OVD apparatus including air-regulating structure

Glass manufacturing – Fiber making apparatus – With measuring – controlling – sensing – timing – inspecting,...

Reexamination Certificate

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Details

C065S421000, C065S531000, C065S530000

Reexamination Certificate

active

06672112

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a glass base material, which is a base material of an optical fiber, manufacturing apparatus and a glass base material manufacturing method.
2. Description of the Related Art
There are several processes involved in the manufacture of an optical fiber. A gas material, which is a base material of an optical fiber, is hydrolyzed and formed into a glass base material. The glass base material is sintered to form an optical fiber preform, which is drawn to form an optical fiber.
There are several methods for manufacturing a glass base material. As one of the methods for manufacturing a glass base material, there is an OVD method, that is, an outside vapor deposition method. In the OVD method, a gas material is hydrolyzed by a burner to form glass particles which form the base material of the optical fiber. The glass particles are accumulated around and along a base rod, which is rotated at a constant speed, and the accumulated glass particles become a glass base material.
To increase the productivity of manufacture of glass base materials, a plurality of burners are used for hydrolyzing the gas material. The plurality of burners are moved back and forth along the longitudinal direction of the base rod, in order to form a glass base material having a constant diameter. The turning point of the back and forth movement of the burners needs to be dispersed evenly along the longitudinal direction of the base rod, so that the diameter of the glass base material accumulated by the burners can be constant for substantially the whole length of the glass base material.
There is a method of controlling the position of the turning point by using software that calculates the position of the turning point of the burners. To control the turning point to be a predetermined position, several steps have to be executed.
However, the method of controlling the turning points using software causes a delay in the movement of burners, because it takes time for the software to calculate the turning point and also takes time to provide the calculated turning points to the unit that moves the burners. The burners pass over the turning point which is to be calculated by the software and provided to the unit which moves the burners. Therefore, the diameter of the glass base material becomes uneven and the roughness of the surface of the glass base material increases. Therefore, the quality of the glass fiber drawn from the glass base material having an uneven diameter, decreases.
SUMMARY OF THE INVENTION
Therefore, it is an object of the present invention to provide an apparatus for glass base material manufacturing and a method for glass base material manufacturing which overcomes the above issues in the related art. This object is achieved by combinations described in the independent claims. The dependent claims define further advantageous and exemplary combinations of the present invention.
According to the first aspect of the present embodiment, an apparatus for manufacturing a glass base material, which is a base material of an optical fiber, can be provided. The apparatus may comprise a base rod, around and along which the glass base material may be formed; a burner that hydrolyzes and accumulates a gas material, which is a base material of the glass base material, around and along the base rod; a first burner-moving-unit that moves the burner in a direction parallel with a longitudinal direction of the base rod; and a second burner-moving-unit that moves the first burner-moving-unit in the same moving direction of the first burner-moving-unit.
The first burner-moving-unit may move the burner back and forth in the direction parallel with a longitudinal direction of the base rod. The second burner-moving-unit may move the first burner-moving-unit back and forth in the same movement direction as the first burner-moving-unit.
The first burner-moving-unit may move the burner at a first cycle, and the second burner-moving-unit may move the first burner-moving-unit at a second cycle, which is different from the first cycle. The first cycle maybe shorter than the second cycle, may be an integer multiple of the second cycle, and may be synchronized with the second cycle.
The apparatus may further comprise a plurality of burners arranged parallel to the longitudinal direction in the first burner-moving-unit. Each of intervals between the plurality of burners may be substantially constant. Each of the plurality of burners may accumulate in each different region, which is a part of the length of a whole length of the glass base material.
The first burner-moving-unit further may have a first shaft, along which the first burner-moving-unit moves, and the second burner-moving-unit further may have a second shaft along which the first burner-moving-unit moves. The first burner-moving-unit may have a first motor, which rotates the first shaft, and the second burner-moving-unit may have a second motor which rotates the second shaft.
A moving range of at least one of the first burner-moving-unit and the second burner-moving-unit may be an integer multiple of each of the intervals between the plurality of burners. The integer may be an integer which does not exceed a number of the plurality of burners divided by five. The integer may be the integer “1”.
The apparatus may further comprise a chamber, which accommodates the base rod, the burner, the first moving unit, and the second moving unit, and includes a duct that vents exhaust from inside the chamber, provided in the longitudinal direction of the base rod for substantially the whole length of the chamber.
The chamber may have a tube shape running in the longitudinal direction, parallel to the base rod, both ends of which are closed. A cross section of the tube shape may be polygonal or a cylindrical shape. The duct may be provided on the top of the chamber. The duct may include a vent plate having a plurality of vents for substantially the whole length of the chamber. The plurality of vents may be provided at a constant interval. The vent plate may include a vent controller which controls airflow of the plurality of vents.
The chamber may further include a plurality of the ducts provided on the chamber, and the ducts may face an outlet of the burner located over the base rod. The chamber may include a base having a flow regulating structure which intakes outside air, thus regulating airflow flowing from the base to the duct. The flow regulating structure may be made of a filter. The filter may be made of a non-woven fabric. The filter may have an accordion shape. The flow regulating structure may be formed by a plate having a plurality of air holes.
The base rod may have a pair of dummy rods provided on both ends of the base rod, and the diameter of the dummy rod, D, and the weight of the glass base material, W, may have a relationship of 0.13≦D/W
0.5
. The diameter of the dummy rod, D, and the weight of the glass base material, W, may further have a relationship of 0.13≦D/W
0.5
≦0.25.
According to the second aspect of the present embodiment, a method for manufacturing a glass base material, which may be a base material of an optical fiber, comprises: rotating a base rod, around and along which the glass base material may be formed; hydrolyzing and accumulating a gas material, which is a base material of the glass base material, around and along the base rod using a burner; and the hydrolyzing and accumulating includes: moving the burner at a first cycle, in a direction parallel with a longitudinal direction of the base rod; and moving a unit, which moves the burner at the first cycle, at a second cycle in the same movement direction as the movement of the burner.
Moving the burner may move the burner back and forth in a direction parallel with the longitudinal direction of the base rod, and furthermore, the moving the unit may move the unit back and forth in the direction parallel with the longitudinal direction of the base rod.
The first cycle may be different from the second cyc

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