CN102193159A - Optical device and optical adjusting component thereof - Google Patents

Abstract

The invention discloses an optical device and an optical adjusting component thereof. The optical device comprises a lens module, a shell cover structure and an optical adjusting component; the shell cover at least partially covers the lens module; the optical adjusting component comprises a first adjusting component, a second adjusting component and an elastic component; the first adjusting component is arranged on the lens module and comprises a first interference transmission structure; the second adjusting component is movably connected to the shell cover structure and comprises a second interference transmission structure; the elastic component is arranged between the shell cover structure and the second adjusting component and moves along with the movement of the lens so as to elastically push against the second adjusting component to move in a preset distance; therefore, the second interference transmission structure props against the lens module and is stably meshed with the first interference transmission structure so that the second interference transmission structure drives the first interference transmission structure to adjust the optical parameter of the lens module by the first adjusting component.

Description

Optical devices and optical adjustment assembly thereof

Technical field

The present invention relates to a kind of optical devices and optical adjustment assembly thereof, refer to a kind of optical devices and optical adjustment assembly thereof that reduces cost, saves the space and be beneficial to accurate adjustment optical parametric especially.

Background technology

Generally speaking, optical devices, for example: projecting optical devices such as ultrashort out-of-focus projection machine, all be provided with camera lens module, cover on pedestal and and camera lens module is configurable by the cap structure, yet camera lens module is placed in the pedestal of optical devices or in carrying, in the processes such as use, may be subjected to the interference of external force and produce slight offset, even if but slight offset, still may cause the optical adjustment assembly can't accurately cooperate the offset of camera lens module jointly, to such an extent as to be difficult to accurately to regulate optical parametrics such as the focal length of camera lens module or enlargement ratio because of it is uncertain.

In order to cooperate the issuable offset slightly of camera lens module, prior art also has the design that camera lens module is fixed, yet fixed camera lens module is owing to can not adjust, make the machining precision standard of mould and part improve, improved the cost of material and making indirectly, also can increase the complexity of assembling process, and fixed camera lens module is owing to can't adjust, be to fix with its back of the body defocus distance, this also will influence the usefulness of the projected picture of this kind optical devices.In addition, focal length with the adjusting camera lens module is an example, because it is the camera lens module volume of existing ultrashort out-of-focus projection machine is bigger,, that the overall volume that makes focal length adjustment ring is excessive and influence the outward appearance of optical devices therefore if will on camera lens module, directly utilize the focal length adjustment to encircle to carry out the focus adjustment operation.

And at the part of focus adjustment, developed at present by telepilot control motor, to regulate the correlation technique of the focal length of camera lens module by the motor transmission, right this design is higher except the part price, can increase outside the whole cost of optical devices, when the user focused by telepilot, also easy machinery inertial because of mechanical hook-up was difficult for adjusting to desired picture position.

In view of this, how to develop a kind of optical devices and optical adjustment assembly thereof, so that address the deficiencies of the prior art, real problem for the correlative technology field person solution that presses at present.

Summary of the invention

Fundamental purpose of the present invention is for providing a kind of optical devices and optical adjustment assembly thereof, fixed camera lens module configuration accuracy standard is higher, cost is higher and complex structure can't be regulated the burnt problem of the back of the body again to avoid using, and overcomes by the motor transmission and be difficult for the shortcoming of precisely regulating optical parametrics such as camera lens module focal length.The present invention utilizes the physical characteristics of elastic parts of the optical adjustment assembly of optical devices that the buffering regulating effect is provided, make second of second adjusting part interfere drive mechanism can cooperate the displacement of camera lens module and movable neatly, interfere drive mechanism to be resisted against first of first adjusting part really, be with compared to prior art, the present invention can be lowered the configuration accuracy standard of optical devices slightly, and save cost, simplified structure, and can keep the attractive in appearance of camera lens module, allow the user can be accurately and regulate the optical parametric of camera lens module easily simultaneously.

For reaching above-mentioned purpose, of the present invention one more extensively implements aspect for a kind of optical devices are provided, and it comprises: camera lens module; The cap structure, it covers camera lens module to small part; And the optical adjustment assembly, it comprises first adjusting part, it is arranged on the camera lens module and comprises that first interferes drive mechanism; Second adjusting part, it is movably connected in the cap structure, and comprises that second interferes drive mechanism; And elastic parts, it is arranged between the cap structure and second adjusting part, and along with camera lens module moves and elasticity pushes against second adjusting part and moves in a preset distance, make second of second adjusting part interfere drive mechanism towards camera lens module replace and stable engagement first adjusting part first interfere drive mechanism so that second interferes drive mechanism to drive first to interfere drive mechanism and adjust the optical parametric of camera lens module by first adjusting part.

For reaching above-mentioned purpose, of the present invention another more extensively implemented aspect for a kind of optical adjustment assembly is provided, it is applied to optical devices, optical devices comprise cap structure and camera lens module, cap structure to small part covers camera lens module, and the optical adjustment assembly comprises: first adjusting part, and it is arranged on the camera lens module and comprises that first interferes drive mechanism; Second adjusting part, it is movably connected in the cap structure, and comprises that second interferes drive mechanism; And elastic parts, it is arranged between the cap structure and second adjusting part, and along with camera lens module moves and elasticity pushes against second adjusting part and moves in a preset distance, make second of second adjusting part interfere drive mechanism towards camera lens module replace and stable engagement first adjusting part first interfere drive mechanism so that second interferes drive mechanism to drive first to interfere drive mechanism and adjust the optical parametric of camera lens module by first adjusting part.

Description of drawings

Fig. 1 is the part decomposing schematic representation of the optical devices of a preferred embodiment of the present invention.

Fig. 2 is the partial exploded view of the present invention's optical devices shown in Figure 1.

Fig. 3 is the combination synoptic diagram of the present invention's optical devices shown in Figure 2.

Wherein, description of reference numerals is as follows:

Optical devices 1

Pedestal 10

Camera lens module 2

Cap structure 3

Operating space 30

Broken groove 301

Extending column 31

Baffle plate 32

Optical adjustment assembly 4

First adjusting part 41

First interferes drive mechanism 410

The first camera lens set collar 411

Fastener 4111

The second camera lens set collar 412

Second adjusting part 42

Second interferes drive mechanism 420

Auxiliary fixed component 421

Plate 4211

Axial region 4212

Extension 4213

The collar 4214

Perforation 4210

Elastic parts 43

First end 431

The second end 432

Passage 433

Locked assembly 5

First interferes drive mechanism width W 1

Second interferes drive mechanism width W 2

First interferes drive mechanism tooth pitch G

Second interferes drive mechanism wheel transverse tooth thickness T

Predetermined distance d 0

First interferes the ultimate range d1 of drive mechanism in the Z direction to pedestal

Second interferes the minor increment d2 of drive mechanism in the Z direction to pedestal

Embodiment

Some exemplary embodiments that embody feature of the present invention and advantage will be described in detail in the explanation of back segment.Be understood that the present invention can have various variations in different modes, its neither departing from the scope of the present invention, and explanation wherein and be shown in the usefulness that ought explain in essence, but not in order to restriction the present invention.

See also Fig. 1, its part for the optical devices of a preferred embodiment of the present invention is disassembled synoptic diagram.As shown in Figure 1, optical devices 1, for example: projector, especially be good with ultrashort out-of-focus projection machine, comprise camera lens module 2, cap structure 3 and optical adjustment assembly 4 (as shown in Figure 3), cap structure 3 to small part covers camera lens module 2, and optical adjustment assembly 4 comprises first adjusting part 41, second adjusting part 42 and elastic parts 43, wherein first adjusting part 41 is arranged on the camera lens module 2 and comprises that first interferes drive mechanism 410, second adjusting part 42 is movably connected in cap structure 3, and second adjusting part 42 comprises that second interferes drive mechanism 420, elastic parts 43 then is arranged between the cap structure 3 and second adjusting part 42, and along with camera lens module 2 moves and elasticity pushes against second adjusting part 42 and moves in a predetermined distance d 0, make second of second adjusting part 42 interfere drive mechanism 420 to replace the also first interference drive mechanism 410 of stable engagement first adjusting part 41 towards camera lens module 2, adjust the optical parametric of camera lens module 2 so that the second interference drive mechanism 420 drives the first interference drive mechanism 410 by first adjusting part 41, below will further narrate the thin portion structure of present embodiment.

See also Fig. 1 and cooperate Fig. 2, wherein Fig. 2 is the partial exploded view of optical devices shown in Figure 1.As shown in Figure 2, first adjusting part 41 of the optical adjustment assembly 4 of optical devices 1 is interfered the drive mechanism 410 except first, still comprise the first camera lens set collar 411 and the second camera lens set collar 412, in present embodiment, the first camera lens set collar 411 is the semicircle arc structure in fact, it can partly be covered in the top of camera lens module 2, and the extension of the edge of the first camera lens set collar 411 is provided with fastener 4111, and the second camera lens set collar 412 can be the semicircle arc structure equally, it is arranged at the below of camera lens module 2 corresponding to the first camera lens set collar 411, and be provided with the fastener 4111 of a hole (not shown) corresponding to the first camera lens set collar 411, be with first, the second camera lens set collar 411,412 can be by fastener 4111 and hole cooperation and for example be aided with assembly such as screw and firmly be connected each other, with form in fact with camera lens module 2 axially, that is directions X, coaxial circular ring structure, and camera lens module 2 parts are located in first, the second camera lens set collar 411, between 412, so that first, the second camera lens set collar 411,412 can utilize when rotating the guide groove (not shown) of inner lines (not icon) and camera lens module 2 to screw togather and regulate optical parametrics such as the focal length of camera lens module 2 or enlargement ratio, and optical parametric is a focal length in present embodiment, but not as limit.Interfere drive mechanism 410 to can be a toothrow as for first of present embodiment, and first interfere drive mechanism 410 to be parallel to axial vertical plane with camera lens module 2 in fact, that is YZ plane, and first interferes drive mechanism 410 to be provided with along the surface of the first camera lens set collar 411 and to protrude with respect to the first camera lens set collar 411, and the first interference drive mechanism 410, for example: the width of toothrow is W1, and tooth pitch then is G.

Please consult Fig. 2 again, second adjusting part 42 comprises that second interferes drive mechanism 420 and auxiliary fixed component 421, in present embodiment, auxiliary fixed component 421 can comprise plate 4211, axial region 4212 and extension 4213, axial region 4212 roughly is arranged at the central authorities of plate 4211 and protrudes perpendicular to a side of plate 4211, so that interfere drive mechanism 420 in order to sheathed second, can extend by two relative terminals of plate 4211 as for 4213 of extensions, in other words, the number of extension 4213 is good with two, and in present embodiment, extension 4213 and axial region 4212 can be arranged at the same side of plate 4211, extension 4213 can be a groove shape structure, and each extension 4213 also is provided with a perforation 4210, for example: circular perforations, perforation 4210 runs through the bottom surface of the extension 4213 of groove shape structure in fact, and the plate 4211 of the auxiliary fixed component 421 of present embodiment, axial region 4212 and extension 4213 with one-body molded be good, but not as limit.Second of second adjusting part 42 of present embodiment interferes drive mechanism 420 to can be gear, it is sheathed on the axial region 4212 of auxiliary fixed component 421 and is arranged between two extensions 4213, and can further be fixed in axial region 4212 and interfere drive mechanism 420 to be folded between the collar 4214 and the plate 4211 second by the collar 4214, to avoid second to interfere drive mechanism 420 when rotating, on auxiliary fixed component 421, to come off, interfere drive mechanism 420 (shown in first figure) thereby carry second by auxiliary fixed component 421; And the second interference drive mechanism 420, for example: the width W 2 of gear is interfered the width W 1 of drive mechanism 410 in fact less than first of first adjusting part 41, the second wheel transverse tooth thickness T that interferes drive mechanism 420 then interferes the tooth pitch G of drive mechanism 410 to cooperate but be slightly less than first to interfere the tooth pitch G of drive mechanism 410 with first, and the difference between the tooth pitch G of the right second wheel transverse tooth thickness T that interferes drive mechanism 420 and the first interference drive mechanism 410 also is unlikely to influence cooperatively interacting of first, second interference drive mechanism 410,420.

Elastic parts 43 as for the optical adjustment assembly 4 of present embodiment can be selected from coil spring in fact, its number is good with two, but not as limit, elastic parts 43 comprises first end 431, the second end 432 and passage 433, and wherein first, second end 431,432 is corresponding mutually.

Please consult Fig. 2 again, the cap structure 3 of optical devices 1 can be covered on the camera lens module 2 to small part, cap structure 3 has operating space 30, and operating space 30 comprises a broken groove 301, it can be arranged at the bottom surface of operating space 30 and be communicated with operating space 30, to interfere drive mechanism 420 parts to pass brokenly groove 301 for second when second adjusting part 42 makes up with cap structure 3.In addition, cap structure 3 also comprises extending column 31 and baffle plate 32, in present embodiment, extending column 31 and baffle plate 32 can be extended towards the direction of camera lens module 2 by the bottom surface of operating space 30, and its bearing of trend is being good axially perpendicular to camera lens module 2, in other words, the extending column 31 of present embodiment and baffle plate 32 can extend along the Z direction, wherein the number of extending column 31 can be two, it roughly is divided into brokenly two opposite ends of groove 301, and extending column 31 can be cylindrical structural, it is perforation 4210 apertures of auxiliary fixed component 421 its extensions 4213 of corresponding matching second adjusting part 42 in fact, and the external diameter of the cylindrical structural of extending column 31 is in fact less than the internal diameter of the passage 433 of elastic parts 43, the shape of right extending column 31, number is as limit, then can be three as for the number of baffle plate 32, and those baffle plates 32 are online always for good to be arranged at, yet should understand, the number of baffle plate 32 and size do not have yet the institute limit, visual demand is adjusted.

Please consult Fig. 2 again and cooperate Fig. 1, first adjusting part 41 of optical adjustment assembly 4 is arranged on the camera lens module 2, second adjusting part 42 then can link to each other with cap structure 3 with elastic parts 43, when second adjusting part 42 and elastic parts 43 are desired with respect to 3 configurations of cap structure, passage 433 correspondences of elastic parts 43 are arranged in the extending column 31 of cap structure 3, extending column 31 can be placed in the passage 433 of elastic parts 43,4210 of perforation as for auxiliary fixed component 421 its extensions 4213 that are arranged with the second interference drive mechanism 420 can be corresponding to the extending column 31 of cap structure 3, and be locked on the extending column 31 by the perforation 4210 that locked assembly 5 runs through extension 4213, to utilize locked assembly 5 to resist to avoid second adjusting part 42 to come off on by cap structure 3 in the bottom surface of the extension 4213 of auxiliary fixed component 421, and limit the direction that second adjusting part 42 extends in extending column 31 by locked assembly 5, that is Z direction, the falling-threshold position, interfere this moment second drive mechanism 420 then can partly correspondingly pass cap structure 3 operating space 30 broken groove 301 and part is placed in the operating space 30, and 4211 of the plates of auxiliary fixed component 421 can be resisted against on the baffle plate 32 of cap structure 3, aperture and extending column 31 owing to perforation 4210 cooperatively interacts again, therefore as can be known, extending column 31 can pass perforation 4210 in fact, second adjusting part 42 is able to along the Z direction with respect to extending column 31 activities, in other words, second adjusting part 42 is movably connected in cap structure 3, and second adjusting part 42 in fact can be movable in a predetermined distance d 0 in 30 bottom surfaces, operating space, that is along movable between the falling-threshold position of extending column 31 bearing of trends.

Please consult Fig. 1 again, because elastic parts 43 is sheathed on the extending column 31 of cap structure 3, and the extension 4213 of auxiliary fixed component 421 is also with its perforation 4210 extending columns 31 corresponding to cap structure 3, therefore after second adjusting part 42 disposes by locked assembly 5 and with respect to cap structure 3, elastic parts 43 can be by auxiliary fixed component 421 the support of extension 4213 be arranged between the cap structure 3 and second adjusting part 42, wherein the first end 431 of elastic parts 43 contacts with cap structure 3 in fact, the second end 432 then can be contacted with the extension 4213 of auxiliary fixed component 421, and since extension 4213 structures in the form of slot of present embodiment be placed in the extension 4213 so the second end 432 of elastic parts 43 also can be considered.Should understand in addition, when second adjusting part 42 was mobile in predetermined distance d 0, elastic parts 43 can provide elasticity pushing and pressing strength in second adjusting part 42.

Please consult Fig. 3 again and cooperate Fig. 1, wherein Fig. 3 is the combination synoptic diagram of the present invention's optical devices shown in Figure 2.As shown in Figure 3, camera lens module 2 can be carried on the pedestal 10 of optical devices 1, the cap structure 3 that is connected with second adjusting part 42 and elastic parts 43 then can be covered on the camera lens module 2 to small part, wherein, second of second adjusting part 42 interferes drive mechanism 420 in fact corresponding to the first interference drive mechanism 410 that is arranged on first adjusting part 41 on the camera lens module 2, and in present embodiment, when optical devices 1 configuration is finished, second of second adjusting part 42 interferes drive mechanism 420 in extending column 31 bearing of trends, that is Z direction, falling-threshold position to the minor increment of pedestal 10 be d2, wherein should apart from d2 be not more than in fact camera lens module 2 in the Z direction when pedestal 10 produces peak excursions, it is d1 that first of first adjusting part 41 is interfered drive mechanism 410 to the ultimate range of pedestal 10, in other words, when 42 of second adjusting parts falling-threshold position in the Z direction, its second interference drive mechanism 420 can interfere drive mechanism 410 contact with first of first adjusting part 41 really, again because the second interference drive mechanism 420 of present embodiment is a gear, it takes turns transverse tooth thickness T can cooperate the tooth pitch G that interferes the tooth pitch G of drive mechanism 410 and be slightly less than the first interference drive mechanism 410 in fact for first of toothrow, and therefore second interferes drive mechanism 420 to be meshing with each other with the first interference drive mechanism 410.

Yet, camera lens module 2 may be done adjustment slightly on being disposed at pedestal 10 time, and also may make camera lens module 2 produce displacement slightly in carrying or the use because of rocking with respect to pedestal 10, for example millimetre-sized displacement, for example, when camera lens module 2 when the Z direction upwards is offset with respect to pedestal 10, first of first adjusting part 41 is interfered drive mechanism 410 will replace second of second adjusting part 42 and is interfered drive mechanism 420, again because the second interference drive mechanism 420 is sheathed on the axial region 4212 of auxiliary fixed component 421, therefore second interferes drive mechanism 420 to move on the whole by the auxiliary fixed component 421 of further drive, to be arranged at the elastic parts 43 between auxiliary fixed component 421 and the cap structure 3 by extension 4213 compressings, making elastic parts 43 produce a reacting force interferes drive mechanism 420 to be resisted against first really with second and interferes drive mechanism 410 towards the pushing and pressing of camera lens module 2 directions, in other words, elastic parts 43 can be along with moving of camera lens module 2 elasticity to push against second adjusting part 42 mobile in predetermined distance d 0 in, make second of second adjusting part 42 interfere drive mechanism 420 to be resisted against the first interference drive mechanism 410 towards the direction of camera lens module 2, in addition, because the plate 4211 of the auxiliary fixed component 421 of second adjusting part 42 is resisted against the baffle plate 32 of cap structure 3, therefore when second adjusting part 42 along with the displacement of camera lens module 2 in predetermined distance d 0 when mobile, can be by baffle plate 32 auxiliary restriction second adjusting parts 42 in directions X, that is the moving of the axial direction of camera lens module 2, make its can be stably the activity in 0 along the Z direction in predetermined distance d; As for being offset towards pedestal 10 when camera lens module 2, that is be directed downwards when skew along Z, because first of first adjusting part 41 interfered drive mechanism 410 to be not less than second adjusting part 42 in fact when the falling-threshold position of Z direction to the ultimate range d1 of pedestal 10 when it produced peak excursion, its second interference drive mechanism 420 to the minor increment of pedestal 10 is d2, so first, second interferes drive mechanism 410,420 still can be engaged with each other, hence one can see that, no matter how camera lens module 2 moves on the Z direction, all can push against second adjusting part 42 by elastic parts 43 elasticity moves in a predetermined distance d 0, make second to interfere drive mechanism 420 to replace and stably be engaged in first and interfere drive mechanism 410 towards the direction of camera lens module 2, in other words, elastic parts 43 can provide a buffering adjusting and be unlikely to influence the engagement that contacts that the second interference drive mechanism 420 and first is interfered 410 of drive mechanisms.

Because cooperating in fact and be slightly less than first, the wheel transverse tooth thickness T of the second interference drive mechanism 420 interferes the tooth pitch G of drive mechanism 410 again, therefore if camera lens module 2 has when being offset slightly in the Y direction, second interferes the gear teeth of drive mechanism 420 still can drop on first interferes 410 liang of adjacent wheel between cog of drive mechanism; In addition, because first width W 1 of interfering drive mechanism 410 is in fact greater than second width W 2 of interfering drive mechanism 420, therefore if camera lens module 2 is when directions X produces displacement slightly, first interferes drive mechanism 410 still can contain second interferes drive mechanism 420, therefore can assist by first width W 1 of interfering drive mechanism 410, width W 2, wheel transverse tooth thickness T that tooth pitch G and second interferes drive mechanism 420 and avoid second to interfere drive mechanism 420 with respect to 410 disengagings of the first interference drive mechanism.

As shown in the above description, even if camera lens module 2 is in the process that is configured in pedestal 10 or in carrying, may be in the use in X, Y, the Z direction produces millimetre-sized offset, right its all can utilize and can keep the stable engagement that the second interference drive mechanism 420 and first is interfered 410 of drive mechanisms with respect to second adjusting part, the 42 collocation elastic partss 43 of cap structure 3 activities, therefore open the operating space 30 of cap structure 3 and when regulating the second interference drive mechanism 420 as the user, just can interfere drive mechanism 420 to drive first by second interferes drive mechanism 410 further to rotate first of first adjusting part 41, the second camera lens set collar 411,412, so that regulate the optical parametric of camera lens module 2.

Certainly, the present invention is not limited to above-mentioned enforcement aspect, for example, in some embodiment, also can utilize the leaf spring of ㄑ font replace in the foregoing description coil spring and as elastic parts, wherein the first end of leaf spring can utilize as locked assembly etc. and be fixed on the cap structure, the second end then can be connected in the extension of the auxiliary fixed component of second adjusting part, it can utilize the physical characteristics elasticity of leaf spring to push against second adjusting part equally and move in a preset distance, makes second to interfere drive mechanism to replace and keep with first of first adjusting part and interfere the stable engagement of drive mechanism towards the camera lens module direction.And the interference drive mechanism of first in the above embodiment of the present invention and the second interference drive mechanism are that example explains with toothrow and gear respectively, so should understand, in some embodiment, also can change with the helical structure that can cooperatively interact toothrow and gear alternative, change speech, such as any can all can be applicable to the present invention and interfere drive mechanism by interfering with each other the structure of reaching the transmission purpose as first, second.

In addition, embodiments of the invention are disposed at the auxiliary fixed component of second adjusting part with two elastic partss two relative terminals are that example describes, this configuration mode helps stablizing the activity along the Z direction in preset distance of second adjusting part, so should understand, in some embodiment, the use that also optionally directly utilizes elastic parts connection second interference drive mechanism and cap structure and omit auxiliary fixed component, and the number of elastic parts does not exceed with two, for example, in some embodiment, also can use single leaf spring as elastic parts, and with this elastic parts first, the second end is fixed in a wherein terminal of cap structure and auxiliary fixed component respectively, and it can utilize leaf spring one regulating effect to be provided and to be unlikely to influence enforcement of the present invention equally; Certainly, in some embodiment, the number of also visual increase in demand elastic parts is with the effect of strengthening regulating.Hence one can see that, the real nothing of elastic parts of the present invention and number thereof and configuration mode institute limits, any have elasticity, and configurable between second adjusting part and cap structure so that the buffering regulating effect to be provided, push against second adjusting part and make second to interfere drive mechanism can stably be engaged in the first interference drive mechanism with mobile elasticity, all can be applicable to the present invention along with camera lens module.

In sum, optical adjustment assembly of the present invention mainly can utilize the elastic parts that is disposed between second adjusting part and the cap structure that regulating effect is provided, and by first width of interfering drive mechanism, tooth pitch and second is interfered the width of drive mechanism, the mutual collocation of wheel transverse tooth thickness is assisted and is avoided first, second interferes drive mechanism relative to each other to break away from, even if be that camera lens module with optical devices of the present invention is in configuration, may produce displacement slightly during use, it still can second adjusting part by movable cooperates the physical characteristics elasticity of elastic parts to push against second adjusting part to move in a preset distance, make second to interfere drive mechanism to replace and stably interfere drive mechanism to keep engagement with first towards the direction of camera lens module, so just need not to use the fixed camera lens module of prior art, relatively also can reduce the assembly accuracy requirement of camera lens module, thereby reduce the cost of optical devices, and can avoid existing fixed camera lens module because of carrying on the back the burnt fixing defective that influences projected picture.

In addition, when optical adjustment component application of the present invention in more small-sized optical devices, for example: during ultrashort out-of-focus projection machine, because the space of its cap structure is limited, it is second adjusting part that cooperatively interacts with first adjusting part to set up by the present invention, and the second interference drive mechanism of mat second adjusting part is interfered the first interference drive mechanism that drives first adjusting part that is arranged on the camera lens module, design with indirect regulation camera lens module optical parametric, remove and to avoid corresponding first adjusting part of perforation being set and the problem of directly regulating the optical devices overall volume increase that optical parametric institute may cause, also can keep the optical devices integral aesthetic property and make optical devices be met the miniaturization demand by first adjusting part in the cap structure.

Moreover, because structure of the present invention is simple and elastic parts with low cost, be waiting the technology of optical parametric compared to existing focusing by the motor transmission, the present invention also can reduce the whole cost of optical devices by the expense of reduction part, and simplifies the complexity of its configuration.The present invention is with the second interference drive mechanism of second adjusting part of manual adjustments optical adjustment assembly again, and interfere drive mechanism to drive first by second and interfere drive mechanism to rotate the optical parametric that first, second camera lens set collar is adjusted camera lens module, except that need not considering the complicated mechanical configuration, in the time of also can avoiding by motor transmission adjusting optical parametric, because of machinery inertial causes being difficult to the accurately problem of adjusting.Because above-mentioned feature and advantage are all prior art can't be obtained, are to have industrial value with optical devices of the present invention and optical adjustment assembly thereof, and meeting every requirement and condition applied for a patent, files an application in the whence in accordance with the law.

Can appoint by those skilled in the art even if the present invention has been described in detail by the foregoing description and to execute the craftsman and think and do and modify as all, still all not break away from protection domain as attached claims.

Claims (19)

1. optical devices, it comprises:

One camera lens module;

One cap structure, it covers this camera lens module to small part; And

One optical adjustment assembly, it comprises:

One first adjusting part, it is arranged on this camera lens module and comprises that one first interferes drive mechanism;

One second adjusting part, it is movably connected in this cap structure, and comprises that one second interferes drive mechanism; And

One elastic parts, it is arranged between this cap structure and this second adjusting part, and along with this camera lens module moves and elasticity pushes against this second adjusting part and moves in a preset distance, make this second interference drive mechanism of this second adjusting part replace also this first interference drive mechanism of this first adjusting part of stable engagement, adjust the optical parametric of this camera lens module so that this second interference drive mechanism drives this first interference drive mechanism by this first adjusting part towards this camera lens module.

2. optical devices as claimed in claim 1, wherein this first adjusting part of this optical adjustment assembly also comprises:

One first camera lens set collar, this first interference drive mechanism protrudes with respect to this first camera lens set collar; And

One second camera lens set collar, it is connected with this first camera lens set collar, this camera lens module partly being located between this first camera lens set collar and this second camera lens set collar, and when rotating, this first camera lens set collar and this second camera lens set collar regulate the optical parametric of this camera lens module.

3. optical devices as claimed in claim 1, wherein this second adjusting part of this optical adjustment assembly comprises an auxiliary fixed component, should comprise a plate and an axial region by auxiliary fixed component, this axial region is arranged at this plate central authorities in fact, and this second interference drive mechanism is sheathed on this axial region.

4. optical devices as claimed in claim 3, wherein this elastic parts of this optical adjustment assembly comprises a first end and a second end of mutual correspondence, this first end contacts with this cap structure, and this second end contacts with the fixed component of should assisting of this second adjusting part.

5. optical devices as claimed in claim 4, wherein this second adjusting part of this optical adjustment assembly should also comprise an extension by auxiliary fixed component, its two relative terminals by this plate are extended, and this second end of this elastic parts is contacted with this extension.

6. optical devices as claimed in claim 5, wherein this cap structure comprises an extending column, it extends towards this camera lens module direction, and this second adjusting part should auxiliary fixed component each this extension also comprise a perforation, this perforation is to should extending column.

7. optical devices as claimed in claim 6, it also comprises a locked assembly, this locked assembly runs through this perforation of being somebody's turn to do this extension of assisting fixed component of this second adjusting part and is locked on this extending column of this cap structure, so that this second adjusting part is movably connected in this cap structure.

8. optical devices as claimed in claim 7, wherein this elastic parts of this optical adjustment assembly is essentially coil spring and comprises a passage, and this elastic parts is arranged on this extending column of this cap structure with this passage.

9. optical devices as claimed in claim 3, wherein this cap structure also comprises a baffle plate, this plate of fixed component of should assisting of this second adjusting part is resisted against this baffle plate, so that limit the displacement of this second adjusting part with respect to the axial direction of this camera lens module by this baffle plate.

10. optical devices as claimed in claim 1, wherein this cap structure also comprises an operating space, this operating space comprises a broken groove, and this second interference drive mechanism of this second adjusting part partly passes this broken groove and is arranged in this operating space.

11. optical devices as claimed in claim 1, wherein this first interference drive mechanism of this first adjusting part of this optical adjustment assembly is a toothrow, and this second interference drive mechanism of this second adjusting part is a gear.

12. optical devices as claimed in claim 11, wherein this first width of interfering drive mechanism of this first adjusting part of this optical adjustment assembly is in fact greater than this second width of interfering drive mechanism of this second adjusting part.

13. optical devices as claimed in claim 11, wherein the tooth pitch of this first interference drive mechanism of this first adjusting part of this optical adjustment assembly is slightly larger than the wheel transverse tooth thickness of this second interference drive mechanism of this second adjusting part in fact.

14. optical devices as claimed in claim 1, it is a ultrashort out-of-focus projection machine.

15. an optical adjustment assembly, it is applied to optical devices, and these optical devices comprise a cap structure and a camera lens module, and this cap structure to small part covers this camera lens module, and this optical adjustment assembly comprises:

One first adjusting part, it is arranged on this camera lens module and comprises that one first interferes drive mechanism;

One second adjusting part, it is movably connected in this cap structure, and comprises that one second interferes drive mechanism; And

One elastic parts, it is arranged between this cap structure and this second adjusting part, and along with this camera lens module moves and elasticity pushes against this second adjusting part and moves in a preset distance, make this second interference drive mechanism of this second adjusting part replace also this first interference drive mechanism of this first adjusting part of stable engagement, adjust the optical parametric of this camera lens module so that this second interference drive mechanism drives this first interference drive mechanism by this first adjusting part towards this camera lens module.

16. optical adjustment assembly as claimed in claim 15, wherein this first adjusting part also comprises:

One first camera lens set collar, this first interference drive mechanism protrudes with respect to this first camera lens set collar; And

One second camera lens set collar, it is connected with this first camera lens set collar, this camera lens module partly being located between this first camera lens set collar and this second camera lens set collar, and when rotating, this first camera lens set collar and this second camera lens set collar regulate the optical parametric of this camera lens module.

17. optical adjustment assembly as claimed in claim 16, wherein this second adjusting part comprises an auxiliary fixed component, and this auxiliary fixed component comprises:

One plate;

One axial region, it is arranged at this plate central authorities in fact, and this second interference drive mechanism is sheathed on this axial region; And

One extension, its two relative terminals by this plate are extended, and each this extension comprises a perforation.

18. optical adjustment assembly as claimed in claim 17, wherein this cap structure comprises an extending column, it extends towards this camera lens module direction, and this second adjusting part should auxiliary fixed component this perforation of this extension to should extending column, and run through this perforation and be locked on this extending column by a locked assembly, so that this second adjusting part is movably connected in this cap structure.

19. optical adjustment assembly as claimed in claim 18, wherein this elastic parts is essentially coil spring and comprises a first end, a second end and a passage, this first end contacts with this cap structure, this the second end contacts with this extension of fixed component of should assisting of this second adjusting part, and this extending column of this cap structure is placed in this passage.

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