CN208888449U - A kind of periscope type lens mould group - Google Patents

Abstract

The utility model relates to a kind of periscope type lens mould groups, including prism drive mould group, lens drive mould group and the sensor for incuding light, the prism driving mould group includes for will change the prism of beam path along the incident ray of first direction incidence, the lens driving mould group includes the lens for transmitted ray, the lens driving mould group is located between prism driving mould group and the sensor, the periscope type lens mould group further includes optical stabilization driving mould group, the optical stabilization driving mould group includes for that will change the reflecting mirror of beam path to the sensor from the light of the lens, the incident ray sequentially drives mould group via the prism, the lens drive mould group, the optical stabilization driving mould group and the sensor.Optical stabilization driving mould group is increased in the periscope type lens mould group of the utility model, optical stabilization drives the reflecting mirror of mould group closer from sensor, and optical stabilization function can be realized in the angle for adjusting very little.

Description

A kind of periscope type lens mould group

Technical field

The utility model relates to optical lens technology fields, more specifically to a kind of periscope type lens mould group.

Background technique

As shown in Figure 1, periscope type lens mould group generally comprises three parts at present: prism drives mould group 1, lens driving mould group 2 and sensor 3, wherein the prism 10 in prism driving mould group 1 is rotated around origin, and the lens 20 in lens driving mould group 2 pass through Mobile to realize automatic focusing and optical stabilization function, incident ray passes through 10 primary event of prism, then reaches biography by lens 20 Sensor 3, but the periscope type lens mould group needs each optical device adjustment larger angle to can be only achieved the effect of optical stabilization, it can Change factor is more, and there are unstability.

Utility model content

The purpose of this utility model is to provide a kind of periscope type lens mould groups, solve periscope type lens in the prior art Each optical device of mould group adjusts the angle the larger problem for causing variable factor more.

The utility model technical scheme applied to solve the technical problem is: a kind of periscope type lens mould group, including rib Mirror drives mould group, the lens driving mould group and sensor for incuding light, and the prism driving mould group includes for will be along the The incident ray of one direction incidence changes the prism of beam path, and the lens driving mould group includes for the saturating of transmitted ray Mirror, the lens driving mould group are located between prism driving mould group and the sensor, and the periscope type lens mould group is also Mould group is driven including optical stabilization, the optical stabilization driving mould group includes for that will change light beam from the light of the lens Path is to the reflecting mirror of the sensor, and the incident ray is sequentially via prism driving mould group, lens driving mould Group, optical stabilization driving mould group and the sensor.

In the periscope type lens mould group of the utility model, the incident ray is changed beam path along the by the prism Two directions are incident to the lens driving mould group, and the prism driving mould group, lens driving mould group and the optics are steady Surely driving mould group is along the second direction sequential.

In the periscope type lens mould group of the utility model, the light-emitting surface of the lens is towards the reflecting mirror and sensing The light-emitting surface of device, receiving plane and the lens that the sensor is used to receive light is mutually perpendicular to, and the reflecting mirror is located at institute State the side of the receiving plane of sensor.

In the periscope type lens mould group of the utility model, the lens driving mould group further includes for driving the lens Lens actuator；The optical stabilization driving mould group further includes the mirror drive device for driving the reflecting mirror.

In the periscope type lens mould group of the utility model, the lens actuator and the mirror drive device are sound Coil motor or piezoelectric material.

In the periscope type lens mould group of the utility model, the incident ray is steady to the optics along the second direction Surely mould group is driven, the reflecting mirror changes the beam path of the incident ray along the first direction to the sensor；Institute It states optical stabilization driving mould group and the sensor is arranged along the first direction.

In the periscope type lens mould group of the utility model, the incident ray is steady to the optics along the second direction Surely mould group is driven, the reflecting mirror changes the beam path of the incident ray along third direction to the sensor, and described the One direction, the second direction and the third direction are mutually perpendicular to；The optical stabilization driving mould group and the sensor It is arranged along the third direction.

In the periscope type lens mould group of the utility model, the prism driving mould group further includes the rib for carrying the prism Mirror carrier, the prism are fixedly installed relative to the prism carrier；The lens actuator drives the lens along described the Two directions are mobile；The mirror drive device drives the reflecting mirror using the first direction as axle center and the third direction For axis rotation.

In the periscope type lens mould group of the utility model, the prism driving mould group further includes the rib for carrying the prism Mirror carrier, the prism are fixedly installed relative to the prism carrier；The lens actuator drives the lens along described the Two directions and the third direction are mobile；The mirror drive device drives the reflecting mirror to be moved in translation along fourth direction, institute Fourth direction is stated respectively with the light for being incident to the reflecting mirror and the light reflected from the reflecting mirror in 45 ° of angles.

In the periscope type lens mould group of the utility model, the prism driving mould group further includes prism driver, described Prism driver drives the prism using third direction as axis rotation；The lens actuator drives the lens along described the Two directions are mobile；The mirror drive device drives the reflecting mirror to be moved in translation along fourth direction, the fourth direction difference It is in 45 ° of angles with the light for being incident to the reflecting mirror and the light reflected from the reflecting mirror.

The periscope type lens mould group for implementing the utility model, has the advantages that the periscopic mirror of the utility model Optical stabilization driving mould group is increased in head mould group, optical stabilization drives the reflecting mirror of mould group closer from sensor, adjusts very little Angle optical stabilization function can be realized.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the periscope type lens mould group of this prior art；

Fig. 2 is the structural schematic diagram of the periscope type lens mould group of the utility model.

Specific embodiment

With reference to the accompanying drawings and examples, the structure of the periscope type lens mould group of the utility model is described further:

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower", The instruction such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " clockwise ", " counterclockwise " Orientation or positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification Description, rather than the device or element of indication or suggestion meaning must have a particular orientation, constructed and grasped with specific orientation Make, therefore should not be understood as limiting the present invention.

As shown in Fig. 2, the utility model relates to a kind of periscope type lens mould group, including prism drive mould group 1, lens Drive mould group 2, optical stabilization driving mould group 4 and the sensor 3 for incuding light.Wherein, prism driving mould group 1 includes being used for By the prism 10 for changing beam path along the incident ray of first direction incidence and carry the prism carrier of prism 10 (in figure not Indicate), lens driving mould group 2 includes the lens 20 for transmitted ray, and it includes saturating for that will come from that optical stabilization, which drives mould group 4, The light of mirror 20 changes the reflecting mirror 40 of beam path to sensor 3, and lens driving mould group 2 is located at prism driving mould group 1 and passes Between sensor 3, incident ray sequentially via prism driving mould group 1, lens driving mould group 2, optical stabilization driving mould group 4 and is passed Sensor 3.

Incident ray change beam path is incident to lens driving mould group 2 by prism 10 in a second direction, and prism drives mould Group 1, lens driving mould group 2 and optical stabilization driving mould group 4 are along second direction sequential.

Lens driving mould group 2 further includes the lens actuator for driving lens 20；Optical stabilization driving mould group 4 further include For driving the mirror drive device of reflecting mirror 40.Wherein, lens actuator and mirror drive device are voice coil motor or pressure Electric material.

It is described in detail below by specific embodiment.

Embodiment 1

As shown in Fig. 2, receiving plane 31 and lens 20 that sensor 3 is used to receive light are for transmiting the light-emitting surface of light 21 are mutually perpendicular to, i.e., are parallel to each other from the light that lens 20 transmit with receiving plane 31, reflecting mirror 40 is located at the reception of sensor 3 The side in face 31.Specifically, in shape and direction is erect to the right, light-emitting surface 21 drives the light-emitting surface 21 of lens 20 towards optical stabilization Mould group 4 and sensor 3, sensor 3 are laid in bottom side, and the receiving plane 31 of sensor 3 is towards upward, the receiving plane of sensor 3 31 are oppositely arranged towards reflecting mirror 40, sensor 3 with reflecting mirror 40, and reflecting mirror 40 is located at the top of sensor 3.

Wherein, prism 10 is fixedly installed relative to prism carrier, and prism 10 can no longer rotate at this time, and reliability is more It is high.Lens 20 are moved along Z axis, to realize automatic focusing function.Reflecting mirror 40 can be swung around X-axis and Y-axis, that is, be realized multi-direction It swings, reflecting mirror 40 is relatively close from sensor 3, and optical image stabilization function can be realized in the angle for adjusting very little.

Wherein, three Y-axis, Z axis and X-axis axis are mutually perpendicular to, and Y-axis is as first direction, and Z axis is as second direction, X-axis As third direction, incident ray is incident to prism driving mould group 1 along first direction, will by the prism 10 of prism driving mould group 1 Incident ray changes beam path and is incident to lens driving mould group 2, then 20 edge of lens by lens driving mould group 2 in a second direction Second direction to optical stabilization drives mould group 4, and the reflecting mirror 40 by optical stabilization driving mould group 4 changes beam path along first Direction is to sensor 3.

Prism drives mould group 1, lens driving mould group 2 and optical stabilization driving mould group 4 along second direction sequential, Optical stabilization driving mould group 4 arranges along a first direction with sensor 3.

Specifically, lens driving mould group 2 includes for driving the first lens actuator of lens 20 (not indicating in figure), light Learning stabilized driving mould group 4 includes the first mirror drive device (not indicating in figure) for driving reflecting mirror 40 to swing.First thoroughly Mirror driver is linear type voice coil motor, and lens 20 are mounted on the carrier (not indicating in figure) of the linear type voice coil motor, and One group of magnetite coil group (not indicated in figure) that there are the linear type voice coil motor driving lens 20 to move along Z axis, magnetite and line Circle is oppositely arranged, and in other words, the first lens actuator driving lens 20 are moved along second direction.First mirror drive device is Oscillating-type voice coil motor, reflecting mirror 40 is mounted on the carrier (not indicating in figure) of the oscillating-type voice coil motor, and the oscillating-type It is two groups corresponding around Y-axis rotation that there is voice coil motor driving reflecting mirror 40 to turn about the X axis corresponding and driving reflecting mirror 40 Magnetite coil group (does not indicate) in figure, and magnetite and coil are oppositely arranged, and in other words, the first mirror drive device drives reflecting mirror 40 It is axle center and third direction as axis rotation using first direction.

It should be noted that linear type voice coil motor and oscillating-type voice coil motor are voice coil horse commonly used in the prior art It reaches, is no longer described in detail here.It is driven it is worth noting that, also voice coil motor can be replaced with piezoelectric material as the first lens Dynamic device or the first mirror drive device.

Embodiment 2 (does not have icon to show)

Difference from Example 1 is: the light-emitting surface 21 of lens 20 in shape and direction is erect to the right, erect by sensor 3 In rear side, for the receiving plane 31 of sensor 3 towards forward, reflecting mirror 40 is located at the front of sensor 3.

Incident ray is incident to prism driving mould group 1 along first direction, drives the prism 10 of mould group 1 by incident light by prism Line changes beam path and is incident to lens driving mould group 2 in a second direction, then drives the lens 20 of mould group 2 along second party by lens To optical stabilization drive mould group 4, by optical stabilization driving mould group 4 reflecting mirror 40 change beam path along third direction extremely Sensor 3.

Prism driving mould group 1, lens driving mould group 2 and optical stabilization driving mould group 4 are arranged along second direction, optics Stabilized driving mould group 4 is arranged with sensor 3 along third direction.

It is maximum with embodiment 1 the difference is that reflecting mirror 40 and sensor 3 ornaments, thus can be in response to mechanism Elastic adjustment is made in the limitation of part, with sharp space configuration and assembling.

Embodiment 3

The light-emitting surface 21 that sensor 3 is used to receive the receiving plane 31 of light and lens 20 are used to transmit light mutually hangs down Directly, reflecting mirror 40 is located at the side of the receiving plane 31 of sensor 3.Specifically, the light-emitting surface 21 of lens 20 is in setting shape and direction To the right, sensor 3 is laid in bottom side, and towards upward, reflecting mirror 40 is located at the top of sensor 3 for the receiving plane 31 of sensor 3.

Prism 10 is still fixedly mounted, and difference from Example 1 is: lens 20 are moved along X-axis and Z axis, reflecting mirror 40 are moved in translation along fourth direction, and fourth direction is reflected with the incident ray for being incident to reflecting mirror 40 and from reflecting mirror 40 respectively Reflection light be in 45 ° of angles.

Wherein, three Y-axis, Z axis and X-axis axis are mutually perpendicular to, and Y-axis is as first direction, and Z axis is as second direction, X-axis As third direction, incident ray is incident to prism driving mould group 1 along first direction, will by the prism 10 of prism driving mould group 1 Incident ray changes beam path and is incident to lens driving mould group 2, then 20 edge of lens by lens driving mould group 2 in a second direction Second direction to optical stabilization drives mould group 4, and the reflecting mirror 40 by optical stabilization driving mould group 4 changes beam path along first Direction is to sensor 3.

Prism drives mould group 1, lens driving mould group 2 and optical stabilization driving mould group 4 along second direction sequential, Optical stabilization driving mould group 4 arranges along a first direction with sensor 3.

Wherein, lens driving mould group 2 includes for driving the second lens actuator of lens 20 (not indicating in figure), optics Stabilized driving mould group 4 includes the second mirror drive device (not indicating in figure) for driving reflecting mirror 40.The driving of second lens Device is linear type voice coil motor, and lens 20 are mounted on the carrier (not indicating in figure) of the linear type voice coil motor, and the straight line Two groups of magnetite coil groups that there are type voice coil motor driving lens 20 to move along the x-axis and drive lens 20 to move along Z axis are (in figure Do not indicate), magnetite and coil are oppositely arranged, and in other words, the second lens actuator drives lens 20 along second direction and third Direction is mobile.Second mirror drive device is linear type voice coil motor, and reflecting mirror 40 is mounted on the load of the linear type voice coil motor On body (not indicating in figure), and the linear type voice coil motor has one group of magnetite coil group (not indicating in figure), magnetite and coil Be oppositely arranged, in other words, the second mirror drive device drive reflecting mirror 40 along fourth direction be moved in translation, fourth direction respectively with The reflection light for being incident to the incident ray of reflecting mirror 40 and reflecting from reflecting mirror 40 is in 45 ° of angles.

It should be noted that linear type voice coil motor and oscillating-type voice coil motor are voice coil horse commonly used in the prior art It reaches, is no longer described in detail here.It is driven it is worth noting that, also voice coil motor can be replaced with piezoelectric material as the second lens Dynamic device or the second mirror drive device.

Embodiment 4

The light-emitting surface 21 that sensor 3 is used to receive the receiving plane 31 of light and lens 20 are used to transmit light mutually hangs down Directly, reflecting mirror 40 is located at the side of the receiving plane 31 of sensor 3.Specifically, the light-emitting surface 21 of lens 20 is in setting shape and direction To the right.

Lens 20 are moved along Z axis, and difference from Example 1 is: sensor 3 is erected at rear side, the reception of sensor 3 Towards forward, reflecting mirror 40 is located at the front of sensor 3 in face 31, and prism 10 is swung around X-axis, and reflecting mirror 40 is translated along fourth direction Mobile, fourth direction is in respectively 45 ° with the incident ray for being incident to reflecting mirror 40 and the reflection light reflected from reflecting mirror 40 Angle.

Wherein, three Y-axis, Z axis and X-axis axis are mutually perpendicular to, and Y-axis is as first direction, and Z axis is as second direction, X-axis As third direction, incident ray is incident to prism driving mould group 1 along first direction, will by the prism 10 of prism driving mould group 1 Incident ray changes beam path and is incident to lens driving mould group 2, then 20 edge of lens by lens driving mould group 2 in a second direction Second direction to optical stabilization drives mould group 4, and the reflecting mirror 40 by optical stabilization driving mould group 4 changes beam path along third Direction is to sensor 3.

Prism driving mould group 1, lens driving mould group 2 and optical stabilization driving mould group 4 are arranged along second direction, optics Stabilized driving mould group 4 is arranged with sensor 3 along third direction.

Prism driving mould group 1 includes for driving the prism driver of prism 10 (not indicating in figure), and lens drive mould group 2 Including the third lens driver (not indicating in figure) for driving lens 20, it includes for driving that optical stabilization, which drives mould group 4, The third mirror drive device (not indicated in figure) of reflecting mirror 40.Prism driver is oscillating-type voice coil motor, and prism 10 is installed On the carrier (not indicating in figure) of the oscillating-type voice coil motor, and the oscillating-type voice coil motor has driving prism 10 along X-axis One group of mobile magnetite coil group (not indicating in figure), magnetite and coil are oppositely arranged, and in other words, prism driver drives prism 10 using third direction as axis rotation.The third lens driver is linear type voice coil motor, and lens 20 are mounted on the linear type sound On the carrier (not indicated in figure) of coil motor, and one group of magnetic that there are the linear type voice coil motor driving lens 20 to move along Z axis Stone coil group (does not indicate) in figure, and magnetite and coil are oppositely arranged, and in other words, the third lens driver drives lens 20 along the Two directions are mobile.Third mirror drive device is linear type voice coil motor, and reflecting mirror 40 is mounted on the linear type voice coil motor On carrier (not indicating in figure), and the linear type voice coil motor has one group of magnetite coil group (not indicating in figure), magnetite and line Circle is oppositely arranged, and in other words, third mirror drive device drives reflecting mirror 40 to be moved in translation along fourth direction, fourth direction difference It is in 45 ° of angles with the incident ray for being incident to reflecting mirror 40 and the reflection light reflected from reflecting mirror 40.

It should be noted that linear type voice coil motor and oscillating-type voice coil motor are voice coil horse commonly used in the prior art It reaches, is no longer described in detail here.It is driven it is worth noting that, also voice coil motor can be replaced with piezoelectric material as prism Device, the third lens driver or third mirror drive device.

It should be understood that it will be understood by those skilled in the art that it can be modified or changed according to the above description, but this It is a little to improve or convert within the protection scope that all should belong to the appended claims for the utility model.

Claims (10)

1. a kind of periscope type lens mould group, including prism driving mould group (1), lens driving mould group (2) and for incuding light Sensor (3), prism driving mould group (1) includes for will be along the incident ray of first direction incidence change beam path Prism (10), lens driving mould group (2) includes the lens (20) for transmitted ray, and the lens drive mould group (2) Between prism driving mould group (1) and the sensor (3), which is characterized in that the periscope type lens mould group is also wrapped Optical stabilization driving mould group (4) is included, optical stabilization driving mould group (4) includes for that will come from the light of the lens (20) Change the reflecting mirror (40) of beam path to the sensor (3), the incident ray sequentially drives mould group via the prism (1), lens driving mould group (2), optical stabilization driving mould group (4) and the sensor (3).

2. periscope type lens mould group according to claim 1, which is characterized in that the prism (10) is by the incident ray Change beam path and be incident to lens driving mould group (2) in a second direction, the prism drives mould group (1), the lens Drive mould group (2) and optical stabilization driving mould group (4) along the second direction sequential.

3. periscope type lens mould group according to claim 2, which is characterized in that light-emitting surface (21) face of the lens (20) To the reflecting mirror (40) and sensor (3), the sensor (3) is used to receive the receiving plane (31) and the lens of light (20) light-emitting surface (21) is mutually perpendicular to, and the reflecting mirror (40) is located at the side of the receiving plane (31) of the sensor (3).

4. periscope type lens mould group according to claim 3, which is characterized in that lens driving mould group (2) further includes For driving the lens actuator of the lens (20)；Optical stabilization driving mould group (4) further includes described anti-for driving Penetrate the mirror drive device of mirror (40).

5. periscope type lens mould group according to claim 4, which is characterized in that the lens actuator and the reflection Mirror driver is voice coil motor or piezoelectric material.

6. periscope type lens mould group according to claim 5, which is characterized in that the incident ray is along the second direction To optical stabilization driving mould group (4), the reflecting mirror (40) changes the beam path of the incident ray along described first Direction to the sensor (3)；Optical stabilization driving mould group (4) and the sensor (3) is arranged along the first direction Column.

7. periscope type lens mould group according to claim 5, which is characterized in that the incident ray is along the second direction To optical stabilization driving mould group (4), the reflecting mirror (40) changes the beam path of the incident ray along third direction To the sensor (3), the first direction, the second direction and the third direction are mutually perpendicular to；The optics is steady Surely driving mould group (4) and the sensor (3) are arranged along the third direction.

8. periscope type lens mould group according to claim 7, which is characterized in that prism driving mould group (1) further includes The prism carrier of the prism (10) is carried, the prism (10) is fixedly installed relative to the prism carrier；The lens drive Dynamic device drives the lens (20) to move along the second direction；The mirror drive device drives the reflecting mirror (40) with institute State that first direction is axle center and the third direction is axis rotation.

9. periscope type lens mould group according to claim 7, which is characterized in that prism driving mould group (1) further includes The prism carrier of the prism (10) is carried, the prism (10) is fixedly installed relative to the prism carrier；The lens drive Dynamic device drives the lens (20) to move along the second direction and the third direction；Described in the mirror drive device driving Reflecting mirror (40) along fourth direction be moved in translation, the fourth direction respectively with the light for being incident to the reflecting mirror (40) and from The light that the reflecting mirror (40) reflects is in 45 ° of angles.

10. periscope type lens mould group according to claim 6, which is characterized in that prism driving mould group (1) further includes Prism driver, the prism driver drive the prism (10) using third direction as axis rotation；The lens actuator The lens (20) are driven to move along the second direction；The mirror drive device drives the reflecting mirror (40) along four directions To translational movement, the fourth direction is reflected with the light for being incident to the reflecting mirror (40) and from the reflecting mirror (40) respectively Light out is in 45 ° of angles.