Scroll compressor that includes a non-orbiting scroll member having a connection passage portion connected first valve assembly and second valve assembly

What is claimed is: 1. A scroll compressor, comprising: a casing; an orbiting member provided within the casing, and the orbiting member to perform an orbiting motion; a non-orbiting member, wherein the orbiting member and the non-orbiting member to form a compression chamber, the compression chamber having a suction chamber, an intermediate pressure chamber and a discharge chamber, wherein the non-orbiting member is provided with a non-orbiting scroll; a back pressure chamber assembly coupled to the non-orbiting scroll to form a back pressure chamber; a discharge hole configured to communicate between the compression chamber and an inner space of the casing; a first valve assembly configured to open and close the discharge hole, the first valve assembly provided on an outer circumferential surface of the non-orbiting member; and a second valve assembly configured to control the first valve assembly, the second valve assembly being provided on an outer circumferential surface of the non-orbiting member, wherein the non-orbiting member includes a plurality of bypass holes, and wherein a plurality of check valves are provided at the plurality of bypass holes, respectively, to open and close the corresponding bypass hole, wherein the non-orbiting member is provided with a connection passage groove, and the first valve assembly and the second valve assembly are coupled to each other via the connection passage groove, wherein the connection passage groove is recessed into one side surface of the non-orbiting scroll facing the back pressure chamber assembly or one side surface of the back pressure chamber assembly facing the non-orbiting scroll between the non-orbiting scroll and the back pressure chamber assembly. 2. The scroll compressor of claim 1 , wherein the first valve assembly includes a valve to operate based on a pressure difference, and the second valve assembly includes a valve to be electronically controlled. 3. The scroll compressor of claim 1 , wherein the first valve assembly comprises: a valve guide having a valve space to provide communication with the discharge hole, an exhaust hole to provide communication between the valve space and a low pressure portion of the casing, a differential pressure space formed at one side of the valve space, and an injection hole to provide communication between the differential pressure space and the second valve assembly such that pressure is applied to the differential pressure space; and a valve at the valve space to open and close the discharge hole based on pressure at the differential pressure space. 4. The scroll compressor of claim 1 , wherein the second valve assembly comprises: a multifold part having a plurality of passages coupled to the back pressure chamber, a low pressure portion of the casing and the first valve assembly, respectively; and a valve part selectively connecting each passage of the multifold part to change a flow direction of a refrigerant. 5. The scroll compressor of claim 1 , further comprising a valve accommodation groove formed on at least one of the non-orbiting scroll or the back pressure chamber assembly, wherein the check valve is provided in the valve accommodation groove, wherein the valve accommodation groove includes a plurality of valve accommodation grooves, wherein the plurality of check valves are provided at the plurality of valve accommodation grooves, respectively, and wherein a communication groove is provided between two of the plurality of valve accommodation grooves. 6. The scroll compressor of claim 1 , wherein the casing is provided with two terminals. 7. The scroll compressor of claim 6 , wherein a first one of the two terminals is electrically connected to a driving motor, and a second one of the two terminals is electrically connected to the second valve assembly. 8. The scroll compressor of claim 1 , further comprises a high/low pressure dividing plate attached to a driving motor to separate the inner space of the casing into a low pressure portion and a high pressure portion, and wherein an overheat preventing device is provided on the high/low pressure dividing plate, and wherein the overheat preventing device has a portion accommodating a valve, the portion being spaced from the high/low pressure dividing plate. 9. A scroll compressor, comprising: a casing having a hermetic inner space separated into a low pressure portion and a high pressure portion; an orbiting scroll disposed within the inner space of the casing, and the orbiting scroll to perform an orbiting motion; a non-orbiting scroll, wherein the orbiting scroll and the non-orbiting scroll to form a compression chamber, the compression chamber having a suction chamber, an intermediate pressure chamber and a discharge chamber; a back pressure chamber assembly coupled to the non-orbiting scroll to form a back pressure chamber; a bypass hole provided at the intermediate pressure chamber; a check valve at the bypass hole to open and close the bypass hole; a valve accommodation groove formed on at least one of the non-orbiting scroll or the back pressure chamber assembly, wherein the check valve is provided in the valve accommodation groove; a communication passage to provide communication between the valve accommodation groove and the low pressure portion of the casing; a first valve assembly provided on an outer circumferential surface of the back pressure chamber assembly or the non-orbiting scroll to selectively open and close the communication passage; and a second valve assembly provided on an outer circumferential surface of the back pressure chamber assembly or the non-orbiting scroll, and coupled to the first valve assembly, the second valve assembly to control opening and closing operations of the first valve assembly such that the first valve assembly opens and closes the communication passage, wherein the non-orbiting scroll or the back pressure chamber assembly is provided with a connection passage portion, and the first valve assembly and the second valve assembly are coupled to each other via the connection passage portion, wherein a middle portion of the connection passage portion is recessed into one side surface of the non-orbiting scroll facing the back pressure chamber assembly or one side surface of the back pressure chamber assembly facing the non-orbiting scroll between the non-orbiting scroll and the back pressure chamber assembly, and wherein both end portion of the connection passage portion are configured in the form of holes that are formed from both ends of the middle portion to an outer circumferential surface of the non-orbiting scroll or the back pressure chamber assembly in a penetrating manner. 10. The scroll compressor of claim 9 , wherein the first valve assembly comprises: a valve guide having a valve space to provide communication with the communication passage, an exhaust hole to provide communication between the valve space and the low pressure portion, a differential pressure space formed at one side of the valve space, and an injection hole to provide communication between the differential pressure space and the second valve assembly such that pressure is applied to the differential pressure space; and a valve at the valve space to open and close the communication passage based on pressure at the differential pressure space. 11. The scroll compressor of claim 9 , wherein the second valve assembly comprises: a multifold part having a plurality of passages coupled to the back pressure chamber, the low pressure portion of the casing and the first valve assembly, respectively; and a valve part selectively connecting each passage of the multifold part to change a