CN213182782U - Wearing equipment with unshielded image acquisition end - Google Patents

Abstract

The utility model provides a wearing equipment that image acquisition end is not sheltered from relates to intelligence wearing equipment technical field, and this wearing equipment that image acquisition end is not sheltered from includes the wearing equipment body, is connected with the installation department that is outside salient shape on the wearing equipment body, install optical module on the installation department, after the user wears the wearing equipment body, the installation department can exceed the hookup location of user's wrist and hand so that optical module is not sheltered from towards the figure collection direction of hand, consequently the user wears the utility model provides a during the wearing equipment, can be fine let optical module gather the image information of hand, finally make the input or the output of instruction can guarantee accurately and stably.

Description

Wearing equipment with unshielded image acquisition end

Technical Field

The utility model relates to a wearing equipment technical field specifically is an image acquisition holds wearing equipment that is not sheltered from.

Background

With the popularization of intelligent devices, the input or output mode of the operation command of the intelligent device is not limited to the manipulation of physical keys or virtual keys, and in order to make the input or output of the operation command more convenient, the present inventors have developed several technical solutions to improve the above problems, and have applied to patents, such as an acquisition device and a command output device for wrist skin texture morphology change disclosed in chinese patent with publication number CN210573844U, a command output method and a device based on wrist skin texture morphology change disclosed in chinese patent with publication number CN110688016A, a command output method and a device based on wrist or hand skin three-dimensional shape change disclosed in chinese patent with publication number CN110703923A, and a finger motion acquisition method and a finger motion acquisition device disclosed in chinese patent with publication number CN111563459A, in the above-mentioned patent documents, it is mentioned that the input or output of instructions is controlled by wearing a wearable device (such as a watch or a bracelet) on the wrist or the forearm and acquiring hand skin lines, three-dimensional hand skin images, gesture motions, and the like by a camera on the wearable device.

However, the inventor finds that in the actual use process, because the wearable device is worn on the wrist or the forearm, the camera on the wearable device is sometimes shielded by the convex muscle at the joint of the hand and the wrist, so that the acquisition of information such as hand skin lines, hand skin three-dimensional images, gesture actions and the like by the camera is influenced, and the condition of instruction input or output is interrupted, so that the inventor improves the condition by developing the wearable device with an image acquisition end not shielded.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wearing equipment that image acquisition end is not sheltered from aims at solving the camera that is used for image information acquisition's wearing equipment to shelter from by the evagination muscle of hand and wrist junction sometimes among the prior art to influenced the camera to hand skin line, the three-dimensional image of hand skin, the collection of information such as gesture action, lead to there being the problem of being interrupted in the input or the output of instruction.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the wearing equipment that the image acquisition end was not sheltered from includes the wearing equipment body, and is preferred, and the wearing equipment body can select to use wrist-watch or bracelet and other can be at forearm or wearing equipment of wrist, is connected with the installation department that is outside salient shape on the wearing equipment body, and is preferred, and cylinder form or plane plate shape can be chooseed for use to the installation department, and the shape of installation department can be selected according to specific user demand, install optical module on the installation department, it is preferred, and optical module is the camera, also can select other optical sensor, after the user wore the wearing equipment body, the installation department can exceed the hookup location of user's wrist and hand so that optical module is not sheltered from towards the figure collection direction of hand.

The utility model adopts the further technical proposal that the installation part is fixedly arranged on the wearable device body.

The utility model has the further technical proposal that the mounting part can move relative to the wearable device body, so that the mounting part after moving can lock the optical module at a place beyond the connecting position of the wrist and the hand of the user.

The utility model has the further technical proposal that the installation part is connected with the wearable device body through an ejection mechanism, a rotating mechanism, a turnover mechanism or a push-out mechanism so as to realize the movement of the installation part relative to the wearable device body.

The further technical proposal of the utility model is that the ejection mechanism comprises a first holding tank arranged in the wearing device body, the first holding tank can contain the installation part to enter, a first sliding block which can slide in the first holding tank is arranged in the first holding tank, the first sliding block is connected with the inner wall of the first holding tank through a first elastic reset piece, preferably, the first elastic reset piece adopts a pressure spring, the surface of the first sliding block which is contacted with the first holding tank is provided with a blind hole, a second elastic reset piece is arranged in the blind hole, preferably, the second elastic reset piece adopts a pressure spring, one end of the second elastic reset piece is connected with a limiting block, the limiting block can move along the blind hole, the wall body of the first holding tank is provided with a limiting hole, a lifting block is arranged in the limiting hole, a lifting rod is fixedly connected with the lifting block, the lifting rod passes through the limiting hole and extends to the outside of the wearing device body, when the first sliding block slides along the first accommodating groove so that the mounting part enters the first accommodating groove, the limiting block and the limiting hole have corresponding overlapping positions and the limiting block can enter the limiting hole;

the utility model adopts the further technical proposal that the ejection mechanism comprises a second holding tank arranged in the wearable device body, the second holding tank can hold the installation part to enter, a second sliding block which can slide in the second holding tank is arranged in the second holding tank, the second sliding block is connected with the inner wall of the second holding tank through a third elastic reset piece, preferably, the third elastic reset piece adopts a pressure spring, one side surface of the second sliding block, which is contacted with the second holding tank, is an inclined surface, the inclined surface is arranged away from the installation part, the surface of the wearable device body is provided with a mounting groove, the length direction of the mounting groove is vertically arranged with the length direction of the second holding tank, a limiting rod passes through the mounting groove, the limiting rod extends to the inside of the second holding tank, the side surface of the limiting rod, which faces the installation part, is an inclined surface, and the other end of the limiting rod is fixedly, the handle resets through fourth elasticity and is connected with the mounting groove, and is preferred, and fourth elasticity resets and adopts the pressure spring, slides along the second holding tank when so that the installation department enters into the second holding tank when the second sliding block, the inclined plane of second sliding block can with the inclined plane contact of gag lever post in order to keep away from the component of second holding tank to the gag lever post orientation one, the second sliding block continues to move and can make the opposite side plane of second sliding block and the opposite side plane contact of gag lever post after crossing the gag lever post.

The utility model has the further technical scheme that the rotating mechanism comprises a third containing groove which is arranged on the wearing equipment body in a penetrating way, one end of the installation part, which is far away from the optical module, is positioned in the third containing groove, the installation part is rotationally connected with the third containing groove through a first pin shaft, when the installation part rotates around the first pin shaft, the installation part can enter the third containing groove to be contained and also can rotate to the outside of the third containing groove, and the first pin shaft is connected with the wall body of the third containing groove through a damping limiting mechanism so that the position of the installation part after rotation can be locked;

the utility model adopts the further technical proposal that the damping limiting mechanism comprises a damping bulge formed on the first pin shaft along the circumferential surface of the first pin shaft, the first pin shaft is arranged in the mounting hole on the wall body of the third holding tank, and the inner wall of the mounting hole is provided with a damping groove matched with the damping bulge;

the utility model discloses a further technical scheme be including seting up first round pin epaxial external screw thread on the surface, and this external screw thread spills wearing the outside of equipment body, a grab handle has seted up the internal thread hole, and the grab handle connects with the external screw thread soon through the internal thread hole, and the grab handle can with the surperficial extrusion contact of wearing the equipment body.

The turnover mechanism comprises a second pin shaft fixedly arranged on the mounting part, the second pin shaft is rotatably connected with the wearable equipment body so that the mounting part can have turnover motion relative to the wearable equipment body, and the second pin shaft is connected with the wearable equipment body through a locking limiting mechanism;

the utility model adopts the further technical proposal that the locking and limiting mechanism is a structure that the second pin shaft is in interference fit with the mounting hole on the wearable device body;

the utility model discloses a further technical scheme the locking stop gear is including the iron spare of fixed setting on the installation department and the fixed magnet that sets up on wearing equipment body, and when the installation department overturned around the second round pin axle, the iron spare had the magnetism of coincidence with magnet and inhales the position.

The utility model discloses a further technical scheme, ejecting mechanism is including seting up first sliding groove and second sliding groove on the wearing equipment body side, first sliding groove and second sliding groove link up each other, first sliding groove can hold the installation department and get into, and the width in second sliding groove is less than the width of installation department so that the installation department can not spill through the second sliding groove, fixedly connected with catch bar on the installation department, and the catch bar passes the outside that the second sliding groove extended to the wearing equipment body, the catch bar can slide along the second sliding groove, and when the catch bar slides with the inner wall frictional force in second sliding groove so that the catch bar is in the locking state under the effect that does not have the external force, and can promote the catch bar through the manpower.

The utility model discloses a further technical scheme be in ejecting mechanism is including setting up this internal and fourth holding tank that is used for holding the installation department of wearing equipment, install the threaded rod in the fourth holding tank, the installation department slides and the fixed nut seat that is provided with on the installation department along the fourth holding tank, threaded rod and nut seat threaded connection, the threaded rod is rotated by the drive of rotation drive arrangement, rotation drive arrangement installs micro motor including seting up at this internal fifth holding tank of wearing equipment in the fifth holding tank, and micro motor passes through reduction gears and is connected with the threaded rod, and is preferred, and reduction gears is reduction gears group.

The utility model has the further technical proposal that the mounting part is connected with the wearable device body through a flexible structure so that the mounting part can change the position when a hand touches the mounting part or the optical module.

The utility model adopts the further technical proposal that the flexible structure is a soft rubber body used for connecting the installation part;

the utility model has the further technical scheme that the flexible structure comprises a groove which can enable one end of the installation part to enter, at least two springs are connected in the groove, and the other ends of the springs are connected with the end part of the installation part.

The utility model has the advantages that:

1. when a user wears the wearable device body, the mounting part can exceed the connecting position of the wrist part and the hand part of the user so that the optical module is not blocked towards the graphic acquisition direction of the hand part, therefore, when the user wears the wearable device provided by the utility model, the optical module can well acquire the image information of the hand part, and finally, the input or output of the instruction can be ensured to be accurate and stable;

2. in order to avoid the condition that the installation department or optical module are easily damaged to it to the touch of people's hand, the installation department pass through flexible construction with this body coupling of wearing equipment is so that when the installation department or optical module is touched to the people's hand, the change of position can take place for the installation department, avoids the emergence of the damaged condition, increase of service life.

Drawings

Fig. 1 is a schematic view of a wearing state in an embodiment of the present invention.

Fig. 2 is a schematic diagram of an ejection mechanism used in an embodiment of the present invention.

Fig. 3 is a schematic view of the reset state of the mounting part in fig. 2.

Fig. 4 is a schematic view of another ejection mechanism used in an embodiment of the invention.

Fig. 5 is a schematic view of the reset state of the mounting part in fig. 4.

Fig. 6 is a schematic diagram of a rotating mechanism used in an embodiment of the present invention.

Fig. 7 is a schematic view of the reset state of the mounting part in fig. 6.

Fig. 8 is a sectional view taken along line a-a of fig. 7.

Fig. 9 is a schematic diagram of another rotary mechanism used in an embodiment of the present invention.

Fig. 10 is a schematic view of the reset state of the mounting portion of fig. 9.

Fig. 11 is an enlarged view at i in fig. 10.

Fig. 12 is a schematic view of a turning mechanism used in an embodiment of the present invention.

Fig. 13 is a schematic view of the reset state of the mounting part in fig. 12.

Fig. 14 is a schematic view of another exemplary embodiment of the present invention employing a flipping mechanism.

Fig. 15 is a schematic view of another turnover mechanism used in an embodiment of the present invention.

Fig. 16 is a schematic view of the reset state of the mounting portion of fig. 15.

Fig. 17 is a schematic diagram of an ejection mechanism used in an embodiment of the present invention.

Fig. 18 is a schematic view of the reset state of the mounting portion of fig. 17.

Fig. 19 is a schematic view of another ejector mechanism used in an embodiment of the invention.

Fig. 20 is a schematic view of the reset state of the mounting portion of fig. 19.

Fig. 21 is a schematic view of the middle mounting portion of the present invention fixedly disposed on the wearable device body.

Fig. 22 is a schematic view of a flexible structure in an embodiment of the invention.

Fig. 23 is a schematic view of another flexible structure in an embodiment of the invention.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1-23, a wearable device with an unobstructed image acquisition end comprises a wearable device body 1, preferably, the wearable device body 1 can be selected to use a watch or a bracelet and other wearable devices that can be worn on the forearm or wrist, an installation part 2 with an externally protruding shape is connected to the wearable device body 1, preferably, the installation part 2 can be selected to be in a cylindrical shape or a planar plate shape, the shape of the installation part 2 can be selected according to specific use requirements, an optical module 3 is installed on the installation part 2, optionally, the optical module 3 comprises an optical sensor and a light source component, and optionally, the optical module 3 is an optical sensor (such as a camera or the like) that can use natural light, after a user wears the wearable device body 1, the installation part 2 can exceed the connection position of the wrist and the hand of the user so that the optical module 3 is not obstructed in the image acquisition direction of the hand, therefore the user wears the utility model provides a during wearing equipment, can be fine let optical module 3 gather the image information of hand, finally make the input or the output of instruction can guarantee accuracy and stability.

Optionally, the mounting part 2 can move relative to the wearable device body 1, so that the moved mounting part 2 with the optical module 3 is locked at a position beyond the connection position of the wrist and the hand of the user.

Further, the mounting portion 2 is connected to the wearable device body 1 through an ejection mechanism, a rotation mechanism, a turnover mechanism, or a push-out mechanism, so as to enable the mounting portion 2 to move relative to the wearable device body 1, and of course, a person skilled in the art may also adopt other mechanisms capable of enabling the mounting portion 2 to move relative to the wearable device body 1 in the prior art, so that the mounting portion 2 can lock the optical module 3 at a position exceeding the connection position of the wrist and the hand of the user.

Optionally, the ejection mechanism includes a first accommodating groove 401 provided in the wearable device body 1, the first accommodating groove 401 can accommodate entry of the mounting portion 2, a first sliding block 402 capable of sliding inside the first accommodating groove 401 is provided in the first accommodating groove 401, the first sliding block 402 is connected with an inner wall of the first accommodating groove 401 through a first elastic reset piece 409, preferably, the first elastic reset piece 409 is a pressure spring, a blind hole is provided on a surface of the first sliding block 402 contacting with the first accommodating groove 401, a second elastic reset piece 403 is provided in the blind hole, preferably, the second elastic reset piece 403 is a pressure spring, one end of the second elastic reset piece 403 is connected with a limit block 405, the limit block 405 can move along the blind hole, a limit hole 406 is provided on a wall body of the first accommodating groove 401, a lifting block 407 is provided in the limit hole 406, and a lifting rod 408 is fixedly connected to the lifting block 407, the lifting rod 408 passes through the limiting hole 406 and extends to the outside of the wearable device body 1, when the first sliding block 402 slides along the first accommodating groove 401 to enable the mounting part 2 to enter the first accommodating groove 401, the limiting block 405 and the limiting hole 406 have corresponding overlapping positions, and the limiting block 405 can enter the limiting hole 406; when installation department 2 moves towards first holding tank 401, can make in stopper 405 enters into spacing hole 406, realized installation department 2 this moment and reset the locking of the state of retracting, pop out optical module 3 when the hookup location that surpasss wrist and hand is with convenient use optical module 3 when needing, then can press 408 through the staff, elevator 407 pushes out spacing hole 406's outside with stopper 405, spacing hole 406 no longer has limiting displacement to stopper 405 this moment, then the effect through first elasticity piece 409 that resets makes installation department 2 take optical module to pop out.

Optionally, as shown in fig. 4 and 5, the ejection mechanism includes a second receiving groove 417 provided in the wearable device body 1, the second receiving groove 417 is capable of receiving the installation portion 2 to enter, a second sliding block 411 capable of sliding inside the second receiving groove 417 is provided in the second receiving groove 417, the second sliding block 411 is connected to an inner wall of the second receiving groove 417 through a third elastic reset member 412, preferably, the third elastic reset member 412 is a compressed spring, a side surface of the second sliding block 411 contacting the second receiving groove 417 is an inclined surface, the inclined surface is arranged in a direction away from the installation portion 2, an installation groove 413 is provided on a surface of the wearable device body 1, a length direction of the installation groove 413 is perpendicular to a length direction of the second receiving groove 417, a limiting rod 414 passes through the installation groove 413, the limiting rod 414 extends to the inside of the second receiving groove 417, and a side surface of the limiting rod 414 facing the installation portion 2 is an inclined surface, the other end of the limiting rod 414 is fixedly connected with a handle 415, the handle 415 is connected with the mounting groove 413 through a fourth elastic reset piece 416, preferably, the fourth elastic reset piece 416 is a compression spring, when the second sliding block 411 slides along the second receiving groove 417 so that the mounting portion 2 enters the second receiving groove 417, the inclined surface of the second sliding block 411 can contact with the inclined surface of the limiting rod 414 so as to apply a component force to the limiting rod 414 away from the second receiving groove 417, after the second sliding block 411 continues to move over the limiting rod 414, the other side plane of the second sliding block 411 can contact with the other side plane of the limiting rod 414, at this time, the limiting rod 414 has a limiting effect on the second sliding block 411 so that the mounting portion 2 is in a reset retraction state, when the mounting portion 2 needs to be ejected, the handle 415 is pulled by a human hand so that the limiting rod 414 is separated from limiting to the second sliding block 411, at this time, through the effect of the third elastic reset piece 412, the mounting part 2 is ejected.

Of course, the utility model discloses can also adopt the ejection mechanism of other modes, for example, adopt the electromagnetism ejection mechanism to realize the ejection and the reseing of installation department, perhaps inject into gas through the holding tank of seting up at the wearing equipment body, exhaust gas realizes the ejection and the reseing of installation, perhaps utilize the principle that like poles repel each other opposite poles attract between the magnet, with a fixed mounting magnet on the installation department 2, set rotatable structure into another magnet, change its magnetic pole direction towards another magnet through rotating a magnet, make two magnets realize the condition that magnetism repels and attracts each other, thereby realize the ejection and the reseing of installation department, etc.

Optionally, as shown in fig. 6 and 7, the rotating mechanism includes a third receiving groove 421 penetrating through the wearable device body 1, the third receiving groove 421 is opened at a lower position of the wearable device 1 in fig. 6 and 7, of course, the third receiving groove 421 may be opened at other positions according to actual requirements, one end of the mounting portion 2 away from the optical module 3 is located in the third receiving groove 421, the mounting portion 2 is rotatably connected to the third receiving groove 421 through a first pin 422, when the mounting portion 2 rotates around the first pin 422, the mounting portion 2 may enter the third receiving groove 421 to be received, and may also rotate to an outside of the third receiving groove 421, and the first pin 422 is connected to a wall body of the third receiving groove 421 through a damping limiting mechanism, so that the position of the mounting portion 2 after rotation may be locked, the mounting portion 2 is fixedly connected to a toggle block 424, when the mounting portion 2 enters the third receiving groove 421 to be received, the toggle block 424 can be manually pushed to rotate the mounting portion 2 out.

Optionally, as shown in fig. 8, the damping limiting mechanism includes a damping protrusion 423 formed on the first pin 422 along the circumferential surface of the first pin 422, the first pin 422 is installed in the installation hole on the wall body of the third accommodation groove 421, and a damping groove used in cooperation with the damping protrusion 423 is formed on the inner wall of the installation hole, when the first pin 422 needs to rotate in the installation hole, the damping protrusion 423 needs to be overcome to disengage from the deformation generated by the damping groove, so that the installation part 2 maintains the locking state without external force, and when the installation part 2 needs to rotate into the third accommodation groove 421 or rotate out of the third accommodation groove 421, the damping limiting mechanism can be pushed by manpower.

Optionally, as shown in fig. 9 to 11, the damping limiting mechanism includes an external thread provided on the surface of the first pin 422, and the external thread leaks to the outside of the wearable device body 1, a holding handle 425 is provided with an internal thread hole, the holding handle 425 is in rotational contact with the external thread through the internal thread hole, and the holding handle 425 can be in compressive contact with the surface of the wearable device body 1, so that after the holding handle 425 is rotated relative to the first pin 422 and is in compressive contact with the surface of the wearable device body 1, a locking effect on the mounting portion 2 is achieved due to a friction force between the holding handle 425 and the surface of the wearable device body 1, and after the holding handle 425 is reversely rotated relative to the first pin 422 and is not in contact with the surface of the wearable device body 1, the first pin 422 can drive the mounting portion 2 to freely rotate at this time.

Certainly, the damping limiting mechanism may also increase the friction force between the pin 422 and the mounting hole on the wall body of the third holding tank 421 to realize damping limiting in a manner of interference fit between the pin 422 and the mounting hole on the wall body of the third holding tank 421, or directly connect the pin 422 and the damper; and the penetrating third receiving groove 421 formed on the wearable device body 1 may be disposed at a lower portion, a middle portion, an upper portion or other positions of the wearable device body 1.

Optionally, as shown in fig. 12 to 16, the turning mechanism includes a second pin 433 fixedly disposed on the mounting portion 2, the second pin 433 is rotatably connected to the wearable device body 1 so that the mounting portion 2 can have a turning motion relative to the wearable device body 1, and the second pin 433 is connected to the wearable device body 1 through a locking limiting mechanism.

Optionally, as shown in fig. 12 and 13, the locking limiting mechanism is a structure in which the second pin 433 is in interference fit with a mounting hole on the wearable device body 1, and the locking of any position of the mounting portion 2 is realized by increasing the friction force between the second pin 433 and the mounting hole on the wearable device body 1.

Optionally, as shown in fig. 14, the locking limiting mechanism includes an iron member 434 fixedly disposed on the mounting portion 2 and a magnet 435 fixedly disposed on the wearable device body 1, and when the mounting portion 2 is turned over around the second pin 433, the iron member 434 and the magnet 435 have a magnetic attraction position overlapped with each other.

It should be noted that, as shown in fig. 12 to 14, a notch 431 may be formed on the wearable device body 1, so that the mounting portion 2 may be rotated into the notch 431 and the mounting portion 2 is flush with the plane of the wearable device body 1, so that when the optical module 3 is not used, the mounting portion 2 and the optical module 3 are more beautiful and save space, and the mounting portion 2 may be disposed on one side surface or two symmetrical side surfaces of the wearable device body 1, at this time, as shown in fig. 15 and 16, of course, the position of the mounting portion 2 may be set according to actual requirements.

Alternatively, as shown in fig. 17 and 18, the pushing-out mechanism includes a first sliding groove 441 and a second sliding groove 442 provided on the side surface of the wearable device body 1, the first sliding groove 441 and the second sliding groove 442 are communicated with each other, the first sliding groove 441 can accommodate the installation portion 2 to enter, and the width of the second sliding groove 442 is smaller than that of the mounting part 2 so that the mounting part 2 does not leak through the second sliding groove 442, a push plate 443 is fixedly coupled to the mounting part 2, and the push plate 443 extends to the outside of the wearing apparatus body 1 through the second sliding groove 442, the push plate 443 is slidable along the second sliding groove 442, and the pushing plate 443 slides while rubbing against the inner wall of the second sliding groove 442 so that the pushing plate 443 is in a locked state without the application of an external force, the pushing plate 443 can be pushed manually, and this embodiment provides a pushing mechanism for manual pushing.

Optionally, as shown in fig. 19 and 20, the push-out mechanism includes a fourth receiving groove 451 provided in the wearable device body 1 and configured to receive the mounting portion 2, a threaded rod 454 is installed in the fourth receiving groove 451, the mounting portion 2 slides along the fourth receiving groove 451, a nut seat 453 is fixedly provided on the mounting portion 2, the threaded rod 454 is in threaded connection with the nut seat 453, the threaded rod 454 is driven to rotate by a rotation driving device, the rotation driving device includes a fifth receiving groove 452 opened in the wearable device body 1, a micro motor 455 is installed in the fifth receiving groove 452, and the micro motor 455 is connected to the threaded rod 454 through a speed reduction mechanism, preferably, as shown in fig. 19 and 20, the speed reduction mechanism is a speed reduction gear set; when the micro motor 455 is turned on by the position switch, the screw rod 454 is rotated to move the nut holder 453, and the forward and backward movement direction of the nut holder 453 is controlled by controlling the rotation direction of the micro motor 455, thereby controlling the operation of the mounting part 2 to move into and out of the fourth receiving groove 451.

It should be noted that the above improved locking limit mechanism and damping limit mechanism can be used interchangeably in different embodiments of the present invention, and therefore, it should be noted that each specific embodiment in the present application should not be considered as a limitation, and various components and structures improved in the present application can be used in a reasonable and mutual matching manner to create a new technical solution, which is also within the protection scope of the present application.

Optionally, as shown in fig. 21, the mounting portion 2 is fixedly mounted on the wearable device body 1, the fixing connection mode can adopt an integral injection molding mode or a welding mode, and the connection strength between the mounting portion 2 and the wearable device body 1 can be ensured by adopting a fixing connection structure.

Further, as in fig. 22 to 23, in order to avoid the situation that a human hand touches the mounting portion 2 or the optical module 3 and is easily damaged, when the mounting portion 2 is connected to the wearable device body 1 through a flexible structure so that the human hand touches the mounting portion 2 or the optical module 3, the mounting portion 2 may change its position, thereby avoiding the occurrence of the damage situation and prolonging the service life.

Optionally, as shown in fig. 22, the flexible structure is a soft rubber body 5 for connecting the mounting portion 2;

optionally, as shown in fig. 23, the flexible structure includes a groove 6 into which one end of the mounting portion 2 can enter, at least two springs 7 are connected in the groove 6, and the other end of the spring 7 is connected to the end of the mounting portion 2.

It should be noted that, for convenience of describing the specific flexible structure, as shown in fig. 22 and 23, the flexible structure is directly used for connecting the mounting portion 2 and the wearable device body 1, but a person skilled in the art can know that the flexible structure is disposed at any position connected to the mounting portion 2 or the optical module 3, for example, on the sliding block 402, the pushing plate 443, the nut seat 453 or other parts mentioned in this application, or directly disposed on the body of the mounting portion 2, and the specific disposition position and the specific disposition structure of the flexible structure can be selected according to needs.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a wearing equipment that image acquisition end was not sheltered from, characterized by, including wearing equipment body (1), be connected with installation department (2) that are outside convex shape on wearing equipment body (1), install optical module (3) on installation department (2), wear wearing equipment body (1) back when the user, installation department (2) can surpass the hookup location of user's wrist and hand so that optical module (3) are not sheltered from towards the figure collection direction of hand.

2. The wearing device with the unshielded image acquisition end as claimed in claim 1, wherein the mounting part (2) is fixedly mounted on the wearing device body (1).

3. Wearing device with unobstructed image capturing end according to claim 1, wherein said mounting portion (2) is movable relative to said wearing device body (1) to allow the moved mounting portion (2) to lock with the optical module (3) beyond the connection point between the user's wrist and hand.

4. The wearing device with the unshielded image acquisition end as claimed in claim 3, wherein the mounting part (2) is connected with the wearing device body (1) through an ejection mechanism, a rotating mechanism, a turnover mechanism or a pushing-out mechanism so as to realize the movement of the mounting part (2) relative to the wearing device body (1).

5. The wearable device with the image acquisition end being not blocked according to claim 4, wherein the ejection mechanism comprises a first accommodating groove (401) formed in the wearable device body (1), the first accommodating groove (401) can accommodate the installation part (2) to enter, a first sliding block (402) capable of sliding in the first accommodating groove (401) is arranged in the first accommodating groove, the first sliding block (402) is connected with the inner wall of the first accommodating groove (401) through a first elastic reset piece (409), a blind hole is formed in the surface of the first sliding block (402) contacting with the first accommodating groove (401), a second elastic reset piece (403) is arranged in the blind hole, one end of the second elastic reset piece (403) is connected with a limiting block (405), the limiting block (405) can move along the blind hole, a limiting hole (406) is formed in the wall body of the first accommodating groove (401), a lifting block (407) is arranged in the limiting hole (406), a lifting rod (408) is fixedly connected to the lifting block (407), the lifting rod (408) penetrates through the limiting hole (406) and extends to the outside of the wearable device body (1), when the first sliding block (402) slides along the first accommodating groove (401) to enable the mounting part (2) to enter the first accommodating groove (401), the limiting block (405) and the limiting hole (406) have corresponding overlapping positions, and the limiting block (405) can enter the limiting hole (406);

or, the ejection mechanism comprises a second accommodating groove (417) arranged in the wearable device body (1), the second accommodating groove (417) can accommodate the entry of the mounting part (2), a second sliding block (411) capable of sliding in the second accommodating groove (417) is arranged in the second accommodating groove, the second sliding block (411) is connected with the inner wall of the second accommodating groove (417) through a third elastic reset piece (412), one side surface of the second sliding block (411) contacting with the second accommodating groove (417) is an inclined surface, the inclined surface is arranged in a direction away from the mounting part (2), a mounting groove (413) is formed in the surface of the wearable device body (1), the length direction of the mounting groove (413) is perpendicular to the length direction of the second accommodating groove (417), a limiting rod (414) passes through the mounting groove (413), and the limiting rod (414) extends to the inside of the second accommodating groove (417), and the side of the limiting rod (414) facing the installation part (2) is an inclined surface, the other end of the limiting rod (414) is fixedly connected with a handle (415), the handle (415) is connected with the installation groove (413) through a fourth elastic reset piece (416), when the second sliding block (411) slides along the second accommodation groove (417) to enable the installation part (2) to enter the second accommodation groove (417), the inclined surface of the second sliding block (411) can be in contact with the inclined surface of the limiting rod (414) to face a component force far away from the second accommodation groove (417) to the limiting rod (414), and the second sliding block (411) continuously moves over the limiting rod (414) to enable the other side plane of the second sliding block (411) to be in contact with the other side plane of the limiting rod (414).

6. The wearing device with the image acquisition end not being shielded as claimed in claim 4, the rotating mechanism comprises a third accommodating groove (421) which is arranged on the wearing equipment body (1) in a penetrating way, one end of the mounting part (2) far away from the optical module (3) is positioned in the third accommodating groove (421), the mounting part (2) is rotatably connected with the third accommodating groove (421) through a first pin shaft (422), when the mounting part (2) rotates around the first pin shaft (422), the mounting part (2) can enter the third containing groove (421) to be contained and can also rotate to the outside of the third containing groove (421), the first pin shaft (422) is connected with the wall body of the third accommodating groove (421) through a damping limiting mechanism so that the position of the mounting part (2) can be locked after rotation, and a poking block (424) is fixedly connected to the mounting part (2);

the damping limiting mechanism comprises a damping protrusion (423) formed on the first pin shaft (422) along the circumferential surface of the first pin shaft (422), the first pin shaft (422) is installed in an installation hole in the wall body of the third accommodating groove (421), and a damping groove matched with the damping protrusion (423) is formed in the inner wall of the installation hole;

or, damping stop gear is including seting up first round pin axle (422) external screw thread on the surface, and this external screw thread leaks the outside of wearing equipment body (1), internal thread hole has been seted up in grab handle (425), and grab handle (425) connect with the external screw thread soon through internal thread hole, and grab handle (425) can with the surperficial extrusion contact of wearing equipment body (1).

7. The wearable device with the unshielded image acquisition end according to claim 4, wherein the turnover mechanism comprises a second pin (433) fixedly arranged on the mounting part (2), the second pin (433) is rotatably connected with the wearable device body (1) so that the mounting part (2) can have turnover motion relative to the wearable device body (1), and the second pin (433) is connected with the wearable device body (1) through a locking limiting mechanism;

the locking limiting mechanism is a structure that a second pin shaft (433) is in interference fit with a mounting hole in the wearable device body (1);

or, locking stop gear is including fixed iron piece (434) and the fixed magnet (435) that sets up on wearing equipment body (1) that sets up on installation department (2), and when installation department (2) overturn around second round pin axle (433), iron piece (434) and magnet (435) have the position of magnetic attraction of coincidence.

8. The wearable device with the unobstructed image capturing end as claimed in claim 4, wherein the pushing mechanism comprises a first sliding slot (441) and a second sliding slot (442) disposed on the side of the wearable device body (1), the first sliding slot (441) and the second sliding slot (442) are through to each other, the first sliding slot (441) can accommodate the installation part (2) to enter, the second sliding slot (442) has a width smaller than that of the installation part (2) so that the installation part (2) does not leak out through the second sliding slot (442), the installation part (2) is fixedly connected with a pushing plate (443), the pushing plate (443) extends to the outside of the wearable device body (1) through the second sliding slot (442), the pushing plate (443) can slide along the second sliding slot (442), and the pushing plate (443) has a friction force with the inner wall of the second sliding slot (442) when sliding, so that the pushing plate (443) is in a locking state without an external force A push plate (443) is pushed by human power;

or, ejecting mechanism is including setting up in wearing equipment body (1) and be used for holding fourth holding tank (451) of installation department (2), install threaded rod (454) in fourth holding tank (451), installation department (2) slide along fourth holding tank (451) and installation department (2) go up fixed nut seat (453) that is provided with, threaded rod (454) and nut seat (453) threaded connection, threaded rod (454) are rotated by the drive of rotation drive arrangement, rotation drive arrangement is including offering fifth holding tank (452) in wearing equipment body (1), installation micromotor (455) in fifth holding tank (452), and micromotor (455) are connected with threaded rod (454) through reduction gears.

9. Wearing device with unobstructed image capturing end according to any of claims 1-8, wherein said mounting portion (2) is connected to said wearing device body (1) by a flexible structure so that when a human hand touches the mounting portion (2) or the optical module (3), the position of the mounting portion (2) can be changed.

10. The wearing device with the unshielded image acquisition end according to claim 9, wherein the flexible structure is a soft rubber body (5) used for connecting the installation part (2);

or the flexible structure includes recess (6) that can make the one end of installation department (2) get into, recess (6) in-connection has two at least springs (7), the other end of spring (7) with the end connection of installation department (2).

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