When the existing optical fiber six-dimensional adjusting frame is used to light the optical fiber on the optical machine, it is necessary to hold the optical fiber array in alignment by adjusting the fixture on the adjusting frame. The existing optical fiber adjusting fixture on the optical machine can not fine-tune the optical fiber array on the fixture, and can not guarantee the accurate position and cause errors.

 

The fixture for the six-dimensional adjusting frame of the optical fiber is of two-section structure. The two sections are fixtures and clamps. The fixture is provided with fixed holes for fixing the fixture on screen printing equipment. The clamp is equipped with clamping holes for holding the optical fiber detector. The fixtures and clamps can be adjusted and spliced together. The adjustable optical fiber fixture of the utility model has simple structure, convenient manufacturing and can be easily manufactured. Adjust the upper and lower positions of fixtures and clamps to reduce positioning errors. However, the adjustable optical fiber clamp can only adjust the position in two directions, but it can not guarantee in the other four directions, resulting in errors.

 

Futancy's six-dimensional adjusting fixture solves the problem that the existing optical fiber adjusting fixture on the machine can not fine-tune the six directions of the optical fiber array on the fixture, and can not guarantee the accurate position, resulting in errors. To solve the above technical problems, the utility model adopts the following technical scheme: a six-dimensional adjusting frame fixture, which comprises a fixture body and a fixture base. The fixture base is integrally connected with a base, the base is on one side indicated by the fixture base, the surface of the fixture base is longitudinally provided with two lumbar grooves, the base is horizontally provided with sliding grooves, and the fixture body is sliding connected in the sliding groove. The lateral fixture body is connected with a movable knob of the fixture body, the upper thread of the fixture body is connected with a fixture bracket knob, the upper surface of the fixture bracket knob is fixed with a fixture bracket, the upper surface of the end of the fixture bracket is connected with an upper and lower movable knob, and the fixture body is provided with an optical fiber array slot. The fixture of the six-dimensional adjusting frame places the optical fiber array in the slot of the optical fiber array. The position of the optical fiber array is adjusted by rotating the fixture body moving knob and the up-down moving knob. The left and right position of the six-dimensional adjusting frame fixture is adjusted by two waist grooves on the surface of the fixture base. The position of the optical fiber array is adjusted by six-dimensional adjusting the fixture bracket knob and the rotary fixture. The bracket aligns the up and down moving knob to the position of the optical fiber array. As a preferred choice, the optical fiber array slot is matched with the optical fiber array. It is easy to fix the optical fiber array after insertion and prevent the position from being offset due to loosening. Futancy's six-dimensional adjusting fixture can adjust the optical position of the optical fiber in the six directions of the optical fiber array on the machine, so as to make the optical position more precise and reduce the error.

 

Futansi (Shanghai) Electronic Technology Co., Ltd. produces: six-dimensional adjusting frame, optical fixture, optical sliding table, manual precision sliding table, one-dimensional adjusting frame, electric sliding table, arc pendulum table, angular table, Shanghai adjusting frame and so on.