KR20090051631A - Apparatus for measuring moisture and particle size - Google Patents

Abstract

The present invention relates to an apparatus for analyzing the moisture and particle size of the powder mineral sample, and more particularly, to analyze the moisture and particle size of the powder mineral in the field without sampling the powder mineral to analyze the moisture and particle size of the sample in the analysis chamber The present invention relates to an apparatus for analyzing water and particle size of powdered minerals.

An apparatus for measuring moisture and particle size of powdered minerals according to the present invention is a powder mineral moisture and particle size measuring apparatus installed in a clean room, the sampling apparatus for sampling powdered minerals continuously transported by a belt conveyor; A container containing a powdered mineral sample collected by the sampling device; A moisture measurement unit measuring moisture of the powdered mineral sample contained in the container in the clean room; Particle size measuring unit for measuring the particle size of the powdered mineral sample measured water; And a transfer unit for moving the container from the moisture measuring unit to the particle size measuring unit.

Moisture and particle size measuring device of the powder mineral of the above configuration is uniformly sampled smoke and raw material transported by the conveyor to measure the moisture and particle size at the same time in a clean room at the same time, the speed and reliability of the measurement data acquisition Increases.

Powder Mineral, Moisture and Particle Size

Description

Apparatus for measuring moisture and particle size}

The present invention relates to an apparatus for analyzing the moisture and particle size of the powder mineral sample, and more particularly, to analyze the moisture and particle size of the powder mineral in the field without sampling the powder mineral to analyze the moisture and particle size of the sample in the analysis chamber The present invention relates to an apparatus for analyzing water and particle size of powdered minerals.

In general, the moisture measurement of the powder mineral is made separately according to the operator, and the current moisture measuring device using a microwave or neutron and the portable moisture measuring device of the arbitrary measurement method is mainly used.

The moisture measuring device using the microwave requires a frequent calibration of the sensor according to the change of the raw material, and thus the accuracy is inferior. The moisture measuring device using the neutron has a management problem due to the radiation exposure.

In addition, the portable moisture measuring device of the random measurement method has a problem that the operator is exposed to the risk of safety accident by taking a sample from the belt conveyor in operation, and the measurement cycle is long due to artificial measurement, so that the immediate application of data is difficult.

On the other hand, the particle size measurement of the powdered mineral is performed in the analysis chamber by the screening method by the on-site sampling, there is a problem that the data reliability and data derivation time is long, which adversely affects the operation.

An object of the present invention is to provide an apparatus for measuring the moisture and particle size of powdered minerals, which can automatically measure the moisture and particle size in a clean room by automatically sampling the lead and the raw material transferred at high speed on a belt conveyor.

An apparatus for measuring moisture and particle size of powdered minerals according to the present invention is a powder mineral moisture and particle size measuring apparatus installed in a clean room, the sampling apparatus for sampling powdered minerals continuously transported by a belt conveyor; A container containing a powdered mineral sample collected by the sampling device; A moisture measurement unit measuring moisture of the powdered mineral sample contained in the container in the clean room; Particle size measuring unit for measuring the particle size of the powdered mineral sample measured water; And a transfer unit for moving the container from the moisture measuring unit to the particle size measuring unit.

In addition, the water and particle size measuring apparatus of the powder mineral according to the present invention further comprises a scraper for adjusting the amount of powder minerals contained in the container, the container in which the amount of powder minerals is controlled through the scraper flows into the moisture measuring unit. The door may further include a door disposed in the clean room.

In addition, the moisture and particle size measuring apparatus of the powder mineral according to the present invention may further include a cover cylinder for opening and closing the door.

In addition, the moisture measuring unit of the water and particle size measuring apparatus of the powder mineral according to the present invention may be made in a pair so that the container is provided alternately.

In addition, the moisture measuring unit of the moisture and particle size measurement apparatus of the powder mineral according to the present invention, the moisture measuring scale for measuring the moisture value of the sample of the powder mineral; And it may include a lifting cylinder for raising and lowering the moisture measuring scale.

In addition, the moisture measuring unit of the powder mineral and particle size measuring apparatus according to the present invention may further include a far-infrared irradiation unit for drying the moisture of the powder mineral in the upper portion of the container.

In addition, the transfer unit of the water and particle size measurement apparatus of the powder mineral according to the present invention; And a moving cylinder configured to translate the container.

In addition, the particle size measurement unit of the water and particle size measurement apparatus of the powder mineral according to the present invention, the particle size measuring scale for measuring the particle size value of the sample of the powder mineral; And an elevating cylinder for elevating the particle size scale.

In addition, the particle size measurement unit of the water and particle size measurement apparatus of the powder mineral according to the present invention; A gate cylinder for introducing a container into the particle size measurement room; And a sieve separating powder minerals in the particle size measurement room.

In addition, the moisture and particle size measurement apparatus of the powder mineral according to the present invention includes a sieve gripping device for gripping the sheave in the particle size measurement room; And a shaking motor configured to apply vibration to the sheave gripping device to cause the sheave to vibrate.

In addition, a sieve cap may be provided at an upper portion of the sieve of the powder and mineral particle measuring apparatus according to the present invention to prevent the powder mineral from splashing to the outside from the sieve.

In addition, the water and particle size measuring apparatus of the powder mineral according to the present invention may further include a discharge unit for collecting the powdered minerals filtered from the sieve at the bottom of the sieve station.

Moisture and particle size measuring device of the powder mineral of the above configuration is uniformly sampled smoke and raw material transported by the conveyor to measure the moisture and particle size at the same time in a clean room at the same time, the speed and reliability of the measurement data acquisition Increases.

In addition, it is measured automatically compared to the artificial measurement, thereby reducing the safety accident of the operator, and can immediately apply the data obtained on the spot in the field.

Hereinafter, with reference to the drawings will be described in detail a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention may deteriorate other inventions or the present invention by adding, modifying, or deleting other elements within the scope of the same idea. Other embodiments that fall within the scope of the inventive concept may be readily proposed, but they will also be included within the scope of the inventive concept.

1 is a schematic view showing the installation of the water and particle size measuring device according to the present invention in the field, FIG. 2 is a side view of the water and particle size measuring device according to the present invention, and FIG. 3 is the water and particle size according to the present invention. Top view of the measuring device.

Referring to Figure 1, the water and particle size measuring device 1 according to the present invention is installed to collect the sampling on the belt conveyor 2 for transporting the powder mineral 4, and for a precise measurement of a pleasant working environment It is installed in the clean room 3.

2 and 3, the water and particle size measuring device 1 according to the present invention is a sampling device 10 for sampling the powdered mineral 4 continuously transported on the belt conveyor 2, the sampling device ( A container (5) for holding the powdered mineral (4) sample collected by 10), a moisture measuring unit (7) for measuring the moisture of the powdered mineral sample contained in the container (5) in the clean room (3), Particle size measuring unit 9 for measuring the particle size of the powdered mineral sample measured in water and a transfer unit 8 for moving the container 5 containing the powdered mineral from the moisture measuring unit 7 to the particle size measuring unit 9. ) May be included.

The sampling device 10 includes a spoon 12 which is a head part for sampling the powdered mineral 4 on the belt conveyor 2, a connection arm 16 to which the spoon 12 is connected, and the connection arm 16. It consists of an arm cylinder 14 which rotates so that the spoon 12 can float on the powder mineral 4 on the belt conveyor 2.

The container 5 containing the powdered minerals 4 sampled through the sampling device 10 may be moved to the moisture measuring unit 7 through the door 19 of the clean room 3. The scraper 18 is provided on the upper side of the door 19 to maintain a constant sampling amount of the powdered minerals of the container 5.

The container 5 in which the sampling amount of the powdered minerals is controlled by the scraper 18 may be introduced onto the moisture measuring unit 7 through the door 19, and the door 19 may cover the cover cylinder 17. Open and close automatically).

The moisture measuring unit 7 may include a moisture measuring scale 22 for measuring the moisture value of the sample of the powdered mineral and a lifting cylinder 24 for raising and lowering the moisture measuring scale 22.

The container 5 introduced on the moisture measuring unit 7 is supported by the support 31, and measures the moisture value of the mineral in the container 5.

The moisture value is measured by gravimetric method, and the mass of the container 5 containing the powdered mineral 4 primarily containing water is measured using the moisture measuring scale 22.

Then, it is disposed above the moisture measuring unit 7 and dried by the far-infrared irradiation unit 20 irradiating and drying the far-infrared ray with strong permeability to the powder mineral 4 before the moisture measurement of the powder mineral 4.

The moisture of the powdered minerals 4 is dried by the far-infrared irradiator 20, and then the mass of the container 5 containing the powdered minerals 4 having no moisture is measured using the moisture measuring scale 22.

The moisture value is measured by subtracting the mass of the container 5 containing the powdered mineral 4, which is secondarily free of moisture, from the mass of the container 5 containing the powdered mineral 4 containing water.

The far-infrared irradiator 20 is movable to an upper portion of the container 5 containing the powdered mineral 4 by the heating cylinder 13 provided on one side of the clean room 3.

The heating cylinder 13 moves the far-infrared irradiator 20 away from the container 5 while measuring the moisture value.

The moisture measuring unit 7 may be configured in a pair so that the container 5 is alternately provided, and thus may continuously measure the moisture value from left and right.

After measuring the moisture value, the container 5 is provided to the particle size measuring unit 9 using the transfer unit 8.

The transfer unit 8 may rotate the support 31 supporting the container 5 to the particle size measuring unit 9 installed at the rear of the transfer unit 8 by rotating the support 31. have.

The container 5 rotated by the rotating cylinder 30 is positioned in front of the particle size measurement room 50, and the moving cylinder 35 moves the container 5 located in front of the particle size measurement room 50. It can be arranged in the particle size measurement room 50 by the forward and backward translation.

The door (not shown) of the particle size measuring room 50 is opened and closed by using the gate cylinder 54 to allow the container to enter the particle size measuring room 50.

The particle size measuring unit 9 may include a particle size measuring scale 42 for measuring a particle size value of a sample of the powder mineral 4 and a lifting cylinder 44 for raising and lowering the particle size measuring scale 42. .

In addition, the particle size measuring unit 9 includes a particle size measuring room 50 that becomes a particle size measuring space, and a gate for introducing the container 5 and the particle size measuring scale 42 into the particle size measuring room 50. The cylinder 54 and the sieve 52 for separating the powder mineral 4 in the particle size measurement room 50 may be included.

The particle size measuring scale 42 may be provided inside the particle size measuring room 50, but may be provided inside the particle size measuring room 50 to move forward to the moving cylinder 40 when the particle size measuring room 50 is opened. Here, the introduction of the particle size balance 42 into the particle size measurement room 50 opens the door (not shown) of the particle size measurement room 50 with the particle size measurement gate gate 64.

The sieve 52 is separated from the powder mineral 4 to be separated into a particle size of a predetermined size. After the particle size measurement, the sieve 52 is collected in the discharge part 69 disposed under the particle size measurement room 50.

The particle size value is also measured by gravimetric method, and measures the mass of the container 5 containing the dried powdered mineral 4 primarily transferred. Of course, at this time, the mass of the container containing the powdered minerals 4 in the dried state at the time of moisture value measurement can be used as it is, without measuring the mass of the container 5 containing the transferred dried powder minerals 4.

Then, the container containing the powdered mineral 4 in the secondary dried state is introduced into the particle size measurement room 50, and the powdered mineral is contained in the sieve 52. Then, the sieve 52 is vibrated to filter powder minerals having a specified particle size, and then the mass value of the powder minerals that do not pass through the sieve 52 is measured.

At this time, the mass value is a particle size measuring the mass value of the powdered minerals that do not pass through the sieve 52 after the particle size measuring scale 42 is pushed into the particle size measuring room 50 by the moving cylinder 40 and filtered. The sheave station 66 on the top of the balance 42 measures the mass of the sheave 52. The particle size balance 42 and the sieve station 66 are lifted by the elevating cylinder 44 so that the mass value of the powdered mineral on the sieve 52 can be measured.

The particle size value is the mass of the container 5 containing the powdered minerals 4 without moisture, and the mass of the container 5 itself and the sheaves 52 and the sheaves 52 at the values after the specified particle size. The mass of the powdered minerals with the specified particle size is measured by subtracting the remaining powdered minerals.

The sieve 52 may be gripped by the sieve gripping device 55 in the particle size measurement room 50, and the sieve gripping device 55 may be moved by the sieve gripping device adjusting cylinder 57. The gripping finger 59 causes the sheave 52 to gripping.

The sieve gripping device 55 is connected to the shaking motor 60, and the shaking motor 60 is driven to vibrate the sieve gripping device 55 and the sieve 52 to provide powder minerals having a specified particle size. Can be separated.

The unfiltered powder mineral may be dumped to the outside by dumping the sheave 52 using the sieve dumper cylinder 68.

In order to prevent the powdered minerals from splashing to the outside by vibration, a sieve cap 58 may be provided on the sieve 52.

Moisture and particle size measuring device of the powder mineral of the above configuration is uniformly sampled smoke and raw material transported by the conveyor to measure the moisture and particle size at the same time in a clean room at the same time, the speed and reliability of the measurement data acquisition Increases.

In addition, it is measured automatically compared to the artificial measurement, thereby reducing the safety accident of the operator, and can immediately apply the data obtained on the spot in the field.

1 is a schematic view showing a state in which the moisture and particle size measuring apparatus according to the present invention is installed in the field.

Figure 2 is a side view of the moisture and particle size measuring device according to the present invention.

3 is a plan view of the moisture and particle size measuring apparatus according to the present invention.

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

1: Moisture and particle size measuring device 2: Belt conveyor

3: clean room 4: powder mineral

10: sampling device 18: scraper

19: door 20: far infrared ray irradiation part

22: moisture measuring balance 24: lifting cylinder

30: rotating cylinder 34: dump cylinder

35: moving cylinder 40: moving cylinder

44: raising and lowering cylinder 50: particle size measuring room

52: sieve 54: gate cylinder

56: sheave cap cylinder 58: sheave cap

60: shaking motor

Claims (12)

Powder mineral moisture and particle size measuring device installed in clean room, A sampling device for sampling the powdered minerals continuously transported by the belt conveyor; A container containing a powdered mineral sample collected by the sampling device; A moisture measurement unit measuring moisture of the powdered mineral sample contained in the container in the clean room; Particle size measuring unit for measuring the particle size of the powdered mineral sample measured water; And Powder and mineral moisture and particle size measuring apparatus comprising a; transfer unit for moving the container from the moisture measuring unit to the particle size measuring unit. The method of claim 1, Further comprising a scraper for adjusting the amount of powdered minerals contained in the container, Powdered mineral moisture and particle size measuring apparatus further comprises a door disposed in the clean room so that the container, the amount of powdered minerals controlled through the scraper flows into the moisture measuring unit. The method of claim 2, And a cover cylinder for opening and closing the door. The method of claim 1, The moisture measuring unit is a powder mineral moisture and particle size measuring device consisting of a pair so that the container is provided alternately. The method of claim 1, The moisture measuring unit A moisture measurement scale for measuring a moisture value of the sample of the powdered minerals; And A powder mineral water and particle size measuring device, comprising: a lifting cylinder for lifting and lowering the moisture measuring scale. The method of claim 1, The moisture measuring unit further comprises a far infrared ray irradiating unit for drying the moisture of the powder mineral in the upper portion of the container. The method of claim 1, The transfer unit A rotating cylinder for rotating the container to the rear; And Powdered mineral moisture and particle size measuring apparatus comprising a; moving cylinder to translate the container. The method of claim 1, The particle size measuring unit is a particle size measuring scale for measuring the particle size of the sample of the powdered minerals; And Powder mineral water and particle size measuring apparatus comprising a; lifting cylinder for lifting the particle size measuring scale. The method of claim 1, The particle size measuring unit A particle size measurement room which becomes a particle size measurement space; A gate cylinder for introducing a container into the particle size measurement room; And Powdered minerals moisture and particle size measuring apparatus comprising a; sieve for separating the powdered minerals in the particle size measurement room. The method of claim 9, A sieve gripping device for gripping the sieve in the particle size measurement room; And And a shaking motor for applying vibration to the sieve gripping device to cause the sieve to vibrate. The method of claim 9, An upper portion of the sieve powder mineral water and particle size measuring apparatus having a sieve cap for preventing the powder mineral from splashing outside the sieve. The method of claim 9, The powder mineral water and particle size measuring apparatus further comprises; a discharge portion for collecting the powdered minerals filtered by the sieve in the lower portion of the sieve station.

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