SU54829A1 - Steam distribution mechanism for twin steam pumps - Google Patents

Description

Steam distributors for steam engines of dual steam pumps are known, the spools of which move through the spool pistons due to the pressure of the working steam. In such devices, each of the spools of the steam cylinder is associated with two identical spool pistons.

In contrast, in the steam distribution device according to this invention, the spool of one of the steam cylinders is equipped with a third additional piston washer, which ensures that both the spools and the working pistons of the steam cylinders start off at any position.

On the accompanying drawing a schematic representation of the device of such a steam distributor, as described above, its action.

As shown in the drawing, a spool S, two piston washers of the same size and a third piston washer slightly larger are placed in the spool box 1 of one of the steam cylinders.

diameter, located on one side of the flat spool 5, and in the spool box 2 of the second steam cylinder, a flat spool - and two washers - pistons of the same size.

Steam from the boiler enters the spool boxes / and 2. In the position shown in the drawing, steam from box 1 through channel 5 enters the cavity 6 of the steam cylinder under the piston 9, while cavity 7, above the piston 9, channel 8 communicates via undercut spool 5 with atmosphere. At the same time, channel 10 reports a cavity under pressure from steam & with the space of the spool box 2 on the left side of the spool piston. Channel 15 communicates the right side of the box 2 with the atmosphere through the cavity 7 and channel 8, holding the valve 4 in the position indicated on the drawing. At the same time, the channel / 5 communicates with the atmosphere a closed space between the large and small washers of the spool 5 on its left side, and channel 14 through the space above the piston 12, channel 17 and the recess of the spool 4 tells the left side

spool piston spool 3 with the atmosphere; At the same time, in the spool box 2 pairs through the channel P enter under the steam cylinder piston 12.

Owing to all this, the piston 6, as well as the bilge 12, under. vapor pressure is moved from the position indicated on the drawing upwards. During this movement, the piston / 2 switches the channel 14 to the space under the piston, as a result of which steam is supplied to the spool box 7 on the left side of the small piston, and the piston 9 switches channel 15 to the cavity 6, supplying steam to the spool box 2 on the right side of the ear, However, it does not cause mixing of spool 4. Moving on, piston 9 also switches channel 13 from atmospheric pressure to working vapor pressure. Consequently, the spool 3 moves to the right and switches the channel 5, and therefore the cavity 6 to communicate with the atmosphere, and the channel 5 and the cavity 7 to the working vapor pressure, the piston 9, being under the vapor pressure from above and the atmospheric pressure from below, starts to move down. During this time, the piston 12 switches the channel 16 from atmospheric pressure to the operating pressure of the steam, which does not cause the spool 3 to move, and continues to move upwards to its extreme upper position.

When the piston 9, moving down, opens the channel 15 again, the steam from the cavity 7, passing through channel 15 into the spool box 2, causes the valve 4 to move to the left, since the left side of the box through channel 10, cavity 6 and channel 5 is reported to it's time with the atmosphere. At the same time through channel 17 will begin to flow into the cavity above the piston 72 pairs and the channel // connect the cavity under the piston 12 with the atmosphere. At the same time, channels 14 and 16 are also

switches to the atmosphere, which, however, will not cause any change in the position of the spool 3.

With the downward movement of the piston 12 and further downward movement of the piston 9, the latter switches the channel 10 from atmospheric pressure to vapor pressure, which also does not cause a change in the position of the spool 4.

At that moment, when the piston reaches its lower position, the piston 12, moving down, will switch channel 16 from atmospheric to working pressure of steam, which will cause the slide 3 to move back to the left, to the position shown in the drawing. Steam will begin to flow into cavity 6, and cavity 7 will be connected by channel 8 to the atmosphere, and piston 9 will begin to move upwards, and piston 12 will continue to move down to its lowest position, at the moment it arrives at what, piston 6, moves up , will switch channel 10 from atmospheric pressure to operating steam pressure, which will cause the slide valve 4 to move to the right, and all organs will thus come to the position shown in the drawing, after which the working cycle will start again.

The subject matter of the invention.

A steam distribution mechanism for twin steam pumps, the spools of steam engines of which move by pressure on the spool valves entering steam steam cylinders with cross-flow of steam supply channels to the spools of the spools, characterized in that the spool of one of the cylinders is equipped with a third additional washer to ensure moving places from any position of both spools and working pistons. E to the author's certificate of V. № 54829 E. Postnikov