KR200165896Y1 - Semiautomatic measuring apparatus for glass softening point - Google Patents

Abstract

An object of the present invention is to provide a softening point semi-automatic measuring device of the glass to accurately measure the softening point of the glass.

This paper is a device designed to measure the glass softening point by a standardized method, comprising: a horizontal support plate that is used to level the glass softening point observation sample, and a horizontal adjustment screw fastened to the corner of the support plate body. A pair of rod-shaped guide members provided with a rack is provided at a predetermined height from the support for adjustment, and the support member is movably supported by a stopper having an adjustment screw on the guide member. The measuring probe is brought into contact with the measuring probe, and is supported to be moved, and is supported to be moved along the guide member at a position adjacent to the digital indicator and the digital indicator for measuring the deformation length of the sample for glass observation. A closed circuit camera with a macro lens adapted to measure the length of deformation of the sample and It will have installed teoro the glass softening point yonggigu observed.

Accordingly, the softening point of the glass is precisely measured so that accurate molding and operation of the glass can be performed.

Description

Softening point of glass Semi-automatic measuring device

The present invention relates to a softening point semi-automatic measuring device of glass used to measure the softening point of glass by the Korean standard (KS L 2504) method, and particularly relates to a softening point semi-automatic measuring device of glass semi-automated observation part for softening point measurement. .

Usually KS L 2504, when the temperature was raised sikyeoteul glass fiber (Fiber) sample of a standard which stipulates the method of measuring softening point of glass, 23.5cm in length and average diameter of 0.65mm to 5 ⁰ C per minute (分當) put in a small electric furnace, It is common to specify the temperature at which the glass fiber sample increases by 1 mm per minute due to its own weight as a softening point.

Until now, the glass strain observing apparatus used to measure the softening point of glass in accordance with KS L 2504 is a near field telescope for observing glass fiber samples and a millimeter level ruler for measuring strained length. Using such a device, the calibrator simultaneously adjusts the temperature every 30 seconds at the temperature near the softening point, adjusts the telescope position as much as the deformation of the glass, reads and records the adjusted ruler, and then sets the softening point using the method described in KS. Calculate.

However, due to this simultaneous operation, inexperienced observers can adjust the near field telescope as long as the glass sample is deformed within 30 seconds, read the length of the deformation with a ruler, record the temperature, and measure the 30 second time. The four simultaneous tasks, such as, were very difficult, causing a measurement error for each observer.

In addition, since the molding operation of glass meets the molding or operating conditions of glass based on the measured softening point, if the softening point is measured incorrectly, the molding and operating conditions are set incorrectly, and defects occur in large quantities during the molding or operating process. It is a factor of problems that cause economic losses.

Therefore, the purpose of this paper is to solve the above-mentioned shortcomings, and to observe the deformation position of the glass sample and to measure the deformation length of the glass sample as an observation mechanism composed of a closed circuit and a digital clock. The present invention provides a softening point semi-automatic measuring device for glass, which enables to measure precise glass softening point and improves the molding and operation of glass, thereby improving quality, productivity and economy.

The present invention having the object as described above, in the device to measure the glass softening point by the standardized method, the rectangular support plate body and the corner portion of the support plate body to be used for horizontal adjustment of the sample for observing the glass softening point A support consisting of fastened horizontal screws; A pair of rod-shaped guide members having a rack recessed from the support at a predetermined height; And a stopper having an adjustment screw installed to move along the guide member, the measuring probe being in contact with the stopper so as to be supported by the guide member so as to be moved to the guide member, and to measure the deformation length of the glass observation sample. Glass sample with closed circuit camera and monitor having a digital indicator and a macro lens supported to be moved along the guide member at a position adjacent to the digital indicator and measuring the deformation length of the glass viewing sample. A semi-automatic measuring device for softening point of glass comprising means for observation is achieved.

It is preferable to provide a handle for adjusting the deformation length of the glass in the means for observation for the glass sample.

1 is a side view of a glass softening point semi-automatic measuring apparatus according to the present invention,

FIG. 2 is a plan view of FIG. 1 as viewed from above.

<Description of the symbols for the main parts of the drawings>

10: glass softening point semi-automatic measuring device 20: support

24: horizontal adjustment screw 30: guide member

40: glass softening point observation device 41: digital indicator

42: closed circuit camera 43: probe

44: Macro Lens 46: Monitor

50: stopper 52: stopper adjusting screw

Hereinafter, with reference to the accompanying drawings will be described in detail a more preferred embodiment of the softening point semi-automatic measuring apparatus of the glass according to the present invention.

1 is a side view of the glass softening point semi-automatic measuring apparatus according to the present invention, and FIG. 2 is a plan view showing the top view of FIG. 1, respectively.

As shown in the drawing, the softening point semi-automatic measuring device 10 of the glass according to the present invention is provided with a substantially rectangular support 20.

The support 20 is composed of a support plate body 22 formed in a substantially rectangular shape and at least four horizontal adjustment screws 24 fastened to corner portions of the support plate body 22. ) Is installed to adjust the height from the support plate (22). At this time, when the bottom surface on which the support 20 is placed is inclined, the horizontal level of the support 20 can be arbitrarily adjusted by adjusting the horizontal adjusting screw 24.

A pair of guide members 30 that form a rod form a predetermined height from the center of the support 22. The guide member 30 includes a softening point observation mechanism of glass, which will be described later. There is a rack (not shown) used for moving along.

The guide member 30 is provided with a stopper 50 which can be moved along the guide member 30 and fixed to a predetermined position. The stopper 50 is used to fix the probe 43 extending downward from the digital indicator 41 constituting the glass softening point observing apparatus to be described later. The stopper 50 is attached to the stopper 50. It can be moved or fixed along the guide member 30 by the provided adjustment screw 52, this movement method is a general technique, so a detailed description thereof will be omitted.

On the upper end of the guide member 30 corresponding to the stopper 50, a glass softening point observing device 40 is mounted. The device 40 is supported to be moved relative to the guide member 30 and is used for glass observation. A 1/1000 mm high-precision digital indicator 41 is provided to measure the strain length of the sample. Moreover, the probe 43 provided in the digital indicator 41 is made to be fixed by the said stopper 50 located directly under it. A close-circuit camera 42 having a macro lens 44 for measuring a deformation length of a sample for glass observation below the digital indicator 41, i.e., below the guide member 30, is provided. It is installed to be associated with each other while forming a supported state to move along. A monitor 46 is also provided for viewing the processes and results measured from the device 40.

Reference numeral 47 denotes a handle for adjusting the glass deformation length of the device 40 for observing the softening point of the glass.

The softening point measuring method of glass by the apparatus of this invention which has such a structure is as follows.

First, before operating an electric furnace not shown, which is used to soften glass, first, the horizontal level of the measuring device 10 is adjusted by using the horizontal adjusting screw 24 fastened to the support 20. After the horizontal adjustment of the support 20 is completed, the heating speed of the electric furnace (not shown) is fixed at 5 ⁰ C per minute, and when the prepared glass sample is about 20 ⁰ C lower than the softening temperature, the handle 47 for adjusting the glass deformation length is removed. Focuses so that the end of the glass fiber sample draped down the unillustrated electric furnace observed through the ultra-precision closed-circuit camera 42 with the near-field macro lens 44 is in the center of the monitor 46. .

Subsequently, after releasing the adjusting screw 52 of the stopper 50, the indicator probe fixing stopper 50 is moved along the guide member 30 so as to contact the probe 43 of the digital indicator 41, and adjusting the stopper. By fastening the screw 52, the stopper 50 is fixed to the guide member 30 again.

In this state, the Re-Zero button of the digital indicator 41 is pressed to adjust the deformation length of the glass sample to 0.000 mm. At this time, the position indicated by the glass sample appearing on the monitor 46 is displayed by using a ready-made oil pen, and the temperature is recorded. Every 30 seconds, the monitor 46 is operated by using the glass deformation length adjusting handle 47. Place the tip of the glass sample at the mark at the center of the), and record the strain length displayed on the digital indicator 41 and press the rezero button (not shown) to reset the strain. Repeat until the strain length is 0.5mm or more.

After all the measurements have been completed, draw a graph on the semi-log graph prepared in accordance with KS L 2504 with the measured temperature on the integer axis and the deformation length on the logarithmic axis. If you find the phase and read the temperature value, the temperature value becomes the softening point.

As described above, according to the present invention, it is possible to accurately measure the softening point of the glass by using a digital indicator and a monitor which is easy to observe the deformation position of the glass by the existing telescope and the measurement of the deformation length using the ruler. In addition to improving the economics and the fatigue of the analyst due to the long-term measurement, there is an effect that can significantly reduce the analysis error between beginners and skilled people due to the simplified use of the instrument.

Claims (2)

In an apparatus adapted to measure the glass softening point by a standardized method, A support consisting of a rectangular support plate body adapted for horizontal adjustment of a sample for observation of a glass softening point and a horizontal adjustment screw fastened to an edge of the support plate body; A pair of rod-shaped guide members having a rack standing from the support at a predetermined height; And Digital stopper having a stopper having an adjustment screw installed to be moved along the guide member, the measuring probe abuts against the stopper, is supported to be moved to the guide member, to measure the deformation length of the glass observation sample A closed circuit camera equipped with a macro lens mounted to move along the guide member at a position adjacent to the indicator and the digital indicator, and having a macro lens adapted to measure the deformation length of the glass observation sample; Softening point semi-automatic measuring device of the glass comprising a. The softening point semi-automatic measuring device according to claim 1, wherein the means for observing the glass sample comprises a handle for adjusting the glass deformation length.