Co-rotating scroll compressor having synchronization mechanism

What is claimed is: 1 . A compressor comprising: a shell assembly; a first compression member rotatable relative to the shell assembly about a first axis; a bearing housing coupled to the first compression member and rotatable relative to the shell assembly about the first axis, the bearing housing including a plurality of pins extending therefrom; and a second compression member rotatable relative to the shell assembly about a second axis that is spaced apart from the first axis, the second compression member cooperates with the first compression member to define fluid pockets, the second compression member including a base plate and a plurality of pin pockets, the pin pockets formed in the base plate and receiving the pins, wherein each of the pin pockets includes a working surface that engages and disengages a respective one of the pins, wherein at a given time during operation of the compressor, a first pin of the plurality of pins engages the working surface of its respective pin pocket and a second pin of the plurality of pins is disengaged from the working surface of its respective pin pocket to allow relative radial movement between the first axis and the second axis. 2 . The compressor of claim 1 , wherein the pin pockets are arcuate, wherein the working surface of each pin pocket includes a first arc center, and wherein each pin pocket further includes a non-working surface having a second arc center that is spaced apart from the first arc center. 3 . The compressor of claim 2 , wherein the working surface of each pin pocket spans a predetermined angle that is equal to 360 degrees divided by a total number of the pins. 4 . The compressor of claim 2 , wherein: when the first pin of the plurality of pins is engaged with the working surface of its respective pin pocket, the first pin of the plurality of pins is disengaged from the non-working surface of its respective pin pocket, and when the second pin of the plurality of pins is disengaged from the working surface of its respective pin pocket, the second pin of the plurality of pins is disengaged from the non-working surface of its respective pin pocket. 5 . The compressor of claim 4 , wherein at another given time during operation of the compressor: the first pin is disengaged from the working surface and the non-working surface of its respective pin pocket, and the second pin is engaged with the working surface of its respective pin pocket. 6 . The compressor of claim 4 , wherein each of the pin pockets further includes a transition surface disposed between the working surface and the non-working surface, and wherein the first compression member is movable to a position in which: the first pin of the plurality of pins is engaged with the working surface of its respective pin pocket, the second pin of the plurality of pins is disengaged from the working surface and non-working surface of its respective pin pocket, and a third pin of the plurality of pins is engaged with the transition surface. 7 . The compressor of claim 6 , further comprising a driveshaft coupled to the first compression member and including pin housings that receive respective pins thereby coupling the first compression member and the bearing housing. 8 . The compressor of claim 1 , wherein the pin pockets are formed in an outer diametrical surface of the base plate. 9 . The compressor of claim 1 , further comprising a driveshaft coupled to the first compression member and including pin housings that receive respective pins thereby coupling the first compression member and the bearing housing. 10 . A compressor comprising: a shell assembly; a first compression member rotatable relative to the shell assembly about a first axis; a bearing housing coupled to the first compression member and rotatable relative to the shell assembly about the first axis, the bearing housing including a plurality of pins extending therefrom; and a second compression member rotatable relative to the shell assembly about a second axis that is spaced apart from the first axis, the second compression member cooperates with the first compression member to define fluid pockets, the second compression member including: a base plate; and pin pockets formed in the base plate and receiving a respective one of the pins, wherein each of the pin pockets having a working surface, and wherein each of the pins engages and disengages the working surface of its respective pin pocket during operation of the compressor, wherein the pins and pin pockets allow relative movement between the first axis and the second axis during operation of the compressor. 11 . The compressor of claim 10 , wherein the working surface of each pin pocket has a first arc center and a non-working surface of each pin pocket has a second arc center, and wherein the second arc center is spaced apart from the first arc center. 12 . The compressor of claim 11 , wherein each of the pin pockets has a transition surface disposed between the working surface and the non-working surface, and wherein the first compression member is movable to a position in which: one of the pins is engaged with the working surface of its respective pin pocket, one of the pins is engaged with the transition surface of its respective pin pocket, and at least one of the pins is disengaged from the working surface, the non-working surface, and the transition surface of its respective pin pocket. 13 . The compressor of claim 10 , wherein the pin pockets are circumferentially disposed and spaced apart around the base plate and the pins are circumferentially disposed and spaced apart around an axial end surface of the bearing housing, and wherein the pin pockets are arcuate-shaped and formed in an outer diametrical surface of the base plate and extend through the base plate. 14 . A compressor comprising: a shell assembly; a first compression member rotatable relative to the shell assembly about a first axis; a second compression member rotatable relative to the shell assembly about a second axis that is spaced apart from the first axis, the second compression member cooperates with the first compression member to define fluid pockets, the second compression member including a base plate and a plurality of arcuate-shaped pin pockets, the pin pockets formed in the base plate; and a plurality of pins coupled to the first compression member and received in the pin pockets, wherein at a given time during operation of the compressor, a first pin of the plurality of pins engages a working surface of its respective pin pocket and a second pin of the plurality of pins is disengaged from the working surface of its respective pin pocket to allow relative radial movement between the first axis and the second axis. 15 . The compressor of claim 14 , wherein the working surface has a predetermined angle, and wherein the predetermined angle is equal to 360 degrees divided by a total number of the pins. 16 . The compressor of claim 14 , wherein the pin pockets are arcuate, wherein the working surface of each pin pocket includes a first arc center, and wherein each pin pocket further includes a non-working surface having a second arc center that is spaced apart from the first arc center. 17 . The compressor of claim 16 , wherein: when the first pin of the plurality of pins is engaged with the working surface of its respective pin pocket, the first pin of the plurality of pins is disengaged from the non-working surface of its respective pin pocket, and when the second pin of the plurality of pins is d