KR20180127023A - Double twin screw chip removing machine and removing method of the same - Google Patents

Abstract

One embodiment of the present invention relates to a double twin-screw chip discharge apparatus. According to one embodiment of the present invention, first and second screws comprise: a cylindrical shaft; and a screw rib formed on the outer circumference of the shaft in the longitudinal direction of the shaft to be spaced apart from each other at a predetermined interval. The screw rib has a rectangular parallelepiped vertically formed with respect to the cylindrical shape to transfer a cut chip fallen from an upper part in accordance with rotation of the first and second screws to the front surface of a housing. Accordingly, as the first and second screws are rotated in an opposite direction to each other, the cut chip fallen from the upper part is easily discharged to a lower side by rotation.

Description

TECHNICAL FIELD [0001] The present invention relates to a double twin screw chip discharging device and a chip discharging method.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double twin screw chip discharging apparatus and a discharging method thereof, and more particularly, to a double twin screw chip discharging apparatus and a discharging method thereof, The present invention relates to a double twin screw chip discharging device and its discharging method which can be automatically controlled remotely without manual operation.

Generally, according to the chip discharging device of Japanese Patent Application Laid-Open No. 10-1185177, in a conventional machine tool, chips generated in the process of processing a workpiece are collected in a receptacle of a lower portion of the machine tool, And a conveyor or the like installed in itself is automatically collected through the discharge means.

As a related art, according to a chip discharging device of Patent Publication No. 10-1175177, there is provided a case in which a screw shaft is installed inside and a transfer pipe for transferring chips is installed, and a discharge pipe connected to the transfer pipe, A motor is installed outside the case, a rotating shaft connected to the motor is installed in the case, a first rotating wheel connected to the rotating shaft is installed outside the case at the rear of the case, And a second chain wheel connected to the screw shaft is installed on the outer side of the rear of the case, so that the second chain wheel is connected to the discharge pipe, The rotational force of the motor is transmitted to the rotating shaft, the first chain wheel, the chain, the second chain wheel and the screw shaft, And the upper part is opened so that the chip or the cutting oil can not be inserted into the casing. In this case, Wherein a partition is provided between a portion where the upper cover is formed and a portion where the upper portion is opened and a hole is drilled in the partition to allow the rotation shaft and the transfer pipe to pass therethrough, The shaft is formed to have a smaller diameter toward the front portion so that a space for collecting the chips is formed to facilitate compression of the chip. A square screw is formed on the outer periphery of the screw shaft. The pitch of the square screw becomes wider toward the front portion, In addition, since the thickness of the square screw is gradually increased, Prevention and luggage, it is described that the chip discharge device, comprising a step of quickly transferring the chip.

' 형상과 같이 가운데 스크류가 설치되는 설치홈이 형성되고, 양측면은 상방향으로 경사지게 절곡되어 경사면이 형성된 양날개 형이어서, 칩이나 절삭유가 용이하게 수집되어 이송배출되는 것이며, 상기 스크류의 스크류 샤프트외주면에 나선형으로 형성된 배출날개는 사각나사 형상이며, 상기 칩수집판 후방 하부면에는 다수개의 절삭유 배출공이 설치되어 절삭유만 밑으로 흘러내리는 필터링 역할을 하게 되며, 절삭유는 저유조로 수거되어 재사용이 가능토록 하며, 또한 케이스 내부 전방에는 칩차단판이 설치되되, 상기 칩차단판은 역삼각형 형상으로 하변은 칩수집판의 양날개형 경사면과 밀착되게 상방향으로 경사지게 절곡되고, 중앙하부에는 스크류가 통과하게 구멍이 형성되는 것으로, 상기 칩차단판에 의하여 칩이 전방으로 넘어오는 것을 방지하게 되며, 또한 케이스 내부 후방에는 상기 제1,2 체인휠을 보호하는 케이스 커버를 일부 설치하며, 또한 케이스 내부 전방 일부 구간에는 칩차단판에 일단이 밀착되며, 스크류 상부에 위치하는 스크류 커버를 설치하여 칩이 칩차단판 전방으로 넘어오는 것을 방지할 수 있는 것을 특징으로 하는 스크류식 칩 배출장치라고 기재되어 있다. As another conventional technique, according to the screw type chip discharging device of Patent Publication No. 10-1191631, a case in which a screw for transferring a chip is installed, and a discharge pipe connected to the screw and discharging the chip are installed on the front face of the case And a first chain wheel connected to the rotation shaft is sequentially installed on the outside of the rear side of the case. The first chain wheel is connected to the rotation shaft, A rotary shaft connected to the motor is installed inside the case, a first chain wheel connected to the rotary shaft is sequentially installed outside the rear of the case, A discharge pipe is provided outside the front surface together with the motor, And a second chain wheel connected to the screw shaft of the screw is sequentially installed outside the rear surface of the case so that the rotational force of the motor is transmitted to the rotating shaft, 2 chain wheel and a discharge wing are transferred to a screw shaft formed on an outer circumferential surface to discharge a chip to a discharge pipe connected to the case, the case being transferred to a screw shaft formed in a section so as to discharge a chip to a discharge pipe connected to the case Wherein the case has a rectangular cross section, and a chip collecting pipe is provided at an upper portion of the case,

Like shape, and both side surfaces are bent in an upward direction so as to be inclined to form a wing, so that chips and cutting oil are easily collected and transported and discharged, and the screw shaft outer peripheral surface And a plurality of coolant discharge holes are provided on the lower rear surface of the chip collecting plate so as to serve as a filtering function to cool down only the coolant. The coolant is collected in the coolant tank to be reused And the chip blocking plate is formed in an inverted triangle shape. The lower side of the chip blocking plate is bent in an upward direction so as to be in close contact with the two winged inclined surfaces of the chip collecting plate. And the chips are prevented from falling forward by the chip blocking plate A part of the case cover for protecting the first and second chain wheels is installed at a rear portion of the case, and one end of the case cover is in close contact with a chip blocking plate at a predetermined portion in front of the inside of the case, So that the chip can be prevented from falling toward the front of the chip barrier plate.

However, the above-described chip discharging apparatuses are disadvantageous in that work efficiency is lowered because fine chips are not filtered and discharged together with the cutting oil, and thus the discharge ports through which the cutting oil is discharged are blocked by fine cutting chips.

It is an object of the present invention to solve the above-mentioned problems by providing a chip guide hopper of a rectangular taper shape for guiding a chip to a place where a lot of chips are generated and accumulated in a machining process such as a lathe or a milling process, In case of installing only one screw by installing first and second screws, it is possible to move a larger amount of chips, and both screws rotate in opposite directions to push the chip inward, thereby improving the chip moving effect To be able to provide a double twin screw chip ejection device.

It is a further object of the present invention to provide a system for remotely monitoring and controlling the degree to which chips are piled up in a space where chips are piled up and delayed in discharging the chips, And to provide a double twin screw chip discharging method capable of ensuring continuity of chip discharging operation.

According to an aspect of the present invention, there is provided a double twin screw chip discharging apparatus comprising: a housing having an upper portion opened and a space portion formed therein; A cylindrical first screw which is seated inside the housing and which is rotated by the driving means so that a screw rib for discharging the chip is uniformly wound; A cylindrical second screw having a threaded rib which is guided and guided by the first screw and guides and discharges the threaded chip; And a second screw provided on a front surface of the housing and formed on a side surface of the first screw and rotated by a counterclockwise rotation when the first screw rotates clockwise, The first and second screws are formed in a single chip reservoir, and the cutting oil and the cutting chips are separated and discharged. The housing having the first and second screws is formed in a rectangular parallelepiped shape having an upper portion opened and a space portion formed therein, The guide plate is slid downward toward the center of the guide plate. The guide plate is formed with a flat concave portion in the longitudinal direction of the guide plate so that the screw is positioned at the center. 1 screw and a second screw, the first and second screws being connected to the motor to rotate The first and second screws transfer the cutting chips inserted into the concave portion forward. A first reservoir is formed on the inner front surface of the housing. The first reservoir communicates with the recess of the guide plate The chip is discharged to the first reservoir by rotational movement of the first and second screws, and a first reservoir is provided outside the front surface of the housing, the first reservoir being in communication with the chip discharge guide, The first and second screws allow the cutting chips, which have been moved forward by rotational movement in the opposite direction of the first and second screws, to be transferred to the first storage via the chip discharge guide. A double twin screw cutting chip discharging device formed between first and second screws, wherein the first and second screws have a cylindrical shaft and a shaft Wherein the screw rib is formed so that a rectangular parallelepiped is perpendicular to the cylindrical axis so that cutting chips falling from the upper portion along the rotation of the first and second screws are inserted into the housing, The first and second screws rotate in opposite directions so that the cutting chips falling from the upper portion can be easily discharged downward by the rotational motion, The screw ribs protruded to be spaced apart from each other by a predetermined distance along the longitudinal direction of the shaft may have the same pitch.

According to an embodiment of the present invention, the first reservoir may be displayed in a blue color or a red color depending on the state of the chips stored in the first reservoir, and when the red color is turned on, To stop the cutting chip from being transferred to the first reservoir through the chip discharge guide, and to discharge the first reservoir from the housing and discharge it to perform a continuous chip discharging operation.

According to an embodiment of the present invention, there is provided a method of cutting a chip using a double twin screw, comprising: a housing having an upper portion opened and a space portion formed therein; A cylindrical first screw which is seated inside the housing and which is rotated by the driving means so that a screw rib for discharging the chip is uniformly wound; A cylindrical second screw having a threaded rib which is guided and guided by the first screw and guides and discharges the threaded chip; And a second screw provided on a front surface of the housing and formed on a side surface of the first screw and rotated by a counterclockwise rotation when the first screw rotates clockwise, A double twin screw chip discharging method for separating and discharging a cutting oil and a cutting chip, the method comprising: a step (s10) of dropping a cutting chip into a recess of a guide plate of the housing; A step (s20) of moving the separated cutting chips to the rear side of the concave portion of the guide plate through a screw rib provided in the first and second screws; Guiding the chip moved rearward of the concave portion of the guide plate to the first storage through a chip discharge guide having a rectangular taper shape (s30); And stopping the rotation of the first and second screws through a notification signal when the chips are piled and the chip is filled in the first reservoir (s40).

In one embodiment of the present invention, a spur gear is formed on a rear portion of the first screw and the second screw so that the speed of the first screw and the second screw can be adjusted, And the second screw is wound with a threaded rib to advance the cutting chip forward, and the forwardly-advancing cutting chip is moved to the first storage via the chip discharge guide, and the rear end of the first and second screws moves the cutting chip A cutting chip including a stopper rib which can be cut can be cut. A motor, a chain gear for interlocking the first screw and the second screw can be formed on the side surface of the housing.

According to the double twin screw cutting chip discharging apparatus of the present invention as described above, even in the case of a machine automatically machining in a lathe or a milling machine, a large amount of cutting chips generated in the process of cutting chips are continuously processed A chip guide hopper having a rectangular taper shape for guiding the chip to a place where chips are generated due to a large amount of chips is formed so that the space for accumulating the chips is formed to be wide so that the chip can be easily squeezed, It is possible to obtain an effect that the flow of the cutting oil is not clogged and the effect of preventing the leakage of the coolant oil can be maximized.

1 is a plan view showing a housing of a double twin screw chip and its installation state according to an embodiment of the present invention.
2 is a perspective view showing a configuration of a screw 30 used in the double twin screw chip discharging apparatus 100 according to the present invention.
3 is a front view showing a housing of a double twin screw chip according to an embodiment of the present invention and its installed state.
4 is a right side view showing a housing of a double twin screw chip according to an embodiment of the present invention and its installation state.
5 is a cross-sectional view of a guiding blade in accordance with an embodiment of the present invention.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

1 is a plan view showing a housing of a double twin screw chip according to an embodiment of the present invention and its installation state according to an embodiment of the present invention.

Referring to FIG. 1, a double twin screw chip discharging apparatus 100 according to the present invention includes a housing 200 having a top opened and a space formed therein; A cylindrical first screw (30) which is seated inside the housing (200) and which is rotated by a driving means to constantly wind a screw rib for discharging the cutting chip (50); A cylindrical second screw (40) having a threaded rib (50) which is guided by the first screw (30) and guides and discharges the cutting chip (50); A first screw 30 and a second screw 30 formed on a side surface of the first screw 30 and rotating counterclockwise when the first screw rotates in a clockwise direction, And a first chip reservoir 150 through which the cutting chips 50 transferred by the first and second screws 40 and 40 are discharged to separate and discharge the cutting oil and the cutting chips, Is formed in a rectangular parallelepiped shape in which an upper portion is opened and a space portion formed therein is formed, a guide plate (70) is coupled to the space portion, a cutting chip (50) is inserted into the guide plate (70) The plate 70 is formed to be inclined downwardly toward the center and a concave portion 60 having a planar shape in the longitudinal direction of the guide plate 70 is formed so that the first and second screws 30, (60) are provided with first screw (30), second The first and second screws 30 and 40 are connected to the motor 160 so that the first and second screws 30 and 40 are inserted into the concave portion 60, A first reservoir 150 is formed on the inner front surface of the housing 200 and the first reservoir 150 is connected to the recess 60 of the guide plate 70 The cutting chip 50 is discharged to the first reservoir 150 by the rotational motion of the first and second screws 30 and 40 and the first reservoir 150 is disposed outside the front surface of the housing 200. [ The first reservoir 150 is communicated with the chip discharge guide 120 and is moved forward by a rotational movement rotating in the opposite direction of the first and second screws 30 and 40 And the first and second screws 30 and 40 allow the cutting chips 50 to be transferred to the first reservoir 150 through the chip discharge guide 120, Wherein the first and second screws are formed between the first shaft and the second shaft and the first shaft and the second shaft are formed between the first shaft and the second shaft, And a threaded rib 34 formed at an outer periphery of the shaft 32 and spaced apart from the shaft 32 along a longitudinal direction of the shaft 32. The threaded rib 34 has a rectangular parallelepiped shape with respect to the cylindrical shaft 32 The first and second screws (30, 40) are vertically formed so as to transfer the cutting chips (50) falling from the upper part to the front part of the housing (200) 30, and 40 are rotated in opposite directions, the cutting chip 50, which is dropped from the upper portion, can be easily discharged downward by rotational movement. The shaft 32 is attached to the outer periphery of the shaft 32, Formed in such a manner as to be spaced at regular intervals along the longitudinal direction Ribs 34 may be in pitch is formed in the same manner.

The present invention relates to a double twin screw chip discharging device (100), comprising: a housing (100) having an upper portion opened and a space portion formed therein; a first screw (30) 2 screw 40 can be seated. And a first reservoir 150 through which the transferred chips 50 are discharged by the first and second screws 30 and 40 so that the cutting chips 50 can be separated from the cutting oil, .

2 is a perspective view showing a configuration of a screw 30 used in the double twin screw chip discharging apparatus 100 according to the present invention.

2, the screws 30 and 40 of the present invention supply a cutting chip 50 along the longitudinal direction to the outer peripheral edge of the shaft 32 and the shaft 32 to receive the cutting chip 50 And the threaded ribs 34 for transferring to the first reservoir 150 may include a constantly threaded cylindrical shaft 32. The shaft 32 is thus wound with the threaded rib 34 to prevent the cutting chips 50 from being discharged to the outside of the housing 200 according to the rotation of the first and second screws 30 and 40 And the first storage 150 are present. At this time, a lid (not numbered) may be formed in an area where the cutting chip 50 falls, to prevent the cutting chip 50 from splashing or turning back.

The first screw (30) and the second screw (40) rotate in opposite directions to each other so that the cutting chip (50) faces downward.

That is, assuming that the first screw 30 rotates in the clockwise direction, the second screw 40 can rotate in the counterclockwise direction. The cutting chips 50 are formed in the space between the guide plates 70 formed between the two screws 30 and 40 through the pairs of screw 30 and 40, And can be seated in the concave portion 60. The screws 30 and 40 constituted in such a pair are capable of positioning the chips 50 in the recesses 60 through the threaded ribs 34 and moving them to the chip discharge guide 120, It can be facilitated. In addition, since the first and second screws 30 and 40 on both sides push the cutting tip 50 inward, the effect of moving the cutting tip 50 can be also excellent.

Although not shown, a stopper rib (not shown) is formed at the rear end of each of the screws 30 and 40 so as to cut the chip 50 so that cutting of chips discharged from a lathe having a long length or a milling machine It can be facilitated. The cutting of the cutting chips 50 can minimize the tendency of the cutting chips 50 to tangle with each other when the cutting chips 50 are transported through the first and second screws 30 and 40.

2, the threaded ribs 34 formed in the first and second screws 30 and 40 are formed in the form of a rectangular column so that the forward movement of the cutting chips can be optimized .

Also, as shown in FIG. 1, a spur gear 80 may be formed behind the first and second screws 30 and 40. The spur gear 80 is also referred to as a spur gear or a spur gear. Gears are mechanical components used for power transmission, which can be used to slow down and accelerate the rotation of the shaft by combining gears of different dimensions. Among spur gears, the spur gear 80, which is cut parallel to the rotation axis, is a typical type. The spur gear 80 is connected to the chain gear 300 through a driving shaft 130 connected to a motor 110 formed on a side surface of the housing 200 and includes a first screw 30, 2 screw 40 to rotate.

3 is a front view showing a housing of a double twin screw chip according to an embodiment of the present invention and its installed state.

Referring to FIG. 3, the first and second screws 30 and 40, which are moving means of the cutting chip 50 of the present invention, are connected to the chip discharge guide 120 through the elbow 105.

As described above, the chip discharge guide 120 has a tapered shape, and the chip 50 can be compressed by gravity to reduce the volume. Therefore, in a state where the volume of the chip to be discharged 50 is minimized, And may be configured to occupy a small volume when moving to the first reservoir 150 formed in the front portion of the housing 200.

The first reservoir 150 may display a blue light (not shown) or a red light (not shown) depending on the storage state of the chip 50 of the first reservoir 150, The operation of the first and second screws 30 and 40 is stopped to stop the transfer of the cutting chip 50 to the first storage 150 through the chip discharge guide 120, It is possible to carry out continuous cutting chip discharging operation.

The operation efficiency of the double twin screw chip discharging apparatus 100 according to the present invention can be maximized through the continuous operation of the cutting chips 50.

For this operation, a urethane wheel 320 may be installed at the lower end of the first reservoir 150. As described above, when it is determined that the first reservoir 150 is full, the first reservoir 150 is replaced with a second reservoir (not shown), and the discharge operation for the chip 50 is continuously performed .

4 is a right side view showing a housing of a double twin screw chip according to an embodiment of the present invention and its installation state.

4, a guide plate 70 is formed on the side surfaces of the first and second screws 30 and 40 provided in the housing 200 so as to concentrate the concave portion 60, which is the lower portion of the cutting chip 50, . ≪ / RTI >

5 is a cross-sectional view of a guiding blade in accordance with an embodiment of the present invention.

5, the first and second screws 30 and 40 disposed on the guide plate 70 are configured to be rotatable by the screw ribs 34 constituting the outer circumferential surface, and the recesses 60 It is possible to facilitate the discharge of the cutting chips 50 piled up on the chip.

Further, the first and second screws 30 and 40 cause the iron plate, which is the bottom surface of the concave portion 60, to be worn out to replace the entire bottom surface.

This causes a problem that the cost is high and the replacement time is long.

As a countermeasure thereto, the double twin screw chip discharging device 100 according to an embodiment of the present invention may further include a prefabricated steel plate 62.

As shown in FIG. 5, the prefabricated steel plate 62 is bent on the bottom surface of the concave portion 60 and is engaged with a coupling screw 60 to be replaced when the steel plate, which is the bottom surface of the concave portion 60, And may be coupled to the concave portion 60 through the through hole 63. The addition of the prefabricated steel plate 62 improves the availability of the double twin screw chip ejection apparatus 100 and improves the efficiency of the cutting operation of the chip 50.

A double twin screw chip discharging method according to an embodiment of the present invention includes a housing 200 having an upper portion opened and a space portion formed therein; A cylindrical first screw (30) which is seated inside the housing (200) and which is rotated by a driving means to constantly wind a screw rib for discharging the cutting chip (50); A cylindrical second screw (40) having a threaded rib (50) which is guided by the first screw (30) and guides and discharges the cutting chip (50); A first screw 30 and a second screw 30 formed on a side surface of the first screw 30 and rotating counterclockwise when the first screw rotates in a clockwise direction, The cutting chip 50 is mounted on the guide plate 70 of the housing 200. The cutting chip 50 is mounted on the guide plate 70 of the housing 200, The step (s10) of dropping the cutting chip 50 into the concave portion 60 of the step (c).

The separated chips 50 may be placed on the first and second screws 30 and 40 and then moved to the front surface where the chip discharge guide 120 is formed. (S20) of moving the guide plate 70 to the rear side of the concave portion 60 through the screw ribs provided on the first and second screws 30 and 40. [

The cutting chips 50 moved to the rear of the concave portion 60 of the guide plate 70 can be guided and transferred to the first storage 150 through the chip discharge guide 120 having a rectangular taper shape ).

When the cutting chips 50 are piled up and the chips 150 are filled in the first reservoir 150, the rotation of the first and second screws 30 and 40 can be stopped through a notification signal (s40).

Whether the cutting chip 50 is filled in the first reservoir 150 can be accomplished through various methods such as weight or signal projection. Such a process can be automated to replace the second storage with a continuous operation.

The motor 110 and the chain gear 300 for interlocking the first screw 30 and the second screw 40 are formed on the side surface of the housing 200 so that the operation can be smoothly performed.

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 present invention as defined by the following claims It can be understood that

30: first screw 32: shaft
34: screw rib 40: second screw
50: cutting chip 60: concave portion
62: Prefabricated iron plate 63: Coupling screw
70: guide plate 80: spur gear
100: Double twin screw chip discharging device 105: Elbow
110: motor
120: chip discharge guide 130: drive shaft
250: First store
200: housing 300: chain gear
320: urethane wheel

Claims (4)

A housing having an upper portion opened and a space portion formed therein;
A cylindrical first screw which is seated inside the housing and which is rotated by the driving means so that a screw rib for discharging the chip is uniformly wound;
A cylindrical second screw having a threaded rib which is guided and guided by the first screw and guides and discharges the threaded chip;
And a second screw provided on a front surface of the housing and formed on a side surface of the first screw and rotated by a counterclockwise rotation when the first screw rotates clockwise, A chip reservoir for separating and discharging cutting oil and cutting chips,
The housing provided with the first and second screws is formed in a rectangular parallelepiped shape having an upper portion opened and a space portion formed therein,
A guide plate is coupled to the space, cutting chips are inserted into the guide plate,
The guide plate is formed to be inclined downwardly toward the center, a concave portion having a planar shape in the longitudinal direction of the guide plate is formed in the center portion,
Wherein the first and second screws are installed in the recess,
The first and second screws are connected to the motor and rotated,
The first and second screws transfer the cutting chip inserted into the concave portion forward,
A first reservoir is formed on the inner front surface of the housing, and the first reservoir is communicated with the recess of the guide plate,
The cutting chips are discharged into the first reservoir by rotational movement of the first and second screws,
A first reservoir is provided outside the front surface of the housing, and the first reservoir is communicated with the chip discharge guide, so that the chip, which is moved forward by the rotational movement rotating in the opposite direction of the first and second screws, To be delivered to the first reservoir through the discharge guide,
Wherein the first and second screws are formed between the first and second screws so that the first and second screws can collect cutting chips,
Wherein the first and second screws are constituted by a cylindrical shaft and a screw rib formed at an outer periphery of the shaft at a predetermined interval along a longitudinal direction of the shaft, wherein the screw rib has a rectangular parallelepiped shape perpendicular to the cylindrical shaft, The first and second screws rotate in opposite directions to move the cutting chip from the upper portion to the front side of the housing, So that it can be easily discharged downward,
And screw ribs protruding from the outer circumference of the shaft at predetermined intervals along the longitudinal direction of the shaft are formed to have the same pitch. The method according to claim 1,
The first reservoir is displayed in a blue color or a red color depending on the state of the chips stored in the first reservoir. When the red color or the like is turned on, the first and second screws are stopped, Wherein the first reservoir is disconnected from the first reservoir, and the first reservoir is separated from the housing and discharged to perform a continuous chip ejection operation. A housing having an upper portion opened and a space portion formed therein;
A cylindrical first screw which is seated inside the housing and which is rotated by the driving means so that a screw rib for discharging the chip is uniformly wound;
A cylindrical second screw having a threaded rib which is guided and guided by the first screw and guides and discharges the threaded chip;
And a second screw provided on a front surface of the housing and formed on a side surface of the first screw and rotated by a counterclockwise rotation when the first screw rotates clockwise, 1. A double twin screw chip discharging method comprising a single chip reservoir and separating and discharging cutting oil and cutting chips,
Dropping a cutting chip into a concave portion of the guide plate of the housing (s10);
A step (s20) of moving the separated cutting chips to the rear side of the concave portion of the guide plate through a screw rib provided in the first and second screws;
Guiding the chip moved rearward of the concave portion of the guide plate to the first storage through a chip discharge guide having a rectangular taper shape (s30); And
(S40) of stopping the rotation of the first and second screws through a notification signal when the chips are piled and the chips are filled in the first reservoir,
Wherein the first and second screw threads are formed on the base plate. The method of claim 3,
A spur gear is formed on a rear portion of the first screw and the second screw so that the speed of the first screw and the second screw can be adjusted,
A threaded rib is wound on the first screw and the second screw to advance the cutting chip forward, and the forwardly advancing cutting chip is moved to the first storage via the chip discharge guide,
A cutting chip including a stopper rib which can cut the cutting chip can be cut at a rear end of the first and second screws,
And a chain gear for interlocking the motor, the first screw, and the second screw is formed on the side surface of the housing.

Images