CN108155542A - Laser heat expansion direction controls stabilizer blade and Optical Maser System - Google Patents
Laser heat expansion direction controls stabilizer blade and Optical Maser System Download PDFInfo
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- CN108155542A CN108155542A CN201711482482.9A CN201711482482A CN108155542A CN 108155542 A CN108155542 A CN 108155542A CN 201711482482 A CN201711482482 A CN 201711482482A CN 108155542 A CN108155542 A CN 108155542A
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- stabilizer blade
- laser
- locking nut
- support base
- rectangle
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01S—DEVICES USING THE PROCESS OF LIGHT AMPLIFICATION BY STIMULATED EMISSION OF RADIATION [LASER] TO AMPLIFY OR GENERATE LIGHT; DEVICES USING STIMULATED EMISSION OF ELECTROMAGNETIC RADIATION IN WAVE RANGES OTHER THAN OPTICAL
- H01S3/00—Lasers, i.e. devices using stimulated emission of electromagnetic radiation in the infrared, visible or ultraviolet wave range
- H01S3/02—Constructional details
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01S—DEVICES USING THE PROCESS OF LIGHT AMPLIFICATION BY STIMULATED EMISSION OF RADIATION [LASER] TO AMPLIFY OR GENERATE LIGHT; DEVICES USING STIMULATED EMISSION OF ELECTROMAGNETIC RADIATION IN WAVE RANGES OTHER THAN OPTICAL
- H01S5/00—Semiconductor lasers
- H01S5/02—Structural details or components not essential to laser action
- H01S5/022—Mountings; Housings
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- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Optics & Photonics (AREA)
- Engineering & Computer Science (AREA)
- Plasma & Fusion (AREA)
- Condensed Matter Physics & Semiconductors (AREA)
- General Physics & Mathematics (AREA)
- Lasers (AREA)
Abstract
The present invention relates to field of laser device technology, a kind of laser case swells direction controlling stabilizer blade is specifically disclosed, the first stabilizer blade, third stabilizer blade and the second stabilizer blade and the 4th stabilizer blade that are set to rectangle laser housing bottom front including being set to rectangle laser housing bottom rear end;First stabilizer blade, the second stabilizer blade, third stabilizer blade and the 4th stabilizer blade form rectangle, and one end is fixedly connected respectively with the housing of laser, and the other end is connect with fixed mesa;Third stabilizer blade and the 4th stabilizer blade are located at the same long side of rectangle laser housing, and long side is parallel to X-axis, and the second stabilizer blade and the 4th stabilizer blade are located at same broadside, are parallel to Y-axis;The 4th stabilizer blade corresponding position is provided with output window inside laser housing;For laser in thermal expansion, the 4th stabilizer blade is fixed, and third stabilizer blade is slided along X-axis, and the second stabilizer blade is slided along Y-axis, and the first stabilizer blade is slided along the first stabilizer blade and the 4th stabilizer blade line direction.Invention achieves the advantageous effects of control laser housing expansion direction.
Description
Technical field
The present invention relates to refrigeration technology field, more particularly to a kind of laser heat expansion direction control stabilizer blade and laser system
System.
Background technology
Thermal expansion is cubical expansion caused by lattice vibration aggravation after solid material is heated.For material thermal expansion system
Number larger (such as material is polyethylene, aluminium) and the product of batch production that structure type is housing, due to material and moulding process
The difference of parameter, the housing coefficient of volume expansion after each machine-shaping are slightly different.
Laser generates heat, heat transfer to housing, housing expanded by heating, so as to influence the property of laser at work
Energy.Therefore, it in order to adapt to this expansion, needs to control its expansion direction.
In the prior art, there are not the device or method that the direction expanded to laser is controlled to disclose.Therefore, in order to
The performance of laser is improved, there is an urgent need for a kind of devices of laser heat expansion direction control.
Invention content
The present invention is directed to overcome the existing uncontrollable technological deficiency of laser heat expansion direction, a kind of laser heat is provided
Expansion direction controls stabilizer blade and laser.
To achieve the above object, the present invention uses following technical scheme:
The present invention provides a kind of laser heat expansion direction control stabilizer blade, including being symmetrically disposed on the rectangle laser
First stabilizer blade at housing bottom rear end Liang Ge angles, third stabilizer blade and it is symmetrically disposed on the rectangle laser housing bottom
Second stabilizer blade and the 4th stabilizer blade at front end Liang Ge angles, first stabilizer blade, second stabilizer blade, the third stabilizer blade and described
Four stabilizer blades form rectangle, and first stabilizer blade, second stabilizer blade, the third stabilizer blade and the 4th stabilizer blade one end
It is fixedly connected respectively with the rectangle laser housing, the other end is connect with fixed mesa;
The same long side of the rectangle laser housing that the third stabilizer blade is located at the 4th stabilizer blade, the length
While being parallel to X-axis, second stabilizer blade is located at the same broadside of the rectangle laser housing with the 4th stabilizer blade, described
Broadside is parallel to Y-axis;
4th stabilizer blade is fixed supporting point, and the rectangle laser housing is internally provided at least one output window
Mouthful, one of them described output window is located at position corresponding with the 4th stabilizer blade inside the rectangle laser housing;
For the laser in thermal expansion, the 4th stabilizer blade is relative to the rectangle laser housing and the fixation
Table top is fixed, and the third stabilizer blade is slided by the laser heat expansion along X-direction, and second stabilizer blade is along Y
Axis direction is slided, and first stabilizer blade is slided along the direction of first stabilizer blade and the 4th stabilizer blade line, described so as to make
The optical path direction that the output window of laser is exported is constant.
In some embodiments, the 4th stabilizer blade includes the 4th support plate, the 7th locking nut, the 4th adjustment stud, the
Eight locking nuts, the 4th fix support base;
7th locking nut, the 8th locking nut are sheathed on successively in the 4th adjustment stud, and described the
Four adjustment studs are fixedly connected with the 4th support plate, and pass through the 7th locking nut locking;
8th locking nut is fixedly connected, and pass through the 8th locking nut with the described 4th fixation support base
Locking;
4th support plate is fixedly connected with the rectangle laser housing;Described 4th fixes support base and institute
Fixed mesa is stated to be fixedly connected;
During the case swells, the 4th stabilizer blade is fixed.
In some embodiments, an output window is located inside the rectangle laser housing to be adjusted with the described 4th
The corresponding position of whole stud, when the laser heat expands, the 4th adjustment stud is fixed, makes the output window
Position is constant.
In some embodiments, first stabilizer blade, the third stabilizer blade are symmetrically disposed on the rectangle laser housing
On two angles of bottom rear end;Before second stabilizer blade and the 4th stabilizer blade are symmetrically disposed on the rectangle laser housing bottom
On two angles at end.
In some embodiments, the third stabilizer blade includes third support plate, the 5th locking nut, third adjustment stud, the
Six locking nuts, third fix support base;
The third support plate is fixedly connected with the rectangle laser housing, and the third fixes support base and institute
Fixed mesa is stated to be fixedly connected;
The third adjustment stud is fixedly connected with the third support plate, and passes through the 5th locking nut locking;
The third adjustment stud is movably connected by the 6th locking nut fixes support bottom in the third
On seat;
During the laser heat expansion, the 6th locking nut and the third are fixed between support base by housing
The power of expansion makes the 6th locking nut fix support base relative to the third and is slided along X-direction, so as to drive
Third stabilizer blade is stated to slide along X-direction relative to the fixed mesa.
In some embodiments, second stabilizer blade includes the second support plate, third locking nut, second adjustment stud, the
Four locking nuts, second fix support base;
Second support plate is fixedly connected with the rectangle laser housing, and described second fixes support base and institute
Fixed mesa is stated to be fixedly connected;
Second support plate is fixedly connected with the second adjustment stud, and is fastened by the third locking nut;
The second adjustment nut is movably connected by the 4th locking nut and the described second fixation support base
It connects;
During the laser heat expansion, the 4th locking nut and described second is fixed between support base by housing
The power of expansion makes the 4th locking nut be slided relative to the described second fixation support base along Y direction, so as to drive
The second stabilizer blade is stated to slide to along Y direction relative to the fixed mesa.
In some embodiments, first stabilizer blade includes the first support plate, the first locking nut, the first adjustment stud, the
Two locking nuts, the first sliding support pedestal;
First support plate is fixedly connected with the rectangle laser housing, and described first fixes support base and institute
Fixed mesa is stated to be fixedly connected;
First support plate is fixedly connected with the first adjustment stud, and passes through the first locking nut fastening;
The first adjustment stud fixes the movable connection of support base by the first adjustment nut and described first;
During the laser heat expansion, second locking nut and described first is fixed between support base by housing
The power of expansion, make second locking nut relative to described first fix support base along with first stabilizer blade and described the
The direction of four stabilizer blade lines is slided, so as to which first stabilizer blade be driven to be slided relative to the fixed mesa.
In addition, the present invention also provides a kind of Optical Maser System, including laser housing and fixed mesa and above-mentioned swash
Light device thermal expansion direction controlling stabilizer blade.
The beneficial effects of the present invention are:The present invention has reached effective control laser by designing four stand bar structure
Housing expanded by heating direction advantageous effect.
Description of the drawings
Fig. 1 shows the whole overlooking the structure diagram of Optical Maser System of the present invention.
Fig. 2 is the structure diagram according to the 4th stabilizer blade of one embodiment of the invention.
Fig. 3 is the structure diagram according to the third stabilizer blade of one embodiment of the invention.
Fig. 4 is the overlooking the structure diagram according to the third stabilizer blade planar support pedestal of one embodiment of the invention.
Fig. 5 is according to the first stabilizer blade of one embodiment of the invention and the structure diagram of the second stabilizer blade.
Fig. 6 is the overlooking the structure diagram that pedestal is slidably supported in the first stabilizer blade according to one embodiment of the invention.
Specific embodiment
In order to make the purpose , technical scheme and advantage of the present invention be clearer, below in conjunction with attached drawing and specific implementation
Example, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only explaining this hair
It is bright, without being construed as limiting the invention.
Laser include multiple output lasers and multiple reception lasers, be a total system namely:It is previous defeated
Going out laser output laser, the latter, which receives laser, need to receive laser, and due to thermal expansion influence, swollen not to laser heat
When swollen direction controls, laser may sending deviation so that no matter previous output laser offset or the latter connect
The change of laser light path can be caused by receiving laser offset, so that laser performance is deteriorated.The present invention is precisely in order to repair
Offset issue caused by positive laser thermal expansion effects and design.
It please refers to Fig.1 to Fig. 6, shows the Optical Maser System of the present invention and the knot of laser heat expansion direction control stabilizer blade
Structure.
The laser heat expansion direction control stabilizer blade of the present invention includes being symmetrically disposed on 5 bottom of rectangle laser housing
First stabilizer blade 1 of portion rear end, third stabilizer blade 3 and it is symmetrically disposed on the second of 5 bottom front of rectangle laser housing
2 and the 4th stabilizer blade 4 of stabilizer blade, first stabilizer blade 1, second stabilizer blade 2, the third stabilizer blade 3 and the 4th stabilizer blade 4 are formed
Rectangle, and first stabilizer blade 1, second stabilizer blade 2, the third stabilizer blade 3 and the 4th stabilizer blade 4 one end respectively with
The housing 5 of the laser is fixedly connected, and the other end is connect with fixed mesa.
The same long side of the rectangle laser housing 5 that the third stabilizer blade 3 is located at the 4th stabilizer blade 4, institute
It states long side and is parallel to X-axis, second stabilizer blade 2 is located at the same width of the rectangle laser housing 5 with the 4th stabilizer blade 4
Side, the broadside are parallel to Y-axis.Since the first stabilizer blade 1 is arranged symmetrically with third stabilizer blade 3, the second stabilizer blade 2 and the 4th stabilizer blade 4 are right
Claim setting, correspondingly, in another long side for the rectangle laser housing 5 that the first stabilizer blade 1 and the second stabilizer blade are located at, the long side
Also parallel with X-axis, the first stabilizer blade 1 is located at third stabilizer blade 3 on another broadside of rectangle laser housing 5, the broadside
It is parallel to Y-axis.
4th stabilizer blade 4 is fixed supporting point, and rectangle laser housing 5 is internally provided at least one output window
6, one of them described output window 6 is located at 5 inside of rectangle laser housing and the 4 corresponding position of the 4th stabilizer blade
It puts namely the top position of the 4th stabilizer blade 4.
For the laser in thermal expansion, the 4th stabilizer blade 4 is relative to the rectangle laser housing 5 and described solid
It is fixed to determine table top, the third stabilizer blade 3 is slided by the laser heat expansion along X-direction, second stabilizer blade 2
It is slided along Y direction, first stabilizer blade is slided along the direction of first stabilizer blade and the 4th stabilizer blade line, so as to make
It is constant to state the optical path direction that the output window 6 of laser is exported., the first stabilizer blade 1 is along the first stabilizer blade 1 and the 4th stabilizer blade 4
The direction of line is slided, this is because:Laser is in thermal expansion, and since the 4th stabilizer blade 4 is fixed, the first stabilizer blade 1 is along X-axis
Direction is slided, and the second stabilizer blade 4 slides along Y direction so that 1 Impact direction of the first stabilizer blade for X-axis Impact direction and Y-axis by
The resultant direction of force direction.
In the present invention, the long side of rectangle laser housing 5 is parallel to X-axis, and broadside is parallel to Y-axis.First stabilizer blade 1, institute
Stating the second stabilizer blade 2, the third stabilizer blade 3 and the 4th stabilizer blade 4 can be symmetrically set two-by-two in the housing 5 of laser
Any position makes four stabilizer blades form rectangle structure, as long as the 4th stabilizer blade 4 is fixed, and output window is located at the 4th
The top of foot 4, third stabilizer blade 3 move along the x-axis, and the second stabilizer blade 2 is moved along Y-axis, then it is motionless that output window can be achieved.In the present invention
Some embodiments in, the first stabilizer blade 1, second stabilizer blade 2, the third stabilizer blade 3 and the 4th stabilizer blade 4 respectively be located at four
On a angle.When on four angles, rectangle laser housing 5 of one of output window 6 above the 4th stabilizer blade 4
It is interior, it is fixed.
Specifically, incorporated by reference to the whole overlooking the structure diagram of the laser of Fig. 1, wherein be labelled with four location footprints and
The position of output window 6, the position corresponding to the output window 6 of laser are the 4th stabilizer blades 4.
The major function of four stabilizer blades is:When rectangle laser housing 5 expands, the 4th stabilizer blade 4 is supported as fixed
Point, without departing from original position, (X-axis) is mobile in the horizontal direction for third stabilizer blade 3, but cannot be mobile in vertical direction (Y-axis).And
Second stabilizer blade 2 and the first stabilizer blade 1 do not do direction controlling in structure, and the second stabilizer blade 2 is when laser expands, due to the 4th stabilizer blade
4 is fixed so that the second stabilizer blade 2 can move up in the vertical direction.First stabilizer blade 1 is then in rectangle laser housing
Under the motive forces of 5 expansions, upwards and it is moved to the left namely along institute for the form that keeps rectangle laser housing 5 original
The direction for stating the first stabilizer blade 1 and 4 line of the 4th stabilizer blade is moved, so as to which the output window for making the laser is exported
Optical path direction it is constant.
Referring to Fig. 2, in one embodiment of the invention, the 4th stabilizer blade includes the 4th support plate 41, the 7th locking screw
Mother the 42, the 4th adjusts stud 43, the 8th locking nut the 44, the 4th fixes support base 45;4th support plate 41 is fixed on rectangular
On shape laser housing 5, the 7th locking nut 42, the 8th locking nut 44 are sheathed on the 4th adjustment spiral shell successively
In column 44, the 4th adjustment stud 44 is fixedly connected, and pass through the 7th locking nut 42 with the 4th support plate 41
Locking;8th locking nut 44 is fixedly connected, and pass through the 8th locking screw with the described 4th fixation support base 45
Mother 44 locks;4th support plate 41 is fixedly connected with rectangle laser housing 5;It is described 4th fix support base 45 with
The fixed mesa is fixedly connected;When the rectangle laser housing 5 expands, the 4th stabilizer blade 4 is fixed.In this hair
In bright one embodiment, an output window 6 is located at 5 inside of rectangle laser housing and the described 4th adjustment
43 corresponding position of stud, when the laser heat expands, the 4th adjustment stud 43 is fixed, makes the output window
6 positions of mouth are constant.
Fig. 3 and Fig. 4 are please referred to, in one embodiment of the invention, third stabilizer blade 3 includes third support plate the 31, the 5th
Locking nut 32, third adjustment stud 33, the 6th locking nut 34, third fix support base 35.
The third support plate 31 is fixedly connected with rectangle laser housing 5, the third fix support base 35 with
The fixed mesa is fixedly connected.
The third adjustment stud 33 is fixedly connected, and pass through the 5th locking nut 32 with the third support plate 31
Locking.
The third adjustment stud 33 is movably connected by the 6th locking nut 34 fixes branch in the third
It supports on pedestal 35.
During laser heat expansion, the 6th locking nut 34 and the third fix between support base 35 by
The power that rectangle laser housing 5 expands makes the 6th locking nut 34 fix support base 35 along X relative to the third
Axis direction is slided, so as to which the third stabilizer blade 3 be driven to be slided relative to the fixed mesa along X-direction.
Wherein, show that third fixes the helicitic texture that protrudes above of support base 35 in Fig. 4, the helicitic texture of protrusion it is interior
Circle is set as the notching construction 351 along X-direction, and 33 lower end width of the third adjustment stud is more than notching construction 351
Width, the width of 33 upper end of third adjustment stud are less than the width of notching construction, and the helicitic texture of protrusion is consolidated with the third
Determine to be equipped with the chamber structure for accommodating 33 lower end of third adjustment stud between support base 35.
6th locking nut 34 is sheathed on the external thread structure outer circle of protrusion, and 33 lower end of third adjustment stud is stuck in chamber
Inside configuration, the 6th locking nut 34 and third adjustment stud 33 can be moved along the fluting direction of notching construction 351, direction of slotting
For X-direction.
Fig. 5 and Fig. 6 are please referred to, invention shows the structures of the first stabilizer blade 1.Specifically, the second stabilizer blade 1 includes first
Fagging 11, the first locking nut 12, the first adjustment stud 13, the second locking nut 14, first fix support base 15.Described
One support plate 11 is fixedly connected with the rectangle laser housing 5, and described first fixes support base 15 and the fixed station
Face is fixedly connected.First support plate 11 is fixedly connected with the first adjustment stud 13, and passes through first locking screw
Mother 12 fastens.The first adjustment stud 13 fixes 15 movable company of support base by the second adjustment nut 14 and described first
It connects.When laser heat expands, second locking nut 14 and described first is fixed between support base 15 by case swells
Power, make second locking nut 14 relative to described first fix support base 15 along with the direction of 45 degree of X-axis and Y-axis cunning
It is dynamic, so as to which first stabilizer blade 1 be driven to be slided relative to the fixed mesa.
In fig. 6 it is shown that on the first stabilizer blade 1 first fix support base 15 notching construction.It is likewise, solid first
Determine the external thread structure for also being provided with protruding in support base 15,13 lower end of the first adjustment stud is also still provided with, this protrusion
External thread structure inner circle be provided with notching construction 151 along X-axis and Y direction, 13 lower end width of the first adjustment stud is big
In the width of notching construction 151.The width of 13 upper end of the first adjustment stud is less than the width of notching construction 151, the spiral shell of protrusion
Line structure and described first is fixed between support base 15 equipped with the chamber structure for accommodating 13 lower end of the first adjustment stud.Second
Locking nut 14 is sheathed on the external thread structure outer circle of protrusion, and 13 lower end of the first adjustment stud is stuck in inside chamber structure, the
Two locking nuts 14 and the first adjustment stud 13 can be moved along the fluting direction of notching construction 151, and fluting direction is X-axis and Y weeks
Direction, it is specific as shown in Figure 6.
In one embodiment of the invention, the first stabilizer blade 1 is identical with 2 structure of the second stabilizer blade.Second stabilizer blade includes second
Support plate, third locking nut, second adjustment stud, the 4th locking nut, second fix support base.Second support plate and institute
It states rectangle laser housing to be fixedly connected, the second fixation support base is fixedly connected with the fixed mesa.Described
Two support plates are fixedly connected with the second adjustment stud, and are fastened by the third locking nut.The second adjustment spiral shell
Mother is movably connected by the 4th locking nut and the described second sliding support pedestal.During the laser heat expansion,
By the power of case swells between 4th locking nut and the second fixation support base, make the 4th locking nut
It is slided relative to the described second fixation support base along Y direction, so as to drive second stabilizer blade relative to the fixed station
It is slided towards along Y direction.
Beneficial effects of the present invention are:By the first stabilizer blade 1, the second stabilizer blade 2,3 and the 4th stabilizer blade 4 of third stabilizer blade it is mutual
Cooperation, realizes when laser expands, the control to expansion direction.
In addition, the present invention also provides a kind of Optical Maser System, including laser housing and fixed mesa and above-mentioned
Laser heat expansion direction controls stabilizer blade.
The specific embodiment of present invention described above, is not intended to limit the scope of the present invention..Any basis
Various other corresponding changes and deformation made by the technical concept of the present invention, should be included in the guarantor of the claims in the present invention
In the range of shield.
Claims (8)
1. a kind of laser heat expansion direction controls stabilizer blade, which is characterized in that including being symmetrically disposed on the rectangle laser
First stabilizer blade of housing bottom rear end, third stabilizer blade and it is symmetrically disposed on the rectangle laser housing bottom front
Second stabilizer blade and the 4th stabilizer blade, first stabilizer blade, second stabilizer blade, the third stabilizer blade and the 4th stabilizer blade form length
It is rectangular, and first stabilizer blade, second stabilizer blade, the third stabilizer blade and the 4th stabilizer blade one end respectively with the length
Square laser device housing is fixedly connected, and the other end is connect with fixed mesa;
The third stabilizer blade is located at the same long side of the rectangle laser housing with the 4th stabilizer blade, and the long side is parallel
In X-axis, second stabilizer blade is located at the same broadside of the rectangle laser housing with the 4th stabilizer blade, and the broadside is put down
Row is in Y-axis;
4th stabilizer blade is fixed supporting point, and the rectangle laser housing is internally provided at least one output window,
One of them described output window is located at position corresponding with the 4th stabilizer blade inside the rectangle laser housing;
For the laser in thermal expansion, the 4th stabilizer blade is relative to the rectangle laser housing and the fixed mesa
Fixed, the third stabilizer blade is slided by the laser heat expansion along X-direction, and second stabilizer blade is along Y-axis side
To slip, first stabilizer blade is slided along the direction of first stabilizer blade and the 4th stabilizer blade line, so as to make the laser
The optical path direction that the output window of device is exported is constant.
2. laser heat expansion direction as described in claim 1 controls stabilizer blade, which is characterized in that the 4th stabilizer blade includes the
Four support plates, the 7th locking nut, the 4th adjustment stud, the 8th locking nut, the 4th fix support base;
7th locking nut, the 8th locking nut are sheathed on successively in the 4th adjustment stud, and the described 4th adjusts
Whole stud is fixedly connected with the 4th support plate, and passes through the 7th locking nut locking;
8th locking nut is fixedly connected with the described 4th fixation support base, and passes through the 8th locking nut lock
Tightly;
4th support plate is fixedly connected with the rectangle laser housing;It is described 4th fix support base with it is described solid
Determine table top to be fixedly connected;
During the case swells, the 4th stabilizer blade is fixed.
3. laser heat expansion direction as claimed in claim 2 controls stabilizer blade, which is characterized in that an output window position
The position corresponding with the described 4th adjustment stud inside the rectangle laser housing, when the laser heat expands,
The 4th adjustment stud is fixed, makes the output window position constant.
4. laser heat expansion direction as claimed in claim 2 controls stabilizer blade, which is characterized in that first stabilizer blade, described
Third stabilizer blade is symmetrically disposed on two angles of the rectangle laser housing bottom rear end;Second stabilizer blade and the 4th
Foot is symmetrically disposed on two angles of the rectangle laser housing bottom front.
5. laser heat expansion direction as described in claim 1 controls stabilizer blade, which is characterized in that the third stabilizer blade includes the
Three support plates, the 5th locking nut, third adjustment stud, the 6th locking nut, third fix support base;
The third support plate is fixedly connected with the rectangle laser housing, the third fix support base with it is described solid
Determine table top to be fixedly connected;
The third adjustment stud is fixedly connected with the third support plate, and passes through the 5th locking nut locking;
The third adjustment stud is movably connected by the 6th locking nut to be fixed in the third in support base;
During the laser heat expansion, the 6th locking nut and the third are fixed between support base by case swells
Power, the 6th locking nut is made to fix support base relative to the third and is slided along X-direction, so as to drive described the
Three stabilizer blades are slided relative to the fixed mesa along X-direction.
6. laser heat expansion direction as described in claim 1 controls stabilizer blade, it is characterised in that:Second stabilizer blade includes the
Two support plates, third locking nut, second adjustment stud, the 4th locking nut, second fix support base;
Second support plate is fixedly connected with the rectangle laser housing, it is described second fix support base with it is described solid
Determine table top to be fixedly connected;
Second support plate is fixedly connected with the second adjustment stud, and is fastened by the third locking nut;
The second adjustment nut is movably connected by the 4th locking nut and the described second fixation support base;
During the laser heat expansion, the 4th locking nut and described second is fixed between support base by case swells
Power, the 4th locking nut is made to be slided relative to the described second fixation support base along Y direction, so as to drive described the
Two stabilizer blades are slided relative to the fixed mesa to along Y direction.
7. laser heat expansion direction as described in claim 1 controls stabilizer blade, which is characterized in that first stabilizer blade includes the
One support plate, the first locking nut, the first adjustment stud, the second locking nut, first fix support base;
First support plate is fixedly connected with the rectangle laser housing, it is described first fix support base with it is described solid
Determine table top to be fixedly connected;
First support plate is fixedly connected with the first adjustment stud, and passes through the first locking nut fastening;
The first adjustment stud fixes the movable connection of support base by the second adjustment nut and described first;
During the laser heat expansion, second locking nut and described first is fixed between support base by case swells
Power, second locking nut is made to fix support base along first stabilizer blade and the 4th stabilizer blade relative to described first
The direction of line is slided, so as to which first stabilizer blade be driven to be slided relative to the fixed mesa.
8. a kind of Optical Maser System, which is characterized in that including laser housing and fixed mesa and as claim 1-7 appoints
Laser heat expansion direction control stabilizer blade described in one.
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CN201711482482.9A CN108155542B (en) | 2017-12-29 | 2017-12-29 | Laser thermal expansion direction control support and laser system |
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CN201327944Y (en) * | 2008-12-22 | 2009-10-14 | 深圳市大族激光科技股份有限公司 | Laser support device |
CN103676031A (en) * | 2012-09-26 | 2014-03-26 | 日立金属株式会社 | Optical communication module |
US20170063045A1 (en) * | 2013-10-18 | 2017-03-02 | Soraa Laser Diode, Inc. | Manufacturable laser diode formed on c-plane gallium and nitrogen material |
CN203702527U (en) * | 2013-12-27 | 2014-07-09 | 合肥华升泵阀有限责任公司 | Thermal compensation device for large-scale high-temperature pump |
CN206274574U (en) * | 2016-12-29 | 2017-06-23 | 刘玉斌 | A kind of laser anti-deformation bearing |
CN206461215U (en) * | 2016-12-29 | 2017-09-01 | 刘玉斌 | A kind of air-cooled ultraviolet laser |
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Denomination of invention: Laser thermal expansion direction control support and laser system Effective date of registration: 20230911 Granted publication date: 20200519 Pledgee: Beijing Intellectual Property Management Co.,Ltd. Pledgor: Beijing GK Laser Technology Co.,Ltd. Registration number: Y2023110000384 |
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