DE1001073B - Electromagnetically operated valve, preferably for steam heating lines in railway vehicles - Google Patents

Description

GERMAN

In the art, electromagnetically operated valves are known, the closure piece as a ferromagnetic Ball is formed, which at the same time represents the armature and when energized Electromagnet is pulled against the valve seat. To have good electromagnetic efficiency To achieve this, one has already drilled through the ferromagnetic core of the electromagnet and into the one to be shut off Line switched. The end of the core was designed as a valve seat on which the Ball pressed when the electromagnet was energized, while when the electromagnet was switched off it pressed the Passage opening released. To prevent the ball from sticking to the valve seat after the solenoid has been switched off To avoid remanence as a result, the valve seat itself is made of non-ferromagnetic Fabric made.

Such ball solenoid valves have compared to the solenoid valves with a cylindrical or prismatic Closure piece is known to have the advantage that they work more reliably because of the risk of Getting stuck with a rolling ball is much less than with a sliding prism, In the known designs, however, there is no completely magnetic ball when the ball is attracted Finished.

There are also already known electromagnetically operated valves, in which to achieve a possible good magnetic circuit the electromagnet is designed as a pot magnet. Need this to operate it is known to have a significantly lower number of ampere-turns and therefore have a much better efficiency than solenoid valves without magnetic yoke. There are but none of these solenoid valves are known in which the locking piece is a ball. Apparently a complete magnetic circuit only appeared when using a fitted one cylindrical or prismatic locking piece achievable.

The invention has now set itself the task of providing an electromagnetically operated valve in which the Closure piece is a ferromagnetic ball, which also represents the magnet armature, and in which the electromagnet is designed as a pot magnet whose ferromagnetic core is pierced and with one end is connected to the incoming line and one at the other end Valve seat made of non-ferromagnetic material against which the ball bears when the electromagnet is excited is pulled, to be trained so that there is a complete iron connection when the ball is tightened and that this when the ball falls off only by the distance between the ball and the Solenoid operated valve,

preferably for steam heating lines

in railway vehicles

Applicant:
HAGENUK

formerly Neufeldt & Kuhnke G. mb H.,
Kiel, Westring 431-451

Walter Hamann, Kiel,
has been named as the inventor

Valve seat bearing pole of the electromagnet (working air gap) is interrupted.

According to the invention, the new solenoid valve is designed as follows: The outgoing line is a Ferromagnetic pipe section, in which the ball is located, flanged to the jacket of the pot magnet in such a way that that it connects at the same time to the valve seat, and the end of the core carrying the valve seat and the inner wall of the flanged pipe section are shaped so that the ferromagnetic ball in the tightening position establishes the magnetic connection between the core end and the inner wall.

The valve seat is advantageously designed in this way in order to avoid magnetic sticking of the ball and arranged that the ball pressed onto the valve seat by both the magnetic core and the The inner wall of the flanged pipe still has a small gap (residual air gap).

Particularly in the case of steam heating lines, the steam flow often adheres to the pipe walls forming rust particles carried away. In order to avoid that these are attached to the ball as a result of residual phenomena fix, the ball is expediently provided with a coating made of a non-ferromagnetic material, for example hard chrome-plated, which at the same time protects it against corrosion. The remanence of the ball becomes appropriately kept very small from the start in that it consists of soft iron. Furthermore coarse contamination is caused by dirt attached to the entry point of the valve ' catcher intercepted. /

The subject matter of the invention / an exemplary embodiment is explained in more detail in the drawing.

. at 7 _ - I.

1 is the excitation coil of the electromagnet and 2 is a ball made of soft iron. At 3 it flows Fluid enters the valve and at 4 it drains. The electromagnet designed as a pot magnet consists of the magnetic core 5 pierced in the axial direction and the pot shell 6, in which the excitation coil 1 is embedded. In the room 7 are the connections for the electrical supply line. 8 is the conduit pipe flanged to the jacket 6 of this pot magnet, which is still by means of screws to think attached is. 9 is the ring-shaped valve seat made of brass, for example, which is attached to the magnetic core 5. The ball 2 is in the attracted state, that is, when the magnet coil is energized 1 shown; from the inner wall of the conduit pipe 8 and from the end face of the magnetic core 5 it is kept at a small distance, which represents the »residual air gap«. The sloping surface 10 in the pipe 8 is used to center the ball when tightening. The screwed-in pin 11 forms a stop that the ball touches when the valve is open. 12 is a lattice-shaped one Strainer that keeps coarser parts away from the valve.

Claims (5)

PATENT CLAIMS: 1. Electromagnetically operated valve, preferably for steam heating lines in railway vehicles, whose locking piece is a ferromagnetic ball, which at the same time represents the magnet armature, while the ferromagnetic The core of the electromagnet, which is designed as a pot magnet, is pierced and at one end is connected to the incoming line and a valve seat at its other end non-ferromagnetic material against which the ball is drawn when the electromagnet is excited is, characterized in that the outgoing line (4) is a ferromagnetic pipe section (8), in which the ball (2) is located, flanged to the jacket (6) of the pot magnet (1) is that it connects at the same time to the valve seat (9), and that also the valve seat (9) bearing end of the core (5) and the inner wall of the flanged pipe section (8) so shaped are that the ferromagnetic ball (2) in the attracted position the magnetic circuit between Manufactures core end and inner wall. 2. Electromagnetically operated valve according to claim 1, characterized in that for the purpose Avoiding the magnetic sticking of the ball (2), the valve seat (9) is designed and arranged in this way is that the on the valve seat (9) pressed ball (2) both from the magnetic core (5) as also has a small distance from the inner wall of the flanged pipe (8). 3. Electromagnetically operated valve according to claims 1 and 2, characterized in that the ball (2) has a coating made of non-ferromagnetic material, for example chromium. 4. Electromagnetically operated valve according to claims 1 to 3, characterized in that the ball (2) is made of soft iron. 5. Electromagnetically operated valve according to claims 1 to 4, characterized in that that a dirt trap (12) is arranged at its entry point. Considered publications:
German Patent Nos. 423 301, 745 480;
U.S. Patent Nos. 2,324,642, 2,366,412. 1 sheet of drawings © 609 766/240 1.57