CN104202507B - Camera device - Google Patents

Abstract

The invention discloses a camera device and belongs to the technical field of camera structural design. The camera device comprises a camera, a popup component connecting the camera, the popup component comprises a sliding part and a self-locking component containing the sliding part, and the camera is connected with the sliding part. An elastic part used for popping up the sliding part and a rail groove used for limiting the sliding part are arranged in the self-locking component. A sliding block capable of moving along the rail groove is arranged on the sliding part. A self-locking position of the sliding block is arranged in the rail groove. The camera device has a popup-and-rotation structure, and the camera can be hidden inside a housing to avoid pollution and scratching. When the camera device in use, the camera pops up, filming of different directions like front and back can be performed only by rotating the camera, and therefore, filming of arbitrary rotation angles can be achieved by the camera. The camera device is simple to operate, exquisite in appearance and low in failure rate, and is low in cost compared with existing camera equipment with front and rear cameras.

Description

A kind of camera head

Technical field

The invention belongs to camera structure design field, is related to a kind of camera head.

Background technology

In current electron trade, the mobile terminal such as mobile phone, panel computer in the utilization of photographic head, in order to realize not With the shooting of angle, need to rotate whole electronic product to adjust the shooting angle of photographic head；Meanwhile, in order to realize auto heterodyne work( Can, forward and backward photographic head need to be set, forward and backward photographic head is fixedly mounted on electronic product, this frame mode not only cost Cam lens after height, and fixed installation directly leak outside cruelly, are highly prone to dust pollution or hard thing scratch, affect imaging Quality.

The content of the invention

In order to solve the above problems, the present invention provides a kind of Pop-up, rotatable camera, and concrete solution is as follows：

A kind of camera head, including photographic head, the ejection component of connection photographic head, described ejection component includes sliding Part, accommodate sliding part from lock set, described photographic head is connected with sliding part；Described is provided with for ejecting from lock set The elastic component of sliding part and the rail groove for spacing sliding part；Described sliding part is provided with can be along the cunning of rail groove movement Block；Described rail groove be provided with a ring, in rail groove slide block from lock-bit.

The rail groove is ejected and supported only by ejecting to stop bit, being pressed into guide channel, constitute from lock-bit and ejection guide channel Position, be pressed into guide channel, be sequentially connected from lock-bit, described ejection guide channel one end be connected from lock-bit, the other end and bullet Go out to stop bit connection；It is described be pressed into guide channel and be pressed into stop bit, by slider guide first including first be pressed into stop bit First guide wall, by slider guide from the self-locking guide wall of lock-bit, the ejection guide channel including second be pressed into stop bit, will Slider guide second is pressed into the second guide wall to stop bit；Described first is pressed into the projection to stop bit along sliding part ejection direction It is described to be pressed into the projection in direction in the second guide wall along sliding part from lock-bit in self-locking guide wall, described the Two are pressed into and are pressed into the projection in direction outside the self-locking guide wall along sliding part to stop bit.

The described guide channel that is pressed into also includes that, by the 3rd guide wall of the guide wall of slider guide first, described ejection is supported Stop bit is pressed into the projection in direction and is located in the 3rd guide wall along sliding part.

The described guide channel that ejects also includes slider guide is ejected the 4th guide wall to stop bit.

The sliding part is provided with columnar end cap with the connection end of photographic head, and photographic head is provided with columnar embedding post, Described photographic head is connect with sliding part by embedding post and end cap sleeve.

The swivelling chute and projection being mutually matched is provided between described embedding post and end cap, projection is located in swivelling chute；It is described Swivelling chute in be provided with for limiting the equidirectional restriction position of bone for rotating over 360 ° of photographic head.

The silica gel plug for increasing embedding post and end cap spin friction resistance is provided between described embedding post and end cap.

The slide block is provided with edge, and described sliding part is provided with the chute that direction is pressed into perpendicular to sliding part, slide block It is connected in chute by edge；Sliding pin is additionally provided with described slide block, sliding pin is located in rail groove.

The described railroad shoe for including fixed seat and fixed seat connection from lock set, fixed seat, railroad shoe are provided with mutually The bayonet socket and snib of adaptation, fixed seat, railroad shoe are assembled into from lock set by the clamping of bayonet socket and snib；Described elastic component In fixed seat, described rail groove is located in railroad shoe.

Described elastic component is spring, and described fixed seat is provided with spring groove, and described spring is in spring groove；Institute The sliding part stated is provided with the spring arm for compression spring.

The beneficial effect of the invention is：The camera head of the present invention has ejection rotary structure, can pack up photographic head, hides Enter enclosure interior, prevent photographic head from polluting and scratch；When using, photographic head is ejected, and rotating camera can carry out forward and backward difference The shooting in orientation, it is not necessary to dollying equipment, can make photographic head realize that any anglec of rotation shoots；This kind of camera head behaviour Make easy, outward appearance exquisiteness, fault rate low, than the low cost that existing picture pick-up device arranges forward and backward photographic head.

Description of the drawings

Fig. 1 is the exploded view of camera head in the embodiment of the present invention；

Fig. 2 is the structural representation of sliding part in the embodiment of the present invention；

Fig. 3 is the structural representation of embodiment of the present invention middle orbit seat；

Fig. 4 is the top view of embodiment of the present invention middle orbit seat；

Fig. 5 is the front view of slide block in the embodiment of the present invention；

Fig. 6 is the top view of slide block in the embodiment of the present invention；

Fig. 7 is the sectional view that groove location is rotated in the embodiment of the present invention 1；

Fig. 8 is the sectional view of silica gel plug position in the embodiment of the present invention 1；

Fig. 9 is structural representation when camera head is closed in the embodiment of the present invention；

Figure 10 is the schematic diagram of slide block position in rail groove when camera head is closed in the embodiment of the present invention；

Figure 11 be the embodiment of the present invention in camera head from closed mode be pressed into when structural representation；

Figure 12 be the embodiment of the present invention in camera head from closed mode be pressed into when slide block position in rail groove signal Figure；

Figure 13 is structural representation when camera head is ejected in the embodiment of the present invention；

Figure 14 is the schematic diagram of slide block position in rail groove when camera head is ejected in the embodiment of the present invention；

The sectional view of groove location is rotated when Figure 15 is the camera head right-hand rotation limit in the embodiment of the present invention；

The sectional view of groove location is rotated when Figure 16 is the camera head left-hand rotation limit in the embodiment of the present invention.

Specific embodiment

In order to more fully understand the technology contents of the present invention, technical scheme is entered with reference to specific embodiment One step introduction and explanation.

Embodiment 1

Camera head as shown in figures 1-8, including photographic head 4, fixed seat 3, railroad shoe 2, sliding part 1, spring, shell 5, Bottom 6.

Fixed seat 3 is provided with spring groove 31, and spring is located in spring groove 31.

Railroad shoe 2 is provided with the snib 21 and screw 23 of protrusion, and fixed seat 3 sets with the correspondence position of 2 upper clamping plug of railroad shoe 21 There is the bayonet socket 32 matched with snib 21, be provided with the correspondence position of screw 23 and match screw 33, railroad shoe 2 is with fixed seat 3 by card Bolt 21 and bayonet socket 32 carry out clamping, and by screw through screw 23, matching screw 33 be assembled into cavity from lock set.

Sliding part 1 is located at from the cavity of lock set, and spring arm 12 is located on sliding part 1 with respect to the one side of spring groove 31 On, the ends contact of the spring in spring arm 12 and spring groove 31, for ejecting sliding part 1.The opposed spring arms of sliding part 1 it is another A pair chutes 15 perpendicular to the ejection direction of sliding part 1 are simultaneously provided with, slide block 11 is connected to by the edge 112 located at bottom Slide on sliding part 1 in chute 15；Sliding pin 111 is located at the upper end of slide block 11.

Railroad shoe 2 be provided with oblique block 26 and centered on oblique block 26 island portion annular rail groove 22, on slide block 11 Sliding pin 111 be located at rail groove 22 guided way in.Rail groove 22 by eject support stop bit 24, be pressed into guide channel A, from lock-bit 25 Constitute with guide channel B is ejected, eject and support stop bit 24, be pressed into guide channel A, be sequentially connected from lock-bit 25, eject guide channel B One end be connected from lock-bit 25, the other end with eject be connected to stop bit 24；It is pressed into guide channel A to be pressed into stop bit including first 27th, by slide block 11 be oriented to the first guide wall 271 the 3rd guide wall 261, slide block 11 is oriented to first be pressed into stop bit 27 One guide wall 271, slide block 11 is oriented to into the self-locking guide wall 262 from lock-bit, wherein, the 3rd guide wall 261 and self-locking guide wall 262 are located on oblique block 26, and ejection is pressed into the projection in direction and is located in the 3rd guide wall 261 to only 24 along sliding part 11, the One is pressed into the projection to stop bit 27 along the ejection direction of sliding part 1 is located in self-locking guide wall 262；Ejecting guide channel B includes the Two are pressed into stop bit 28, by slide block 11 to be oriented to and second are pressed into the second guide wall 281 to stop bit 28, slide block 11 is oriented to into ejection supports 4th guide wall 282 of stop bit 24, wherein, it is pressed into the projection in direction along sliding part 11 from lock-bit 25 and is located in the second guide wall 281, second is pressed into and is pressed into the projection in direction in the 4th guide wall 282 along sliding part 11 to only 28.

Component is ejected from lock set, spring, the composition of sliding part 1.

Cylindric end cap 14 is located on sliding part 1, and the inner side of end cap 14 is provided with projection 13；The company of photographic head 4 and sliding part 1 Connect end and be provided with embedding post 41, the swivelling chute 42 that the surface of embedding post 41 is provided with, in the cylinder that photographic head 4 passes through the built-in end cap 14 of embedding post 41 with Sliding part 1 is socketed, and photographic head 4 can be rotated relative to sliding part 1；After embedded connection, the projection 13 for holding the inner side of cap 14 is located at swivelling chute In 42, prevent photographic head 4 from departing from sliding part 1；The restriction position of bone 44 is provided with swivelling chute 42, limiting the position of bone 44 is used to limit shooting Head rotating Vortex is more than 360 °, in order to avoid damage the circuit of photographic head 4.It should be noted that swivelling chute 42 can for incompletely around Embedding post 41 1 weeks, the non-through part of swivelling chute 42 can limit the position of bone 44 and the camera hole on photographic head 4 as the position of bone 44 is limited 45 respectively positioned at the both sides in front and back of photographic head 4.The surface of embedding post 41 of photographic head 4 is provided with groove 46, and the centre of groove 46 is provided with props up Post 47, silica gel plug 43 is fixed on pillar 47, and silica gel plug 43 is contacted with the inwall of end cap 14, when photographic head 4 rotates, silica gel plug 43 With the interference friction power of the end inwall of cap 14 photographic head 4 can be made to stop at the arbitrary anglec of rotation.

Eject component and photographic head 4 is located in shell 5, bottom 6 is located in shell 5 one end for ejecting component.

As shown in Fig. 9-14, when photographic head is closed, photographic head 4 is located in shell 5, and slide block 11 is located at self-locking Position 25, presses photographic head 4, and the compression spring of spring arm 12 can make slide block 11 move to the along guide channel B is ejected from from lock-bit 25 Two guide walls 281, then move to second along the inclined-plane of the second guide wall 281 and be pressed into stop bit 28, after release, spring slides elastic reset Push the spring arm 12, slide block 11 moves to the 4th guide wall 282 for ejecting guide channel B along the ejection direction rollback of sliding part 1, then Slide block 11 is oriented to into ejection along the inclined-plane of the 4th guide wall 282 and supports stop bit 24, eventually stopped at ejection and support stop bit 24, photographic head 4 In the state of ejection.When photographic head 4 be in ejection state when, press photographic head 4, the compression spring of spring arm 12 can make slide block 11 from Eject and moved in the 3rd guide wall 261 along pressing direction to stop bit 24, then lead slide block 11 along the inclined-plane of the 3rd guide wall 261 To the first guide wall 271, then move to first along the first guide wall 271 and be pressed into stop bit 27, after release, spring slides elastic reset Push the spring arm 12, slide block 11 moves to self-locking guide wall 262 along spring reset prolonging direction rollback, then along self-locking guide wall 262 inclined-plane is moved to from lock-bit 25, and photographic head 4 is closed.

As shown in figures 15-16, when photographic head 4 is in ejection state, photographic head 4 can be rotated, by swivelling chute The mutual barrier effect of projection 13 for limiting the position of bone 44 and the inner side of end cap 14 in 42, limiting rotation angle prevents photographic head 4 excessive Rotate and damage photographic head circuit.

Embodiment 2

The present embodiment is that described photographic head is embedded in the cylinder of embedding post by holding cap with the difference of embodiment 1 It is socketed with sliding part 1, photographic head 4 can be rotated relative to sliding part 1；Projection is located at embedding post inner side, and swivelling chute is located at end cap surface, silicon Plug is located in the groove of end cap surface, and after being embedded in connection, projection is located in swivelling chute, and the restriction position of bone is provided with swivelling chute；Its His structure is same as Example 1.

The photographic head of the present invention has and ejects rotary structure, and the camera head is arranged on the side of electronic product, can be by Photographic head is packed up, and is hidden into enclosure interior, and when preventing photographic head pollution and scratch from using, photographic head is ejected, rotating camera Carry out the shooting of forward and backward different azimuth, it is not necessary to dollying equipment, photographic head can be made to realize that any anglec of rotation shoots. The photographic head of the present invention is easy to operation, outward appearance exquisiteness, fault rate low, than the cost that existing picture pick-up device arranges forward and backward photographic head It is low.

The above only further illustrates the technology contents of the present invention with embodiment, is easier to understand in order to reader, But do not represent embodiments of the present invention and be only limitted to this, any technology done according to the present invention extends or recreates, by this Bright protection.

Claims (9)

1. the ejection component of a kind of camera head, including photographic head, connection photographic head, it is characterised in that：Described ejection component Including sliding part, accommodate sliding part from lock set, described photographic head is connected with sliding part；Described is provided with from lock set For ejecting the elastic component and the rail groove for spacing sliding part of sliding part；Described sliding part is provided with can be moved along rail groove Dynamic slide block；Described rail groove be provided with a ring, in rail groove slide block from lock-bit；The rail groove by eject to stop bit, It is pressed into guide channel, constitutes from lock-bit and ejection guide channel, ejects and support stop bit, be pressed into guide channel, be sequentially connected from lock-bit, Described ejection guide channel one end be connected from lock-bit, the other end with eject be connected to stop bit；Described is pressed into guide channel Be pressed into stop bit, by slider guide first including first be pressed into the first guide wall to stop bit, by slider guide from lock-bit from Lock guide wall, the ejection guide channel is pressed into stop bit, slider guide second is pressed into and is led to the second of stop bit including second Xiang Bi；Described first is pressed into and is located in self-locking guide wall along the projection of sliding part ejection direction to stop bit, described from lock-bit The projection in direction is pressed into along sliding part in the second guide wall, described second is pressed into and is pressed into direction along sliding part to stop bit Projection is located at outside self-locking guide wall.

2. camera head according to claim 1, it is characterised in that：The described guide channel that is pressed into also includes leading slide block To the 3rd guide wall of the first guide wall, described ejection is located at the 3rd guide wall to stop bit along the projection that sliding part is pressed into direction On.

3. camera head according to claim 2, it is characterised in that：Described ejection guide channel also includes leading slide block To the 4th guide wall ejected to stop bit.

4. camera head according to claim 1, it is characterised in that：The sliding part is provided with circle with the connection end of photographic head The end cap of tubular, photographic head is provided with columnar embedding post, and described photographic head is connect with sliding part by embedding post and end cap sleeve.

5. camera head according to claim 4, it is characterised in that：It is provided between described embedding post and end cap and is mutually matched Swivelling chute and projection, projection be located at swivelling chute in；It is provided with super for limiting the equidirectional rotation of photographic head in described swivelling chute Cross 360 ° of the restriction position of bone.

6. camera head according to claim 5, it is characterised in that：The embedding post of increase is provided between described embedding post and end cap With the silica gel plug of end cap spin friction resistance.

7. camera head according to claim 1, it is characterised in that：The slide block is provided with edge, described sliding part The chute that direction is pressed into perpendicular to sliding part is provided with, slide block is connected in chute by edge；It is additionally provided with described slide block Sliding pin, sliding pin is located in rail groove.

8. camera head according to claim 1, it is characterised in that：Described includes fixed seat and fixation from lock set The railroad shoe of seat connection, fixed seat, railroad shoe are provided with the bayonet socket and snib being mutually adapted, and fixed seat, railroad shoe pass through bayonet socket It is assembled into from lock set with the clamping of snib；Described elastic component is located in fixed seat, and described rail groove is located in railroad shoe.

9. camera head according to claim 8, it is characterised in that：Described elastic component be spring, described fixed seat Spring groove is provided with, described spring is in spring groove；Described sliding part is provided with the spring arm for compression spring.