CN210536743U - Electronic equipment with over-and-under type camera that can overturn - Google Patents

Abstract

The utility model relates to an electronic equipment technical field specifically discloses an electronic equipment with over-and-under type camera that can overturn, including the equipment body, camera device and swing joint module, camera device slides and locates the equipment casing, and swing joint module is used for driving the relative equipment casing of camera device and slides, so that camera device slides and is located inside the equipment casing and slide to being located the conversion between the outside state of equipment casing, and drive camera device's camera upset when camera device slides to being located the equipment casing outside, with the shooting angle that changes camera device's the relative display screen of camera. By adopting the design, the front-facing camera is arranged in the equipment shell, so that the front space of the electronic equipment is not occupied, and the comprehensive screen design of the electronic equipment can be realized; moreover, the camera is designed to be capable of overturning, the shooting direction can be changed by overturning the camera when the camera is used, additional matched scanning and point-reading auxiliary accessories are not needed, and the use convenience of a user is improved.

Description

Electronic equipment with over-and-under type camera that can overturn

Technical Field

The utility model relates to an electronic equipment technical field especially relates to an electronic equipment with over-and-under type camera that can overturn.

Background

The front camera of the electronic device (e.g., a tablet computer or a mobile phone) currently on the market is mainly disposed on the front side of the electronic device, and the shooting direction is perpendicular to the front side of the electronic device. If the traditional setting mode is adopted, due to the fact that the front-facing camera occupies the front space of the electronic equipment, the electronic equipment such as a tablet personal computer cannot realize a real comprehensive screen. In addition, for electronic equipment with a point reading function such as a tablet personal computer, because the shooting direction of the front camera is perpendicular to the front of the electronic equipment, a visual angle blind area exists when objects placed on a desktop are shot, auxiliary accessories are often required to be additionally matched with scanning point reading accessories, but the auxiliary accessories are relatively independent and detachable accessories, extra installation action is required during use, and the electronic equipment is not direct and convenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an electronic equipment with over-and-under type camera that can overturn for electronic equipment can realize the full face screen, and is favorable to improving electronic equipment's use convenience.

In order to achieve the above object, an embodiment of the present invention provides an electronic device with a lift-type turnable camera, including

The equipment body comprises an equipment shell and a display screen arranged on the equipment shell;

the camera device is arranged on the equipment shell in a sliding manner;

the swing joint module is arranged in the equipment shell and used for driving the camera device to slide relative to the equipment shell so as to enable the camera device to slide to be located in the equipment shell and slide to be located in the external state of the equipment shell, and the camera device slides to be located in the external state of the equipment shell and drives the camera of the camera device to turn over so as to change the shooting angle of the camera relative to the display screen.

As an optional implementation manner, in an embodiment of the present invention, an end portion or a side portion of the device housing is provided with a first opening penetrating to an inside of the device housing, and the image capturing device is slidably located in the first opening of the device housing or slidably located outside the first opening of the device housing.

As an optional implementation manner, in the embodiment of the present invention, the movable connection module includes a driving device and a lifting bracket, the driving device is connected to the lifting bracket for driving the lifting bracket to slide relative to the device housing, and the camera device is disposed on the lifting bracket.

As an optional implementation manner, in the embodiment of the present invention, the driving device includes a driving part, a transmission part and a movable block, the transmission part is connected to the driving part, the movable block is connected to the transmission part and the lifting bracket, the driving part is used for driving the transmission part to move, so that the movable block is relative to the transmission part, and the transmission part makes a reciprocating linear motion, and drives the lifting bracket to slide relative to the device housing.

As an optional implementation manner, in an embodiment of the present invention, the camera device includes the camera and a first housing having a second opening, the first housing is disposed on the lifting bracket, and the camera is rotatably disposed at the second opening of the first housing;

the swing joint module still includes the lifter, the first end of lifter with the movable block is connected, the second end of lifter certainly the lifting support upwards extends, and the activity wears to locate the lifting support reaches first casing extremely in the first casing, the lifter the second end is used for being in the drive of movable block drives the camera upset down.

As an alternative, in an embodiment of the present invention, a sum of an ascending stroke of the lifting rod and an ascending stroke of the lifting bracket is equal to an ascending stroke of the movable block on the transmission component.

As an optional implementation manner, in the embodiment of the present invention, a slider is slidably disposed in the first housing, the camera is provided with a first connecting portion and a second connecting portion, the first connecting portion is movably connected to the second opening of the first housing, the second connecting portion is rotatably connected to the slider, the lifting rod is movably disposed to the slider butt so as to push the slider to slide in the first housing.

As an optional implementation manner, in the embodiment of the present invention, a first guide rod is further fixedly disposed in the first housing, the slider is movably disposed through the first guide rod, the first guide rod is sleeved with a first return spring, a top end of the first return spring is fixedly disposed on the first housing, and a bottom end of the first return spring abuts against the slider.

As an optional implementation manner, in an embodiment of the present invention, the camera device includes the camera and a first housing having a second opening, the first housing is disposed on the lifting bracket, and the camera is rotatably disposed at the second opening of the first housing;

the movable connection module further comprises a first member, a second member and a third member, the first member is movably arranged in the first shell, the second member is connected to the first member and the camera, and the third member is connected to the equipment shell, extends upwards to penetrate through the lifting support to the first shell and is connected with the first member;

the first component is used for moving relative to the third component and acting on the second component under the driving of the lifting support driving the first shell to slide relative to the equipment shell, and the second component is used for moving relative to the first shell under the action of the first component so as to drive the camera to rotate.

As an optional implementation manner, in an embodiment of the present invention, a slider is slidably disposed in the first housing, the slider is connected to the second member, the camera is provided with a first connecting portion and a second connecting portion, the first connecting portion is movably connected to the second opening of the first housing, and the second connecting portion is rotatably connected to the slider;

the sliding block is used for moving relative to the first shell under the driving of the second component.

As an optional implementation manner, in the embodiment of the present invention, the first member is a reversing gear, the second member and the third member are racks, and the first member is engaged with the second member and the third member, respectively; alternatively, the first and second electrodes may be,

the first member, the second member and the third member are all connecting rods, the first member is hinged with the second member, and the third member is hinged with the second member.

As an optional implementation manner, in an embodiment of the present invention, the third member is slidably connected to the device housing, the third member is provided with a first limiting part, the device housing is provided with a second limiting part cooperating with the first limiting part, and the first limiting part and the second limiting part are used for limiting a sliding position of the third member relative to the device housing.

As an optional implementation manner, in an embodiment of the present invention, the first limiting part is a first sliding groove or a first limiting block, the second limiting part is a first limiting block or a first sliding groove, and a length extending direction of the first sliding groove is the same as a sliding direction of the third member.

As an optional implementation manner, in the embodiment of the present invention, the transmission part is a transmission screw, the inside of the device housing is further provided with a support frame, the transmission screw is rotatably disposed on the support frame, and the movable block is spirally connected to the transmission screw.

As an optional implementation manner, in the embodiment of the present invention, a second guide rod is further disposed inside the device housing, two ends of the second guide rod are respectively and fixedly connected to the support frame, the second guide rod is disposed at an interval on one side of the transmission screw rod and parallel to the transmission screw rod, and the movable block is movably disposed through the second guide rod.

As an optional implementation manner, in the embodiment of the present invention, the lifting bracket is provided with a third limiting part, the device housing is provided with a fourth limiting part matched with the third limiting part, and the third limiting part and the fourth limiting part are used for limiting a sliding position of the lifting bracket relative to the device housing.

As an optional implementation manner, in the embodiment of the present invention, the third limiting part is a sliding groove or a limiting block, the fourth limiting part is a limiting block or a sliding groove, and the length extending direction of the sliding groove is the same as the sliding direction of the lifting support.

As an optional implementation manner, in the embodiment of the present invention, the lifting bracket includes a bracket body and two support legs extending downward from the bracket body, the camera device is disposed on the bracket body, one of the support legs is provided with the third limiting member, and the other support leg is connected to the movable block.

As an optional implementation manner, in an embodiment of the present invention, two ends of the other one of the support legs extend in a direction away from the one of the support legs to form two fixing portions, a third guide rod is fixedly disposed between the two fixing portions, and the movable block movably penetrates through the third guide rod;

the third guide rod is further sleeved with a second return spring, the top end of the second return spring is abutted to one of the fixed parts, and the bottom end of the second return spring is abutted to the movable block.

Compared with the prior art, the utility model discloses an electronic equipment with over-and-under type camera that can overturn has following beneficial effect:

the utility model discloses a swing joint module of setting in the equipment casing utilizes swing joint module drive camera device can slide outside the equipment casing in the equipment casing, realizes camera device's shooting function. The front camera is arranged in the equipment shell, so that the front space of the electronic equipment is not occupied, and the comprehensive screen design of the electronic equipment can be realized; moreover, the camera is designed to be capable of overturning, the shooting direction can be changed by overturning the camera when the camera is used, additional matched scanning and point-reading auxiliary accessories are not needed, and the use convenience of a user is improved.

In addition, the two functions of lifting and overturning of the camera are realized by adopting one driving device, the structure of the movable connection module is simplified, the use of parts is saved, the occupation of the internal space of the equipment shell is reduced, the whole movable connection module is more compact, and the design requirements of miniaturization and lightness of electronic equipment are met.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic device according to a first embodiment of the present invention, in which an image pickup device is slidably located inside a device housing;

fig. 2 is a schematic structural diagram of an electronic device according to a first embodiment of the present invention, in which an image pickup device is slidably located outside a device housing;

fig. 3 is a schematic structural diagram of the first embodiment of the present invention, in which the camera device of the electronic device is slidably located outside the device housing and the camera is turned over;

fig. 4 is a schematic front view of a part of the electronic device according to the first embodiment of the present invention;

fig. 5 is a schematic back view of a part of the electronic device according to the first embodiment of the present invention;

fig. 6 is an exploded view of a part of an electronic device according to a first embodiment of the present invention;

fig. 7 is a schematic front view of a part of the electronic device according to the second embodiment of the present invention;

fig. 8 is a schematic back view of a part of the electronic device according to the second embodiment of the present invention;

fig. 9 is an enlarged schematic view at a in fig. 8.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The utility model discloses an electronic equipment with over-and-under type camera that can overturn for electronic equipment can realize the full face screen, and is favorable to improving electronic equipment's use convenience.

The technical solution of the present invention will be further described with reference to the following embodiments and the accompanying drawings.

Example one

Referring to fig. 1 to 3, an electronic device with a lift-type reversible camera of the present invention includes a device body 1, a camera 2 and a movable connection module, wherein the device body 1 includes a device housing 11 and a display 12 disposed on the device housing 11, the camera 2 is slidably disposed on the device housing 11, the movable connection module is disposed inside the device housing 11, for driving the image pickup device 2 to slide relative to the apparatus casing 11, so as to switch the image pickup device 2 between a state of sliding inside the apparatus casing 11 (as shown in fig. 1) and a state of sliding outside the apparatus casing 11 (as shown in fig. 2), and also for driving the camera 21 of the camera 2 to turn over when the camera 2 is slid to be located outside the apparatus case 11, to change the shooting angle of the camera 21 of the camera device 2 with respect to the display screen 12 (as shown in fig. 3).

By adopting the design, the camera 21 is arranged in the equipment shell 11, so that the front space of the electronic equipment is not occupied, and the comprehensive screen design of the electronic equipment can be realized. Moreover, the camera 21 is designed to be capable of being turned over, the camera 21 can be turned over to change the shooting direction when in use, additional matching scanning and point reading auxiliary accessories are not needed, the use convenience of a user is improved, and the shooting range of the camera 21 of the electronic equipment is effectively enlarged.

The electronic device may be, but is not limited to, an electronic device such as a family education machine, a learning tablet, a smart phone, and the like, and is not limited herein.

In practical use, when the electronic device is used as a learning tool for assisting learning, the learning materials can be placed on a table top or a desktop, and at the same time, the electronic device can be placed on the table top or the desktop, so that the display screen 12 of the electronic device can face the user, and the use by the user is facilitated. When needs use electronic equipment to shoot and search for the question, accessible upset camera 21 adjusts the shooting direction for electronic equipment is when display screen 12 is towards the user, and camera 21 can shoot towards the planar region in display screen 12 the place ahead, thereby can shoot the content of study material, effectively improves the flexibility of this electronic equipment shooting function, in order to satisfy the user at different occasions, the different shooting demands under the different scenes.

In the present embodiment, a first opening (not shown) penetrating into the apparatus housing 11 is provided at an end portion or a side portion of the apparatus housing 11, and the image pickup device 2 is slidably located in the first opening of the apparatus housing 11 or slidably located outside the first opening of the apparatus housing 11. By the above, the electronic device can be, but is not limited to, an electronic device such as a family education machine, a learning tablet, a smart phone, and the like, the camera device 2 is arranged on the end face of the top end, the camera device 2 does not need to be arranged on the front face, and a full screen can be realized. Moreover, the camera device 2 is arranged on the top end face, and the arrangement position of the camera 21 is close to that of the camera 21 of the traditional electronic equipment, so that the use habit of a user is better met. Therefore, the first opening is preferably provided in the distal end surface of the device case 11.

Specifically, when the shooting function is not needed, the camera device 2 is located in the first opening, the camera device 2 can be protected, and the situation that the camera device 2 protrudes outwards to cause damage due to the fact that external force impacts the camera 21 in the using process is avoided. When the photographing function is needed, the camera device 2 can slide out of the first opening through the movable connection module to perform photographing, and at the moment, the photographing direction of the camera 21 on the camera device 2 is the same as the direction of the display screen 12; when the camera 21 is required to face the area which forms a certain included angle with the display screen 12 for shooting, the movable connection module can be started again, and the movable connection module drives the camera 21 to turn over, so that the camera 21 rotates to face the required shooting direction.

Referring to fig. 1, 2 and 4, in this embodiment, the movable connection module includes a driving device 31 and a lifting bracket 32, the driving device 31 is connected to the lifting bracket 32 and is used for driving the lifting bracket 32 to slide relative to the device housing 11, and the image capturing device 2 is disposed on the lifting bracket 32. When the shooting function is started, the driving device 31 drives the lifting bracket 32 to ascend to the first opening, so that the image capturing device 2 slides to be exposed out of the first opening.

It is understood that the driving device 31 may be an electric driving device, a hydraulic driving device, a pneumatic driving device, a hybrid driving device, or the like, which is not limited thereto.

Further, the driving device 31 is disposed at one side of the lifting bracket 32 and is disposed adjacent to the lifting bracket 32, so that the driving device 31 drives the lifting bracket 32 to move, and the whole structure of the whole movable connection module is more compact. The driving device 31 includes a driving part 311, a transmission part 312 and a movable block 313, the transmission part 312 is connected to the driving part 311, the movable block 313 is connected to the transmission part 312 and the lifting bracket 32, and the driving part 311 is used for driving the transmission part 312 to move, so that the movable block 313 makes a reciprocating linear motion relative to the transmission part 312, and drives the lifting bracket 32 to slide relative to the device housing 11.

Preferably, the driving part 311 is a driving motor, the transmission part 312 is a transmission screw rod connected to the driving motor, the inside of the device housing 11 is further provided with a support frame 111, the transmission screw rod is rotatably disposed on the support frame 111, and the movable block 313 is spirally connected to the transmission screw rod. The driving motor drives the transmission screw rod to rotate, and the movable block 313 performs reciprocating lifting motion under the action of the transmission screw rod so as to drive the lifting support 32 to lift relative to the equipment shell 11.

Furthermore, a second guide rod 112 is further disposed inside the device housing 11, two ends of the second guide rod 112 are respectively and fixedly connected to the support frame 111, the second guide rod 112 is disposed at one side of the transmission screw rod at an interval and parallel to the transmission screw rod, and the movable block 313 is movably disposed through the second guide rod 112.

In this embodiment, the lifting bracket 32 is provided with a third limiting member 321, a fourth limiting member 113 matched with the third limiting member 321 is arranged in the equipment housing 11, and the third limiting member 321 and the fourth limiting member 113 are used for limiting a sliding position of the lifting bracket 32 relative to the equipment housing 11.

Further, the third limiting member 321 is a second sliding slot or a second limiting member, the fourth limiting member 113 is a second limiting member or a second sliding slot, and a length extending direction of the second sliding slot is the same as a sliding direction of the lifting bracket 32.

Furthermore, the lifting bracket 32 includes a bracket body and two legs extending downward from the bracket body, the image capturing device 2 is disposed on the bracket body, one of the legs has a third limiting member 321, and the other leg is connected to the movable block 313. In this manner, the sliding movement of the lifting bracket 32 within the device housing 11 may be made more stable.

Referring to fig. 2, 3 and 4, in the present embodiment, the camera device 2 is disposed on the upper portion of the bracket body and connected to the bracket body, the camera device 2 includes a camera 21 and a first housing 22 having a second opening (not shown), the first housing 22 is fixedly disposed on the bracket body, and the camera 21 is rotatably disposed in the second opening of the first housing 22. The second opening is located on the same surface of the first casing 22 as the display 12, and the shooting direction of the camera 21 is set outward, so that the camera 21 faces the same direction as the display 12. When the camera 21 needs to face the area which forms a certain included angle with the display screen 12 for shooting, the movable connection module is started, the movable connection module drives the camera 21 to turn over, and at the moment, the camera 21 turns over relative to the first shell 22 so that the camera 21 turns over to face the required shooting direction.

Specifically, the first housing 22 is a rectangular housing having a receiving cavity, and the second opening is a rectangular opening and communicates with the receiving cavity.

As an alternative, the movable connection module may be of a single-drive design, i.e. the above-mentioned driving device 31 is used for driving the camera head 21 to turn relative to the first housing 22 in addition to driving the lifting bracket 32.

As another alternative, the movable connection module is designed to be driven in a dual-driving manner, that is, the movable connection module is further provided with a first driving device for driving the camera 21 to turn relative to the first housing 22.

In this embodiment, the movable connection module is preferably designed to be driven by a single driver, that is, the driving device 31 is further used for driving the camera 21 to turn over relative to the first housing 22. By adopting the mode, one driving device realizes two functions of lifting and turning over the camera 21, the structure of the movable connection module is simplified, the use of parts is saved, the occupation of the internal space of the equipment shell 11 is reduced, the whole movable connection module is more compact, and the design requirements of miniaturization and lightness of electronic equipment are met.

As shown in fig. 4 and fig. 5, in this embodiment, the movable connection module further includes a lifting rod 33, a first end of the lifting rod 33 is connected to the movable block 313, a second end of the lifting rod 33 extends upward from the lifting bracket 32, and movably penetrates through the bracket body of the lifting bracket 32 and the first housing 22 to the first housing 22, and the second end of the lifting rod 33 is used for driving the camera 21 to turn over under the driving of the movable block 313.

Specifically, the lifting rod 33 is a cylindrical long rod, the lifting rod 33 is located between the two support legs, the support body and the first housing 22 are arranged in the first housing 22 in a penetrating manner from the lower direction of the support body, and the second end of the lifting rod 33 is located in the first housing 22.

Preferably, the sum of the ascending stroke of the ascending and descending rod 33 and the ascending stroke of the ascending and descending support 32 is equal to the ascending stroke of the movable block 313 on the transmission member 312. Specifically, the movable block 313 rises from the bottom of the transmission part 312, and at this time, the movable block 313 drives the lifting bracket 32 to rise from the inside of the device housing 11 to the first opening, so that the image capturing device 2 slides from the first opening to be exposed outside the first opening. The movable block 313 continues to rise to the top of the transmission component 312, and at this time, the movable block 313 drives the lifting rod 33 to rise to drive the camera 21 to turn over, so that the camera 21 turns over on the second opening of the first housing 22.

Similarly, the sum of the descending stroke of the lifting rod 33 and the descending stroke of the lifting bracket 32 is equal to the descending stroke of the movable block 313 on the transmission part 312, and the descending process of the lifting rod 33 and the lifting bracket 32 is the reverse moving process of the ascending process, which is not described in detail herein.

In this way, the setting of the moving stroke of the movable connecting module is facilitated by setting the moving stroke of the movable block 313 to control the moving stroke of the lifting rod 33 and the lifting bracket 32.

Referring to fig. 4, 5 and 6, in the present embodiment, a sliding block 221 is slidably disposed in the first housing 22, the camera 21 has a first connecting portion 211 and a second connecting portion 212, the first connecting portion 211 is movably connected to the second opening of the first housing 22, the second connecting portion 212 is rotatably connected to the sliding block 221, and the lifting rod 33 is movable to abut against the sliding block 221 for pushing the sliding block 221 to slide in the first housing 22.

Specifically, after the camera device 2 has risen to the outside of the first opening, when the camera 21 is required to shoot towards an area forming a certain included angle with the display screen 12, the driving part 311 can drive the transmission part 312, so that the movable block 313 continues to make a rising motion on the transmission part 312, the movable block 313 drives the lifting rod 33 to rise, the lifting rod 33 pushes the slider 221 to rise when rising, the slider 221 drives the second connection part 212 to make a rising motion, and meanwhile, the rising of the second connection part 212 drives the first connection part 211 to horizontally slide on the second opening of the first housing 22, so that the camera 21 is turned over relative to the first housing 22.

In this embodiment, the sliding block 221 is a rectangular sliding block, and a contact surface of the lifting rod 33 for contacting with the sliding block 221 is slightly smaller than or equal to the contact surface of the sliding block 221, so as to facilitate contact and abutment of the lifting rod 33 and the sliding block 221.

Further, the sliding block 221 is located at one side of the camera 21, and the sliding block 221 can move up and down and slide at one side of the camera 21 to drive the second connecting portion 212 to move up and down.

In this embodiment, the first connecting portion 211 and the second connecting portion 212 are disposed oppositely, the first connecting portion 211 is two oppositely disposed first rotating shafts, and the second opening has two horizontal sliding slots a corresponding to the two first rotating shafts, so that the two first rotating shafts can be respectively located in the two horizontal sliding slots a to slide horizontally. The second connecting portion 212 is two second rotating shafts arranged oppositely, the slider is provided with a rotating groove b, an opening direction of the rotating groove b faces one of the second rotating shafts, an inner wall surface of the rotating groove b is an arc surface, one of the second rotating shafts extends into the first shell 22 and extends to the rotating groove b, and a lifting groove extending in the vertical direction is further formed in the first shell 22 corresponding to the other second rotating shaft. In the process of lifting the sliding block 221, the sliding block 221 drives one of the second rotating shafts to lift, wherein the lifting of one of the second rotating shafts drives the other second rotating shaft to lift in the lifting groove and the two first rotating shafts slide in the horizontal sliding groove a, so that the camera 21 is turned over relative to the first housing 22.

Further, since the second connecting portion 212 is raised to raise one side of the camera 21 at a certain distance from the second opening, a gap is provided between the top of the camera 21 and the second opening, and the size of the gap and the amount of the raised camera 21 when it is turned over can be matched with each other.

In this embodiment, the first guiding rod 222 is fixedly disposed in the first casing 22, and the sliding block 221 movably penetrates through the first guiding rod 222, so that the sliding block 221 can slide relative to the first casing 22. The slider 221 is moved upward by the first guide bar 222 by the lift bar 33.

Further, in order to return the camera 21 from the state after the turning to the state before the turning, the first guiding rod 222 is sleeved with a first return spring 223, the top end of the first return spring 223 is fixedly disposed on the first housing 22, and the bottom end of the first return spring 223 abuts against the sliding block 221.

The turning process of the camera 21 is as follows:

after the camera device 2 has risen to the outside of the first opening, when the camera 21 in the reversed state needs to be used, the driving part 311 drives the transmission part 312, so that the movable block 313 continues to make a rising motion on the transmission part 312, the movable block 313 drives the lifting rod 33 to rise, at this time, the lifting rod 33 pushes the sliding block 221 to rise, the sliding block 221 extrudes the first return spring 223 in the initial state to be in a compressed state, and the sliding block 221 drives the second connecting part 212 to rise, the second connecting part 212 drives the first connecting part 211 to slide in the horizontal sliding groove a, so that the camera 21 is turned over until the orientation of the camera 21 forms a certain included angle with the orientation of the display screen 12. The first return spring in the initial state is a state in which the first return spring is not compressed and is not elongated.

When the camera 21 in the reversed state is not needed, the driving part 311 drives the transmission part 312, so that the movable block 313 moves down on the transmission part 312, the movable block 313 drives the lifting rod 33 to move down, at this time, the first return spring 223 pushes the slider 221 back to the position before the reversal under the action of the downward movement of the slider 221, the slider 221 drives the second connection part 212 to move down to the position before the reversal, the second connection part 212 drives the first connection part 211 to slide to the position before the reversal along the horizontal direction, and the camera 21 is turned to the state that the orientation of the camera 21 is the same as the orientation of the display screen 12. In addition, the first return spring 223 is provided to prevent the slider 221 from sliding freely on the first guide bar 222.

As shown in fig. 5, in the present embodiment, two ends of the other supporting leg respectively extend in a direction away from one of the supporting legs to form two fixing portions, a third guiding rod 322 is fixedly disposed between the two fixing portions, the movable block 313 movably penetrates through the third guiding rod 322, the third guiding rod 322 is further sleeved with a second return spring 323, a top end of the second return spring 323 abuts against one of the fixing portions, and a bottom end of the second return spring 323 abuts against the movable block 313.

The process of the moving block 313 moving up on the transmission component 312 includes two driving stages, in the first driving stage, the moving block 313 drives the lifting support 32 to slide relative to the device housing 11, at this time, the sliding groove provided on one of the support legs slides relative to the limiting block until the limiting block abuts against the bottom of the sliding groove, and when the lifting support 32 reaches the set position and cannot continue to move up, the image pickup device 2 slides to be exposed out of the first opening. In the second stage, the movable block 313 continues to perform an ascending motion on the transmission component 312, the movable block 313 extrudes the second return spring 323 and drives the lifting rod 33 to perform an ascending motion, until the movable block 313 ascends to the top of the transmission component 312, the lifting rod 33 cannot continue to ascend, and the camera 21 is turned over to form a certain included angle with the orientation of the display screen 12.

Preferably, the turning angle of the camera 21 is 45 ° to 60 °, that is, the shooting direction of the camera 21 forms an included angle of 45 ° to 60 ° with the display screen 12, and preferably, the turning angle may be 45 °, 50 °, 52 ° and 60 °, it is understood that in other embodiments, the preset turning angle of the camera 21 may be selected according to actual situations, and is not limited herein.

In this embodiment, a connecting block for connecting with the movable block 313 is fixedly disposed on the second end of the lifting rod 33, and the connecting block is movably disposed through the other supporting leg, so that the lifting rod 33 can perform lifting motion on the other supporting leg.

Furthermore, in order to better limit the lifting position of the lifting rod 33 on the other support leg, the other support leg is provided with a limit groove, the connecting block movably penetrates through the limit groove and can do lifting motion relative to the other support leg in the limit groove, and the groove length of the limit groove is consistent with the lifting stroke of the lifting rod 33.

In this embodiment, the active connection module may be started by pressing a key, for example, a key electrically connected to the active connection module is arranged on a side portion or an end portion of the electronic device, or, a touch start mode may be adopted, for example, a shooting icon is arranged on the display screen 12 of the device body 1, and a user may click the shooting icon on the display screen 12 to start the active connection module, or of course, a voice control mode may also be adopted, for example, a user may set a start voice instruction such as "open" or "open" in advance, and the user inputs the voice instruction, and then the active connection module may be triggered to start.

Further, the electronic device further includes a camera FPC, which is connected to the camera 21, extends downward from the bottom of the camera 21, penetrates through the first housing 22 and the bracket body, and is connected to the inside of the device body 1, and is electrically connected to a main board (not shown) inside the device body 1, so as to electrically connect the camera 2 to the main board.

This scheme of adoption, because module 2 and the swing joint module of making a video recording are compact structure's miniaturized design, under the condition that does not influence the former size of a dimension of electronic equipment, can realize the lift and the upset of camera 212.

The process of raising and lowering and turning the camera 21 will be described in detail below:

a first rising stage: the driving part 311 drives the transmission part 312 to rotate, the movable block 313 moves up relative to the transmission part 312, and drives the lifting support 32 to slide up relative to the device housing 11, when the lifting support 32 slides to a position where the limiting block abuts against the bottom of the sliding groove, the camera device 2 slides to expose the first opening along with the lifting support 32, at this time, the lifting support 32 reaches a set position and cannot continuously rise, and meanwhile, the camera 21 is kept in a state where the shooting direction is the same as the orientation of the display screen 12.

And a second ascending stage: the driving part 311 drives the transmission part 312, the movable block 313 continues to perform ascending motion on the transmission part 312 and drives the lifting rod 33 to ascend, the lifting rod 33 pushes the sliding block 221 to ascend in the ascending process, the second connection part 212 performs ascending motion under the driving of the sliding block 221, and in the ascending process of the second connection part 212, the first connection part 211 performs horizontal sliding on the second opening of the first shell 22 so that the camera 21 is turned over relative to the first shell 22, and the shooting direction of the camera 21 is turned over to form a certain included angle with the orientation of the display screen 12.

A first descending stage: the driving part 311 drives the transmission part 312 to move reversely, the movable block 313 moves down on the transmission part 312, the movable block 313 drives the lifting rod 33 to move down, the first return spring 223 pushes the sliding block 221 back to a position before turning under the action of the downward movement of the sliding block 221, the second connecting part 212 moves down under the driving of the sliding block 221, and in the process that the second connecting part 212 moves down, the first connecting part 211 slides to the position before turning along the horizontal direction, so that the camera 21 is turned over reversely relative to the first shell 22, and the shooting direction of the camera 21 is turned over to be the same as the orientation of the display screen 12.

And the second descent realizes the camera overturning stage: the driving part 311 drives the transmission part 312 to move reversely, the movable block 313 continues to move downward on the transmission part 312, and drives the lifting support 32 to slide downward relative to the device housing 11, when the lifting support 32 slides to the position where the limiting block abuts against the top of the sliding chute, the camera device 2 slides to the first opening along with the lifting support 32, and at this time, the lifting support 32 reaches the set position and cannot continue to move downward.

In the actual use process, according to different user requirements, the lifting and turning processes of the camera 21 are different, and may include the following:

as a preferred application scenario: the user only needs to use the camera 21 to photograph a photographing function oriented in the same direction as the orientation of the display screen 12. In this case, when the user needs to use the camera 21, the user starts the movable connection module, so that the movable connection module only needs to perform the first raising stage, so that the image capturing device 2 is exposed out of the first opening, and the camera 212 in this state faces the user, and can be used for functions such as self-shooting and video call.

As another preferred application scenario: the user only needs to use the camera 21 to shoot the shooting function with the direction forming a certain angle with the orientation of the display screen 12. In this case, when the user needs to use the camera 21, the user starts the movable connection module, so that the movable connection module executes the first ascending stage and the second ascending stage to the second ascending stage, so that the camera device 2 is exposed out of the first opening and then the camera 21 is continuously turned over until the shooting direction thereof forms a certain included angle with the display surface of the display screen 12, and the shooting direction of the camera 21 in this state faces the plane area in front of the display screen 12, so that the movable connection module can be used as a learning tool for assisting learning, such as functions of shooting and searching questions for learning materials placed on the plane, and the flexibility of the shooting function of the electronic device is effectively improved.

As yet another optional application scenario: the user needs to use the shooting function with the shooting direction of the camera 21 being the same as the orientation of the display screen 12, and needs to use the shooting function with the shooting direction of the camera 21 being at a certain angle with the orientation of the display screen 12. In this case, when it is necessary to make the shooting direction of the camera 21 the same as the orientation of the display 12, the active connection module is started, and the active connection module only executes the first ascending phase, and the camera 212 in this state faces the user, and can be used for functions such as self-shooting, video and the like. When the camera 21 needs to be turned over to a position where the shooting direction of the camera is inclined to a certain angle with the display surface of the display screen 12, the movable connection module can be started again, the movable connection module executes a second rising stage, the camera 212 in the state can shoot towards the plane area in front of the display screen 12, and the movable connection module can be used as a learning tool for assisting learning, and can be used for shooting learning materials on the plane, searching questions and other functions.

It can be known that the above usage scenarios are only a part of usage scenarios for illustration, and the present solution also includes other usage scenarios not listed, and the present embodiment is not particularly limited.

The embodiment of the utility model provides a pair of electronic equipment with over-and-under type camera that can overturn, the design that the camera over-and-under type can overturn for electronic equipment can realize the full face screen, and is favorable to improving electronic equipment's use convenience. In addition, the design that a drive arrangement drives the lift and the upset of camera is favorable to simplifying the structure of swing joint module and saving the use of part, reduces the occupation to equipment casing inner space for whole swing joint module is compacter, satisfies electronic equipment's miniaturization, lightweight design requirement.

Example two

Referring to fig. 7 to 9, the second embodiment provides an electronic device with a lift-type reversible camera, and the difference between the electronic device of the second embodiment and the electronic device of the first embodiment is:

the movable connection module further includes a first member 33, a second member 34 and a third member 35, the first member 33 is movably disposed in the first housing 22, the second member 34 is connected to the first member 33 and the camera 21, and the third member 35 is connected to the device housing and extends upward from the device housing to penetrate through the lifting bracket 32 and the first housing 22 to be connected to the first member 33. The first member 33 is configured to move relative to the third member 35 and act on the second member 34 when the lifting bracket 32 drives the first housing 22 to slide relative to the device housing, and the second member 34 is configured to move relative to the first housing 22 under the action of the first member 33 to drive the camera 21 to rotate.

As a first optional implementation manner, the first member 33, the second member 34, and the third member 35 are respectively a first connecting rod, a second connecting rod, and a third connecting rod, that is, the first connecting rod is movably disposed in the first casing 22, the first connecting rod is hinged to the second connecting rod and connected to the camera 21, and the third connecting rod is connected to the equipment casing and extends upward from the equipment casing to penetrate through the lifting bracket 32 and the first casing 22 into the first casing 22 and is hinged to the second connecting rod.

As a second optional embodiment, the first member 33 is a reversing gear, the second member 34 is a first lifting rack, and the third member 35 is a second lifting rack, that is, the reversing gear is movably disposed in the first housing 22, the first lifting rack and the reversing gear are engaged with each other and connected to the camera 21, and the second lifting rack is connected to the device housing and extends upward from the device housing to penetrate through the lifting bracket 32 and the first housing 22 into the first housing 22 and is engaged with the reversing gear. The present embodiment is only illustrated by taking the second alternative embodiment as an example.

Therefore, the flipping process of the camera can be roughly as follows:

the lifting support 32 drives the first housing 22 to slide relative to the device housing, so that the reversing gear and the second lifting rack perform primary transmission, and simultaneously, the reversing gear and the first lifting rack perform secondary transmission. Wherein, the first-stage transmission is: the reversing gear is engaged with the second lifting rack to lift and convert into rotary motion of the reversing gear. The secondary transmission is as follows: the rotary motion of the reversing gear is converted into the lifting motion of the first lifting rack. Under the action of the primary transmission and the secondary transmission of the reversing gear, the camera 21 is finally driven to turn over.

Further, the third member 35 includes a meshing portion 351 provided with meshing teeth, the meshing portion 351 being in meshing connection with the reversing gear, and a slide connecting portion 352 connected to the meshing portion 351, the slide connecting portion 352 being slidably connected to the apparatus case. In order to limit the sliding position of the third member 35 relative to the device housing, the sliding connection portion 352 is provided with a first limiting member 353, the device housing is provided with a second limiting member 114 matched with the first limiting member 353, and the first limiting member 353 and the second limiting member 114 are matched and connected. The first limiting member 353 is a first sliding slot or a first limiting member, the second limiting member 114 is a first limiting member or a first sliding slot, and preferably, the first limiting member 353 is a first sliding slot, and the second limiting member 114 is a first limiting member. Wherein the length extending direction of the first sliding groove is the same as the sliding direction of the third member 35.

A first rising stage: the driving part 311 drives the transmission part 312 to rotate, the movable block 313 ascends from the bottom of the transmission part 312, the movable block 313 drives the lifting support 32 to ascend from the inside of the equipment shell to the first opening, at this time, the lifting support 32 drives the first shell 22 to ascend, so that the camera 21 slides from the first opening to be exposed out of the first opening, meanwhile, the second lifting rack ascends along with the sliding of the lifting support 32 relative to the equipment shell, and the second lifting rack, the reversing gear and the first lifting rack keep a relatively static state with the first shell 22.

The second time of rising realizes the camera upset stage: the driving part 311 continues to drive the transmission part 312 to rotate, the movable block 313 continues to rise, the movable block 313 continues to drive the lifting support 32 to rise, the lifting support 32 drives the first shell 22 to rise, meanwhile, due to the limiting action of the first limiting part 353 and the second limiting part 114, the second lifting rack does not slide and rise relative to the equipment shell any longer, the reversing gear performs rotary motion on the second lifting rack, the rotary motion of the reversing gear is converted into the rising motion of the first lifting rack, the first lifting rack rises relative to the first shell 22, and therefore the camera 21 is driven to turn over.

In this embodiment, a sliding block 221 is slidably disposed in the first casing 22, the sliding block 221 is connected to the second member 34, the camera 21 has a first connecting portion and a second connecting portion, the first connecting portion is movably connected to the second opening of the first casing 22, the second connecting portion is rotatably connected to the sliding block 221, and the sliding block 221 is configured to slide relative to the first casing 22 under the driving of the second member 34. Preferably, the sliding block 221 is integrally formed with the second member 34, i.e., the sliding block 221 is a small bump extending outward from the bottom end of the second member 34.

Further, a first guide rod is fixedly disposed in the first housing 22, and the sliding block 221 is movably disposed through the first guide rod, so that the sliding block 221 can slide relative to the first housing 22. The slide block 221 is moved upward on the first guide bar by the second member 34.

Furthermore, in order to return the camera 21 from the state after the turning to the state before the turning, the first guide rod is sleeved with a first return spring, the top end of the first return spring is fixedly disposed on the first housing 22, and the bottom end of the first return spring abuts against the slider 221.

A first descending stage: the driving part 311 drives the transmission part 312 to move reversely, the movable block 313 moves down on the transmission part 312, the movable block 313 drives the lifting bracket 32 to move down, thereby driving the first shell 22 to move down, the second lifting rack also moves down, the second limiting part 114 does not limit the second lifting rack, the limiting acting force applied to the second lifting rack disappears, the first return spring pushes the sliding block 221 back to the position before the turnover, the second connecting part moves down under the driving of the sliding block 221, and in the process of descending the second connecting part, the first connecting part 211 slides to the position before the turnover along the horizontal direction, so that the camera 21 reversely turns relative to the first shell 22, the shooting direction of the camera 21 turns to the same direction as the display screen 12, meanwhile, the reversing gear rotates around the second lifting rack, and the rotation motion of the reversing gear is converted into the lowering motion of the first lifting rack, so that the first lifting rack is lowered to a position before the camera 21 is turned over.

And a second descending stage: the driving part 311 continues to drive the transmission part 312 to move reversely, the movable block 313 continues to perform descending movement on the transmission part 312, and drives the lifting support 32 to descend in a sliding manner relative to the device shell, the lifting support 32 drives the first shell 22 to descend, so that the camera 21 slides to be located in the first opening along with the lifting support 32, meanwhile, the second lifting rack descends in a sliding manner relative to the device shell along with the lifting support 32, and the second lifting rack, the reversing gear and the first lifting rack keep a relatively static state with the first shell 22.

In this embodiment, the arrangement manner of the other second rotating shaft in the first housing 22 is the same as the arrangement manner of one of the second rotating shafts in the first housing 22, and details thereof are not described herein.

In addition, for the specific design of the electronic device, please refer to the description of the first embodiment, which is not described herein again.

The embodiment of the utility model provides a pair of electronic equipment with over-and-under type camera that can overturn through setting up the rack as the upset of transmission structure drive camera for the upset location of camera is more accurate, and the upset of camera resets more securely, is favorable to prolonging camera device's life. In addition, the design of this scheme of adoption goes up and down and can realize the lift and the upset of camera through drive lifting support, easy operation, the practicality is strong.

The electronic device with the lifting type turnover camera disclosed by the embodiment of the utility model is described in detail, the principle and the implementation mode of the utility model are explained by applying specific examples, and the description of the above embodiments is only used for helping to understand the electronic device with the lifting type turnover camera; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (19)

1. An electronic device with a lifting type turnable camera is characterized by comprising

The equipment body comprises an equipment shell and a display screen arranged on the equipment shell;

the camera device is arranged on the equipment shell in a sliding manner;

the swing joint module is arranged in the equipment shell and used for driving the camera device to slide relative to the equipment shell so as to enable the camera device to slide to be located in the equipment shell and slide to be located in the external state of the equipment shell, and the camera device slides to be located in the external state of the equipment shell and drives the camera of the camera device to turn over so as to change the shooting angle of the camera relative to the display screen.

2. The electronic device of claim 1, wherein a first opening is formed at an end or a side of the device housing and extends into the device housing, and the image capturing device is slidably disposed in or out of the first opening of the device housing.

3. The electronic device of claim 1, wherein the movable connection module includes a driving device and a lifting bracket, the driving device is connected to the lifting bracket and configured to drive the lifting bracket to slide relative to the device housing, and the camera device is disposed on the lifting bracket.

4. The electronic device according to claim 3, wherein the driving device includes a driving part, a transmission part and a movable block, the transmission part is connected to the driving part, the movable block is connected to the transmission part and the lifting bracket, and the driving part is configured to drive the transmission part to move, so that the movable block makes a reciprocating linear motion with respect to the transmission part and drives the lifting bracket to slide with respect to the device housing.

5. The electronic device according to claim 4, wherein the camera device comprises the camera and a first housing having a second opening, the first housing is disposed on the lifting bracket, and the camera is rotatably disposed in the second opening of the first housing;

the swing joint module still includes the lifter, the first end of lifter with the movable block is connected, the second end of lifter certainly the lifting support upwards extends, and the activity wears to locate the lifting support reaches first casing extremely in the first casing, the lifter the second end is used for being in the drive of movable block drives the camera upset down.

6. The electronic device according to claim 5, wherein the sum of the ascending stroke of the lifting rod and the ascending stroke of the lifting bracket is equal to the ascending stroke of the movable block on the transmission member.

7. The electronic device according to claim 5, wherein a slider is slidably disposed in the first housing, the camera has a first connecting portion and a second connecting portion, the first connecting portion is movably connected to the second opening of the first housing, the second connecting portion is rotatably connected to the slider, and the lifting rod is movably inserted into the first connecting portion and abuts against the slider to push the slider to slide in the first housing.

8. The electronic device of claim 7, wherein a first guide rod is further fixedly disposed in the first housing, the slider movably penetrates through the first guide rod, a first return spring is disposed in the first guide rod, a top end of the first return spring is fixedly disposed in the first housing, and a bottom end of the first return spring abuts against the slider.

9. The electronic device according to claim 4, wherein the camera device comprises the camera and a first housing having a second opening, the first housing is disposed on the lifting bracket, and the camera is rotatably disposed in the second opening of the first housing;

the movable connection module further comprises a first member, a second member and a third member, the first member is movably arranged in the first shell, the second member is connected to the first member and the camera, and the third member is connected to the equipment shell, extends upwards to penetrate through the lifting support to the first shell and is connected with the first member;

the first component is used for moving relative to the third component and acting on the second component under the driving of the lifting support driving the first shell to slide relative to the equipment shell, and the second component is used for moving relative to the first shell under the action of the first component so as to drive the camera to rotate.

10. The electronic device according to claim 9, wherein a slider is slidably disposed in the first housing, the slider is connected to the second member, the camera has a first connecting portion and a second connecting portion, the first connecting portion is movably connected to the second opening of the first housing, and the second connecting portion is rotatably connected to the slider;

the sliding block is used for moving relative to the first shell under the driving of the second component.

11. The electronic device of claim 9, wherein the first member is a reversing gear, the second member and the third member are racks, and the first member is engaged with the second member and the third member, respectively; alternatively, the first and second electrodes may be,

the first member, the second member and the third member are all connecting rods, the first member is hinged with the second member, and the third member is hinged with the second member.

12. The electronic device according to claim 9, wherein the third member is slidably connected to the device housing, the third member is provided with a first stopper, the device housing is provided with a second stopper cooperating with the first stopper, and the first stopper and the second stopper are used for limiting a sliding position of the third member relative to the device housing.

13. The electronic device according to claim 12, wherein the first position-limiting element is a first sliding slot or a first position-limiting element, the second position-limiting element is a first position-limiting element or a first sliding slot, and a length extending direction of the first sliding slot is the same as a sliding direction of the third member.

14. The electronic device according to any one of claims 4 to 13, wherein the transmission member is a transmission screw, a support frame is further disposed inside the device housing, the transmission screw is rotatably disposed on the support frame, and the movable block is spirally connected to the transmission screw.

15. The electronic device of claim 14, wherein a second guide rod is further disposed inside the device housing, two ends of the second guide rod are respectively and fixedly connected to the supporting frame, the second guide rod is disposed at one side of the transmission screw rod at an interval and parallel to the transmission screw rod, and the movable block is movably disposed through the second guide rod.

16. The electronic device according to any one of claims 4 to 13, wherein the lifting bracket is provided with a third limiting member, the device housing is provided with a fourth limiting member cooperating with the third limiting member, and the third limiting member and the fourth limiting member are used for limiting a sliding position of the lifting bracket relative to the device housing.

17. The electronic device according to claim 16, wherein the third limiting member is a second sliding groove or a second limiting member, the fourth limiting member is a second limiting member or a second sliding groove, and a length extending direction of the second sliding groove is the same as a sliding direction of the lifting bracket.

18. The electronic device according to claim 16, wherein the lifting bracket includes a bracket body and two legs extending downward from the bracket body, the image capturing device is disposed on the bracket body, one of the legs is provided with the third limiting member, and the other leg is connected to the movable block.

19. The electronic device according to claim 18, wherein two ends of the other of the support legs extend in a direction away from one of the support legs to form two fixing portions, a third guide rod is fixedly arranged between the two fixing portions, and the movable block is movably disposed through the third guide rod;

the third guide rod is further sleeved with a second return spring, the top end of the second return spring is abutted to one of the fixed parts, and the bottom end of the second return spring is abutted to the movable block.

Images