SU1124670A1 - Reciprocating expander inlet valve - Google Patents

Abstract

A PORTABLE DETANDER INLET VALVE containing a pusher connected to the piston of the cylinder, and a lock body with a holding magnet, characterized in that, in order to simplify the design, the pusher is installed in the piston with the possibility of free movement part of its stroke and it is equipped at the end with a magnet, the attractive force of which is greater than that of the holding magnet. cl

Description

The invention relates to refrigeration and cryogenic technology and can be used to obtain low temperatures. The piston expander intake valve is known, which contains a pusher and a locking element with a spring tj. The disadvantage of this design is unreliability. Also known is an inlet valve for a screw expander containing a follower associated with the expander piston and a locking member with a holding magnet 2. The disadvantage of this intake valve is the design complexity and low efficiency of the machine due to the presence of an electromagnet introducing heat gain. The purpose of the invention is to simplify the end of the operation. This is achieved by the fact that in the intake valve of the piston expander, containing a pusher connected to the expander piston and a locking organ with a holding magnet, the pusher is mounted in the piston with the possibility of free movement on a part of its stroke and provided with a magnet at the end, than the holding magnet. The drawing shows the inlet valve of the perrigne expander. In the cylinder 1 of the expander, the pusher 2 is mounted in the piston 3 of a nonmagnetic material. The pusher 2 moves freely along the axis of the piston 1 U 2 3 to the size of the gap a, which provides the valve opening time. The locking member consists of a valve 4 of magnetic material freely moving in a non-magnetic guide sleeve 5 between the seat 6 of the valve 4 and the holding magnet 7. The value of this movement determines the area of the valve passage 4. At the end of the pusher 2 facing the valve 4 is fixed magnet 8. The device operates as follows. . The piston 3 in its movement down through the pusher 2 and the magnet 8 presses on the valve 4, opens it. and moves a magnitude in prior to contact with the holding magnet 7, the valve 4 is open, and the compressed gas passes through it into the cylinder 1. Next, the piston 3 moves upwards. In doing so, the valve 4 continues to be held open by the holding magnet 7 until the burnt distance a passes. Upon further upward movement, the piston 3 carries away the push rod 2 with the magnet 8, which tears the valve 4 from the holding magnet 7. The valve 4 closes when it comes in contact with the saddle 6. With the upward movement of the piston up, the magnet 8 comes off the pusher 2 from valve 4 , leaving it in the closed state under the influence of compressed gas. The proposed exhaust valve of the piston expander allows to simplify the design.

Claims (1)

PISTON DETANDER INLET VALVE containing a pusher connected to the expander piston and a shut-off element with a holding magnet, characterized in that, in order to simplify the design, the pusher is installed in the piston with the possibility ’. the free movement on part of its stroke and is equipped with a magnet at the end, the attractive force of which is greater than that of the holding magnet. . ί