JPS62187238A - Measuring instrument for water content of body to be inspected - Google Patents

Abstract

PURPOSE:To measure the content of water in bodies to be inspected speedily and accurately by drying the bodies to be inspected and measuring the difference between the weight values of the object before and after the drying process. CONSTITUTION:Bodies A to be inspected which flow on a conveyor line B are put in a storage box 1 and then an arm part C is moved to above a heater 9. The surface in the box 1 is leveled by a scraper 13 in the middle of the movement to make the weight of the bodies A to be measured constant. The arm part C is stopped over the heater 9 and the weight of the bodies A to be inspected is measured; and the bodies A are heated and dried by the heater 9 and the weight is measured again. Then, the content of water in the object bodies A is measured speedily and accurately from variation in weight about the drying process.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides a method for quickly and accurately measuring the moisture content of coal, coke, cement, ready-mixed concrete, etc., especially the internal moisture content of test objects. This relates to a measuring device.

[Background of the Invention] It is extremely important to measure and recognize the internal moisture content of coal and coke.

These materials are important energy resources and are imported and stored in yards. However, the yard is outdoors and is constantly exposed to the elements. Therefore, the moisture content varies depending on the weather.

Incidentally, when burning coal in a boiler or kiln, heavy oil or the like is used in combination, but the combustion calories vary depending on the moisture content of the coal or the like.

Therefore, it is necessary to measure the water content in advance and adjust the amount of heavy oil.

In addition, coal is decomposed and turned into gas, chemicals, etc., and this process involves drying, which requires temperature control of the drying oven and is desired to maintain a constant drying rate.

Furthermore, municipal waste such as sludge is also treated after drying, but in such cases as well, it is necessary to know the moisture content for furnace control.

In addition, for cement, ready-mixed concrete, etc., the internal moisture content of gravel can be accurately determined by 2.
Knowing this will improve the quality of the structures you build.

By the way, it has been extremely difficult to accurately and quickly measure these moisture contents using conventional non-contact measurement devices using near-infrared rays or the like.

This is because an object the size of a fist has more internal water content than surface water content, and non-contact measuring devices such as near-infrared rays can only measure the surface water content.

Also, depending on the production area, the color and surface condition will differ, and the amount of light reflected will also differ. Therefore, there were drawbacks in that the accuracy of the measurements varied and that the same calibration could not be performed.

[Object of the Invention] Thus, the present invention was devised based on the background of the invention as described above, and is a method for quickly and accurately determining the moisture content, especially the internal moisture content, of objects to be inspected such as coal, coke, and cement. detected,
The object of the present invention is to provide an apparatus for measuring the moisture content of an object to be inspected.

A further object of the present invention is to provide an apparatus for measuring the moisture content of the object to be inspected, which has a simple structure and can be manufactured at low cost.

[Structure of the Invention] The moisture content measuring device for a test object according to the present invention includes a storage box that can store a certain amount of the test object moving on a conveyor line, and a heater that dries the test object in the storage box. and a measuring device that can measure the weight change of the object to be inspected during this drying operation; a computing device that calculates the measured value from the measuring device to measure the moisture content of the object to be inspected; and the drying operation. A monitoring device that monitors changes in the weight of the object to be inspected inside and can predict and measure the moisture content of the object to be inspected during the drying process based on this monitored value.

[Embodiments of the Invention] The present invention will be described below based on embodiments shown in the drawings.

FIG. 1 is a schematic diagram showing an embodiment of a moisture content measuring device for an object to be inspected according to the present invention.

In the drawings, reference numeral l indicates a storage box. The storage box 1 is attached to the tip of the second arm 2.

Reference numeral 3 indicates the first arm. The first arm 3 is connected to the second arm 3.
It is connected to arm 2 by a link mechanism. The first arm 3 and the second arm 2 constitute an arm portion C.

Next, reference numeral 4 indicates a weight measuring meter, and the weight measuring meter 4 is the first
It is interposed between the arm 3 and the second arm 2 so that the weight of the inspected object A such as coal or concrete stored in the storage box 1 attached to the tip of the second arm 2 can be measured. It is configured.

By the way, the arm part C is attached to the support column 5 at a substantially right angle and is configured to be able to rotate in the horizontal direction.

Next, reference numeral 6 denotes an operating rod, which is attached to connect the lower surface of the storage box 1 and a connecting rod 7 extending below the first arm 3;
is operated by the cylinder 8 to open the storage box 1
The storage box 1 is configured to be able to be rotated upside down by pulling.

Next, reference numeral 9 indicates a heater. The heater 9 is installed below the storage box 1 so as to surround the storage box 1 in order to dry the object A to be inspected inside the storage box 1.

Further, reference numeral 10 indicates a computing unit, and the computing unit 10 calculates the weight change of the inspected object A in the storage box l measured by the weight measuring meter 4, and measures the moisture content of the inspected object A. It is configured so that it can be done. In addition, the computing unit 10
A display 11 is formed on the surface of the display 1.
1 shows the moisture content.

By the way, the arithmetic unit 10 has a monitor device 12. To briefly explain the operation of this monitoring device 12, the weight change of a predetermined test object A as a sample during drying work is monitored in advance, and based on this monitored value, the same type of test object A is used as a sample. Test object A
In this method, the weight change of the test object A up to the middle of the drying process is measured, and the moisture content of the test object A can be predicted and measured using the above-mentioned monitor value based on the weight change up to the middle of the drying process. be.

In the above, the operation of the present invention will now be explained with reference to the schematic diagram shown in FIG. 2 and the flowchart shown in FIG. 3.

Inspection object A such as coal flowing on conveyor line B,
The device according to the invention is housed in a storage box 1. When storing the inspected object A, it is sufficient to move the arm section C to the connecting step of the conveyor line B, and store the inspected object A falling from the connecting step into the storage ponrus 1. be. (Step 1
00) After storing the inspection object A, use the soufflé bar 13 to flatten the surface of the storage box 1. By making the surface of the storage box l flat with the soufflé bar 13 in this way, the weight of the object to be inspected A is kept constant. Such surface flattening work is performed when moving the arm portion C to the heater 9 side, which will be described later.
3 may be installed in advance so that it can be performed while the arm portion C is being moved. (Step 102)
Next, the arm portion C is further rotated and moved to above the heater 9, which has been previously installed at a predetermined location.
(Step 104) Then, the storage box 1 is stopped at that location, and measurement according to the present invention is started. (
Step 106) First, it is determined whether the inspected object A to be measured is for monitoring or whether the inspected object A is to be measured according to the moisture value for monitoring.

(Step 108) If the sample is for monitoring, the heater 9
The object to be inspected A in the storage box 1 is heated, and measurement is started until it is completely dry.

(Step 110) (Step 112) As a result, the inspection object A in the storage box 1 gradually dries, and its weight changes moment by moment. The weight change is measured by a weight measuring meter 4 such as a load cell.

By the way, it is assumed that the test object A immediately after being stored and collected is an a-gram. As the object to be inspected A is dried, its weight y changes as follows: y=a−b·g (t).

Here, b is the water content, and g (t) is the amount of change that evaporates over time. 4 Therefore, the moisture content M% to be measured can be measured as M= (ay)/aX100.

Note that here, only bIIg(t) for monitoring is calculated. (Step 116) Therefore, one or more measurements, calculations, and monitors are performed by the calculator 10 and the monitor device 12.

In the above-mentioned state, the moisture value for monitoring of the test object A is obtained, but after the moisture value has been calculated in total by 411 points in this way, the arm composed of the first arm 3 and the second arm 2 The section C is rotated again, and the storage box I is rotated upside down using the operating rod 6 near the installation position of the souffle bar 13, and the dried object A is discarded. (Step 128) After that, the weight of the storage box 1 is adjusted (Step 130), and then the storage box 1 is moved again to collect and store the next object A to be inspected flowing on the conveyor line B.

(Step 100) By the way, since the moisture content measuring device according to the present invention has the monitoring device 12, the drying time of the test object A,
It is also possible to significantly shorten measurement time.

Normally, in order to accurately measure the moisture content of raw materials such as coal or coke, it is necessary to completely dry the coal or coke, which takes an extremely long time.

However, in the present invention, if the sample is dried in advance and its b·g(1) is determined in advance, the water content can be predicted.

For example, if the moisture value can be predicted when the material is about 70% dry, the measurement time and processing can be greatly reduced.

Therefore, the simulation result of the sample, that is, bllg(t) of the sample, is measured by the monitor device 1.
If you put it in the 2nd grade and use it as a simulation measurement value for coal or sand use, you can perform measurement work extremely quickly.

In other words, at the beginning of the drying process, the amount of change is extremely large and changes quickly, but as the internal moisture content decreases, the amount of change becomes smaller, and it takes time to dry completely. .

Therefore, if you know the amount of change in advance, you can predict the moisture content.

The operation will be further explained according to the flowchart shown in FIG. That is, b・g (
t) on the monitor device 12. (Step 118) Next, the heater 9 is heated and weight measurement is started. (Step 120)
After drying to about 70 to 80%, the final internal moisture content is calculated with reference to the monitor value.
(Step 124) After quickly measuring the predicted moisture value in this way, the first arm 3,
Rotate the arm part C composed of the second arm 2 again,
Near the installation position of the soufflé bar 13, the storage box 1 is turned upside down by the operating rod 6, and the dried object A is discarded. (Step 12, and then after adjusting the weight of the storage box l (Step 13)
0), move storage box 1 again to conveyor line B
The next object to be inspected A flowing above will be collected and stored.

(Step 100) As described above, by scooping a sample of raw materials such as coal or coke flowing on conveyor line B, measuring its weight, and then drying it, the water content can be determined. If the measurement is carried out automatically and continuously, for example every 10 minutes, the amount of heavy oil when the raw material is burned in a boiler, kiln, etc. can be extremely well controlled.

[Effects of the Invention] Thus, the moisture content measurement ratio of the test object according to the present invention and 薯! 11 μn) Thick body - 1 inch
-The apparatus for measuring the moisture content of an object to be inspected according to the present invention can quickly and accurately detect and measure the moisture content, especially the internal moisture content, of an object to be inspected such as coal, coke, cement, etc.

Furthermore, various excellent effects such as being able to provide an apparatus for measuring the moisture content of the object to be inspected with a simple structure and low production cost can be achieved.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram showing the outline of the present invention, FIG. 2 is a schematic diagram showing the outline of the operation of the present invention, and FIG. 3 is a flow chart diagram showing the operation of the present invention. A...Object to be inspected, BΦ...Conveyor line, C...Arm section. D- Salary φ connection step part, l... Storage box, 2... Second arm, 3... φ first arm, 4... Weight measuring meter, C... φ arm part. D...Connection step part, 1.Working/storage box, 2...Second arm, 3...11 First arm, 4...Weighing meter, 5...Strut, 6...Operation Part, 7... Connecting rod, 800. Cylinder, 9... Heater, 10. No. φ calculator. 11... Display device, 12... Φ monitor device, 13... Souffle bar.

Claims (1)

[Scope of Claims] A storage box capable of storing a certain amount of an object to be inspected moving on a conveyor line, a heater for drying the object to be inspected in the storage box, and a weight of the object to be inspected during this drying operation. a measuring device capable of measuring the change; a calculating device that calculates the measured value from the measuring device to measure the moisture content of the test object; and a calculator that monitors the weight change of the test object during the drying operation and A device for measuring the moisture content of an object to be inspected, comprising: a monitoring device capable of predicting and measuring the moisture content of the object to be inspected during drying work based on the monitored value;