CN204069138U - A kind of camera head - Google Patents

Abstract

The utility model discloses a kind of camera head, belongs to camera structure design field.Described camera head comprises camera, connects the ejection assembly of camera, described ejection assembly comprises sliding part, hold sliding part from lock set, described camera is connected with sliding part; Described is provided with the elastic component for ejecting sliding part and the rail groove for spacing sliding part in lock set; Described sliding part is provided with can along the slide block of rail groove movement; Described rail groove ringwise, be provided with in rail groove slide block from lock-bit.Camera head of the present utility model has ejection rotary structure, can hide into enclosure interior by camera, preventing pollution and scratch; During use, camera ejects, and rotating camera can carry out the shooting of forward and backward different azimuth, and camera can be made to realize the shooting of any anglec of rotation; This kind camera head is easy and simple to handle, outward appearance is exquisite, failure rate is low, and the cost arranging forward and backward camera than existing picture pick-up device is low.

Description

A kind of camera head

Technical field

The utility model belongs to camera structure design field, relates 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 camera, in order to realize the shooting of different angles, needs whole electronic product to rotate with the shooting angle adjusting camera; Meanwhile, in order to realize Self-timer, forward and backward camera need be set, be fixedly mounted on electronic product by forward and backward camera, this frame mode not only cost is high, and the cam lens after fixed installation directly leaks outside cruelly, very easily be subject to contamination by dust or hard object scratch, affect image quality.

Summary of the invention

In order to solve the problem, the utility model provides a kind of Pop-up, rotatable camera, and concrete solution is as follows:

A kind of camera head, comprises camera, connects the ejection assembly of camera, described ejection assembly comprises sliding part, hold sliding part from lock set, described camera is connected with sliding part; Described is provided with the elastic component for ejecting sliding part and the rail groove for spacing sliding part in lock set; Described sliding part is provided with can along the slide block of rail groove movement; Described rail groove ringwise, be provided with in rail groove slide block from lock-bit.

Described rail groove is by ejecting to stop bit, being pressed into guide channel, forming from lock-bit and ejection guide channel, eject and support stop bit, be pressed into guide channel, connect successively from lock-bit, described ejection guide channel one end is connected with from lock-bit, and the other end and ejection are supported stop bit and be connected; The described guide channel that is pressed into comprises and first is pressed into stop bit, is pressed into the first guide wall of stop bit, by the self-locking guide wall of slider guide from lock-bit by slider guide first, and described ejection guide channel comprises and second is pressed into stop bit, slider guide second is pressed into the second guide wall to stop bit; Described first is pressed into and is positioned in self-locking guide wall to stop bit along the projection of sliding part ejection direction, the described projection being pressed into direction along sliding part from lock-bit is positioned in the second guide wall, and described second is pressed into the projection being pressed into direction along sliding part to stop bit is positioned at outside self-locking guide wall.

The described guide channel that is pressed into also comprises the 3rd guide wall of slider guide first guide wall, and the projection that described ejection is pressed into direction to stop bit along sliding part is positioned in the 3rd guide wall.

Described ejection guide channel also comprises the 4th guide wall of slider guide ejection being supported stop bit.

The link of described sliding part and camera is provided with columnar end cap, and camera is provided with columnar embedding post, and described camera and sliding part are socketed by embedding post and end cap.

Described embedding post be provided with the swivelling chute and projection that mutually mate between end cap, projection is positioned at swivelling chute; Be provided with in described swivelling chute for limiting the equidirectional restriction position of bone rotating over 360 ° of camera.

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

Described slide block is provided with edge, and described sliding part is provided with the chute being pressed into direction perpendicular to sliding part, and slide block is connected in chute by edge; Described slide block is also provided with sliding pin, and sliding pin is positioned at rail groove.

The described railroad shoe comprising holder from lock set, be connected with holder, holder, railroad shoe are provided with mutually adaptive bayonet socket and snib, and holder, railroad shoe are assembled into from lock set by the clamping of bayonet socket and snib; Described elastic component is positioned on holder, and described rail groove is positioned in railroad shoe.

Described elastic component is spring, and described holder is provided with spring groove, and described spring is located in spring groove; Described sliding part is provided with the spring arm for Compress Spring.

The beneficial effect of utility model is: camera head of the present utility model has ejection rotary structure, camera can be packed up, and hides into enclosure interior, prevents camera from polluting and scratch; During use, camera ejects, and rotating camera can carry out the shooting of forward and backward different azimuth, does not need dollying equipment, and camera can be made to realize the shooting of any anglec of rotation; This kind camera head is easy and simple to handle, outward appearance is exquisite, failure rate is low, and the cost arranging forward and backward camera than existing picture pick-up device is low.

Accompanying drawing explanation

Fig. 1 is the exploded view of camera head in the utility model embodiment;

Fig. 2 is the structural representation of sliding part in the utility model embodiment;

Fig. 3 is the structural representation of the utility model embodiment middle orbit seat;

Fig. 4 is the vertical view of the utility model embodiment middle orbit seat;

Fig. 5 is the front view of slide block in the utility model embodiment;

Fig. 6 is the vertical view of slide block in the utility model embodiment;

Fig. 7 is the cutaway view of swivelling chute position in the utility model embodiment 1;

Fig. 8 is the cutaway view of silica gel plug position in the utility model embodiment 1;

Fig. 9 is structural representation when camera head cuts out in the utility model embodiment;

Figure 10 is the schematic diagram of slide block position in rail groove when camera head cuts out in the utility model embodiment;

Figure 11 is structural representation when camera head is pressed into from closed condition in the utility model embodiment;

Figure 12 is the schematic diagram of slide block position rail groove when camera head is pressed into from closed condition in the utility model embodiment;

Figure 13 is structural representation when camera head ejects in the utility model embodiment;

Figure 14 is the schematic diagram of slide block position in rail groove when camera head ejects in the utility model embodiment;

The cutaway view of swivelling chute position when Figure 15 is the camera head right-hand rotation limit in the utility model embodiment;

The cutaway view of swivelling chute position when Figure 16 is the camera head left-hand rotation limit in the utility model embodiment.

Embodiment

In order to more fully understand technology contents of the present utility model, below in conjunction with specific embodiment the technical solution of the utility model being introduced further and illustrating.

Embodiment 1

Camera head as shown in figures 1-8, comprises camera 4, holder 3, railroad shoe 2, sliding part 1, spring, shell 5, bottom 6.

Holder 3 is provided with spring groove 31, and spring is positioned at spring groove 31.

Railroad shoe 2 is provided with snib 21 and the screw 23 of protrusion, holder 3 is provided with railroad shoe 2 upper clamping plug 21 correspondence position the bayonet socket 32 mated with snib 21, be provided with screw 23 correspondence position and mate screw 33, railroad shoe 2 carries out clamping with holder 3 by snib 21 and bayonet socket 32, and by screw through screw 23, coupling screw 33 be assembled into cavity from lock set.

Sliding part 1 is located in the cavity of lock set, and spring arm 12 is positioned in the one side of relative spring groove 31 on sliding part 1, and the ends contact of spring arm 12 and the spring in spring groove 31, for ejecting sliding part 1.The another side of sliding part 1 opposed spring arms is provided with a pair chute 15 perpendicular to sliding part 1 ejection direction, and slide block 11 is connected on the inherent sliding part 1 of chute 15 by the edge 112 being located at bottom and slides; Sliding pin 111 is positioned at the upper end of slide block 11.

Railroad shoe 2 is provided with oblique block 26 and the rail groove 22 of the annular in island portion centered by oblique block 26, and the sliding pin 111 on slide block 11 is positioned at the guided way of rail groove 22.Rail groove 22 supports stop bit 24 by ejection, is pressed into guide channel A, forms from lock-bit 25 and ejection guide channel B, eject and support stop bit 24, be pressed into guide channel A, connect successively from lock-bit 25, eject guide channel B one end to be connected with from lock-bit 25, the other end and ejection are supported stop bit 24 and are connected; Be pressed into guide channel A and comprise that first is pressed into the 3rd guide wall 261 of stop bit 27, first guide wall 271 that to be led by slide block 11, being led by slide block 11 first is pressed into the first guide wall 271 of stop bit 27, leads from the self-locking guide wall 262 of lock-bit by slide block 11, wherein, 3rd guide wall 261 and self-locking guide wall 262 are positioned on oblique block 26, eject and support only 24 projections being pressed into direction along sliding part 11 and be positioned in the 3rd guide wall 261, first is pressed into and is positioned in self-locking guide wall 262 to stop bit 27 along the projection of sliding part 1 ejection direction; Eject guide channel B to comprise and second be pressed into stop bit 28, slide block 11 led second is pressed into the second guide wall 281 of stop bit 28, lead slide block 11 the 4th guide wall 282 ejecting and support stop bit 24, wherein, the projection being pressed into direction along sliding part 11 from lock-bit 25 to be positioned in the second guide wall 281, the second and to be pressed into and to be positioned in the 4th guide wall 282 to only 28 projections being pressed into direction along sliding part 11.

Ejection assembly is formed from lock set, spring, sliding part 1.

Cylindric end cap 14 is positioned on sliding part 1, is provided with projection 13 inside end cap 14; Camera 4 is provided with embedding post 41, the swivelling chute 42 that embedding post 41 surface is provided with the link of sliding part 1, and camera 4 is embedded in the cylinder of end cap 14 by embedding post 41 and is socketed with sliding part 1, and camera 4 can rotate by relative sliding part 1; Embed after connecting, the projection 13 inside end cap 14 is positioned at swivelling chute 42, prevents camera 4 and sliding part 1 from departing from; Be provided with the restriction position of bone 44 in swivelling chute 42, the restriction position of bone 44 is for limiting camera rotating Vortex more than 360 °, in order to avoid the circuit of damage camera 4.It should be noted that, swivelling chute 42 can be incompletely around embedding post 41 1 weeks, and the non-through part of swivelling chute 42 can be used as the restriction position of bone 44, and the restriction position of bone 44 and the camera hole 45 on camera 4 lay respectively at the both sides, front and back of camera 4.Embedding post 41 surface of camera 4 is provided with groove 46, the centre of groove 46 is provided with pillar 47, silica gel plug 43 is fixed on pillar 47, the contact internal walls of silica gel plug 43 and end cap 14, when camera 4 rotates, silica gel plug 43 can make camera 4 stop at the arbitrary anglec of rotation with the interference friction power of end cap 14 inwall.

Ejection assembly and camera 4 are positioned at shell 5, and bottom 6 is positioned at one end that shell 5 ejects assembly.

As shown in Fig. 9-14, when camera is in closed condition, camera 4 is positioned at shell 5, slide block 11 is positioned at from lock-bit 25, pressing camera 4, spring arm 12 Compress Spring can make slide block 11 move to the second guide wall 281 from from lock-bit 25 along ejection guide channel B, moving to second along the inclined-plane of the second guide wall 281 is again pressed into stop bit 28, after unclamping, the sliding elastic reset of spring promotes spring arm 12, slide block 11 moves to the 4th guide wall 282 ejecting guide channel B along sliding part 1 ejection direction rollback, slide block 11 is led ejection to stop bit 24 by the inclined-plane again along the 4th guide wall 282, finally stop to eject and support stop bit 24, camera 4 is in ejection state.When camera 4 is in ejection state, pressing camera 4, spring arm 12 Compress Spring can make slide block 11 move to three guide wall 261 to stop bit 24 along pressing direction from ejection, lead slide block 11 along the inclined-plane of the 3rd guide wall 261 first guide wall 271 again, then moving to first along the first guide wall 271 is pressed into stop bit 27, after unclamping, the sliding elastic reset of spring promotes spring arm 12, slide block 11 moves to self-locking guide wall 262 along spring reset prolonging direction rollback, inclined-plane again along self-locking guide wall 262 moves to from lock-bit 25, and camera 4 is in closed condition.

As shown in figures 15-16, when camera 4 is in ejection state, can rotate camera 4, by the barrier effect mutual to the projection 13 inside end cap 14 of the restriction position of bone 44 in swivelling chute 42, limiting rotation angle, prevents camera 4 from excessively rotating and damaging camera circuit.

Embodiment 2

The difference of the present embodiment and embodiment 1 is, described camera is embedded in the cylinder of embedding post by end cap and is socketed with sliding part 1, and camera 4 can rotate by relative sliding part 1; Projection is positioned at inside embedding post, and swivelling chute is positioned at end cap surface, and silica gel plug is positioned at the groove on end cap surface, and embed after connecting, projection is positioned at swivelling chute, is provided with the restriction position of bone in swivelling chute; Other structures are identical with embodiment 1.

Camera of the present utility model has ejection rotary structure, this camera head is arranged on the side of electronic product, camera can be packed up, hide into enclosure interior, when preventing camera pollution and scratch from using, camera ejects, and rotating camera can carry out the shooting of forward and backward different azimuth, do not need dollying equipment, camera can be made to realize the shooting of any anglec of rotation.Camera convenient operation of the present utility model, outward appearance are exquisite, failure rate is low, and the cost arranging forward and backward camera than existing picture pick-up device is low.

The above only further illustrates technology contents of the present utility model with embodiment; so that reader is easier to understand; but do not represent execution mode of the present utility model and be only limitted to this, any technology done according to the utility model extends or recreation, all by protection of the present utility model.

Claims (10)

1. a camera head, comprises camera, connects the ejection assembly of camera, it is characterized in that: described ejection assembly comprises sliding part, hold sliding part from lock set, described camera is connected with sliding part; Described is provided with the elastic component for ejecting sliding part and the rail groove for spacing sliding part in lock set; Described sliding part is provided with can along the slide block of rail groove movement; Described rail groove ringwise, be provided with in rail groove slide block from lock-bit.

2. camera head according to claim 1, it is characterized in that: described rail groove is by ejecting to stop bit, being pressed into guide channel, forming from lock-bit and ejection guide channel, eject and support stop bit, be pressed into guide channel, connect successively from lock-bit, described ejection guide channel one end is connected with from lock-bit, and the other end and ejection are supported stop bit and be connected; The described guide channel that is pressed into comprises and first is pressed into stop bit, is pressed into the first guide wall of stop bit, by the self-locking guide wall of slider guide from lock-bit by slider guide first, and described ejection guide channel comprises and second is pressed into stop bit, slider guide second is pressed into the second guide wall to stop bit; Described first is pressed into and is positioned in self-locking guide wall to stop bit along the projection of sliding part ejection direction, the described projection being pressed into direction along sliding part from lock-bit is positioned in the second guide wall, and described second is pressed into the projection being pressed into direction along sliding part to stop bit is positioned at outside self-locking guide wall.

3. camera head according to claim 2, is characterized in that: the described guide channel that is pressed into also comprises the 3rd guide wall of slider guide first guide wall, and the projection that described ejection is pressed into direction to stop bit along sliding part is positioned in the 3rd guide wall.

4. camera head according to claim 3, is characterized in that: described ejection guide channel also comprises the 4th guide wall of slider guide ejection being supported stop bit.

5. camera according to claim 1, is characterized in that: the link of described sliding part and camera is provided with columnar end cap, and camera is provided with columnar embedding post, and described camera and sliding part are socketed by embedding post and end cap.

6. camera head according to claim 5, is characterized in that: described embedding post be provided with the swivelling chute and projection that mutually mate between end cap, projection is positioned at swivelling chute; Be provided with in described swivelling chute for limiting the equidirectional restriction position of bone rotating over 360 ° of camera.

7. camera head according to claim 6, is characterized in that: be provided with the silica gel plug increasing embedding post and end cap spin friction resistance between described embedding post and end cap.

8. camera head according to claim 1, is characterized in that: described slide block is provided with edge, and described sliding part is provided with the chute being pressed into direction perpendicular to sliding part, and slide block is connected in chute by edge; Described slide block is also provided with sliding pin, and sliding pin is positioned at rail groove.

9. camera head according to claim 1, it is characterized in that: the described railroad shoe comprising holder from lock set, be connected with holder, holder, railroad shoe are provided with mutually adaptive bayonet socket and snib, and holder, railroad shoe are assembled into from lock set by the clamping of bayonet socket and snib; Described elastic component is positioned on holder, and described rail groove is positioned in railroad shoe.

10. camera head according to claim 9, is characterized in that: described elastic component is spring, and described holder is provided with spring groove, and described spring is located in spring groove; Described sliding part is provided with the spring arm for Compress Spring.