SU1393935A1 - Injector - Google Patents

Abstract

Invention m. used in jet devices of the heat supply system and allows to increase the reliability of the injector start-up and to reduce the consumption of hot coolant (TH). The injector includes a housing 1 with a chamber 2 for supplying hot TC, a confusing chamber 4 for displacement, a diffuser 5 and a needle 6 mounted in the active nozzle 3 for axial movement with a driving hydraulic cylinder 7 located on the inlet side of the nozzle 3. , communicating it with the nozzle 3, located on the side wall of the chamber in the same transverse plane. The needle 6 is equipped with a locking sleeve 9, which covers the holes 8 and is spring-loaded relative to the hydraulic cylinder. The over-piston space of the latter and the housing cavity on the side of the sleeve opposite to the joint 3 are in communication with the atmosphere. Simultaneous partial overlapping of the holes 8 and the neck of the nozzle 3 by the sleeve 9 and the needle 6 when starting the injector reduces the flow rate of the pump on this mode of operation and increases the reliability of the launch. 2 Il. (Oh (U: s

Description

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The invention relates to the field of inkjet technology and can be used in inkjet apparatus of the heat supply system.

The purpose of the invention is to increase the reliability of starting and reducing the consumption of hot coolant.

FIG. 1 shows the injector, a general view; in fig. 2 - section aa on fig.k

Szhektor includes a housing-1 with chamber 2 for supplying a hot heat carrier, an active nozzle 3, confusing chamber.

Claims (1)

Simultaneous partial overlapping of the bypass holes 8 and the neck of the active nozzle 3 with the sleeve 9 and the needle 6 when the injector is started ensures a reduction in the flow rate of the heat transfer trigger reliability. Invention Formula 4 mixes, a diffuser 5 and a 15 body mounted in the nozzle with an axial 15 on this mode of operation and an increase in the movement of the needle 6 with the drive hydraulic 7 located on the inlet side of the active nozzle 3, the chamber 2 supplying a hot heat transfer fluid -20 mi 8, communicating it with the nozzle 3. In the injector, the bypass openings 8 of the chamber 2 are located on its side The injector, comprising a housing with a hot coolant supply chamber, an active nozzle, a confusing mixing chamber, a diffuser, and a needle mounted in the nozzle with axial displacement with a driving hydraulic cylinder located on the inlet side of the active nozzle, with the chambers in the same transverse plane, the needle 6 is equipped with a locking sleeve 9, which covers the holes 8 and is ginna relative to the hydrocylinder An injector comprising a housing with a hot coolant supply chamber, an active nozzle, a confusing mixing chamber, a diffuser, and a needle mounted in the nozzle with axial displacement with a drive hydraulic cylinder located on the inlet side of the active nozzle, the chamber under 7, and the last piston space - the water of the mountain of which the coolant is supplied with it and the cavity of the housing 1 from the side of the 9, opposite to the nozzle 3, are in communication with the atmosphere. The injector works as follows. Before starting the injector under the action of the spring 10, the needle 6 is in the extreme right position and overlaps a part of the throat opening of the active nozzle 3, and the hub 9 blocks part of the through-section of the bypass holes 8, When hot water is supplied (pressure), pressure 2 ak35 bypass holes that connect it with the nozzle, characterized in that, in order to increase the reliability of the launch and to reduce the flow rate of the hot coolant, the bypass holes of the chamber are located on its side wall in one transverse plane, the needle is provided with a stop sleeve that overlaps the holes and spring-loaded with respect to the hydraulic cylinder, and the over-piston space .0 of the latter and the housing cavity on the hub side opposite to the nozzle are in communication with the atmosphere. The active nozzle 3 increases and exceeds the force of the spring 10. Due to the differential pressure, the sleeve 9 with the needle 6 is moved to the left. This increases the flow areas of the bypass holes 8 and the throat of the active nozzle 3 and the injector enters the operating mode. Simultaneous partial overlapping of the bypass holes 8 and the neck of the active nozzle 3 with the sleeve 9 and the needle 6 when the injector is started ensures a reduction in the flow rate of the coolant in this mode of operation and increases no reliability launch. Invention Formula bodies on this mode of operation and increase bodies on this mode of operation and increase An injector comprising a housing with a hot coolant supply chamber, an active nozzle, a confusing mixing chamber, a diffuser, and a needle mounted in a nozzle with axial displacement with a driving hydraulic cylinder located on the inlet side of the active nozzle, and a hot water chamber provided with 35 bypass holes that connect it with the nozzle, characterized in that, in order to increase the reliability of the launch and to reduce the flow rate of the hot coolant, the bypass holes of the chamber are located on its side wall in one transverse plane, the needle is provided with a stop sleeve that overlaps the holes and spring-loaded with respect to the hydraulic cylinder, and the over-piston space .0 of the latter and the housing cavity on the hub side opposite to the nozzle are in communication with the atmosphere. s 9 Fig2