CN205792877U - A kind of camera terminal - Google Patents

Abstract

This utility model embodiment discloses a kind of camera terminal, including: there is the motion bar 102 of scalable eyeglass module 101；First groove 103 of scalable eyeglass described in snapping, described first groove 103 is arranged on the shell at photographic head 104 place；The fixing bar 105 of fixing described motion bar 102, described fixing bar 105 arranges on the housing, described fixing bar 105 drives described motion bar 102 to rotate, described scalable eyeglass module 101 is made to be fixed in described first groove 103, or it being fixed on the top of described photographic head 104, described photographic head 104 carries out optical zoom by described scalable eyeglass module 101.

Description

A kind of camera terminal

Technical field

This utility model relates to technique for taking, particularly relates to a kind of camera terminal.

Background technology

Zoom function during terminal is taken pictures at present is broadly divided into two kinds, including: digital zoom and optical zoom, although optical zoom imaging is more preferable, but owing to controlling terminal fuselage thickness and saving the restriction of space layout, typically all use digital zoom pattern, but the picture using digital zoom functions to take pictures out can heavy losses image quality, therefore a lot of people's these functions the most rarely needed.But, the benefit using optical zoom can realize lossless zoom vista shot very well, and optical zoom adds optical glass module, handset thickness can be increased on mobile phone as Fig. 1 applies and take up room, there is the Related product being contained on mobile phone camera outside corresponding optical zoom module in the market, need often to carry very inconvenient during use, be also easily lost.

Utility model content

For solving above-mentioned technical problem, the expectation of this utility model embodiment provides a kind of camera terminal, it is possible to while using optical zoom shooting, reduce camera terminal fuselage thickness.

For reaching above-mentioned purpose, the technical scheme of this utility model embodiment is achieved in that

First aspect, it is provided that a kind of camera terminal 10, including:

There is the motion bar 102 of scalable eyeglass module 101；

First groove 103 of scalable eyeglass module described in snapping, described first groove 103 is arranged on the shell at photographic head 104 place；

The fixing bar 105 of fixing described motion bar 102, described fixing bar 105 arranges on the housing, described fixing bar 105 drives described motion bar 102 to rotate, described scalable eyeglass module 101 is made to be fixed in described first groove 103, or it being fixed on the top of described photographic head 104, described photographic head 104 carries out optical zoom by described scalable eyeglass module 101.

Optionally, described camera terminal 10 also includes:

Bottom surface is provided with the second groove 106 of described first groove 103, and described second groove 106 is additionally provided with described photographic head 104；Wherein, described fixing bar 105 is fixed on the sidewall of described second groove 106, makes described second groove 106 be divided into two parts, the bottom surface of the Part I of described second groove 106 to be provided with described first groove 103；The bottom surface of the Part II of the second groove 106 of described second groove 106 is provided with described photographic head 104.

Optionally, described in the Part I snapping of described second groove 106 during motion bar 102, first of the described motion bar 102 at the bottom surface of the Part I of described second groove 106 and described scalable eyeglass module 101 place contacts, and described scalable eyeglass module 101 is placed in described first groove 103；

Described in the Part II snapping of described second groove 106 during motion bar 102, the bottom surface of the Part II of described second groove 106 contacts with the second face of described motion bar 102.

Optionally, described fixing bar 105 includes:

Fixing bar body 1051；

Being arranged on the deformable member 1052 on described fixing bar body 1051, when motion bar 102 described in the Part I snapping of described second groove 106, described deformable member 1052 is in deformed state；When motion bar 102 described in the Part II snapping of described second groove 106, described deformable member 1052 is in extended configuration；

Described camera terminal 10 also includes:

Stoping or allow described motion bar 102 to depart from the extensible member 107 of Part I of described second groove 106, described extensible member 107 is arranged on the position of described shell and the Part I side edge of described second groove 106；

Wherein, when motion bar 102 described in the Part I snapping of described second groove 106, described extensible member 107 allows described motion bar 102 to depart from the Part I of described second groove 106, the deformable member 1052 being in deformed state recovers release elastic force, force described motion bar 102 to rotate, make the Part II snapping of described motion bar 102 and described second groove 106.

Optionally, described extensible member 107 includes:

One end is fixed on the bullet block 1071 of described shell；

The expansion link 1072 being connected with the other end of described bullet block 1071；Described expansion link 1072 near the elastic force of described first groove 103 by described bullet block 1071, is made described expansion link 1072 have the trend towards described first groove 103 motion, stops described motion bar 102 to depart from the Part I of described second groove 106；

Clip motion block 1073 on described expansion link 1072, when described pull block 1073 away from described first groove 103 time, described expansion link 1072 moves away from described first groove 103 along with described block 1073 of pulling, extrudes described bullet block 1071.

Optionally, described deformable member 1052 is spring, and described bullet block 1071 is spring.

Preferably, the length after described scalable eyeglass module 101 shrinks is 3/4 times of the fuselage thickness of described camera terminal 10；Length after described scalable eyeglass module 101 full extension is 2.5 times of described camera terminal 10, and the degree of depth of described first groove 103 is 3/4 times of the fuselage thickness of described camera terminal 10.

Preferably, the thickness of described motion bar 102 is the degree of depth of described second groove 106.

Preferably, described scalable eyeglass module 101 includes three groups of focus-variable lens compositions.

This utility model embodiment provides a kind of camera terminal 10, including: there is motion bar the 102, first groove 103, photographic head 104 and the fixing bar 105 of scalable eyeglass module 101, wherein, first groove 103 is for snapping scalable eyeglass module 101, and the first groove 103 is arranged on the shell at photographic head 104 place；The fixing bar 105 of fixing motion bar 102, described fixing bar 105 is arranged on shell, described fixing bar 105 drives motion bar 102 to rotate, scalable eyeglass module 101 is made to be fixed in described first groove 103, or it being fixed on the top of photographic head 104, photographic head 104 carries out optical zoom by scalable eyeglass module 101.So, when not using scalable eyeglass module 101, it is possible to be hidden in the first groove 103, when using scalable eyeglass module 101 zoom, scalable eyeglass module 101 is rotated by motion bar 102, it is buckled on photographic head 104, it is achieved optical zoom, so, when not in use, scalable eyeglass module 101 will not increase the thickness of camera terminal 10, thus in the case of ensureing optical zoom, also reduces camera terminal 10 fuselage thickness.

Accompanying drawing explanation

The structural representation of a kind of camera terminal that Fig. 1 provides for prior art；

The structural representation Fig. 1 of a kind of camera terminal that Fig. 2 provides for this utility model；

The structural representation Fig. 2 of a kind of camera terminal that Fig. 3 provides for this utility model；

The structural representation Fig. 3 of a kind of camera terminal that Fig. 4 provides for this utility model；

Motion bar that Fig. 5 provides for this utility model and the structural representation of fixing bar；

The structural representation Fig. 4 of a kind of camera terminal that Fig. 6 provides for this utility model；

A kind of motion bar that Fig. 7-a provides for this utility model, scalable eyeglass module and the structural representation of fixing bar；

The structural representation of a kind of fixing bar that Fig. 7-b provides for this utility model；

The structural representation of a kind of extensible member that Fig. 8 provides for this utility model；

The structural representation Fig. 5 of a kind of camera terminal that Fig. 9 provides for this utility model.

Detailed description of the invention

This utility model provides a kind of camera terminal 10, as in figure 2 it is shown, include: have motion bar the 102, first groove 103, photographic head 104 and a fixing bar 105 of scalable eyeglass module 101, wherein,

Here, scalable eyeglass module 101 includes that multiple telescopic focus-variable lens forms, and the maximum zoom magnification of the scalable eyeglass module 101 that the present embodiment provides can reach 2.5 times

First groove 103 is for snapping scalable eyeglass module 101, and the first groove 103 is arranged on the shell at photographic head 104 place；Generally, shell refers to the back cover of camera terminal 10.

Fixing bar 105 is used for fixing motion bar 102, fixing bar 105 is arranged on shell, fixing bar 105 drives motion bar 102 to rotate, scalable eyeglass module 101 is made to be fixed in the first groove 103, or it being fixed on the top of photographic head 104, photographic head 104 carries out optical zoom by scalable eyeglass module 101.

So, when not using scalable eyeglass module 101, it is possible to be hidden in the first groove 103, when using scalable eyeglass module 101 zoom, scalable eyeglass module 101 is rotated by motion bar 102, it is buckled on photographic head 104, it is achieved optical zoom, so, when not in use, scalable eyeglass module 101 will not increase the thickness of camera terminal 10, thus in the case of ensureing optical zoom, also reduces camera terminal 10 fuselage thickness.

Further, as it is shown on figure 3, described camera terminal 10 also includes:

Bottom surface is provided with the second groove 106 of the first groove 103, and described second groove 106 is additionally provided with photographic head 104；Wherein, fixing bar 105 is fixed on the sidewall of the second groove 103, makes the second groove 106 be divided into two parts, the bottom surface of the Part I of the second groove 106 to be provided with the first groove 103；The bottom surface of the Part II of the second groove 106 of the second groove 106 is provided with photographic head 104.

Further, as shown in Figure 4, during the Part I snapping motion bar 102 of the second groove 106, first of the bottom surface of the Part I of the second groove 106 and scalable eyeglass module 101 place motion bar 102 contacts, and scalable eyeglass module 101 is placed in the first groove 103；Here, as it is shown in figure 5, the first face of motion bar 102 is the one side arranging scalable eyeglass module, the second face of motion bar 102 is the back side of first.

As shown in Figure 6, during the Part II snapping motion bar 102 of the second groove 106, the bottom surface of the Part II of the second groove 106 contacts with the second face of motion bar 102.

Further, as shown in 7-a, fixing bar 105 is arranged on motion bar 102, is connected with motion bar 102, and as shown in Fig. 7-b, described fixing bar 105 specifically includes:

Fixing bar body 1051；

Being arranged on the deformable member 1052 on fixing bar body 1051, when the Part I snapping motion bar 102 of the second groove 106, described deformable member 1052 is in deformed state；When the Part II snapping motion bar 102 of the second groove 106, deformable member 1052 is in extended configuration；

As shown in Figure 6, described camera terminal 10 also includes:

Prevention or permission motion bar 102 depart from the extensible member 107 of the Part I of described second groove 106, and extensible member 107 is arranged on the position of the Part I side edge of shell and the second groove 106；

Wherein, when the Part I snapping motion bar 102 of the second groove 106, described extensible member 107 allows motion bar 102 to depart from the Part I of the second groove 106, the deformable member 1052 (being identified the most in the drawings) being in deformed state recovers release elastic force, force motion bar 102 to rotate, make motion bar 102 and the Part II snapping of the second groove 106.

What deserves to be explained is, the present embodiment can also arrange two extensible members 107, it is separately mounted to the edge of the Part I of the second groove 106 and the edge of the Part II of the second groove 106, deformable member 1052 be not set again, is equally reaching the purpose of clamping.

Further, as shown in Figure 8, described extensible member 107 includes:

One end is fixed on the bullet block 1071 of described shell；

The expansion link 1072 being connected with the other end of bullet block 1071；Expansion link 1072 near the elastic force of the first groove 103 by bullet block 1071, is made expansion link 1072 have the trend towards the first groove 103 motion, stops motion bar 102 to depart from the Part I of the second groove 106；

Being fixed with on expansion link 1072 and pull block 1073, when pulling block 10 away from the first groove 103, expansion link 1071 moves away from the first groove 103 along with pulling block 1073, extrudes bullet block 1071.

Preferably, deformable member 1052 is spring, and this spring housing is on fixing bar body, and bullet block 1071 is spring, and this spring one end is connected with shell, and the other end is connected with expansion link 1072.

Optionally, the length after scalable eyeglass module 101 shrinks is 3/4 times of the fuselage thickness of camera terminal 10；Length after scalable eyeglass module 101 full extension is 2.5 times of camera terminal 10, and the degree of depth of the first groove 103 is 3/4 times of the fuselage thickness of camera terminal 10.

Preferably, the thickness of motion bar 102 is the degree of depth of the second groove 106.

Preferably, scalable eyeglass module 101 includes three groups of focus-variable lens compositions.

Compared to prior art; not using optical zoom it is; scalable eyeglass module 101 is accepted, focus-variable lens is also played certain protective effect, owing to the scalable eyeglass module 101 of prior art highlights fuselage; have some the most unavoidably to collide with; greatly limit the service life of scalable eyeglass module 101, therefore, the camera terminal 10 that the present embodiment provides is possible to prevent colliding with at ordinary times; protect scalable eyeglass module 101, thus increase the service life.

As it is shown in figure 9, the concrete operating process of the present embodiment is:

In scalable eyeglass module 101 is fixed on the first groove 103, bullet block 1071 remains extended as, force expansion link 1072 to stop motion bar 102 to rotate, the deformable member 1052 of fixing bar 105 keeps deformation, when user pulls block 1073, bullet block 1071 deforms upon, expansion link 1072 is regained, motion bar 102 is allowed to rotate, deformable member 1052 is recovered to stretch, release power, motion bar 102 is forced to rotate, Part II snapping with the second groove 106 of the second groove 106, in order to deformable member keeps stretching, deformable member 1052 can produce the strength of an antagonism, motion bar 102 is fixed in the second groove 106.

Afterwards, user pulls motion bar 102, motion bar 102 is forced to rotate towards the Part I of the second groove 106, now, the deformable member 1052 of fixing bar 105 deforms upon, the deformation power created antagonism, user pulls block 1073, bullet block 1071 deforms upon, expansion link 1072 is regained, motion bar 102 is placed in the Part I of the second groove 106, user unclamps and pulls block 1073, bullet block 1071 recovers to stretch, to one power of expansion link, promotion expansion link moves, thus hinder motion bar 102 to depart from the Part I of the second groove 106, this power mutually restricts with the deformation power of deformable member 1052.

The above, preferred embodiment the most of the present utility model, it is not intended to limit protection domain of the present utility model.

Claims (9)

1. a camera terminal (10), it is characterised in that including:

There is the motion bar (102) of scalable eyeglass module (101)；

First groove (103) of scalable eyeglass module (101) described in snapping, described first groove (103) is arranged on the shell at photographic head (104) place；

The fixing bar (105) of fixing described motion bar (102), described fixing bar (105) is arranged on the housing, described fixing bar (105) drives described motion bar (102) to rotate, described scalable eyeglass module (101) is made to be fixed in described first groove 103, or it being fixed on the top of described photographic head (104), described photographic head (104) carries out optical zoom by described scalable eyeglass module (101).

Camera terminal the most according to claim 1 (10), it is characterised in that described camera terminal (10) also includes:

Bottom surface is provided with second groove (106) of described first groove (103), and described second groove (106) is additionally provided with described photographic head (104)；Wherein, described fixing bar (105) is fixed on the sidewall of described second groove (106), described second groove (106) is made to be divided into two parts, the bottom surface of the Part I of described second groove (106) to be provided with described first groove (103)；The bottom surface of the Part II of described second groove (106) is provided with described photographic head (104).

Camera terminal the most according to claim 2 (10), it is characterized in that, described in the Part I snapping of described second groove (106) during motion bar (102), first of the described motion bar (102) at the bottom surface of the Part I of described second groove (106) and described scalable eyeglass module (101) place contacts, and described scalable eyeglass module (101) is placed in described first groove (103)；

Described in the Part II snapping of described second groove (106) during motion bar (102), the bottom surface of the Part II of described second groove (106) contacts with second of described motion bar (102).

Camera terminal the most according to claim 3 (10), it is characterised in that described fixing bar (105) including:

Fixing bar body (1051)；

It is arranged on the deformable member (1052) on described fixing bar body (1051), when motion bar (102) described in the Part I snapping of described second groove (106), described deformable member (1052) is in deformed state；When motion bar (102) described in the Part II snapping of described second groove (106), described deformable member (1052) is in extended configuration；

Described camera terminal (10) also includes:

Stoping or allow described motion bar (102) to depart from the extensible member (107) of Part I of described second groove (106), described extensible member (107) is arranged on the position of described shell and the Part I side edge of described second groove (106)；

Wherein, when motion bar (102) described in the Part I snapping of described second groove (106), described extensible member (107) allows described motion bar (102) to depart from the Part I of described second groove (106), the deformable member (1052) being in deformed state recovers release elastic force, force described motion bar (102) to rotate, make the Part II snapping of described motion bar (102) and described second groove (106).

Camera terminal the most according to claim 4 (10), it is characterised in that described extensible member (107) including:

One end is fixed on the bullet block (1071) of described shell；

The expansion link (1072) being connected with the other end of described bullet block (1071)；Described expansion link (1072) is by the elastic force of close described first groove (103) of described bullet block (1071), make described expansion link (1072) have the trend moved towards described first groove (103), stop described motion bar (102) to depart from the Part I of described second groove (106)；

It is fixed with on described expansion link (1072) and pulls block (1073), when described pull block (1073) away from described first groove (103) time, described expansion link (1072) moves away from described first groove (103) along with described block (1073) of pulling, and extrudes described bullet block (1071).

Camera terminal the most according to claim 5 (10), it is characterised in that described deformable member (1052) is spring, described bullet block (1071) is spring.

7. according to the camera terminal (10) described in any one of claim 1 to 6, it is characterised in that the length after the contraction of described scalable eyeglass module (101) is 3/4 times of the fuselage thickness of described camera terminal (10)；Length after described scalable eyeglass module (101) full extension is 2.5 times of described camera terminal (10), and the degree of depth of described first groove (103) is 3/4 times of the fuselage thickness of described camera terminal (10).

8. according to the camera terminal (10) described in any one of claim 2 to 6, it is characterised in that the thickness of described motion bar (102) is the degree of depth of described second groove (106).

9. according to the camera terminal (10) described in any one of claim 1 to 6, it is characterised in that described scalable eyeglass module (101) includes three groups of focus-variable lens compositions.