CN209057291U - Electronic equipment - Google Patents
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- CN209057291U CN209057291U CN201822093896.9U CN201822093896U CN209057291U CN 209057291 U CN209057291 U CN 209057291U CN 201822093896 U CN201822093896 U CN 201822093896U CN 209057291 U CN209057291 U CN 209057291U
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- ccd camera
- electronic equipment
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- camera assembly
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Abstract
The disclosure is directed to a kind of electronic equipment.Electronic equipment includes shell, and the shell includes the first guide part extended outward to form from the surface of the shell;Camera module, the camera module is located in the shell, including driving assembly and CCD camera assembly, the CCD camera assembly includes the second guide part with first guide part cooperation, the driving component and the CCD camera assembly cooperate, to drive the CCD camera assembly to move back and forth under the cooperation guiding of first guide part and second guide part.
Description
Technical field
This disclosure relates to field of terminal technology more particularly to a kind of electronic equipment.
Background technique
Currently, requirement of the user to electronic equipment camera function is gradually increased, in the related technology one, can be with electronic equipment
Camera can be fixed on the inside of electronic equipment, and by distinguishing aperture in the panel side of electronic equipment and backboard side,
The camera lens of front camera and rear camera is allowed to acquire image information by corresponding aperture;Wherein, front camera
It can satisfy the self-timer demand of user, rear camera can satisfy the demand of normally taking pictures of user.
Utility model content
The disclosure provides a kind of electronic equipment, to solve deficiency in the related technology.
In accordance with an embodiment of the present disclosure, a kind of electronic equipment is provided, comprising:
Shell, the shell include the first guide part extended outward to form from the surface of the shell;
Camera module, the camera module is located in the shell, including driving assembly and CCD camera assembly, described
CCD camera assembly includes the second guide part with first guide part cooperation, and the driving component is matched with the CCD camera assembly
It closes, to drive the CCD camera assembly to move back and forth under the cooperation guiding of first guide part and second guide part.
Optionally, the CCD camera assembly includes camera body and the camera branch for fixing the camera body
Frame, second guide part are located on the camera bracket.
Optionally, the side in first guide part and second guide part includes that sliding slot, another party include and institute
State the guide rail of sliding slot cooperation.
Optionally, first guide part includes sliding slot, and second guide part includes guide rail;Wherein, the shell packet
The limiting section for including bottom plate, extending outward to form from the bottom plate, the limiting section and the bottom plate cooperatively form the sliding slot.
Optionally, the electronic equipment further includes lubrication part, and the lubrication part is set in the sliding slot, described in reducing
The frictional force that the guide rail sliding slot relatively generates when sliding.
Optionally, the sliding slot and the guide clearance cooperate.
Optionally, the sliding slot is arc-shaped or rectangular.
Optionally, one group of first guide part and second matched is formed between the CCD camera assembly and the shell to lead
To part;Alternatively,
It includes multiple first guide parts that the CCD camera assembly, which includes multiple second guide parts, the shell,
At least two first guide parts in the multiple first guide part cooperate with corresponding second guide part, to form multiple groups matching
The first guide part and the second guide part closed.
Optionally, the camera module further include:
Elastic element, the CCD camera assembly is fixed in one end of the elastic element, the other end is fixed on the driving
Component, for transmitting the active force between the driving component and the CCD camera assembly.
Optionally, the electronic equipment further include:
Bit-stopping structure, the bit-stopping structure are fixed on the shell, will for being contacted with the CCD camera assembly
The CCD camera assembly is limited in the final position of reciprocating motion
The technical scheme provided by this disclosed embodiment can include the following benefits:
As can be seen from the above embodiments, the disclosure is oriented to by the cooperation of first guide part and the second guide part, so that taking the photograph
As the translation direction of head assembly is identical as the extending direction of the first guide part always, avoids deviateing, prevent CCD camera assembly in shell
Internal portion play everywhere.Relative in the related technology, fixed bracket is specially set in shell, is then formed on fixed bracket
The form of sliding rail, the disclosure form the first guide part on shell, which can be integrally formed with shell, with simplification
Process saves assembly time.
It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not
The disclosure can be limited.
Detailed description of the invention
The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the disclosure
Example, and together with specification for explaining the principles of this disclosure.
Fig. 1 is one of the structural schematic diagram of a kind of electronic equipment shown according to an exemplary embodiment.
Fig. 2 is the second structural representation of a kind of electronic equipment shown according to an exemplary embodiment.
Fig. 3 is a kind of structural schematic diagram of camera module shown according to an exemplary embodiment.
Fig. 4 is a kind of decomposition diagram of CCD camera assembly shown according to an exemplary embodiment.
Fig. 5 is the partial cross-sectional view of a kind of electronic equipment shown according to an exemplary embodiment.
Fig. 6 is the partial enlarged view of Fig. 5.
Fig. 7 is the partial cross-sectional view of another electronic equipment shown according to an exemplary embodiment.
Fig. 8 is the third structural representation of a kind of electronic equipment shown according to an exemplary embodiment.
Fig. 9 is the four of the structural schematic diagram of a kind of electronic equipment shown according to an exemplary embodiment.
Specific embodiment
Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to
When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment
Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they be only with it is such as appended
The example of the consistent device and method of some aspects be described in detail in claims, the application.
It is only to be not intended to be limiting the application merely for for the purpose of describing particular embodiments in term used in this application.
It is also intended in the application and the "an" of singular used in the attached claims, " described " and "the" including majority
Form, unless the context clearly indicates other meaning.It is also understood that term "and/or" used herein refers to and wraps
It may be combined containing one or more associated any or all of project listed.
It will be appreciated that though various information, but this may be described using term first, second, third, etc. in the application
A little information should not necessarily be limited by these terms.These terms are only used to for same type of information being distinguished from each other out.For example, not departing from
In the case where the application range, the first information can also be referred to as the second information, and similarly, the second information can also be referred to as
One information.Depending on context, word as used in this " if " can be construed to " ... when " or " when ...
When " or " in response to determination ".
It is root that Fig. 1, which is one of structural schematic diagram of a kind of electronic equipment 100 shown according to an exemplary embodiment, Fig. 2,
According to the second structural representation of a kind of electronic equipment 100 shown in an exemplary embodiment.As shown in Figure 1 and Figure 2, which sets
Standby 100 may include shell 1 and camera module 2.The camera module 2 is located inside shell 1, may include CCD camera assembly
21 and with CCD camera assembly 21 cooperate driving assembly 22, by the driving assembly 22 can drive CCD camera assembly 21 relative to
Shell 1 moves back and forth.
With this, when user needs to take pictures using camera module 2, it can control CCD camera assembly 21 and stretched by opening 12
Shell 1 out is allowed to switch to state shown in Fig. 2 from state shown in Fig. 1;And when not taking pictures demand, it controls it and retracts electronics
Inside equipment 100, shown so as to while guaranteeing 100 preposition camera function of electronic equipment, avoid occupying electronic equipment 100
Show region, improves the screen accounting of electronic equipment 100.
Specifically, in order to which the moving direction to CCD camera assembly 1 is oriented to, enable to stretch out by opening 12 or
Person retracts.Shell 1 in the disclosure may include the first guide part 11 extended outward to form from the surface of shell 1, camera
Component 21 may include the second guide part 211 cooperated with the first guide part 11, pass through first guide part 11 and second
The cooperation of guide part 211 is oriented to, so that the translation direction of the CCD camera assembly 21 extending direction phase with the first guide part 11 always
Together, it avoids deviateing, prevents the play everywhere inside shell 1 of CCD camera assembly 21.Relative in the related technology, in shell 1 specially
Fixed bracket is arranged in door, and the form of sliding rail is then formed on fixed bracket, and the disclosure forms the first guide part on shell 1
11, which can be integrally formed with shell 1, to simplify process, save assembly time.
Wherein, as shown in Figure 3, Figure 4, which may include driving main body 221 and matches with the driving main body 221
The stroke push rod 222 of conjunction.The driving main body 221 may include motor and the lead screw that is connected to the motor, lead screw and stroke push rod 222
Connection.To, when the motor rotates, driving lead screw rotation further drives 222 alternating translational of stroke push rod by lead screw, with
This can drive stroke push rod to move back and forth.Alternatively, in other embodiments, driving main body 221 may include motor and
With the gear set of motor cooperation, stroke push rod 222 may include working as electricity with the rack gear of the end gear of gear set cooperation with this
Machine rotate when, gear set rotation, thus by with rack gear engage drive 222 alternating translational of stroke push rod.
Still with shown in Fig. 3, Fig. 4, CCD camera assembly 21 may include camera body 212 and camera bracket 213, such as scheme
Shown in 3, camera body 11 may include eyeglass and imaging sensor etc., pass through eyeglass and imaging sensor and camera master
Other electronic components of body cooperate, available external image information.Camera bracket 12 can be used for fixing camera main body
11, for example, camera bracket 213 may include accommodating chamber, camera body 212 can be located in the accommodating chamber, and can
Extraneous light information is obtained through the accommodating chamber.
Wherein, still with shown in Fig. 4, camera bracket 213 can be cooperated with stroke push rod 222 and the second guide part
211 can be located on camera bracket 213, to pass through the first guide part 11 when driving main body 221 to switch to working condition
Cooperation with the second guide part 211 is oriented to, and driving camera bracket 213 is moved along the extending direction of the first guide part 11,
And camera body 212 can be moved therewith, to stretch out the outside of shell 1 or retract the inside of shell 1.
In above-mentioned each embodiment, the first guide part 11 and the second guide part 211 may include diversified forms.It is real one
It applies in example, the first guide part 11 may include guide rail, and the second guide part 211 may include the sliding slot with guide rail cooperation;Alternatively,
In another embodiment, as shown in figure 5, the first guide part 11 may include sliding slot, the second guide part 211 may include matching with sliding slot
Guide rail is closed, which can be the convex block extended outward to form from the surface of camera bracket 213.Shell 1 may include bottom plate
13 and from the limiting section 14 that bottom plate 13 extends outward to form, the limiting section 14 and bottom plate 13 cooperatively form sliding slot, and the sliding slot
Opening can be arranged towards camera bracket 213, in order to which the guide rail being subsequently formed on camera bracket 213 is assembled.
Certainly, in some other embodiment, it is also possible in molded housing 1, corresponding and the first guide part 11
Region is thickeied, and is inwardly processed subsequently through the mode of numerical control processing from surface and is obtained sliding slot, the direction of the sliding slot can be
Towards the top of shell 1.No doubt, for the first guide part 11 and the second guide part 211 there may also be other molding modes,
This is no longer going to repeat them.Further, sliding slot can be arc-shaped or rectangular;Correspondingly, the form of guide rail is also possible to
It is arc-shaped or rectangular.Certainly, in other embodiments, sliding slot and guide rail are also possible to exist with other shapes, herein no longer
It repeats one by one.
In one embodiment, in order to guarantee that CCD camera assembly 21 can be slided relative to shell 1.Sliding slot in the disclosure
It can be clearance fit between guide rail.For example, shown in Fig. 6, in the direction perpendicular with 21 translation direction of CCD camera assembly
On, there are interval D 1 between sliding slot inner wall and the outer wall of guide rail, which is between 0.05mm-0.15mm, other direction
There are interval D 2 between upper hopper chute inner wall and the outer wall of guide rail, which is between 0.05mm-0.15mm;With camera
On the parallel direction of bracket translation direction, there are interval D 3 between sliding slot inner wall and the outer wall of guide rail, which is in
Between 0.05mm-0.2mm.
Technical solution based on the disclosure, in one embodiment, still with shown in Fig. 5, between CCD camera assembly 21 and shell 1
One group of first guide part 11 and the second guide part 211 matched is formed, to simplify structure, saves the inside of electronic equipment 100
Space.Alternatively, CCD camera assembly 21 may include multiple as shown in fig. 7, shell 1 may include multiple first guide parts 11
Two guide parts 211, and at least two first guide parts 11 are carried out with corresponding second guide part 211 in multiple first guide parts 11
Cooperation, to form the first guide part 11 and the second guide part 211. that multiple groups match
For example, as shown in fig. 7, shell 1 may include the first guide part 11A and 11B, CCD camera assembly 21 includes the
Two guide part 211A and 211B, wherein the first guide part 11A and the second guide part 211A cooperation, the second guide part 11B and second
Guide part 211B cooperation.Relative to the first guide part 11 and the second guide part 211 that single group matches, camera group can be improved
The stability that part 1 moves promotes the balance quality that CCD camera assembly 1 moves, and reduces yaw or inclined probability.
In above-mentioned each embodiment, still with shown in Fig. 7, electronic equipment 100 can also include lubrication part 3, the lubrication part 3
It can be arranged on inside sliding slot, to reduce frictional force when guide rail is slided relative to sliding slot.For example, as shown in Figure 7,
Lubrication part 3 may include the first lubrication part 31 and the second lubrication part 32, wherein the first lubrication part 31, which can be used for reducing first, leads
It can be used for reducing the first guide part 11B and the to the frictional force between part 11A and the second guide part 211A, the second lubrication part 32
Frictional force between two guide part 211B is lubricated between sliding slot and guide rail by the first lubrication part 31 and the second lubrication part 32
Cooperation reduces frictional force, improves the smooth degree that camera bracket 213 translates.
Wherein, the mixing material that lubrication part 3 can be made using polyformaldehyde material or be included polyformaldehyde is made, with benefit
With the self-lubricating function of polyformaldehyde, reduce frictional force.Wherein, lubrication part 3 can be is molded in sliding slot by Shooting Technique;Or
Person be also possible to it is separately formed after be fixed in sliding slot by way of bonding, the disclosure is limited not to this.
Technical solution based on the disclosure, as shown in Figure 8, Figure 9, driving main body 221 may include 2211 He of screw structure
Drive motor 2212, the power output axis connection of screw structure 2211 and drive motor 2212, the drive motor 2212 can wrap
Motor is included, power output shaft can be set on the motor;Alternatively, being increased to improve the output torque of drive motor 2212
For drive motor 2212 to the active force of screw structure 2211, the drive motor 2212 in the disclosure can also include being connected to motor
Gearbox, power output shaft is set on gearbox 2222.
Wherein, motor may include servo motor, stepper motor, it is a kind of in asynchronous machine.It include stepper motor with motor
For, when stepper motor is under normal operating conditions, when stepper motor often receives a pulse signal, phase can be rotated
Same angular displacement.Therefore, the rotation of stepper motor can be obtained according to the quantity for the pulse signal that counting stepping motor receives
Angle obtains the displacement of screw structure 2211 further by the transmission ratio of transmission ratio, drive mechanism in gearbox.Into one
Step ground can be adjusted the velocity and acceleration of stepper motor by adjusting the frequency of pulse signal, to reach adjusting
The purpose of 21 movement speed of CCD camera assembly.
Gearbox may include primary speed-down case or multi-stage speed-reducing case.It may include sun gear, planet in the gearbox
Wheel, planet stent, gear ring etc..Wherein, sun gear is that the shaft of driving wheel and motor connects, by sun gear drive planetary gear into
Row rotation.In the present embodiment, the power output shaft of drive motor 2212 can cooperate with screw structure 2211, drive lead screw knot
Structure 2211 translates, further such that stroke push rod 222 pushes CCD camera assembly 21 to be slided relative to shell 101.
In above-mentioned each embodiment, in order to optimize the transmitting of the power between CCD camera assembly 211 and stroke push rod 222, still
With shown in Fig. 8, camera module 2 can also include elastic element 23, and CCD camera assembly is fixed in one end of the elastic element 23
21, the other end is fixed on stroke push rod 222.With this, when driving main body 222 to work, screw structure 2211 is rotated, stroke push rod
Active force is transferred to CCD camera assembly 21 by elastic element 23 by 222 translations, and driving CCD camera assembly 21 translates.Based on bullet
Property element 23, when the camera module 100 of user's manual operation state shown in Fig. 8 or electronic equipment fall, camera shooting
Active force caused by head mould group 2 is applied on elastic element 23, can partly be absorbed, be can be avoided by elastic element 23
Active force is directly transmitted on stroke push rod 222, causes stroke push rod 222 mobile, so that driving main body 221 inverts, is caused
Damage.
Wherein, which can be is fixed on camera included by CCD camera assembly 21 by welding
On bracket 213, equally it can also be fixed on by welding on stroke push rod 222.The elastic element 23 may include silicon
Perhaps the elastic element 23 can also include that spring for example can be extension spring or pressure for glue part, plastic parts, latex part etc.
Contracting spring, or can also be the spring of other transmitting radial forces, this is no longer going to repeat them.
In the technical solution of the disclosure, since CCD camera assembly 21 can be moved relative to shell 1, in order to avoid
CCD camera assembly 21 collides on shell 1, and the displacement to CCD camera assembly 21 is also needed to limit in the disclosure.
In one embodiment, the traveling of CCD camera assembly 21 can be controlled by the working condition of switching driving assembly 22
Displacement.Specifically, CCD camera assembly 21 can also include Hall magnet 214 and Hall chip 215, which can
To be located on camera bracket 213, and can be moved with the movement of camera bracket 213.Hall chip 215 can be relative to shell
Body 1 is fixed and is electrically connected with the controller of electronic equipment 100.For example, Hall chip 215 and controller can be arranged on simultaneously
On the mainboard of electronic equipment, and it can be connected by elastic slice or other forms between Hall chip 215 and controller.
Wherein, when Hall magnet 214 with camera bracket 213 be moved to Hall chip 215 interact when, this is suddenly
You are triggered and the status signal of generation are sent to the control at chip 215, which can be used for characterizing when proactive
As the relative positional relationship between head assembly 21 and shell 1.For example, controller determines camera according to the status signal received
When component 21 currently stretches out in shell 1, i.e., when CCD camera assembly 21 is in state described in Fig. 8, it can be sent to driving assembly 22
Control instruction, driving assembly 22 can stop power output or deceleration or acceleration etc. according to the control instruction;Alternatively, control
When device processed determines that CCD camera assembly 21 is currently accommodated in the inside of shell 1 according to the status signal received, i.e., in shown in Fig. 9
When state, can to driving assembly 22 send control instruction, driving assembly 22 can according to the control instruction stop power output,
Or slow down or accelerate etc..
Wherein, due to the location of Hall magnet 214 when CCD camera assembly 21 is stretched out relative to shell 1, be different from and take the photograph
As the location of Hall magnet 214 when head assembly 21 is in relative to shell 1 to be retracted.So in disclosed technique scheme
Hall chip 215 may include the first Hall chip 2151 and the second Hall chip 2152, first Hall chip 2151 and
Two Hall chips 2152 can interact with Hall magnet 214, and the first Hall chip 2151 and 214 phase of Hall magnet
The status signal that generates when interaction is different from the shape generated when the second Hall chip 2142 interacts with Hall magnet 213
State signal, in order to electronic equipment determine current CCD camera assembly 21 relative to shell 1 be in stretching state or when retract shape
State.
For example, the status signal generated when the first Hall chip 2151 interacts with Hall magnet 214 can have
The indication signal for having mark " 0 ", the second Hall chip 2142 to generate when interacting with Hall magnet 214 can have mark
"1".So, electronic equipment can determine that current CCD camera assembly 21 is in stretching state and still contracts according to the mark recognized
The state of returning.
In another embodiment, as shown in figure 8, can also be limited by Mechanical Contact the translation of CCD camera assembly 21
Position.Specifically, camera module 2 can also include the bit-stopping structure 24 fixed relative to shell 1, when the bit-stopping structure 24 with
When CCD camera assembly 21, CCD camera assembly 21 can be prevented to continue to move to by the bit-stopping structure 24.
In the present embodiment, as shown in figure 8, CCD camera assembly 21 can move downwards from top shown in fig. 8, such as
Shown in Fig. 9, CCD camera assembly 21 can be moved upward from lower section shown in Fig. 9.So technical side's scheme of the disclosure
In, bit-stopping structure 24 may include the first bit-stopping structure 241 and the second bit-stopping structure 242, wherein the first bit-stopping structure 241 can
To be limited when from top to bottom (i.e. first direction) moves from Fig. 8 in CCD camera assembly 21, the second bit-stopping structure 242 can be with
It is limited when (i.e. second direction) moves from the bottom to top from Fig. 9 in CCD camera assembly 21.
Specifically, the first bit-stopping structure 241 can be fixed relative to shell 1, when CCD camera assembly 21 is in driving assembly
It is displaced downwardly to when being contacted with the first bit-stopping structure 241, that is, is thought in storage to the shell 1 completely of CCD camera assembly 21 under the action of 22
Portion limits it by the first bit-stopping structure 241 and continues to move down.As shown in figure 8, first bit-stopping structure 241 can be directly
It connects and is fixed on shell 1 or is also possible to that the driving branch being fixedly connected included by driving assembly 22 with shell 1 is arranged in
On frame, the disclosure is limited not to this.
Second bit-stopping structure 242 can be fixed relative to shell 1, when CCD camera assembly 21 is under the action of driving assembly 22
When moving up as the contact of the second bit-stopping structure 242, that is, think fully extended 1 end face of shell of camera lens in CCD camera assembly 21, it can
It is continued to move up with limiting it by the second bit-stopping structure 242.Wherein, which can be direct fixation
On shell 1 or it is also possible to be fixed on other fixation brackets.
Further, due to bit-stopping structure 24 need with move in CCD camera assembly 21 contacted, thus the two it
Between the certain active force that will necessarily generate.So in order to reduce the active force between bit-stopping structure 24 and CCD camera assembly 21,
Protect bit-stopping structure 24 and CCD camera assembly 21.Bit-stopping structure 24 in the disclosure can also include that cushion (does not show in figure
Out), which can contact with CCD camera assembly 21, for the active force between buffering limiting structure and camera, reduce
Collision extends the service life of CCD camera assembly 21 and bit-stopping structure 24.
It in another embodiment, both can be by having switched movement of the working condition of driving assembly 22 to CCD camera assembly 21
Limited, again can movement by the Mechanical Contact between bit-stopping structure 24 and CCD camera assembly 21 to CCD camera assembly 21
It is limited.Based on this, after 22 switch operating state of driving assembly, since effect of inertia causes stroke push rod 222 to continue to make
When for CCD camera assembly 21, CCD camera assembly 21 can be prevented to continue towards shell 1 by the position-limiting action of bit-stopping structure 24
Outside or towards 1 medial movement of shell.
In above-mentioned each embodiment, as shown in figure 8, camera group in Fig. 8 can be limited by the second bit-stopping structure 242
The movement of part 21 from the bottom to top, as shown in figure 9, the movement in Fig. 9 from top to bottom can be limited by the first bit-stopping structure 241.
In other words, in disclosed technique scheme, camera shooting can be limited by the first bit-stopping structure 241 and the second bit-stopping structure 242
The maximum slide displacement S1 of head assembly 21.Also that is, CCD camera assembly 21 can be relative to shell 1 in first position (the first stop bit
The location of structure 241) and the second position (second bit-stopping structure, 242 location) between move back and forth, this first
The maximum slide displacement S1 for setting the i.e. CCD camera assembly 21 of stroke between the second position is less than the default row of screw structure 2211
Journey S2.
Wherein, preset strokes S2 can show themselves in that the mobile position of stroke push rod 222 included by screw structure 2211
It moves, and the preset strokes are related to driving signal received by drive motor 2212.Preset strokes and 2212 institute of drive motor
The driving signal that receives it is related it is to be understood that the controller of electronic equipment can be sent to driving assembly 22 it is preset several
A driving signal, driving assembly 22 can drive power output shaft to rotate corresponding revolution according to several driving signals.Its
In, when driving signal quantity determines, the revolution of power output shaft is determined, according between screw structure 2211 and power output shaft
Drive connection, the moving displacement of confirmable stroke push rod 222 is to get to determining preset strokes.
In the present embodiment, the preset strokes of screw structure 2211 are greater than CCD camera assembly 21 in first position and second
On the one hand stroke between setting may insure that under the driving of driving assembly 22, CCD camera assembly 21 can slide into first
It sets or the second position, it on the other hand can be stuck to avoid driving assembly 22.Specifically, the row between first position and the second position
Journey, and the difference of preset strokes can be limited by bit-stopping structure 24 in 0.2-0.5mm to avoid in CCD camera assembly 21
In the case where, driving main body 222 continues output power, results in waste of resources, and be easily damaged driving main body.
Those skilled in the art will readily occur to its of the disclosure after considering specification and practicing disclosure disclosed herein
Its embodiment.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or
Person's adaptive change follows the general principles of this disclosure and including the undocumented common knowledge in the art of the disclosure
Or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are by following
Claim is pointed out.
It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.
Claims (10)
1. a kind of electronic equipment characterized by comprising
Shell, the shell include the first guide part extended outward to form from the surface of the shell;
Camera module, the camera module is located in the shell, including driving assembly and CCD camera assembly, the camera shooting
Head assembly includes the second guide part with first guide part cooperation, and the driving component and the CCD camera assembly cooperate,
To drive the CCD camera assembly to move back and forth under the cooperation guiding of first guide part and second guide part.
2. electronic equipment according to claim 1, which is characterized in that the CCD camera assembly includes camera body and use
In the camera bracket of the fixation camera body, second guide part is located on the camera bracket.
3. electronic equipment according to claim 1, which is characterized in that in first guide part and second guide part
A side include sliding slot, another party include guide rail with sliding slot cooperation.
4. electronic equipment according to claim 3, which is characterized in that first guide part includes sliding slot, and described second
Guide part includes guide rail;Wherein, the shell include bottom plate, the limiting section that is extended outward to form from the bottom plate, the limit
Portion and the bottom plate cooperatively form the sliding slot.
5. electronic equipment according to claim 3, which is characterized in that the electronic equipment further includes lubrication part, the profit
Saddle is set in the sliding slot, to reduce the frictional force generated when the guide rail sliding slot relatively slides.
6. electronic equipment according to claim 3, which is characterized in that the sliding slot and the guide clearance cooperate.
7. electronic equipment according to claim 3, which is characterized in that the sliding slot is arc-shaped or rectangular.
8. electronic equipment according to claim 1, which is characterized in that formed between the CCD camera assembly and the shell
One group of first guide part matched and the second guide part;Alternatively,
It includes multiple first guide parts that the CCD camera assembly, which includes multiple second guide parts, the shell, described
At least two first guide parts in multiple first guide parts cooperate with corresponding second guide part, are matched with to form multiple groups
First guide part and the second guide part.
9. electronic equipment according to claim 1, which is characterized in that the camera module further include:
Elastic element, the CCD camera assembly is fixed in one end of the elastic element, the other end is fixed on the driving component,
For transmitting the active force between the driving component and the CCD camera assembly.
10. electronic equipment according to claim 1, which is characterized in that the electronic equipment further include:
Bit-stopping structure, the bit-stopping structure are fixed on the shell, will be described for being contacted with the CCD camera assembly
CCD camera assembly is limited in the final position of reciprocating motion.
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CN201822093896.9U CN209057291U (en) | 2018-12-13 | 2018-12-13 | Electronic equipment |
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CN201822093896.9U CN209057291U (en) | 2018-12-13 | 2018-12-13 | Electronic equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111182187A (en) * | 2020-01-09 | 2020-05-19 | 深圳传音控股股份有限公司 | Camera module lifting device and mobile terminal |
WO2021127927A1 (en) * | 2019-12-23 | 2021-07-01 | 瑞声声学科技(深圳)有限公司 | Photographing apparatus, method for controlling movement of photographing apparatus, and electronic device |
-
2018
- 2018-12-13 CN CN201822093896.9U patent/CN209057291U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021127927A1 (en) * | 2019-12-23 | 2021-07-01 | 瑞声声学科技(深圳)有限公司 | Photographing apparatus, method for controlling movement of photographing apparatus, and electronic device |
CN111182187A (en) * | 2020-01-09 | 2020-05-19 | 深圳传音控股股份有限公司 | Camera module lifting device and mobile terminal |
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