Self-operated three-way valve used for coolant circulating type machine room special machine
A self-operated, three-way valve technology, used in multi-way valves, refrigerators, fluid circulation arrangements, etc., can solve problems such as refrigerant pressure reduction, solenoid valve failure, burning compressors, etc., to achieve local resistance reduction and reliability. The effect of improving performance and reducing failure rate
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Embodiment 1
[0031] image 3 and Figure 4 It shows the structural characteristics and working state of a self-operated three-way valve with a thrust spring in the low-pressure chamber, in which image 3 It is the valve position state of the self-operated three-way valve during the refrigerant refrigeration cycle; Figure 4 It is the valve position state of the self-operated three-way valve when the refrigerant naturally circulates.
[0032]The self-operated three-way valve used for the special machine room with refrigerant circulation and use includes a valve body 16, a low-pressure inlet pipe 13, a high-pressure inlet pipe 14 and an exhaust pipe 15; the valve body 16 is provided with an axially moving piston assembly, The valve seat 20 and the slide valve 24 that moves on the valve seat are provided with two through holes, which are aligned with the low-pressure intake pipe 13 and the high-pressure intake pipe 14; the piston assembly consists of two pistons 22 and two pistons and slide...
Embodiment 2
[0036] Figure 5 It shows the structural features of a self-operated three-way valve with push springs and tension springs respectively arranged in the low-pressure chamber 26 and high-pressure chamber 27. The state in the figure is the valve position state when the special machine in the machine room is in the natural circulation of refrigerant.
[0037] In this embodiment, the spring 21 in the self-operated three-way valve 12 is a combined spring composed of a thrust spring 21a arranged in the low-pressure chamber 26 and a tension spring 21b arranged in the high-pressure chamber 27. The thrust spring 21a and the tension spring The acting force direction of 21b is consistent, and the effect of adopting thrust spring 21a in the low-pressure chamber 26 alone is exactly the same.
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