Air conditioning device for vehicle

What is claimed is: 1 . An air conditioning device for a vehicle, comprising: a blower that blows air toward an inside of a vehicle compartment; a compressor that compresses and discharges a refrigerant; a radiator that dissipates a heat of the refrigerant, which is discharged from the compressor, to the air thereby heating the air; a decompressor that decompresses the refrigerant after the heat of the refrigerant is dissipated in the radiator; a heat absorber in which the refrigerant decompressed in the decompressor absorbs heat from outside air; and a controller that determines whether the heat absorber is in a frosted state in which a frost is formed on the heat absorber or whether the heat absorber is in an estimated frosted state in which a frost is possibly formed on the heat absorber, the controller that performs a frost delay control, in which the controller increases a pressure of the refrigerant on a high-pressure side, thereby delaying a formation of the frost when the controller determines that the heat absorber is in the frosted state or the estimated frosted state: a heat medium circuit in which a heat medium circulates; and a pump that draws and discharges the heat medium, wherein the radiator has a refrigerant-heat medium heat exchanger that dissipates a heat of the refrigerant, which is discharged from the compressor, to the heat medium and a heat medium-air heat exchanger that performs a heat exchange between the heat medium and the air, and the controller reduces a volume of the heat medium discharged from the pump in the frost delay control. 2 . The air conditioning device for a vehicle according to claim 1 , further comprising an air mix door that adjusts a ratio between a volume of the air, which is blown by the blower and heated in the radiator, and a volume of a rest of the air blown by the blower, wherein the controller controls an operation of the air mix door to reduce the volume of the air heated in the radiator in the frost delay control. 3 . The air conditioning device for a vehicle according to claim 1 , wherein the controller, in the frost delay control, increases a rotational speed of the compressor to a specified rotational speed that is set relative to a target blowing temperature. 4 . The air conditioning device for the vehicle according to claim 1 , wherein the controller sets an opening degree of the decompressor so as to bring a subcooling degree of the refrigerant flowing into the decompressor closer to a target subcooling degree in the frost delay control, the target subcooling degree being set to bring a coefficient of performance of a cycle closer to a maximum value. 5 . (canceled) 6 . An air conditioning device for the vehicle comprising: a blower that blows air toward an inside of a vehicle compartment; a compressor that compresses and discharges a refrigerant; a radiator that dissipates a heat of the refrigerant, which is discharged from the compressor, to the air thereby heating the air; a decompressor that decompresses the refrigerant after the heat of the refrigerant is dissipated in the radiator; a heat absorber in which the refrigerant decompressed in the decompressor absorbs heat from outside air; a controller that determines whether the heat absorber is in a frosted state in which a frost is formed on the heat absorber or whether the heat absorber is in an estimated frosted state in which a frost is possibly formed on the heat absorber, the controller that performs a frost delay control, in which the controller increases a pressure of the refrigerant on a high-pressure side, thereby delaying a formation of the frost when the controller determines that the heat absorber is in the frosted state or the estimated frosted state; a heat medium circuit in which a heat medium circulates; and a pump that draws and discharges the heat medium, wherein the radiator has a refrigerant-heat medium heat exchanger dissipates a heat of the refrigerant, which is discharged from the compressor, to the heat medium and a heat medium-air heat exchanger that performs heat exchange between the heat medium and the air, the heat medium circuit has a bypass path in which the heat medium flows while bypassing the refrigerant-heat medium heat exchanger and a volume adjuster that adjusts a volume of the heat medium flowing through the bypass path, and the controller, in the frost delay control, is configured to control an operation of the volume adjuster to increase the volume of the heat medium flowing through the bypass path while maintaining a volume of the heat medium discharged from the pump. 7 . The air conditioning device for a vehicle according to claim 6 , further comprising an air mix door that adjusts a ratio between a volume of the air, which is blown by the blower and heated in the radiator, and a volume of a rest of the air blown by the blower, wherein the controller controls an operation of the air mix door to reduce the volume of the air heated in the radiator in the frost delay control. 8 . The air conditioning device for a vehicle according to claim 6 , wherein the controller, in the frost delay control, increases a rotational speed of the compressor to a specified rotational speed that is set relative to a target blowing temperature. 9 . The air conditioning device for the vehicle according to claim 6 , wherein the controller sets an opening degree of the decompressor so as to bring a subcooling degree of the refrigerant flowing into the decompressor closer to a target subcooling degree in the frost delay control, the target subcooling degree being set to bring a coefficient of performance of a cycle closer to a maximum value.