Embodiments of the present invention will now be described by way of examples and with reference to the accompanying drawings, in which:
Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.
The polishing apparatus 30 has a lower polishing plate 32, whose upper face acts as a polishing face, and an upper polishing plate 36, whose lower face acts as a polishing face and which is provided above the lower polishing plate 32 and capable of moving in the vertical direction.
The polishing plates 32 and 36 are rotated, about their own axes, in the opposite directions by a plate driving unit 40, 42. The upper polishing plate 36 is rotated about its own axis and moved in the vertical direction by the plate driving unit 40, which is mounted on a base 38. The plate driving unit 40 includes a vertical drive mechanism (not shown), e.g., cylinder unit, and a rotary drive mechanism (not shown), e.g., motor.
A motor (a plate driving unit) 42 rotates the lower polishing plate 32.
Carriers 44, each of which has through-holes for holding workpieces, are provided between the lower polishing plate 32 and the upper polishing plate 36. As shown in
A rotary plate 52 is attached on the upper polishing plate 36 by supporting rods 50 and rotated together with the upper polishing plate 36.
A plurality of ring-shapes ducts 54 and 56 are coaxially fixed on the rotary plate 52. In the present embodiment, two ducts are coaxially provided.
Slurry supply holes 60 are formed in bottom faces of the ring-shaped ducts 54 and 56.
Slurry is supplied from a slurry supply source 64 to the ring-shaped ducts 54 and 56 via a pipe 62. A flow control valve 66 is provided to the pipe 62.
Firstly, the slurry is supplied from the pipe 62 to receive pipes 70, which are vertically extended from arms 68 (see
The arms 68 and support arms 72 are supported on the base 38 by known supporting means (not shown).
Slurry supply holes 76 are radially formed in the upper polishing plate 36 (see
The slurry is supplied to three of the slurry supply holes 76, which are located in an inner part of the upper polishing plate 36, from the inner duct 54, so that the slurry can be supplied to an inner polishing zone of the polishing face of the lower polishing plate 32.
On the other hand, the slurry is supplied to another three of the slurry supply holes 76, which are located in an outer part of the upper polishing plate 36, from the outer duct 56, so that the slurry can be supplied to an outer polishing zone of the polishing face of the lower polishing plate 32.
The used slurry, which has fallen from the lower polishing plate 32, is returned to the slurry supply source 64 via a recovery duct 80 and a return pipe 82 so as to reuse.
In the above described double face polishing apparatus, the lower polishing plate 32, the upper polishing plate 36 and the carriers 44 are rotated, with supplying the slurry to the lower polishing plate 32, so as to polish the both faces of each workpiece clamped between the polishing plates 32 and 36.
While polishing the workpieces, the slurry is supplied from the inner duct 54 to the inner polishing zone of the lower polishing plate 32 via the supply pipes 78; the slurry is supplied from the outer duct 56 to the outer polishing zone of the lower polishing plate 32 via the supply pipes 78. Unlike the conventional polishing apparatus in which the slurry is supplied from one duct via the supply pipes, lengths of the supply pipes 78 can be shortened, variation of the lengths thereof can be restrained, flow resistance therein can be reduced and the slurry hardly stays therein, so that an amount of supplying the slurry can be easily controlled.
Namely, the slurry can be uniformly supplied to the supply pipes 78 and the amount of the slurry can be controlled by the flow control valve 66, so that the amount of supplying the slurry can be easily controlled.
In the above described embodiment, two ring-shaped ducts 54 and 56 are coaxially provided, but number of the ducts is not limited to two. Three or more ring-shaped ducts may be coaxially provided. In this case, three or more polishing zones are formed in the lower polishing plate 32, and the slurry is supplied to each of the polishing zones from the corresponding ring-shaped duct via the supply pipes 78.
In the above described embodiment, three slurry supply holes 76 correspond to the inner polishing zone of the lower polishing plate 32 and another three slurry supply holes 76 correspond to the outer polishing zone thereof, but number of the slurry supply holes 76 corresponding to each of the polishing zones is not limited to three.
A second embodiment of the double face polishing apparatus of the present invention will be explained with reference to
In the second embodiment, number of the slurry supply sources, e.g., two, is equal to that of the ring-shaped ducts. For example, as shown in
In the present embodiment, the flow control valves 55 and 57 are capable of controlling the amounts of supplying the slurry to the ring-shaped ducts 54 and 56. Therefore, the amount of the slurry supplied to each polishing zone of the lower polishing plate 32 can be easily controlled.
Preferably, a temperature adjusting unit (not shown), which is capable of adjusting temperature of the slurry, is provided to at least one of the slurry supply sources 65 and 67.
The temperature of the slurry will be increased by polishing the workpieces. If the temperature is increased, mechanical and chemical polishing rate is increased. By increasing the polishing rate, the workpieces cannot be uniformly polished in each of the polishing zones. By adjusting the temperature of the slurry, the polishing rates can be equalized in each of the polishing zones.
In the above described embodiments, the carriers 44 are rotated and orbited by the sun gear 46 and the internal gear 48. Further, the carriers 44 may be connected to a carrier holder (not shown), and the carrier holder may be orbited, without rotating about its own axis, by a proper mechanism, e.g., crank mechanism.
The invention may be embodied in other specific forms without departing from the spirit of essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Number | Date | Country | Kind |
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2006-237830 | Sep 2006 | JP | national |