CN103913096A - Large-diameter high-energy laser emission window - Google Patents
Large-diameter high-energy laser emission window Download PDFInfo
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- CN103913096A CN103913096A CN201410116681.8A CN201410116681A CN103913096A CN 103913096 A CN103913096 A CN 103913096A CN 201410116681 A CN201410116681 A CN 201410116681A CN 103913096 A CN103913096 A CN 103913096A
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Abstract
The invention relates to the field of design of emission windows for large-diameter laser weapons, in particular to a large-diameter high-energy laser emission window, and solves the problems that the existing shutter type laser emission window jams easily and is large in size, heavy in weight and high in cost. The large-diameter high-energy laser emission window comprises a dust cover drive mechanism, a motor unit, a dust cover reel, a synchronous belt drive mechanism, two synchronous driven mechanisms, a dust cover guide bar, two synchronous belts, a dust cover, a bar pressing mechanism, a connecting bar support, a connection structure, and a pressure strip; the dust cover drive mechanism comprises a bottom plate; the motor unit, the dust cover reel and the synchronous drive mechanism are fixed on the bottom plate; the motor unit and the synchronous belt drive mechanism are fixed to two ends of the dust cover reel; the synchronous belt driven mechanisms and the dust cover guide bar are fixed on the bottom plate; the synchronous belts are connected with the motor unit and the synchronous belt drive mechanism respectively; the other ends of the synchronous belts are slidably connected with the synchronous belt driven mechanisms; two ends of the dust cover guide bar are connected with the synchronous belts; the dust cover is fixed on the dust cover reel and the dust cover guide bar; the bar pressing mechanism comprises a connecting bar; the connecting bar support, the connection structure and the pressure strip are fixed on the connecting bar. The large-diameter high-energy laser emission window is low in cost, light in weight, small in size, convenient to mount and adjust, highly environmentally adaptive and highly reliable.
Description
Technical field
The present invention relates to the launch window design field of large-caliber laser weapon, be specifically related to a kind of heavy caliber superlaser launch window.
Technical background
Window is the critical component that ensures that optical system can normally be worked, and its Main Function is the impact that protection internal optical component is avoided external environment, strengthens the environmental suitability of optical system, improves service life of equipment and reliability.Window, as a vitals of large-caliber laser weapon, protects internal optical component to bear the invasion and attack of the adverse circumstances such as extraneous dust storm sleet on the one hand; Make on the other hand light beam impregnable passing through as far as possible.
With the immediate prior art of the present invention be Changchun Institute of Optics, Fine Mechanics and Physics, CAS develop a kind of shutter Laser emission window, formed by hold-down mechanism and dust cover driving mechanism.As shown in Figure 1, hold-down mechanism is mainly by the first motor 101, the first guide post 102, cam 103, pressure ring 104, back-moving spring 105, depression bar 106, leading screw 107, steel wire rope 108 and pulley 109 form, roller bearing 110 is housed on depression bar 106, being used for pressing cam 103 vertically moves, the inclination angle Φ on cam 103 inclined-planes is about 26.5 °, cam 103 both sides are furnished with the first guide post 102 and back-moving spring 105, be mainly used in jack-up cam 103 and pressure ring 104, cam 103 belows are pressure rings 104, the embedded rubber washer of pressure ring 104, the all parts of hold-down mechanism are all arranged in a framework, Hall switch is housed on framework, as shown in Figure 2, dust cover driving mechanism is mainly made up of gear reduction unit 201, the second motor 202, power transmission shaft 203, dust cover drive rod 204, the first base plate 205, reel 206, belt wheel 207 and the first Timing Belt 208, power transmission shaft 203 and reel 206 are contained in respectively the first base plate 205 two ends, belt wheel 207 and the first Timing Belt 208 are equipped with in power transmission shaft 203 and reel 206 two ends, on reel 206, dust cover is housed, on the first Timing Belt 208, be fixed with the gear reduction unit 201 of being furnished with 2:1 between dust cover drive rod 204, the second motors 202 and power transmission shaft 203.The problem that this window exists is: be in transmission connection too complicated, easily occur catching phenomenon, reliability is not high; Mechanism is bulky, and weight is too large; Need two cover stepper motors to drive, control program is too complicated, opening and closing overlong time.
Summary of the invention
The problem that easy clamping stagnation is unreliable, control procedure is complicated, volume weight is large, cost is high existing in order to solve existing shutter Laser emission window, the invention provides a kind of heavy caliber superlaser launch window.
The present invention for the technical scheme that technical solution problem adopts as follows:
Heavy caliber superlaser launch window, comprises dust cover driving mechanism and pressure lever mechanism, and described dust cover driving mechanism comprises: base plate;
The electric machine assembly, dust cover reel and the Timing Belt driving mechanism that are fixed on base plate one side, described electric machine assembly and Timing Belt driving mechanism are separately fixed at dust cover reel two ends;
Be fixed on two Timing Belt followers and the dust cover guide post of base plate opposite side;
Two Timing Belts that are connected with Timing Belt driving mechanism with electric machine assembly respectively, described two Timing Belt other ends are slidably connected with two Timing Belt followers respectively, and described dust cover guide post two ends are connected with two Timing Belts respectively;
Be separately fixed at the dust cover on dust cover reel and dust cover guide post;
Described pressure lever mechanism comprises: with the connecting rod of U-lag;
Symmetry is fixed on connecting rod for connecting multiple connecting rod supports of pressure lever mechanism and dust cover driving mechanism;
Symmetry is fixed on the multiple syndetons on connecting rod;
Be fixed on two press strips on connecting rod by bindiny mechanism.
Described Timing Belt driving mechanism comprises: be fixed on the band of first on base plate wheeling support, the first Timing Belt driving pulley being connected with wheeling support with first by the second ball bearing, is fixed on first with the clutch shaft bearing lid on wheeling support; Described dust cover reel upper end is fixed on the first Timing Belt driving pulley by belt wheel steady pin.
Described electric machine assembly comprises: be fixed on the motor cabinet on base plate, be fixed on the stepper motor of motor cabinet upper end, the driven wheel being connected with the motor shaft of stepper motor by alignment pin, the the second Timing Belt driving pulley being connected with motor cabinet by the first ball bearing, the driven gear being connected with the second Timing Belt driving pulley by reel alignment pin; Described dust cover reel lower end is fixed on the second Timing Belt driving pulley by reel alignment pin.
Described Timing Belt follower comprises: be fixed on two second band wheeling supports on base plate, be fixed on two second with the driven pulley in the middle of wheeling support by the second ball bearing, be separately fixed at two second with two the second bearing caps on wheeling support; Described Timing Belt and driven pulley are slidably connected.
Described bindiny mechanism comprises: be fixed on the guide post axle sleeve on connecting rod, be fixed on the guide post in the hollow shaft of guide post axle sleeve, be arranged on the large pad of the cylinder rod end of guide post, be fixed on the spherical groove of press strip, be arranged on the Compress Spring between guide post axle sleeve and spherical groove.
The diameter of described spherical groove than the large 1mm of the diameter of the cylindrical bar of guide post, ensures that guide post can move up and down along the hollow shaft of guide post axle sleeve than the hollow shaft diameter of the large 1mm of the diameter of the ballhead of guide post and described guide post axle sleeve, also can swing by a small margin.
On described press strip, be provided with the sealing strip that adopts polytetrafluoroethylene (PTFE) to make, described sealing strip is fixed on press strip by two lubricious strip fixtures.
Described dust cover adopts PVC light sheet material to make.
The quantity of described connecting rod support is four.
The quantity of described syndeton is six.
The invention has the beneficial effects as follows: compared with prior art, cost will reduce by 50% in the present invention, debugs simple and convenient; Dust cover adopts PVC light sheet material, can resist stronger dust storm invasion and attack than parent window, and adaptive capacity to environment obviously improves; Compared with prior art, weight reduces 65% left and right in the present invention, and volume reduces 30%, and the time of opening and closing all reduces by 50%, and dependable with function has all obtained very large reinforcement.
Brief description of the drawings
Fig. 1 is the structural representation of the hold-down mechanism of existing shutter Laser emission window.
Fig. 2 is the structural representation of the dust cover driving mechanism of existing shutter Laser emission window.
Fig. 3 is that heavy caliber superlaser launch window of the present invention splits into two-part structural representation.Wherein, the front view that Fig. 3 a is pressure lever mechanism, Fig. 3 b is the front view of heavy caliber superlaser launch window of the present invention, Fig. 3 c is the front view of dust cover driving mechanism.
Fig. 4 is the top view of the dust cover driving mechanism shown in Fig. 3 c.
Fig. 5 is the right view of the dust cover driving mechanism shown in Fig. 3 c.
Fig. 6 is the partial enlarged drawing of A part in Fig. 5.
Fig. 7 be in Fig. 4 along D-D to profile.
Fig. 8 is the partial enlarged drawing of B part in Fig. 7.
Fig. 9 is the partial enlarged drawing of C part in Fig. 7.
Figure 10 be in Fig. 4 along E-E to profile.
Figure 11 is the partial enlarged drawing of F part in Figure 10.
Figure 12 is the top view of the pressure lever mechanism shown in Fig. 3 a.
Figure 13 be in Figure 12 along F-F to profile.
Figure 14 is the partial enlarged drawing of K part in Figure 13.
In figure: 101, the first motor, 102, the first guide post, 103, cam, 104, pressure ring, 105, back-moving spring, 106, depression bar, 107, leading screw, 108, steel wire rope, 109, pulley, 110, roller bearing, 201, gear reduction unit, 202, the second motor, 203, power transmission shaft, 204, dust cover drive rod, 205, the first base plate, 206, reel, 207, belt wheel, 208, the first Timing Belt, 1, electric machine assembly, 1-1, driven gear, 1-2, driven wheel, 1-3, alignment pin, 1-4, motor hold-down screw, 1-5, motor cabinet, 1-6, stepper motor, 1-7, reel alignment pin, 1-8, the first ball bearing, 1-9, motor cabinet hold-down screw, 1-10, the second Timing Belt driving pulley, 2, dust cover reel, 2-1, dust cover, 3, Timing Belt driving mechanism, 3-1, the first Timing Belt driving pulley, 3-2, belt wheel steady pin, 3-3, the first band wheeling support, 3-4, bearing cap hold-down screw, 3-5, clutch shaft bearing lid, 3-6, the second ball bearing.4, Timing Belt, 5, Timing Belt follower, 5-1, driven pulley, 5-2, the second band wheeling support, 5-3, the second ball bearing, 5-4, the second bearing cap, 5-5, bearing cap hold-down screw, 6, dust cover guide post, 7, base plate, 8, connecting rod, 8-1, U-lag, 9, press strip, 10, lubricious strip fixture, 11, connecting rod support, 12, sealing strip, 13, bindiny mechanism, 13-1, guide post axle sleeve, 13-2, guide post, 13-3, Compress Spring, 13-4, spherical groove hold-down screw, 13-5, spherical groove, 13-6, axle sleeve hold-down screw, 13-7, large pad, 13-8, guide post hold-down screw.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is described in further detail.
As shown in Figure 3, heavy caliber superlaser launch window of the present invention is made up of pressure lever mechanism and two parts of dust cover driving mechanism.As shown in Figure 3 b, pressure lever mechanism and dust cover driving mechanism are fixedly linked by connecting rod support 11.As shown in Fig. 3 c, Fig. 4 and Fig. 5, dust cover driving mechanism is mainly made up of electric machine assembly 1, dust cover reel 2, dust cover 2-1, Timing Belt driving mechanism 3, two Timing Belts 4, two Timing Belt followers 5, dust cover guide post 6 and base plates 7.As shown in Figure 4, base plate 7 is square structure, electric machine assembly 1, dust cover reel 2 and Timing Belt driving mechanism 3 are fixedly mounted on the rightmost side of base plate 7, and Timing Belt driving mechanism 3 and electric machine assembly 1 are separately fixed at the upper and lower two ends, the rightmost side of base plate 7, as shown in Fig. 4 and Figure 10, two upper and lower two ends, the leftmost side that Timing Belt follower 5 is fixedly mounted on respectively base plate 7; Dust cover reel 2 upper ends and Timing Belt driving mechanism 3 are fixedly linked, and lower end and electric machine assembly 1 are fixedly linked; Dust cover 2-1 left end is fixed on dust cover guide post 6 by compressing tablet, dust cover 2-1 right-hand member is fixed on dust cover reel 2, one of them Timing Belt 4 one end is fixedly mounted on dust cover guide post 6 upper ends, and this end and Timing Belt follower 5 are slidably connected, these Timing Belt 4 other ends and Timing Belt driving mechanism 3 are fixedly linked, another Timing Belt 4 one end are fixedly mounted on dust cover guide post 6 lower ends, and this end and Timing Belt follower 5 are slidably connected, these Timing Belt 4 other ends and electric machine assembly 1 are fixedly linked; Dust cover guide post 6 can side-to-side movement, drives Timing Belt 4 to make 6 side-to-side movements of dust cover guide post by electric machine assembly 1, realizes the opening and closing of dust cover 2-1.
Dust cover 2-1 adopts PVC light sheet material to make, and can resist stronger dust storm invasion and attack than parent window, and therefore adaptive capacity to environment obviously improves.
As shown in Fig. 6, Fig. 7 and Fig. 8, electric machine assembly 1 is mainly made up of driven gear 1-1, driven wheel 1-2, alignment pin 1-3, motor cabinet 1-5, stepper motor 1-6, reel alignment pin 1-7, the first ball bearing 1-8 and the second Timing Belt driving pulley 1-10.The lower end of motor cabinet 1-5 is fixedly mounted on base plate 7 by motor cabinet hold-down screw 1-9, stepper motor 1-6 is fixed on motor cabinet 1-5 upper end by four motor hold-down screw 1-4, driven wheel 1-2 is fixedly linked by the motor shaft of alignment pin 1-3 and stepper motor 1-6, the second Timing Belt driving pulley 1-10 is fixedly mounted on motor cabinet 1-5 lower end by the first ball bearing 1-8, driven gear 1-1 is fixedly mounted on the second Timing Belt driving pulley 1-10 by reel alignment pin 1-7, dust cover reel 2 lower ends are fixedly mounted on the second Timing Belt driving pulley 1-10 by reel alignment pin 1-7, engaged transmission by driven wheel 1-2 and driven gear 1-1 is delivered to the power of stepper motor 1-6 on dust cover reel 2.
As shown in Figure 9, Timing Belt driving mechanism 3 is mainly made up of the first Timing Belt driving pulley 3-1, belt wheel steady pin 3-2, the first band wheeling support 3-3, clutch shaft bearing lid 3-5 and the second ball bearing 3-6.First is fixedly mounted on base plate 7 with the lower end of wheeling support 3-3, clutch shaft bearing lid 3-5 is fixedly mounted on the first band wheeling support 3-3 by bearing cap hold-down screw 3-4, it is upper that the first Timing Belt driving pulley 3-1 is fixedly mounted on the first band wheeling support 3-3 by the second ball bearing 3-6, and dust cover reel 2 upper ends are fixedly mounted on the first Timing Belt driving pulley 3-1 by belt wheel steady pin 3-2.
As shown in Figure 8, the second Timing Belt driving pulley 1-10 is fixedly mounted on motor cabinet 1-5 lower end by the first ball bearing 1-8, driven gear 1-1 is fixedly mounted on the second Timing Belt driving pulley 1-10 by reel alignment pin 1-7, it is upper that dust cover reel 2 lower ends are fixedly mounted on the second Timing Belt driving pulley 1-10 by reel alignment pin 1-7, by the engaged transmission of driven wheel 1-2 and driven gear 1-1, the power of stepper motor 1-6 is delivered on dust cover reel 2.
As shown in figure 11, Timing Belt follower 5 is mainly made up of driven pulley 5-1, two the second band wheeling support 5-2, two the second ball bearing 5-3 and two the second bearing cap 5-4.Timing Belt 4 is slidably connected with driven pulley 5-1, the both sides of driven pulley 5-1 are fixedly mounted on two second band wheeling support 5-2 by two the second ball bearing 5-3 respectively, two second lower ends with wheeling support 5-2 are all fixedly linked with base plate 7, and two the second bearing cap 5-4 are fixedly mounted on the second corresponding band wheeling support 5-2 by bearing cap hold-down screw 5-5 respectively.
As shown in Figure 12 and Figure 13, pressure lever mechanism is mainly made up of connecting rod 8, two press strips 9, four lubricious strip fixtures 10, four connecting rod supports 11, two sealing strips 12 and six bindiny mechanisms 13.Connecting rod 8 is upper and lower symmetrical structure, be linked in sequence and form by four square frames, on four square frames, be provided with U-lag 8-1, quantity is determined according to specific requirement, be preferably two U-lag 8-1 are set on each square frame, four connecting rod support 11 symmetries are fixedly mounted on two square frames up and down of connecting rod 8, six syndetons 13 symmetrical being fixedly mounted on two square frames up and down of connecting rod 8 respectively, be, on the upper square frame of connecting rod 8, three bindiny mechanisms 13 are set, other three bindiny mechanisms 13 are set on the lower square frame of connecting rod 8, and each bindiny mechanism 13 arranges near connecting rod support 11, bindiny mechanism 13 is for connecting connecting rod 8 and press strip 9, a press strip 9 is fixedly mounted on connecting rod 8 by three bindiny mechanisms 13, another press strip 9 is fixedly mounted on connecting rod 8 by other three syndetons 13, sealing strip 12 is to be made up of polytetrafluoroethylene (PTFE), coefficient of friction between polytetrafluoroethylene (PTFE) and iron and steel is lower, contribute to like this dust cover guide post 6 to pass through smoothly from sealing strip below, but because polytetrafluoroethylene (PTFE) material is softer, therefore sealing strip 12 is fixed on press strip 9 by two lubricious strip fixtures 10, can prevent sealing strip 12 so on the one hand because the excessive damage of pressure, can also be on the other hand between sealing strip 12 and press strip 9 fix more firm.As shown in figure 14, bindiny mechanism 13 is mainly made up of guide post axle sleeve 13-1, guide post 13-2, Compress Spring 13-3, spherical groove 13-5 and large pad 13-7.Guide post axle sleeve 13-1 is fixedly mounted on connecting rod 8 by two axle sleeve hold-down screw 13-6, guide post 13-2 is fixedly mounted in the hollow shaft of guide post axle sleeve 13-1 by guide post hold-down screw 13-8, be provided with large pad 13-7 at the cylinder rod end of guide post 13-2, for preventing that guide post 13-2 from departing from away from guide post axle sleeve 13-1 because of the effect of Compress Spring 13-3, Compress Spring 13-3 is arranged on the position between guide post axle sleeve 13-1 and spherical groove 13-5, for realizing the reset response of press strip 9, spherical groove 13-5 is fixedly mounted on press strip 9 by two spherical groove hold-down screw 13-4, press strip 9 lower ends adopt sealing strip 12 to seal, the diameter D1 of spherical groove 13-5 is than the large 1mm of diameter D2 of the ballhead of guide post 13-2, the hollow shaft diameter D3 of guide post axle sleeve 13-1 is than the large 1mm of diameter D4 of the cylindrical bar of guide post 13-2, can ensure that like this guide post 13-2 can move up and down along the hollow shaft of guide post axle sleeve 13-1, also swing that can be by a small margin, in the time that dust cover guide post 6 passes through from the below of press strip 9, one end of press strip 9 correspondences will be lifted, corresponding guide post 13-2 can move up along the hollow shaft of guide post axle sleeve 13-1, dust cover guide post 6 can pass through smoothly below press strip 9 like this, after dust cover guide post 6 passes through, Compress Spring 13-3 can press spherical groove 13-5 makes press strip 9 return back to original position.
Claims (10)
1. heavy caliber superlaser launch window, comprises dust cover driving mechanism and pressure lever mechanism, it is characterized in that, described dust cover driving mechanism comprises: base plate (7);
The electric machine assembly (1), dust cover reel (2) and the Timing Belt driving mechanism (3) that are fixed on base plate (7) one sides, described electric machine assembly (1) and Timing Belt driving mechanism (3) are separately fixed at dust cover reel (2) two ends;
Be fixed on two Timing Belt followers (5) and the dust cover guide post (6) of base plate (7) opposite side;
Two Timing Belts (4) that are connected with Timing Belt driving mechanism (3) with electric machine assembly (1) respectively, described two Timing Belts (4) other end is slidably connected with two Timing Belt followers (5) respectively, and described dust cover guide post (6) two ends are connected with two Timing Belts (4) respectively;
Be separately fixed at the dust cover (2-1) on dust cover reel (2) and dust cover guide post (6);
Described pressure lever mechanism comprises: with the connecting rod (8) of U-lag (8-1);
It is upper for connecting multiple connecting rod supports (11) of pressure lever mechanism and dust cover driving mechanism that symmetry is fixed on connecting rod (8);
Symmetry is fixed on the multiple syndetons (13) on connecting rod (8);
Be fixed on two press strips (9) on connecting rod (8) by bindiny mechanism (13).
2. heavy caliber superlaser launch window according to claim 1, it is characterized in that, described Timing Belt driving mechanism (3) comprising: be fixed on the band wheeling support of first on base plate (7) (3-3), by the second ball bearing (3-6) and the first Timing Belt driving pulley (3-1) that the first band wheeling support (3-3) is connected, be fixed on the clutch shaft bearing lid (3-5) on the first band wheeling support (3-3); Described dust cover reel (2) upper end is fixed on the first Timing Belt driving pulley (3-1) by belt wheel steady pin (3-2).
3. heavy caliber superlaser launch window according to claim 2, it is characterized in that, described electric machine assembly (1) comprising: be fixed on the motor cabinet (1-5) on base plate (7), be fixed on the stepper motor (1-6) of motor cabinet (1-5) upper end, the driven wheel (1-2) being connected with the motor shaft of stepper motor (1-6) by alignment pin (1-3), the the second Timing Belt driving pulley (1-10) being connected with motor cabinet (1-5) by the first ball bearing (1-8), the driven gear (1-1) being connected with the second Timing Belt driving pulley (1-10) by reel alignment pin (1-7), described dust cover reel (2) lower end is fixed on the second Timing Belt driving pulley (1-10) by reel alignment pin (1-7).
4. heavy caliber superlaser launch window according to claim 1, it is characterized in that, described Timing Belt follower (5) comprising: be fixed on two the second band wheeling supports (5-2) on base plate (7), be fixed on the driven pulley (5-1) in the middle of two second band wheeling supports (5-2) by the second ball bearing (5-3), be separately fixed at two the second bearing caps (5-4) on two second band wheeling supports (5-2); Described Timing Belt (4) is slidably connected with driven pulley (5-1).
5. heavy caliber superlaser launch window according to claim 1, it is characterized in that, described bindiny mechanism (13) comprising: be fixed on the guide post axle sleeve (13-1) on connecting rod (8), be fixed on the guide post (13-2) in the hollow shaft of guide post axle sleeve (13-1), be arranged on the large pad (13-7) of the cylinder rod end of guide post (13-2), be fixed on the spherical groove (13-5) of press strip (9), be arranged on the Compress Spring (13-3) between guide post axle sleeve (13-1) and spherical groove (13-5).
6. heavy caliber superlaser launch window according to claim 5, it is characterized in that, the diameter of described spherical groove (13-5) than the hollow shaft diameter of the large 1mm of diameter of the ballhead of guide post (13-2) and described guide post axle sleeve (13-1) than the large 1mm of diameter of the cylindrical bar of guide post (13-2), ensure that guide post (13-2) can move up and down along the hollow shaft of guide post axle sleeve (13-1), also can swing by a small margin.
7. heavy caliber superlaser launch window according to claim 1, it is characterized in that, on described press strip (9), be provided with the sealing strip (12) that adopts polytetrafluoroethylene (PTFE) to make, described sealing strip (12) is fixed on press strip (9) by two lubricious strip fixtures (10).
8. heavy caliber superlaser launch window according to claim 1, is characterized in that, described dust cover (2-1) adopts PVC light sheet material to make.
9. heavy caliber superlaser launch window according to claim 1, is characterized in that, the quantity of described connecting rod support (11) is four.
10. heavy caliber superlaser launch window according to claim 1, is characterized in that, the quantity of described syndeton (13) is six.
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CN201410116681.8A CN103913096B (en) | 2014-03-26 | 2014-03-26 | Large-diameter high-energy laser emission window |
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CN201410116681.8A CN103913096B (en) | 2014-03-26 | 2014-03-26 | Large-diameter high-energy laser emission window |
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Cited By (2)
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CN110426841A (en) * | 2019-06-26 | 2019-11-08 | 哈尔滨新光光电科技股份有限公司 | A kind of iris diaphgram dimming device based on steel band movement |
CN114524112A (en) * | 2022-03-11 | 2022-05-24 | 中国科学院长春光学精密机械与物理研究所 | Spacecraft dust cover and manufacturing method and using method thereof |
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US6785315B1 (en) * | 2001-09-24 | 2004-08-31 | Northrop Grumman Corporation | Mobile tactical high energy laser weapon system and method for generating a high energy laser beam |
DE102011015779B4 (en) * | 2011-04-01 | 2022-03-24 | Mbda Deutschland Gmbh | Directed energy radiators |
CN102496838A (en) * | 2011-11-25 | 2012-06-13 | 中国科学院长春光学精密机械与物理研究所 | Installation apparatus of high power unstable cavity laser output terminal cavity mirror |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110426841A (en) * | 2019-06-26 | 2019-11-08 | 哈尔滨新光光电科技股份有限公司 | A kind of iris diaphgram dimming device based on steel band movement |
CN114524112A (en) * | 2022-03-11 | 2022-05-24 | 中国科学院长春光学精密机械与物理研究所 | Spacecraft dust cover and manufacturing method and using method thereof |
CN114524112B (en) * | 2022-03-11 | 2024-02-09 | 中国科学院长春光学精密机械与物理研究所 | Spacecraft dust cover and manufacturing method and using method thereof |
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