KR101817945B1 - Loading and unloading device of optical fiber preform stratching equipment - Google Patents

Abstract

The present invention relates to a loading/unloading device for optical fiber base material elongation facilities, comprising: an elevator (210) fixating a base material ingot (1) or a base material rod (2); a guide part (230) allowing the elevator (210) to vertically move while deviation is avoided; a driving part (220) generating power to move the elevator (210) in a vertical direction; and a belt guide part (240) guiding a belt which delivers power from the driving part (220) to the elevator (210).

Description

Technical Field [0001] The present invention relates to a loading and unloading device for optical fiber preform stretching equipment,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a loading and unloading apparatus for an optical fiber base material drawing apparatus, and more particularly, to a loading and unloading apparatus for an optical fiber base material drawing apparatus that can obtain a plurality of base material rods by stretching an optical fiber base material, Unloading apparatus.

In general, as a method for manufacturing an optical fiber preform, there is a method of manufacturing a base material ingot by chemical vapor deposition (CVD), external vapor deposition (OVD), vapor-phase axial deposition (VAD) And dehydrated and sintered.

The above-mentioned base metal ingot is again made of the optical fiber base material rod by heating and stretching.

An optical fiber base material ingot heated using a pair of pinch rollers as in Patent No. 10-1153563 (a method and apparatus for stretching an optical fiber base material, registered on May 30, 2012) A device for physically stretching is disclosed.

In addition, the optical fiber preform is heated while the optical fiber preform is heated while the optical fiber preform is stretched using the drawing method of the optical fiber preform and the optical fiber preform drawn by the method, which is disclosed in Japanese Patent Application Laid-Open No. 10-2005-0031885 Is disclosed.

However, in the above-mentioned patents and patents, there is no description of a means for supplying the base material ingot to the stretching device and a specific structure for discharging the base material rod as a result of the stretching from the stretching device.

The conventional optical fiber base material drawing equipment is provided with a loading device which is a means for moving the base material ingot upwardly and an unloading device which is a means for moving the base material rod obtained by drawing the base material ingot downwardly, The workload is transported by the operator directly to the bulk and weight of the base material rod.

In the conventional optical fiber parent material drawing equipment, at least the worker is required to fix the base material ingot to the loading device and to perform the operation of the equipment for performing the drawing process, and the base material rod produced after the drawing process is cut, To be unloaded or transported directly.

Therefore, there is a problem that productivity is deteriorated because worker's footprint is very long and work fatigue increases.

Further, the process of drawing one base metal ingot takes a considerable time, and it is common to operate a plurality of stretching equipments in order to improve the productivity. When operating a plurality of stretching equipments in the related art, it is difficult to dispose the equipments because the loading position and the unloading position are different from each other.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a loading and unloading apparatus for an optical fiber base material drawing apparatus capable of improving the productivity by reducing the footprint by allowing the feed of the base material ingot and the drawing- .

Another object of the present invention is to provide an apparatus for loading and unloading an optical fiber base material drawing apparatus capable of preventing the optical fiber preform from being damaged during movement by ensuring stability during loading of the base material ingot and unloading of the base material rod.

It is another object of the present invention to provide an apparatus for loading and unloading an optical fiber preform drawing apparatus capable of facilitating the arrangement of a plurality of drawing apparatuses and minimizing an area required for installation.

According to an aspect of the present invention, there is provided an apparatus for loading and unloading an optical fiber base material drawing apparatus including an elevator for fixing a base material ingot or a base material rod, A drive unit 220 for generating a power for moving the elevator 210 upward or downward and a drive unit 220 for driving the drive unit 220 to move the power of the elevator 210 And a belt guide unit 240 for guiding the belt to be transferred to the belt guide unit 210.

According to an embodiment of the present invention, the guide part 230 and the belt guide part 240 may be divided into a plurality of parts in the vertical direction.

According to an embodiment of the present invention, the elevator 210 includes an ingot fixing part 211 for fixing the base metal ingot 1 by hooking a locking part 3 on the upper shaft of the base metal ingot 1, A first support plate 212 for supporting the central portion of the ingot 1 and fixing the upper end of the base rod 2 and a lower support portion for supporting the lower shaft of the base metal ingot 1 and a lower end portion of the base rod 2 The first and second support plates 212 and 216 include insertion holes 213 and 217 into which the base rod 2 is inserted, respectively, and the first support plate 212 and the second support plate 216, 212 may include an open block 214 capable of opening the insertion hole 213 and may further include a fixing portion 215 capable of fixing the open block 214. [

According to an embodiment of the present invention, the elevator 210 includes an ingot fixing part 211 for fixing the base metal ingot 1 by hooking a locking part 3 on the upper shaft of the base metal ingot 1, A first support plate 212 for supporting the central portion of the ingot 1 and fixing the upper end of the base rod 2 and a lower support portion for supporting the lower shaft of the base metal ingot 1 and a lower end portion of the base rod 2 The first support plate 212 and the second support plate 216 include insertion holes 218 and insertion holes 217 through which the base rod 2 is inserted, respectively, And a belt 219 for preventing the removal of the base material rod 2 inserted into the insertion groove 218 of the first support plate 212.

According to an embodiment of the present invention, the guide part 230 is fixed to the side of the tower part 100 of the optical fiber base material drawing equipment, and the upper part of the base material ingot 1 is rotatably mounted on the front part of the tower part A heating furnace for partially melting the base metal ingot 1 fixed to the first chuck, and a second chuck for stretching the melted base metal ingot 1. The first chuck may be fixed to the first chuck.

According to an embodiment of the present invention, the tower portion, the first chuck, the second chuck, and the heating furnace are disposed in a plurality of locations, and the guide portions 230 fixed to the plurality of tower portions may be disposed adjacent to each other have.

The loading and unloading apparatus for an optical fiber preform base material drawing apparatus according to the present invention is characterized in that the loading position and the unloading position are the same as each other by unloading the base material rod produced by using the elevator for loading the base material stably, Thereby reducing the footprint of the operator and improving the productivity.

In addition, the present invention minimizes the occurrence of vibration when the elevator is moved, thereby preventing damage to the base material ingot or the base material rod.

The present invention has the effect of facilitating the arrangement of a plurality of optical fiber preform stretching equipments and minimizing the installation area by making the loading and unloading positions of the optical fiber preforms the same.

1 is a configuration diagram of a loading and unloading apparatus applied to the present invention.
2 is a partially exploded view of Fig.
Fig. 3 is a configuration diagram of an embodiment of an elevator in Fig. 1;
FIG. 4 is a configuration diagram of an optical fiber base material drawing apparatus to which the present invention is applied.
5 is an embodiment of an optical fiber base material drawing apparatus to which the present invention is applied.
6 is a configuration diagram of another embodiment of an elevator that can be applied to the present invention.

Hereinafter, an apparatus for loading and unloading an optical fiber base material drawing apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention can make various changes and have various embodiments, and specific embodiments will be described in detail with reference to the drawings. It should be understood, however, that the embodiments of the present invention are not limited to specific embodiments, but include all modifications, equivalents, and alternatives falling within the spirit and scope of embodiments of the present invention.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the embodiments of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

The terminology used in the embodiments of the present invention is used only to describe a specific embodiment and is not intended to limit the embodiments of the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the embodiments of the present invention, terms such as "comprise" or "comprise ", etc. designate the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, It should be understood that the foregoing does not preclude the presence or addition of other features, numbers, steps, operations, elements, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the embodiments of the present invention belong. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning of the context in the related art and, unless explicitly defined in the embodiments of the present invention, are intended to mean ideal or overly formal .

FIG. 1 is a configuration diagram of an apparatus for loading and unloading an optical fiber base material drawing apparatus according to a preferred embodiment of the present invention, and FIG. 2 is a partially exploded perspective view of FIG.

Referring to FIGS. 1 and 2, an apparatus 200 for loading and unloading an optical fiber base material drawing apparatus according to a preferred embodiment of the present invention can vertically mount the base material ingot 1 or the base material rod 2 A guide unit 230 for vertically moving the elevator 210 in a state in which the elevator 210 is prevented from being separated from the elevator 210, a driving unit 220 for moving the elevator 210 upward or downward, And a belt guide unit 240 for guiding a belt 250 that transmits the power of the driving unit 220 to the elevator 210.

The guide part 230 and the belt guide part 240 may be divided into at least three parts in the vertical direction.

In the case where the guide part 230 and the belt guide part 240 have a single structure, transportation and installation work can be very difficult, and the length of the guide part 230 and the belt guide part 240 may be too long.

The elevator 210 vibrates at a bending portion of the guide portion 230 or the belt guide portion 240 and the vibration is transmitted to the upper portion of the elevator 210 through the binding means There is a possibility that the one end of the central axis is transmitted to the base metal ingot 1 or the base metal rod 2 to be damaged.

In order to solve such a problem, the guide part 230 and the belt guide part 240 of the present invention may be constituted by a combination of at least three parts A, B and C, respectively.

However, when the connecting portions of the parts A, B, and C are joined together by welding or the like, the outer surface may become non-smooth. Since the vibration may occur when the elevator 210 passes the connecting portion, the present invention engages the parts A, B and C.

An end of the guide part 230 on the side of the part A is provided with an insertion protrusion 231 so that the guide part 230 can be mutually fitted and inserted into the guide part 230 of the part B, 232 are formed so that the two parts A and B can be fitted to each other.

Therefore, the surface of the connecting portion of the guide portion 230 can be kept smooth, so that the occurrence of vibration can be prevented when the elevator 210 moves. The panel 270 supporting the guide part 230 and the belt guide part 240 is fixed using the bracket 260 so that the two parts A and B can be firmly coupled.

The belt guide part 240 is provided with a release preventing groove 242 for preventing the belt 250 from being separated from the belt guide part 240. The perforation 241 is formed in the belt guide part 240 in order to reduce the weight while maintaining the rigidity of the belt guide part 240. [ A plurality of belt guide portions 240 are formed along the longitudinal direction.

The driving unit 220 may include a motor and a gear for transmitting the driving force of the motor to the belt 250.

The release preventing groove 242 is used to prevent the belt 250 from being separated from the belt 250, and it is also possible to prevent vibration generated in the motor of the driving unit 220 from being transmitted to the belt 250 to vibrate.

As described above, according to the present invention, the optical fiber base material ingot 1 is vertically transported upward by using the elevator 210, or the manufactured base material rod 2 is transported downward in a direction perpendicular to the paper surface, It is possible to prevent the optical fiber base material ingot 1 or the base material rod 2 from being damaged.

Fig. 3 is a schematic configuration diagram of the elevator 210 shown in Fig.

3, the elevator 210 includes an ingot fixing part 211 for fixing a base metal ingot 1 by hooking a locking part 3 to an upper side shaft part of the base metal ingot 1, A first support plate 212 for supporting a central portion of the base metal rod 2 and fixing the upper end of the base metal rod 2 and a lower support shaft supporting the lower side shaft portion of the base metal ingot 1, And a second support plate (216).

The first support plate 212 and the second support plate 216 each include insertion holes 213 and 217 into which the base rod 2 is inserted and the first support plate 212 can open the insertion hole 213 And includes an anchoring portion 215 that is capable of securing the open block 214. The anchoring portion 215 includes an open block 214,

As described above, the elevator 210 applied to the present invention includes both means for fixing the base metal ingot 1 and means for fixing the base metal rod 2.

The worker inserts the lower end of the base material rod 2 into the insertion hole 217 of the second support plate 216 and pulls the base material rod 2 up to insert the first support plate 212 After inserting into the hole 213, the open block 214 may be closed to prevent the parent material rod 2 from being released.

The structure of the elevator 210 is for loading the base material ingot 1 from the lower part to the upper part of the tower part 100 and unloading the base material rod 2 from the upper part to the lower part, 1) and the unloading of the base material rod 2 are performed, the productivity of the operator can be improved by reducing the footprint of the worker.

4 is a configuration diagram of an optical fiber base material drawing apparatus to which an apparatus for loading and unloading an optical fiber base material drawing apparatus according to the present invention is applied.

Referring to FIG. 4, the loading and unloading apparatus 200 of the present invention is fixed to one side of a tower part 100 installed vertically in a direction perpendicular to the paper surface, and vertically upwardly transfers the base metal ingot 1 In addition, the manufactured base material rod 2 is transferred vertically downward so that loading and unloading are performed at the same position.

The optical fiber base material drawing apparatus to which the present invention is applied includes a first chuck 300 provided on the front side of the tower unit 100 and fixing the upper end of the transferred base material ingot 1 in a rotatable state, A heating furnace 400 which is located on the lower side of the first crucible 300 and is capable of heating the base ingot 1 and capable of moving up and down and a lower end of the base ingot 1 in the lower part of the heating furnace 400 A second chuck 500 for rotatably fixing the base material rod 2 and vertically movable to manufacture the base material rod 2 by stretching the base material ingot 1 and a gripper 500 for fixing the upper end of the elongated base material rod 2, (600).

First, the tower unit 100 is installed in a vertical direction from the ground. In order to provide a height enough to manufacture the base material rod 2 by stretching the base material ingot 1, which is an optical fiber preform, It is appropriate. In order to proceed with the process, the tower unit 100 is provided with an accessory such as a work footrest, and a description of other components will be omitted for convenience of explanation. The first chuck 300 is fixed to the upper end of the front part of the tower part 100.

The height at which the first chuck 300 is fixed corresponds to the height of the two layers in the factory building. In order to transfer the base material ingot 1 to the position of the first chuck 300, the loading and unloading apparatus 200 use.

The loading and unloading apparatus 200 is installed in a vertical direction on the side surface of the tower unit 100 and prevents the occurrence of vibration due to the concrete structure described above to prevent the base material ingot 1 or the base material rod 2 from being damaged Loading and unloading is possible.

The operator removes the optical fiber preform 1 from the elevator 210 and moves it to the first chuck 300 in a state where the elevator 210 is moved upward.

The heating furnace 400 is moved upward to heat a part of the base material ingot 1 and the second chuck 500 moves downward to elongate the base material ingot 1, .

When the drawing of the base material rod 2 is completed, the base material rod 2 is divided while the base material rod 2 is fixed to the gripper 600, and the base material rod 2 is mounted on the elevator 210 and unloaded.

An example of such an optical fiber parent material drawing apparatus is an example, and the loading and unloading apparatus 200 of the present invention can supply the base material ingot 1 upwardly and collect the manufactured base material rod 2 at the same position And can be applied to a vertical-stretching type facility.

FIG. 5 is a plan view of an optical fiber preform drawing system capable of taking advantage of the advantages of the present invention.

Referring to FIG. 5, a plurality of the drawing apparatuses of the present invention having the above-described structure are installed, and the loading and unloading apparatuses 200 are disposed at the center, Can be supplied from one position, and the base material rod 2 manufactured in each of the elongating devices can be collected and loaded at one position.

Since the base material ingot 1 to be supplied to the plurality of stretching apparatuses and the manufactured base material rod 2 are collectively managed as described above, it is not necessary to transfer the base material ingot 1 for dispensing, thereby reducing the possibility of damage to the base material ingot 1 have. In addition, the base material rod 2 can be collected and stacked (heat-treated, etc.) in one place, thereby increasing the efficiency of the work.

This is effective because the loading and unloading apparatuses of the optical fiber parent material drawing apparatus according to the present invention are identical in the loading position of the base material ingot 1 and the unloading position of the parent material rod 2.

In addition, by varying the injection time of the base metal ingot (1) injected into each optical fiber base material drawing equipment, the worker (1) sequentially supplies the base material ingot (1) to the plurality of base material drawing equipment It is possible to reduce the footprint as well as reduce the manufacturing cost.

6 is a configuration diagram of another embodiment of the elevator 210 applied to the present invention.

6, the elevator 210 according to the present invention is configured such that the upper end of the base rod 2 is fixed to the first support plate 212 without using the open block 214 in the example of the configuration shown in Fig. 3 And a fixing belt 218 for replacing the inserted insertion hole 213 with the insertion groove 218 and preventing the removal of the base material rod 2 inserted into the insertion groove 218.

As described above, the elevator 210 applied to the present invention can be applied irrespective of its specific configuration as long as the base material ingot 1 or the base material rod 2 can be securely fixed and vertically transported. It is possible to use a configuration in which two support plates each having an insertion hole are vertically arranged and the base rod 2 can be inserted and fixed in the insertion holes arranged vertically.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

100: Tower part 200: Loading and unloading device
210: elevator 220:
230: guide part 240: belt guide part
241: Perforation 242:
250: Belt 260: Bracket
270: Panel 300: First Chuck
400: Heating furnace 500: Second chuck
600: gripper

Claims (6)

A plurality of tower portions 100 extending vertically with respect to the ground,
A plurality of loading units installed on side surfaces of each of the plurality of tower units 100 to load the base material ingot 1 into the drawing position and unload the base material rod 2 formed by drawing the base material ingot 1 from the drawing position, And an unloading device,
Each of the plurality of loading and unloading devices,
An elevator 210 for fixing the base material ingot 1 or the base material rod 2;
A guide part 230 for vertically moving the elevator 210 in a state where the elevator 210 is prevented from being separated from the elevator 210;
A driving unit 220 for generating power for moving the elevator 210 upward or downward; And
And a belt guide part (240) for guiding a belt for transmitting the power of the driving part (220) to the elevator (210)
The guide part 230 and the belt eave part 240 are divided into a plurality of parts in the vertical direction and the insertion protrusions 231 and the insertion grooves 232 corresponding to the divided structures are fitted and connected to each other,
The loading and unloading apparatuses installed in the plurality of tower units 100 are arranged to face the same position to load the base material ingot 1 at the same position in a plurality of loading and unloading apparatuses, And the loading and unloading apparatus of the optical fiber base material drawing apparatus. delete The method according to claim 1,
The elevator 210,
An ingot fixing part 211 for fixing the base metal ingot 1 by hooking a locking part 3 on the upper shaft of the base metal ingot 1 and an ingot fixing part 211 for supporting the central part of the base metal ingot 1, And a second support plate 216 supporting the lower shaft of the base material ingot 1 and fixing the lower end of the base material rod 2,
The first support plate 212 and the second support plate 216 each include insertion holes 213 and 217 into which the base rod 2 is inserted and the first support plate 212 can open the insertion hole 213 Further comprising a securing portion (215) that includes an open block (214) with an open block (214) and is capable of securing the open block (214). The method according to claim 1,
The elevator 210,
An ingot fixing part 211 for fixing the base metal ingot 1 by hooking a locking part 3 on the upper shaft of the base metal ingot 1 and an ingot fixing part 211 for supporting the central part of the base metal ingot 1, And a second support plate 216 supporting the lower shaft of the base material ingot 1 and fixing the lower end of the base material rod 2,
The first support plate 212 and the second support plate 216 each have an insertion groove 218 and an insertion hole 217 through which the base rod 2 is inserted, Further comprising a belt (219) for preventing the removal of the base material rod (2) inserted into the main body rod (218). The method according to claim 1,
The guide part 230 is fixed to the side of the tower part 100 of the optical fiber base material drawing apparatus and the front part of the tower part has a first chuck for rotatably fixing the upper end of the base material ingot 1, A heating furnace for partially melting the base metal ingot 1 fixed to the chuck; and a second chuck for stretching the molten base metal ingot 1. The apparatus for loading and unloading the optical fiber parent material stretching equipment comprises: delete

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