KR101175177B1 - Chip ejector - Google Patents

Abstract

PURPOSE: An apparatus for discharging chips is provided to prevent a screw shaft from becoming compressed or curved while securing the rigidity of the screw shaft. CONSTITUTION: An apparatus for discharging chips comprises a screw shaft(100). The chips are easily compressed while a space for collecting the chips is largely formed. A square screw(200) is formed on an outer periphery of the screw shaft. A pitch of the square screw is gradually wide, and the square screw is gradually thick. The square screw is prevented from becoming bent, and the chips are rapidly transferred.

Description

Chip ejector {CHIP EJECTOR}

The present invention is a screw shaft type chip discharging device installed in the lower part of various machine tools such as CNC, collecting chips generated when processing the workpiece in the transfer pipe, the pitch is formed large in the front mounted inside the transfer pipe The present invention relates to a chip discharging device for automatically and efficiently discharging a rectangular screw type screw shaft connected to a drive motor and a power transmission member so as not to cause excessive load and to prevent clogging.

Conventionally, chips generated in the process of processing a workpiece in a machine tool are collected in a container at a lower part of the machine tool by artificially discharging them using a separate mechanism or automatically collected by using discharge means such as a conveyor installed therein. .

According to the registered utility model publication No. 20-0211128 (January 15, 2001), which is a conventional chip ejection device, the present invention is a chip generated when machining a workpiece using a machine tool. It is continuously discharged long and installs a screw having a power transmission means in front of the conveyor for transporting the chip, to prevent the chip from rolling in the belt while the screw rotates, It is described as a chip ejector for inducing the chip to be discharged smoothly.

     As described above, the conventional technology not only has a very low work efficiency but also causes an overload in the machine tool when a worker cannot check the discharge state of the chip, which may cause a failure, and takes up a lot of installation space.

      Accordingly, according to the registered Utility Model Publication No. 20-0327636 (Announcement date September 26, 2003), which is a conventional chip discharge device for machine tools, the present invention provides a chip discharge device installed on a lower side of a machine tool. To provide, the present invention is provided with a chain box for protecting the chain wheel on one side of the case of the cube having an inclined surface facing, the discharge pipe is coupled to the outer side inclined upward, the other side of the case, the chip can be collected on the lower side of the case An open portion is formed, and the bottom surface of the semi-circle is welded and fixed to the transfer pipe formed with a plurality of discharge holes, the inside of the transfer pipe is provided with a spiral winding screw formed with a fixing projection, the chain installed inside the chain box outside the case It is fixed as a fixing plate in a state in which the fixing projection of the screw is coupled to the fixing groove formed on the inside of the wheel.

On the lower surface of the inclined surface of the other case of the transfer pipe, a shaft wheel coupled to the tip of the chain wheel is installed so that power of the motor can be directly transmitted through the coupler so that power is transmitted by the chain wheel coupled to the tip of the shaft and screw. It is described as a chip automatic ejector in which the chip is discharged through the discharge pipe by driving.

As described above, the conventional spiral-wound chip automatic ejector has a problem that the screw of the spring shape is squeezed or bent due to the bridging phenomenon in which the deposit of the screw is deposited when the chip of the workpiece is automatically discharged by the spiral-wound screw. There were frequent disadvantages. In addition, due to the chip deposition, a frequent load occurred due to the load of the motor.

      In addition, the conventional chip discharge device has a problem that the discharge pipe is short, the angle is low, so that a large amount of chips can not be loaded, the operator must empty the container frequently.

      Conventional chip discharging device has a problem that the operator has to wait at all times in order not to meet the unmanned automatic equipment, and the operation rate of expensive automation equipment is significantly reduced due to frequent failures.

Therefore, the present invention has been made to solve the above problems, by processing the mounting with a square screw type screw formed in a wider pitch toward the front of the shaft having a hardness through heat treatment, due to blockage during transfer of the chip The present invention relates to a chip discharging device that improves the work efficiency of an operator and the operation rate of an automated equipment, as there is no load and there is no failure caused by crimping, bending, or wearing of the screw.

The present invention relates to a chip discharge device, the screw shaft 100 is installed inside the case 500 is installed with a transfer pipe for transferring the chip, and the discharge pipe connected to the transfer pipe 400 to discharge the chip ( In the chip transfer device 600 is installed on the front of the case, the motor 300 is installed outside the front of the case, a rotating shaft 320 connected to the motor is installed inside the case, the rear of the case 500 The first chain wheel 330 connected to the rotary shaft 320 is sequentially installed on the outside, and the discharge pipe is installed together with the motor 300 on the outside of the case front, and the discharge pipe 600 inside the case 500. The transfer pipe 400 is connected to the inside and the screw shaft 100 is installed therein, and the second chain wheel 331 connected to the screw shaft 100 is sequentially installed outside the rear of the case, thereby Rotational force of the motor 300 The discharge shaft 600 is transferred to the rotary shaft 320, the first chain wheel 330, the chain 350, the second chain wheel 331, and the screw shaft 100 to connect the chip to the transfer pipe 400. It characterized in that the discharge to).

The present invention is a screw shaft type chip discharging device, and by discharging the chip generated when processing the workpiece in various machine tools, such as CNC without excessive load, and automatically discharged without clogging at all, the operator's work efficiency and There is a remarkable effect that can increase the operation rate of expensive automation equipment.

1 is an exploded perspective view showing an internal configuration of the present invention
2 is a perspective view of the assembled state of the present invention;
3 is a plan view showing the assembled state of the present invention
4 is a perspective view of a screw shaft of the present invention
5 is a detailed cross-sectional view of the trapezoidal screw web of the present invention.

The present invention is a screw shaft chip discharge device, the screw shaft 100 is installed inside the case 500 is installed with a transfer pipe for transferring the chip, and the discharge pipe connected to the transfer pipe 400 to discharge the chip In the chip transfer device 600 is installed on the front of the case, a motor 300 is installed outside the front of the case, a rotating shaft 320 connected to the motor 300 is installed inside the case, the case The first chain wheel 330 connected to the rotary shaft is sequentially installed on the outside of the rear surface, and the discharge pipe 600 is installed together with the motor 300 on the outside of the case front, and inside the case 500. It is connected to the discharge pipe is installed in the transfer pipe 400 is installed inside the screw shaft 100, the second chain wheel 331 connected to the screw shaft 100 is sequentially installed outside the rear of the case, Of the motor 300 Electric power is transmitted to the rotating shaft 320, the first chain wheel 330, the chain 350, the second chain wheel 331, and the screw shaft 100, the discharge pipe for connecting the chip to the transfer pipe 400 ( 600) characterized in that the discharge.

In addition, the case 500 is a rectangular cross-section housing, the front portion of the upper cover 530 is formed so that chips or cutting oil does not enter, the portion except the front portion is open, the chip or cutting oil is easily collected. In addition, a partition 540 is installed between a portion where the upper cover 530 is formed and an upper open portion, and the partition 540 has a hole through which the rotation shaft 320 and the transfer pipe 400 pass. It is characterized by being perforated.

When described in detail by the accompanying drawings of the present invention. 1 is an exploded perspective view showing an internal configuration of the present invention, Figure 2 is a perspective view of the assembled state of the present invention, Figure 3 is a plan view showing the assembled state of the present invention, Figure 4 is a screw shaft perspective view of the present invention, Figure 5 is a trapezoidal screw web cross-sectional view of the present invention.

The present invention is a screw shaft chip discharge device, the screw shaft 100, the drive motor 300, the power transmission member, the transfer pipe 400, the case 500 and the discharge pipe 600.

The case 500 of the present invention is a rectangular housing lined in the chip discharge direction, the upper front portion is formed with the upper cover 530 so that chips or cutting oil does not enter, and the remaining portion of the upper portion is open. And the chain box 520 is formed on the rear of the discharge direction.

In addition, a partition 540 is installed at a boundary surface between the portion where the upper cover 530 is formed and the open portion, and the partition drills holes horizontally to pass through the rotation shaft 320 and the transfer pipe 400.

In addition, the case 500 has an inclined surface 510 is formed on the left and right sides at an open portion of the case 500, the inclined surface is inclined above the transfer pipe 400 to facilitate the cutting oil and the processing chip falling in the process of machining machine tools. The collection shaft is rotated 320 of the power transmission member under the inclined surface 510.

In addition, a motor 300 is installed outside the front of the case 500, and a rotation shaft 320 connected to the motor is installed inside the case, and a first chain wheel connected to the rotation shaft outside the rear of the case. 330 are sequentially installed.

In addition, the discharge pipe 600 with the motor 300 is installed on the outside of the front of the case 500, the transfer pipe 400 is connected to the discharge pipe and the screw shaft 100 is installed inside the case. The second chain wheel 331 connected to the screw shaft 100 is sequentially installed outside the rear of the case.

In the chip discharging apparatus of the present invention, the screw shaft 100 is a screw with a large pitch in the forward direction, and the front portion of the shaft of the screw shaft 100 is smaller in diameter and forms a step. A key is formed in connection with the power transmission member.

      In addition, the shaft of the screw shaft 100 is rotated by a power transmission member connected to the motor, the front portion forms a step of the outer diameter is smaller, the pitch of the square screw 200 toward the front is wider and the thickness is gradually thicker Doing.

In addition, the square screw 200 of the screw shaft 100 has a constant outer diameter, and has a shape forming a 90 degree perpendicular to the shaft axis.

In addition, the present invention can be formed with a trapezoidal screw instead of the square screw, the web cross-sectional shape of the outer diameter portion is processed into a trapezoidal, the rear cross-sectional web cross-sectional shape of the screw shaft 100 is seen in Figures 4 and 5, The left and right internal angles α and β of the base side are trapezoids of 30 degrees and 90 degrees, respectively, and the front side of the screw shaft 100 is a trapezoidal web section shape, and the left and right interior angles of the base side are respectively 70 degrees.

Therefore, from the rear to the front, the left inner corner α is enlarged to have a shape close to the tetragonal shape, and the trapezoidal web cross-sectional shape makes the entangled chip well.

In addition, the square or trapezoidal screw 200 prevents the bending of the square or trapezoidal screw 200 as the thickness and the pitch becomes thicker and larger toward the front, and transfers the chip quickly, and also the screw shaft 100 In the front part, the outer diameter of the shaft shaft is reduced, so that the space where the chips are gathered is large, and thus the chip can be easily pressed.

In addition, the material of the screw shaft 100 is SCM4 metal, and by heat treatment to give a hardness of about 30 in HRC 25 to prevent the failure due to the bending, wear caused by the compression of the screw generated in the conventional spiral winding type.

In the chip discharging device of the present invention, the power transmission member includes a plurality of couplers 310, a bearing 340, a rotating shaft 320, a plurality of chain wheels 330, 331, and a chain 350.

The drive motor 300 is mounted on the front outer side of the case 500, one end of the coupler 310 is connected to the drive motor is installed in the case 500. And, the other end of the coupler 310 is connected to the rotation shaft 320.

In addition, two bearings 340 are installed in the middle portion of the rotating shaft 320, and are fixedly mounted to the partition 540 and the case rear, respectively, to support the rotating shaft 320.

 The two chain wheels 330 and 331 having different diameters are located in the rear side chain box 520 of the case 500, and the first chain wheel 330 having the smaller diameter is connected to the other end of the rotation shaft. The second chain wheel 331 having a large diameter is connected to the key of the screw shaft 100 by the coupler 310.

In addition, the first chain wheel 330 having a small diameter and the second chain wheel 331 having a large diameter are connected to the chain 350 to rotate at a constant speed ratio.

In the chip discharging apparatus of the present invention, the transfer pipe 400 is open to the rear by a circular pipe, and is connected to the case inclined surface to collect cutting oil and chips generated during the machining of the machine tool. .

The chips collected by the transfer pipe 400 are transferred to the discharge pipe 600 connected to the front of the transfer pipe 400 by the rotating screw shaft 100, and the cutting oil is disposed on the lower surface of the transfer pipe 400. The discharge hole is formed to act as a filtering that only the coolant flows down, and the coolant is collected in a reservoir to allow reuse.

In the chip discharging device of the present invention, the discharge pipe 600 has a longer length and a higher angle than a conventional discharge pipe, and discharges the chip, and the worker arranges a container for loading a large amount in the discharge pipe discharge port. Eliminate the inconvenience of always waiting in the container.

The present invention is a device for discharging the chip generated when machining the workpiece in the machine tool, such as CNC, is installed in the position where the chip on the lower side of the machine tool falls. In addition, the chip falling on the case inclined surface 510 of the screw shaft type discharge device is collected by the transfer pipe 400, the screw shaft 100 is connected to the power transmission member in the cylindrical space of the transfer pipe 400 Will rotate at.

In addition, the chip collected by the transfer pipe 400 is caught in the square screw thread of the screw shaft 100 is transferred to the discharge pipe 600, the discharge pipe discharges the chip into the container.

In addition, the pitch and thickness of the square screw 200 of the screw shaft is greatly thickened forward, the angle of the trapezoidal web cross-sectional shape is inclined toward the front more, and the hardness through the heat treatment process of the screw shaft 100 There is no failure caused by crimping, bending or abrasion, no excessive load is applied to the driving motor, and the chip is discharged without any blockage.

Therefore, the screw shaft chip discharging device of the present invention does not take an excessive load due to blockage during the transfer of the chip, and supplements the problems of frequent failures due to the crimping, bending, and abrasion of the screw. There is a remarkable effect to increase the operation rate of.

100: screw shaft 200: square thread
300: motor 310: coupler
320: rotation axis 330: first chain wheel
331: second chain wheel 340: bearing
350: chain 400: feed pipe
410: discharge hole
500 case 510: slope
520: chain box 530: top cover
540: partition 600: discharge pipe

Claims (2)

The screw shaft 100 is installed inside the case 500, the transfer pipe 400 for transferring the chip is installed, and the discharge pipe 600 connected to the transfer pipe 400 to discharge the chip on the front of the case It is installed, the motor 300 is installed outside the front of the case, a rotating shaft 320 connected to the motor is installed inside the case, the first chain wheel connected to the rotating shaft outside the rear of the case 500 ( 330 is sequentially installed, and the discharge pipe 600 is installed together with the motor 300 outside the front of the case 500, the case is connected to the discharge pipe and the screw shaft 100 is installed therein. The pipe 400 is installed, and the second chain wheel 331 connected to the screw shaft 100 is sequentially installed outside the rear surface of the case 500, such that the rotational force of the motor 300 is rotated by the rotation shaft 320. The first chain wheel 330, the chain 350, the second chain wheel 331, and To be delivered to the screw shaft 100 to discharge the chip to the discharge pipe 600 connected to the transfer pipe 400,
The case 500 is a rectangular cross-section housing, the front portion of the upper cover 530 is formed so that chips or cutting oil does not enter, the portion other than the front portion is open, the chip or cutting oil is easily collected. A partition 540 is installed between a portion where the upper cover 530 is formed and an open portion of the upper portion, and the partition 540 is perforated to allow the rotation shaft 320 and the transfer pipe 400 to pass therethrough. In a chip ejection apparatus,
The screw shaft 100 is formed to be smaller in diameter toward the front portion, a large space for the chip is formed to facilitate the compression of the chip, a square screw 200 is formed on the outer periphery of the screw shaft 100, Since the pitch of the square screw 200 becomes wider and the thickness of the square screw 200 gradually increases toward the front part, it prevents the bending of the square screw 200 and transfers the chip quickly. Chip ejector delete

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