Air-conditioning apparatus and relay unit

The invention claimed is: 1. An air-conditioner apparatus, comprising: a refrigeration cycle that connects a compressor that pressurizes a refrigerant, a refrigerant flow path switching apparatus that switches a circulation path of said refrigerant, a heat source side heat exchanger that makes said refrigerant exchange heat, a plurality of expansion valves that adjust the pressure of said refrigerant, and a plurality of intermediate heat exchangers that exchange heat between said refrigerant and a heat medium different from said refrigerant, by piping, a heat medium circulation circuit that connects an intermediate heat exchanger of said plurality of intermediate heat exchangers, a pump that makes said heat medium related to heat exchange of said intermediate heat exchanger circulate, and a plurality of use side heat exchangers that exchange heat between said heat medium and the air related to an air-conditioning space, by piping, wherein a heat source apparatus that is installed in an outdoor space of a building or in a space connected to the outdoor space accommodates said compressor, said refrigerant flow path switching apparatus, and said heat source side heat exchanger, and a relay unit that is provided in a non-air-conditioning space, which is different from said air-conditioning space and said outdoor space, accommodates said plurality of expansion valves, said pump, said plurality of intermediate heat exchangers, a plurality of heat medium flow path switching apparatuses and a plurality of pipelines including branches, the heat source apparatus and the relay unit are connected by only two pipelines to form said refrigeration cycle, and wherein each of a plurality of indoor units that accommodate a respective one of said use side heat exchangers is installed at a position where said air-conditioning space is capable of being air-conditioned, said relay unit and each of said indoor units are connected by only two pipelines, respectively, from outside of a wall which partitions the inside and the outside of said air-conditioning space, to form said heat medium circulation circuit, one of said plurality of pipelines including branches connects one of said plurality of intermediate heat exchangers and a plurality of said indoor units, said plurality of heat medium flow path switching apparatuses are disposed on respective branches of said plurality of pipelines including branches, and the air-conditioner apparatus has a simultaneous cooling and heating operation in which heating of said heat medium by at least one of said plurality of intermediate heat exchangers and cooling of said heat medium by at least another one of said plurality of intermediate heat exchangers are performed simultaneously, and said heated heat medium is fed to a use side heat exchanger of an indoor unit performing heating and said cooled heat medium is fed to a use side heat exchanger of another indoor unit performing cooling by switching some or all of said heat medium flow path switching apparatuses, wherein when a heating only operation is performed, at least one of said plurality of expansion valves adjusts the pressure of said refrigerant that flows from an intermediate heat exchanger for heating, said intermediate heat exchanger for heating is one of said plurality of intermediate heat exchangers and heats said heat medium, when a cooling only operation is performed, at least another one of said plurality of expansion valves adjusts the pressure of said refrigerant that flows from said heat source side heat exchanger and flows into an intermediate heat exchanger for cooling, said intermediate heat exchanger for cooling is one of said plurality of intermediate heat exchangers and cools said heat medium, and when the simultaneous cooling and heating operation is performed, at least one of said plurality of expansion valves adjusts the pressure of said refrigerant between said intermediate heat exchanger for heating and said intermediate heat exchanger for cooling. 2. The air-conditioner apparatus of claim 1 , wherein said relay unit performs said simultaneous cooling and heating operations by distributing the heat medium made to flow into each set of said two pipelines between said relay unit and said indoor units for heating use and cooling use. 3. The air-conditioner apparatus of claim 2 , wherein each intermediate heat exchanger is divided into said intermediate heat exchanger for cooling that cools said heat medium and said intermediate heat exchanger for heating that heats said heat medium, and said relay unit has pipelines that connect said plurality of expansion valves with said intermediate heat exchanger for cooling and intermediate heat exchanger for heating so as to make all amount of said refrigerant circulating through said refrigeration cycle flow through at least one of said intermediate heat exchanger for cooling and intermediate heat exchanger for heating. 4. The air-conditioner apparatus of claim 1 , wherein said relay unit and said indoor units are installed in the ceiling space on the same floor and a difference in height of the pipeline across said air-conditioning space and said non-air-conditioning space is suppressed to be equal to or less than the height of said ceiling space. 5. The air-conditioner apparatus of claim 1 , wherein said relay unit is provided in a space other than an upside of a living room which is said air-conditioning space in said building. 6. The air-conditioner apparatus of claim 1 , wherein in said refrigeration cycle, said plurality of intermediate heat exchangers are constituted by said intermediate heat exchanger for heating that has a function to heat said heat medium by making said refrigerant release heat and said intermediate heat exchanger for cooling that has a function to cool said heat medium by making the refrigerant absorb heat, and said heat medium circulation circuit is connected by piping with the plurality of heat medium flow path switching apparatuses that switch flow paths for allowing said heat medium related to heating by said intermediate heat exchanger for heating to pass to the use side heat exchanger that heats the air in said air-conditioning space, or for allowing said heat medium related to cooling by said intermediate heat exchanger for cooling to pass to the use side heat exchanger that cools the air in said air-conditioning space. 7. The air-conditioner apparatus of claim 3 , wherein each of said heat medium flow path switching apparatuses is configured by providing a two-way switching valve or a three-way switching valve at the flow-in side and flow-out side of the heat medium of said use side heat exchanger respectively. 8. The air-conditioner apparatus of claim 6 , wherein in said heating only operation, said high temperature refrigerant is made to circulate through said intermediate heat exchanger for heating and said heat medium related to heating is made to circulate through the heat medium circulation circuit, in said cooling only operation, said low temperature refrigerant is made to circulate through said intermediate heat exchanger for cooling and said heat medium related to cooling is made to circulate through the heat medium circulation circuit, and in said simultaneous cooling and heating operation, the refrigerant is made to pass through said intermediate heat exchanger for heating and said intermediate heat exchanger for cooling, and the heat medium is independently made to circulate through a heat medium flow path related to heating and a heat medium flow path related to cooling by said plurality of heat medium flow path switching apparatuses. 9. The air-conditioner apparatus of claim 1 , further comprising: a heat source apparatus side cont