CN114289271A - Automatic coupling system of reflection type optoelectronic device and application method thereof - Google Patents

Abstract

The application relates to an automatic coupling system of a reflection type optoelectronic device and an application method thereof, relating to the technical field of reflection type optoelectronic devices; the anti-vibration device comprises an anti-vibration bottom plate, a connecting slide rail is arranged on the anti-vibration bottom plate, a connecting groove is formed in the connecting slide rail, a positioning mechanism is arranged at one end of the inner side wall of the connecting groove, a connecting mechanism is connected in the connecting groove in a sliding mode, a clamping device used for clamping a spacer is arranged on the positioning mechanism, an aligning device used for clamping an absorber is arranged on the connecting mechanism, and an ultraviolet curing device is arranged on a base. When the automatic coupling system of the reflection type optoelectronic device is used, the spacer and the absorber can be coupled in a flow line mode, manpower is saved, and meanwhile product quality is improved.

Description

Automatic coupling system of reflection type optoelectronic device and application method thereof

Technical Field

The present disclosure relates to the field of reflective optoelectronic devices, and more particularly, to an automatic coupling system of a reflective optoelectronic device and an application method thereof.

Background

With the increasing progress of society, people in life have higher and higher requirements on communication networks, so that the requirements on the yield and quality of optical communication products are higher and higher, and the manufacturing technology of optoelectronic devices becomes more and more important.

Reflective optical elements generally have a multilayer system as a reflective coating, a material having a higher real part of the refractive index at the operating wavelength (also referred to as "spacer") and a material having a lower real part of the refractive index at the operating wavelength (also referred to as "absorber"), wherein the absorber is connected to the spacer, thus forming a stack, in order to be used in the optical field.

In the process of implementing the present application, the inventor finds that at least the assembly precision of the reflective optical element is very strict due to the characteristic of light reflection, but the existing reflective optical element is still manually installed by an operator under the condition of more packaging, so that the production efficiency of the product is reduced, and the quality is generally low, so that the problem to be improved exists.

Disclosure of Invention

In order to solve the problem that the quality of the reflection type optical element is low due to manual assembly when the reflection type optical element is assembled in the related art, the application provides an automatic coupling system of a reflection type optoelectronic device and an application method thereof.

The application provides an automatic coupling system of a reflection type optoelectronic device and an application method thereof, which adopt the following technical scheme:

an automatic coupling system of a reflection type optoelectronic device comprises an anti-seismic bottom plate, wherein a connecting slide rail is arranged on the anti-seismic bottom plate, a connecting groove is formed in the connecting slide rail, a positioning mechanism is arranged at one end of the inner side wall of the connecting groove, the connecting mechanism is connected in the connecting groove in a sliding mode, a clamping device used for clamping a spacer is arranged on the positioning mechanism, an alignment device used for clamping an absorber is arranged on the connecting mechanism, and an ultraviolet curing device is arranged on the anti-seismic bottom plate;

the connecting mechanism comprises a connecting base and a connecting rod, the connecting base is inserted into the connecting groove and is in sliding connection with the connecting groove, and the connecting rod is arranged at the top of the connecting base;

the alignment device comprises a connecting cross rod, a connecting vertical rod and a first stabilizing mechanism, the connecting cross rod is arranged on the side wall of the connecting rod close to the positioning mechanism, the connecting vertical rod is arranged on the side wall of the connecting cross rod, a transverse groove is formed in the side wall of the connecting cross rod close to the positioning mechanism, a vertical groove is formed in the side wall of the connecting vertical rod, and the transverse groove is communicated with the vertical groove;

the first stabilizing mechanism comprises a stable sliding rod, a stable sliding block, a stable abutting piece and a stable fixed rod, the stable sliding block is inserted into the transverse groove and the vertical groove and is connected with the transverse groove and the vertical groove in a sliding way, the stabilizing slide bar is arranged on the side wall of the stabilizing slide block close to the positioning mechanism, the stabilizing butt piece is arranged on the peripheral side wall of the stabilizing slide block adjacent to the side wall where the stabilizing slide bar is arranged, the side walls of the transverse groove and the vertical groove are both provided with abutting grooves, the stable abutting sheets are inserted in the abutting grooves, a stabilizing groove is arranged on the side wall of the stabilizing slide block far away from the stabilizing slide rod in a penetrating way, the stabilizing groove is a threaded hole, the stable fixed rod is inserted into the stable groove in a threaded manner, the stable fixed rod abuts against the bottom walls of the transverse groove and the vertical groove, and a second stabilizing mechanism is arranged at one end, away from the stable sliding block, of the stable sliding rod;

the second stabilizing mechanism comprises a stabilizing lantern ring, a stabilizing electromagnet and a fixing mechanism, the stabilizing lantern ring is arranged at one end of the stabilizing slide rod, which is far away from the stabilizing slide block, a stabilizing ring groove is annularly formed in the side wall of the stabilizing lantern ring, which is close to the positioning mechanism, on one side, and the stabilizing magnet is embedded in the bottom wall of the inner side of the stabilizing ring groove; the stabilizing electromagnet is connected with the stabilizing ring groove in a sliding manner, and the fixing structure is arranged on the stabilizing electromagnet;

the fixing mechanism comprises a fixing rod, a fixing plate, a fixing splint, a fixing sliding plate, a sliding splint and a clamping spring, the fixing rod is arranged on the side wall of the stabilizing electromagnet, the fixing plate is arranged at one end of the fixing rod away from the stabilizing electromagnet, the fixing splint is arranged on the end wall of one end of the fixing plate, the fixing splint is perpendicular to the fixing plate, a fixing chute is arranged at one end of the fixing plate away from the fixing splint, the fixing sliding plate is inserted into the fixing chute, the sliding splint is arranged at one side of the sliding splint away from the fixing plate, and the sliding splint and the fixing splint are arranged in parallel in the same direction; one end of the clamping spring is connected with the fixed clamping plate, and the other end of the clamping spring is connected with the sliding clamping plate.

By adopting the technical scheme, when an operator needs to couple the reflective electronic device, the positioning mechanism can be used for fixing the spacing body firstly, then the linking mechanism slides to a position close to the positioning mechanism, and the position of the absorber is accurately adjusted through the first stabilizing mechanism and the second stabilizing mechanism, so that the absorber corresponds to the position of the spacing body, and then gluing, ultraviolet curing and other operations are performed.

Optionally, the positioning mechanism includes a positioning tube and a positioning rod, the positioning tube is fixedly connected with the inner side wall of the linking groove, the positioning rod is inserted into the positioning tube, a plurality of first positioning holes are formed in the side wall of the positioning tube, a second positioning hole is formed in the side wall of the positioning rod in a penetrating manner, the positioning rod is inserted into the first positioning hole and the second positioning hole together, an anti-falling block is arranged at one end of the positioning rod, and an anti-falling nut is arranged at the other end of the positioning rod.

By adopting the technical scheme, an operator can insert the positioning rod into the selected first positioning hole and the selected second positioning hole by selecting the first positioning hole with the proper height, so that the height of the positioning mechanism is adjusted, the system is suitable for spacers with different heights, and the application range of the whole system is expanded.

Optionally, the clamping mechanism includes a clamping block, a clamping groove is formed in the clamping block, a clamping hole is formed in a pair of adjacent side walls of the side walls where the clamping block and the clamping groove are located, the clamping hole is communicated with the clamping groove, a clamping rod is connected with the clamping hole through threads, the clamping rod is connected with the clamping hole through threads, and one end, opposite to the clamping rod, of the clamping rod is abutted to the spacer.

By adopting the technical scheme, an operator can firstly place the spacing body into the clamping groove, and rotate the clamping rods in the clamping holes to enable the clamping rods to be abutted against the spacing body, so that the spacing body is positioned; when the spacing body is disassembled, the position of the spacing body can be determined only by rotating the clamping rod on one side, so that the subsequent electronic devices are assembled.

Optionally, a curing chute is formed in the anti-seismic bottom plate, the ultraviolet curing device is arranged in the curing chute, the pushing cylinder is arranged at one end of the curing chute, the pushing rod is connected with the output end of the pushing cylinder, and the ultraviolet curing lamp is arranged at one end, far away from the pushing cylinder, of the pushing rod.

Through adopting above-mentioned technical scheme, operating personnel can be through opening the actuating cylinder to make the actuating cylinder pass through the catch bar and drive the ultraviolet curing lamp and move towards the direction that is close to positioning mechanism, and then make and carry out the ultraviolet curing operation to spacer and absorber through a pair of ultraviolet curing lamp, compare in manual operation ultraviolet fixation lamp, the structure of actuating cylinder and catch bar has increased the convenience of operation.

Optionally, a ball groove is formed in the side wall of the push rod in a penetrating mode, a rolling steel ball is inserted into the ball groove, and the rolling steel ball is attached to the inner side wall of the curing sliding groove.

Through adopting above-mentioned technical scheme, the structure of roll steel ball makes the push cylinder more stable when promoting the ultraviolet curing lamp, is difficult for producing the shake, thereby has reduced because the push cylinder shakes when promoting and leads to the lower possibility of ultraviolet curing lamp stability when solidifying, has promoted the holistic stability of system.

Optionally, an anti-twisting rod and an anti-twisting pipe are inserted into the clamping spring, the anti-twisting rod is connected with the fixed clamping plate, the anti-twisting pipe is connected with the sliding clamping plate, and the anti-twisting rod is inserted into the anti-twisting pipe.

Through adopting above-mentioned technical scheme, the structure of preventing the crooked pole and preventing the crooked pipe has reduced the clamping spring at the in-process to the absorption body centre gripping because the possibility of the distortion that tensile compression that relapse leads to increased clamping spring's stability, and then increased the stability of fixed establishment when the absorption body centre gripping.

Optionally, a clamping plate is arranged on an end wall of one end, close to the sliding clamping plate, of the fixed sliding chute, a clamping sheet is arranged at one end, inserted into the fixed sliding chute, of the sliding clamping plate, and the clamping sheet is attached to the clamping plate.

Through adopting above-mentioned technical scheme, when the sliding clamping plate slided in fixed spout, the structure of card ends the board and blocks the piece and has reduced the possibility that sliding clamping plate drops in from fixed spout to the stability of fixed establishment when using has been promoted.

Optionally, one end of the stable fixed rod, which is far away from the operation groove, is provided with a diagonal for increasing friction.

Through adopting above-mentioned technical scheme, the structure of twill has increased the frictional force when stabilizing the diapire of deciding pole and horizontal groove and vertical groove and offset to reduced and stabilized the slider and produced the possibility that slides after fixed, increased the holistic stability of system.

Optionally, the method for applying automatic coupling of a reflective optoelectronic device according to claim 1, including S1, resizing; s2, electrifying and positioning; s3, manual dispensing; s4, ultraviolet curing; s5, disassembling and taking the parts;

s1, adjusting the size, namely, adjusting the height of the positioning mechanism according to the sizes of the spacing body and the absorber, namely selecting a proper first positioning hole and a proper second positioning hole, and inserting the positioning rod into the first positioning hole and the second positioning hole;

s2, electrifying to position, rotating the clamping rods in the clamping holes to enable the clamping rods to fix the spacing body in the clamping grooves, and fixing the absorber to a position coupled with the spacing body through the first stabilizing mechanism and the second stabilizing mechanism;

s3, manually dispensing, wherein an operator manually performs dispensing operation on the joint of the absorber and the spacing body;

s4, ultraviolet curing, wherein an operator opens the pushing cylinder to enable the pushing rod to drive the ultraviolet curing lamp to tightly abut against the absorber and the spacer, and opens the ultraviolet curing lamp to enable the absorber and the spacer to be subjected to ultraviolet curing;

and S5, disassembling the pickup, and taking down the optical element after coupling by rotating the clamping rod in the clamping hole by an operator.

By adopting the technical scheme, an operator can adjust the height of the positioning mechanism according to the sizes of the spacer and the absorber, and adjust the first stabilizing mechanism and the second stabilizing mechanism according to the coupling angle, so that after the spacer and the absorber are located at the corresponding coupling positions, the spacer and the absorber are subjected to glue dispensing, ultraviolet curing and other operations, and compared with the direct manual coupling of the operator, the application method improves the convenience of operation and the quality of products.

Optionally, in the process of performing manual dispensing in S3, the brush head is adopted to brush the joint lightly, so that the glue is applied uniformly.

By adopting the technical scheme, the possibility of colloid accumulation at the joint due to excessive gluing is reduced by uniform gluing, and the quality of the product is improved.

In summary, the present application includes at least one of the following benefits:

1. the clamping device and the aligning device are adopted, when an operator needs to couple the reflective electronic device, the positioning mechanism can be used for fixing the spacing body firstly, then the connecting mechanism slides to a position close to the positioning mechanism, and the position of the absorber is accurately adjusted through the first stabilizing mechanism and the second stabilizing mechanism, so that the absorber corresponds to the position of the spacing body, and then gluing, ultraviolet curing and other operations are carried out;

2. by adopting the structure of the positioning pipe and the positioning rod, an operator can select the first positioning hole with proper height and insert the positioning rod into the selected first positioning hole and the second positioning hole, so that the height of the positioning mechanism is adjusted, the system is suitable for spacers with different heights, and the application range of the whole system is expanded;

3. the structure of the ball groove and the rolling steel ball is adopted, the structure of the rolling steel ball enables the pushing cylinder to be more stable when the ultraviolet curing lamp is pushed, shaking is not easy to generate, the possibility that the stability of the ultraviolet curing lamp is lower when the ultraviolet curing lamp is cured due to shaking of the pushing cylinder when the ultraviolet curing lamp is pushed is reduced, and the stability of the whole system is improved.

Drawings

FIG. 1 is a schematic mechanical diagram of an embodiment of the present application;

FIG. 2 is a schematic diagram of a mechanism for embodying a connection relationship between a ball groove and a rolling ball in an embodiment of the present application;

FIG. 3 is a schematic diagram of a mechanism for embodying a connection relationship between a positioning rod and an anti-dropping block in the embodiment of the present application;

FIG. 4 is an enlarged view of portion A of FIG. 1;

FIG. 5 is an enlarged view of portion B of FIG. 4;

in the figure: 1. a seismic floor; 11. connecting the sliding rails; 12. a joining groove; 13. a joining mechanism; 131. connecting the base; 132. a connecting rod; 14. an alignment device; 141. connecting the cross bars; 142. connecting the vertical rods; 143. a transverse slot; 144. a vertical groove; 15. a first stabilizing mechanism; 151. stabilizing the slide bar; 152. stabilizing the slide block; 153. stabilizing the contact piece; 154. stabilizing the fixed rod; 155. a stabilizing slot; 156. a butt joint groove; 16. a second stabilizing mechanism; 161. a stabilizing collar; 162. stabilizing the electromagnet; 163. a stabilizing ring groove; 164. a stabilizing magnet; 17. a fixing mechanism; 171. fixing the rod; 172. a fixing plate; 173. fixing the clamping plate; 174. fixing the sliding plate; 175. a sliding clamp plate; 176. a clamping spring; 177. fixing the chute; 2. a positioning mechanism; 21. a positioning tube; 22. positioning a rod; 23. a first positioning hole; 24. a second positioning hole; 25. an anti-drop block; 26. an anti-drop nut; 3. a clamping mechanism; 31. a clamping block; 32. a clamping groove; 33. a clamping hole; 34. a clamping rod; 4. an ultraviolet curing device; 41. a push cylinder; 42. a push rod; 43. an ultraviolet curing lamp; 45. a curing chute; 5. a ball groove; 51. rolling the steel ball; 6. an anti-twisting lever; 61. an anti-buckling tube; 7. a locking plate; 71. a locking piece; 72. twill.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an automatic coupling system of a reflection type optoelectronic device and an application method thereof. Referring to fig. 1, an automatic coupling system of a reflective optoelectronic device includes an anti-seismic bottom plate 1, a connecting slide rail 11 is welded and fixed on the top of the anti-seismic bottom plate 1, a connecting groove 12 is provided on the top of the connecting slide rail 11, a positioning mechanism 2 is fixedly mounted on one end of the inner side wall of the connecting groove 12, and a connecting mechanism 13 is slidably connected in the connecting groove 12.

Referring to fig. 1 and 2, the top of the anti-seismic bottom plate 1 is provided with curing chutes 45 on the side walls of the two sides of the linking slide rail 11, the ultraviolet curing device 4 is slidably inserted into the curing chutes 45, the ultraviolet curing device 4 comprises a pushing cylinder 41, a pushing rod 42 and an ultraviolet curing lamp 43, and the pushing cylinder 41 is fixedly mounted on one end of the curing chute 45 far away from the inner side wall of the linking slide rail 11 through bolts; the push rod 42 is connected with the output end of the push cylinder 41, the push rod 42 is an "L" shaped rod, and the ultraviolet curing lamp 43 is installed at one end of the push rod 42 far away from the push cylinder 41. The one end that catch bar 42 is close to solidification spout 45 bottom has seted up ball groove 5, and the interpolation of ball groove 5 is equipped with rolling steel ball 51, and rolling steel ball 51 all laminates the setting with the inside wall of solidification spout 45.

Referring to fig. 3, positioning mechanism 2 includes registration arm 21 and locating lever 22, the vertical setting of registration arm 21, and registration arm 21 and the inboard diapire welded fastening who links up groove 12, locating lever 22 is inserted and is located in registration arm 21, run through on the lateral wall of registration arm 21 and seted up a plurality of first locating hole 23, a plurality of first locating hole 23 vertical arrangement, run through along the horizontal direction on the lateral wall of registration arm 22 and seted up second locating hole 24, first locating hole 23 equals with axle center and radius with second locating hole 24, insert jointly in first locating hole 23 and the second locating hole 24 and be equipped with locating lever 22, locating lever 22 one end integrated into one piece has anticreep piece 25, the one end threaded connection that locating lever 22 kept away from anticreep piece 25 has anticreep nut 26.

Referring to fig. 1, the clamping block 31 is installed to the one end of locating lever 22 far away from registration arm 21, and the clamping block 31 is cuboid massive structure, offers the centre gripping groove 32 that is used for placing the interval body on the lateral wall of clamping block 31, runs through on the relative inside wall of centre gripping groove 32 and has offered centre gripping hole 33, and centre gripping hole 33 is the screw hole, and centre gripping hole 33 female connection has clamping rod 34, and clamping rod 34 inserts the one end of locating in the centre gripping hole 33 and offsets with the interval body.

Referring to fig. 1 and 4, the engaging mechanism 13 includes an engaging base 131 and an engaging rod 132, the engaging base 131 is slidably inserted into the engaging groove 12, the engaging rod 132 is welded to the top of the engaging base 131, the connecting rod 132 is vertically arranged, one end of the connecting rod 132 far away from the connecting base 131 is provided with an aligning device 14, the alignment device 14 includes a connecting cross rod 141, a connecting vertical rod 142 and a first stabilizing mechanism 15, the connecting cross rod 141 is fixed on the side wall of the connecting rod 132 close to the positioning mechanism 2 by welding, the connecting vertical rod 142 is fixed on the side wall of the connecting cross rod 141 by welding, the connecting cross rod 141 and the connecting vertical rod 142 are arranged vertically, a transverse groove 143 is formed in the side wall, close to the positioning mechanism 2, of the connecting cross rod 141, a vertical groove 144 is formed in the side wall of the connecting vertical rod 142, the transverse groove 143 is communicated with the vertical groove 144, and the length direction of the transverse groove 143 is perpendicular to the length direction of the vertical groove 144.

Referring to fig. 4 and 5, the first stabilizing mechanism 15 is installed in the transverse groove 143 and the vertical groove 144, the first stabilizing mechanism 15 includes a stabilizing slide rod 151, a stabilizing slide block 152, a stabilizing abutting piece 153 and a stabilizing fixed rod 154, the stabilizing slide block 152 is inserted into the transverse groove 143 and the vertical groove 144, the stabilizing slide block 152 is slidably connected with the transverse groove 143 and the vertical groove 144, the stabilizing slide rod 151 is welded and fixed on a side wall of the stabilizing slide block 152 close to the positioning mechanism 2, the stabilizing slide rod 151 and the stabilizing slide block 152 are vertically arranged close to a side wall of the stabilizing slide rod 151, the stabilizing abutting piece 153 is welded and fixed on four adjacent side walls of the positioning block close to the side wall of the stabilizing slide rod 151, abutting grooves 156 are respectively opened on a pair of inner side walls of the transverse groove 143 and the vertical groove 144, when the stabilizing slide block 152 slides in the transverse groove 143 and the vertical groove 144, the stabilizing abutting piece 153 slides in the abutting groove 156, a stabilizing groove 155 is opened on a side wall of the stabilizing slide block 152 far from the side wall where the stabilizing slide rod 151 is located, the stabilizing groove 155 is a threaded hole structure, the stabilizing fixing rod 154 is inserted into the stabilizing groove 155 through threads, and a cross grain 72 is formed in one end wall of the stabilizing fixing rod 154 close to the transverse groove 143 and the vertical groove 144.

Referring to fig. 4 and 5, a second stabilizing mechanism 16 is disposed at one end of the stabilizing slide rod 151 away from the stabilizing slide block 152, the second stabilizing mechanism 16 includes a stabilizing ring 161 and a stabilizing electromagnet 162, the stabilizing ring 161 is welded and fixed at one end of the stabilizing slide rod 151 away from the stabilizing slide block 152, a stabilizing ring groove 163 is disposed on a side wall of the stabilizing ring 161 close to the positioning mechanism 2, and a stabilizing magnet 164 is embedded in a bottom wall of the stabilizing ring groove 163 opposite to the positioning mechanism 2; the stabilizing electromagnet 162 is inserted into the stabilizing ring groove 163, and the stabilizing electromagnet 162 and the stabilizing magnet 164 are attached to each other.

Referring to fig. 4 and 5, the second stabilizing mechanism 16 further includes a fixing mechanism 17, the fixing mechanism 17 is installed on a side wall of the stabilizing electromagnet 162 far from the stabilizing magnet 164, the fixing mechanism 17 includes a fixing rod 171, a fixing plate 172, a fixing clamp 173, a fixing sliding plate 174, a sliding clamp 175 and a clamping spring 176, the fixing rod 171 is welded and fixed on the side wall of the stabilizing electromagnet 162 far from the stabilizing magnet 164, the fixing plate 172 is welded and fixed on one end of the fixing rod 171 far from the stabilizing electromagnet 162, the fixing clamp 173 is integrally formed on an end wall of one end of the fixing plate 172, the fixing clamp 173 is perpendicular to the fixing plate 172, one end of the fixing plate 172 far from the fixing clamp 173 is provided with a fixing sliding groove 177, the fixing sliding plate 174 is slidably inserted into the fixing sliding groove 177, a clamping plate 7 is welded and fixed on an end wall of one end of the fixing sliding groove 177, one end of the fixing sliding plate 174 inserted into the fixing sliding groove 177 is welded and fixed with a clamping plate 71, the fixed sliding plate 174 can slide in the fixed sliding chute 177 to be attached to the locking plate 7, the sliding clamp plate 175 is integrally formed on one side of the sliding clamp plate 175 away from the fixed plate 172, and the sliding clamp plate 175 and the fixed clamp plate 173 face the direction of the positioning mechanism 2 and are arranged in parallel; one end of the clamping spring 176 is fixed to the fixed clamp 173 by gluing, and the other end is fixed to the sliding clamp 175 by gluing.

Referring to fig. 4, the anti-twisting rod 6 and the anti-twisting tube 61 are inserted into the clamping spring 176, one end of the anti-twisting rod 6 close to the fixing clamp 173 is welded and fixed to the side wall of the fixing clamp 173 close to the clamping spring 176, the anti-twisting rod 6 is inserted into the anti-twisting tube 61, the anti-twisting rod 6 is connected with the anti-twisting tube 61 in a sliding manner, the anti-twisting tube 61 and the side wall of the sliding clamp 175 close to the clamping spring 176 are welded and fixed, and therefore the possibility of excessive twisting of the clamping spring 176 is reduced.

The embodiment of the application also discloses an application method of the automatic coupling of the reflection type photoelectronic device, which comprises the steps of S1, size adjustment; s2, electrifying and positioning; s3, manual dispensing; s4, ultraviolet curing; s5, disassembling and taking the parts;

s1, adjusting the size, namely, firstly adjusting the height of the positioning mechanism 2 according to the sizes of the spacing body and the absorption body, namely, firstly selecting a first positioning hole 23 with proper height from the first positioning holes 23, moving the first positioning hole 23 and the second positioning hole 24 to be coaxial, and then inserting the positioning rod 22 into the first positioning hole 23 and the second positioning hole 24;

s2, positioning by powering on, rotating the clamping rod in the clamping hole 33, so that the clamping rod fixes the spacer in the clamping groove 32, and the operator first presses the operating rod, so that the stabilizing sliding block 152 is slid to a proper position after the stabilizing fixing rod 154 is separated from the inner side walls of the transverse groove 143 and the vertical groove 144, and then releases the operating rod, so that the stabilizing fixing rod 154 abuts against the inner side walls of the transverse groove 143 and the vertical groove 144, thereby completing the fixing of the first stabilizing mechanism 15; then, according to the positions of the spacing body and the absorber, an operator moves the position of the stabilizing electromagnet 162 in the stabilizing ring groove 163, so that the spacing body and the absorber are in a coupling position, and then the electromagnet is electrified to be adsorbed by the stabilizing magnet 164, so that the absorber is positioned;

s3, manually dispensing, wherein an operator manually performs dispensing operation on the joint of the absorber and the spacer, and the operator lightly brushes the joint by using a brush head during dispensing so as to uniformly apply glue as much as possible;

s4, ultraviolet curing, wherein an operator opens the pushing cylinder 41 to enable the pushing rod 42 to drive the ultraviolet curing lamp 43 to tightly abut against the absorber and the spacer, and opens the ultraviolet curing lamp 43 to enable the absorber and the spacer to be subjected to ultraviolet curing;

and S5, disassembling the pickup, and rotating the clamping rod on one side in the clamping hole 33 by an operator to enable the clamping rod to slide in a direction away from the spacing body so as to remove the optical element which is completely coupled.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes in the mechanism, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An automatic coupling system of a reflection-type optoelectronic device is characterized in that: the shock-resistant base plate comprises a shock-resistant base plate (1), wherein a connecting slide rail (11) is arranged on the shock-resistant base plate (1), a connecting groove (12) is formed in the connecting slide rail (11), a positioning mechanism (2) is arranged at one end of the inner side wall of the connecting groove (12), a connecting mechanism (13) is connected in the connecting groove (12) in a sliding mode, a clamping device used for clamping a spacer is arranged on the positioning mechanism (2), an aligning device (14) used for clamping an absorber is arranged on the connecting mechanism (13), and an ultraviolet curing device (4) is arranged on the shock-resistant base plate (1);

the joining mechanism (13) comprises a joining base (131) and a joining rod (132), the joining base (131) is inserted into the joining groove (12), the joining base (131) is connected with the joining groove (12) in a sliding mode, and the joining rod (132) is arranged at the top of the joining base (131);

the alignment device (14) comprises a connecting cross rod (141), a connecting vertical rod (142) and a first stabilizing mechanism (15), the connecting cross rod (141) is arranged on the side wall, close to the positioning mechanism (2), of the connecting rod (132), the connecting vertical rod (142) is arranged on the side wall of the connecting cross rod (141), a transverse groove (143) is formed in the side wall, close to the positioning mechanism (2), of the connecting cross rod (141), a vertical groove (144) is formed in the side wall of the connecting vertical rod (142), and the transverse groove (143) is communicated with the vertical groove (144);

the first stabilizing mechanism (15) comprises a stabilizing slide bar (151), a stabilizing slide block (152), a stabilizing abutting piece (153) and a stabilizing fixed bar (154), the stabilizing slide block (152) is inserted into the transverse groove (143) and the vertical groove (144), the stabilizing slide block (152) is connected with the transverse groove (143) and the vertical groove (144) in a sliding mode, the stabilizing slide bar (151) is arranged on the side wall, close to the positioning mechanism (2), of the stabilizing slide block (152), the stabilizing abutting piece (153) is arranged on the peripheral side wall, adjacent to the side wall, where the stabilizing slide bar (151) is located, of the stabilizing slide block (152), abutting grooves (156) are formed in the side walls of the transverse groove (143) and the vertical groove (144), the stabilizing abutting piece (153) is inserted into the abutting grooves (156), and a stabilizing groove (155) is formed in a penetrating mode on the side wall, far away from the stabilizing slide bar (151), of the stabilizing slide block (152), the stabilizing groove (155) is a threaded hole, the stabilizing fixed rod (154) is inserted into the stabilizing groove (155) in a threaded manner, the stabilizing fixed rod (154) abuts against the bottom walls of the transverse groove (143) and the vertical groove (144), and a second stabilizing mechanism (16) is arranged at one end, far away from the stabilizing sliding block (152), of the stabilizing sliding rod (151);

the second stabilizing mechanism (16) comprises a stabilizing lantern ring (161), a stabilizing electromagnet (162) and a fixing mechanism (17), the stabilizing lantern ring (161) is arranged at one end, far away from the stabilizing sliding block (152), of the stabilizing sliding rod (151), a stabilizing ring groove (163) is annularly formed in the side wall, close to the positioning mechanism (2), of the stabilizing lantern ring (161), and a stabilizing magnet (164) is embedded in the bottom wall of the inner side of the stabilizing ring groove (163); the stabilizing electromagnet (162) is connected with the stabilizing ring groove (163) in a sliding mode, and the fixing structure is arranged on the stabilizing electromagnet (162);

the fixing mechanism (17) comprises a fixing rod (171), a fixing plate (44) (172), a fixing splint (173), a fixing sliding plate (174), a sliding splint (175) and a clamping spring (176), the fixing rod (171) is arranged on the side wall of the stabilizing electromagnet (162), the fixing plate (44) (172) is arranged at one end of the fixing rod (171) far away from the stabilizing electromagnet (162), the fixing splint (173) is arranged on the end wall of one end of the fixing plate (44) (172), the fixing splint (173) is perpendicular to the fixing plate (44) (172), a fixing sliding chute (177) is arranged at one end of the fixing plate (44) (172) far away from the fixing splint (173), the fixing sliding plate (174) is inserted into the fixing sliding chute (177), and the sliding splint (175) is arranged at one side of the sliding splint (175) far away from the fixing plate (44) (172), the sliding clamping plate (175) and the fixed clamping plate (173) are arranged in parallel in the same direction; one end of the clamping spring (176) is connected with the fixed clamping plate (173), and the other end is connected with the sliding clamping plate (175).

2. An automatic coupling system of reflective optoelectronic devices according to claim 1, wherein: positioning mechanism (2) are including registration arm (21) and locating lever (22), registration arm (21) and the inside wall fixed connection who links up groove (12), locating lever (22) are inserted and are located in registration arm (21), a plurality of first locating holes (23) have been seted up on the lateral wall of registration arm (21), run through on the lateral wall of locating lever (22) and seted up second locating hole (24), insert jointly in first locating hole (23) and second locating hole (24) and be equipped with locating lever (22), locating lever (22) one end is provided with anticreep piece (25), and the other end is provided with anticreep nut (26).

3. An automatic coupling system of reflective optoelectronic devices according to claim 1, wherein: fixture (3) include grip block (31), grip block (31) are last to have seted up centre gripping groove (32), grip block (31) have been seted up on a pair of adjacent lateral wall of grip block (32) place lateral wall with centre gripping groove (32) centre gripping hole (33), centre gripping hole (33) and centre gripping groove (32) intercommunication set up, centre gripping hole (33) female connection has the supporting rod, supporting rod and centre gripping hole (33) threaded connection, the one end that the supporting rod is relative offsets with the interval body.

4. An automatic coupling system of reflective optoelectronic devices according to claim 1, wherein: ultraviolet curing device (4) is including promoting actuating cylinder (41), catch bar (42) and ultraviolet curing lamp (43), solidification spout (45) have been seted up on antidetonation bottom plate (1), ultraviolet curing device (4) set up in solidification spout (45), promote actuating cylinder (41) and set up in solidification spout (45) one end, catch bar (42) are connected with promotion actuating cylinder (41) output, ultraviolet curing lamp (43) set up in catch bar (42) keep away from the one end of promoting actuating cylinder (41).

5. An automatic coupling system of reflective optoelectronic devices according to claim 4, wherein: the side wall of the push rod (42) is provided with a ball groove (5) in a penetrating mode, a rolling steel ball (51) is inserted into the ball groove (5), and the rolling steel ball (51) is attached to the inner side wall of the curing chute (45).

6. An automatic coupling system of reflective optoelectronic devices according to claim 1, wherein: the utility model discloses a clamp spring, including centre gripping spring (176), clamping spring (176) interpolation is equipped with prevents distorting pole (6) and prevents distorting pipe (61), prevent distorting pole (6) and fixed splint (173) are connected, prevent distorting pipe (61) and be connected with slip splint (175), prevent distorting pole (6) and insert and locate in preventing distorting pipe (61).

7. An automatic coupling system of reflective optoelectronic devices according to claim 1, wherein: the end wall of one end, close to the sliding clamping plate (175), of the fixed sliding chute (177) is provided with a clamping and stopping plate (7), one end, inserted into the fixed sliding chute (177), of the sliding clamping plate (175) is provided with a clamping and stopping sheet (71), and the clamping and stopping sheet (71) is attached to the clamping and stopping plate (7).

8. The automatic coupling system of reflective optoelectronic device and the application method thereof according to claim 1, wherein: one end of the stable fixed rod (154) far away from the operation groove is provided with a twill (72) used for increasing friction.

9. The method of claim 1, wherein the step of applying the automatic coupling comprises: including S1, adjusting the size; s2, electrifying and positioning; s3, manual dispensing; s4, ultraviolet curing; s5, disassembling and taking the parts;

s1, adjusting the size, namely, adjusting the height of the positioning mechanism (2) according to the sizes of the spacing body and the absorption body, namely, selecting a proper first positioning hole (23) and a proper second positioning hole (24), and inserting the positioning rod (22) into the first positioning hole (23) and the second positioning hole (24);

s2, electrifying to position, rotating the clamping rods in the clamping holes (33) to enable the clamping rods to fix the spacing body in the clamping grooves (32), and fixing the absorber to a position coupled with the spacing body through the first stabilizing mechanism (15) and the second stabilizing mechanism (16);

s3, manually dispensing, wherein an operator manually performs dispensing operation on the joint of the absorber and the spacing body;

s4, ultraviolet curing, wherein an operator opens the pushing cylinder (41) to enable the pushing rod (42) to drive the ultraviolet curing lamp (43) to tightly abut against the absorber and the spacer, and opens the ultraviolet curing lamp (43) to enable the absorber and the spacer to be subjected to ultraviolet curing;

and S5, disassembling the pickup, and rotating the clamping rod in the clamping hole (33) by an operator to take down the optical element which is coupled.

10. The method of claim 9, wherein the step of applying an automatic coupling system comprises: in the process of manual dispensing in the S3, the brush head is adopted to brush the joint lightly, so that the glue is uniformly applied.

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