Self-adaptive multi-core fiber arranging and winding device
Technical Field
The utility model relates to a take-up especially relates to a device that carries out the line of receiving is arranged fine to the multicore according to the demand, belongs to optic fibre auxiliary assembly technical field.
Background
The optical fiber is used as a transmission medium of laser, and the popularization and application in various fields greatly improve the prior technical level and the living standard. Because the basic component of the optical fiber is quartz, the optical fiber has the advantages of low loss, long transmission distance and the like, and is popular in the communication industry. In the production of optical devices, optical fibers with different lengths are required to be used, the optical fibers are arranged into circular rings with the diameter of about 30cm by a winding device at the rear end of an optical fiber cable cutting machine popularized in the market in a rotating mode, the optical fibers stored in the mode have the phenomena of stacking and uneven arrangement, and the requirements of integration of fiber arrangement and winding cannot be met. Therefore, a device capable of realizing fixed-length fiber arrangement, wire collection and auxiliary fiber cutting is needed.
Disclosure of Invention
An object of the utility model is to overcome the above-mentioned not enough, provide a fine take-up is arranged to self-adaptation multicore, its can realize rated length arrange fine, receive the function of line, and cut the life who helps the extension to cut out fine device at last.
The purpose of the utility model is realized like this:
the utility model provides a fine take-up is arranged to self-adaptation multicore, the device includes the bottom frame, the bottom frame is provided with two bottom plates along its length direction, the bottom plate passes through on bolt-up and the bottom frame, and equal vertical installation has the regulation stand on two bottom plates, all installs two upper and lower guide wheels on the lateral wall of every regulation stand, and the winding has the conveyer belt on four guide wheels, install the winding displacement ware on the regulation stand, the winding displacement ware is located by a guide wheel of top.
The utility model relates to a fine take-up is arranged to self-adaptation multicore, be provided with the tight wheel that rises between the same guide wheel that corresponds with it of winding displacement ware.
The utility model relates to a fine take-up is arranged to self-adaptation multicore, be provided with a plurality of waist holes on the frame of bottom, the bolt that passes waist hole is arranged in adjusting the stand soon to realize the adjustable connection of frame of bottom and adjusting the stand, can dock with the dovetail on the frame of bottom through the bolt, convenient spacing is adjusted; on the one hand, the guide wheels on the two groups of adjusting upright posts are conveniently adjusted to the same horizontal plane, and on the other hand, the change of the optical fiber cutting length is realized by adjusting the horizontal distance between the two groups of adjusting upright posts.
The utility model relates to a fine take-up is arranged to self-adaptation multicore, four leading wheels are located the coplanar, and a leading wheel is by motor drive's action wheel, and all the other three leading wheels are from the driving wheel.
The utility model relates to a self-adaptive multi-core fiber arranging and winding device, wherein the guide wheels are respectively connected with corresponding shaft levers, the shaft levers are sleeved on bearing seats, and the bearing seats are arranged on the side walls of adjusting upright posts; the motor has a stepless speed regulation function and is used for controlling the take-up speed.
The utility model relates to a fine take-up is arranged to self-adaptation multicore, the conveyer belt is the high strength transmission band.
The utility model relates to a fine take-up is arranged to self-adaptation multicore, the diameter of guide wheel is greater than the minimum bend radius of optic fibre.
The utility model relates to a self-adaptive multi-core fiber arranging and winding device, which adjusts the distance between two adjusting upright posts, so that the perimeter of a conveyor belt surrounding a guide wheel is equal to the length of the required fiber arrangement; and then, starting a motor for driving the guide wheel to rotate, tightly winding the optical fibers on the conveying belt through the wire arranging device, and cutting the wound optical fiber coil once after the winding is finished to obtain the required number and length of the arranged optical fibers.
Compared with the prior art, the beneficial effects of the utility model are that:
the utility model can conveniently take up the optical fiber with fixed length and then cut the flat cable with required length; the optical fibers are tightly arranged on the same horizontal plane through the reciprocating motion of the wire arranging device, so that the optical fibers are convenient to take when being bundled and wound; meanwhile, the tension wheel ensures that certain tension force exists in the process of winding the optical fibers to prevent the optical fibers from loosening and guides the optical fibers to be arranged; in addition, the existence of the conveyor belt can ensure that the optical fiber has an attachment plane when being surrounded, thereby reducing the tensile force applied to the optical fiber and reducing the damage of the optical fiber; finally, the manual fiber arrangement process is reduced, the efficiency is improved, and the service life of the cable cutting machine cutting knife is prolonged.
Drawings
Fig. 1 is a schematic structural view of a self-adaptive multi-core fiber arranging and winding device of the present invention;
fig. 2 is a partial schematic view of an adjusting column and a waist hole of the self-adaptive multi-core fiber arranging and winding device of the present invention;
fig. 3 is a partial schematic view of a driven wheel shaft rod and a bearing seat of the self-adaptive multi-core fiber arranging and winding device of the present invention;
fig. 4 is the utility model discloses a fine take-up's of self-adaptation multicore row initiative axostylus axostyle and bearing frame local schematic diagram.
Wherein:
the device comprises a bottom frame 1, an adjusting upright post 2, a guide wheel 3, a conveyor belt 4, a wire arranging device 5, a tension wheel 6, a shaft rod 7, a bearing seat 8 and a motor 9;
a waist hole 21;
a driving wheel 31 and a driven wheel 32.
Detailed Description
Referring to fig. 1-4, the utility model relates to a fine take-up is arranged to self-adaptation multicore, the device includes bottom frame 1, bottom frame 1 is provided with two bottom plates along its length direction, the bottom plate passes through on bolt fastening and the bottom frame 1, all vertically installs adjusting column 2 on two bottom plates, all installs two upper and lower guide wheels 3 on the lateral wall of each adjusting column 2, has twined conveyer belt 4 on four guide wheels 3, install winding displacement ware 5 on adjusting column 2, winding displacement ware 5 is located a guide wheel 3 of top;
furthermore, a tension wheel 6 is arranged between the wire arranging device 5 and the corresponding guide wheel 3;
furthermore, a plurality of waist holes 21 are formed in the bottom frame 1, and bolts penetrating through the waist holes 21 are screwed in the adjusting upright posts 2, so that the adjustable connection between the bottom frame 1 and the adjusting upright posts 2 is realized; the bolt can be butted with a dovetail groove on the bottom frame 1, so that the distance is convenient to adjust; on one hand, the guide wheels 3 on the two groups of adjusting upright posts 2 are conveniently adjusted to the same horizontal plane, and on the other hand, the change of the cutting length of the optical fiber is realized by adjusting the horizontal distance between the two groups of adjusting upright posts 2;
furthermore, four guiding wheels 3 are positioned in the same plane, one guiding wheel 3 is a driving wheel 31 driven by a motor 9, and the other three guiding wheels 3 are driven wheels 32; the guide wheels 3 are respectively connected with corresponding shaft rods 7, the shaft rods 7 are sleeved on bearing seats 8, and the bearing seats 8 are arranged on the side walls of the adjusting upright posts 2; the motor 9 has a stepless speed regulation function and is used for controlling the take-up speed;
further, the conveyor belt 4 is a high-strength conveyor belt;
further, the diameter of the guide wheel 3 is larger than the minimum bending radius of the optical fiber;
a take-up method of a self-adaptive multi-core fiber arrangement take-up device is characterized in that the distance between two adjusting upright posts 2 is adjusted, so that the circumference of a conveyor belt 4 which is wound on a guide wheel 3 is equal to the length of required fiber arrangement; and then, starting a motor 9 for driving the guide wheel 3 to rotate, tightly winding the optical fibers on the conveyor belt 4 through the fiber arranging device 5, and cutting the wound optical fiber roll once after the winding is finished to obtain the required number and length of the arranged optical fibers.
In addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.