CN208581283U - Periscopic camera module and its array camera module and electronic equipment - Google Patents
Periscopic camera module and its array camera module and electronic equipment Download PDFInfo
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- CN208581283U CN208581283U CN201820809255.6U CN201820809255U CN208581283U CN 208581283 U CN208581283 U CN 208581283U CN 201820809255 U CN201820809255 U CN 201820809255U CN 208581283 U CN208581283 U CN 208581283U
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- smooth transfer
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Abstract
One periscopic camera module and its array camera module and electronic equipment, wherein, the periscopic camera module includes a smooth transfer, and the smooth transfer is for bending imaging ray, wherein, the smooth transfer has an incidence surface and a light-emitting surface;One die set, wherein the die set is coaxially disposed with the smooth transfer, and corresponds to the light-emitting surface of the smooth transfer, and the smooth transfer is coaxially connected with the die set;And a connection component, the connection component include an at least connection tongue, an at least connection tongue integrally extends an at least side for the die set, wherein an at least connection tongue is engaged in an at least side for the smooth transfer.To promote the fastening strength between the light transfer of the periscopic camera module and the die set.
Description
Technical field
The utility model relates to a kind of camera module fields more particularly to a periscopic array camera module and electronics to set
It is standby.
Background technique
With advances in technology and expanding economy, people require to get over Gao Yue for the camera function of portable electronic device
Height, such as tablet computer, video camera, smart phone etc..Under this trend, array camera module comes into being.As its name suggests, battle array
Column camera module includes two or more camera modules, compared to traditional single photography/videography mould group, by two or more
The function of many characteristics may be implemented in cooperation between camera module, for example, the camera module by two kinds of different focal lengths is realized
The effect of " optical zoom ".
Periscopic array camera module is usually to be composed of periscopic camera module and vertical type camera module.It is latent to hope
Formula camera module is by the way that in such a way that vertical type mould group front end adds prism, the light for being incident on camera module end vertically is carried out
Reflection, therefore can be changed into horizontal light for vertical light and be incident on inside camera module, so as to by telephoto lens
Mould group traverse reduces mould group height.
Traditionally the connection type between the prism and lens motor of periscopic camera module is implemented by two steps, and one
It is that glue is applied between prism and lens motor to bond the prism and lens motor;Second is that respectively in the prism and
Additionally place two metal weldments in the outside of lens motor, wherein one end of each metal weldment is connected to the camera lens horse
It reaches, the other end is connected to the prism, by welding to metal weldment, so that the prism and the lens motor be passed through
The metal weldment is fixedly connected.
Connection type between the prism and lens motor of traditional periscopic camera module mainly has there are many drawbacks
The following aspects:
Between prism and lens motor during applying glue, glue is be easy to cause to enter the prism and lens motor
Between, to be adhered to the surface of prism, perhaps this light that will will cause prism or camera lens of the surface of camera lens is propagated, and is influenced
The image quality of entire periscopic camera module.In addition, glue during fixed prism and lens motor, needs heated baking
The lens motor and the photosensory assembly could be fixed together, during heated baking, performance again good glue by
A degree of deformation, expansion can also occur for heat, this will affect the stability of periscopic camera module and all parts optical axis one
Cause property, influences imaging performance.
Additional increased metal weldment needs are closely attached on the side of prism and lens motor, are reinforced to reach
Effect, need two metal weldments accordingly (preferably symmetrically) being attached to lens motor and prism side, this undoubtedly increases
The difficulty of operation and processing step is increased, reduces the efficiency of production periscopic camera module.In addition, in metal welding process
In, since metal weldment is movably, to be easy to cause metal weldment mobile, Ke Nengying relative to prism and lens motor
The stability and all parts light axis consistency for ringing periscopic camera module, influence imaging performance.
Additional increased metal weldment after welding, is maintained at the outside of the prism and lens motor, this undoubtedly will
It will increase entire prism or lens motor size, be unfavorable for reducing the size of prism and lens motor;In addition, this welding side
The fastening strength of formula be also it is inadequate, be easy to cause entire periscopic camera module product bad.
In addition, the connection type of this prism, lens motor, structural detail is more, increases processing step, fastening strength is not
Foot, these are all unfavorable for the image quality and product yield that promote entire periscopic camera module.
On the other hand, connected between the traditional lens motor of periscopic camera module and the support of photosensory assembly by glue
It connects, glue needs heated baking could be by the lens motor and the sense during fixed lens motor and photosensory assembly
Optical assembly is fixed together, and during heated baking, good glue is heated again that a degree of deformation, swollen can also occur for performance
Swollen, this will affect the stability of periscopic camera module and all parts light axis consistency, influence imaging performance.
Utility model content
One of the utility model is designed to provide a periscopic camera module and its array camera module and its manufacture
Method and electronic equipment, wherein pass through a connection between the smooth transfer of the one of the periscopic camera module and a driving device
Component is fixedly connected, and has higher fastening strength.
Another of the utility model is designed to provide a periscopic camera module and its array camera module and its system
Make method and electronic equipment, wherein the driving part and the connection component have integral structure, reduce described in manufacture
The processing step of periscopic camera module, improves production efficiency.
Another of the utility model is designed to provide a periscopic camera module and its array camera module and its system
Make method and electronic equipment, wherein between the driving part and the photosensory assembly by laser welding reduce glue by
Heat occurs a degree of deformation, expands to imaging bring adverse effect.
Another of the utility model is designed to provide a periscopic camera module and its array camera module and its system
Make method and electronic equipment, wherein the connection component includes at least a connection tongue and at least a positioning groove, wherein the company
The two at least sides that tongue respectively integrally extends the drive shell are connect, the locating slot is respectively formed in the light and turns
To a two at least sides of a support arm of component, it is set to the locating slot for the connection tongue, by laser welding by institute
It states light transfer and the driving part reinforces connection, facilitate the product yield for promoting entire periscopic camera module.
Another of the utility model is designed to provide a periscopic camera module and its array camera module and electronics
Equipment, wherein the connection component includes at least a connection tongue and at least a positioning groove, wherein the connection tongue respectively one
A two at least sides of a support arm of the smooth steering assembly are extended to body, the locating slot is respectively formed in the driving
At least side of the two of shell, is set to the locating slot for the connection tongue, by laser welding by the smooth transfer
It reinforces and connects with the driving part, facilitate the product yield for promoting entire periscopic camera module.
Another of the utility model is designed to provide a periscopic camera module and its array camera module and its system
Make method and electronic equipment, wherein the connection component include at least a connection tongue and at least a positioning groove, the connection tongue with
Cooperation between the locating slot can guarantee the driving part and the coaxial setting of the smooth transfer, be conducive to laser
Weld and keep the light axis consistency of each component.
Another of the utility model is designed to provide a periscopic camera module and its array camera module and its system
Make method and electronic equipment, wherein the connection group tongue is symmetricly set on a two at least sides of drive shell, improves latent
The stability and all parts light axis consistency of prestige formula camera module.
In order to reach the above at least purpose, the utility model provides a periscopic camera module, comprising:
One smooth transfer, the smooth transfer is for bending imaging ray, wherein the smooth transfer
With an incidence surface and a light-emitting surface;
One die set, wherein the die set is coaxially disposed with the smooth transfer, and corresponds to the light
The light-emitting surface of transfer, the smooth transfer are coaxially connected with the die set;And
One connection component, the connection component include an at least connection tongue, and an at least connection tongue integrally extends
At least side of the one of the die set, wherein an at least connection tongue is engaged in the one of the smooth transfer at least
One side.
In an embodiment of the utility model, described at least the one of an at least connection tongue and the smooth transfer
Side is fixed by welding.
In an embodiment of the utility model, the connection component further comprises at least a positioning groove, it is described at least
A positioning groove is hollowly formed in an at least side for the smooth transfer, an at least connection tongue be engaged in it is described extremely
Few a positioning groove is so that the die set is coaxially connected with the smooth transfer.
In an embodiment of the utility model, the locating slot of an at least connection tongue and the smooth transfer
It is fixed by welding.
In an embodiment of the utility model, the die set includes an optical lens, a driving part and a sense
Optical assembly, the optical lens are held in the photosensitive path of the photosensory assembly, and the optical lens is arranged at the driving
Component, the smooth transfer and the driving part are coaxially disposed, wherein the connection tongue integrally extends the drive
An at least side for dynamic component.
In an embodiment of the utility model, the smooth transfer includes a smooth steering unit and a pedestal, described
Light steering unit is installed in the pedestal, and is held in the optical axis of the optical lens, the pedestal include an inner support and
One support arm, the smooth steering unit are installed on the inner support, and the inner support and the smooth steering unit are installed in institute
State support arm, wherein described at least a positioning groove is hollowly formed in an at least side for the support arm.
In an embodiment of the utility model, the quantity of the connection tongue is 2, and the quantity of the locating slot is 2.
In an embodiment of the utility model, two connection tongues respectively integrally extend the driving part
Two sides, two locating slots are respectively depressed in a two at least sides of the support arm.
In an embodiment of the utility model, the distance between two described connection tongues size be equal to two locating slots it
Between apart from size.
In an embodiment of the utility model, a connection tongue and a locating slot are respectively formed in the driving
The both sides of shell, another connection tongue and another locating slot are respectively formed in the both sides of the smooth transfer.
In an embodiment of the utility model, the mode of welding is laser welding.
In an embodiment of the utility model, the connection component further comprises at least a connection piece, it is described at least
A connection piece integrally extends an at least side of the driving part adjacent to photosensory assembly, wherein described at least one connects
Fitting is engaged in an at least side for the photosensory assembly so that the photosensory assembly and the driving part coaxially phase
Connection.
In an embodiment of the utility model, at least side of described at least a connection piece and the photosensory assembly
Portion is fixed by welding.
In order to reach the above at least purpose, the utility model additionally provides a periscopic camera module, comprising:
One smooth transfer, the smooth transfer is for bending imaging ray, wherein the smooth transfer
With an incidence surface and a light-emitting surface;
One die set, wherein the die set is coaxially disposed with the smooth transfer, and corresponds to the light
The light-emitting surface of transfer, the die set are coaxially connected with the smooth transfer;And
One connection component, the connection component include an at least connection tongue, and an at least connection tongue integrally extends
An at least side for the smooth transfer, wherein an at least connection tongue is arranged for being engaged in the die set
An at least side.
In an embodiment of the utility model, at least side of an at least connection tongue and the die set
Portion is fixed by welding.
In an embodiment of the utility model, the connection component further comprises at least a positioning groove, it is described at least
A positioning groove is hollowly formed in an at least side for the die set, and an at least connection tongue is arranged to be engaged in
Described at least a positioning groove is so that the die set is coaxially connected with the smooth transfer.
In an embodiment of the utility model, an at least connection tongue and described at least a positioning groove by weld into
Row is fixed.
In an embodiment of the utility model, the die set includes an optical lens, a driving part and a sense
Optical assembly, the optical lens are held in the photosensitive path of the photosensory assembly, and the optical lens is arranged at the driving
Component, the smooth transfer and the driving part are coaxially disposed, wherein described at least a positioning groove is hollowly formed in
An at least side for the driving part.
In an embodiment of the utility model, the quantity of the connection tongue is 2, and the quantity of the locating slot is 2.
In an embodiment of the utility model, two connection tongues respectively integrally extend the driving part
Both sides, two two locating slots are respectively formed in the both sides of the smooth transfer.
In an embodiment of the utility model, the distance between two described connection tongues size be equal to two locating slots it
Between apart from size.
In an embodiment of the utility model, the mode of welding is laser welding.
In an embodiment of the utility model, the connection component further comprises at least a connection piece, it is described at least
A connection piece integrally extends at least side that the driving part closes on photosensory assembly, wherein described at least one connects
Fitting is arranged for being engaged in an at least side for the photosensory assembly so that the photosensory assembly is in the driving part
Coaxially it is connected.
In an embodiment of the utility model, at least side of described at least a connection piece and the photosensory assembly
Portion is fixed by welding.
In order to reach the above at least purpose, the utility model additionally provides an array camera module, comprising:
One vertical type camera module;With
One periscopic camera module;Wherein, the vertical type camera module and the periscopic camera module are according to default
Mode assembling.
In an embodiment of the utility model, the vertical type camera module is located at the institute of the periscopic camera module
State the side of light transfer.
In an embodiment of the utility model, the vertical type camera module is located at the institute of the periscopic camera module
State the side of photosensory assembly.
In order to reach the above at least purpose, the utility model additionally provides an electronic equipment, including
One electronic equipment ontology;With
An array camera module, wherein the array camera module is assembled in the electronic equipment ontology.
In an embodiment of the utility model, before the array camera module is assembled in the one of the electronic equipment ontology
Side, to be configured as the preposition camera module of the electronic equipment.
In an embodiment of the utility model, after the array camera module is assembled in the one of the electronic equipment ontology
Side, to be configured as the postposition camera module of the electronic equipment.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of a periscopic camera module of the first preferred embodiment according to the present utility model.
Fig. 2 is illustrated according to the optical path of the periscopic camera module of the above-mentioned preferred embodiment of utility model
Figure.
Fig. 3 is a smooth transfer of the periscopic camera module of above-described embodiment according to the present utility model
Structural schematic diagram.
Fig. 4 is the structure of a driving part of the periscopic camera module of above-described embodiment according to the present utility model
Schematic diagram.
Fig. 5 is that the smooth transfer of above-described embodiment according to the present utility model and the fixed of the driving part connect
The structural schematic diagram connect.
Fig. 6 is the smooth transfer of first variant embodiment of above-described embodiment according to the present utility model and described
The structural schematic diagram of driving part being fixedly connected.
Fig. 7 is the smooth transfer of second variant embodiment of above-described embodiment according to the present utility model and described
The structural schematic diagram of driving part being fixedly connected.
Fig. 8 is the smooth transfer of the third variant embodiment of above-described embodiment according to the present utility model and described
The structural schematic diagram of driving part being fixedly connected.
Fig. 9 is the smooth transfer of the 4th variant embodiment of above-described embodiment according to the present utility model and described
The structural schematic diagram of driving part being fixedly connected.
Figure 10 is the driving part and a sense for second preferred embodiment of above-described embodiment according to the present utility model
The structural schematic diagram of optical assembly being fixedly connected.
Figure 11 is that the periscopic camera shooting mould of above-described embodiment according to the present utility model is applied to array camera module
Structural schematic diagram.
Figure 12 is that the periscopic camera shooting mould of another variant embodiment of above-described embodiment according to the present utility model is answered
Structural schematic diagram for array camera module.
Figure 13 is that the manufacturing method process of the periscopic camera module of above-described embodiment according to the present utility model is shown
It is intended to.
Figure 14 is another manufacturing method stream of the periscopic camera module of above-described embodiment according to the present utility model
Journey schematic diagram.
Figure 15 is that the periscopic camera module of above-described embodiment according to the present utility model is applied to electronic equipment
Structural schematic diagram.
Figure 16 is that the periscopic camera module of above-described embodiment according to the present utility model is applied to electronic equipment
Structural schematic diagram.
Specific embodiment
It is described below for disclosing the utility model so that those skilled in the art can be realized the utility model.It retouches below
Preferred embodiment in stating is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It is retouched following
The basic principle of the utility model defined in stating can be applied to other embodiments, deformation scheme, improvement project, etc. Tongfangs
The other technologies scheme of case and the spirit and scope without departing from the utility model.
It will be understood by those skilled in the art that in the exposure of the utility model, term " longitudinal direction ", " transverse direction ", "upper",
The orientation or position of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside"
Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, and
It is not that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore
Above-mentioned term should not be understood as limiting the present invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity.In addition, in the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two
It is a or more than two.
It is used for description purposes only in the description of the present invention, it should be understood that belonging to " first ", " second " etc.,
And it should not be understood as indicating or implying relative importance.In the description of the utility model, it should be noted that unless otherwise bright
True regulation and restriction, belongs to " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, is also possible to removable
It unloads connection or is integrally connected;It can be mechanical connection, be also possible to be electrically connected;It can be and be directly connected to, be also possible to lead to
Medium is crossed to link indirectly.For the ordinary skill in the art, above-mentioned term can be understood at this as the case may be
Concrete meaning in utility model.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example
Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term
It states and is necessarily directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be with
It can be combined in any suitable manner in any one or more of the embodiments or examples.In addition, without conflicting with each other, this field
Technical staff can by the feature of different embodiments or examples described in this specification and different embodiments or examples into
Row combination and combination.
As shown in Figure 1, the periscopic camera module according to one first preferred embodiment of utility model is elucidated with, wherein
The periscopic camera module 1 includes a smooth transfer 10 and a die set 20.The smooth transfer 10 is maintained at institute
The photosensitive path of die set 20 is stated, so that the light for being incident on periscopic camera module 1 vertically is reflected, therefore can be with
Vertical light is changed into the photosensory assembly 21 that horizontal light is incident on die set 20.
The smooth transfer 10 includes a smooth steering unit 11 and a pedestal 12.The smooth steering unit 11 is installed in
The pedestal 12.The smooth steering unit 11 is used for the transformation of radiation direction, particularly, in this embodiment of the utility model
In, the smooth steering unit 11 makes light realize that 90 degree of direction changes.The smooth steering unit 11 includes two right-angle surfaces 111
With an inclined-plane 112, in angle of 45 degrees with 112 shape of inclined-plane, two right-angle surfaces 111 are an incidence surface to two right-angle surface 111
1111 and a reflective surface 1112, wherein the die set 20 corresponds to the reflective surface 1112 of the smooth transfer 10.Citing
It ground but is not limited to, the smooth steering unit 11 may be implemented as a plane mirror or a prism.Particularly, in the utility model
In this embodiment, the smooth steering unit 11 is implemented as a prism, and particularly, the prism is a total reflection prism.That is,
The prism includes two right-angle surfaces 111 and an inclined-plane 112, and the inclined-plane and the two right-angle surfaces angle are 45
Degree.
It is noted that plane mirror and prism can optically realize optical steering purpose, but due to reality
There are film layer and predetermined thick bottom on the plane mirror on border, so that light is reflected when reflecting and turning to, and refraction number is more,
And prism passes through the 45 degree of design features of itself, so that light is after refraction by prism in 90 jiaos of outgoing, the refraction number of generation
Less, reflection efficiency is higher, and in an assembling process, and the angle of plane mirror needs are preset, it is more difficult to install, therefore from excellent
It selects for the mode implemented, is more suitable for choosing prism as light steering unit 11.But it is not intended to be limited to prism, the skill of this field
Art personnel it should be understood that the smooth steering structure specific embodiment, be not the limitation of the utility model.This is practical
It is novel can be suitably by the way that light be changed an angle of 90 degrees by way of reflecting and/or reflecting.
The pedestal 12 includes an inner support 121 and a support arm 122.The smooth steering unit 11 is installed in described
Bracket 121, and the reflective surface 1112 that the light is turned to is vertical with the optical axis of the die set 20, the light turns to single
The inclined-plane 112 of member 11 is fixed against the inner support 121.The inner support 121 is installed in the smooth steering unit 11
The support arm 122, to form the smooth steering assembly 10, in order to by the smooth steering assembly 10 and the die set
20 are assembled.That is, the support arm 122 is that the smooth steering assembly 10 and the inner support 121 provide an assembling
Base plane arranges that the smooth steering unit 11 at a predetermined angle, and it is convenient entirely with the die set 20 into
Row assembling.
Further, the smooth steering assembly 10 includes a rotating unit 13, for rotating the smooth steering unit 11.It is described
Rotating unit 13 is installed in the support arm 122, and is rotationally connected with the inner support 121, in order to pass through rotation institute
It states inner support 121 and rotates the prism.
It is noted that prism is fixedly installed in integral support in traditional mode, tune not can be carried out
Section, therefore the optical anti-vibration of mould group can only be realized by 21 part of camera lens, and this implementation according to the present utility model
Example, the smooth steering unit 11 are adjustably assembled with the die set 20.
Further, the smooth transfer 10 includes an electrical connecting element, for being electrically connected to the die set 20.Institute
It states electrical connecting element and is electrically connected the rotating unit 13 and the die set 20, driven in order to be obtained from the die set 20
Dynamic kinetic energy.That is, when the die set 20 needs to carry out optical anti-vibration electricity can be obtained from the die set 20
Can, the rotating unit 13 is driven, the smooth steering unit 11 is driven by the rotating unit 13.Particularly, the rotation
Unit 13 adjusts the optical anti-vibration that the smooth steering unit 11 realizes different directions with axial rotating manner.Such as along the mould group
The axial rotation of optical axis 20 or the optical anti-vibration for realizing both direction to rotation along 10 incident light axis of light transfer.
As shown in Figures 1 to 4, the die set 20 includes an optical lens 21, a driving part 22 and one photosensitive group
Part 23, wherein the optical lens 21 is held in the photosensitive path of the photosensory assembly 23, and the optical lens 21 is set to institute
Driving part 22 is stated, the driving part 22 can drive the optical lens 21 mobile relative to the photosensory assembly 23, institute
It states driving part 23 and is installed in the photosensory assembly 21, so that the optical lens 22 is located at the sense of the photosensory assembly 21
Light path.
In the preferred embodiment of the utility model, it is preferable that the optical axis and the light of the optical lens 21 turn to
The inclined-plane 112 of mechanism 11 is in 45 degree of angles, and the optical lens 21 may be implemented as a telephoto lens 21, a standard mirror
First 21 or a wide-angle lens 21.
The photosensory assembly 23 includes a sensitive chip 231, a wiring board 232, a filter element 233 and a support 234.
The sensitive chip 231 is electrically connected to the wiring board 232, and the support 234 is installed in the wiring board 232, the filter
Optical element 233 is installed in the support 234.The driving part 23 is installed on the support 234, in order to the light
It learns camera lens 21 to be located on the photosensitive path of the sensitive chip 231, and the optics can be adjusted by the driving part 22
Camera lens 21.The driving part 22 is electrically connected to the wiring board 232, in order to obtain work energy from the wiring board 232.
This embodiment according to the present utility model, the sensitive chip 231 are attached at the wiring board 232, and electricity
It is connected to the wiring board 232.Citing ground, the sensitive chip 231 may be implemented as CCD or CMOS sensitive chip.Especially
Ground, in one embodiment, the sensitive chip 231 are attached at the wiring board 232, and are electrically connected to institute by gold thread
State wiring board 232.The filter element 233 may be implemented as a cutoff filter IRCF, the filter of wafer scale infrared cutoff
Mating plate, smalt optical filter etc..
The driving part 22 includes a driving element 221 and a driving carrier 222, wherein the driving element 221 is pacified
Loaded on the driving carrier 222, the optical lens 21 and the driving carrier 222 have integral structure, the driving member
Part 221 can drive the optical lens 21 mobile relative to the photosensory assembly 23.The driving carrier 222 has a receiving
Slot 2221, wherein the optical lens 21 is installed on the container 2221 of the driving carrier, further, the light
It learns camera lens 21 and is horizontally placed on implemented container 2221.In the present invention, citing ground but be not limited to, the driving part 22 can
To be implemented as voice coil motor or piezo-electric motor.
Further, the driving part 22 includes a driver circuit plate 223 and a drive shell 224, wherein the drive
Dynamic load body 222 is installed on the driver circuit plate 223, and the driving element 221 is electrically connected to the driver circuit plate 223, institute
It states driver circuit plate 223 and is installed on the drive shell 224, the drive shell 224 is installed on the institute of the photosensory assembly 23
Support 234 is stated, so that the optical lens 21 for being installed on driving carrier 222 is held in the photosensitive road of the photosensory assembly 23
Diameter.
Further, the drive shell 224 has an accommodating chamber 2241, wherein the accommodating chamber 2241 is formed in institute
The inside of drive shell 224 is stated, the driver circuit plate 223 is installed on the accommodating chamber 2241 of the drive shell 224, institute
The inside that accommodating chamber 2241 runs through the drive shell 224 is stated, passes through institute will pass through the light of the smooth transfer 10
The accommodating chamber 2241 for stating drive shell 224 reaches the photosensory assembly 23.The optical lens 21 is horizontally placed on the driving
The container 2221 of carrier 222, the driving carrier 222 is installed on the driver circuit plate 223, thus by the driving
Wiring board 223, the driving element 221, the driving carrier 222 and the optical lens 21 are assembled in the drive shell
The accommodating chamber 2241.
It is worth one to say, the accommodating chamber 2241 of the drive shell 224 corresponds to the institute of the photosensory assembly 23
The photosensitive region of sensitive chip 231 is stated, to guarantee that the optical lens 22 is being installed on the receiving by the carrier 222
Chamber 2241, the optical lens 22 are held in the photosensitive path of the sensitive chip 231.The drive shell 224 is connected to institute
Light transfer 10 is stated, is located on the optical axis of the optical lens 20 so as to the smooth transfer 10.
As shown in figure 5, being light transfer and the company of driving device of the periscopic camera module according to the utility model
Connect the elaboration of mode, wherein the periscopic camera module further comprises an at least connection component 30, wherein the connection
Component 30 includes an at least connection tongue 31, wherein at least one connection tongue 31 is located at the smooth transfer 10 and the drive
Between dynamic device 22, the smooth transfer 10 is fixedly connected with driving device 22 by way of laser welding, more specifically
Ground, at least one connection tongue 31 integrally extend an at least side for the die set 20, an at least connection tongue
31 are arranged for being engaged in an at least side for the smooth transfer 10 so that the smooth transfer 10 is in the mould
Group component 20 is coaxially connected, wherein at least side of an at least connection tongue 31 and the smooth transfer 10
Portion is fixed by welding.
Further, each connection tongue 31 integrally extends an at least side for the driving part 22, described
An at least connection tongue 31 is arranged for an at least side for engagement and the smooth transfer 10 so that the light turns
Coaxially it is connected to device 10 in the die set 20, wherein an at least connection tongue 31 and the smooth transfer
A 10 at least side is fixed by welding.Preferably, in the preferable implementation of the utility model, the light turns
It is less than the width dimensions of the driving part 22 to the width dimensions of device 10.
More specifically, each connection tongue integrally extends the drive shell 224 of the driving part 22, it is special
Not, each connection tongue 31 integrally extends the both sides of the drive shell 224 along transverse direction, for accordingly
The both sides of the support arm 122 of the pedestal 12 of the smooth transfer 10 are connected, and will be described by laser welding
At least a connection tongue 31 is fixedly connected with the pedestal 12.It is worth one saying, in the present invention, by each company
When connecing the outside for the support arm 122 that tongue 31 is connected to the pedestal 12 by laser welding, it is thus only necessary to each described
Laser welding between one end of connection tongue 31 and the support arm 122, and the other end of the connection tongue 31 and the driving shell
It is integrally formed between body 224, processing step can be reduced, and help to promote fastening strength.
It is worth one to say that the connection tongue 31 is arranged for be engaged in the smooth transfer 10 described at least one
Side, it is ensured that the smooth transfer 10 is coaxially connected with the die set 20, plays the positioning light and turns to
Position between device 10 and the die set 20.It is possible to further guarantee the smooth transfer 10 and the driving
Component 22 is coaxially connected, and plays the position positioned between the smooth transfer 10 and the driving part 22.In this reality
With in the novel preferred embodiment, the smooth transfer 10 be coaxially connected with the die set 20 can refer to it is described
The geometric center of light transfer 10 and the die set 20 is coaxial, is also possible to light transfer 10 and the die set
20 light shaft coaxle, those skilled in the relevant art should be appreciated that be not here the utility model limitation.
As shown in figure 5, in this embodiment of the utility model, it is preferable that the connection component 30 includes described in two
Connection tongue 31 respectively integrally extends two outsides of the drive shell 224, one end of each connection tongue 31 and institute
The integrated molding of drive shell 224 is stated, the other end is by being welded to connect in the outside of the support arm 122, thus by the driving
Shell 224 is fixedly connected with the support arm 12.Preferably, the distance between described two connection tongue 31 size is equal to the outer branch
Width dimensions between the both sides of frame 122, to guarantee that the support arm 122 of the smooth transfer 10 can be arranged in
Between two connection tongues 31, and the both sides of the support arm 122 respectively fit in two connection tongues 31.Thus by institute
It states and is fixedly connected between light transfer 10 and the driving part 22.
It is worth one to say, in the preferred embodiment of the utility model, in the smooth transfer 10 and the mould
Before being welded between group component 20, need to apply glue between the smooth transfer 10 and the die set 20,
Will be attached between the smooth transfer 10 and the die set 20.In addition, in the preferable reality of the utility model
It applies in example, it is preferable that the welding manner between the smooth transfer 10 and the die set 20 is implemented as laser welding.
As shown in fig. 6, being that the periscopic of the first variant embodiment of the above-mentioned preferred embodiment of the utility model is taken the photograph
As the elaboration of the connection type of the light transfer and driving device of mould group, wherein the connection component 30 further has extremely
Few a positioning groove 32, wherein described at least a positioning groove 32, which is recessed, is formed in at least side of the smooth transfer 10
Portion, an at least connection tongue 31 be arranged to be engaged in described at least a positioning groove 32 so that the die set 20 with
The smooth transfer 10 is coaxially connected, wherein an at least connection tongue 31 and described at least a positioning groove 32 pass through
Laser welding is fixed.
Further, each connection tongue 31 integrally extends an at least side for the driving part 22,
Each locating slot 32, which is recessed, is formed in an at least side for the smooth transfer 10.Wherein, described at least one connects
Connect tongue 31 be arranged for being engaged in described at least a positioning groove 32 of an at least side for the smooth transfer 10 with
So that the smooth transfer 10 is coaxially connected with the die set 20, wherein at least a connection tongue 31 and the institute
At least a positioning groove 32 is stated to be fixed by laser welding.To by the driving part 22 and the smooth transfer 10 it
Between fixed by laser welding.
More specifically, at least one locating slot 32 is respectively formed in the both sides of the support arm 122, wherein each
The locating slot 32 is recessed inwardly to be formed along an at least side described in the support arm 122, and each locating slot 32 is suitable
Correspond to a connection tongue 31 with ground, so that the connection tongue 31 can be accommodated in the locating slot 32.Preferably, Mei Yisuo
The depth dimensions for stating locating slot 32 are equal to the thickness of the correspondingly connection tongue 31, to guarantee by the connection tongue
31 pass through laser welding in the locating slot 32, and the locating slot 32 and the connection tongue 31 match, so that described outer
The both sides of bracket 122 are smooth, promote the precision that the smooth transfer 10 and the driving part 22 assemble.
Preferably, in the preferred embodiment of the utility model, the number of the connection tongue 31 may be implemented as two
A, the number of the locating slot 32 is two, wherein two connection tongue 31 respectively integrally extends the driving part
22 both sides, two locating slot 32 are respectively formed in the both sides of the smooth transfer 10, wherein two connection tongues
The distance between 31 sizes are equal to the distance between the locating slot 32 size, so that it is described to guarantee that the connection tongue 31 adapts to
Locating slot 32, and the driving part 22 and the smooth transfer 10 are positioned.
Those skilled in the relevant art should be appreciated that the number of the connection tongue 31 and the link slot 32 can also be it
His quantity, such as 1,3 or 4 etc..
It is worth one to say, in the preferred embodiment of the utility model, in the smooth transfer 10 and the mould
Before being welded between group component 20, need to apply glue between the smooth transfer 10 and the die set 20,
Will be attached between the smooth transfer 10 and the die set 20.In addition, in the preferable reality of the utility model
It applies in example, it is preferable that the welding manner between the smooth transfer 10 and the die set 20 is implemented as laser welding.
As shown in fig. 7, being the light steering dress of the periscopic camera module of second preferred embodiment of the utility model
Set the elaboration with the connection type of driving device, wherein an at least connection tongue 31 for the connection component 30 is integrally prolonged
Stretch in an at least side for the smooth transfer 10, wherein an at least connection tongue 31 is arranged for being engaged in
At least side of the die set 20 is so that the die set 20 and the smooth transfer 10 coaxially phase
Connection, wherein an at least side for an at least connection tongue 31 and the die set 20 is carried out by laser welding
It is fixed.Preferably, in the preferable implementation of the utility model, the width dimensions of the smooth rotary device 10 are greater than the driving portion
The width dimensions of part 22.
More specifically, an at least connection tongue 31 integrally extends the pedestal 12 of the smooth transfer 10
An at least side for the support arm 122, wherein an at least connection tongue 31 is arranged for being engaged in the driving part
At least side of the 22 driving shell 224 so that the drive shell 224 is coaxially connected with the support arm,
Wherein, an at least side for an at least connection tongue 31 and the drive shell 224 is fixed by laser welding.
To be fixedly connected between the smooth transfer 10 and the driving part 22 by laser welding.
It is worth one to say, in the present invention, each connection tongue 31 is being connected to institute by laser welding
When stating the both sides of drive shell, it is thus only necessary to swash between one end and the drive shell 224 of each connection tongue 31
Photocoagulation, and the both sides of the other end of the connection tongue 31 and the support arm 122 are integrally formed, and can reduce technique step
Suddenly, and help to promote fastening strength.
As shown in fig. 7, the connection component 30 includes two connection tongues in this embodiment of the utility model
31, respectively integrally extend the both sides of the support arm 122, one end of each connection tongue 31 and the support arm
122 are integrally formed, and the other end is connected to the outside of the drive shell 224 by laser welding, thus by the drive shell
224 are fixedly connected with the support arm 122.Preferably, the distance between described two connection tongue 31 size is equal to the driving shell
Width dimensions between the both sides of body 224, thus guarantee the drive shell 224 can be arranged in two connection tongues 31 it
Between, and the both sides of the drive shell 224 respectively fit in two connection tongues 31.Thus by the smooth transfer 10
It is fixedly connected between the driving part 22.
It is worth one to say, in the preferred embodiment of the utility model, in the smooth transfer 10 and the mould
Before being welded between group component 20, need to apply glue between the smooth transfer 10 and the die set 20,
Will be attached between the smooth transfer 10 and the die set 20.In addition, in the preferable reality of the utility model
It applies in example, it is preferable that the welding manner between the smooth transfer 10 and the die set 20 is implemented as laser welding.
As shown in figure 8, being that the periscopic of the first variant embodiment of second preferred embodiment of the utility model is taken the photograph
As the elaboration of the connection type of the light transfer and driving device of mould group, wherein described at least the one of the connection component 30
Locating slot 32, which is recessed, is formed in an at least side for the photosensory assembly 20, and an at least connection tongue 31 is arranged to
The described at least a positioning groove 32 of engagement so that the die set 20 is coaxially connected with the smooth transfer 10,
In, an at least connection tongue 31 and described at least a positioning groove 32 are fixed by laser welding.
Further, each connection tongue 31 integrally extends an at least side for the smooth transfer 10, often
One locating slot 32, which is recessed, is formed in an at least side for the driving part 22.Wherein, an at least connection tongue
Described at least a positioning groove 32 that the 31 at least sides for being arranged for engaging the driving part 22 are formed so that
The smooth transfer 10 is coaxially connected with the die set 20, wherein an at least connection tongue 31 and it is described extremely
Is fixed by laser welding to lead between the driving part 22 and the smooth transfer 10 in few a positioning groove 32
Laser welding is crossed to fix.
More specifically, at least one locating slot 32 is respectively formed in the both sides of the drive shell 224, wherein every
One locating slot 32 is recessed inwardly to be formed along an at least side described in the drive shell 224, each locating slot
32 adaptedly correspond to a connection tongue 31, so that the connection tongue 31 can be accommodated in the locating slot 32.Preferably, often
The depth dimensions of one locating slot 32 are equal to the thickness of the correspondingly connection tongue 31, to guarantee by the company
Tongue 31 is connect through laser welding in the locating slot 32, the locating slot 32 and the connection tongue 31 match, so that institute
The both sides for stating drive shell 224 are smooth, promote the flatness that the smooth transfer 10 and the driving part 22 assemble.
Preferably, in the preferred embodiment of the utility model, the number of the connection tongue 31 may be implemented as two
A, the number of the locating slot 32 is two, wherein two connection tongue 31 respectively integrally extends the light and turns to dress
10 both sides are set, two locating slot 32 is respectively formed in the both sides of the driving part 22, wherein two connection tongues
The distance between 31 sizes are equal to the distance between the locating slot 32 size, so that it is described to guarantee that the connection tongue 31 adapts to
Locating slot 32, and the driving part 22 and the smooth transfer 10 are positioned.
Those skilled in the relevant art should be appreciated that the number of the connection tongue 31 and the link slot 32 can also be it
His quantity, such as 1,3 or 4 etc..
It is worth one to say, in the preferred embodiment of the utility model, in the smooth transfer 10 and the mould
Before being welded between group component 20, need to apply glue between the smooth transfer 10 and the die set 20,
Will be attached between the smooth transfer 10 and the die set 20.In addition, in the preferable reality of the utility model
It applies in example, it is preferable that the welding manner between the smooth transfer 10 and the die set 20 is implemented as laser welding.
As shown in figure 9, being that the periscopic of the second variant embodiment of second preferred embodiment of the utility model is taken the photograph
As the elaboration of the connection type of the light transfer and driving device of mould group, wherein the connection tongue of the connection component 30
31 are implemented as 2, and the locating slot 32 is implemented as 2, wherein a connection tongue 31 and a locating slot 32 are distinguished
The both sides of the drive shell 22 are formed in, another connection tongue 31 and another locating slot 32 are respectively formed in described
The both sides of light transfer 10 turn to adapt to the light with the integrally formed connection tongue 31 of the driving part 22
There is the company of integral structure to the locating slot 32 of an at least side described in device 10 and the smooth transfer 10
The locating slot 32 for being engaged in the formation of an at least side described in the driving part 22 for 31 is connect, to pass through Laser Welding
It connects, will be welded at least one described in the smooth transfer 10 with the integrally formed connection tongue 31 of the driving part 22
The locating slot 32 that side is formed will be welded in the drive for 31 with the smooth integrally formed connection of transfer 10
The locating slot 32 that an at least side for dynamic component 22 is formed, thus by the smooth transfer 10 and the driving portion
It is fixed between part 22 by laser welding.
It is worth one to say, in the preferred embodiment of the utility model, in the smooth transfer 10 and the mould
Before being welded between group component 20, need to apply glue between the smooth transfer 10 and the die set 20,
Will be attached between the smooth transfer 10 and the die set 20.In addition, in the preferable reality of the utility model
It applies in example, it is preferable that the welding manner between the smooth transfer 10 and the die set 20 is implemented as laser welding.
As shown in Figure 10, be the utility model third preferred embodiment the periscopic camera module the driving
The elaboration of connection relationship between component and the photosensory assembly, wherein the driving part 22 is fixedly connected on described photosensitive
Component 23.More specifically, the connection component 30 includes an at least weldment 33, wherein each weldment 33 1
Extend to body at least side that the driving part 22 closes on photosensory assembly 22, wherein 33 quilt of an at least weldment
Setting is for being engaged in an at least side described in the photosensory assembly 23 so that the photosensory assembly 23 and the driving portion
Part 22 is coaxially connected, wherein an at least side for an at least weldment 33 and the photosensory assembly 23 passes through
Laser welding is fixed.
It is worth noting that, in second preferred embodiment of the utility model, other than above structure is different,
The periscopic of the other structures of the periscopic camera module and first preferred embodiment according to the present utility model
The structure of camera module is identical, and the periscopic camera module also has the latent prestige with first preferred embodiment
The similar or identical variant embodiment of the various modifications embodiment of formula camera module, details are not described herein.
As shown in figure 11, be the utility model preferred embodiment the periscopic camera module for array image mould
The elaboration of group, wherein the array camera module includes an array camera module 1 and a vertical type camera module 2, with logical
It crosses the vertical type camera module 2 and the periscopic camera module 1 is combined, there are different assembling layouts convenient for being formed
The periscopic light becomes mould group, and the periscopic light is made to become the function that mould group has " optical zoom ".
Although it is noted that in existing periscopic array mould group, by focal length camera module with the side of " accumbency "
Formula installation, so that the difference in height between focal length camera module and wide-angle imaging mould group is reduced, in order to the periscopic array mould group
Assembling, but with the increase to optical zoom multiplying power demand, which just needs to increase focal length, correspondingly should
The Lens of focal length camera module become larger, so that the height of the focal length camera module will also become larger, this is resulted in by accumbency
The height of the focal length camera module of installation still will be above the height of the wide-angle imaging mould group, therefore, existing on the market at present
Periscopic array mould group is all the optical zoom of 2 times or 3 times, is difficult to realize more powerful optical zoom.
However, in the array camera module 1 provided by the utility model, the vertical type camera module 2 it is equivalent
The equivalent focal length f2 less than the periscopic camera module 1, correspondingly, the vertical type camera module 2 is set in focal length f1
Field angle FOV1 is greater than the field angle FOV2 of the periscopic camera module 1.That is, in the present invention, as schemed institute
Show, the vertical type camera module 2 is configured as a wide-angle imaging mould group, and it is long that the periscopic camera module 1 is configured as one
Burnt camera module, the vertical type camera module 2 are preferably implemented as a wide-angle imaging mould group, the periscopic camera module
2 are preferably implemented as a focal length camera module, and the case where not increasing the overall dimensions of the periscopic array mould group 1
Under, the optical zoom multiplying power of the periscopic array mould group 1 can reach 2 times or more.Preferably, the periscopic array mould
The optical zoom multiplying power of group 1 is implemented as 5 times.
It is worth one to say, in utility model, the vertical type camera module 2 be can be set in close to the periscopic
The side of the smooth transfer 10 of camera module 1, to form the periscopic array camera module as shown in figure 11;Institute
It states vertical type camera module 10 also and can be set in the side of the sensitive chip close to the periscopic camera module 20, with
Form the periscopic array camera module as shown in figure 12.
Particularly, referring in the preferred embodiment of the utility model, as shown in figure 13, the utility model provides a latent prestige
The manufacturing method of formula camera module, comprising steps of
S10 provides a smooth transfer;
S20 provides a die set, wherein an at least connection tongue integrally extends at least the one of the die set
Side;
S30 engages an at least side for an at least connection tongue and the smooth transfer, so that the light turns to
The die set is installed on coaxially to be connected;
S40 applies glue between the smooth transfer and the die set, to be attached;And
S50 welds an at least side for an at least connection tongue and the smooth transfer to be fixed.
Wherein, in step s 30, comprising steps of
Engage at least a positioning groove that the connection tongue is formed in an at least side for the smooth steering assembly in recess.
Wherein, it after step S50, further comprises the steps of:
An at least weldment is engaged in an at least side for the photosensory assembly, wherein at least weldment one
Ground extends an at least side for a driving part;And
An at least side for an at least weldment and the photosensory assembly is welded to be fixed.It is worth one to say
It is that the mode of welding is laser welding.
Wherein, in step s 50, the mode of welding is laser welding.
Particularly, referring in the preferred embodiment of the utility model, as shown in figure 14, the utility model provides a latent prestige
The manufacturing method of formula camera module, comprising steps of
S100 provides a smooth transfer, wherein an at least connection tongue integrally extends the smooth transfer extremely
A few side;
S200 provides a die set;
S300 engages an at least side for an at least connection tongue and the die set, so that the light turns to
The die set is installed on coaxially to be connected;
S400 applies glue between the smooth transfer and the die set, to be attached;And
S500 welds an at least side for an at least connection tongue and the die set to be fixed.
Wherein, in step S300, comprising steps of
Engage at least a positioning groove that the connection tongue is formed in an at least side for the photosensory assembly in recess.
Wherein, it after step S500, further comprises the steps of:
An at least weldment is engaged in an at least side for the photosensory assembly, wherein at least weldment one
Ground extends an at least side for a driving part;And
An at least side for an at least weldment and the photosensory assembly is welded to be fixed.It is worth one to say
It is that the mode of welding is laser welding.
Wherein, in step S500, the mode of welding is laser welding.
As shown in figure 15, the utility model also provides an electronic equipment 40, and the electronic equipment 40 includes an electronic equipment
Ontology 41 and an array camera module 42.The array camera module 42 is assembled in the electronic equipment ontology 41, is the electricity
Sub- equipment 40 provides image collecting function., it will be appreciated that the array camera module 42 provided by the utility model has
It is double to take the photograph zoom function, so that the electronic equipment 42 has special imaging performance, improve the visual experience of user.
Particularly, in 40 specific embodiment of electronic equipment provided by the utility model, the array is taken the photograph
As mould group 42 can be assembled in the front side of the electronic equipment ontology 41, that is to say, that the array camera module 42 is the electricity
The preposition camera module of sub- equipment 40, as shown in figure 15.Alternatively, the array camera module 42 can be assembled in the electronic equipment
The rear side of ontology 41, that is to say, that the array camera module 42 is the postposition camera module of the electronic equipment 40, such as Figure 16
It is shown.Certainly, in the utility model other embodiments, can be assembled for the array camera module 42 is set in the electronics
The other positions of standby ontology 41, in this regard, not limited to by the utility model.
It should be understood by those skilled in the art that foregoing description and the embodiments of the present invention shown in the drawings are only used as
It illustrates and is not intended to limit the utility model.The purpose of this utility model completely and effectively realizes.The function of the utility model
Energy and structural principle show and illustrate in embodiment, under without departing from the principle, the embodiments of the present invention
Can there are any deformation or modification.
Claims (37)
1. a periscopic camera module characterized by comprising
One smooth transfer, the smooth transfer is for bending imaging ray, wherein the smooth transfer has
One incidence surface and a light-emitting surface;
One die set, wherein the die set is coaxially disposed with the smooth transfer, and is corresponded to the light and turned to
The light-emitting surface of device, the smooth transfer are coaxially connected with the die set;And
One connection component, the connection component include an at least connection tongue, and an at least connection tongue integrally extends described
An at least side for die set, wherein an at least connection tongue is engaged in an at least side for the smooth transfer.
2. periscopic camera module as described in claim 1, wherein an at least connection tongue and the smooth transfer
An at least side is fixed by welding.
3. periscopic camera module as described in claim 1, wherein the connection component further comprises at least one positioning
Slot, described at least a positioning groove are hollowly formed in an at least side for the smooth transfer, at least one connection
Tongue is engaged in described at least a positioning groove so that the die set is coaxially connected with the smooth transfer.
4. periscopic camera module as claimed in claim 3, wherein an at least connection tongue and the smooth transfer
The locating slot is fixed by welding.
5. periscopic camera module as claimed in claim 2, wherein the die set includes an optical lens, a driving
Component and a photosensory assembly, the optical lens are held in the photosensitive path of the photosensory assembly, and the optical lens is set
In the driving part, the smooth transfer and the driving part are coaxially disposed, wherein the connection tongue is integrally prolonged
Stretch in an at least side for the driving part.
6. periscopic camera module as claimed in claim 4, wherein the die set includes an optical lens, a driving
Component and a photosensory assembly, the optical lens are held in the photosensitive path of the photosensory assembly, and the optical lens is set
In the driving part, the smooth transfer and the driving part are coaxially disposed, wherein the connection tongue is integrally prolonged
Stretch in an at least side for the driving part.
7. periscopic camera module as claimed in claim 6, wherein the smooth transfer includes a smooth steering unit and one
Pedestal, the smooth steering unit is installed in the pedestal, and is held in the optical axis of the optical lens, and the pedestal includes one
Inner support and a support arm, the smooth steering unit are installed on the inner support, the inner support and the smooth steering unit quilt
It is installed on the support arm, wherein described at least a positioning groove is hollowly formed in an at least side for the support arm.
8. periscopic camera module as claimed in claim 7, wherein the quantity of the connection tongue is 2, the number of the locating slot
Amount is 2.
9. periscopic camera module as claimed in claim 8, wherein two connection tongues respectively integrally extend described
The both sides of driving part, two locating slots are respectively depressed in the both sides of the support arm.
10. periscopic camera module as claimed in claim 9, wherein the distance between two described connection tongues size is equal to two
The distance between locating slot size.
11. periscopic camera module as claimed in claim 8, wherein a connection tongue and a locating slot distinguish shape
The both sides of driving part described in Cheng Yu, another connection tongue and another locating slot are respectively formed in the light and turn to dress
The both sides set.
12. the periscopic camera module as described in any in claim 2 to 11, wherein the mode of welding is laser welding.
13. the periscopic camera module as described in any in claim 5 to 11, wherein the connection component further comprises
At least a connection piece, described at least a connection piece integrally extend the driving part adjacent to described in photosensory assembly at least one
Side, wherein described at least a connection piece is engaged in an at least side for the photosensory assembly so that the photosensory assembly
Coaxially it is connected with the driving part.
14. periscopic camera module as claimed in claim 13, wherein described at least a connection piece and the photosensory assembly
An at least side is fixed by welding.
15. a periscopic camera module characterized by comprising
One smooth transfer, the smooth transfer is for bending imaging ray, wherein the smooth transfer has
One incidence surface and a light-emitting surface;
One die set, wherein the die set is coaxially disposed with the smooth transfer, and is corresponded to the light and turned to
The light-emitting surface of device, the die set are coaxially connected with the smooth transfer;And
One connection component, the connection component include an at least connection tongue, and an at least connection tongue integrally extends described
An at least side for light transfer, wherein an at least connection tongue is arranged for being engaged in the die set extremely
A few side.
16. periscopic camera module as claimed in claim 15, wherein an at least connection tongue and the die set
An at least side is fixed by welding.
17. periscopic camera module as claimed in claim 15, wherein the connection component further comprises at least one positioning
Slot, described at least a positioning groove are hollowly formed in an at least side for the die set, an at least connection tongue
It is arranged to be engaged in described at least a positioning groove so that the die set is coaxially connected with the smooth transfer
It connects.
18. periscopic camera module as claimed in claim 17, wherein an at least connection tongue and at least one positioning
Slot is fixed by welding.
19. periscopic camera module as claimed in claim 15, wherein the die set includes an optical lens, and one drives
Dynamic component and a photosensory assembly, the optical lens are held in the photosensitive path of the photosensory assembly, and the optical lens is set
It is placed in the driving part, the smooth transfer and the driving part are coaxially disposed, wherein described at least a positioning groove
Hollowly it is formed in an at least side for the driving part.
20. periscopic camera module as claimed in claim 19, wherein the quantity of the connection tongue is 2, the locating slot
Quantity is 2.
21. periscopic camera module as claimed in claim 20, wherein two connection tongues respectively integrally extend institute
The both sides of driving part are stated, two two locating slots are respectively formed in the both sides of the smooth transfer.
22. periscopic camera module as claimed in claim 21, wherein the distance between two described connection tongues size is equal to two
The distance between locating slot size.
23. the periscopic camera module as described in any in claim 16 to 22, wherein the mode of welding is laser welding.
24. the periscopic camera module as described in any in claim 15 to 22, wherein the connection component further comprises
At least a connection piece, described at least a connection piece integrally extend at least side that the driving part closes on photosensory assembly
Portion, wherein described at least a connection piece is arranged for being engaged in an at least side for the photosensory assembly so that the sense
Optical assembly is coaxially connected in the driving part.
25. the periscopic camera module as described in claim 24, wherein described at least a connection piece and the photosensory assembly
An at least side by welding be fixed.
26. an array camera module characterized by comprising
One vertical type camera module;With
Just like periscopic camera module described in claim 5,6,13,14,19,24 or 25;Wherein, the vertical type images mould
Group and the periscopic camera module are assembled according to preset mode.
27. periscopic array camera module as claimed in claim 26, wherein the vertical type camera module is located at described latent
The side of the smooth transfer of prestige formula camera module.
28. periscopic array camera module as claimed in claim 26, wherein the vertical type camera module is located at described latent
The side of the photosensory assembly of prestige formula camera module.
29. an array camera module characterized by comprising
One vertical type camera module;With
It is taken the photograph just like periscopic described in claim 1,2,3,4,7,8,9,10,11,12,15,16,17,18,20,21,22 or 23
As mould group, wherein the vertical type camera module and the periscopic camera module are assembled according to preset mode.
30. periscopic array camera module as claimed in claim 29, wherein the vertical type camera module is located at described latent
The side of the smooth transfer of prestige formula camera module.
31. periscopic array camera module as claimed in claim 29, wherein the die set include an optical lens and
One photosensory assembly, the optical lens are held in the photosensitive path of the photosensory assembly, and the vertical type camera module is located at institute
State the side of the photosensory assembly of periscopic camera module.
32. an electronic equipment, which is characterized in that including
One electronic equipment ontology;With
Array camera module as described in claim 26 to 28 is any, wherein the array camera module is assembled in the electronics
Apparatus body.
33. electronic equipment as claimed in claim 32, wherein the array camera module is assembled in the electronic equipment ontology
One front side, to be configured as the preposition camera module of the electronic equipment.
34. electronic equipment as claimed in claim 32, wherein the array camera module is assembled in the electronic equipment ontology
One rear side, to be configured as the postposition camera module of the electronic equipment.
35. an electronic equipment, which is characterized in that including
One electronic equipment ontology;With
Array camera module as described in claim 29 to 31 is any, wherein the array camera module is assembled in the electronics
Apparatus body.
36. electronic equipment as claimed in claim 35, wherein the array camera module is assembled in the electronic equipment ontology
One front side, to be configured as the preposition camera module of the electronic equipment.
37. electronic equipment as claimed in claim 35, wherein the array camera module is assembled in the electronic equipment ontology
One rear side, to be configured as the postposition camera module of the electronic equipment.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110536046A (en) * | 2018-05-25 | 2019-12-03 | 宁波舜宇光电信息有限公司 | Periscopic camera module and its array camera module and its manufacturing method and electronic equipment |
CN112532815A (en) * | 2019-09-18 | 2021-03-19 | 宁波舜宇光电信息有限公司 | Periscopic camera module and electronic equipment |
CN112532816A (en) * | 2019-09-18 | 2021-03-19 | 宁波舜宇光电信息有限公司 | Periscopic camera module and electronic equipment |
-
2018
- 2018-05-25 CN CN201820809255.6U patent/CN208581283U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110536046A (en) * | 2018-05-25 | 2019-12-03 | 宁波舜宇光电信息有限公司 | Periscopic camera module and its array camera module and its manufacturing method and electronic equipment |
CN112532815A (en) * | 2019-09-18 | 2021-03-19 | 宁波舜宇光电信息有限公司 | Periscopic camera module and electronic equipment |
CN112532816A (en) * | 2019-09-18 | 2021-03-19 | 宁波舜宇光电信息有限公司 | Periscopic camera module and electronic equipment |
CN112532815B (en) * | 2019-09-18 | 2022-04-26 | 宁波舜宇光电信息有限公司 | Periscopic camera module and electronic equipment |
CN112532816B (en) * | 2019-09-18 | 2022-05-17 | 宁波舜宇光电信息有限公司 | Periscopic camera module and electronic equipment |
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