KR20130000749U - A heating device for extracting gemstone of mineral - Google Patents

Abstract

The present invention is a main body 10 is provided with a heater 20 therein, a workbench 30 is arranged horizontally long in the front and rear inside the main body 10 and the crushed mineral 1 is placed on the upper surface and the work table ( Advancing along the upper surface of the 30, and spreading the mineral (1) evenly spread on the upper surface of the work table 30, and a conveying means for transporting to the front end of the work table 30, the conveying means drive motor 40 And a driving roller 41 driven by the drive motor 40 and provided at the front end or the rear end of the work table 30, and a driven roller 42 provided at the rear end or the front end of the work table 30, Winding roller circulated by the driving roller 41 and the driven roller 42 is configured to include a conveying belt 50 is arranged in parallel with the upper or lower side along the upper surface of the work table 30, the work table ( On one surface of the conveyance belt 50 facing the upper surface of 30) along the direction orthogonal to the conveying direction Several projections 52 are provided with a projection assembly 53 formed spaced apart, the projection assembly 53 is formed at a predetermined interval along the conveying direction of the conveyance belt 50, the projection assembly 53 of the adjacent Each projection 52 provides a heating device for extracting the gemstone, characterized in that zigzag form each other.

Description

A heating device for extracting gemstone of mineral}

The present invention relates to a heating device for extracting gemstones, and more particularly, to remove the foreign substances contained in the gemstones more effectively to increase the purity of the extracted gemstones, and to improve the quality of products using such gemstones. Relates to a device.

In general, the mined minerals contain foreign matters in the gemstones, thereby obtaining pure gemstones through a process of removing the foreign matters. For example, molybdenum (Mo) is a molybdenum disulfide state containing sulfur in the mined state, and molybdenum disulfide is pulverized and heated to remove the sulfur component to obtain molybdenum gemstones.

Such a gemstone extraction device comprises a pulverizer for crushing molybdenum disulfide, which is a mined ore, and a heater for pulverizing molybdenum disulfide in powder form by pulverizing through the pulverizer. At this time, the heater comprises a work bench into which the mineral crushed in the crusher is input, and a heater for heating the mineral.

By the way, in the mill, molybdenum disulfide is pulverized in a roughly powder form, and when the powder is injected into a workbench, the molten dendrite is mostly agglomerated, so that the heat of the heater is not well transmitted to the inside of the agglomerated molybdenum disulfide powder. Since the powders put into the workbench are transferred while being heated, there is a problem that the sulfur component contained in molybdenum disulfide cannot be effectively removed. Accordingly, even after the above process, it is impossible to extract a high-purity raw stone, and there is a problem in that properties such as strength or malleability of the product are damaged when casting the product using such raw stone.

Published Patent Publication No. 10-2008-0067883.

The present invention is to solve the problems as described above, an object of the present invention is to more precisely remove the foreign matter contained in the gemstone by applying heat more uniformly to the powder formed by grinding the gemstone to reduce the purity of the gemstone The present invention provides a heating device for extracting gemstones which can improve the quality of a product manufactured from raw gemstones.

According to a feature of the present invention, in order to remove the foreign matter contained in the mined mineral to obtain a gemstone, in the heating apparatus for removing the foreign matter by crushing the mineral after heating,

The heating device includes a main body 10 having a heater 20 therein, a workbench 30 having horizontally arranged horizontally in the main body 10 in front and rear, and having a ground mineral 1 placed thereon, and a work bench. Advancing along the upper surface of the (30) includes a transport means for transferring the mineral (1) evenly spread on the upper surface of the work table 30 to the front end at the rear end of the work table (30),

The transfer means is provided with a drive motor 40, a drive roller 41 driven by the drive motor 40 and provided at the front end or the rear end of the work table 30, and at the rear end or the front end of the work table 30. The transfer belt 50, which is wound around the driven roller 42 and the driving roller 41 and the driven roller 42, is disposed in parallel with the upper side or the lower side along the upper surface of the work table 30 in the wound state. It is configured to include,

One surface of the conveyance belt 50 facing the upper surface of the work table 30 is provided with a projection assembly 53 formed with a plurality of projections 52 spaced apart in a direction orthogonal to the conveying direction, the projection assembly 53 Is spaced apart a predetermined interval along the conveyance direction of the conveying belt 50, the projections 52 of the protrusion assembly 53 adjacent to each other is provided with a heating device for extracting the gemstone, characterized in that forming a zigzag shape with each other.

According to another feature of the present invention, the transfer belt 50 is provided with the projection assembly 53 on one surface and a plurality of transfer bars 51 arranged in a direction perpendicular to the transfer direction of the transfer belt 50 and And a pair of circulation bands 55 respectively connecting both ends of the transfer bars 51, and the transfer bars 51 are provided with a heating device for extracting gemstones, wherein the transfer bars 51 are formed to be spaced apart from each other by a predetermined interval.

According to another feature of the present invention, the transfer belt 50 is provided to surround the worktable 30, the output end 61 is discharged to the pulverized mineral (1) on the upper rear end side of the worktable (30) Is provided, the mineral 1 discharged through the output end 61 is a heating device for extracting raw stones, characterized in that falling through the transfer bar 51 and the transfer bar 51 to the upper surface of the work table (30) Is provided.

According to another feature of the present invention, the flat section surface of the projection 52 of the transfer belt 50 is a heating device for extracting gemstones, characterized in that the width is narrowed toward the traveling direction of the transfer belt 50 Is provided.

According to the present invention as described above, provided with a projection assembly 53 spaced in the conveying direction on the lower surface of the conveying belt 50 is transported along the upper surface of the work table 30 on which the crushed mineral 1 is placed By providing the projections 52 of the protrusion assembly 53 adjacent to each other so as to be zigzag-shifted with each other, the mineral belt 1 is moved by the projections 52 as the transport belt 50 is transferred to the work table 30. Since it is spread more uniformly, foreign matter contained in the mineral 1 can be removed more quickly and completely by the heater 20, thereby increasing the purity of the gemstone from which the foreign matter is removed. In addition, the transfer belt 50 is composed of a transfer bar 51 spaced a predetermined interval and a flexible circulation band 55 connecting both ends of the transfer bar 51, the transfer bar 51 and the transfer bar Since the heat of the heater 20 is transferred between the 51, the foreign matter can be removed more quickly and effectively.

Then, the transfer belt 50 is provided so as to surround the work table 30, the output end 61 through which the pulverized mineral (1) is discharged between the work bar (30) and the work bar (30). By dropping to the upper surface, it is possible to reduce the overall size of the heating device, thereby reducing the cost of the equipment. On the other hand, by configuring the width of the projection 52 of the conveying belt 50 becomes narrower in the conveying direction, there is an effect that the mineral 1 is spread more uniformly, thus foreign matter more quickly and completely There is an effect that can be removed.

Figure 1 is a side cross-sectional view showing an embodiment of a heating device for extracting gemstones according to the present invention
Figure 2 is a plan view showing the front end side of the workbench of the embodiment
Figure 3 is a perspective view showing a part of the conveyance belt of the embodiment
Figure 4 is an operating state showing a state in which the conveying belt of the embodiment is conveyed along the upper surface of the workbench

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

1 is a side cross-sectional view showing a preferred embodiment of a heating device for extracting gemstones according to the present invention, Figure 2 is a plan view showing the front end side of the workbench of the embodiment, Figure 3 is a transport belt of the embodiment Figure 4 is a perspective view of a part, Figure 4 is an operating state diagram showing a state in which the conveying belt of the embodiment is conveyed along the upper surface of the work table. At this time, the arrow direction in Figures 2 to 4 indicates the traveling direction of the conveyance belt.

As shown, the extraction device for gemstone according to an embodiment of the present invention is to heat the pulverized mineral powder to remove the foreign matter after grinding the mineral to obtain the gemstone from the mined mineral, the heater ( 20 is provided with a main body 10, a horizontally arranged horizontally in the main body 10 in front and rear, the work surface 30 is placed on the upper surface of the crushed mineral (1), and advance along the upper surface of the work table (30) While including the mineral evenly spread on the upper surface of the worktable 30 is configured to include a transfer means for transferring to the front end from the rear end of the worktable (30).

The main body 10 is formed relatively long along the front and rear directions, and is provided with a heater 20 in the form of a pipe to heat the crushed mineral 1. In addition, the front and rear surfaces of the main body 10 are formed with outlets 12 and inlets 11, respectively, and the upper surface is formed with an exhaust port 13 through which gas generated therein is discharged.

The work table 30 is horizontally disposed to extend along the front-rear direction of the main body 10 so that the ground mineral 1 is placed on an upper surface thereof, and is installed at a predetermined distance from the ground. At this time, the front and rear ends of the work table 30 is protruded so as to pass through the outlet 12 and the inlet 11 of the main body 10 to the outside. In addition, a lower side of the front end of the work table 30 is provided with a container for collecting the minerals 1 falling through the front end surface of the work table 30 or a discharge path 2 through which the falling minerals 1 are transferred. On the other hand, the heater 20 provided in the main body 10 is provided to cross the left and right directions of the work table 30 on the upper side of the work table (30).

The conveying means transfers the mineral 1 from the rear end of the work bench 30 to the front end while the crushed mineral 1 placed on the work surface 30 is spread evenly on the work surface 30, and the driving motor 40. And a driving roller 41, driven roller 42, and a conveying belt 50, which are driven in condensation with the driving motor 40. In this embodiment, the driving roller 41 is provided in front of the front end of the work bench 30, the driven roller 42 is illustrated that the rear of the rear end of the work table 30, the driving roller 41 and the driven The position of the roller 42 can be changed. In addition, as shown in FIG. 2, the drive roller 41 includes a shaft member 41b condensed by a driving motor 40, a belt and a pulley, and a pair of gears provided at both ends of the shaft member 41b. 41a, the driven roller 42 also has the same shape as the drive roller 41.

Then, the transfer belt 50 is wound around the drive roller 41 and the driven roller 42 is configured to be circulated by the rotation of the drive roller 41, as shown in Figure 1 the transfer belt 50 It is configured to surround the upper and lower surfaces of the work table 30, the lower surface of the conveyance belt 50 disposed on the upper side is configured to contact the upper surface of the work table (30). At this time, the transfer belt 50 disposed on the upper side is configured to move toward the front end from the rear end of the work table (30).

On the other hand, the conveying belt 50 is a pair of a plurality of conveying bar 51 is arranged long along the left and right directions of the work table 30, and a closed loop form connecting the left and right ends of the conveying bar 51, respectively It is configured to include a circular band (55). At this time, the transfer bars 51 are spaced apart by a predetermined interval in parallel to each other, the both ends are provided with a wheel 54 that is caught on the gear 41a of the driving roller 41 and the driven roller 42, The transfer bar 51 is conveyed by the drive of the drive roller 41. In addition, a plurality of protrusions 52 are formed on one surface of the transfer bar 51 at predetermined intervals, and the flat cross-section of the protrusion 52 is in the traveling direction of the transfer belt 50 as shown in FIG. 2. It is made up of a narrower shape, that is, a '∧' shape. At this time, the plurality of protrusions 52 formed on the one transfer bar 51 forms a protrusion assembly 53.

3 and 4, each of the protrusions 52 of the protrusion assembly 53 of the transfer bar 51 may correspond to each of the protrusions 52 of the protrusion assembly 53 of the adjacent transfer bar 51. It is configured to deviate from each other, that is to form a zigzag shape, the mineral 1 of the upper surface of the work table 30 by the projections 52 as the conveying belt 50 is moved from the rear end of the work table 30 to the front end more There is an advantage that it is spread evenly, and thus heat generated from the heater 20 is applied to the mineral 1 more uniformly, so that foreign matters contained in the mineral 1 are removed more quickly and reliably, thereby extracting high purity gemstones. There is an advantage to being able to.

On the other hand, reference numeral 60 is an input device to prevent the minerals from being put together in a state when the crushed minerals are put on the upper surface of the work table 30, the output end 61 of the upper end side of the work surface 30 It is disposed on the upper side and extends along the left and right directions of the worktable 30 so that the mineral 1 falls evenly on the upper surface of the worktable 30. At this time, the transfer belt 50 is disposed between the output end 61 of the input device and the upper surface of the work table 30, the mineral 1 discharged through the output end 61 is the transfer bar (50) of the transfer belt (50) It falls on the upper surface of the work bench 30 through the space between 51 and the adjacent transfer bar 51. At this time, the upper limit side 31 of the work table 30 is provided with a height limit bar 31 installed horizontally along the side of the work table 30 to limit the height of the loading of the mineral 1 falling, mineral (1) Overflow is prevented between these transfer bars 51.

Referring to the operating state of the raw material extraction heating apparatus according to an embodiment of the present invention configured as described above are as follows.

First, the operator inputs the mineral 1 pulverized by the crusher to the input device 60, the injected mineral 1 of the work table 30 through the output end 61 by a predetermined amount by the height limit bar 31 It falls on the upper surface of the rear end. At this time, as described above, the mineral 1 is dropped on the work table 30 through the space between the transfer bar 51 of the transfer belt 50. Then, the upper portion of the conveyance belt 50 in contact with the upper surface of the work table 30 is moved from the rear end of the work table 30 to the front end by the drive of the drive motor 40. At this time, as the projections 52 of the transfer belt 50 come into contact with the mineral 1, the mineral 1 is unfolded in the same shape as in FIG. 4, and the mineral 1 is formed by the projection 52. It is conveyed toward the front end of 30. Accordingly, since the heat of the heater 20 is more quickly and uniformly transferred to the mineral 1 that is transported in the unfolded state than when transported in the aggregated state, foreign matter contained in the mineral 1 may be more effectively removed. There is an advantage. In particular, molybdenum gemstones can be obtained by heating and removing sulfur dioxide contained in mined molybdenum.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

Claims (4)

In the heating apparatus for removing the foreign matter by pulverizing the mineral and then heating to remove the foreign matter contained in the mined mineral to obtain a raw stone,
The heating device includes a main body 10 having a heater 20 therein, a workbench 30 having horizontally arranged horizontally in the main body 10 in front and rear, and having a ground mineral 1 placed thereon, and a work bench. And moving along the upper surface of the (30) comprises a transport means for transferring the mineral (1) evenly spread on the upper surface of the work table 30 to the front end at the rear end of the work table (30),
The transfer means is provided with a drive motor 40, a drive roller 41 driven by the drive motor 40 and provided at the front end or the rear end of the work table 30, and at the rear end or the front end of the work table 30. The transfer belt 50, which is wound around the driven roller 42 and the driving roller 41 and the driven roller 42, is disposed in parallel with the upper side or the lower side along the upper surface of the work table 30 in the wound state. It is configured to include,
One surface of the conveyance belt 50 facing the upper surface of the work table 30 is provided with a projection assembly 53 formed with a plurality of projections 52 spaced apart in a direction orthogonal to the conveying direction, the projection assembly 53 Is spaced apart a predetermined interval formed along the conveying direction of the conveying belt 50, each projection 52 of the protrusion assembly 53 adjacent to each other is characterized in that the zigzag form heating device for extracting the gemstone.
According to claim 1, The transfer belt 50 is provided with the projection assembly 53 on one surface and a plurality of transfer bars 51 are arranged long in a direction orthogonal to the transfer direction of the transfer belt 50, And a pair of circulation bands 55 respectively connecting both ends of the transfer bars 51, wherein the transfer bars 51 are formed at predetermined intervals from each other.
According to claim 1 or claim 2, The conveying belt 50 is provided to surround the work table 30, the output end 61 is discharged to the pulverized mineral (1) on the upper rear end side of the work table (30) ) Is provided, the mineral 1 is discharged through the output end 61 is heated for extraction of gemstones, characterized in that falling through the transfer bar 51 and the transfer bar 51 to the upper surface of the work table (30) Device.
According to claim 1 or 2, wherein the flat end surface of the projection 52 of the conveyance belt 50 is heated for extraction of the gemstone, characterized in that the width is narrowed toward the traveling direction of the conveyance belt (50) Device.

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