DE1675375U - ELECTROMAGNETICALLY ACTUATED SHUT OFF VALVE, PRESENTLY FOR STEAM HEATING PIPES IN RAILWAY VEHICLES. - Google Patents

Description

Electromagnetically operated shut-off valve, preferably for · steam heating lines in railway vehicles

Object of the utility model is a preferably steam-heating pipes in railway vehicles suitable electromagnetically actuated from acting valve "It is f known to use electromagnetic Tentile for such purposes, which are formed as Siellerventil = the Tentilteller via a shaft with.! Plunger of a Soienoides and when the soienoid is excited it is pulled against its seat (or away from its seat) . To prevent it, it seems difficult in series production to manufacture these valves in such a way that they work reliably. One of the reasons for the sticking is probably that the solenoid armature has to be slid over its entire path. ,, go that the always occurring dirt together with signs of wear impair the easy mobility of the solenoid armature itself, which then of course, also the usual arrangement A tow coupling between the valve plate and the solenoid armature does not prevent the valves from getting stuck.

Dx of the *! Technology are also known, already electromagnetically actuated Tentile whose Ten is tilkör he ρ as ferr omagne dished ball designed _r DIE same time the. Magnetic anchor represents and. When the electromagnet is excited, the valve seat is pulled against the valve seat. Since guide and thus friction surfaces can be completely avoided in such ball valves, the purpose of the invention was to develop such a valve seat it is particularly suitable for use in steam heating systems in own rail vehicles «

According to the invention, the electromagnet is a 3Jopfmagnet with In ί the axial direction pierced and serving as a conduit / Magnetic core formed and a socket part flanged to it.

In the vicinity of the separating parts there is the ball "which, in the attracted state, together with this pipe part, creates the magnetic connection between the magnetic core and the jacket of the pot magnet, but is pressed onto the Yentil seat made of non-ferromagnetic material" so that it becomes clay the magnet core and the flange wall has a small distance, while in the fallen state it touches the inner wall of the pipe flange and a stop located there made of non-ferromagnetic material prevents the ball from sticking magnetically after the magnet has been switched off, but since the air gap is only small, the ball is still pulled with great force against its yentil seat releases that ei, however, remains in such proximity to the magnetic core that it is definitely attracted when the coil is switched on. Since the ball in its fallen state is therefore within the clear j; Width of the pipe flange must have a lot of play, so it is useful! moderate, if the inside width of the pipe flange is in the direction of; such tapered toward Yentilsitz that the ball right even in hori- j location of the final valve when tightening against the Yentil- \ is centered seat and rolls at the fall of the stop. The diameter of the ball is opposite the diameter of the ring-

Yentilsitzes shaped so much greater that the Schwerpunktr of the ball in its tightened state, is sufficiently far away from the Yentilsitzebene so that switching the self-weight of the ball _r enough to distinguish it from the Yentilsitz in de-energized state of the Mag-

They can also be peeled off in the event of mechanical sticking.

j The achievable through the described design of the pot magnet Closing force is so great, that there is a moderate opening and closing ) electrical energy is possible to pull the ball against the pressure of the line flow on its Yentilsitz and to hold on.

Especially in the case of steam heating lines, the steam flow often entrains the eastern parts that form on the walls of the face which at the same time protects it against corrosion »The remanence of the ball is appropriately kept very small from the outset because it is made of soft iron.

The figure shows the subject of the utility model using an example *

1 is the excitation coil of the electromagnet water. 2 a ball made of soft iron »At 5, the conduit flows into the valve \ xaä. at 4- it flows off. The electromagnet designed as a pot magnet consists of the magnet core 5 pierced in the axial direction and the Io pfmantel 6, in which the exciter coil 1 is inserted. lies in the bed. The connections for

The electrical supply line 8 is the part that is flanged to the head magnet, which can still be thought of as being fastened by means of visual screws. '; The ball; 2 is shown in the attracted state, that is, with the magnet coil X excited; from the inner wall of the ear part S and from. the / end face of the magnetic core 5 is they "'is;. yet, at a small distance _T represents the Eestluftspalt the inclined surface 10 in the Sohrteil 8 one ball when the suit is used for centering of the;. screwed pin 11 forms the abutment the . touches the ball in the open state, the Tentiles "12 keeps a lattice £ ormiger strainer ,, the coarser components from the Tentil · *

Claims (5)

WA GENUK NEUFELDT * KuTnKE G.M.B.H. "S ^^ S ^ 07503 ^ ^{Pa / Mf /} * ^a Protection claims 1 ») Electromagnetically operated shut-off valve ·, preferably for Oampfi cables in railway vehicles, its Tentiikkörper is designed as a ferromagnetic ball, the at the same time represents the armature and when the Solenoid is pulled against the valve seat, thereby characterized in that the electromagnet is used as a pot magnet pierced in the axial direction and serve as a conduit is formed on the magnetic core and a pipe part is flanged to it, in which in the vicinity of the separation point the Ball · is located, which in the attracted state together with this tubular part · creates the magnetic connection between the magnetic core and the shell of the pot magnet, but on the non-ferromagnetic material Tentilsitz is pressed that it has a small distance from the magnetic core and the Planachwandung ("Hestluft- gap ") j- while in the fallen state the inner wall of the pipe flange and a stop located there. 2.) Electromagnetically operated shut-off valve · according to claim If, characterized in that the iichte 'Feite of the pipe flange in the vicinity of the valve seat tapers in such a way "that the ball is centered in relation to the valve seat when tightened and when falling on (Len. Stop rolls» 3.) Electromagnet! Sch actuated shut-off valve · according to claim 1 and 2, characterized in that the ball has a coating of non-ferromagnetic material (e.g. chrome) wearing. ^. ^ Electromagnetically operated shut-off valve · according to the claims 1 to 3, characterized in that the ball · consists of soft iron. 5.) Electromagnetically operated shut-off valve according to claims 1 to 4-, characterized in that on its A dirt trap is arranged at the entry point