Expansion valve and pipe mounting structure thereof

What is claimed is: 1. An expansion valve provided in a refrigeration cycle and configured to throttle and expand refrigerant passing through a valve section, the refrigerant being introduced via a heat exchanger, supply the expanded refrigerant to an evaporator, sense pressure and temperature of refrigerant having returned from the evaporator to control an opening degree of the valve section, and deliver the refrigerant toward a compressor, the expansion valve comprising: a body having a first inlet port through which the refrigerant from the heat exchanger is introduced, a first outlet port through which the refrigerant is delivered toward the evaporator, a first passage connecting the first inlet port and the first outlet port, a valve hole formed in an intermediate portion of the first passage, a second inlet port through which the refrigerant having returned from the evaporator is introduced, a second outlet port through which the refrigerant is delivered toward the compressor, and a second passage connecting the second inlet port and the second outlet port; a valve element configured to move toward and away from the valve hole to close and open the valve section; a power element provided on the body on a side opposite to the first passage with respect to the second passage and configured to sense temperature and pressure of the refrigerant flowing through the second passage and operate in response to the sensed temperature and pressure; and a shaft having a first end side extending across the second passage and connected to the power element and a second end side extending through a partition between the first passage and the second passage and connected to the valve element, the shaft being configured to transmit drive force of the power element to the valve element, wherein the body has: a first pipe connecting part configured to receive a first pipe, which is connected to an outlet side of the evaporator, in such a manner that the first pipe is inserted into the second inlet port; a second pipe connecting part configured to receive a second pipe, which is connected to an inlet side of the compressor, in such a manner that the second pipe is inserted into the second outlet port; and an inclined surface between the first pipe connecting part and the second pipe connecting part, the inclined surface facing an end opening of the second pipe connected to the second pipe connecting part in an axial direction of the second pipe, the inclined surface inclined at an angle of 45 degrees or larger with respect to a plane perpendicular to an axis of the second passage, the inclined surface including an opening through which the shaft extends, and wherein the inclined surface extends over an entire area between the first pipe connecting part and the second pipe connecting part. 2. The expansion valve according to claim 1 , wherein the inclined surface has a tapered shape such that a cross section of the second passage increases at an angle from an end of the inclined surface on a side of the first pipe connecting part toward another end of the inclined surface on a side of the second pipe connecting part. 3. The expansion valve according to claim 1 , wherein an inner diameter of an upstream-side open end of an intermediate portion of the second passage, corresponding to a base end of the inclined surface, is equal to an inner diameter of an open end of the first pipe.