JPH03161265A - Deburring method and device thereof - Google Patents

Abstract

PURPOSE:To remove even the burr caused at the complicated parts of the opening end edge part, etc., of the spiral groove formed on the body to be worked with a high accuracy and a high efficiency without spoiling the prework accuracy, by executing the barreling of the burr removing part, after brushing the body to be worked by a brush. CONSTITUTION:When a rough deburring by circular brushes 34, 34 is completed, a control signal SE is impressed on the 5th motors 38, 38 from a work control part 8 and tables 33, 33 are retreated in the direction separated from the bodies W, W to be worked held on air chucks 19, 19. At this time, a control signal SF is impressed on a 3rd motor 27 from the work control part 8 and a barrel tank 24 is driven in the circumferential direction on a roller bearing 22... via a spur wheel 28 and an internal gear 25. Then, a control signal SA is impressed on 1st motors 12, 12 from the work control part 8, the body W to be worked held on air chucks 19, 19 is descended and immersed into the media 29 of the barrel tank 24 to execute beveling.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to a deburring method and apparatus suitable for deburring soft materials such as copper and aluminum.

(Prior art) In general, mechanically, loose abrasive grains,
Scraping with fixed abrasive grains such as whetstones or abrasive belts, or knives, cutters, or files; Chemically, removing by high-temperature heating or dissolving corrosion using a solvent or gas; electrochemically dissolving; thermally There are various methods such as removing by melting or softening. For deburring soft materials such as copper and aluminum, there is a liquid honing method in which abrasive grains are sprayed onto the workpiece together with compressed air and water at high speed from a nozzle, or they are placed in a barrel together with media, water, and compound. A barrel polishing method is used in which a workpiece is placed and a relative motion is applied between the workpiece and media to remove burrs.

(Issue 8 to be solved by the invention) However, in the liquid honing method or the barrel polishing method, for example, for soft materials such as copper and aluminum,
It is easy to be removed excessively, and it has the disadvantage that it is difficult not only to set the processing conditions but also to maintain the desired processing accuracy.

That is, in the conventional method, when attempting to completely remove burrs, pre-processing accuracy is impaired, and when attempting to maintain pre-processing accuracy, burrs cannot be completely removed.

The present invention has been made in view of the above circumstances, and provides a deburring method and device that can completely remove burrs generated on soft materials without impairing pre-processing accuracy. The purpose is to

[Structure of the Invention] (Means and Effects for Solving the Problems) The deburring method and device of the present invention combine brushing with a brush and barrel processing with media stored in a barrel tank. This makes it possible to remove burrs with high precision and high efficiency, without sacrificing pre-processing accuracy, even if they occur in complex areas, such as the opening edge of a spiral groove in a soft material.

(Example) Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.

Figures 1 to 3 show the deburring device (D
) is shown. On the other hand, Fig. 4 shows this deburring device (
A cylindrical workpiece (W) is shown to be deburred by D). This workpiece (W) is made of a soft material such as copper or aluminum, and its outer periphery has
A spiral groove (S) is carved by cutting. As shown in FIG. 5, burrs (B) are generated at the opening edge of this spiral groove (S). The burr removing device (D) of this embodiment is for removing the burrs (B). Therefore, this deburring device holds a pair of workpieces (W), (W) so that their longitudinal direction is in the vertical direction (in the direction of arrow (1)), raises and lowers them, and moves them around their axis (2). The workpiece holder (4) rotates in the direction of the arrow (3), and the workpiece holder (4) rotates in the direction of the arrow (3).
The workpiece (W) held by the workpiece (W), (W) has a brush processing section (5) provided on the side that brushes the workpiece m, (ν), and the workpiece is held by the workpiece holding section (4). Processed workpiece (W). (W) Workpiece provided below (W)
．． (W) to the barrel processing section (6), and the workpiece (W) after deburring has started and finished, and a workpiece transport section that transports (W) to the holding position by the workpiece holding section (4). (7
), workpiece holding section (4) and brush processing section (5)
and barrel processing section (B) and workpiece conveyance section (7)
and a processing control section (8) that electrically controls the processing according to a preset program. Therefore, the longitudinal direction of the workpiece holding part (4) is the vertical direction (arrow (1)
A column (9) is erected so that the column (9) is erected, a truncated conical fixing base (9a) fixes the lower end of the column (9), and a truncated conical fixing base (9a) is attached to the upper end of the column (9) in the center. an arm (10) installed so that its longitudinal direction is horizontal;
Columns (11), (11) are erected on the upper surface of the middle part on both sides of this arm (lO) so that the longitudinal direction is the vertical direction.
, first motors (12), (yo2) attached to the upper ends of these columns (11), (11), and these first motors (12). Feed screws (13), (13) are connected to the rotating shaft of (12) so that the longitudinal direction is in the vertical direction (arrow (1> direction)), and these feed screws (13)
). (13) are screwed together and are attached to columns (11), (11) so as to be able to slide vertically
4). (l4) and these tables (14). (1
4), a second motor (15) integrally fixed to the
(15), bearings (1B), (1B) provided on both sides of the arm (lO), and these bearings (1B>, (1B))
spindles (17), (17) that are pivotally supported in ), (18), and bearing (16). (1B) and air chucks (19), (19) provided at the lower ends of the spindles (17), (17) to removably grip the workpieces (W), (1B). It has become.

In other words, the air chucks (19), (19) installed at symmetrical positions with the support (8) as the center are moved up and down in the direction of the arrow (1) by the first motors (12), (12). The barrel processing part (6) is provided so as to be rotated in the direction of the arrow (3) by the motors (15), (15) of 2. On the other hand, the barrel processing part (6) coaxially surrounds the lower half of the column (8). A cylindrical pedestal (20) provided in the pedestal (20) and a stepped portion (
A donut-shaped barrel tank ( 24) and
An internal gear (25) provided on the lower inner peripheral edge of the barrel tank (24), a columnar holder (26) erected between the fixed base (9a) and the pedestal (20), This holding body 26
) and a spur gear (28) connected to the rotation shaft (27a) of the third motor (27) and meshed with the internal gear (25). It consists of In the barrel tank (24), the workpieces (W) and (W) held in the workpiece holding part (4) are placed.
A full-circle recess (30) is provided for storing media (29) for polishing.This recess (30) is used to hold the barrel lozenge (24), the spur gear (28) and the internal gear. (
25), the third motor (27) drives the roller bearing (22) in the circumferential (arrow (23)) direction, while the opening thereof is always connected to the workpiece holding part. (4) are provided so as to face the workpieces (W) and (W) held by the workpieces (W). On the other hand, the brush processing part (5) is
A pair of bases (31) are provided adjacent to the outer periphery of the bases (31) and located symmetrically with respect to the pillar (8). (31)
, tables (33), (33) provided on these bases (31), (31) and movable in the radial direction (arrow (32)) of the barrel tank (24);
3) , (33) A circular brush (34), (34) mounted so that the axis is in the direction of arrow (1)
And these circular brushes (34). (34), a circular brush (34),
(34) in the direction of arrow (34a).
motors (35), (35) and circular brushes (34)
, (34) A cover that covers the parts other than the polishing action part (3[f). (3B) and table (33),
Feed screw (37), (37) screwed into (33)
The table (33) is fixed to the bases (31), (31), and their rotating shafts are connected to the feed screws (37), (37). (33) in the direction of arrow (32). It consists of (38). Furthermore, the workpiece conveyance section (7) is a so-called industrial robot, and is located adjacent to the outer periphery of the pedestal (20) and at a position approximately 90 degrees out of phase from the bases (31), (31). A pair of robot main bodies (39), (39)
), and the robot body (39). (39) with an arrow (
An arm (41) rotatably extended in the direction 40).
(41) and these arms (41). It consists of fingers (42) which are provided at the tip of the workpiece holding section (41) and detachably grip the workpieces (W) and (W) held by the workpiece holding section (4>). Then,
The lengths of arms (41), (41) are determined by their arrows (4
By rotating in the 0> direction, the fingers (42), (42) move towards the workpiece (W). (W). Next, the processing control unit (it) controls the first to fifth motors (12). (12). (15). (15), (2
7). (35), (35), (38), (38
) and the robot main body (39), (39) and the air chuck (19), (19),
The main body is a microcomputer that organically controls these in accordance with the procedures described below.

Next, the deburring method of this embodiment using the deburring device (D) having the above configuration will be described.

First, a control signal SA is applied from the processing control section (8) to the first motor (12), (12), and the air chuck (19)
, (19) By raising and lowering the finger (42)
, (42), the air chucks (19), (19) are positioned at the attachment/detachment position of the workpieces (W), (W).

Next, the control signal SB is sent from the processing control section (8) to the robot main body (39). (39), and a control signal SH is applied from the processing control section (8) to the air chuck (19).
(19), and the fingers (42), (42) of the position workpiece conveying section (A) move the workpiece (W),
(W) and hold the arm (41). (41) to hold the workpieces (W), (W) in the air chuck (19).
) and (19) are held coaxially. Next, the control signal SC is sent from the processing control section 8) to the second motor (15),
(15) to rotate the spindles (17) in the direction of arrow (3). Next, the processing control section (8
) to the fourth motor (35), (3
5) to rotate the circular brushes (34), (34) in the direction of the arrow (34a). Furthermore, the control signal SE is sent from the processing control section (8) to the fifth motor (3g),
(38) and the table (33), (33) is gripped by the air chuck (19), (19) via the feed screw (37), (37).
, move forward toward (W). Then, the circular brush (
34), one end of (34) is the workpiece (W), (
As shown in FIG. 6, the burrs (B) that are in contact with the spiral grooves W) and are generated at the open end edges of the spiral grooves (S) are roughly removed. At this time, the control signal SA is sent from the processing control section (8) to the first motor (12). (12) and table (14). By reciprocating (14) within a certain range, the circular brushes (34) and (34)
Make sure to hit all parts of the spiral groove (S). When the rough deburring by the circular brushes (34) and (34) is completed, the control signal SE is applied from the processing control section (8) to the fifth motors (38) and (3g), and the table (3
3). (33) with air chuck (19). (1
9) The workpieces (W) and (W) gripped by the workpieces (W) are moved back in a direction away from the workpieces (W). At this time, a control signal SF is applied from the processing control unit (8) to the third motor (27), and the barrel tank (24) is connected to the roller bearing (22) via the spur gear (28) and the internal gear (25). ...Circumference at the top (arrow (23))
drive in the direction. Next, a control signal SA is applied from the processing control unit (8) to the first motors (12), (l2), and the workpieces (W), (W) gripped by the air chucks (19), (19) are ) is lowered. Then, the workpiece (W). (W) is barrel M (24
)...The workpiece (W), which has been immersed in the media (29) and has been deburred to a large brim, the opening edge of the spiral groove (S) of (W) is the seventh As shown in the figure,
The media (29)... is chamfered. Next, when this chamfering is completed, the machining control section (8) applies the E11 control signal SA to the first motors (12), (12), and the Workpiece (W
), (W) are raised to the attachment/detachment position by the fingers (42), (42).

Furthermore, a control signal SB is applied from the processing control section (8) to the robot main body sections (39), (39), and a control signal SH is applied from the processing control section (8) to the air chuck (19).
), (19) with 1 eye added air chuck (19), (19
) is released from the workpiece (W). (W) is gripped by air chucks (19) and (19) and moved to arm (41). (41) to rotate the workpiece (W).
(W) is removed from the deburring device (D).

As described above, the deburring method and apparatus (D
) is a circular brush (34). Brushing by (34) and barrel $! (24) is combined with barrel machining using the media (29)..., so that the workpieces (W) and (W) made of soft materials such as copper and aluminum can be processed in a spiral manner. Even burrs generated on the opening edge of (S) can be removed with high precision and high efficiency without impairing pre-processing accuracy.

In the above embodiment, the rotation of the barrel tank (24) is not limited to the gear mechanism, and other driving methods such as belt driving may be used.

Further, instead of the circular brushes (34), (34), a bowl-shaped brush, a wide brush, etc. may be used. moreover,
The number of workpieces arranged in the circumferential direction of the barrel tank (24) may also be set arbitrarily. Furthermore, a circular brush (3
4), (34) brushing and barrel tank (
24) stored in the media (29)... may be repeated alternately, or the barrel processing may be performed prior to brushing.

[Effects of the Invention] The deburring method and device of the present invention combines brushing with a brush and barrel processing with media stored in a barrel tank, so that it can be used to remove burrs from soft materials such as copper and aluminum. Even burrs generated in complex areas such as the opening edge of a spiral groove formed on a workpiece can be removed with high precision and high efficiency without impairing pre-processing accuracy. As a result, it is possible to contribute to improving product yield and processing quality.

[Brief explanation of the drawing]

FIG. 1 is a front view of the main parts of a deburring device used in the deburring method according to an embodiment of the present invention, FIG. 2 is a plan view of the main parts, FIG. 3 is an explanatory diagram of the processing control section, and FIG. The figure is a front view of the workpiece, FIG. 5 is a sectional view taken along the line V-V in FIG. 4, and FIGS. 6 and 7 are explanatory views of a deburring method according to an embodiment of the present invention . (D) ... Deburring device, (4) ... Workpiece holding section, (5) ... Brush processing section, (6) ... Barrel processing section, (24) ... Barrel tank, ( 34)...Circular brush.

Claims (2)

[Claims] (1) In a deburring method for removing burrs from a workpiece with burrs, there is a brushing step in which the workpiece is brushed with a brush, and a barrel processing step in which the burr removal area is barrel-processed after this brushing step. A deburring method characterized by comprising: (2) In a deburring device that deburrs a cylindrical workpiece with burrs on its outer periphery, the workpiece is held and rotated around its axis, and raised and lowered in the direction of the axis. It has a workpiece holding part and a barrel tank provided directly below the workpiece held by the workpiece holding part and containing media, and this is achieved by moving the barrel tank and causing the medium to flow. a barrel processing section that performs barrel processing on the workpiece immersed in the medium;
The brush has a circular brush provided on the side of the workpiece held by the workpiece holding part, and brushes the workpiece by bringing the circular brush into contact with the workpiece while rotating the brush. A deburring device characterized by comprising a processing section.