CN1908717A

CN1908717A - Optical-mechanical assembly having optical track regulating mechanism

Info

Publication number: CN1908717A
Application number: CN200510089599.1A
Authority: CN
Inventors: 管建国; 陈锡裕; 杜蔚珍
Original assignee: YUDONG ELECTRIC SLURRY TECHNOLOGY Co Ltd
Current assignee: YUDONG ELECTRIC SLURRY TECHNOLOGY Co Ltd
Priority date: 2005-08-05
Filing date: 2005-08-05
Publication date: 2007-02-07

Abstract

The related optical assembly with optical-path regulation mechanism comprises: an optical sensor module, an optical assembly body to guide external light into the sensor, and a regulation mechanism with two elements to fix the module and body and regulate the relative distance or angle between the sensor and external light path, wherein the unit displacement of the regulation mechanism is equal to the difference of displacements of two elements. This invention is benefit to obtain optimal image.

Description

Lighting apparatus component with optical track regulating mechanism

Technical field

The present invention relates to a kind of lighting apparatus component (optical module), particularly a kind of have the relative distance between the optical path of adjusting optical sensor and extraneous light or a lighting apparatus component of angle.

Background technology

The present adjusting mechanism designing technique of the optical path of relevant optical sensor, major part are all concentrated and toward the trend development that can carry out multi-direction adjustment.For example, in the optical path adjustment technology field of CCD lighting apparatus component, there has been two or more known technologies at least, can have reached above-mentioned design object.

With first kind of known technology (Taiwan patent announcement number: 407826) be example, in disclosed optical track regulating mechanism wherein, can carry out " up and down " (promptly along the z direction of principal axis), " about " displacement action of (promptly along the y direction of principal axis), " vertical rotation " (promptly along the rotation of yz plane), " horizontally rotating " (promptly along the rotation of xy plane) and " front and back " 5 directions such as (promptly along the x direction of principal axis), so that become a mutual plumbness between the optical path of CCD optical sensor and extraneous light, form preferable relative distance or angle, and draw a preferable image effect.But, above-mentioned mentioned optical track regulating mechanism, because of it need use five complicated axial adjustment tools to carry out volume production, and because of its employed part too much, simultaneously, and need after adjustment finishes gluing again to wait for a period of time to fix, be with, this way and be unfavorable for the reduction of production cost.So the stakeholder of this technical field satisfies in proposing other thereafter and can reach identical function but can more save cost and the evolutionary approach that reduces the volume production complexity.

With second kind of known technology (Taiwan patent announcement number: 500279) be example, in wherein a disclosed case for lens and a CCD module, promptly in order to be combined to form a lighting apparatus component.Be with aforementioned Taiwan patent announcement number No. 407826 case difference, being provided with in this case for lens can be in order to couple the window that couples of this CCD module, respectively be provided with a screw hole and flexible member (for example, spring or elasticity arm) in its both sides, flexible member slightly protrudes in and couples window surface.When the CCD module with couple window when coupling, utilize a screw to lock in the screw hole that couples on the window by the CCD module, the flexible member that is arranged in screw hole (or be positioned at next door) is squeezed and is out of shape, so adjust the different degree of going deep into of two-screw, can carry out the adjustment of " horizontally rotating " (promptly along the rotation of xy plane) direction according to this to this CCD module.And make that this structure has can " up and down ", " about ", the adjustment function of " vertical rotation " and four directions such as " horizontally rotating ".As for the displacement action of " front and back " direction, then can reach through the optical focal length of adjusting the CCD module.

The shortcoming of second kind of known technology is, because of the screw of this screw hole of locking wherein adopts the screw of single pitch, so that makes the resolution of adjusting can be subjected to the restriction of this pitch.For example, when locking this screw hole in aforementioned second kind of known technology with the screw of the single-lead of M3 specification, because of its pitch is 0.5mm, so rotary screw one circle will make this CCD module advance or retreat 0.5mm.Right these are adjusted distances, for sensing points (pixel) distance of present CCD optical sensor has diminishing trend, obviously belong to adjust too much and inapplicable.On the other hand, change the littler screw of use pitch distance as desire, the screw that then also can face this kind special requirement is difficult for obtaining, or the too high problem of acquisition cost.

Summary of the invention

One of fundamental purpose of the present invention is proposed, promptly be desirable to provide a kind of tool low cost, high convenience and can more accurate adjustment optical sensor and the optical path of extraneous light between relative distance or the lighting apparatus component of angle.

The present invention comprises about a kind of lighting apparatus component with optical track regulating mechanism: a sensor assembly has an optical sensor; One ray machine body is guided an extraneous light to this optical sensor; And an adjusting mechanism, be located at the first side of this sensor assembly and this ray machine body, so that this sensor assembly is fixedly arranged on this ray machine body, and in order to relative distance between the optical path of adjusting this optical sensor and this extraneous light or angle; Wherein, this adjusting mechanism have one first and second adjust element, and the unit of this adjusting mechanism adjusts displacement, equals the difference between the second unit displacement amount of this first first unit displacement amount of adjusting element and this second adjustment element.

According to the above-mentioned conception of the present invention, wherein this first second is adjusted element and is connected and forms a synchronous interlock state with this.

According to the above-mentioned conception of the present invention, wherein this adjusting mechanism comprises one first a differential screw and a corresponding screw seat, and this first differential screw has first and second section screw threads equidirectional but that pitch is different, first second to adjust element with this as this respectively.

According to the above-mentioned conception of the present invention, wherein this sensor assembly also comprises: an optical sensor panel, be provided with a plurality of screws, and this optical sensor panel is in order to provide this optical sensor setting thereon; One optical sensor fixed head has an optical sensor and sets firmly frame, with solid this optical sensor of frame in wherein; And a coupling apparatus, in order to this optical sensor panel is combined with this optical sensor fixed head.

According to the above-mentioned conception of the present invention, wherein this coupling apparatus comprises a screw with single-lead.

According to the above-mentioned conception of the present invention, wherein this adjusting mechanism also has one the 3rd and one the 4th adjustment element, all be located at the second side of this sensor assembly and this ray machine body, and the unit of this adjusting mechanism adjusts displacement, equals the difference between the 4th unit displacement amount of the 3rd the 3rd unit displacement amount of adjusting element and the 4th adjustment element.

According to the above-mentioned conception of the present invention, wherein the 3rd and the 4th adjustment element is connected and forms a synchronous interlock state.

According to the above-mentioned conception of the present invention, wherein this adjusting mechanism also comprises one second differential screw and corresponding screw seat, and this second differential screw has the one the 3rd and the 4th section screw threads equidirectional but that pitch is different, to adjust element as the 3rd and the 4th respectively.

Another preferable practice of the present invention is the lighting apparatus component that has optical track regulating mechanism about a kind of, comprises: a sensor assembly has an optical sensor; One ray machine body is guided an extraneous light to this optical sensor; And one first differential screw, be located at the first side of this sensor assembly and this ray machine body, so that this sensor assembly is fixedly arranged on this ray machine body, and in order to relative distance between the optical path of adjusting this optical sensor and this extraneous light or angle; Wherein, this first differential screw has first and second section screw threads equidirectional but that pitch is different, and this first is connected with this second section screw thread and forms a synchronous interlock state.

A preferable practice more of the present invention, be about a kind of optical track regulating mechanism, be applied to a sensor assembly with optical sensor, and can guide the ray machine body of an extraneous light to this optical sensor, this optical sensor optical track regulating mechanism comprises: one first adjusts element, be located at the first side of this sensor assembly, this first adjusts element when a particular displacement direction is adjusted, and can form one first unit displacement amount; And one second adjust element, is located at this first side of this ray machine body, and this second adjusts element when this particular displacement direction is adjusted, and can form one second unit displacement amount; Wherein, by this first second is adjusted element and is connected and forms a synchronous interlock state with this so that the unit of this optical sensor optical track regulating mechanism adjustment displacement equal this first and this second unit displacement amount between difference.

Description of drawings

Figure 1A is the three-dimensional exemplary plot of decomposing of the forward sight of the present invention's first preferable enforcement structure;

Figure 1B is that the rear perspective of the present invention's first preferable enforcement structure is decomposed exemplary plot;

Fig. 2 A is the three-dimensional exemplary plot of decomposing of the forward sight of the present invention's second preferable enforcement structure;

Fig. 2 B is that the rear perspective of the present invention's first preferable enforcement structure is decomposed exemplary plot.

Wherein, description of reference numerals is as follows:

Lighting apparatus component 10,70 sensor assemblies 20 optical sensors 21

More than 22 screw of optical sensor panel 221～224 optical sensor fixed heads 23

A plurality of screw 231～234 projections 235,236 optical sensors set firmly frame 237

Coupling apparatus 24 screws 241,242 ray machine bodies 30

Screw 301,302 shrinkage pools 303,304 camera lenses 305

Extraneous light 40 adjusting mechanisms 50 first and second differential screws 501,502

First and second

section screw thread

5011,5012 the 3rd and the 4th section screw threads 5021,5022

The screw 60 screw seats 503,504,505,506,61 of single pitch

One side 22a of optical sensor panel, optical sensor fixed head and ray machine body, 23a, 30a

Another side 22b of optical sensor panel, optical sensor fixed head and ray machine body, 23b, 30b

Embodiment

Below enumerate a preferred embodiment and conjunction with figs. describing the present invention in detail, but those skilled in the art knows that all this only is one for example, and be not in order to limit invention itself.

At first, of the present invention one first preferable enforcement structure is proposed.See also Figure 1A, Figure 1B, it is respectively the forward sight of one first preferable enforcement structure of the present invention and the solid of backsight is decomposed exemplary plot.

Disclosed lighting apparatus component 10 in Figure 1A, Figure 1B includes: a sensor assembly 20, is provided with the ray machine body 30 of screw 301,302, two shrinkage pools 303,304 and camera lens 305, and an adjusting mechanism 50.Wherein, this sensor assembly 20 also comprises: an optical sensor 21, is provided with a plurality of screws 221～224 and provides this optical sensor 21 that thereon optical sensor panel 22, is set and is provided with a plurality of screw 231～234, two projections 235,236 and has optical sensor and set firmly frame 237 with the optical sensor fixed head 23 of solid this optical sensor 21 of frame, with adorning 24 in order to the combination that this optical sensor panel 22 and this optical sensor fixed head 23 are combined.

One of feature of present embodiment is only to be positioned at this optical sensor panel 22, this optical sensor fixed head 23 and a side 22a, the 23a of this ray machine body 30, the emphasis element that the 30a place is provided with present embodiment: this adjusting mechanism 50.Another

side

22b, 23b, 30b as for this optical sensor panel 22, this optical sensor fixed head 23 and this ray machine body 30, then still keep the screw 60 that uses single pitch, with as fixing this optical sensor panel 22, this optical sensor fixed head 23 usefulness, save cost but still can reach the accurate relatively purpose of adjusting optical path to reach with this ray machine body 30.

Further and opinion, this adjusting mechanism 50 comprises one first a differential screw 501 and a corresponding screw seat 503,504.Wherein, this first differential screw 501 has first and second

section screw threads

5011,5012 equidirectional but that pitch is different, with respectively as one first and second adjust the usefulness of element.And this first and second

section screw thread

5011,5012 all passes this screw 223 and respectively in order to lock the screw seat 503,504 in this screw 233,301 that is divided into this optical sensor fixed head 23 and these ray machine body 30 places.

For example, in the present embodiment, this 5011,5012 on first and second section screw thread has equidirectional pitch, can be respectively 0.6mm and 0.5mm.If rotate this first differential screw 501 1 circles this moment, total distance that interlock makes this optical sensing module 20 advance or retreat, to equal the difference between the pitch of the pitch of this first section screw thread 5011 and this second section screw thread 5012, that is: (0.6mm-0.5mm)=0.1mm.Suppose that each circle that aforementioned this first differential screw 501 is rotated is subdivided into 50 sections again apart from 0.1mm, obviously the distance of fine setting this moment more can the accurate degree that arrives 0.1mm/50=0.002mm.This result, obviously can adjust corresponding distance and angle between this optical sensing module 20 and this ray machine body 30 easily, adapt to diminishing this optical sensor 21 of present sensing points (pixel) distance, and make extraneous light 40 form a mutual plumbness with this optical sensor 21, and get a preferable image effect through this camera lens 305.

It should be noted that though aforementioned disclosed this first differential screw 501 of the present invention, wherein this first and second

section screw thread

5011,5012 is taked to be connected and to form a synchronous interlock state in integrally formed mode.But this structure can be carried out different equivalent modifications and change by those skilled in the art according to the application of reality.For example, also can change into and adopt manual array mode, combine in forming this first differential screw 501 together with having this first and second section screw thread 5011,5012 (scheming not shown) of a projection and a depressed part respectively.But aforesaid equivalent modifications and change means must be contained in claims scope of the present invention.

In addition, the screw 60 that this has single pitch then passes this screw 224,234 and combines with screw seat 61 in being located at this screw 302, and this optical sensing module 20 is combined with this ray machine body 30.Moreover those screws 241,242 of the embodiment by belonging to this coupling apparatus 24 then can further make it pass this screw 221,222 respectively and lock and be fixed in this screw 231,232.At last, be provided with this optical sensor fixed head 23 of these two projections 235,236, then be located in this two shrinkage pool 303,304 at these ray machine body 30 places in order to insertion.The purpose that is provided with of aforementioned this coupling apparatus 24 and these two projections 235,236, this two shrinkage pool 303,304 all is for this optical sensing module 20 can more closely be incorporated into this ray machine body 30.

Because this screw 223,224 in the present embodiment is taked the bigger design in aperture, so the screw 60 of this first differential screw 501 with the single pitch of this tool passed this screw 223,224 respectively and desiring to make this optical sensing module 20 to be incorporated into a time-out with this ray machine body 30, the design of described larger aperture, provide can carry out " up and down " (promptly along the z direction of principal axis), " about " the thin portion of (promptly along the y direction of principal axis), " vertical rotation " (promptly along the rotation of yz plane) adjusts direction.Simultaneously, advancing or backward movement of the screw 60 of rotation this first differential screw 501 of adjustment or the single pitch of this tool also can be carried out the displacement action of " horizontally rotating " (promptly along the rotation of xy plane) and " front and back " directions such as (promptly along the x direction of principal axis).Be the displacement adjustment action that 5 directions not only can be provided with, present embodiment, and the precision of adjusting is also more meticulous than known technology.

Certainly, the another kind of way of present embodiment (scheming not shown) also can only be provided with this adjusting mechanism 50 at this optical sensor panel 22, this optical sensor fixed head 23 with a

side

22a, 23a, the 30a place of this ray machine body 30.Another

side

22b, 23b, 30b as for this optical sensor panel 22, this optical sensor fixed head 23 and this ray machine body 30, then change simple use clamping structure (not using any screw) into, fixing this optical sensor panel 22, this optical sensor fixed head 23 and this ray machine body 30, and reach and further save cost but still can reach the accurate relatively purpose of adjusting optical path.

See also of the present invention one second preferable enforcement structure again.See also Fig. 2 A, Fig. 2 B, it is respectively the forward sight of one second preferable enforcement structure of the present invention and the solid of backsight is decomposed exemplary plot.Lighting apparatus component 70 shown in Fig. 2 A, Fig. 2 B does not exist together with this lighting apparatus component 10 shown in aforementioned Figure 1A, Figure 1B, be will be positioned among Figure 1A, Figure 1B the screw 60 of the single pitch of this tool of another

side

22b, 23b, 30b of this optical sensor panel 22, this optical sensor fixed head 23 and this ray machine body 30, replaced to the one second differential screw 502 identical with this first differential screw 501.So that this first and second differential screw 501,502, simultaneously as this adjusting mechanism 50 of the distance of adjusting this

extraneous light

40 and 21 optical paths of this optical sensor and angle.

Wherein, this second differential screw 502 also has the one the 3rd and the 4th section screw threads 5021,5022 equidirectional but that pitch is different, with respectively as the one the 3rd and the 4th usefulness of adjusting element.And the 3rd and the 4th section screw thread 5021,5022 all passes this screw 224 and respectively in order to lock the screw seat 505,506 in this screw 234,302 that is divided into this optical sensor fixed head 23 and these ray machine body 30 places.The Precision trimming function that this second 502 on differential screw can provide, identical with aforementioned this first differential screw 501, promptly no longer given unnecessary details at this.

Compared to aforementioned first embodiment of the invention, second embodiment of the invention carry out " up and down " except also providing (promptly along the z direction of principal axis), " about " the thin portion of (promptly along the y direction of principal axis), " vertical rotation " (promptly along the rotation of yz plane) adjusts the direction, on the displacement action of " horizontally rotating " (promptly along the rotation of xy plane) and " front and back " directions such as (promptly along the x direction of principal axis), comparable aforementioned first embodiment of the invention provides more accurate adjustment action.

Simultaneously, owing to all be provided with the adjustment element at this optical sensor panel 22, this optical sensor fixed head 23 with dual-

side

22a, 23a, 30a, 22b, 23b, the 30b of this ray machine body 30 in the second embodiment of the invention, therefore, except that the light path that can adjust the left and right sides, also can adjust the magnification error, or the error of total optical path (total track).

In sum, the present invention can provide a kind of tool low cost, high convenience and can more accurate adjustment optical sensor and the optical path of extraneous light between relative distance or the lighting apparatus component of angle.

The present invention can carry out various modifications by those skilled in the art, but the scope of neither disengaging claims institute desire protection.

Claims

1, a kind of lighting apparatus component with optical track regulating mechanism comprises:

One sensor assembly has an optical sensor;

One ray machine body is guided an extraneous light to this optical sensor; And

One adjusting mechanism is located at the first side of this sensor assembly and this ray machine body, so that this sensor assembly is fixedly arranged on this ray machine body, and in order to relative distance between the optical path of adjusting this optical sensor and this extraneous light or angle;

Wherein, this adjusting mechanism have one first and second adjust element, and the unit of this adjusting mechanism adjusts displacement, equals the difference between the second unit displacement amount of this first first unit displacement amount of adjusting element and this second adjustment element.

2, the lighting apparatus component with optical track regulating mechanism as claimed in claim 1 is characterized in that, this first second is adjusted element and be connected and form a synchronous interlock state with this.

3, the lighting apparatus component with optical track regulating mechanism as claimed in claim 1, it is characterized in that, this adjusting mechanism comprises one first a differential screw and a corresponding screw seat, and this first differential screw has first and second section screw threads equidirectional but that pitch is different, first second to adjust element with this as this respectively.

4, the lighting apparatus component with optical track regulating mechanism as claimed in claim 1 is characterized in that, this sensor assembly also comprises:

One optical sensor panel is provided with a plurality of screws, and this optical sensor panel is in order to provide this optical sensor setting thereon;

One optical sensor fixed head has an optical sensor and sets firmly frame, with solid this optical sensor of frame in wherein; And

One coupling apparatus is in order to combine this optical sensor panel with this optical sensor fixed head.

5, the lighting apparatus component with optical track regulating mechanism as claimed in claim 4 is characterized in that, this coupling apparatus comprises a screw with single-lead.

6, the lighting apparatus component with optical track regulating mechanism as claimed in claim 1, it is characterized in that, this adjusting mechanism also has one the 3rd and one the 4th and adjusts element, all be located at the second side of this sensor assembly and this ray machine body, and the unit of this adjusting mechanism adjusts displacement, equals the difference between the 4th unit displacement amount of the 3rd the 3rd unit displacement amount of adjusting element and the 4th adjustment element.

7, the lighting apparatus component with optical track regulating mechanism as claimed in claim 6 is characterized in that, the 3rd and the 4th adjustment element is connected and forms a synchronous interlock state.

8, the lighting apparatus component with optical track regulating mechanism as claimed in claim 6, it is characterized in that, this adjusting mechanism also comprises one second differential screw and corresponding screw seat, and this second differential screw has the one the 3rd and the 4th section screw threads equidirectional but that pitch is different, to adjust element as the 3rd and the 4th respectively.

9, a kind of lighting apparatus component with optical track regulating mechanism comprises:

One sensor assembly has an optical sensor;

One ray machine body is guided an extraneous light to this optical sensor; And

One first differential screw is located at the first side of this sensor assembly and this ray machine body, so that this sensor assembly is fixedly arranged on this ray machine body, and in order to relative distance between the optical path of adjusting this optical sensor and this extraneous light or angle;

Wherein, this first differential screw has first and second section screw threads equidirectional but that pitch is different, and this first is connected with this second section screw thread and forms a synchronous interlock state.

10, the lighting apparatus component with optical track regulating mechanism as claimed in claim 9, it is characterized in that, this lighting apparatus component also includes and the corresponding screw seat of this first differential screw, and the unit of this first differential screw adjusts displacement, equals the difference between the unit displacement amount of the unit displacement amount of this first section screw thread and this second section screw thread.

11, the lighting apparatus component with optical track regulating mechanism as claimed in claim 9, it is characterized in that, this lighting apparatus component also comprises one second differential screw, be located at the second side of this sensor assembly and this ray machine body, so that this sensor assembly is fixedly arranged on this ray machine body, and in order to the focusing between the optical path of adjusting this optical sensor and this extraneous light from or the focusing angle; Wherein, this second differential screw has the one the 3rd and the 4th section screw threads equidirectional but that pitch is different, and the 3rd is connected with the 4th section screw thread and forms a synchronous interlock state.

12, the lighting apparatus component with optical track regulating mechanism as claimed in claim 11, it is characterized in that, this lighting apparatus component has and the corresponding screw seat of this second differential screw, and the unit of this second differential screw adjusts displacement, equals the difference between the unit displacement amount of the unit displacement amount of the 3rd section screw thread and the 4th section screw thread.

13, a kind of optical track regulating mechanism is applied to one and has the sensor assembly of optical sensor, and can guide the ray machine body of an extraneous light to this optical sensor, and this optical sensor optical track regulating mechanism comprises:

One first adjusts element, is located at the first side of this sensor assembly, and this first adjusts element when a particular displacement direction is adjusted, and can form one first unit displacement amount; And

One second adjusts element, is located at this first side of this ray machine body, and this second adjusts element when this particular displacement direction is adjusted, and can form one second unit displacement amount;

Wherein, by this first second is adjusted element and is connected and forms a synchronous interlock state with this so that the unit of this optical sensor optical track regulating mechanism adjustment displacement equal this first and this second unit displacement amount between difference.

14, optical track regulating mechanism as claimed in claim 13, it is characterized in that, this optical sensor optical track regulating mechanism comprises one first a differential screw and a corresponding screw seat, and this first differential screw has first and second section screw threads equidirectional but that pitch is different, first second to adjust element with this as this respectively.

15, optical track regulating mechanism as claimed in claim 13 is characterized in that, this particular displacement direction refers to comprise at least " horizontally rotating " and displacement directions such as " front and back ".

16, optical track regulating mechanism as claimed in claim 13 is characterized in that, this optical sensor optical track regulating mechanism also comprises:

One the 3rd adjusts element, is located at the second side of this sensor assembly, and the 3rd adjusts element when this particular displacement direction is adjusted, and can form one the 3rd unit displacement amount; And

One the 4th adjusts element, is located at this second side of this ray machine body, and the 4th adjusts element when this particular displacement direction is adjusted, and can form one the 4th unit displacement amount;

Wherein, by the 3rd and the 4th adjustment element being connected and forming a synchronous interlock state, so that the unit of this optical sensor optical track regulating mechanism adjustment displacement equals the difference between the 3rd and the 4th unit displacement amount.

17, optical track regulating mechanism as claimed in claim 16, it is characterized in that, this optical sensor optical track regulating mechanism comprises one second a differential screw and a corresponding screw seat, and this second differential screw has the one the 3rd and the 4th section screw threads equidirectional but that pitch is different, to adjust element as the 3rd and the 4th respectively.