KR0158577B1 - Apparatus of automatically measuring the viscosity of probe - Google Patents

Abstract

The present invention relates to a device for automatically measuring the viscosity of a sample, and more particularly, to absorb and remove BTX (benzene, toluene, and xylene) components, and to produce a clean gas. Oven Gas) automatically performs the viscosity measurement of the absorbent oil used to remove the BTX component, there is no deviation of the data by visual judgment, and the measurement time is not excessive, and the environment due to overflow In addition to preventing contamination, the present invention relates to a device capable of reducing an analyst's exposure time to the chemicals harmful to the human body.

As the configuration, the present invention, the outer tank 110 is provided with a cylinder (Cylinder) 12 that can be operated up and down on the outer upper, the cylinder 12 is a sample outlet 122 of the inner tank 120 The pin 16 is fixed to the lower end to be opened and closed, and on one side of the anchor flask 130, an upper, high movable photo sensor 30 is installed, as well as a solenoid for operating the cylinder 12. The valve and the photosensor 30 is characterized in that it is electrically connected to the control panel 50 with a built-in timer.

Description

Sample viscosity automatic measuring device

1 is a schematic configuration diagram showing a viscosity measuring device of a sample according to the prior art.

2 is a schematic configuration diagram showing an automatic viscosity measuring device of a sample according to the present invention.

* Explanation of symbols for main parts of the drawings

12 cylinder 16 pin

30: photo sensor 50: control panel

110: outer 114, 124: thermometer

120: inner tank

The present invention relates to a device for automatically measuring the viscosity of a sample, and more particularly, to absorb and remove BTX (benzene, toluene, and xylene) components, and to produce a clean gas. Oven Gas) automatically performs the viscosity measurement of the absorbent oil used to remove the BTX component, there is no deviation of the data by visual judgment, and the measurement time is not excessive, and the environment due to overflow In addition to preventing contamination, the present invention relates to a device capable of reducing an analyst's exposure time to the chemicals harmful to the human body.

Generally, COG produced in a coke plant of a steel mill is a clean gas that is used as fuel after benzene, toluene, and xylene (hereinafter referred to as BTX) are absorbed and removed.

The absorbent oil absorbing BTX from the COG is a major factor in determining the viscosity value of the BTX trapping capacity, replacement oil absorption time, and the like, and the conventional viscosity measuring method for such absorbent oil is shown in FIG.

The temperature of the heater 12 (heater) (not shown) installed to heat the outer tank 110 and the outer tank thermometer 12 to measure the internal temperature of the outer tank 110 to the upper side of the outer tank 110. A heater temperature controller 114 for adjusting, a stirrer 116 for stirring the internal air of the outer tank 110, and a plurality of inner tanks 120 installed to depend on an upper inner surface of the outer tank 110; In addition, the inner tank 120 is fitted to the inner tank thermometer 124 for measuring the internal temperature, and the sample outlet 122 formed on the lower side of the inner tank 120 or by the attraction from the sample outlet 122 With a pin 126 that can be pulled out, an Angler Flask 130 is provided below the sample outlet 122 of the inner tank 120.

That is, in order to measure the viscosity of the sample of the conventional absorbent oil, the sample is first filled with the sample up to the mark line 128 of the inner tank 120, the stop watch is operated and at the same time the sample outlet ( The pin 126 blocking the 122 is lifted to allow the sample to be discharged into the inner tank 120. When the discharged sample reaches the proper height of the angler flask 130, the stopwatch is stopped and the pin is stopped at the same time. After moving to the bottom to stop the discharge of the sample, the viscosity of the absorbent oil is measured by this data value.

By the way, in the conventional viscosity measurement method of the absorbent oil as described above, the operation of discharging the sample from the inner tank 120 or preventing the discharge, the operation of the stopwatch for measuring the discharge time of the sample is performed manually. As a result of the fatigue weighting of the analyst and the discrepancy of visual judgment for each worker and the viscosity measurement method, the analyst should keep an eye on the device. Related to Article 117), there was a problem that the analyst exposed to the harmful substances classified as the second organic solvent, causing fatal health problems.

The present invention has been made to solve the conventional problems as described above, the object is to absorb, remove BTX (benzene, toluene, xylene) component from COG (Coke Oven Gas) produced in the coke factory of steel mills, etc. It automatically performs the viscosity measurement of absorbent oil used, so there is no deviation of data by visual judgment, it does not take too much measurement time, and it prevents environmental pollution by overflow, as well as the human body. It is to provide an automatic viscosity measuring device of the sample to reduce the human exposure time of the analyzer for the chemicals harmful to.

As a technical means for achieving the above object, the present invention, the outer tank is provided with a cylinder that can be operated up and down on the outer top, the cylinder has a pin installed to open and close the sample outlet of the inner tank at the lower end On one side of the angler flask, a high and movable photo sensor is installed on one side of the angler flask, and the solenoid valve and the photo sensor for operating the cylinder are electrically connected to a control panel having a timer. At the start of the cylinder, the timer is operated at the same time as the cylinder rises, so that the absorbent oil falls and when the absorbed oil is filled to the angler flask, the sensor automatically stops the timer at the same time as the cylinder descends. By the hunger.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic configuration diagram showing an automatic viscosity measuring device of a sample according to the present invention.

Adjust the temperature of the outer tank thermometer 112, which allows the internal temperature of the outer tank 110 to be measured above the outer tank 110, and a heater (not shown) installed to heat the outer tank 110. And a heater temperature controller 114, a stirrer 116 for stirring the internal air of the outer tank 110, and a plurality of inner tanks 120 installed to depend on an upper inner surface of the outer tank 110. The inner tank 120 is an inner tank thermometer 124 for measuring the internal temperature, and the angler flask (130) and the installation below the sample outlet 122 of the inner tank 120 is conventional Is the same as

The present invention is provided with a cylinder (Cylinder) 12, such as hydraulic pressure that can be operated up and down to the outer top of the outer tub 110, the cylinder 12 is mounted to the cylinder support 14 is fixed to the outer tub 110 The pin 16 is located in the inner tank 120 is fixed to the rod of the cylinder 12, the lower end of the pin 16 is secured to ensure the sealing when blocking the discharge of the sample Blocking stopper 17 made of a material such as rubber having a degree of elasticity is fixed.

And, the present invention is positioned between the photo sensor (Photo Sensor) support 20 between the plurality of angler flask 130, the photo sensor support 20 is to be moved up, down as a tightening bolt 22. It has an upper support 24, the upper support 24 is mounted and fixed to the arc-shaped sensor fixing device 25, the arc sensor fixing device 25 is a light-transmitting and receiving photo sensor (inside the opposite side) 30) it is made to measure the height of the sample to be filled in the angler flask (130).

In addition, the lid 120 ′ of the inner tub 120 continuously forms the slit 120 from the center to the outer circumferential surface thereof, and the slit 120 is spaced at an appropriate interval so that the pin 16 is fitted to allow high and high motion. By doing so to facilitate the operation of filling the sample in the inner tank 120.

The cylinder 12 and the photosensor 30 are electrically connected to the control panel 50, respectively.

The control panel 50 is a main switch 51 for supplying power to the device, a pump switch 52 for operating a pump (not shown) for supplying hydraulic pressure to the cylinder 12, the viscosity of the sample A start switch 53 for starting the operation for measurement, a display unit 54 for displaying time from a timer (not shown), a buzzer 55 for notifying completion of viscosity measurement of the sample, and the like. .

Referring to the operation and effect of the present invention having the above configuration is as follows.

As shown in FIG. 2, the present invention uses the absorbent oil used to absorb and remove the BTX (benzene, toluene, xylene) component as a sample to perform viscosity measurement of the sample. After removing the lid 120 'to the outside using the slit 120 formed therein, and filling the sample in the inner tank 120, the lid 120' is closed and the main switch 51 is operated to supply power to the apparatus. Supply.

After adjusting the sample to a temperature suitable for viscosity measurement by using a heater and a stirrer, and operating the pump switch 52 and the start switch 53, the solenoid valve for hydraulic control of the cylinder 114 (Not shown) is operated to raise the cylinder 114 to raise the pin 16 connected to the cylinder so that the sample filled in the inner tank 120 can fall to the bottom.

At this time, the electric circuit is configured to operate a timer (not shown) by the signal of the start switch 53, and thus, the sample of the inner tank 120 falls down by the start switch 53 so that the angler flask ( 20) and the time from the start of the viscosity test can be integrated at the same time. Of course, the time from the timer appears on the display unit 54 provided outside the control panel 50 can be confirmed by the viscosity measurer.

After a certain time, the sample falling from the inner tank 120 and filled in the angler flask 20 reaches the appropriate height, which is detected by the photosensor 30 installed at the proper position of the angler flask 20. The photosensor 30 transmits the detection signal to the control panel 50.

The signal from the photosensor 30 is transmitted to the solenoid valve of the buzzer 55 and the cylinder 114 to operate them, the buzzer 55 generates a beep so that the measurer can know that the viscosity measurement is completed In addition, the solenoid valve is operated by the cylinder 12 to lower the pin 16 to prevent the fall of the sample of the inner tank 120.

Of course, when the viscosity measurement of the sample is completed, the viscosity of the sample is calculated by the sample drop time, the fall amount and the predetermined size of the test tool (Scale) and the like measured therefrom.

As described above, according to the automatic viscosity measuring device of the sample according to the present invention, in the measurement of the viscosity of the absorbent oil used to absorb and remove the BTX component from the COG produced in the coke process of the steel mill, the absorbent oil is lowered from the inner tank. Dropping or stopping the drop, detecting the drop amount of the absorbing oil (height filled in the angler flask), etc., and there is no deviation of data due to visual judgment, and the measurement time is excessive. In addition, it prevents the environmental pollution caused by overflow (overflow), as well as has a useful effect of reducing the analyst's exposure time to the chemicals harmful to the human body (human body).

Claims (1)

Install the inner tank 120 that can contain the sample inside the outer tank 110, the inner tank 120 is provided with a sample outlet 122 to be connected to the angler Flask (130) of the lower side of the sample In the viscosity measuring device for measuring the viscosity of the sample by the fall amount and the falling time, the outer tank 110 is provided with a cylinder (12) that can be operated up and down on the outer upper portion, the cylinder 12 ) Is fixed to the lower end of the pin (16) installed to open and close the sample outlet 122 of the inner tank 120, one side of the angler flask 130 is installed, the high-powered photo sensor 30 Of course, the solenoid valve and the photosensor 30 for operating the cylinder 12 is electrically connected to the control panel 50 with a built-in timer and the rise of the cylinder 12 and At the same time, the timer is activated so that the absorbent oil falls and the absorbent oil When multiple proper height to the flask 130 is filled photo sensor 30 automatically measuring the viscosity of the sample, characterized in the fall and at the same time the timer is stopped in the cylinder 12 by the.