KR101363995B1 - Apparatus for measuring ratio of hydration ofuncombined lime - Google Patents

Abstract

Disclosed is a device for measuring the hydration ratio of powdery lime for manufacturing sintered ore. The disclosed device for measuring the hydration ratio of powdery lime for manufacturing sintered ore according to the present invention includes a body having an entrance, a sample container which stores powdery lime and horizontally moves through the entrance of the body, a weight measurement unit which measures the weight of the powdery lime stored in the sample container, and a control unit which measures a hydration ratio based on the weight delivered from the weight measurement unit and outputs the hydration ratio to a driver. [Reference numerals] (60) Control unit; (AA) Provide a driver; (BB) Input a set value; (CC) Calculate an aquation ratio

Description

Apparatus for measuring ratio of hydration of uncombined lime}

The present invention relates to an apparatus capable of automatically measuring the hydration rate of powdered lime for producing sintered ore.

Artificial ores produced by sintering the spectroscopy (sintered by heating it to a semi-melt state at 1,200 to 1,300 ° C. and combining spectroscopically by recrystallization or melting, etc.) are called sintered ores.

The most widely used sintering method for the production of such sintered ore is, as shown in Figure 1, by quantitatively cutting in a number of raw material storage tank (1) storing iron ore and secondary raw materials and semi-ore and binder used as a sintered blending material to the belt conveyor After transporting by lamination, the mixture is mixed with water in the first and second mixers 2 and 3, granulated, and fired in the sintering machine 4 to produce a sintered ore.

That is, the above-described manufacturing method is a method suitable for mass production, and the primary mixer is a mixture of iron ore of 8 mm or less as a main raw material, fluxes of limestone, silica sand, serpentine, etc., and coke, anthracite coal, etc. The mixture is sufficiently mixed in (2), water is added to adjust the moisture of about 6 to 7%, and fine powder particles adhere around the particles having large particle diameters. Attached to the nucleus particles).

In addition, these pseudoparticles induce granulation reinforcement by rotating the particles while adding water in the secondary mixer 3 to enhance the strength by treating the microparticles firmly bonded to the nucleus particles.

At this time, the powdered lime has a component composition of 90% or more of effective CaO, and the powdered lime is added as a binder in the sintered blended raw material. On the other hand, condensed lime is processed to a particle size of 3mm or less, and has strong adhesive force by reacting with water, thereby improving pseudo granularity of sintered raw materials to improve breathability and combustibility of binders in a sintering machine bed. Plays an important role in improving

Therefore, the hydration rate of quicklime is a major cause of deterioration of production and quality deterioration due to changes in operation, and the hydration rate management of quicklime is designated and managed as a main quality control item in the manufacture of sintered ore.

Since there is no apparatus for measuring the hydration rate of the quicklime, there is a method of inferring the hydration rate of the quicklime by referring to the data measured in the process of preparing the quicklime.

For example, as an apparatus for measuring the hydration rate of lump quicklim, there is a device for measuring the hydration rate for each particle size of quicklime of Patent Application No. 10-2010-0028515. According to this, the trays for each particle size are mounted on the tray holder in the vertical direction, the vibration of the vertical direction is applied to the tray holder by a vertical vibration device, and a weight sensor for detecting the weight of each tray is provided, and in the weight sensor It is characterized by calculating the hydration rate of quicklime by particle size using the measured weight of quicklime before and after hydration.

In addition, Korean Patent Application No. 10-2001-0072792 discloses an automatic measuring device for quicklime hydration of a vertical kiln, and a method thereof, and accordingly, detects the weight of limestone, which is a raw stone transported in a vertical kiln, and is manufactured in the kiln. A first step of sensing the weight of quicklime being discharged; A second step of calculating a degree of plasticity using the detected weight of limestone and the weight of quicklime; Comprising a third step of calculating the hydration rate according to the degree of calcination and the hydration rate relationship is set in advance, the decarbonatedity of the limestone in the vertical firing furnace, that is, the weight (loading amount) of the limestone as a raw material and the product quicklime It is characterized by measuring the weight of the product (product amount), calculating the degree of calcination and the hydration rate using the measured value, and then determining the quality of each product based on this hydration rate and displaying the judgment result on the screen. .

In addition, the patent application No. 10-2002-0067849, is formed to accommodate the quicklime in the tank, and is disposed on the top of the tank so as to be inserted into and detached from the tank, and has a quicklime rotating cylinder having a plurality of perforations One quicklime hydration measuring device is disclosed. Accordingly, the quicklime rotator is detachably supported and rotated by the rotation support means, and the rotation support means is lifted by the lift means so that the input and exit of the quicklime rotator to the water tank can be controlled. As the lifting means is turned left and right by the swing means, the left and right turning of the quicklime rotating cylinder is controlled based on the lifting means. And, the weight before and after the hydration reaction of the quicklime rotating cylinder is characterized by being measured by a weight measuring means.

However, the above-described apparatus and methods measured the hydration rate of the lump quicklim with a particle size of 25 to 75 mm, and when the calcination proceeds, the unfired limestone (CaCO ₃ ) of the nucleus portion is shown in FIG. It may be present in large quantities, and because the variation in the particle size is large, it is difficult to use accurate data, there is a problem that can not be applied to the actual operation.

According to one embodiment of the present invention, there is provided a condensed lime hydration measuring device that can automatically measure in real time in a dry state without contacting the hydrated lime of particle size less than 3mm.

In order to solve the above problems, the present embodiment is a main body having a doorway; A sample container in which conidia lime is stored and horizontally moved through the entrance and exit of the main body; A weight measuring unit for measuring the weight of the conidia of lime stored in the sample container; It provides a hydration rate measuring apparatus for sintered ore condensed lime manufacturing comprising a; control unit for measuring the hydration rate based on the weight transmitted from the weighing unit to output to the driver.

According to this embodiment, it may further include a drive unit coupled to the main body for horizontally moving the sample container.

The driving unit may include a horizontal cylinder providing a driving force required for horizontal movement of the sample container, and a container support coupled to the cylinder rod end of the horizontal cylinder.

According to this embodiment, the sample container may further include a quantitative control unit for controlling the content of the conidia lime stored in the container.

The quantitative control unit may include a scraper for maintaining the height of the powdered lime stored in the sample container at a predetermined height, a vertical cylinder coupled to an upper side of the scraper to adjust the height of the scraper, and a holder for fixing the vertical cylinder to the main body. Can be.

According to an embodiment of the present invention, the hydration rate of the powdered lime of 3 mm or less in size in a dry state without contact with water is automatically measured in real time to provide the driver with a hydration rate value, thereby sintering generated when the quality of the powdered lime is changed. Operational impacts can be minimized.

At this time, when the hydration rate value is set based on the provided hydration rate value is controlled to reduce the cost of using the quicklime quicklime it is possible to reduce the sintered ore manufacturing cost due to the expensive quicklime reduction.

In addition, by controlling the increase in the use of quicklime to prevent the deterioration of the sintering operation when the set hydration rate is lowered, it is possible to maintain the sintering operation stability to reduce the production cost of the sintered ore and to improve the productivity and quality of the sintered ore at the same time. Contribute to your satisfaction.

1 is a schematic view showing a general sintered ore manufacturing process.
2 is a schematic diagram showing the degree of plasticity of lump lime;
Figure 3 is a cross-sectional view showing a conigi lime hydration measuring device according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the conidia lime hydration rate measuring apparatus according to the present invention.

Figure 3 is a schematic diagram showing the conidia lime hydration measuring apparatus according to an embodiment of the present invention.

As shown in Figure 3, the conidia lime hydration measuring apparatus of the present embodiment includes a main body 10, the sample container 20, the quantitative control unit 40, the weight measuring unit 50.

The main body 10 is formed to have a sufficient internal volume to accommodate the weight measuring unit 50 and the driving unit 30 to be described later, and is installed at a predetermined distance from the belt conveyor B for conveying powdered lime. An entrance 11 is formed on the front surface of the main body 10, that is, the surface facing the belt conveyor B for conveying condensed lime, and an entrance 11 so as to seal the inside of the main body 10 as necessary. ) May be provided with an openable door (not shown).

The sample container 20 is formed in the shape of an enclosure having an open top surface so that the condensed lime transferred from the belt conveyor B can be introduced. The sample container 20 is supported by a container support, which will be described later, so as to move horizontally between a first point at which condensed lime is loaded and a second point at which weight is measured. In this embodiment, the sample container 20 takes the form of a trapezoidal in cross section, that is, a diameter decreases toward the lower side.

The apparatus for measuring the hydration rate of conidia of lime according to the present embodiment may further include a driving unit 30 for horizontally moving the sample container 20.

The driving unit 30 includes a horizontal cylinder 31 fixedly installed in the main body 10, and a container support 32 coupled to the front end of the cylinder rod 31 a of the horizontal cylinder 31.

The horizontal cylinder 31 provides a driving force for the sample container 20 to reciprocate between a first point close to the belt conveyor B and a second point corresponding to the weighing unit 50 described later. Although not shown, the horizontal cylinder 31 may be fixed to the main body 10 using a fixing member such as a screw, or may be coupled to a separate support fixed to the main body 10. The horizontal cylinder 31 may be applied to the hydraulic or pneumatic cylinder, if necessary, the cylinder rod 31a is coupled to the front end so as to extend and contract.

The container support 32 is coupled to the front end of the cylinder rod 31a to support the sample container 20, and the container support 32 is formed in a ring shape so that the sample container 20 made of a cylindrical cross section in cross section is seated. Can be. The container support 32 may be any material such as wood, metal, synthetic resin, etc., as long as it can support the weight of the sample container 20 loaded with conidia lime.

The metering control unit 40 includes a scraper 41 to allow the condensed lime loaded on the sample container 20 to form a constant height. That is, the scraper 41 is positioned to correspond to the upper surface of the sample container 20 when the sample container 20 moves forward and backward by the driving force of the horizontal cylinder 31 to maintain the contents loaded in the sample container 20 at a constant height. Constantly adjust the amount of condensed lime loaded inside.

The scraper 41 may be provided at a position that does not interfere with the doorway 11 of the main body 10. At this time, the vertical cylinder 42 for raising and lowering the scraper 41 in the vertical direction is installed on the upper side of the scraper 41, the vertical cylinder 42 is fixed to the main body 10 by the fixing table 43. Fixing plate 43 may be any material such as wood, metal, synthetic resin material may be used as long as it can fully support the load of the scraper 41 and the vertical cylinder (42).

The weighing unit 50 measures the weight of the conidia of lime loaded on the sample container 20 and is installed at the bottom of the front side inside the main body 10. The lower side of the weighing unit may be provided with a lifting member (not shown) for raising and lowering the weighing unit. That is, when the sample container is located so as to correspond to the upper side of the weighing unit, the lifting member is configured to raise the weight measuring unit to raise the sample container from the ring-shaped container base, and then measure the weight of the sample container.

The measured weight of conidia is transmitted to the control unit 60 to convert the weight into a hydration rate by the built-in equation, and the driver is provided with a hydration rate value in real time.

The control unit 60 compares the reference value of the hydration rate set by the driver with the measured value, and reduces the use ratio of the powdered lime in the sintering operation when the measured value rises, and increases the use ratio of the powdered lime in the sintering operation when the measured value rises. Can stabilize the operation.

Referring to the process of using the conidia lime hydration rate measuring device configured as described above are as follows.

The condensed lime having a particle size of 3 mm or less discharged quantitatively through the quantitative extruder is transferred to the condensed lime hydration measuring device side of this embodiment by the belt conveyor B.

At this time, the sample container 20 is moved horizontally by the operation of the horizontal cylinder 31 to be placed at the first point close to the belt conveyor (B), after which the condensed lime transferred through the belt conveyor to the sample container (20) Is loaded.

When a sufficient amount of conidia is stored in the sample container 20, the control unit 60 transmits a signal to the driving unit 30 so that the cylinder rod 31a is contracted. As the cylinder rod 31a is contracted, the sample container 20 seated on the container support 32 at the tip thereof is transferred into the main body 10 through the entrance 11, and at this time, corresponds to the upper surface of the sample container 20. By the quantitative control unit 40 located at a height set to maintain the condensed lime stored in the sample container 20 to maintain a constant amount.

Then, if the sample container 20 is located at the second point corresponding to the upper side of the weighing unit 50, the lifting member lifts the weight measuring unit 50 to the sample container 20 from the ring-shaped container support 32 After raising the predetermined height) will be able to measure the weight of the sample container (20). At this time, since the sample container 20 is formed in the form of an inverted trapezoid in cross section, it is possible to naturally separate and rise from the container support 50 when the weight measuring unit 50 rises.

The weight data measured in this way is transmitted to the control unit 60, the control unit 60 calculates the hydration rate based on the weight of the powdered lime by the set calculation formula and outputs to the worker.

Accordingly, when the hydration rate of the powdered lime is higher than the set value, the operator can reduce the sintering manufacturing cost by using less powdered lime, and conversely, when the hydration rate of the powdered lime is lower than the set value, the operator uses more powdered lime. By minimizing the impact, production and quality can be stabilized quickly.

Thus, by using the dry lime hydration measuring device of the dry method of the present embodiment, it is possible to respond immediately to the operation by the operator can identify the sintering operation effect generated when the quality change of the powder is changed by the hydration rate value.

10; A main body 11; entrance
20; Sample container 30; The driving unit
31; Horizontal cylinder 32; Container stand
40; Metering control unit 41; scraper
42; Vertical cylinder 43; Fixture
50; Weight measuring unit 60; The control unit

Claims (5)

A main body having an entrance and exit;
A sample container in which conidia lime is stored and horizontally moved through the entrance and exit of the main body;
A quantitative control unit for controlling the content of conidia of lime stored in the sample container;
A weight measuring unit for measuring the weight of the conidia of lime stored in the sample container;
And a controller for measuring a hydration rate based on the weight transmitted from the weight measuring unit and outputting the hydration rate to the driver.
The quantitative control unit includes a scraper for maintaining the height of the powdered lime stored in the sample container, a vertical cylinder coupled to an upper side of the scraper to adjust the height of the scraper, and a holder for fixing the vertical cylinder to the main body. Hydration rate measuring device for condensed lime for producing sintered ore.
The method of claim 1,
A hydration rate measuring device for sintered ore condensed lime manufacturing, characterized in that it further comprises a drive unit coupled to the main body to move the sample container horizontally.
3. The method of claim 2,
Wherein the drive unit comprises a horizontal cylinder for providing the driving force required for the horizontal movement of the sample container, the hydration rate measuring device for sintered ore manufactured sintered ore characterized in that the container support coupled to the cylinder rod end of the horizontal cylinder.
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