Rotary compressor with increased heating ability and refrigerant circuit for an air conditioner

What is claimed is: 1. A rotary compressor comprising: a compressor body including an airtight container that has a refrigerant intake opening and a refrigerant discharge opening, a refrigerant compression unit that has a cylinder and a rotary piston housed in the cylinder and that is provided in the airtight container, and an electric motor that drives the rotary piston and is provided in the airtight container; and an accumulator configured to separate a refrigerant suctioned into the refrigerant intake opening into gas and liquid, wherein the accumulator and the refrigerant intake opening are connected via a refrigerant intake pipe, a suction opening of the refrigerant intake pipe is arranged to be opened to an inside of the accumulator, an injection pipe for pouring the refrigerant into the rotary compressor is inserted into the accumulator from above, a discharge opening of the injection pipe is drawn to face the suction opening of the refrigerant intake pipe in a refrigerant gas space of the accumulator, and the discharge opening of the injection pipe enters an inside of the suction opening of the refrigerant intake pipe. 2. The rotary compressor according to claim 1 , wherein a filter and a gas-liquid separation plate are arranged in the accumulator such that the filter is positioned on an upper side, and the injection pipe penetrates the filter and the gas-liquid separation plate and extends to an inside of the refrigerant gas space, and a penetrated portion is sealed by sealing unit. 3. The rotary compressor according to claim 2 , wherein the sealing unit includes a first sealing member that is formed in an annular shape toward the filter around a through hole of the gas-liquid separation plate, a cylindrical second sealing member that is fitted to an inside of the first sealing member with a clearance narrower than a thickness of the filter and that is fixed to a side of the injection pipe, and a peripheral edge portion of a through hole of the filter that is interposed between the first sealing member and the second sealing member, and the second sealing member is pressed into the first sealing member along with the peripheral edge portion of the through hole of the filter. 4. The rotary compressor according to claim 1 , wherein the injection pipe includes a first throttle portion with a reduced diameter at a pipe end on a side of the discharge opening. 5. The rotary compressor according to claim 1 , wherein the refrigerant intake pipe includes a second throttle portion with a reduced diameter in a portion adjacent to the suction opening. 6. A refrigerant circuit for an air conditioner of heat pump type comprising an outdoor unit and an indoor unit, the outdoor unit and the indoor unit being connected by a liquid side refrigerant pipe and a gas-side refrigerant pipe, the indoor unit comprising an indoor heat exchanger, and an indoor blowing fan; and the outdoor unit comprising a four-way valve, an outdoor heat exchanger, an outdoor blowing fan, an outdoor expansion valve, and a rotary compressor comprising: a compressor body including an airtight container that has a refrigerant intake opening and a refrigerant discharge opening, a refrigerant compression unit that has a cylinder and a rotary piston housed in the cylinder and that is provided in the airtight container, and an electric, motor that drives the rotary piston and is provided in the airtight container; and an accumulator configured to separate a refrigerant suctioned into the refrigerant intake opening into gas and liquid, wherein the accumulator and the refrigerant intake opening are connected via a refrigerant intake pipe, a suction opening of the refrigerant intake pipe is arranged to be opened to an inside of the accumulator, an injection pipe that injects the refrigerant to the rotary compressor, together with a refrigerant return pipe are inserted into the accumulator from above, wherein the refrigerant return pipe is configured to return a low-pressure refrigerant to the accumulator via the gas-side refrigerant pipe, and the injection pipe is branched from the liquid-side refrigerant pipe at a position of said liquid-side refrigerant pipe on an upstream side of the outdoor expansion valve during heating operation; and a discharge opening of the injection pipe is drawn to face the suction opening of the refrigerant intake pipe in a refrigerant gas space of the accumulator. 7. The refrigerant circuit according to claim 6 , wherein the discharge opening of the injection pipe enters an inside of the suction opening of the refrigerant intake pipe. 8. The refrigerant circuit according to claim 6 , wherein a filter and a gas-liquid separation plate are arranged in the accumulator such that the filter is positioned on an upper side, and the injection pipe penetrates the filter and the gas-liquid separation plate and extends to an inside of the refrigerant gas space, and a penetrated portion is sealed by sealing unit. 9. The refrigerant circuit according to claim 8 , wherein the sealing unit includes a first sealing member that is formed in an annular shape toward the filter around a through hole of the gas-liquid separation plate, a cylindrical second sealing member that is fitted to an inside of the first sealing member with a clearance narrower than a thickness of the filter and that is fixed to a side of the injection pipe, and a peripheral edge portion of a through hole of the filter that is interposed between the first sealing member and the second sealing member, and the second sealing member is pressed into the first sealing member along with the peripheral edge portion of the through hole of the filter. 10. The refrigerant circuit according to claim 6 , wherein the injection pipe includes a first throttle portion with a reduced diameter at a pipe end on a side of the discharge opening. 11. The refrigerant circuit according to claim 6 , wherein the refrigerant intake pipe includes a second throttle portion with a reduced diameter in a portion adjacent to the suction opening.