SU70194A1 - Device for automatic activation of steam boiler injector - Google Patents

Description

This invention relates to a device for automatically switching on an injector of a steam boiler with a low-lying mechanismol for controlling the operation of the injector.

A feature of the proposed device is that in order to re-automatically turn on the injector in the event of a breakdown of the water supply when it is first turned on, servo-motor devices controlling the steam transfer are installed in the injection tube of the injector.

The float device (Fig. 1) consists of a cylinder 7, a cover 2, a float 3, a valve 4, a stopcock 5 with a pipe 6, a connecting rod 7, a signal 8 and a purge device 9.

The triggering device (Fig. 2) consists of a cylinder JO attached to the uprights 7 /, a piston 72, a spring 73, a rod 74 connected to the injector plug 75, an adjusting device 76 and a steam supply pipe 77.

The CepBOiYiOTopnoe fixture (FIG. 3) consists of a barrel 75, in the inside of which a body 79 with two chambers is fixed; In the upper 20, filled with a damping sheath, a piston 27 is placed, which rests on a weak spring 22 and is rigidly connected to the rod 23, which ends in a disk 24.

A valve 26 supported by a spring 27 is placed in the lower chamber 25. Both chambers are tightly closed with covers 28 and 29. The lower chamber communicates via tube 3G with the cylinder of the injector starting device (connection point in the drawing is not shown).

When the water level B decreases, the steam boiler 37 (Fig. 1} water located in the cylinder 7 of the float device will flow through the pipe b .5 /. As the water level in the cylinder 7 decreases, the float 3 will be in place with the rod 7 will be lowered down. When this happens, the rod 7 together with the pin will also slide along the inside of the valve to the lower collar 33.

The plate 36 of the valve 4 at this time under the action of the spring 34 b; will be pressed against the valve seat.

When the float 3 approaches the lower extreme position, the rod 7 with the pin 32 bends into the lower shoulder 33 of the valve 4, as they move further, the rod with the pin, overcoming the resistance of the spring 34, will pull the valve plate 36 away from the seat 35, resulting in steam into channel 37. Part of the steam from channel 37 will go to signal 8, its other part through tube 77 (Fig. 2) will flow into cylinder 10 under piston 12. Under the pressure of steam, piston 12, overcoming resistance of spring 13, will move up fascinated related stock 14 and plug 75; but since the latter is associated with an injector valve (not shown in the figure), this movement will cause the injector to work.

When the water level in the steam boiler 31 rises, water will fill the cylinder 7 and raise the float 3, and with it the rod 7 with the pin 32. Valve 4 under pressure of the spring 34 presses plate 36 to the valve seat 35 and closes the steam access to channel 37. the piston 72 under the action of the spring 13 will move downwards, and consequently, the rod 14 and the plug 75 will move in this direction, which by its motion will turn off the injector.

In the event of a breakdown of the water supply at the first activation, the steam ejected into the main pipe, the passage through the internal cavity of the cylinder 18 (Fig. 3), will act on the disk 24 of the rod 23, forcing it to go down together with the piston 27. and with it will move down. The pressure in the pipeline of 30 tons in the cylinder of the starting device will drop, and the spring 13 will turn off the injector, after which the steam will cease to be ejected into the bulk pipe. Then, with the help of springs 22 and 27, the servo-motor device will restore its previous position and will cease to discharge pressure in the pipeline of the starting device, where the restored pressure will repeat the injector start-up.

The subject of the invention

A device for automatically switching on an injector of a steam boiler with a float device to control the operation of the injector, in order to re-automatically turn on the injector in the event of a supply failure when first switched on servo motor starting valve injector.

FIG. i

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