U.S. patent application number 15/459958 was filed with the patent office on 2018-05-24 for light-pipe adjusting apparatus.
The applicant listed for this patent is HISENSE CO., LTD., HISENSE INTERNATIONAL CO., LTD., HISENSE USA CORPORATION. Invention is credited to XIUYAN CAO, WENSHENG LU.
Application Number | 20180143515 15/459958 |
Document ID | / |
Family ID | 62125444 |
Filed Date | 2018-05-24 |
United States Patent
Application |
20180143515 |
Kind Code |
A1 |
CAO; XIUYAN ; et
al. |
May 24, 2018 |
LIGHT-PIPE ADJUSTING APPARATUS
Abstract
The present application provides a light-pipe adjusting
apparatus comprising: a first support; a light-pipe component,
slidably connected to the first support via a first rail; and a
first drive device, provided on the first support and connected to
the light-pipe component for driving the light-pipe component to
slide along the first rail. The present application can improve the
accuracy and reliability of the position adjustment of the
light-pipe component.
Inventors: |
CAO; XIUYAN; (QINGDAO,
CN) ; LU; WENSHENG; (QINGDAO, CN) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
HISENSE CO., LTD.
HISENSE USA CORPORATION
HISENSE INTERNATIONAL CO., LTD. |
QINGDAO
SUWANEE
QINGDAO |
GA |
CN
US
CN |
|
|
Family ID: |
62125444 |
Appl. No.: |
15/459958 |
Filed: |
March 15, 2017 |
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
G03B 21/208 20130101;
G02B 7/004 20130101; G03B 21/142 20130101; G02B 26/0833 20130101;
G03B 21/145 20130101; G02B 6/0096 20130101; G02B 27/0994 20130101;
G03B 21/2066 20130101; G02B 6/0091 20130101 |
International
Class: |
G03B 21/14 20060101
G03B021/14; G02B 7/00 20060101 G02B007/00; G02B 27/09 20060101
G02B027/09; F21V 8/00 20060101 F21V008/00; G02B 26/08 20060101
G02B026/08; G03B 21/20 20060101 G03B021/20 |
Foreign Application Data
Date |
Code |
Application Number |
Nov 18, 2016 |
CN |
201611028957.2 |
Claims
1. A light-pipe adjusting apparatus, comprising: a first support; a
light-pipe component, slidably connected to the first support via a
first rail; a first drive device, provided on the first support and
connected to the light-pipe component for driving the light-pipe
component to slide along the first rail.
2. The light-pipe adjusting apparatus according to claim 1, wherein
the first drive device comprises a first rotation member, the first
rotation member is rotationally connected to the first support and
is in contact with the light-pipe component, and the first rotation
member is rotatable relative to the first support for driving the
light-pipe component to slide along the first rail.
3. The light-pipe adjusting apparatus according to claim 2, wherein
the light-pipe component comprises a protective sleeve; the
protective sleeve is provided in a manner of sleeving on a
light-pipe of the light-pipe component, thereby allowing the
light-pipe component to slide along the first rail via the
protective sleeve; the protective sleeve is provided with a first
rack arranged in parallel with the first rail, and stripes of the
first rack are perpendicular to the first rail; the first rotation
member comprises a first shaft and a first gear, wherein the first
gear is provided in a manner of sleeving on the first shaft and
meshing with the first rack, the first shaft is perpendicular to
the first rail, the first gear is rotationally connected to the
first support via the first shaft, and when the first gear rotates
about the first shaft, the first gear drives the light-pipe
component to slide along the first rail via the first rack.
4. The light-pipe adjusting apparatus according to claim 3, further
comprising: a first positioning bolt and a first positioning
member, wherein the first positioning member is provided on the
first support via the first positioning bolt; the first gear is
fixed relative to the first shaft and rotationally connected to the
first support, and the first positioning bolt is used to extend and
contract in a radial direction of the first shaft, thereby allowing
the first positioning member to contact and hold the first shaft
and to position the first shaft relative to the first support.
5. The light-pipe adjusting apparatus according to claim 3, further
comprising a second support and a second drive device, wherein the
first support is slidably connected to the second support via a
second rail, the second rail is perpendicular to the first rail,
and the second drive device is provided on the second support and
connected to the first support for driving the first support to
slide along the second rail.
6. The light-pipe adjusting apparatus according to claim 5, wherein
the first rail and the second rail are provided in a radial
direction of the light-pipe component.
7. The light-pipe adjusting apparatus according to claim 6, wherein
the first rail is arranged in a vertical direction and the second
rail is arranged in a horizontal direction.
8. The light-pipe adjusting apparatus according to claim 5, wherein
the second drive device comprises a second rotation member
rotationally connected to the second support and in contact with
the first support, and the second rotation member is rotatable
relative to the second support for driving the first support to
slide along the second rail.
9. The light-pipe adjusting apparatus according to claim 8, wherein
the first support is provided with a second rack arranged in
parallel with the second rail; the second rotation member comprises
a second shaft and a second gear, the second gear is provided in a
manner of sleeving on the second shaft and meshing with the second
rack, the second shaft is perpendicular to the second rail, the
second gear is rotationally connected to the second support via the
second shaft, and when the second gear rotates about the second
shaft, the second gear drives the first support to slide along the
second rail via the second rack, and stripes of the second rack are
perpendicular to the second rail.
10. The light-pipe adjusting apparatus according to claim 9,
further comprising: a second positioning bolt and a second
positioning member provided on the second support via the second
positioning bolt; wherein the second gear is fixed relative to the
second shaft and rotationally connected to the second support, and
the second positioning bolt is capable of extending and contracting
in a radial direction of the second shaft, thereby allowing the
second positioning member to support the second shaft and to
position the second shaft relative to the second support.
11. The light-pipe adjusting apparatus according to claim 9,
wherein the first support comprises: a first support member, a
second support member, and a third support member; the first rail
comprises a first dovetail groove and a first dovetail joint; a
surface of the third support member is provided with the first
support member and the second support member parallel to each
other, the first dovetail groove is provided on a surface of the
first support member opposite to the second support member and on a
surface of the second support member opposite to the first support
member, a position of the first dovetail groove on the first
support member is same as a position of the first dovetail groove
on the second support member, the protective sleeve is provided
with the first dovetail joint corresponding to the first dovetail
groove, and the light-pipe component is capable of sliding along
the first dovetail groove via the first dovetail joint; another
surface of the first support member away from the second support
member is provided with a first groove adapting to the first
rotation member, and the first groove and the first dovetail groove
are perpendicular to each other; when the first rotation member is
provided on the first seat via the first groove, the first support
member is provided with a first through hole at a position
corresponding to the first gear of the first rotation member, so
that the first gear meshes with the first rack on the protective
sleeve via the first through hole.
12. The light-pipe adjusting apparatus according to claim 11,
wherein the protective sleeve comprises: a hollow sleeve body; the
sleeve body sleeves on the light-pipe; a surface of the sleeve body
opposite to the first support member is provided with the first
dovetail joint corresponding to the first dovetail groove on the
first support member, and a surface of the sleeve body opposite to
the second support member is provided with the first dovetail joint
corresponding to the first dovetail groove on the second support
member; the first rack is provided on a surface of the sleeve body
corresponding the first support member at a position corresponding
to the first through hole.
13. The light-pipe adjusting apparatus according to claim 11,
wherein the second rail comprises: a second dovetail groove and a
second dovetail joint; another surface of the third support member
away from the first support member and the second support member is
provided with the second dovetail joint, a surface of the second
support opposite to the third support member is provided with the
second dovetail groove, and the third support member is capable of
sliding along the second dovetail groove via the second dovetail
joint; another surface of the third support member away from the
first support member and the second support member is provided with
the second rack; and another surface of the second support away
from the third support member is provided with a second groove
adapting to the second rotation member, wherein the second groove
and the second dovetail groove are perpendicular to each other;
when the second rotation member is provided on the second support
via the second groove, the second support is provided with a second
through hole at a second gear of the second rotation member,
thereby allowing the second gear to mesh with the second rack via
the second through hole.
14. An optical-mechanical system, comprising: a light source
optical structure, a reflector, a digital micro-mirror device
(DMD), a projection lens, and a light-pipe adjusting apparatus;
wherein the light-pipe adjusting apparatus comprises: a first
support; a light-pipe component, slidably connected to the first
support via a first rail; a first drive device, provided on the
first support and connected to the light-pipe component for driving
the light-pipe component to slide along the first rail; wherein the
light-pipe adjusting apparatus is configured to adjust position of
the light-pipe component according to light-outputting position of
the light source optical structure, thereby allowing a light beam
emitted from the light source optical structure to enter into a
light-pipe of the light-pipe component for homogenizing; the
homogenized light beam enters into the illuminating optical path of
the DMD via the reflector, so as to enter into the projection lens
via the illuminating optical path of the DMD.
Description
CROSS REFERENCE TO RELATED APPLICATION
[0001] This application claims priority to Chinese Patent
Application No. 201611028957.2, filed on Nov. 18, 2016 and entitled
"Light-Pipe Adjusting Apparatus", the content of which is
incorporated by reference in its entirety.
TECHNICAL FIELD
[0002] The present application relates to optical device
technology, and more particularly to a light-pipe adjusting
apparatus.
BACKGROUND
[0003] Light-pipe is a common light-homogenizing element, which is
used to homogenize light beam. The light-pipe includes a tube which
is covered with a reflection layer. When enters the light-pipe, the
light beam is reflected repeated in the tube, therefore the
enterned light beam is homogenized. In the optical-mechanical
system, the light beam from the light source optical structure
first enters into the light-pipe for homogenizing and then enters
into the digital micromirror device (DMD) illuminating optical
path. When the light-pipe deviates from a predetermined position or
the light-outputting position of the light source optical structure
is adjusted, the position of the light-pipe needs to be adjusted by
using the light-pipe adjusting apparatus to ensure
light-homogenizing effect.
[0004] Referring to FIG. 1, the light-pipe adjusting apparatus in
the related art includes a pipe body 101, an adjusting system, and
a light-pipe 102. The adjusting system includes an elastic member
103 and a bolt 104. Herein, the elastic member 103 is provided in
the pipe body 101, the bolt 104 is connected to a screw hole of the
pipe body 101 and can extend into the pipe body 101 along a radial
direction of the pipe body 101, the bolt 104 is provided in the
same direction as the elastic member 103, and the light-pipe 102 is
inserted in the pipe body 101 and sandwiched between the elastic
member 103 and the bolt 104. The light-pipe 102 can be positioned
by the clamping action between the bolt 104 and the elastic member
103, and the bolt 104 can radially extend and contract by rotating
the bolt 104, so as to adjust the relative position of the
light-pipe 102 and the pipe body 101, and further adjust the
position of the light-pipe 102 in the optical path, thereby
ensuring the light-homogenizing effect.
SUMMARY
[0005] The present application provides a light-pipe adjusting
apparatus.
[0006] The present application provides a light-pipe adjusting
apparatus, including:
[0007] a first support;
[0008] a light-pipe component, slidably connected to the first
support by a first rail;
[0009] a first drive device, provided on the first support and
connected to the light-pipe component for driving the light-pipe
component to slide along the first rail.
[0010] The present application also provides an optical-mechanical
system, including: a light source optical structure, a light-pipe
component, a reflector, a digital micromirror device (DMD), a
projection lens, and a light-pipe adjusting apparatus;
[0011] the light-pipe adjusting apparatus, is configured to adjust
position of the light-pipe component according to light-outputting
position of the light source optical structure, thereby allowing a
light beam emitted from the light source optical structure to enter
into a light-pipe of the light-pipe component for homogenizing; and
the homogenized light beam enters into the illuminating optical
path of the DMD via the reflector, so as to enter into the
projection lens via the illuminating optical path of the DMD.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] FIG. 1 is a schematic structural diagram of a light-pipe
adjusting apparatus in the related art;
[0013] FIG. 2 is a schematic structural diagram of a light-pipe
adjusting apparatus provided in some embodiments of the present
application;
[0014] FIG. 3 is an exploded structural diagram of a light-pipe
adjusting apparatus provided in some embodiments of the present
application;
[0015] FIG. 4 is a schematic structural diagram of a light-pipe
adjusting apparatus provided in some embodiments of the present
application;
[0016] FIG. 5 is an exploded structural diagram of a light-pipe
adjusting apparatus provided in some embodiments of the present
application;
[0017] FIG. 6 is a schematic structural diagram of an
optical-mechanical system provided in some embodiments of the
present application.
REFERENCE NUMERALS
Related Art
[0018] 101: pipe body; 102: light-pipe; 103: elastic member; [0019]
104: bolt.
The Present Application
[0019] [0020] 201: first support; 202: light-pipe component; 203:
first rail; [0021] 204: first drive device; 205: protective sleeve;
206: first rack; [0022] 207: first shaft; 208: first gear; 209:
first positioning bolt; [0023] 210: first dovetail joint; 211:
first dovetail groove; 212: second support; [0024] 213: second
drive device; 214: second rack; 215: second rotating shaft; [0025]
216: second gear; 217: second positioning bolt; 218: second rail;
[0026] 219: first positioning member; 220: first support member;
221: second support member; [0027] 222: third support member; 223:
first groove; 224: first through hole; [0028] 225: sleeve body;
226: second positioning member; 227: second dovetail joint; [0029]
228: second dovetail groove; 229: second groove; 230: second
through hole; [0030] 231: light source optical structure; 232:
reflector; 233: DMD; [0031] 234: projection lens.
DESCRIPTION OF EMBODIMENTS
[0032] Referring to FIG. 2 and FIG. 3, a light-pipe adjusting
apparatus provided in some embodiments of the present application
includes: a first support 201; a light-pipe component 202, slidably
connected to the first support 201 via a first rail 203; a first
drive device 204, provided on the first support 201 and connected
to the light-pipe component 202 for driving the light-pipe
component 202 to slide along the first rail 203.
[0033] In some embodiments of the present application, when the
position of the light-pipe component 202 needs to be adjusted, the
light-pipe component 202 can be driven to slide along the first
rail 203 via the first drive device 204. The light-pipe component
202 accurately moves along the designed path without deflecting
under the guide of the first rail 203, thereby the accuracy and
reliability of the position adjustment of the light-pipe component
202 is improved. When the light-pipe adjusting apparatus provided
in some embodiments of the present application is applied in a
projection device to adjust the position of the light-pipe
component 202, since the light-pipe component 202 can move
accurately along the designed path without deflection, the ribbon
shadow on an edge of the projection screen can be effectively
avoided and the quality of the projection screen can be
improved.
[0034] In some embodiments of the present application, the first
drive device 204 may include a first rotation member which is
rotationally connected to the first support 201 and is in contact
with the light-pipe component 202. The first rotation member is
rotatable relative to the first support 201, so as to drive the
light-pipe component 202 to slide along the first rail 203. Since
the light-pipe component 202 can be driven to slide along the first
rail 203 by the rotation of the first rotation member, a structure
of the first drive device 204 is simplified, and making the first
drive device 204 simple in operation and reliable in driving.
[0035] In some embodiments of the present application, the
light-pipe component 202 may include a protective sleeve 205. The
protective sleeve 205 sleeves on a light-pipe of the light-pipe
component 202, so that the light-pipe component 202 can slide along
the first rail 203 via the protective sleeve 205. The protective
sleeve 205 is provided with a first rack 206. The first rack 206 is
arranged in parallel with the first rail 203, and stripes of the
first rack 206 are perpendicular to the first rail 203. The first
rotation member includes a first shaft 207 and a first gear 208.
The first gear 208 sleeves on the first shaft 207 and meshes with
the first rack 206. The first shaft 207 is provided perpendicularly
to the first rail 203, and the first gear 208 is rotationally
connected to the first support 201 via the first shaft 207. The
first gear 208 rotates about the first shaft 207, so that the
light-pipe component 202 can slide along the first rail 203 via the
first rack 206. Therefore, the light-pipe component 202 can slide
along the first rail 203 by rotating the first gear 208 to adjust
the position of the light-pipe component 202, simplifying the
structure of the first drive device 204 and making the first drive
device 204 simple in operation and reliable in driving. In
addition, the first rotation member may be a rotation member such
as a roller, a screw, or the like.
[0036] In some embodiments of the present application, the
light-pipe adjusting apparatus further comprises a first
positioning bolt 209 and a positioning member 219. The first
positioning member 219 is provided on the first support 201 via the
first positioning bolt 209. The first gear 208 is fixed relative to
the first shaft 207 and rotationally connected to the first support
201. The first positioning bolt 209 is used to extend and contract
in a radial direction of the first shaft 207, thereby allowing the
first positioning member 219 to contact and hold the first shaft
207 and to position the first shaft 207 relative to the first
support 201. Thus, following the position adjustment of the
light-pipe component 202, the first shaft 207 can be positioned
relative to the first support 201 by tightening the first
positioning bolt 209, to position the first gear 208 relative to
the first support 201, and further to position the light-pipe
component 202 relative to the first support 201.
[0037] In some embodiments of the present application, the first
rail 203 includes a first dovetail joint 210 and a first dovetail
groove 211. The first dovetail joint 210 is slidably provided
within the first dovetail groove 211. Herein, the first dovetail
joint 210 may be provided on the protective sleeve 205, and the
first dovetail groove 211 may be provided on the first support 201.
Alternatively, the first dovetail joint 210 is provided on the
first support 201, and the first dovetail 211 is provided on the
protective sleeve 205. The separation of the light-pipe component
202 from the first support 201 can be prevented by the limit action
of the first dovetail joint 210 and the first dovetail groove 211,
thereby enhancing the reliability of the light-pipe adjusting
apparatus.
[0038] Illustratively, taking the first dovetail joint 210 being
provided on the protective sleeve 205, the first dovetail groove
211 being provided on the first support 201, and the first rotation
member including a first shaft 207 and a first gear 208 as example,
then as one possible implementation, the first support 201 may
include a first support member 220, a second support member 221 and
a third support member 222. Herein, a surface of the third support
member 222 is provided with the first support member 220 and the
second support member 221 which are parallel to each other. The
first dovetail grooves 211 are both provided on a surface of the
first support member 220 opposite to the second support member 221,
as well as a surface of the second support member 221 relative to
the first support member 220, where the respective positions of the
first dovetail grooves 211 on the first support member 220 and on
the second support member 221 are the same. The protective sleeve
205 is provided with the first dovetail joint 210 corresponding to
the first dovetail groove 211, and the light-pipe component 202 can
slide along the first dovetail groove 211 via the first dovetail
joint 210. Another surface of the first support member 220 away
from the second support member 221 is provided with a first groove
223 adapting to the first rotation member, and the first groove 223
and the first dovetail groove 211 are perpendicular to each other.
When the first rotation member is provided on the first support 201
via the first groove 223, the first support member 220 is provided
with a first through hole 224 at a position corresponding to the
first gear 208 of the first rotation member, thereby allowing the
first gear 208 to mesh with the first rack 206 via the first
through hole 224. Thus, the light-pipe component 202 sleeved by the
protective sleeve 205 can slide along the first dovetail joint 210
to adjust the position of the light-pipe component 202, simplifying
the structure of the first support 201 and making the first drive
device 204 simple in operation and reliable in driving.
[0039] The protective sleeve 205 may include a hollow sleeve body
225, the hollow sleeve body 205 sleeves on the light-pipe of the
light-pipe component 202. The first dovetail joint 210
corresponding to the first dovetail groove 211 of the first support
member 220 is provided on a surface of the sleeve body 225 opposite
to the first support member 220. The first dovetail joint 210
corresponding to the first dovetail groove 211 of the second
support member 221 is provided on a surface of the sleeve body 225
opposite to the second support member 221. A first rack 203 is
provided at a position corresponding to the first through hole 224
on the surface of the sleeve body 225 opposite to the first support
member 220, thereby allowing the light-pipe component 202 sleeved
by the sleeve body 225 to slide along the first dovetail groove 211
via the first dovetail joint 210 to adjusting the position of the
light-pipe component 202, and simplifying the structure of the
protective sleeve 205.
[0040] Referring to FIG. 4 and FIG. 5, in some embodiments of the
present application, the light-pipe adjusting apparatus may further
include a second support 212 and a second drive device 213. The
first support 201 is slidably connected to the second support 212
via a second rail 218, a direction of which is perpendicular to
that of the first rail 203. The second drive device 213 is provided
on the second support 212 and connected to the first support 201,
and the second drive device 213 is used to drive the first support
201 to slide along the second rail 218. The first support 201 is
driven to slide along the second rail 218 via the second drive
device 213, so that the first support 201 drives the light-pipe
component 202 to slide along the second rail 218. Since the
direction of the second rail 218 is perpendicular to that of the
first rail 203, thus, the position of the light-pipe component 202
in two mutually perpendicular directions can be adjusted. And with
the guiding effect of the second rail 218, the light-pipe component
202 can move accurately along the designed path without deflection,
thereby improving the accuracy and reliability of the position
adjustment of the light-pipe component 202. In addition, since the
light-pipe component 202 can move independently along the first
rail 203, and the first support 201 can move independently along
the second rail 218, thereby allowing independent adjustment of the
light-pipe component 202 in different dimensions and avoiding the
impacts among different dimension adjustments.
[0041] In some embodiments of the present application, both the
first rail 203 and the second rail 218 are provided in a radial
direction of the light-pipe component 202. Thus, when the
light-pipe adjusting apparatus is provided in the optical path, by
moving the light-pipe component 202 along the first rail 203 and
the second rail 218, it is convenient to adjust the incident
position of the light beam in the light-pipe component 202,
ensuring the light-homogenizing effect of light-pipe component 202
on the light beam.
[0042] In some embodiments of the present application, the first
rail 203 is provided in a vertical direction as illustrated by the
arrows in FIG. 5, and the second rail 218 is provided in a
horizontal direction which is perpendicular to the the arrows in
FIG. 5. Thus, when the light-pipe adjusting apparatus is provided
in the optical path, by moving the light-pipe component 202 in the
vertical and horizontal directions, the incident position of the
light beam in the light-pipe component 202 can be easily adjusted,
ensuring the light-homogenizing effect of light-pipe component 202
on the light beam.
[0043] In some embodiments of the present application, the second
drive device 213 may include a second rotation member, and the
second rotation member is rotationally connected to the second
support 212 and is in contact with the first support 201. The
second rotation member can rotate with respect to the second
support 212 for driving the first support 201 to slide along the
second rail 218. The first support 201 slides along the second rail
218 via the rotation of the second rotation member, facilitating
the structure of the second drive device 213 and making the second
drive device 213 simple in operation and reliable in driving.
[0044] In some embodiments of the present application, a first
support 201 is provided with a second rack 214, and the second rack
214 is arranged in parallel with the second rail 218. The second
rotation member includes a second shaft 215 and a second gear 216,
and the second gear 216 sleeves on the second shaft 215 and meshes
with the second rack 214. The second shaft 215 is provided
perpendicularly to the second rail 218, and the second gear 216 is
rotationally connected to the second support 212 via the second
shaft 215. When the second gear 216 rotates about the second shaft
215, the second gear 216 drives the first support 201 to slide
along the second rail 218, and the stripes of the second gear 216
are perpendicular to the second rail 218. Therefore, by rotating
the second gear 216, the first support 201 can slide along the
second rail 218, to adjust the position of the light-pipe component
202, simplifying the structure of the second drive device 213 and
making the second drive device 213 simple in operation and reliable
in driving.
[0045] In some embodiments of the present application, a first
support 201 is provided with a nut, and an axial direction of the
nut is arranged in parallel with the second rail 218. The second
rotation member includes a lead screw and a bearing Herein, the
lead screw penetrates the bearing, the lead screw is arranged in
parallel with the second rail 218, and the lead screw is
rotationally connected to the second support 212 via the bearing.
The screw is screwed to the nut and rotates about its own axis,
hereby driving the first support 201 to slide along the second rail
218. Therefore, the first support 201 can slide along the second
rail 218 as long as rotating the screw, to adjusting the position
of the light-pipe component 202, simplifying the structure of the
second drive device 213 and making the second drive device 213
simple in operation and reliable in driving.
[0046] In some embodiments of the present application, the second
rotation member includes a third shaft and a cam. The cam sleeves
on the third shaft, the third shaft is arranged perpendicularly to
the second rail 218, the cam is rotationally connected with the
first support 201 via the third shaft, and the cam is located on
one side of the first support 201. The cam can rotate about the
third shaft to be in contact with and make force on the second
support 212, thereby driving the first support 201 to slide along
the second rail 218. Therefore, the first support 201 can slide
along the second rail 218 as long as rotating the cam, to adjusting
the position of the light-pipe component 202, simplifying the
structure of the first support 201 and making the first drive
device 204 simple in operation and reliable in driving.
[0047] In some embodiments of the present application, the
light-pipe adjusting apparatus may further include a second
positioning bolt 217 and a second positioning member 226, where the
second positioning member 226 is provided on the second support 212
via the second positioning bolt 217. The second gear 216 is fixed
relative to the second shaft 215 and rotationally connected to the
second support 212. The second positioning bolt 217 can extend and
contract in a radial direction of the second shaft 215, allowing
the second positioning member 226 to support the second rotation
shaft 215, and to position the second shaft 215 relative to the
second support 212. Thus, following the position adjustment of the
light-pipe component 202, the second shaft 215 can be positioned
relative to the second support 212 by tightening the second
positioning bolt 217, thereby to position the second gear 216
relative to the second support 212, further to position the first
support 201 relative to the second support 212, and furthermore to
position the light-pipe component 202 relative to the second
support 212.
[0048] In some embodiments of the present application, the second
rail 218 may include a second dovetail joint 227 and a second
dovetail groove 228, where the second dovetail joint 227 is
slidably provided within the second dovetail groove 228. Herein,
the second dovetail joint 227 may be provided on the first support
201 and the second dovetail groove 228 may be provided on the
second support 212, or the second dovetail joint 227 may be
provided on the second support 212 and the second dovetail groove
228 may be provided on the first support 201. The separation of the
first support 201 from the second support 212 can be prevented by
the limit action of the second dovetail joint 227 and the second
dovetail groove 228, thereby enhancing the reliability of the
light-pipe adjusting apparatus.
[0049] Illustratively, taking the second dovetail joint 227 being
provided on the first support 201, the second dovetail groove 228
being provided on the second support 212, the second rotation
member including a second shaft 215 and a second gear 216, and the
first support 201 including a first support member 220, a second
support member 221 and a third support member 222 as example, as
one possible implementation, another surface of the third support
member 222 of the first support 201, which is away from the first
support member 220 and the second support member 221, is provided
with the second dovetail joint 227, a surface of the second support
212, which is opposite to the third support member 222, is provided
with the second dovetail groove 228, and the third support member
222 slides along the second dovetail groove 228 via the second
dovetail joint 227. Another surface of the third support member
222, which is away from the first support member 220 and the second
support member 221, is provided with a second rack 214. A second
groove 229 adapting to the second rotation member is provided on
another surface of the second support 212, which is away from the
third support member 222, and the second groove 229 is
perpendicular to the second dovetail groove 228. When the second
rotation member is provided on the second support 212 via the
second groove 229, the second support 212 is provided with a second
through hole 230 at a position corresponding to the second gear 216
of the second rotation member, thereby meshing the second gear 216
with the second rack 214 via the second through hole 230. Thus, the
first support 201 can slide along the second dovetail groove 228 as
long as rotating the second gear 216, thereby adjusting the
position of the light-pipe component 202 and simplifying the
structure of the second support 212.
[0050] FIG. 6 is a schematic structural diagram of an
optical-mechanical system provided in some embodiments of the
present application. As shown in FIG. 6, some embodiments of the
present application provide an optical-mechanical system including
a light source optical structure 231, a light-pipe component 202
(not shown) including a light-pipe 102, a reflector 232, a digital
micromirror device (DMD) 233, a projection lens 234 and a
light-pipe adjusting apparatus (not shown).
[0051] The light-pipe adjusting apparatus adjusts the position of
the light-pipe component 202 according to the light-outputting
position of the light source optical structure 231, thereby causing
the light beam emitted from the light source optical structure 231
to enter into the light-pipe 102 for homogenizing. The homogenized
light beam enters into the illuminating optical path of the DMD 233
via the reflector 232, so as to enter into the projection lens 234
via the illuminating optical path of the DMD 233.
[0052] When the light-pipe component deviates from the
predetermined position, or when the light-outputting position of
the light source optical structure is adjusted, the
optical-mechanical system of the embodiment of the present
application can adjust the position of the light-pipe component via
the light-pipe adjusting apparatus, thereby allowing the light-pipe
component to accurately move along the designed path without
deflecting, and improving the accuracy and reliability of the
position adjustment of the light-pipe component. The implementation
thereof is similar to that of the light-pipe adjusting apparatus
described in the above embodiments, and will not be repeated
here.
[0053] Lastly, it should be noted that the foregoing embodiments
are merely intended for explaining, rather than limiting, the
technical solutions of the present disclosure. Although the present
disclosure is explained in detail with reference to the foregoing
embodiments, persons of ordinary skill in the art should understand
that it remains possible to make modifications to the technical
solutions described in the foregoing embodiments, or make
equivalent replacements to some of the technical features therein,
and these modifications or replacements do not make the essence of
corresponding technical solutions depart from the spirit and scope
of the technical solutions in the embodiments of the present
disclosure.
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