DE529812C - Distribution device for extraction steam engines - Google Patents

Description

Distribution device for extraction steam engines There are steam extraction devices known in which the steam extraction by attached to the steam cylinder; controlled Valves takes place. With other steam extraction devices, the exhaust line is used Steam to the heating line or to the condenser by means of a steel regulator, oil pump and servo motor discharged. This is cumbersome and makes the steam engine more expensive. In known devices A power piston is installed in each of the two distribution lines for intermediate steam extraction attached throttle valve. A switching device has also been proposed, in which a piston is continuously acted upon by the heating steam against a spring a switching element is to move that: at the same time the exhaust steam line from the heating line blocks and connects to the condenser or vice versa. This simultaneous control of the two lines causes a temporary obstruction if they overlap at the control unit the steam outlet, if there is insufficient coverage, the heating steam will escape temporarily into the condenser.

The invention avoids all of these shortcomings. It is both for intermediate steam extraction as suitable for counterpressure machines and differs from all known ones Facilities in that a control member, the power piston of a control pin is moved depending on the pressure in the heating cable; only the exhaust line connects or disconnects with the low pressure line, while between exhaust steam line and heating a non-return valve is arranged.

Live steam or as in both embodiments heating steam are used; on the other hand, the tax pin must always be under the influence of the heating pressure.

In the exemplary embodiment Fig. I, control element I is moved by piston 2, on both sides of which presses heating steam alternately, while the respective opposite side is connected to the atmosphere or the vacuum. This will piston 2 and the slider connected to it r always brought my end positions. Piston i becomes controlled by slide 3, the heating steam below it, atmospheric tension above it and a spring q that presses against the heating steam. (Weight or the like) has which are dimensioned according to the desired heating pressure. Slide 3 consists of three. Pistons; the lower and middle control the steam flowing to the piston 2 as in a double-acting steam engine, while the top piston for steam relief and serves as a spring system. Below the lowest as well as between the middle and the upper piston is heating pressure, between the lower and middle piston is exhaust pressure, in that, as in a double-acting steam engine, this leads to the atmosphere or to the Condenser leading pipe 7, 8 is connected, -When the machine starts up Slide 3 below, we1ü-fliii spring 4 pushes down because of the lack of heating pressure. Piston 2 and control element i have also sunk under the influence of their weights, line 9 is thus blocked. The exhaust entering at 5 therefore presses steam Non-return valve 6 opens and flows to the heater. When the prescribed Heizdrukkes is raised - slide 3 against the spring pressure and in its highest Located; now occurs heating pressure under piston z, and at the same time the upper piston side through tube. 8 and 9 with the atmosphere, the condenser or the Low pressure valve body connected. This increases piston 2 and control member i in the highest position, whereby line 9 is connected to the condenser or the atmosphere is. The non-return valve 6 immediately falls on its seat and blocks the heating cable away.

If the heating pressure drops, slide 3 is pressed down by spring 4, so: that the space below the piston 2 with the atmosphere (condensation, low-pressure valve body) connected and the space above the piston 2 is placed under heating pressure, whereby Piston 2 and control element i are in the lowest position and the connection to the atmosphere, Shut off condenser, low pressure valve body. Check valve 6 is immediately activated pushed open by the continuously flowing steam at 5.

The heating steam controls only one line and achieves it intermittently Feeding of the two distribution lines that are fully open when eating.

The whole device is only part of the pipeline.

In Fig. 2 a differential piston 2 is arranged as a power piston, the lower ring surface of which is permanently under heating pressure, the smallest piston surface of which i i is connected to the atmosphere (condensation) at 8, while the large piston area bounded by a needle valve 14 o. The like. Closed space that is only through a small leak (perforation) i9 is fed from the annulus io. When closed Needle valve 1 4th is below the annular area i o and above the large area of the Differential piston same voltage, namely heating pressure. When opening the needle valve 14, the steam flows from the space 12 into the low pressure line 8 by means of the Tube 7, B. Since the opening of the needle valve 14 is larger than the leakage i9, is .by the heating pressure located in the annular space i o power piston 2 and control element i put in - the highest position, whereby controller i the connection between Evaporation line and the space of low pressure 8 produces. Immediately the check valve 6 thrown onto its seat by the heating pressure and the heating cable shut off.

If needle valve 14 is brought to its seat, space 12 is removed from the Spaces of low pressure shut off and gradually through the leakage i 9 filled with heating steam. As a result, the vapor pressure of the large piston area predominates, Piston 2 and control element i "sink down and block the exhaust line from the room lower pressure. The non-return valve 6 is immediately activated by the continuously flowing in at 5 Puffed up steam and filled the heating tape.

Opening and closing of the needle valve 14 is done by one with it connected piston 13 causes, acts on the lower surface of heating steam and the is moved against the spring 4. When the heating pressure increases, piston 13 and needle valve become 14 lifted, brought with falling heating pressure by spring 3 in the position shown.

In this embodiment too, the heating pressure controls only one Line and achieves intermittent spewing of each of the two always fully open distribution lines.

The devices described and drawn can also be used for steam extraction be used with bleed turbines, with steam from a pressure stage to the pipe ' 5 flows, while pipe 9 to a space from low voltage (atmosphere, condensation or low pressure level) is connected.

Claims (2)

PATENT CLAIMS: i. Distribution device through which the exhaust steam a steam engine by means of a pressure regulator depending on the pressure in the heating cable either in the heating cable or in a line with low pressure is left, characterized in that a control member (i), the power piston (2) by a control pin (3) depending on the pressure in the heating steam line is moved, only the exhaust line (5) connects to the low pressure line (9) or separates, while a non-return valve between the drainage line (5) and the heating line (6) is arranged. 2. Distribution device according to claim i, characterized in that that the power piston (2) is designed as a differential piston on its lower Annular surface (io) of the heating steam or something else Leavening agent works, while a pressure regulator (13) as a function of the pressure in the heating steam line a needle valve (14) opens, which the pressure medium over the large area of the Differential piston (z) can escape into a line of low pressure (8), the from the annular surface (i o) through a bore (i g) onto the large surface of the differential piston has stepped over.