KR20160111749A - Washing device in succession of empty cartridge - Google Patents

Abstract

The present invention relates to a vacuum cleaner comprising a supply device (101) for inputting a large amount of a casing having foreign matter and scratches into a vibration hopper (102), a vibration hopper (102) for putting the casing A cleaning device 103 for sequentially cleaning and shining and rinsing the cartridges and discharging them to the drying device 104; a drying device (not shown) for drying and discharging the rinsed, And a discharging device 105 for completely discharging the cartridge to a specific position, wherein the supplying device 101 includes a conveying conveyor 101c via a lower feeding part 101a and an upper feeding part 101b The present invention relates to a continuous cleaning device for a cartridge, which maximizes the efficiency of cleaning and polishing a cartridge, and automates the entire process, thereby performing a larger amount of work in a short time, city And there is one characteristic to have a greater competitiveness as much as possible to prevent waste of money.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention makes it possible to carry out various processes which have been carried out for the cleaning and polishing of the casing, that is, the supplying, cleaning, polishing, rinsing, drying and discharging of the casing, And more particularly, to a continuous flushing apparatus for a flue gas scrubbing apparatus for maximizing efficiency.

Generally, a cartridge made of military goods has a large amount of foreign matter (scratches, oil, etc.) and scratches in its manufacturing process due to the manufacture of a mold or a casting method. Such foreign matter and scratches are the background of the present invention, And polishing processes.

More specifically, in the case of a cartridge having a foreign substance and a scratch, a conventional apparatus for cleaning and shining a surface of a cartridge is provided with a shaking table having a storage space of a predetermined size and a vibration device for transmitting and generating vibration to the shaking table. However,

In the case of the upper cashew cleaning device, the structure for inducing the friction of the simple casings is problematic in that the cleaning and glossing efficiency of the casing is lowered and the operation time is long.

That is, in the conventional casings, a large amount of casings are stored together with a rust preventive agent, sulfuric acid, soapy water, hot water (hereinafter abbreviated as "wash number") in the shaking table, and then friction between the casings is induced by constant vibration, At this time, the friction induction method between the casings by the vibration causes the flow and shudder of the casings to be weakly generated, so that the frictional force between the casings is lowered and the cleaning and lustering of the casings can not be effectively performed in a short time.

In addition, in the conventional cartridge cleaning device, there is a problem that the cartridge is adjacent to the surface of the shaking table and the cartridge is not shaky and agitated to a great extent, resulting in poor cleaning and polishing.

On the other hand, another problem with the conventional cartridge cleaning device is that it is limited to the simple cartridge cleaning operation.

In detail, in order to clean and shine the casing, it is preferable to sequentially perform the following processes in order: a casing flushing process, a washing water input process, a casing cleaning and polishing process, a casing rinse process, All of the processes except the cleaning and polishing process were carried out by a simple operation method (rinsing and natural drying method) by the operator, and the worker's labor and time loss were very serious. Especially, And it had problems that could cause safety accidents and work environment.

Of course, the above problems have led to the problems of efficiency and productivity of cleaning and polishing of the shell.

Korean Patent Application No. 2010-0123535

The present invention has been made in order to solve the above-mentioned conventional problems. In particular, the present invention relates to a process for cleaning and polishing a casing, a process for supplying a cleaning water, a process for cleaning and cleaning the casing, a process for cleaning the casing, The present invention also provides a cleaning device that enables mass productivity while minimizing manpower and waste of time, by increasing the surface cleaning and gloss efficiency of the casing, It was invented with a focus on the task.

According to another aspect of the present invention, there is provided an apparatus for continuously cleaning a shell, comprising: a supply device for supplying a shell to a vibrating hopper; a vibration hopper for putting the supplied shell into a proper amount by a cleaning device; A drying device for drying the charged shell for a predetermined period of time and discharging the discharged shell to a discharge device, and a discharge device for discharging the discharged shell to a specific place And a discharging device for completely discharging the toner.

The present invention has the advantage that the above-mentioned means maximizes the efficiency of washing and polishing the surface of the shell surface to obtain a good quality shell, and automates many processes required for cleaning and polishing the shell, thereby avoiding waste of manpower, time and cost So that it is possible to perform a large amount of work in a short time.

FIG. 1 is a diagram illustrating an entire process of the present invention,
FIG. 2 is a schematic view showing a partial cross-sectional side view of one side of a cleaning apparatus according to the present invention,
FIGS. 3 and 4 are diagrams illustrating an operation state of the cleaning apparatus according to another embodiment of the present invention,
FIGS. 5 and 6 are enlarged views of a partly enlarged view showing the conveying state of the casing according to the forward rotation and the reverse rotation of the rotating drum shown in the present invention,
Fig. 7 is a partial enlarged view showing the agitation of the turning table drum and the inclination guide in a predetermined angle according to the present invention,
8 and 9 are partially enlarged cross-sectional views showing the operation state of the warp induction band by being broken downward from the upper part of one side of the rotating drum,
10 is a partial cross-sectional view showing a drying apparatus proposed in the present invention.

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

In the following description, well-known technologies which are deemed to blur the gist of the present invention are omitted or briefly described, and the same names are unified with one code.

As shown in FIG. 1, the present invention includes a supply device 101, a vibration hopper 102, a cleaning device 103, a drying device The apparatus 101 includes a conveying conveyor 101c via an upper feeding part 101b from a lower feeding part 101a, and a conveying device 101b ).

The vibrating hopper 102 includes a reservoir 102a for storing a certain amount of the casing, a charging portion 102b communicating with the lower portion of the reservoir 102a, and a vibrating device 102c for vibrating the charging portion 102b .

The vibration hopper 102 is disposed in the same line as the upper supply portion 101b of the supply device 101 so as to supply and store the cartridge.

The cleaning device 103 is composed of a washing tank 1, a rotating drum 2 and a rotating means 3, and the washing tank 1 has a water vapor outlet 11, And has an inlet (12) and a washing water outlet (13) at a lower side.

Specifically, the washing tub 1 is cylindrical as shown in FIGS. 2 and 3, and an interior material made of styrofoam, hot water, or nonwoven fabric is formed in the outer wall thereof to achieve the object of keeping the inside of the washing tub 1 warm.

In addition, the washing tub 1 is configured to have a communication structure capable of being opened and closed at an upper portion or a water outlet 11 having an air blower structure so that water vapor in the washing tub 1 can be easily discharged.

The washing tank 1 is provided with a washing water inlet 12 for connecting washing water such as rust preventive agent, sulfuric acid, soapy water and hot water to the washing water feeding device (not shown) So that it can be easily carried out.

In addition, the washing tub 1 constitutes a washing water outlet 13 for allowing the washing water flowing into the washing tub 1 to be discharged to the outside from the lower side.

The washing tank 1 is connected to the rinsing water supply device by installing a rinsing pipe 15 having a plurality of spray nozzles 14 on the upper side thereof.

The rotating drum 2 is installed in the washing tank 1 while being installed on both sides of the washing tub 1 so as to pass through both sides of the washing tub 1 and connected to the rotating means 3, (5).

Specifically, the circumferential view drum 2 has a cylindrical shape as shown in FIG. 5 attached thereto and a circumference connecting the both side circular plates 21 and 21 '.

The turning drum 2 is formed on both sides (both side plates 21 and 21 ') of the throwing drum 4 and the discharging drum 5 so as to have a predetermined length and penetrate and extend to both sides of the washing tank 1 , And at the same time, the input drum (4) and the discharge drum (5) are connected to the rotating means (3).

In addition, the rotating drum 2 has a plurality of spiral stirring rods 22 at its inner periphery.

The toaster drum 2 constitutes a conveyance drum 6 at one side thereof to communicate the circulation drum 2 and the discharge drum 5 with each other, An inclined plate 62 provided at one side of the discharge drum 5 so as to be inclined in one direction from the inlet passage 61 and an inclined plate 62 provided at the other side of the discharge drum 5, And a discharge passage 52 formed at one outer circumferential edge of the discharge drum 5 at a swash plate 62 formed on one circular plate 21 'of the circumferential view drum 2, And a helical transfer tube 64 for providing a transfer tube 63.

The agitating drum 2 has a plurality of stirrers 22 formed at its inner periphery and one end of which is adjacent to the inlet passage 61 of the conveying drum 6, And the inclined guide 23 is formed in a triangular-pyramidal shape.

In addition, the circumferential view drum 2 constitutes a conveying screw 53 at the periphery of the one side discharge drum 5.

The rotating means 3 supports the both sides of the supply drum 4 and the discharge drum 5 of the circumferential view drum 2 at a predetermined height so that the circumferential view drum 2 is rotated in the washing tub 1, So as to be floated and rotated inside.

2 and 3, the rotating means 3 includes a rotating wheel 34 and a rotating wheel 34 constituting the outer circumferences of both the supply drum 4 and the discharge drum 5 of the circumferential view drum 2, A driving wheel 51 constituting the outer periphery of the discharge drum 5 at a predetermined height on both sides of the washing tub 1 and a supply drum 4 and discharge drums 5 And a drive motor 31 connected to the drive wheel 51 of the discharge drum 5 by a drive chain 31 to rotate the drive wheels 31. [ 33).

Here, the plurality of rotating rollers 32 are preferably positioned at a predetermined height by a lower base mount (not shown) and rotated by a bearing (not shown).

The drying apparatus 104 includes a drying tank 104 'having the same configuration as that of the cleaning apparatus 103 and a rotary drum 104 having a feed drum 4, a feed drum 6, and a discharge drum 5, And a rotating means (3) for lifting and rotating the turning drum (2); a drum (2)

A water vapor outlet 11 and a washing water outlet 13 are formed on the drying tank 104 'and a plurality of spray nozzles 71 are arranged on the center line of the circulation drum 2 and the discharge drum 5, respectively. And one side of the discharge drum 5 of the cleaning device 103 is inserted into one side of the charging drum 4 of the rotating drum 2, And is formed by forming a one-directionally inclined slope 104a at the periphery.

The drying tube 7 is connected to the outer dryer 73 and is fixed at a predetermined height by a connection with the dryer 73. The drying tube 7 is fixed on the inner center line of the rotary drum 2 and the discharge drum 5 So that rotational interference between the circumferential view drum (2) and the discharge drum (5) can be avoided.

And the discharging device 105 is constituted by a belt conveyor 105a for completely discharging the discharged cartridges discharged through the drying device 104 to a specific position.

Hereinafter, a specific configuration of the present invention will be described, and an exemplary embodiment of the present invention will be described below.

The continuous cleaning device for a continuous cartridge case according to the present invention is characterized in that the continuous cleaning device for the casing is provided with an automatic cleaning device for automatically carrying out the casing cleaning process, the cleaning water introducing process, the casing cleaning and polishing process, the casing rinsing process, The drying process is repeatedly carried out at a constant cycle to provide continuity.

More specifically,

First, the shell-and-shell supplying process is carried out as shown in FIG. 1 in a process of putting a shell, which is produced by a mold or casting method and has foreign matter and scratches, into a cleaning device 103 through a supply device 101 and a vibration hopper 102 .

When the worker firstly loads a large amount of the shells into the input portion 101a of the feeder 101, the feed conveyor 101c feeds the shell in the input portion 101a through the upper feeder 101b to the vibration hopper 102 Secondary input is carried out. (For reference, the conveying conveyor 101c has a plurality of conveying plates (not shown) protruded at regular intervals from the outer periphery of the conveying conveyor 101c.

Then, the cartridges charged into the vibration hopper 102 are stored in the reservoir 102a of the vibrating hopper 102 through the lower charging portion 102b, And the vibrating device 102c in which the input portion 102b of the vibration hopper 102 is connected to and controlled by the microcomputer is charged with an appropriate amount of the shell by a predetermined vibration.

Next, the washing water introducing step is carried out such that rinsing water, such as rust preventive agent, sulfuric acid, soapy water, hot water, etc., required for the cleaning of the cartridge case is poured into the washing apparatus 103 And the mixture is charged at an appropriate ratio, quantity and temperature.

Washing water such as rust preventive agent, yellowish, soapy water or hot water is supplied from the washing water supply device (not shown) through the washing water inlet port 12 formed at the upper part of the washing tub 1 to the inside of the washing tub 1 at a proper level To a certain extent).

Next, the cartridge washing and polishing process is performed by rotating the rotating drum (2) of the washing apparatus (103) forward (a) when the washing water input step is completed, Washing and polishing are performed as shown in Fig.

The turning drum 2 having the large amount of the casing is constituted of the input drum 4 and the discharge drum 5 on both sides and the rotating drum 4 and the discharge drum 5, 3 by a plurality of rotating rollers 32 of the washing tub 1 and has a floating state inside the washing tub 1.

The driving wheel 51 constituted by the one side discharge drum 5 is connected to the driving motor 33 of the rotating means 3 and the driving chain 31 so that the inside of the washing tub 1 And is floated and rotated.

Therefore, the spinning drum 2 of the present invention simultaneously rotates and stirs the inner shells while rotating forward (a) by the upper rotating means 3, thereby inducing friction between the shells.

Here, the continuous friction between the casings, as described above, increases the efficiency of washing and polishing of the surface of the shell, as well as the cleaning power of the washing water stored in the washing tank 1, so that a large amount of shell washing and gloss can be achieved in a short time.

In the meantime, according to the present invention, since the drum 2 is made of a mesh, the grid structure of the mesh provides a friction force with the shell while increasing the efficiency of rotation and agitation of the shell, This is done by multiple methods, such as by washing water, by friction between casings, and by friction between the lattice structure of the drum and the shell.

The present invention is characterized in that a plurality of spiral stirring bars 22 are formed at the periphery of the rotating drum 2 and the stir bar 22 is rotated in the normal rotation a of the rotating drum 2 A large number of cartridges are conveyed in the one direction a '(the direction of the loading drum) while being spirally rotated so as to induce an even friction, and a plurality of agitating rollers rotating at the same time are moved up to a certain height So as to induce strong friction between the shells due to the large fall, thereby maximizing the efficiency of washing and polishing of the shell due to the friction.

Next, when the cartridge washing and polishing process is finished for a predetermined time, the cartridge washing rinsing process is performed by rinsing the cartridge with the rinsing water into the washing tank 1 of the washing device 103 and simultaneously drying the rinsed cartridge And the process is carried out as shown in Fig.

When the cartridge is cleaned and polished as described above, the washing water in the washing tub 1 is completely discharged through the washing water outlet 13 formed at the lower side of the washing tub 1.

In addition, the rinse water supplied from the rinse water supply device is uniformly sprayed by a certain amount through the rinse pipe (15) having the plurality of spray nozzles (14) formed at the upper part simultaneously with the discharge of the rinse water, The washing water and the foreign substances adsorbed in the washing tub 1 are cleaned.

At this time, the circumferential view drum 2 maintains the rotating action in the cleaning and polishing process of the upper cartridge.

The rinse-off process is carried out for the purpose of cleanly removing washing water and foreign matters from the washed and polished cartridge, and for cleaning the inside of the washing apparatus for subsequent continuous operation.

When the rinsing of the cartridge in the washing tub 1 is completed, a large amount of the rinsed cartridge is flowed into the one side discharge drum 5 by the reverse rotation (b) of the rotating drum 2, And discharges it to the apparatus 104.

In detail, a plurality of spiral agitation conveying belts 22 are constituted by the inner periphery of the circumferential view drum 2, and the spiral agitation conveying belt 22 is constituted by a plurality of spiral agitation conveying belts 22 in accordance with the rotational direction of the circumferential view drum 2 And serves to transfer the inner shells in a specific direction while rotating the spiral.

3, when the rotating drum 2 is rotated forward (a), a large number of agitating transfer rods 22 are moved in the direction of one side a '(in the loading drum direction) When the rotating drum 2 rotates counterclockwise as shown in FIG. 4, a large number of agitating transfer rods 22 move a large amount of the cartridge in the other direction b '(discharging) Drum direction).

Therefore, when the rinsing process is completed, the rotating drum 2 rotated forward (a) is rotated counterclockwise (b) so that the transfer belt 22 is continuously moved in the other direction b ' And at the same time the discharged skins transferred by the transfer are transferred to the spiral conveying path 64 constituting the conveying drum 6 through the inlet passage 61 formed in the one circular plate 21 ' To be introduced into and guided into the cartridge conveying passage 63 inside.

In addition, the spiral conveying pipe 64 of the conveying drum 6, which rotates in the same direction as the turning drum 2 at the same time as the above-mentioned action, causes a large amount of the chutes to move along the inner chute conveying passage 63, (52) of the discharge chamber (5) and continuously supplied into the discharge drum (5).

5, the conveying drum 6 configured in the circumferential perspective drum 2 of the present invention includes an inlet passage 61 formed in one circular plate 21 'of the circumferential view drum 2, A swash plate 62 having an inclination angle in one direction at one end of the rotary drum 61 and an input passage 52 formed at one outer circumferential edge of the discharge drum 5, And a spiral conveying pipe 64 for providing a spiral direction conveying passage 63 in the swash plate 62 to the input passage 52 formed at the outer circumferential edge of one side of the discharge drum 5. [ Therefore, by the stomach action caused by the reverse rotation (b) of the circumferential view drum (2), along the inflow passage (61) formed in the one circular plate (21 ') of the circumferential view drum (2) The transfer drum 6 which rotates the charged shells in the same direction as the circumferential view drum 2 is guided to the helical transfer tube 64 by the helical transfer tube 64, Through the discharge passage 52 of the discharge drum 5 to be introduced into the discharge drum 52. [

The swash plate 62 connected to the spiral conveying pipe 64 is inclined to the inlet passage 61 formed in the one circular plate 21 'of the circumferential view drum 2, 64 of the conveying drum 6 when the conveying drum 6 is rotated forward (a) by a predetermined inclination angle in the same direction as the constituting direction of the conveying drum 6 So that a small amount of unintentional introduced casings can be poured into the outlook prospecting drum 2 at the inclination angle (see Figs. 6 and 9)

The present invention is characterized in that a plurality of stirrers formed on the periphery of the circumferential view drum 2 is provided with one stirrer 22 'having an end of the transferring belt 22 adjacent to the inlet passage 61 of the conveying drum 6, A plurality of agitating slopes 23b are formed at the ends of the base 22 'so that when a plurality of agitating tumblers 22 carry the cartridge in the other direction b' As shown in FIG. 8 (a part of the upper inclined guide 23 is broken down from the upper part of one side of the circumference of the drum) to the inlet passage 61 side of the conveying drum 6 to be concentratedly introduced .

The present invention is characterized in that a conveyance screw 53 is formed on the periphery of one side of the discharge drum 5 of the circumferential view drum 2 and a large amount of the cartridge put into the discharge drum 5 by the action of the above is passed through the conveyance screw 53 ) To the one-side discharge device (105).

The rotating drum 2, the feed drum 6 and the discharge drum 5 are integrally formed integrally and rotate in the same manner, and the discharge drum 5, which is described above, When the inlet passage 61 formed in the one circular plate 21 'is rotated to the lower side of the rotating drum 2, When the drum 2 is rotated to the lower side of the drum 2, the discharge of the cartridge is intensively discharged into the discharge drum 5. (See FIGS. 5 and 6)

As a further reference, the spiraling conveyance passage 64 of the conveying drum 6 rotates counterclockwise (b) while sweeping the large amount of the discharged shells into the shell conveying passage 63 through the inlet passage 61, So that discharge is made to the charging passage 52 of the drum 5.

Next, the casket drying process is carried out as shown in Fig. 10 as a process for drying the casings put in the drying device 104 when the casings rinsing process is completed.

The drying device 104 has the same structure as that of the gastric cleaning device 103. That is, the drying device 104 includes the drying tank 104 ', the spinning drum 2, and the loading drum 4, the feeding drum 6, ) Are the same and their functions are the same.

The water vapor outlet 11 and the water wash water outlet 13 are formed on the upper and lower sides of the drying tank 104 ' A drying tube 7 having a plurality of spray nozzles 71 is formed on the center line and a discharge tube 4 is provided in the drying drum 104 of the drying tank 104 ' And the inclined surface 104a inclined in one direction to the peripheral edge of the input drum 4 is formed while one side of the drum 5 is inserted.

Therefore, when the rinsed cartridge is introduced into the spinning drum 2 of the drying tank 104 ', the drying device 104 is operated so that the hot dry air flows in through the spraying nozzle 71 of the drying pipe 7 At the same time, the forward rotation (a) of the circumferential view drum 2 is performed in the same operation as the operation of the cleaning device 103 so that the drying is performed by the stirring friction of the drying air and the cartridge.

Then, when the above-described drying of the cartridge is completed, the same action of the delivery drum 6 and the discharge drum 5 is carried out in the reverse rotation (b) of the circumferential view drum 2, which has been described above, ). ≪ / RTI >

Here, the drying device 104 has the same structure as the stomach washing device 103, and has the same action by the forward rotation (a) and the reverse rotation (b), and a detailed description thereof will be omitted.

Next, the casing discharging process is a process for completely discharging the dried casing to a specific position by using the belt conveyor 105a when the casing discharging process is completed, as shown in FIG.

The discharging device 105 includes a belt conveyor 105a for completely discharging the dried and discharged cartridge to a specific position such as a storage space or a packaging box.

The present invention having the above-described constitution and function can automate a large number of operations continuously in a short time by automating a large number of processes for washing and polishing a casing, thereby maximizing the efficiency of washing and polishing the casing Thereby making it possible to further enhance economic value.

Finally, while the present invention has been shown and described with respect to a preferred embodiment for illustrating the principles of the present invention, it is to be understood that the present invention is not limited to the precise construction and acts as illustrated and described. That is, those skilled in the art will appreciate that many modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. Accordingly, all such appropriate changes and modifications and equivalents may be resorted to, falling within the scope of the invention.

101: Feeder 101a: Feeder
101b: Feeder 101c: Feed conveyor
102: Vibration hopper 102a: Reservoir
102b: input portion 102c: vibration device
103: Cleaning device 104: Drying device
104 ': Drying tank 104a: Inclined surface
105: Discharging device 105a: Belt conveyor
1: Washing tank 11: Water vapor outlet
12: Wash water inlet 13: Wash water outlet
14: jet nozzle 15: rinse tube
2: Drums 21, 21 'for the view of the circumference:
22, 22 ': stirring rod 23:
3: rotating means 31: drive chain
32: rotating roller 33: driving motor
34: rotating wheel 4: input drum
5: discharge drum 51: drive wheel
52: input passage 53: screw
6: Feed drum 61:
62: swash plate 63:
64: Spiral conveying pipe 7: Drying pipe
71: injection nozzle 72: through hole
73: dryer a: forward rotation
a ': one direction b: reverse rotation
b ': the other direction

Claims (10)

A vibrating hopper 102 for putting the above-mentioned casing into a proper amount cleaning device 103, a cleaning device 102 for cleaning and cleaning the casing 109, A drying device 104 for drying and discharging the rinsed and dried rubbed rubbish to the rubbing device 105, and a rinsing device 104 for rinsing the rubbed rubbing device, And a discharging device 105 for completely discharging the cartridge to a specific position, wherein the supplying device 101 is constituted by a conveying conveyor 101c via a lower feeding part 101a and an upper feeding part 101b The vibrating hopper 102 includes a reservoir 102a for storing a certain amount of a shell and a charging unit 102b communicating with a lower portion of the reservoir 102a and a vibrator 102c for vibrating the charging unit 102b. Wherein the cleaning unit is configured to continuously clean the cartridge.
The method according to claim 1,
The washing apparatus 103 includes a washing tub 1 having a water vapor outlet 11 and a washing water inlet 12 at an upper portion thereof and a washing water outlet 13 at a lower side thereof; A rotating means 3 for rotating the rotating drum 2 in the washing tank 1 and rotating the rotating drum 3;
And a discharge drum 3 and a discharge drum 4 which are connected to the rotary means 3 through both sides of the washing tub 1 and constitute a discharge drum 4 on both sides of the circumferential view drum 2, Wherein the driving wheel (51) is integrally formed and connected to the rotating means (3).
The method according to claim 1,
The drying apparatus 104 includes a drying tank 104 'having the same structure as that of the cleaning apparatus 103 and a toaster drum 104 having a feed drum 4, a feed drum 6 and a discharge drum 5 at both sides thereof 2), rotating means (3) for lifting and rotating the turning drum (2)
A water vapor outlet 11 and a washing water outlet 13 are formed on the drying tank 104 'and a plurality of spray nozzles 71 are arranged on the center line of the circulation drum 2 and the discharge drum 5, respectively. And one side of the discharge drum 5 of the cleaning device 103 is inserted into one side of the charging drum 4 of the rotating drum 2, And the inclined surface (104a) inclined in one direction as the peripheral edge.
The method according to claim 2 or 3,
The rotating means 3 is provided with a plurality of rotating drums 2 for supporting the discharge drums 4 and the charging drums 5 at both sides of the rotating drum 2 at a predetermined height so as to rotate the rotating drum 2 at a predetermined height And a drive motor (33) connected to the drive wheel (51) of the discharge drum (5) by a drive chain (31).
3. The method of claim 2,
Further comprising a washing tank (1) and a rinsing pipe (15) having a plurality of spray nozzles (14) inside the washing tank (1).
The method according to claim 2 or 3,
Characterized in that a plurality of spiral agitating protrusions (22) protrude from the periphery of the rotating drum (2).
The method according to claim 2 or 3,
And a delivery drum 6 is formed at one side of the circumferential view drum 2 so that the circumferential view drum 2 and the delivery drum 5 are communicated with each other, An inclined plate 62 provided at an inclination angle in one direction in the inflow passage 61 and an inflow passage 52 formed in the outer circumferential edge of one side of the discharge drum 5 And a spiral-direction winding cartridge transport path 63 is formed by a swash plate 62 formed on one circular plate 21 'of the circumferential view drum 2 and a charging path 52 formed at one outer circumferential edge of the discharge drum 5, And a spiral conveying pipe (64) for providing a spiral conveying pipe (64).
The method according to claim 2 or 3,
A plurality of stirring bars 22 are formed at the periphery of the rotating drum 2 and a plurality of agitation stir bars are disposed at the ends of the barrel 22 ' Is protruded from the outer peripheral surface of the cartridge body.
The method according to claim 2 or 3,
And a delivery screw (53) is further provided at the periphery of the discharge drum (5).
The method according to claim 2 or 3,
Characterized in that the rotating drum (2) is constituted by a cylindrical mesh body.

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