内或者全部位于边框内。拆装孔并非限定是一个孔状,也可是与其他形状比如是槽口,拆装孔主要是将容置腔和外接连通,其主要是容置腔与外界连通的通道,使附件可从容置腔内取出。
一实施例中,一种屏幕框体,包括边框,边框具有容置腔及拆装孔,拆装孔与容置腔连通,所述容置腔用于容置附件,拆装孔开设于边框的外观面上。
上述屏幕框体,边框具有容置腔,边框的外观面设有拆装孔,拆装孔与容置腔连通。正常使用中,附件安装于容置腔内。在附件需要维护或检修时,可通过外观面上的拆装孔将附件从容置腔内取出,如此可以在不拆开整机的情况下完成附件的维护与检修。
容置腔用于容置附件,附件一般可以是摄像头、扬声器、传感器等需要隐藏的附件。当附件容置于容置腔内时,容置腔用于隐藏该附件。
需要说明的是,上述外观面是指在不需要拆出整机的条件下,屏幕框体上可被用户观看到的表面区域。即外观面不是指边框上的某个表面,而是指一些表面的集合。在整机使用中,外观面可以是边框上朝向用户的表面;也可以是整机使用中边框上为用户看不到的表面,例如上边框的顶面、下边框的底面、左边框的左面及右边框的右面。
例如:一个实施例中,上述边框为上边框,前述的拆装孔开设于上边框的顶部。拆装孔位于上边框的顶部,用户在使用整机的过程中,拆装孔能隐藏在用户不易注意到的表面。
例如:一个实施例中,上述边框为下边框,前述的拆装孔开设于下边框的底部。拆装孔位于上边框的底部,用户在使用整机的过程中,拆装孔能隐藏在用户不易注意到的表面。
例如:一个实施例中,上述边框为左边框,前述的拆装孔开设于左边框的左侧。拆装孔位于左边框的左侧,用户在使用整机的过程中,拆装孔能隐藏在用户不易注意到的表面。
例如:一个实施例中,上述边框为右边框,前述的拆装孔开设于右边框的右侧。拆装孔位于右边框的右侧,用户在使用整机的过程中,拆装孔能隐藏在用户不易注意到的表面。
需要说明的是,拆装孔的位置不限于上述提及上边框、下边框、左边框或右边框中的一个,拆装孔可以是开设于上边框、下边框、左边框及右边框中的任意两个、三个或者四个。在此,不限定具体是那两个或三个边框上开设拆装孔。
本是发明再提供一种盖体,该盖体用于与前述的屏幕框体中的边框活动连接,用于遮盖拆装孔。
通过盖体能遮盖位于容置腔内的附件。在附件需要维护时,通过盖体相对边框的运动,打开拆装孔,以使检修人员能通过拆装孔从容置腔内取出附件,盖体可保护容置腔内的附件免收外部影响。
需要说明的是,盖体相对边框的活动连接可以是盖体与边框滑动连接,通过相对边框滑动盖体打开拆装孔。当然盖体与边框的活动连接可以是转动连接,通过相对转动盖体使盖体开闭拆装孔。亦或者盖体与边框的活动连接可以是卡接,盖体通过卡接的方式安装于边框上,在需要打开拆装孔时,盖体通过脱离边框的方式打开拆装孔。
例如:一个实施例中,上述盖体设有安装架,安装架用于安装附件,安装架可随盖体相对边框运动。如此,可在移动盖体的同时,安装有附件的安装架可随盖体移动,进而可通过移动盖体完成附件从容置腔内移出。
例如:一个实施例中,上述安装架包括基架和卡架,所述基架设有安装槽,所述安装槽用于安装附件,所述卡架设有与安装槽槽底相对的限位块,所述限位块用于将附件限制于安装槽内。使用中,附件安装于基架的安装槽内,卡架与基架卡接,卡架上的限位块将附件限制于安装槽内。此种固定方便了附件的安装固定。
例如:一个实施例中,所述卡架设有第一挡板和第二挡板,所述第一挡板和第二挡板间隔设置形成卡位,所述基架设置于卡位内,所述第一挡板或第二挡板上设有卡槽,所述基架设有与卡槽对应的卡块,所述卡块位于所述卡槽内,结构简单,拆装方便。
例如:一个实施例中,所述卡架设有凸块,所述凸块与第一挡板或第二挡板相对间隔设置形成导向通道,所述基架设有导块,所述导块位于所述导向通道内。在卡装过程中,基架与卡架通过导块与导向通道的导向配合完成卡架与基架的定位卡接,如此能提高二者的卡接定位精度,进而保证附件的安装定位精度。
本是发明再提供一种附件安装组件,用于与上述屏幕框体配合安装,包括附件和上述实施例中的盖体任一个盖体,附件可随盖体运动。
例如,一个实施例中,盖体包括设有的安装架,附件安装于安装架上,附件可通过安装架随盖体相对边框移动。
例如,一个实施例中,上述的安装架包括基架和卡架,所述基架设有安装槽,所述安装槽用于安装附件,所述卡架设有与安装槽槽底相对的限位块,所述限位块用于将附件限制于安装槽内。
例如,一个实施例中,所述卡架设有第一挡板和第二挡板,所述第一挡板和第二挡板间隔设置形成卡位,所述基架设置于卡位内,所述第一挡板或第二挡板上设有卡槽,所述基架设有与卡槽对应的卡块,所述卡块位于所述卡槽内。
例如:一个实施例中,所述卡架设有凸块,所述凸块与第一挡板或第二挡板相对间隔设置形成导向通道,所述基架设有导块,所述导块位于所述导向通道内。在卡装过程中,基架与卡架通过导块与导向通道的导向配合完成卡架与基架的定位卡接,如此能提高二者的卡接定位精度,进而保证附件的安装定位精度。
本发明再提供一种集成附件的屏幕安装框体,包括上述任一项实施例中的边框及上述任一向实施例中的附件安装组件。
本发明再提供一种交互智能平板,包括上述集成附件的屏幕安装框体,还包括控制板,所述控制板与附件电性连接。
例如:一个实施例中,所述边框的背部设有安装孔,所述安装孔与容置腔连通,所述连接架包括基板和支架,所述基板与边框连接,所述控制板安装于基板上。
背部是指边框上与朝向用户面相反的面。
例如:一个实施例中,交互智能平板还包括后盖,所述后盖与边框连接,后盖用于遮盖所述安装孔及控制板。
具体下面以附件是摄像头为例,说明具有上述安装结构的交互智能平板的结构。需要说明的是,当附件是扬声器等其他器件时,上述提及的结构可借鉴下述结构。
结合图18所示,上边框E200具有容置腔E210及开设于上边框E200顶部外观面的拆装孔E230,所述拆装孔E230与容置腔E210连通,摄像头E310安装于容置腔E210内。摄像头E310安装于容置腔E210内,所述摄像头E310可通过拆装孔E230从上边框E200内移出。
例如:一个实施例中,所述上边框E200还包括盖体E427,盖体E427扣合在上边框上,盖体E427用于遮盖拆装孔E230。
例如:结合图19所示,一个实施例中,盖体E427上设有安装架E400,所述安装架E400设置于容置腔E210内,所述摄像头E310设置于安装架E400上。摄像头E310尺寸较小,通过安装架E400能较好地方便安装摄像头E310;同时,可通过安装架E400的安装完成摄像头E310的安装。
例如:结合图20-图22所示,一个实施例中,安装架E400包括基架E410及与所述基架E410卡接的卡架E420,所述基架E410设有安装槽E411(结合图21所示),所述卡架E420设有与安装槽E411槽底相对的限位块E428(结合图22所示),所述摄像头E310置于安装槽E411内,所述限位块E428与摄像头E310抵接用于将摄像头E310限制与安装槽E411内。安装中,先将摄像头E310设置于安装槽E411内,再将卡架E420卡装于基架E410上,通卡架E420上与摄像头E310抵接的限位块E428将摄像头E310限制于安装槽E411内。此种限制安装摄像头E310的结构简单,拆装方便。
例如:一个实施例中,所述卡架E420设有第一挡板E421和第二挡板E422,所述第一挡板E421和第二挡板E422间隔设置形成卡位,所述基架E410设置于卡位内,所述第一挡板E421或第二挡板E422上设有卡槽E423,所述基架E410设有与卡槽E423对应的卡块E412,所述卡块E412位于所述卡槽E423内;结构简单,拆装方便。
例如:一个实施例中,所述卡架E420设有凸块E425,所述凸块E425与第一挡板E421或第二挡板E422相对间隔设置形成导向通道,所述基架E410设有导块E413,所述导块E413位于所述导向通道内。在卡装过程中,基架E410与卡架E420通过导块E413与导向通道的导向配合完成卡架E420与基架E410的定位卡接,如此能提高二者的卡接定位精度,进而保证摄像头E310的安装定位精度。
例如:一个实施例中,上述凸块E425有两个,两个凸块E425分别与第一挡板E421和第二挡板E422对应间隔设置形成第一导向通道和第二导向通道;所述导块E413有两个,两个导块E413分别位于第一导向通道和第二导向通道内。
例如:一个实施例中,所述容置腔E210内设有连接架E500,所述连接架E500与安装架E400对位连接。通过连接架E500能提高安装架E400在容置腔内的安装定位精度。
例如:一个实施例中,安装架E400设有限位凸台E415,所述限位凸台E415位于容置腔E210内,所述限位凸台E415靠近盖体E427的一侧与连接架E500抵接,盖体E427靠近限位凸台E415的一侧与上边框E200抵接。通过盖体E427和限位凸台E415与上边框E200和连接架E500的分别抵接将安装架E400限制于容置腔E210内。拆卸时,通过连接架E500即可解除对安装架E400的限位安装。
例如:结合图18所示,一个实施例中,交互智能平板还包括控制板E320,所述控制板E320与摄像头E310电性连接。控制板E320与摄像头E310电性连接,通过控制板E320能驱动摄像头E310工作。
例如:一个实施例中,所述上边框E200的背部设有安装孔E220,所述安装孔E220与容置腔E210连通,所述连接架E500包括基板E520和支架E510,所述基板E520与上边框E200连接,所述控制板E320安装于基板E520上。控制板E320与基板E520连接,支架E510与安装架E400配合,如此能保证控制板E320和摄像头E310的位置关系,使二者的电性连接可靠性高。
例如:一个实施例中,交互智能平板还包括背板E100,上边框E200与背板E100的顶部连接。所述基板E520设有第三连接孔E522,所述背板E100设有与第三连接孔E522对应的第四连接孔E110,所述第三连接孔E522和第四连接孔E110内穿设有可拆卸的第二紧固件(图中未示出)。通过拆装第三连接孔E522和第四连接孔E110内的第二紧固件即可完成连接架E500的拆装。
例如:一个实施例中,所述基板E520设有第一连接孔E521,所述控制板E320设有与第一连接孔E521对应的第二连接孔E321,所述第一连接孔E521和第二连接孔E321内穿设有第一紧固件。以穿设于第一连接孔E521和第二连接孔E321内的第一紧固件将控制板E320连接在基板E520上的结构简单。
例如:一个实施例中,所述的交互智能平板还包括后盖E600,所述后盖E600与上边框E200连接,后盖E600用于遮盖所述安装孔E220及控制板E320。后盖E600能遮盖安装孔E220和控制板E320,如此避免控制板E320及摄像头E310到外部撞击,保证了摄像头E310的正常使用。
例如:一个实施例中,所述后盖E600设有第五连接孔E610,所述上边框E200设有与第五连接孔E610对应的第六连接孔E240,所述第五连接孔E610和第六连接孔E240内穿设有可拆卸的第三紧固件(图中未示出)。通过拆装第五连接孔E610和第六连接孔E240内的第三紧固件即可完成后盖E600的拆装。
上述的第一紧固件、第二紧固件、第三紧固件及第四紧固件为螺栓、螺钉等。
以上所述实施例的各技术特征可以进行任意的组合,为使描述简洁,未对上述实施例中的各个技术特征所有可能的组合都进行描述,然而,只要这些技术特征的组合不存在矛盾,都应当认为是本说明书记载的范围。
以上所述实施例仅表达了本发明的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对发明专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本发明构思的前提下,还可以做出若干变形和改进,这些都属于本发明的保护范围。因此,本发明专利的保护范围应以所附权利要求为准。
Claims (13)
- 一种交互智能平板的摄像头安装结构,其特征在于,包括支座及支撑轴,所述支座转动安装于支撑轴上,所述支撑轴与支座间设有摩擦件,摩擦件的一侧与支座弹性抵接,摩擦件的另一侧与支撑轴弹性抵接,支座用于安装摄像头,摩擦件用于为支座提供相对支撑轴转动的阻尼。
- 根据权利要求1所述的交互智能平板的摄像头安装结构,其特征在于,所述支撑轴包括间隔设置的第一支撑轴和第二支撑轴,支座的一侧与第一支撑轴转动连接,支座的另一侧与第二支撑轴转动连接;所述摩擦件设置于第一支撑轴上,摩擦件的一侧与支座弹性抵接,摩擦件的另一侧与第一支撑轴抵接。
- 根据权利要求2所述的交互智能平板的摄像头安装结构,其特征在于,所述支座包括载板、第一连接板和第二连接板,所述第一连接板和第二连接板间隔设置,所述载板位于第一连接板和第二连接板之间,载板的一侧与第一连接板连接,载板的另一侧与第二连接板连接,所述载板用于安装摄像头,所述第一连接板与第一支撑轴转动连接,所述第二连接板与第二支撑轴转动连接,所述摩擦件的一侧与第一支撑轴抵接,摩擦件的另一侧与第一连接板抵接。
- 根据权利要求3所述的交互智能平板的摄像头安装结构,其特征在于,所述第一支撑轴上设有调节件,所述调节件与第一连接板间隔设置,所述摩擦件位于调节件与第一连接板之间,调节件可在靠近或远离第一连接板的方向上移动,摩擦件的一侧与第一连接板弹性抵接,摩擦件的另一侧与调节件弹性抵接。
- 根据权利要求4所述的交互智能平板的摄像头安装结构,其特征在于,所述第一连接板设有第一安装孔,所述第一支撑轴设有调节段,所述调节段穿入第一安装孔内,所述调节件位于第一连接板和第二连接板之间,调节件与调节段连接。
- 根据权利要求4所述的交互智能平板的摄像头安装结构,其特征在于,所述第一支撑轴设有定位件,所述定位件位于第一连接板远离第二连接板的一侧,定位件与第一连接板抵接配合。
- 根据权利要求5所述的交互智能平板的摄像头安装结构,其特征在于,所述调节件与所述调节段螺纹连接。
- 根据权利要求3所述的交互智能平板的摄像头安装结构,其特征在于,还包括拨块和摄像头,所述拨块和摄像头分别安装于载板的相对板面上,所述拨块用于转动支座。
- 根据权利要求8所述的交互智能平板的摄像头安装结构,其特征在于,还包括支架,所述支架设置于载板上,支架与载板之间形成安装空间,所述摄像头安装于所述安装空间内。
- 根据权利要求1-9任一项所述的交互智能平板的摄像头安装结构,其特征在于,所述摩擦件为碟形弹片,所述碟形弹片设有通孔,所述碟形弹片通过通孔安装于支撑轴上。
- 一种交互智能平板,其特征在于,包括边框、摄像头、支座、支撑轴,所述支撑轴安装于边框上,所述支座转动安装于支撑轴上,所述支撑轴与支座间设有摩擦件,摩擦件的一侧与支座弹性抵接,摩擦件的另一侧与支撑轴弹性抵接,支座用于安装摄像头,摩擦件用于为支座提供相对支撑轴转动的摩擦力阻力;所述摄像头安装于支座上并可随支座转动。
- 根据权利要求11所述的交互智能平板,其特征在于,还包括后盖,所述后盖与上边框连接,后盖用于遮盖摄像头、支座、支撑轴及摩擦件,所述后盖上设有与支座对应的开口,所述开口用于转动支座。
- 根据权利要求12所述的交互智能平板,其特征在于,还包括拨块,所述拨块与支座连接,拨块部分凸出与开口外。
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