CN219546882U - Device is put with unloading to optical fiber perform processing - Google Patents

Abstract

The utility model discloses a blanking and placing device for processing an optical fiber preform, relates to the technical field of blanking and placing devices, and aims to solve the problems that an existing optical fiber preform wire drawing device lacks an effective placing and accommodating device when in blanking treatment on wire drawing, so that drawn optical fiber wires cannot be collected rapidly and are easy to twist. The bearing pedestal is arranged above the lower support seat, the upper end of the bearing pedestal is provided with a top pedestal, and the top pedestal and the bearing pedestal are integrally formed; further comprises: the gravity sensor is arranged at a position between the supporting lower seat and the bearing pedestal, two ends of the gravity sensor are fixedly connected with the supporting lower seat and the bearing pedestal respectively through screws, an electric push rod is arranged on one side of the top pedestal, and a servo motor is arranged on one side of the bearing pedestal; and the transmission sleeve shaft is arranged on the other side of the bearing pedestal, one end of the transmission sleeve shaft is provided with an extension shaft, and the extension shaft and the transmission sleeve shaft are integrally formed.

Description

Device is put with unloading to optical fiber perform processing

Technical Field

The utility model relates to the technical field of blanking placement devices, in particular to a blanking placement device for processing an optical fiber preform.

Background

The optical fiber preform is a material preform which can be used for drawing an optical fiber, the optical fiber preform is a core raw material for manufacturing quartz series optical fibers, and the optical fiber preform is required to be subjected to drawing and blanking treatment when the optical fiber is processed.

For example, bulletin numbers: CN206599520U (named an automatic drawing device for optical fiber preform) comprises a tail pipe, an optical fiber preform, a butt joint step, a quartz sleeve, a drawing furnace, a furnace mouth gas seal and a furnace mouth metal gas plate; the diameter of tail pipe is less than the diameter of optical fiber perform, optical fiber perform and tail pipe high temperature butt fusion are in the same place and are formed the butt joint step, and the butt joint step is perpendicular with optical fiber perform, and the quartz sleeve cover of N upper and lower stacks is established in the tail pipe outside and block dress on the butt joint step, and N is greater than or equal to 3, and optical fiber perform hangs into the wire drawing stove through the mouth metal gas plate perpendicularly in, and the mouth gas seal sets up on the mouth metal gas plate, adjacent seamless coupling mechanism has been set up between the quartz sleeve, seamless coupling mechanism is the annular of setting on quartz sleeve border, and this annular facilitates the installation, can guarantee the leakproofness and the accuracy of installation between two liang of quartz sleeves.

Above-mentioned optical fiber perform wire drawing device lacks effectual storage device of putting when carrying out the unloading to the wire drawing and handles, leads to the optical fiber silk of drawing to obtain quick collection, takes place the problem of hank easily, and for this reason, we provide an optical fiber perform processing with unloading storage device.

Disclosure of Invention

The utility model aims to provide a blanking and placing device for processing an optical fiber preform, which aims to solve the problems that the existing optical fiber preform drawing device provided in the background art lacks an effective placing and accommodating device when carrying out blanking treatment on drawn wires, so that drawn optical fiber wires cannot be collected rapidly and are easy to cause twisting.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the blanking placement device for processing the optical fiber preform comprises a supporting lower seat, wherein a bearing pedestal is arranged above the supporting lower seat, a top pedestal is arranged at the upper end of the bearing pedestal, and the top pedestal and the bearing pedestal are integrally formed;

further comprises:

the gravity sensor is arranged at a position between the supporting lower seat and the bearing pedestal, two ends of the gravity sensor are fixedly connected with the supporting lower seat and the bearing pedestal respectively through screws, an electric push rod is arranged on one side of the top pedestal, and a servo motor is arranged on one side of the bearing pedestal;

the transmission sleeve shaft is arranged on the other side of the bearing pedestal, one end of the transmission sleeve shaft is provided with an extension shaft, and the extension shaft and the transmission sleeve shaft are integrally formed;

the wire drawing groove is formed in the top pedestal, the wire drawing groove and the top pedestal are integrally formed, a cutting knife is arranged in the wire drawing groove, and the cutting knife is fixedly connected with a piston rod of the electric push rod through a screw;

the winding roller is arranged at the outer position of the transmission sleeve shaft, and a limiting connecting groove is formed in the connecting position of the winding roller and the transmission sleeve shaft and integrally formed with the winding roller.

Preferably, a PLC controller is arranged on one side of the gravity sensor, a push rod controller and a servo controller are arranged on one side of the PLC controller, and the output ends of the push rod controller and the servo controller are respectively and electrically connected with the input end of the electric push rod and the input end of the servo motor.

Preferably, the output end of the gravity sensor is electrically connected with the input end of the PLC, and the output end of the PLC is electrically connected with the input end of the push rod controller and the input end of the servo controller.

Preferably, a coupling mechanism is arranged at the connection position of the servo motor and the extension shaft, and the servo motor is in transmission connection with the extension shaft through the coupling mechanism.

Preferably, a movable perforation is arranged at the connection position of the piston rod of the electric push rod and the top pedestal, and the movable perforation and the top pedestal are integrally formed.

Preferably, the base of the electric push rod is arranged on the wall surface.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the optical fiber preform is drawn from the drawing furnace, the drawn optical fiber is wound onto the winding roller through the drawing groove in the top pedestal, in the winding process, the servo motor drives the transmission sleeve shaft to rotate, so that the transmission sleeve shaft drives the winding roller to rotate, and a new winding roller is replaced to carry out next winding again after winding is completed, thereby achieving the purpose of rapidly accommodating and placing the optical fiber, and overcoming the problem that the existing optical fiber preform drawing device lacks an effective accommodating device when carrying out blanking treatment on the drawn optical fiber, so that the drawn optical fiber cannot be rapidly collected and is easy to cause twisting.

2. After the fiber is wound by a certain amount, the gravity sensor transmits an electric signal to the PLC, and the PLC performs sub-control on the push rod controller and the servo controller, so that the push rod controller drives the cutting knife to cut the fiber inside the fiber drawing trough, and the servo controller controls the servo motor to stop rotating, so that the fiber drawing weight of each coil is ensured to be approximately equal.

Drawings

FIG. 1 is a schematic diagram showing the overall structure of a blanking device for processing an optical fiber preform;

FIG. 2 is a schematic view of the internal structure of the top pedestal of the present utility model;

FIG. 3 is a schematic view of the connection between the winding roller and the drive sleeve of the present utility model;

FIG. 4 is a schematic diagram of a gravity sensor workflow of the present utility model;

in the figure: 1. supporting the lower seat; 2. a gravity sensor; 3. a load-bearing pedestal; 4. a servo motor; 5. a coupling mechanism; 6. a winding drum; 7. a top pedestal; 8. an electric push rod; 9. drawing wire and passing through the groove; 10. a cutting knife; 11. a movable perforation; 12. limiting connecting grooves; 13. a transmission sleeve shaft; 14. an extension shaft; 15. a PLC controller; 16. a push rod controller; 17. a servo controller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-4, an embodiment of the present utility model is provided: the blanking placement device for processing the optical fiber preform comprises a supporting lower seat 1, wherein a bearing pedestal 3 is arranged above the supporting lower seat 1, a top pedestal 7 is arranged at the upper end of the bearing pedestal 3, and the top pedestal 7 and the bearing pedestal 3 are integrally formed;

further comprises:

the gravity sensor 2 is arranged at a position between the supporting lower seat 1 and the bearing pedestal 3, two ends of the gravity sensor 2 are respectively fixedly connected with the supporting lower seat 1 and the bearing pedestal 3 through screws, an electric push rod 8 is arranged on one side of the top pedestal 7, and a servo motor 4 is arranged on one side of the bearing pedestal 3;

a driving sleeve shaft 13, which is arranged at the other side of the bearing pedestal 3, wherein one end of the driving sleeve shaft 13 is provided with an extension shaft 14, and the extension shaft 14 and the driving sleeve shaft 13 are integrally formed;

the wire drawing groove 9 is formed in the top pedestal 7, the wire drawing groove 9 and the top pedestal 7 are integrally formed, a cutting knife 10 is arranged in the wire drawing groove 9, and the cutting knife 10 is fixedly connected with a piston rod of the electric push rod 8 through a screw;

the winding roller 6 is arranged at the outer position of the transmission sleeve shaft 13, and a limiting connecting groove 12 is arranged at the connecting position of the winding roller 6 and the transmission sleeve shaft 13, and the limiting connecting groove 12 and the winding roller 6 are integrally formed.

When the winding machine is used, the optical fiber preform is drawn from the drawing furnace, the drawn optical fiber is wound on the winding roller through the drawing groove in the top pedestal, and in the winding process, the servo motor drives the transmission sleeve shaft to rotate, so that the transmission sleeve shaft drives the winding roller to rotate, and a new winding roller is replaced after winding is completed to perform next winding again.

Referring to fig. 4, a PLC controller 15 is disposed on one side of the gravity sensor 2, a push rod controller 16 and a servo controller 17 are disposed on one side of the PLC controller 15, output ends of the push rod controller 16 and the servo controller 17 are respectively electrically connected with an input end of the electric push rod 8 and an input end of the servo motor 4, and the PLC controller 15 disposed on one side of the gravity sensor 2 plays a role of sensing the sub-control push rod controller 16 and the servo controller 17.

Referring to fig. 4, an output end of the gravity sensor 2 is electrically connected to an input end of the PLC controller 15, and an output end of the PLC controller 15 is electrically connected to an input end of the push rod controller 16 and an input end of the servo controller 17.

Referring to fig. 1, a coupling mechanism 5 is disposed at a connection position between a servo motor 4 and an extension shaft 14, the servo motor 4 is in transmission connection with the extension shaft 14 through the coupling mechanism 5, and the coupling mechanism 5 disposed at the connection position between the servo motor 4 and the extension shaft 14 plays a role in transmission connection between the servo motor 4 and the extension shaft 14.

Referring to fig. 2, a movable through hole 11 is disposed at a connection position between a piston rod of the electric push rod 8 and the top stand 7, the movable through hole 11 and the top stand 7 are integrally formed, and the movable through hole 11 disposed at a connection position between the piston rod of the electric push rod 8 and the top stand 7 plays a role in facilitating the connection and movement of the piston rod of the electric push rod 8.

Referring to fig. 1, a base of the electric putter 8 is mounted on a wall surface.

Working principle: when the optical fiber drawing machine is used, an optical fiber preform is drawn from a drawing furnace, drawn optical fiber is wound onto the winding roller 6 through the drawing groove 9 in the top pedestal 7, the servo motor 4 drives the transmission sleeve shaft 13 to rotate in the winding process, the transmission sleeve shaft 13 drives the winding roller 6 to rotate, the PLC controller 15 presets the required gravity value, the gravity sensor 2 monitors the gravity of the bearing pedestal 3 in real time, after the optical fiber is wound by a certain amount, the gravity sensor 2 transmits an electric signal to the PLC controller 15, the PLC controller 15 performs sub-control on the push rod controller 16 and the servo controller 17, so that the push rod controller 16 drives the cutting knife 10 to cut the optical fiber in the drawing groove 9, the servo controller 17 controls the servo motor 4 to stop rotating, the weight of each winding optical fiber is ensured to be approximately equal, the new winding roller 6 is replaced for next winding after the winding is completed, the purpose of rapidly storing and placing the optical fiber is achieved, and the use of the unloading device for processing the optical fiber preform is completed.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The blanking placing device for processing the optical fiber preform comprises a supporting lower seat (1), wherein a bearing pedestal (3) is arranged above the supporting lower seat (1), a top pedestal (7) is arranged at the upper end of the bearing pedestal (3), and the top pedestal (7) and the bearing pedestal (3) are integrally formed;

the method is characterized in that: further comprises:

the gravity sensor (2) is arranged at a position between the supporting lower seat (1) and the bearing pedestal (3), two ends of the gravity sensor (2) are fixedly connected with the supporting lower seat (1) and the bearing pedestal (3) through screws respectively, one side of the top pedestal (7) is provided with an electric push rod (8), and one side of the bearing pedestal (3) is provided with a servo motor (4);

the transmission sleeve shaft (13) is arranged on the other side of the bearing pedestal (3), one end of the transmission sleeve shaft (13) is provided with an extension shaft (14), and the extension shaft (14) and the transmission sleeve shaft (13) are integrally formed;

the wire drawing groove (9) is formed in the top pedestal (7), the wire drawing groove (9) and the top pedestal (7) are integrally formed, a cutting knife (10) is arranged in the wire drawing groove (9), and the cutting knife (10) is fixedly connected with a piston rod of the electric push rod (8) through a screw;

the winding roller (6) is arranged at the outer position of the transmission sleeve shaft (13), and a limiting connecting groove (12) is formed in the connecting position of the winding roller (6) and the transmission sleeve shaft (13), and the limiting connecting groove (12) and the winding roller (6) are integrally formed.

2. The blanking placement apparatus for optical fiber preform processing as claimed in claim 1, wherein: one side of the gravity sensor (2) is provided with a PLC (programmable logic controller) controller (15), one side of the PLC controller (15) is provided with a push rod controller (16) and a servo controller (17), and the output ends of the push rod controller (16) and the servo controller (17) are respectively electrically connected with the input end of the electric push rod (8) and the input end of the servo motor (4).

3. The blanking placement apparatus for optical fiber preform processing as claimed in claim 2, wherein: the output end of the gravity sensor (2) is electrically connected with the input end of the PLC (15), and the output end of the PLC (15) is electrically connected with the input end of the push rod controller (16) and the input end of the servo controller (17).

4. The blanking placement apparatus for optical fiber preform processing as claimed in claim 1, wherein: a coupling mechanism (5) is arranged at the connection position of the servo motor (4) and the extension shaft (14), and the servo motor (4) is in transmission connection with the extension shaft (14) through the coupling mechanism (5).

5. The blanking placement apparatus for optical fiber preform processing as claimed in claim 1, wherein: the piston rod of the electric push rod (8) and the connection position of the top pedestal (7) are provided with movable perforations (11), and the movable perforations (11) and the top pedestal (7) are integrally formed.

6. The blanking placement apparatus for optical fiber preform processing as claimed in claim 1, wherein: the base of the electric push rod (8) is arranged on the wall surface.