JP3273129B2 - Crusher for cement compounding raw material, sample preparation apparatus for analysis using the same, and fluorescent X-ray analysis system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a crusher for accurate composition analysis of a raw material for cement preparation, an analytical sample preparation apparatus using the crusher, and a fluorescent X-ray analysis system.

[0002]

2. Description of the Related Art Conventionally, in a cement production line, for the purpose of quality control, a plurality of simple raw materials such as limestone, clay, quartzite, iron raw materials, etc., have been prepared.
After sampling with a sampler (contractor) and stirring with a stirrer to make it uniform, it is melted at a high temperature with a bead sampler, solidified to make a sample for analysis, and the composition is analyzed with a fluorescent X-ray analyzer.

[0003]

Here, one fluorescence X
The weight of the cement preparation raw material contained in the sample for line analysis is, for example, 1 to 2 g, whereas the particle diameter of each component (plain raw material) in the cement preparation raw material is determined from the viewpoint of reduction of production cost and the like. Not sufficiently miniaturized, up to 50
It can range from 0 to 2000 μm. That is,
Just stirring with a stirrer is not enough for microscopic homogenization.
It is easy to produce an analysis sample containing only coarse particles of a specific component in a biased manner, and it is not possible to perform a sufficiently accurate composition analysis of the entire cement preparation raw material. In addition, if the analyzed composition fluctuates due to inaccuracy, the subsequent baking time of the cement blended raw material is adjusted accordingly, resulting in wasteful consumption of fuel.

[0004] Therefore, after the cement mixture raw material is sampled by a sampler, before being stirred by a stirrer, it is pulverized by a pulverizer 10 as shown in FIG. In this crusher, the cement-mixed raw material input from the raw material input port 11 is subjected to the impact of a large number of hammers 12 rotating at a high speed of, for example, 14000 rpm by compressed air inside the crushing unit 1 shown in FIG. The cement-mixed raw material, which has been repeatedly pulverized by the impact effect of the liner 13 having irregularities and has been pulverized to a predetermined particle size or less, is collected as a sample in the hopper-shaped sample collection unit 9 of FIG. . Here, the air fed to the pulverizing section 1 is supplied to an exhaust port 91 provided at an upper portion of the sample collecting section 9.
A part of the sample discharged at the same time and exhausted simultaneously with the exhaust is collected by a dust collector (not shown).

However, the sample discharged from the exhaust port 91 is not uniform as a crushed cement compounding raw material, but is biased to components that are crushed into finer and lighter particles sooner. In addition, such a biased component may adhere to the inner surface of the sample collection unit 9 and remain. That is, since so-called component classification occurs, the sample sent from the sample recovery unit 9 to the stirrer 4 also has a bias in the components, so that it is impossible to perform a sufficiently accurate composition analysis of the entire cement preparation raw material.

The present invention has been made in view of the above-mentioned conventional problems, and provides a pulverizer for accurate composition analysis of a raw material for cement preparation, an analytical sample preparation apparatus using the same, and a fluorescent X-ray analysis system. The purpose is to:

[0007]

In order to achieve the above-mentioned object, a crusher for cement-mixed raw materials according to claim 1 first comprises :
In the cement production line, there is a raw material input port into which a plurality of simple raw materials are prepared, and a pulverizing section for pulverizing the input cement prepared raw material, and a pulverizing section provided below the pulverizing section and pulverized. And a sample recovery unit for recovering the prepared cement raw material as a sample. Then, the sample collection section is configured to drop a sample attached to the inner surface thereof.
A vibrating body, a filter / exhaust unit that captures the sample on the inner surface while filtering and exhausting the air flowing from the pulverizing unit to the sample recovery unit, and a second unit that drops the sample captured on the inner surface of the filter / exhaust unit
A vibrating body. Furthermore, the sample is collected by the sample collection section
Of sample components sent to the stirrer
To prevent the sample from being stirred and homogenized by the stirrer.
Analytical sample collected after solidification after high-temperature melting with flux
X-ray fluorescence analysis of cement in the cement production line
Quality control, and the cement
To maintain the hydraulic modulus of the prepared raw material at a predetermined value.
You.

[0008] According to the crusher of the first aspect, the input cement-mixed raw material is finely crushed in the crushing section, and is reliably recovered by the filtration and exhaust section in the sample recovery section.
The component sent to the stirrer does not become unbalanced, and a sufficiently accurate composition analysis can be performed for the entire cement preparation raw material.

[0009] The pulverizer of the cement mixture raw material of claim 2 is
2. The pulverizer according to claim 1, wherein the filtration / exhaust section is made of a nonwoven fabric. According to the pulverizer of the second aspect, the capture of the sample by the filtration and exhaust unit is further ensured.

[0010] An analytical sample preparation apparatus of the cement formulation material according to claim 3, a grinding machine according to claim 1 or 2, provided below the sample collection portion of the crusher, the agitator for agitating the recovered sample When, and a bead sampler the stirred sample that stirrer, and the analytical sample solidified after melting at a high temperature.

According to a fourth aspect of the present invention, there is provided a system for preparing an analytical sample of a cement-mixed raw material, a transporter for transporting the analytical sample, and a transporter for transporting the analytical sample. X-ray fluorescence analyzer for analyzing the composition of the sample for analysis.

The same operation and effect as those of the pulverizer of the first or second aspect can also be obtained by the sample preparing apparatus for analysis or the fluorescent X-ray analysis system of the third or fourth aspect.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an X-ray fluorescence analysis system for a raw material for cement preparation according to an embodiment of the present invention will be described with reference to the drawings. First, the configuration of this system will be described. As shown in FIG. 3, the system comprises a crusher 3,
A stirrer 4 that is provided below the sample collection unit 2 of the crusher 3 and stirs the collected sample, and a sample S stirred by the stirrer 4 is melted at a high temperature and then solidified to obtain an analysis sample A. The apparatus includes a bead sampler 5, a transporter 7 for transporting an analysis sample A, such as a belt conveyor, and a fluorescent X-ray analyzer 8 for analyzing the composition of the analysis sample A transported by the transporter 7. I have. The crusher 3, the stirrer 4, and the bead sampler 5 constitute a sample preparation device 6 for analyzing cement-mixed raw materials.

Next, a crusher 3 used in this system
Will be described. As shown in FIG.
First, a pulverizing unit 1 having a raw material input port 11 into which a plurality of single raw materials is prepared and into which a raw material is charged is provided, and a pulverizing unit 1 provided below the pulverizing unit 1. And a hopper-shaped sample collection unit 2 for collecting the pulverized cement mixture raw material as a sample. Here, the raw material input port 11 is a downwardly facing hollow conical shape, into which the cement-mixed raw material is input from a wide opening at the upper part, and the narrowed lower part is bent toward the depth of the paper surface, and It is open. This is because, in a general crusher, the raw material is sent from the raw material input port to the crushing section by a screw, so if this is applied as it is, the raw material remaining in the vicinity of the screw is sampled next and input from the input port. This is because it is mixed with the raw material that has been used, and it is not possible to perform a sufficiently accurate composition analysis. The internal configuration of the pulverizing section 1 is the same as that of the conventional pulverizer 10 (FIG. 4) as shown in FIG.

The sample recovery section 2 includes a knocker (first vibrator) 21 for dropping the sample adhered to the inner surface thereof by impact vibration, and a filtration / exhaust for capturing the sample on the inner surface while filtering and exhausting the internal air. It has a unit 22 and an eccentric motor (second vibrating body) 23 that drops the sample captured on the inner surface of the filtration and exhaust unit 22 by vibration. Here, the filtration and exhaust unit 2
Numeral 2 is made of nonwoven fabric and has a bag shape opened downward, and its opening is connected to an exhaust port provided on the upper surface of the sample recovery section 2. A spring 24
, Is suspended by an inverted L-shaped arm 25 provided on the upper surface of the sample collection unit 2. Spring 2
The shaft of the eccentric motor 23 is slidably connected to the lower end of the motor 4. The fact that the filtration and exhaust unit 22 is made of a nonwoven fabric is more reliable in capturing a sample than a woven fabric,
This is because it was experimentally found.

The operation of the fluorescent X-ray analysis system of the present embodiment using this crusher will be described. First, a cement-mixed raw material sampled by a sampler (reducing machine) is introduced into the raw material input port 11 of the crusher 3 in FIG. According to the pulverizer 3, for example, a coarse cement mixture raw material containing 35% of particles having a particle diameter of 90 μm or more and 10% of particles having a particle diameter of 300 μm or more can be pulverized and refined until particles having a particle diameter of 300 μm or more disappear. Was. Therefore, there is no case where an analytical sample containing only the coarse particles of the specific component in a non-uniform manner is produced.

The pulverized raw material is collected as a sample in the sample collection section 2 below, and at this time, the filtration and exhaust section 22
However, while filtering and evacuating the air that has been pressure-fed to the pulverizing unit 1 and flowed into the sample collecting unit 2, the sample is captured on the inner surface. The captured sample is shaken down from the inner surface of the filtration / exhaust unit 22 to the lower part of the sample recovery unit 2 by the vibration of the eccentric motor (second vibrator) 23. Further, the sample adhered to the inner surface of the sample collection unit 9, particularly the upper inner surface, is also shaken down to the lower portion of the sample collection unit 2 by the impact vibration of the knocker 21 in the vertical direction. That is, the cement-mixed raw material pulverized and refined in the pulverizing unit 1 is reliably collected as a sample in the sample collecting unit 2 without being missed. Therefore, this crusher 3
According to the above, the sample sent to the stirrer 4 is not biased in the components, and the entire cement preparation raw material is
A sufficiently accurate composition analysis can be performed.

The sample collected by the sample collection section 2 is stirred by the lower stirrer 4 and made uniform. The stirrer 4 is the same as the conventional one, and the internal configuration is shown in FIG.
An impeller having a plurality of flat blades rotates around an axis perpendicular to the paper surface to stir the sample. The homogenized sample is further collected in the spoon sampler 51 of FIG. 3 below the stirrer 4 for one analysis sample, for example, 1.2 g. The spoon sampler 51 is a part of the bead sampler 5, and the sample S
And the sample S contains a flux such as Li ₂ B ₄ O ₇
The sample is put in a platinum crucible 52 with a lid together with the like, melted at a high temperature in a high-frequency furnace 53, and solidified to obtain an analysis sample A.

This sample A for analysis is transported by the transporter 7.
The primary X-rays 8 are conveyed to the X-ray fluorescence analyzer 8, fixed to a sample table 81 in the apparatus 8, and received from an X-ray source 83 such as an X-ray tube.
2 is irradiated. Secondary X-rays 8 generated from sample A for analysis
4 is split by the spectroscope 85, and the intensity is measured by the detector 87 for each of the split fluorescent X-rays 86. As a result, the composition of the sample A for analysis, that is, the composition of the cement-mixed raw material sampled by the sampler and supplied to the raw material input port 11 of the crusher 3 is analyzed.

In the raw material for cement preparation, it is particularly important to maintain the hydraulic modulus (HM) calculated from the content of each component such as CaO at a predetermined value. Is required to be 0.01 or less. Therefore, in the fluorescent X-ray analysis of the cement mixture raw material,
The accuracy of hydraulic modulus calculated from the measured value of the content of each component is required to be 0.01 or less. Table 1 shows the standard analysis values (chemical analysis values), the accuracy when conventional pulverization is not performed, and the accuracy in the present embodiment for each ratio of each component of the cement mixture raw material and the hydraulic set (HM). Indicates accuracy. In Table 1, the standard analysis value for each component is the weight content (unit is mass%). M is the percentage of silicic acid; M is the iron ratio.

[0021]

[Table 1]

From Table 1, it can be seen that according to the fluorescent X-ray analysis system of the present embodiment, the accuracy is improved in almost all the component contents and various ratios, and particularly important hydraulic modulus (H.
In M), 0.028 in the case where the conventional pulverization is not performed.
Was not satisfied with the requirement, but it was 0.006, which is a value that sufficiently satisfies the requirement.

[0023]

As has been described in detail above, according to the present invention, the supplied cement compounded raw material is finely pulverized in the pulverizing section of the pulverizer, and moreover, in the sample collecting section, the filtration and exhausting section etc. Therefore, the sample sent to the stirrer does not have a bias in the components, and a sufficiently accurate composition analysis can be performed for the entire cement preparation raw material.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing a pulverizer and a stirrer used in a fluorescent X-ray analysis system for a raw material for cement according to an embodiment of the present invention.

FIG. 2 is a diagram showing an internal configuration of a pulverizing unit of a pulverizer used in the system.

FIG. 3 is a schematic diagram showing the system.

FIG. 4 is a schematic view showing a conventional crusher and a stirrer.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Pulverizing part, 2 ... Sample recovery part, 3 ... Pulverizer, 4 ... Agitator, 5 ... Bead sampler, 6 ... Sample preparation device for analysis, 7
... Transfer machine, 8 ... X-ray fluorescence analyzer, 11 ... Inlet for raw material,
21: first vibrator (knocker), 22: filtration / exhaust section, 2
3 ... second vibrator (eccentric motor), A ... sample for analysis, S ...
Stirred sample.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-55-125441 (JP, A) JP-A-53-131091 (JP, A) JP-A-7-294393 (JP, A) 238181 (JP, A) JP-A-7-24339 (JP, A) JP-A-58-176151 (JP, A) JP-A 49-116189 (JP, U) JP-A 60-59946 (JP, U) 1-168847 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) G01N 1/02 G01N 1/04 G01N 1/28 G01N 23/223 B02C 23/00 C04B 7 / 38 B02C 23/00

Claims (4)

(57) [Claims] 1. A crushing section for crushing the supplied cement compounded raw material, the crushing section having a raw material input port into which a plurality of simple raw materials prepared in a cement production line are charged, and a crushing section below the crushing section. A sample recovery unit provided with a sample recovery unit for recovering the crushed cement preparation raw material as a sample, wherein the sample recovery unit comprises: a first vibrator for dropping a sample attached to an inner surface thereof; A filter / exhaust unit that captures the sample on the inner surface while filtering and exhausting the air that has flowed from the pulverizing unit to the sample collection unit, and a second method that drops the sample captured on the inner surface of the filter / evacuator.
And a vibrator, the components in the sample sent to the recovered stirrer at the sample recovery unit
Is prevented from occurring, and is stirred by the stirrer.
High-temperature melting with a flux taken from a homogenized sample
X-ray fluorescence analysis of the post-solidified analytical sample
Quality control in the production line
Maintain the hydraulic setness of the cement compounding raw material to be
Crushing machine for cement compounding raw materials. 2. A crusher for a cement-mixed raw material according to claim 1, wherein said filtration / exhaust portion is formed of a nonwoven fabric. 3. A crusher according to claim 1 or 2, provided below the sample collection portion of the crusher, and the agitator for agitating the recovered samples, the stirred sample that stirrer, Solidified after melting at high temperature
An apparatus for preparing an analysis sample of a cement-mixed raw material, comprising a bead sampler serving as the analysis sample. 4. An apparatus for preparing an analytical sample of a cement-mixed raw material according to claim 3, a transporter for transporting the analytical sample, and a fluorescent light X for analyzing the composition of the analytical sample transported by the transporter. An X-ray fluorescence analysis system for a cement mixture raw material, comprising: a X-ray analyzer.