KR101915539B1 - Circular sieve apparatus for separating fine chips - Google Patents

Abstract

The present invention relates to a circular sieve apparatus for separating microchips, which comprises the following: a main body (10) including a plurality of outlets (12) provided on the upper side of a guide plate (23), and connected to a vibration motor (16) to generate vibration; a filtering means including a selecting stand (22) and a spinning stand (25) on each layer of the main body (10), to discharge the selected microchips; a driving means provided to cause the filtering means to induce a motion for increasing selecting force; and a control means controlling the filtering means and the driving means with an established algorithm. Accordingly, in order to classify a micro sized chip-shaped material by particle size, various motions are added to increase excitation force, thereby eliminating clogging of a network, and improving quality and productivity.

Description

Technical Field [0001] The present invention relates to a circular sieve apparatus for separating fine chips,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fine chip sorting apparatus, and more particularly, to a circular sawing apparatus for sorting fine chips by classifying chip-shaped materials having a minute size into grain sizes.

In general, a fine chip having a size of 1 mm or less like a silicon powder applied to a semiconductor device is subjected to a process of selecting a pure raw material from which a foreign substance has been removed through crushing in multiple stages. In this case, a circular sieve based on a cylindrical structure is preferred in view of the ease of separation of foreign matter and prevention of agglomeration. This is because the circular sheave is advantageous to increase the speed of the sorting operation by adding rotational motion.

Prior art patents such as Korean Patent Registration No. 0692528, Korean Patent Registration No. 1182163, and the like are known as prior art documents which can be referred to in connection with a circular sheave.

A first ring-shaped member having a first locking member fixed to the rod-shaped member, a second ring-shaped member having a second locking member fixed to the rod-shaped member, and a second ring- A support ring member disposed between the first ring-shaped member and the second ring-shaped member, and the like. Therefore, it is expected that the occurrence of loosening of the reticular is suppressed and the replacement is easily performed.

However, although the description of the removal of foreign substances, the removal of fine particles, and the collapse are described, the technical structure for increasing the fine particle discrimination power is not sufficiently disclosed.

The latter being a shredder for crushing the silicon mass to form granules; A pulverizer for pulverizing the granules to form a first silicone powder; A screen having a magnetic force for screening the first silicon powder to form a second silicon powder, a screen for partitioning the inside of the main body, and a vibration part located at the bottom of the main body; . Therefore, it is expected that the effect of reducing the mixing amount of impurities and the amount of pulverized waste and increasing the production efficiency.

This also discloses only a conceptual configuration for sorting metal silicon powder, and thus it is possible to improve quality and productivity by applying it to mass production.

Korean Patent Registration No. 0692528 entitled "Cylindrical Sieve" (published on Aug. 29, 2005). Korean Registered Patent No. 1182163 "Method for producing silicon powder and apparatus for manufacturing the same" (Publication date: Feb. 24, 2012)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method and apparatus for sorting a chip- And to provide a circular sheave device for fine chip sorting.

In order to accomplish the above object, the present invention provides a sheave device having a circular structure for sorting fine chips, comprising: a main body having a plurality of outlets at an upper side of a guide plate and connected to a vibration motor to cause vibration; A filtering unit having a screening table and a spinning stand on each layer of the main body and discharging each of the selected fine chips; A drive means provided to cause the filtering means to induce a motion for increasing the sorting force; And control means for controlling the filtering means and the driving means with an established algorithm.

In the detailed construction of the present invention, the filtering means forms a gear on the outer circumferential surface of the spinning band, and causes the pinion and the driver to engage with the gear to cause rotation.

In the detailed construction of the present invention, the drive means includes a rolling member connected to the axis of the vibration motor so as to be perpendicular to the axis, and an eccentric member connected to the rolling member to cause up-down vibration.

In a modification of the present invention, the filtration means further comprises an ultrasonic vibrator provided on the outer surface of the main body to add vibration to the screen, further comprising a brush on the bottom of the spinning stand in contact with the screen, And a damper connected via a suction duct.

In the detailed configuration of the present invention, the control means inputs signals of a chip amount detector for detecting chip amount of the discharge port, a dust detector for detecting the internal dust of the main body, and a load detector for detecting load fluctuation of the driver, Is applied to a vibration motor, a driver, an ultrasonic vibrator, and a damper.

As described above, according to the present invention, there is an effect of improving the quality and productivity while eliminating clogging of the net by classifying the chip-shaped material having a minute size by particle size and adding various motions to increase the excitation force.

Brief Description of the Drawings Fig. 1 is a schematic view showing an apparatus according to the present invention in appearance; Fig.
Fig. 2 is a schematic view showing the filtration means of the device according to the invention
Fig. 3 is a schematic view showing the driving means of the device according to the present invention
4 is a schematic view showing the cleaning means of the device according to the invention
Figure 5 is a block diagram showing the control means of the device according to the invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention proposes a sheave apparatus having a circular structure for sorting fine chips. But is not necessarily limited to, microchips in the course of producing powder by crushing the silicon raw material.

According to the present invention, the main body 10 has a plurality of outlets 12 on the upper side of the guide plate 23 and is connected to the vibration motor 16 to induce vibration. The main body 10 is formed by stacking a plurality of cylinders and classifying the fine chips by particle size. 1 illustrates a body 10 having a three-layer structure. A hopper type inlet 11 is provided on the upper side of the main body 10 and an outlet 12 communicating with each layer is provided on the outer surface of the main body 10. A guide plate 23 is provided on the lower layer of the main body 10 and a vibration motor 16 having an eccentric body 32 is provided on the bottom surface of the main body 10.

In addition, according to the present invention, the filtration means for discharging the sorted fine chips respectively has a screening table 22 and a spinning table 25 in each layer of the main body 10. [ The sorting table 22 is formed in the shape of a disk having holes of a predetermined size and spacing using PE or PU materials. The radiation table 25 is also formed in a radial shape on the upper surface of the screen 22 using the same material as the screen 22. The screening table 22 and the spinning table 25 having such a structure prevent the fine chips from dropping into the loading port 11, thereby promptly sorting.

The filtration means is characterized by forming a gear 26 on the outer peripheral surface of the spinning band 25 and engaging the pinion 28 and the drive machine 38 on the gear 26 to cause rotation do. In Fig. 2, the spinning table 25 having the gear 26 is rotatably supported by a guide ring 21 made of a wear-resistant and heat-resistant resin material including MC nylon. Of course, it is also possible to add a bearing (not shown) in part to the guide ring 21. The drive unit 38 mounted on the outer circumferential surface of the main body 10 engages with the gear 26 through the pinion 28 to rotate the spinning wheel 25 to induce rapid sorting.

In addition, according to the present invention, the driving means is provided to cause the filtering means to induce a motion of increasing the sorting force. The driving means is configured to add a motion for causing vibration of another pattern in addition to the vibration by the vibration motor 16 and the eccentric body 32 provided on the bottom surface of the main body 10. [ The vibration motor 16 and the eccentric body 32 are associated with the main elastic body 14 that supports the main body 10 and mainly cause the main body 10 to vibrate in the horizontal direction. If only the vibrations of the vibrating motor 16 in the constant direction are constantly maintained, the screening band 22 is clogged and the screening force tends to be deteriorated.

The driving means includes a rolling member 31 connected to the axis of the vibration motor 16 so as to be orthogonal to the axis of the vibration motor 16 and an eccentric member 32 connected to cause the rolling member 31 to oscillate up and down . 3, the rolling member 31 exemplified by the bevel gears converts the vertical axis rotation of the vibration motor 16 to the horizontal axis rotation. When another eccentric body 32 is connected to the horizontal axis of the rolling member 31, vibration in the vertical direction is generated, which causes a combined vibration in addition to the horizontal vibration described above.

At this time, as shown in Fig. 3, the rolling elements 31 can be arranged so as to be dispersed in a plurality. In this case, it is preferable that the eccentric bodies 32 connected to the rolling elements 31 are set differently in the combined posture (direction).

On the other hand, it is preferable to provide the sub elastic body 34 between the upper surface of the vibration motor 16 and the bottom surface of the guide plate 23. The composite vibration caused by the main elastic body 14, the sub elastic body 34 and the bi-directional eccentric body 32 prevents clogging of the screening table 22 due to fine dust particles and maintains a good screening force.

The filtration means further comprises a brush 42 on the bottom surface of the spinning band 25 in contact with the screening table 22 and is provided on the outer surface of the main body 10 and provided with a screening table 22, And a damper (48) connected to the outer surface of the main body (10) via a suction duct (46). The brush 42 is mounted on the bottom surface of the rod constituting the spinning band 25, and removes dust adhering to the net of the screening band 22. The ultrasonic vibrator 44 is composed of an ultrasonic wave generator attached to the main body 10 and an arm connecting the ultrasonic wave generator and the screen 22. A suction duct 46 is provided in a vent hole 18 formed in an outer peripheral surface of the main body 10 and connected to a damper 48 together with a suction duct 46 provided on the upper surface of the main body 10.

According to the present invention, the control means controls the filtering means and the driving means with an established algorithm. The control means is based on a controller 52 equipped with a microprocessor, a memory and an input / output interface. The set algorithms are stored and executed in memory as programs and data.

The control means includes a chip amount detector 54 for detecting the chip amount of the discharge port 12, a dust detector 55 for detecting the internal dust of the main body 10, A signal from the load detector 56 to be detected is inputted and the output according to the set algorithm is applied to the vibration motor 16, the driver 38, the ultrasonic vibrator 44, and the damper 48. The chip amount detector 54, the dust detector 55 and the load detector 56 are connected to the input interface of the controller 52 and are connected to the vibration motor 16, the driver 38, the ultrasonic vibrator 44, the damper 48 Is connected to the output interface of the controller 52 through a driver 58. [ The chip amount detector 54 and the dust detector 55 use a photosensor array composed of a plurality of rows. The load detector 56 uses a current sensor or a Hall sensor.

The algorithm by the controller 52 of the control means applies the output set to the vibration motor 16 corresponding to the amount of the raw material to be input into the input port 11 so that classification of the fine chips through the plurality of outlets 12 Make sure to proceed quickly. The controller 52 stores the data on the chip amount in the appropriate range corresponding to the amount of the raw material input into the memory and updates it with the information accumulated in the mass production process.

As an example of the operation, the controller 52 analyzes the signal of the chip amount detector 54 and detects the dust state with the signal of the dust detector 55 when it is judged that the sorting power of the sorter 22 is weakened, The drive unit 38 is operated to rotate the spinning band 25 and the damper 48 and the drive unit 38 are turned on when it is determined that the network blockage of the sorting table 22 is eliminated by the signal of the load detector 56 ).

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 and scope of the invention. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: Body 11:
12: outlet 14: main elastomer
16: Vibration motor 21: Guide ring
22: Screening stand 23: Sign board
25: Radiation band 26: Gear
28: pinion 31: rolling body
32: eccentric body 34: sub-
36: Shaft 38: Actuator
42: Brush 44: Ultrasonic whitener
46: Suction duct 48:
52: controller 54: chip amount detector
55: dust detector 56: load detector
58:

Claims (5)

1. A sheave device of circular structure for sorting fine chips, comprising:
A main body 10 provided with a plurality of outlets 12 on the upper side of the guide plate 23 and connected to the vibration motor 16 to cause vibration;
A filtering unit having a screening table (22) and a spinning table (25) in each layer of the main body (10) and discharging the sorted fine chips, respectively;
A drive means provided to cause the filtering means to induce a motion for increasing the sorting force; And
And control means for controlling the filtering means and the driving means with an established algorithm,
Characterized in that the filtration means forms a gear (26) on the outer peripheral surface of the spinning wheel (25) and causes the pinion (28) and the driver (38) Device. delete The method according to claim 1,
Characterized in that the driving means includes a rolling member (31) connected to the axis of the vibration motor (16) so as to be orthogonal to the axis of the vibration motor, and an eccentric member (32) connected to cause the rolling member A circular sieve device. The method according to claim 1,
The filtration means further comprises a brush 42 which is in contact with the screen 22 on the bottom surface of the spinning stand 25 and which is provided on the outer surface of the main body 10 to apply vibration to the screen 22 Further comprising a damper (48) connected to the outer surface of the main body (10) through a suction duct (46). The method according to claim 1,
The control means includes a chip amount detector 54 for detecting the chip amount of the discharge port 12, a dust detector 55 for detecting the internal dust of the main body 10, a load detector 56 for detecting the load fluctuation of the driver 38, , And applies an output in accordance with the set algorithm to the vibration motor (16), the driver (38), the ultrasonic vibrator (44), and the damper (48).

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