Patent ID: 9702604
Date: 2017-07-11
CPC Classifications: F25B

Claim:
1. An expansion valve that is provided in a refrigeration cycle; that throttles and expands a refrigerant inflowing via an external heat exchanger by making the refrigerant pass through a valve portion in an inside thereof to supply to an evaporator; and that controls an opening degree of the valve portion by sensing a pressure and a temperature of the refrigerant that has returned from the evaporator and delivers the refrigerant toward a compressor, the expansion valve comprising: a first refrigerant passage that is formed so as to penetrate a body thereof, where at one end side of the first refrigerant passage a first inlet port is provided for introducing the refrigerant from the external heat exchanger, while at an other end side of the first refrigerant passage a first outlet port is provided for delivering the refrigerant to the evaporator; a valve hole provided in an intermediate portion of the first refrigerant passage; a valve chamber provided between the valve hole and the first inlet port in the first refrigerant passage; a valve element that is arranged in the valve chamber for opening and closing the valve portion by touching and leaving the valve hole; a second refrigerant passage that is formed separately from the first refrigerant passage so as to penetrate the body thereof, where at one end side of the second refrigerant passage a second inlet port is provided for introducing the refrigerant that has returned from the evaporator, while at an other end side of the second refrigerant passage a second outlet port is provided for delivering the refrigerant to the compressor; a power element that is provided on a side opposite to the first refrigerant passage with respect to the second refrigerant passage in the body, and that works by sensing the temperature and pressure of the refrigerant flowing through the second refrigerant passage; an actuating rod whose one end side crosses the second refrigerant passage to be connected to the power element and where an other end side of the actuating rod penetrates both a partition wall between the first refrigerant passage and the second refrigerant passage and the valve hole to be connected to the valve element, and that transmits a drive force of the power element to the valve element; a mounting hole that has its central axis at a height position between the first refrigerant passage and the second refrigerant passage in the body, and that is provided so as to penetrate both a first side surface, on which the first outlet port and the second inlet port are opened, and a second side surface located on a back surface side of the first side surface, and that is used for inserting, from the side of the second side surface, a screw for tightening a mounting member on the evaporator side and the body together; and a screw hole that is formed in the second side surface and in which a stud bolt can be implanted, the stud bolt being for fastening a plate, which is provided on a compressor and external heat exchanger side of the body, and the body onto each other, wherein the mounting hole has, in an inside thereof, a stopper surface for stopping a head of the screw in an insertion direction, the stopper surface is located near to the first side surface that is on one side of a central axis of the actuating rod, and when the screw is inserted in the mounting hole, the head of the screw when stopped at the stopper surface is located at about the central axis of the actuating rod leaving a space between the head of the screw and the second side surface in which part of the screw is not present; in the mounting hole, the stopper surface is positioned such that the head of the screw overlaps the position of the central axis of the actuating rod in the insertion direction; the mounting hole is one of a pair of the mounting holes, each of the mounting holes being disposed in the body on a respective side of the actuating rod, such that the actuating rod is positioned between the mounting holes; and an inner diameter of each of the pair of the mounting holes, near to the second side surface relative to the stopper surface, is larger than a distance between the pair of the mounting holes.