KR102404135B1 - Wave shape carbide insert recovery system in unloading equipment after PVD coating - Google Patents

Abstract

The present invention relates to a system for recovering a cemented carbide insert having a wave shape in a main body equipment for unloading a PVD-coated cemented carbide insert from a coating rod, and a wave-shaped cemented carbide insert recovered from the coating rod (1-1) The recovery part 110 configured to be recovered, the inversion part 120 configured to change the vertical position of the wave-shaped cemented carbide insert 1-1 located in the recovery part 110, and the recovery part 110 ) and located in the center of the inversion part 120, characterized in that it comprises a rotation and vertical movement part 130 configured to reciprocate to the upper part of the recovery part 110 by rotating the inversion part 120 It relates to a wave-shaped cemented carbide insert recovery system in unloading equipment after PVD coating.
Therefore, according to the present invention, when unloading a wave-shaped cemented carbide insert from a coating rod, it is possible to safely and accurately reverse and recover the special-shaped cemented carbide inserts loaded in the forward and reverse directions, thereby increasing the safety and working efficiency of the equipment. There are advantages to being able to

Description

Wave shape carbide insert recovery system in unloading equipment after PVD coating}

The present invention relates to a wave-shaped cemented carbide insert recovery system, and more particularly, in the main body equipment for unloading a cemented carbide insert from a coating rod after PVD coating is completed, when recovering a wave-shaped cemented carbide insert product, the forward direction It relates to a wave-shaped cemented carbide insert recovery system in an unloading equipment after PVD coating for accurate and safe recovery by recovering the cemented carbide inserts in the reverse direction and reversing the carbide inserts in the reverse direction.

BACKGROUND ART In general, a cutting tool is mainly used for cutting ferrous, non-ferrous metals, and non-metallic materials, and is typically mounted on a machine tool to perform cutting in order to process a workpiece into a desired shape.

Cemented carbide inserts used in cutting tools are made by bonding diamond powder or cemented carbide powder to iron (Fe), tungsten (W), cobalt (Co), copper (Cu), nickel (Ni), tin (Sn), copper. -It is a sintered alloy that is mixed with metal powders such as tin (CuSn), zinc (Zn), copper-zinc (CuZn), silver (Ag), molded, and then fired.

In the forming step before firing, the mixed powder is put in a rectangular parallelepiped cavity and first press-molded, and the first-pressed-molded mixture is put into the cavity of the carbon mold and the shape of the puncher while applying a relatively large pressure using a puncher The cutting tip of the corresponding shape is molded. A diamond insert tip or an insert tip is completed by sintering an insert tip formed into a certain shape in a sintering furnace.

The fired cemented carbide insert needs to be recovered through an inspection step and a PVD (Physical Vapor Deposition) coating step again. The recovery process has a difficulty in recovering the special shape cemented carbide inserts loaded in the forward and reverse directions on the coating rod.

The present applicant has applied for a wave-shaped cemented carbide insert recovery system in unloading equipment after PVD coating in 2016 (No. 10-2016-0132548). The invention completes the preparation of supplying the carbide inserts loaded on the pallets to the coating rods with a gripper to the coating furnace (loading operation), and also completing the coating in the coating furnace and recovering the cemented carbide inserts from the coating rods in the reverse order from the coating bars (un loading operation) device.

In the above invention, the inversion process was not required by loading (basic loading) the carbide inserts having the same top and bottom shapes in the forward direction. In order to improve quality, there are many cases of loading in the reverse direction (reverse loading) or mixing in the forward and reverse directions (mixed loading), so a corresponding device is required.

Therefore, in order to solve this requirement, the present applicant has invented a wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention coupled to the main body equipment of the applicant.

Republic of Korea Patent Publication No. 10-1690321 (2016.12.27.) Republic of Korea Patent Publication No. 10-1540588 (2015.07.31.)

An object of the present invention to solve the above problems is, after PVD coating, which is coupled to the unloading equipment after PVD coating, and is configured to recover after recovery and inversion according to the forward and reverse loading of the cemented carbide insert during the unloading operation. It is to provide a system for recovering wave-shaped cemented carbide inserts from equipment.

Another object of the present invention is to provide a wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating, which is configured including a recovery part, an inversion part, and a rotation and vertical movement part.

Another object of the present invention is to provide a system for recovering a wave-shaped cemented carbide insert in the unloading equipment after PVD coating, wherein the recovery unit includes a recovery plate, a centering pin, a pin bushing, a spring and a body.

Another object of the present invention is that the recovery plate is configured such that a wave-shaped cemented carbide insert that is coupled to the upper portion of the body in which the space portion is formed and is recovered from the coated bar by a cemented carbide insert recovery gripper is placed, and the wave shape of the An object of the present invention is to provide a wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating in which a centering pin partially protruding from the bottom is coupled so that the cemented carbide insert is inserted.

Another object of the present invention is to provide a system for recovering a wave-shaped cemented carbide insert in an unloading equipment after PVD coating in which the centering pin is vertically positioned in the body space below the center of the recovery plate and formed to protrude from the inside. .

Another object of the present invention is that the pin bushing is vertically embedded from the bottom surface of the recovery plate to the top and bolted, and the centering pin is embedded in the through center hole PVD coating configured to perform vertical vertical movement. It is to provide a system for recovering wave-shaped cemented carbide inserts from post-unloading equipment.

Another object of the present invention is to provide a wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating, wherein the reversing unit includes a reversing plate, a reversing gripper, a guide shaft, a spring and a bottom plate.

Another object of the present invention is to provide a system for recovering a wave-shaped cemented carbide insert in an unloading equipment after PVD coating, in which the reversing plate is configured so that the wave-shaped cemented carbide insert located on the recovery plate can be moved in reverse. .

Another object of the present invention is that the reversing gripper is located in the space below the central portion of the reversing plate, and includes a jaw protruding and entering the surface of the reversing plate in a vertical direction, and a gripping operation by expanding the jaw with operating air. It is to provide a system for recovering wave-shaped cemented carbide inserts from unloading equipment after PVD coating, which consists of a chuck cylinder that allows

Another object of the present invention is to provide a wave-shaped cemented carbide insert recovery system in an unloading equipment after PVD coating in which the guide shaft is vertically coupled to the bottom plate and the corner of the inversion plate on the outer periphery of the inversion gripper. have.

Another object of the present invention is to provide a system for recovering a wave-shaped cemented carbide insert in the unloading equipment after PVD coating, wherein the rotating and vertical moving unit includes a rotating shaft, a rotating frame, a rack and a pinion.

Another object of the present invention is to provide a system for recovering a wave-shaped cemented carbide insert in an unloading equipment after PVD coating, wherein the rotating shaft is configured to transmit an axial rotational driving force of a step motor.

Another object of the present invention is that the rotating frame, the upper part is coupled to the rotating shaft, and the lower square bottom surface is wave-shaped carbide in the unloading equipment after PVD coating, which is configured to be located between the inversion plate and the bottom plate To provide an insert recovery system.

Another object of the present invention, the rack and pinion, PVD coating is configured to raise and lower the inverting part in the vertical direction to compensate for the height difference for each product of the cemented carbide insert for reversing the rotating shaft and the rotating frame Unloading It is to provide a system for recovering wave-shaped cemented carbide inserts from equipment.

The characteristics of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention for achieving this purpose is coupled to the unloading equipment after PVD coating, and the forward and reverse directions of the cemented carbide inserts during unloading operation It is configured to recover after loading and reversing according to loading.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is configured to include a recovery part, an inversion part, and a rotation and vertical movement part.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the recovery part is configured to include a recovery plate, a centering pin, a pin bushing, a spring and a body.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the recovery plate is coupled to the upper portion of the body in which the space is formed and the wave recovered from the coating rod by the cemented carbide insert recovery gripper A carbide-shaped insert is configured to be placed, and a centering pin partially protruding from the bottom is coupled so that the wave-shaped carbide insert is inserted into the center.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the centering pin is positioned vertically in the body space below the center of the recovery plate and protrudes from the inside.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the pin bushing is vertically embedded and bolted from the bottom surface of the recovery plate to the top, and the hole in the center hole through A centering pin is embedded so that it can perform vertical vertical movement.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the reversing part includes a reversing plate, a reversing gripper, a guide shaft, a spring and a bottom plate.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the reversing plate is configured such that the wave-shaped cemented carbide insert located in the recovery plate can be placed in reverse movement.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the reversing gripper is located in the space below the center of the reversing plate, and vertically on the surface of the reversing plate. It is composed of a jaw protruding and entering the jaw, and a chuck cylinder that expands the jaw with operating air to perform a gripping operation.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the guide shaft is vertically coupled to the bottom plate and the corner of the inversion plate on the outer periphery of the inversion gripper.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the rotating and vertical moving part is configured to include a rotating shaft, a rotating frame, a rack and a pinion.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the rotating shaft is configured to transmit the axial rotational driving force of the stepper motor.

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the rotating frame, the upper part is coupled to the rotating shaft, and the lower square bottom surface is between the inversion plate and the bottom plate is configured to be located in

Another feature of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is that the rack and pinion compensate the height difference for each product of the cemented carbide insert for reversing the rotating shaft and rotating frame. The inversion part is configured to rise and fall in the vertical direction.

The wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention as described above has a simple configuration. Therefore, it is easy to combine with the existing main body equipment, and it is possible to safely and accurately reverse and retrieve the special shaped carbide insert.

In addition, the centering pin of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is composed of a buffer structure using a spring. Therefore, it is possible to prevent damage when the jaw of the reverse gripper enters the central hole to grip the cemented carbide insert.

In addition, the inversion part of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is configured to protrude and embed the jaws of the inverted gripper holding the cemented carbide insert using a spring pressing structure. Therefore, it is easy to grip and recover the cemented carbide insert on the inversion plate using the transfer gripper.

In addition, the rotation and vertical movement part of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is configured to vertically move the inverted part up and down using a rack and a pinion. Therefore, it is possible to accurately compensate for the height difference for each cemented carbide insert, thereby preventing product damage due to reversal.

1 is a schematic perspective view showing a wave-shaped cemented carbide insert recovery system in a body equipment to which the present invention is applied and an unloading equipment after PVD coating according to the present invention.
2 is a photograph showing a wave-shaped cemented carbide insert product (a) and a coated rod (b) after PVD coating in the main body equipment to which the present invention is applied.
Figure 3 shows the pattern in which a wave-shaped cemented carbide insert product finished with PVD coating is loaded on the coating bar, 'basic loading' plugged in the forward direction (a), and 'reverse loading' plugged in the reverse direction ( b) and a photograph showing the 'mixed loading' state (C) plugged together in the forward and reverse directions.
Figure 4 is a schematic three-dimensional perspective view showing a wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention.
5 is a schematic front view and a side view showing the wave-shaped cemented carbide insert recovery system of the present invention.
6 is a schematic cross-sectional view showing the wave-shaped cemented carbide insert recovery system of the present invention.
7 is a cross-sectional view schematically showing a state in which the recovery part (A) and the inversion part (B) of the present invention pick up a wave-shaped cemented carbide insert.
8 is a diagram schematically showing a state in which the reversing unit of the present invention reverses the wave-shaped cemented carbide insert.
9 is a diagram illustrating the inversion operation of FIG. 8 in detail and step by step.
10 is a diagram showing the state of 'recovery' and 'recovery after inversion' of the 'mixed loading' wave-shaped cemented carbide inserts in the wave-shaped cemented carbide insert recovery system of the present invention.
11 is a diagram schematically showing an unloading unit of the main body equipment.
12 is a step-by-step diagram illustrating the unloading (recovery and recovery after inversion) of the wave-shaped cemented carbide insert 'mixed loading' in the main body equipment.
13 is a diagram showing a state in which the spacer is recovered from the main body equipment.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the description of the invention.

However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

The terms or words used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. Based on the principle that the concept of a term can be appropriately defined in order to describe one's invention in the best way, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

The wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is a special-shaped cemented carbide insert with a wave curve on the upper surface and a flat lower surface in the PVD coating furnace. Depending on the position, it is a device to recover immediately if it is in the forward direction, and reversely if it is in the reverse direction to recover it.

Specific features and advantages of the present invention will become more apparent from the following description with reference to the accompanying drawings.

1 is a schematic perspective view showing a wave-shaped cemented carbide insert recovery system in a main body equipment to which the present invention is applied and an unloading equipment after PVD coating according to the present invention, and FIG. 2 is a PVD coating in the main body equipment to which the present invention is applied. It is a photograph showing the finished wave-shaped cemented carbide insert product (a) and the coated rod (b), and FIG. 3 shows the pattern in which the PVD coated wave-shaped cemented carbide insert product is loaded on the coated rod, which is inserted in the forward direction. It is a photograph showing the appearance of 'basic loading' (a), the appearance of 'reverse loading' inserted in the reverse direction (b), and the appearance of 'mixed loading' inserted together in the forward and reverse directions (C), and FIG. It is a schematic three-dimensional perspective view showing a wave-shaped cemented carbide insert recovery system in an unloading equipment after PVD coating according to the invention, Figure 5 is a schematic front view and a side view showing the wave-shaped cemented carbide insert recovery system of the present invention, Figure 6 is a schematic front cross-sectional view showing the wave-shaped cemented carbide insert recovery system of the present invention, and FIG. 7 is a schematic view of the recovery part (A) and the inversion part (B) of the present invention picking up the wave-shaped cemented carbide insert 8 is a diagram schematically showing a state in which the reversing part of the present invention reverses the wave-shaped cemented carbide insert, and FIG. 9 is a diagram showing the reversal operation of FIG. It is a figure showing the state of 'recovery' and 'reverse recovery' of the wave-shaped cemented carbide inserts 'mixed loaded' in the wave-shaped cemented carbide insert recovery system of the present invention, and FIG. 11 is a diagram schematically showing the unloading part of the main body equipment 12 is a diagram showing step by step unloading (recovery and recovery after inversion) of the wave-shaped cemented carbide insert 'mixed loading' in the main body equipment, and FIG. It's a picture.

1, the PVD coating and unloading equipment (hereinafter referred to as 'body equipment') to which the wave-shaped cemented carbide insert recovery system 100 of the present invention is applied is a wave-shaped This is equipment that removes (unloading) the cemented carbide inserts from the coating rods (1-5) and collects them on the pallet.

The main body equipment, in addition to the configuration of the present invention described below, a gripper and pallet for transporting cemented carbide inserts and spacers, a pallet transfer unit 20, an unloading unit 30, and a frame 10 for mounting each configuration and a controller (not shown) for controlling each configuration of the main body equipment.

The general working process of the main body equipment proceeds in the order of the unloading unit 30 → the transfer unit 20 according to the flow of the cemented carbide insert, and schematically described as follows.

First, the unloading unit 30 is, after the coating process is finished, the coating rod (1-5) mounted on the cylindrical rotating body coming out of the furnace is vertical by the coating rod vertical gripper (not shown) of the unloading unit. The cemented carbide insert and the spacer are sequentially positioned on the top of the coated bar by an unloading elevator (not shown).

In the next step, the cemented carbide inserts gripped by the cemented carbide insert recovery grippers 1-3 of the unloading unit 30 are transferred to the recovery plate, and collected on the pallet 21 by the transport grippers 22 of the conveying unit 20 do.

At this time, the spacers 1-2 discharged together with the cemented carbide inserts are alternately gripped by two spacer recovery grippers 1-4 and accurately and safely recovered through the spacer recovery pipe 31 .

4 or less, the wave-shaped cemented carbide insert recovery system 100 in the unloading equipment after PVD coating of the present invention includes a recovery unit 110, an inversion unit 120, and a rotation and vertical movement unit ( 130) is included.

5, the recovery unit 110 of the wave-shaped cemented carbide insert recovery system 100 in the unloading equipment after PVD coating of the present invention is a wave-shaped cemented carbide insert 1 recovered from the coating rod -1) is configured to be recovered.

The recovery unit 110 of the wave-shaped cemented carbide insert recovery system 100 in the unloading equipment after PVD coating of the present invention is a recovery plate 111, a centering pin 112, a pin bushing 113, a spring ( 114) and a body 115 is configured.

The recovery plate 111 of the present invention has a generally rectangular shape and is coupled to the upper portion of the body 115 in which the space is formed, and the wave recovered from the coating rod by the cemented carbide insert recovery gripper 1-3. A carbide-shaped insert 1-1 is configured to be placed, and a centering pin 112 partially protruding from the lower portion is coupled to the center so that the wave-shaped cemented carbide insert 1-1 is inserted.

At this time, when the wave-shaped cemented carbide insert 1-1 is inserted into the centering pin 112 in the forward direction, it is directly recovered to the pallet 21 by the transfer gripper 22, and the wave-shaped cemented carbide insert inserted in the reverse direction (1-1) is configured to be recovered by being reversely transferred to the inversion plate 121 by the inversion unit 120 to be described below.

The centering pin 112 of the present invention has both ends in the shape of a nail having a head and an attachment, and is perpendicular to the space portion of the body 115 below the center of the recovery plate 111 . Positioned so that the attachment is formed to protrude from the inside, and the wave-shaped cemented carbide insert (1-1) is inserted.

The centering pin 112 of the present invention is configured to vertically descend in the downward direction by pressing the jaws 122.3 of the inverting gripper 122 to be described below. (See FIG. 7 )

The pin bushing 113 of the present invention is vertically embedded from the bottom surface of the recovery plate 111 to the upper side and is bolted, and the centering pin 112 is embedded in the through center hole to perform vertical vertical movement. is configured to

The spring 114 of the present invention is embedded in the lowest surface of the space portion of the body 115 under the centering pin 112, and is configured to push up the centering pin 112 upward.

The body 115 of the present invention forms the body of the recovery unit 110, is flat so that the recovery plate 111 is coupled thereto, and has a different configuration (centering pin, A space is formed so that a pin bushing, a spring, etc.) can be embedded.

5, the inversion part 120 of the wave-shaped cemented carbide insert recovery system 100 in the unloading equipment after PVD coating of the present invention is a wave shape located in the recovery part 110 It is configured to change the vertical position of the cemented carbide insert (1-1).

The reversal part 120 of the wave-shaped cemented carbide insert recovery system 100 in the unloading equipment after PVD coating of the present invention is a reversing plate 121, a reversing gripper 122, a guide shaft 123, a spring ( 124 ) and a bottom plate 125 .

The reversal plate 121 of the present invention is configured such that the wave-shaped cemented carbide insert 1-1 located on the recovery plate 111 can be moved in reverse.

The reversing gripper 122 of the present invention is located in the space below the central portion of the reversing plate 121, and includes jaws 122.3 protruding and entering the surface of the reversing plate 121 in the vertical direction; It consists of a chuck cylinder 122.1 that expands the jaw with air (compressed air) to perform a gripping operation.

At this time, the working air (compressed air) is configured to be transmitted through the inner pipe formed in the rotation shaft 131 and the rotation frame 132 of the rotation and vertical movement unit 130 to be described below.

The guide shaft 123 of the present invention is configured in plurality so as to be vertically coupled to the bottom plate 125 and the corner portion of the inversion plate 121 on the outer periphery of the inversion gripper 122 .

The spring 124 of the present invention is coupled to the guide shaft 123 penetrating the square bottom surface of the rotation frame 132 to expand the gap between the rotation frame 132 and the bottom plate 125 . is composed

The bottom plate 125 of the present invention is fastened to an end of the guide shaft 123 to which the spring 124 is coupled.

5, the rotation and vertical movement part 130 of the wave-shaped cemented carbide insert recovery system 100 in the unloading equipment after PVD coating of the present invention is the recovery part 110 and half It is located in the center of the front part 120 and is configured to reciprocate to the upper part of the recovery part 110 by rotating the inversion part 120 .

The rotation and vertical movement unit 130 of the wave-shaped cemented carbide insert recovery system 100 in the unloading equipment after PVD coating of the present invention is, the rotation shaft 131, the rotation frame 132, the rack 134 and It is configured to include a pinion (135).

The rotation shaft 131 of the present invention is configured to transmit the axial rotation driving force of the step motor 139 by having a coupling 133 coupled to one end thereof.

The rotation frame 132 of the present invention has a cross-sectional shape of an 'L' shape, the upper portion is coupled to the rotation shaft 131, the lower portion has a square bottom surface, and the square bottom surface is the inversion plate It is configured to be positioned between the 121 and the bottom plate 125 .

In addition, on the square bottom surface of the rotating frame 132 of the present invention, the inverting gripper 122 of the inverting part 120 is mounted, and by the rack 134 and the pinion 135 described below, the When the rotation and vertical movement unit 130 elevates, the reversing plate 121 is lowered by the action of the spring 124 between the square bottom surface and the bottom plate 125, and the reversing gripper 122 encounters ( 122.3) is configured to protrude above the surface of the inversion plate 121 .

The rack 134 and the pinion 135 of the present invention, the inverting part 120 to compensate the height difference for each product of the cemented carbide insert for reversing the rotating shaft 131 and the rotating frame 132 in the vertical direction It is configured to ascend and descend.

8 to 13, the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention operates as follows.

A. Recovery operation

go. A plurality of coating rods 1-5 into which a wave-shaped cemented carbide insert 1-1 is inserted are mounted on the rotating body of the unloading unit 30 .

me. The coating rod pusher (not shown) vertically pushes the coating rod 1-5 mounted in the groove of the rotating body to the unloading operation position.

At this time, at the lower end of the coating bar 1-5, a coating bar vertical gripper (not shown) grips the coating bar 1-5 to hold the coating bar 1-5 vertically.

All. Then, two unloading elevators (not shown) of the unloading coating rod grip part alternately grip the spacer part up and down, and rise so that the cemented carbide insert recovery gripper (1-3) and the spacer recovery gripper (1-4) can grip it. make it

At this time, the lower unloading elevator gradually raises the entire cemented carbide insert and spacer.

la. The cemented carbide insert recovery gripper 1-3 of the unloading operation unit 30 rotates left and right while gripping the carbide insert waiting at the cutting edge of the coating bar in step 'C', and the centering pin of the recovery plate 111 . Plug in (112).

At this time, the spacer recovery grippers 1-4 composed of two on the left and right sides of the unloading operation unit 30 alternately advance forward while gripping the spacer waiting at the leading edge of the coating rod in step 'c' to lift and lower it. And it is accurately and safely dropped on the spacer recovery pipe 31 as a rearward process. (See FIG. 13)

mind. If the wave-shaped cemented carbide insert inserted into the centering pin 112 is in the normal loading state in the forward direction, it is recovered to the pallet 21 by the transfer gripper 22 (see Fig. 10(a)).

B. Reversal operation and recovery operation (see FIG. 9 below)

- When the cemented carbide insert inserted into the centering pin is in reverse loading state -

go. By driving the rack 134 and the pinion 135 with the servo motor 138, the inverting part 120 is raised to compensate for the height difference for each product of the cemented carbide insert.

At this time, as the reversing plate 121 is lowered by the action of the spring 124 between the bottom surface of the rotating frame 132 and the bottom plate 125 , the jaws 122.3 of the reversing gripper 122 move the reversing plate. It projects over the surface of (121).

me. The step motor 139 drives the rotation shaft 131 to rotate the inversion part 120 180 degrees to position it on the recovery plate 111 (see Fig. 7(a)).

At this time, the protruding jaws 122.3 and the centering pin 112 of the inversion part 120 are positioned on a vertical line.

All. The inversion part 120 is lowered by the operation of the rack 134 and the pinion 135 .

la. The jaw 122.3 located on the vertical line presses (presses) the centering pin 112 to push it into the recovery plate 111, and expands the jaw to grip the cemented carbide insert. (See Fig. 7(b)) )

mind. The inversion part 120 is raised by the operation of the rack 134 and the pinion 135 .

bar. The rotation shaft 131 is driven to rotate the inversion part 120 180 degrees to return it to its original position.

buy. The inversion part 120 is lowered by the operation of the rack 134 and the pinion 135 .

At this time, when the bottom plate 125 is further descended while touching the floor, the bottom surface of the rotating frame 132 between the inversion plate 121 and the bottom plate 125 continues to descend.

oh The jaws 122.3 of the reversing gripper protruding on the surface of the reversing plate 121 and holding the cemented carbide insert hide inside, leaving the cemented carbide insert on the reversing plate 121 as the operating air is removed.

ruler. The wave-shaped cemented carbide insert inverted in the positive direction on the reversing plate 121 is recovered to the pallet 21 by the transfer gripper 22 (see Fig. 10(b)).

- When the cemented carbide insert inserted into the centering pin is in the ‘mixed loading’ state in the forward and reverse directions -

go. In the above order, two cemented carbide inserts are mixed and loaded on the centering pin 112, the upper normal cemented carbide insert is recovered by the transfer gripper 22, and the reverse cemented carbide insert is reversed in the above order to reverse the plate ( 121). (See Fig. 12)

The wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention has the following characteristics.

First, the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is simple in configuration.

Therefore, it is easy to combine with the existing main body equipment, and it is possible to safely and accurately reverse and retrieve the special shaped carbide insert.

In addition, the centering pin of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is composed of a buffer structure using a spring.

Therefore, it is possible to prevent damage when the jaw of the reverse gripper enters the central hole to grip the cemented carbide insert.

In addition, the inversion part of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is configured to protrude and embed the jaws of the inverted gripper holding the cemented carbide insert using a spring pressing structure.

Therefore, it is easy to grip and recover the cemented carbide insert on the inversion plate using the transfer gripper.

In addition, the rotation and vertical movement part of the wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating according to the present invention is configured to vertically move the inverted part up and down using a rack and a pinion.

Therefore, it is possible to accurately compensate for the height difference for each cemented carbide insert, thereby preventing product damage due to reversal.

1: Unloading equipment for cemented carbide inserts after PVD coating (body equipment)
1-1: cemented carbide insert (wave shape)
1-2: spacer
1-3: Carbide insert recovery gripper
1-4: spacer recovery gripper
1-5: coated bar
10 : frame
20: pallet transfer unit
21 : Pallet
22: transfer gripper
30: unloading unit
31: spacer recovery pipe
100: Wave shape cemented carbide insert recovery system
110: recovery unit
111: recovery plate
112: centering pin
113: pin bushing
114: spring
115: body
120: inversion part
121: reverse plate
122: reverse gripper
122.1: chuck cylinder
122.2: jaw holder
122.3 : 3 Jaw
123: guide shaft
124: spring
125: bottom plate
130: rotation and vertical movement part
131: rotating shaft
132: rotating frame
133: coupling
134: rack
135: pinion
138: servo motor
139: step motor

Claims (9)

It relates to a system for recovering a cemented carbide insert having a wave shape from a main body equipment for unloading a PVD-coated carbide insert from a coating rod,
a recovery unit 110 configured to recover a wave-shaped cemented carbide insert 1-1 recovered from the coating rod;
an inversion unit 120 configured to change the vertical position of the wave-shaped cemented carbide insert 1-1 located in the recovery unit 110;
Located in the center of the recovery unit 110 and the inversion unit 120, the rotation and vertical movement unit 130 configured to reciprocate to the upper portion of the recovery unit 110 by rotating the inversion unit 120; includes,
The recovery unit 110 is a recovery plate on which a wave-shaped cemented carbide insert 1-1 that is coupled to the upper portion of the body 115 in which the space is formed and is recovered from the coated bar by the cemented carbide insert recovery gripper 1-3 is placed. (111), a centering pin 112 positioned vertically in the space portion of the body 115 under the center of the recovery plate 111 and partially protruded from the inside, into which the wave-shaped cemented carbide insert 1-1 is inserted. , a pin bushing 113 that is vertically buried from the bottom to the top of the recovery plate 111, and the center hole is penetrated, and the centering pin 112 is embedded in the center hole to perform vertical vertical movement, the centering It consists of a spring 114 that is embedded in the lowest surface of the space portion of the body 115 under the pin 112 and closely contacts the centering pin 112 upward,
The centering pin 112 is a wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating, characterized in that it vertically descends by pressing the jaws 122.3 of the inverting gripper.
delete The method according to claim 1,
The inversion part 120 is,
A reversing plate 121 configured so that the wave-shaped cemented carbide insert 1-1 positioned on the recovery plate 111 can be placed in reverse;
A reversing gripper 122 located in the space below the central portion of the reversing plate 121 and comprising a jaw 122.3 protruding and entering in the vertical direction, and a chuck cylinder 122.1 that expands the jaw;
After PVD coating, characterized in that it includes a plurality of guide shafts 123 configured to be vertically coupled to the bottom plate 125 and the edge of the inversion plate 121 on the outer periphery of the inversion gripper 122 . Wave shape cemented carbide insert recovery system in loading equipment.
4. The method according to claim 3,
The rotation and vertical movement unit 130,
At one end, the coupling 133 is coupled to the rotation shaft 131 for transmitting the shaft rotation driving force of the step motor 139,
The cross-sectional shape is 'L' shaped, and the upper part is coupled to the rotation shaft 131, and the lower part is a rotating frame 132 configured to form a square bottom surface, and;
Wave shape cemented carbide insert in unloading equipment after PVD coating, characterized in that it comprises a rack 134 and a pinion 135 configured to vertically raise and lower the rotating shaft 131 and the rotating frame 132 recovery system.
5. The method according to claim 4,
In the unloading equipment after PVD coating, characterized in that the square bottom surface of the rotating frame 132 is positioned between the inversion plate 121 and the bottom plate 125 and slidingly coupled by the guide shaft 123 . wave shape cemented carbide insert recovery system.
6. The method of claim 5,
A reversing gripper 122 of the reversing part 120 is mounted on the square bottom surface of the rotating frame 132, and a spring 124 is coupled to the guide shaft 123 penetrating the bottom surface to form a bottom plate ( 125) and wave-shaped cemented carbide insert recovery system in the unloading equipment after PVD coating, characterized in that it adjusts the gap.
delete 7. The method of claim 6,
The rack 134 and the pinion 135, the wave-shaped carbide in the unloading equipment after PVD coating, characterized in that configured to compensate the height difference for each product by lifting and lowering the inversion part 120 in the vertical direction Insert retrieval system.
9. The method of claim 8,
PVD coating, characterized in that if the wave-shaped cemented carbide insert 1-1 inserted into the centering pin 112 of the recovery plate 111 is in the forward direction, it is immediately recovered, and if it is in the reverse direction, it is reversely transferred and recovered from the inversion plate 121 Wave-shaped cemented carbide insert recovery system in post-unloading equipment.

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