A device to avoid shaking of the coupling fixture during movement
A moving process and fixture technology, applied in the coupling of optical waveguides, instruments, optics, etc., can solve the problems of reducing work efficiency, shaking of the clamping block, and deviation from the predetermined position, so as to improve work efficiency, avoid shaking, and increase stability. Effect
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Embodiment 1
[0034] Such as Figure 1-Figure 9 As shown, the present invention avoids the device that the coupling fixture shakes during the movement process, including the coupling fixture, and the coupling fixture includes a lower fixture assembly and an upper fixture assembly that are coaxial with each other, the lower fixture is used to clamp the semiconductor laser assembly, and the upper fixture assembly It is used to clamp the integrated optical fiber component, and complete the alignment and coupling of the semiconductor laser component and the integrated optical fiber component by adjusting the motion platform connected to the lower clamp assembly. The upper clamp assembly includes a clamping block 2 capable of fixing the optical fiber assembly and a mounting seat 1 with a mounting hole 3, a stop plate 4 is provided at one end of the clamping block 2, and the other end of the clamping block 2 is matched with the mounting hole 3 , a bar 5 is provided on the side wall of the clampin...
Embodiment 2
[0037] The present invention is based on embodiment 1, and the present invention is further described.
[0038] Such as Figure 1-Figure 9 As shown in the present invention, the device for avoiding the shaking of the coupling fixture during the moving process, the cross section of the through groove 6 is square, the telescopic assembly includes a spring 7 and a moving plate 8 connected in sequence, and the spring 7 is a helical cylindrical spring , where the end away from the moving plate 8 is connected to the side wall of the through groove 6, and the moving plate 8 is perpendicular to the axis of the spring 7;
[0039] In a pair of telescopic assemblies, the spring 7 in one telescopic assembly is connected to one side of the channel 6 , and the spring 7 in the other telescopic assembly is connected to the other side of the channel 6 .
[0040] Further, there are three springs 7 in each telescoping assembly, and they are sequentially and evenly arranged between the groove wa...
Embodiment 3
[0043] The present invention is based on embodiment 1, and the present invention is further described.
[0044] Such as Figure 1-Figure 9 As shown, the present invention avoids the device of the coupling fixture from shaking during the moving process. An insert 9 is arranged on the end of the bar 5 far away from the retaining plate 4. The insert 9 is an isosceles triangular prism, and in its cross section The side where the bottom edge is located is connected to the end surface of the bar 5 away from the stop plate 4 , and the surface where the bottom edge is located is consistent with the cross-sectional size of the bar 5 .
[0045] The arrangement of the inserting block 9 facilitates the smooth insertion of the bar 5 between the telescopic components.
[0046] Further, anti-skid lines are provided on the side wall of the stopper 4 . Since the clamping block 2 is clamped by the telescopic assembly, it takes a lot of force to disassemble or install the clamping block 2. The...
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