Holding plate for piloted scroll compressor

What is claimed is: 1. A scroll compressor, comprising: a housing; an orbiting scroll body in the housing, the orbiting scroll body including a first base and a first scroll rib, the first scroll rib projecting from the first base; a non-orbiting scroll body in the housing, the non-orbiting scroll body including a second base and a second scroll rib, the second scroll rib projecting from the second base, wherein the first and second scroll ribs mutually engage, the orbiting scroll body being movable along a path about an axis relative to the a non-orbiting scroll body for compressing of fluid; a pilot ring positioned to engage a piloted surface of the non-orbiting scroll body to limit movement of the non-orbiting scroll body in a radial direction; and a holding plate securing the pilot ring and the non-orbiting scroll body to prevent rotation between the non-orbiting scroll body and the pilot ring and to maintain a gap defined between the pilot ring and the piloted surface of 1 millimeter or less for piloting, the holding plate forming surface to surface contact with the non-orbiting scroll body along a contact surface that extends in a contact plane, the contact plane oriented in a direction transverse to the axis, wherein the holing plate contacts the pilot ring in a contact surface region parallel to the contact plane. 2. The scroll compressor of the claim 1 , wherein the holding plate forms surface to surface contact with the non-orbiting scroll body in a plane horizontal and perpendicular to the axis, the axis being vertical. 3. The scroll compressor of claim 2 , wherein the holding plate includes horizontally flat top and bottom surfaces extending a full length of the holding plate. 4. The scroll compressor of claim 1 , wherein the non-orbiting scroll body comprises a shoulder along an upper side at an outer periphery thereof, the shoulder having including a raised boss region with a machined flat extending horizontally, the machined flat forming said surface to surface contact of the non-orbiting scroll with the holding plate. 5. The scroll compressor of claim 1 , wherein the holding plate includes opposite end regions and a central region, the central region located between the opposite end regions, the central region secured to the non-orbiting scroll body and the opposite end regions secured to the pilot ring, wherein each region includes a mounting hole, each mounting hole projecting in a direction vertically through the holding plate. 6. The scroll compressor of claim 1 , wherein the holding plate comprises: top and bottom surfaces, an outer peripheral edge connecting the top and bottom surfaces, and includes a length extending horizontally, a width extending horizontally transverse to the length, and a thickness extending vertically transverse to the length and the width, the width being smaller than the length and greater than the thickness throughout the holding plate over an entire span of the holding plate. 7. The scroll compressor of claim 6 , wherein the holding plate includes opposite end regions and a central region, the central region located between the opposite end regions, the central region secured to the non-orbiting scroll body and the opposite end regions secured to the pilot ring, further comprising neck regions on opposite sides of the central region, each neck region between one of the opposite end regions and the central region, a cross-sectional area in a region of the width being variable and covering a reduced span in the neck regions that sufficient to allow contact between the non-orbiting scroll body and the pilot ring during operation. 8. The scroll compressor of claim 1 , wherein the holding plate comprises top and bottom surfaces, and an outer peripheral edge connecting the top and bottom surfaces, wherein the pilot ring includes a first locating surface and a second locating surface, the first and second locating surfaces extending vertically from a body of the pilot ring, the first locating surface extending in a first plane that is transverse to a second plane, the second locating surface being in the second plane, the holding plate adapted to contact the first and second locating surfaces along the outer peripheral edge to locate the holding plate relative to the pilot ring. 9. The scroll compressor of claim 8 , wherein the holding plate includes opposite first and second end regions and a central region, the central region located between the opposite end regions, the central region secured to the non-orbiting scroll body and the opposite end regions secured to the pilot ring, and wherein the first end region contacts the first locating surface and the second end region contacts the second locating surface. 10. The scroll compressor of claim 8 , wherein the first locating surface and second locating surface extend in the respective first and second planes that are mutually perpendicular. 11. The scroll compressor of claim 1 , wherein the pilot ring is formed separately from a crankcase, a plurality of posts extending axially between the crankcase and the pilot ring, the scroll bodies positioned in the attached pilot ring and crankcase, and further comprising fasteners securing the pilot ring and the crankcase, at least two of said fasteners also securing the holding plate to the pilot ring. 12. The scroll compressor of claim 1 , wherein the contact surface extends primarily horizontally. 13. The scroll compressor of claim 1 , further comprising a motor contained in housing below scroll bodies, the motor having a rotational output on a drive shaft, an eccentric on the drive shaft engaging the orbiting scroll body to impart orbiting movement of the orbiting scroll body during operation of the motor. 14. The scroll compressor of claim 1 , wherein the housing comprises an outer annular shell surrounding the pilot ring, the pilot ring is not in contact with but radially spaced from an inner periphery of the outer annular shell, further comprising a crankcase mounted to the pilot ring, wherein a crankcase in is contact with outer annular shell. 15. A scroll compressor, comprising: a housing; an orbiting scroll body in the housing, the orbiting scroll body including a first base and a first scroll rib, the first scroll rib projecting from the first base; a non-orbiting scroll body in the housing, the non-orbiting scroll body including a second base and a second scroll rib, the second scroll rib projecting from the second base, wherein the first and second scroll ribs mutually engage, the orbiting scroll body being movable relative to the a non-orbiting scroll body for compressing of fluid; a pilot ring positioned to engage a piloted surface of the non-orbiting scroll body to limit movement of the non-orbiting scroll body in a radial direction, a gap defined between the pilot ring and the piloted surface of 1 millimeter or less; and a holding plate securing the pilot ring and the non-orbiting scroll body to prevent rotation between the non-orbiting scroll body and the pilot ring and to maintain the gap for piloting, the holding plate being self-located both axially and rotationally on the pilot ring via contact with at least one shoulder formed on an external surface of the pilot ring. 16. The scroll compressor of claim 15 , wherein the holding plate comprises top and bottom surfaces, and an outer peripheral edge connecting the top and bottom surfaces, wherein the pilot ring includes a first locating surface and a second locating surface provided by the at least one shoulder, the first and second locating surfaces being extending vertically from a body of the pilot r