DE870382C - Safety shut-off valve for gas burner - Google Patents

Description

Safety shut-off valve for gas burners The invention relates to on a safety shut-off valve for gas burners, which by means of one of the thermal flow an electromagnet excited by the pilot flame a return force, is held in the open position and one is the electromagnet and its armature against the gas flow-through interior, at the end of the valve housing Has chamber, through the wall of which connects the armature to the valve body Member is slidably guided.

The arrangement of the chamber solldas waste stocking of debris from the gas stream on the pole faces of the electromagnet can be prevented.

There are safety valves of the type mentioned are known in which one Wall of the chamber is displaceable in this and the armature or the electromagnet wearing. The seal between the sliding wall and the chamber takes place here leather cuffs attached to another movable wall. Here there is the disadvantage that the leather cuff rubs off during operation, so that worn Particles can stick to the pole faces of the armature or the magnet. This has the consequence that the armature with its pole face is not without a gap can place against the pole face of the electromagnet. This makes the effective Attraction of the electromagnet, especially if it is a thermal current electromagnet acts, considerably weakened, a disadvantage caused by the closed chamber should just be prevented.

It has also been proposed to arrange the closed chamber with the electromagnet and the armature outside the valve housing on the latter, with only one actuating pin being slidably guided in a wall of the chamber. In this arrangement, the pole faces of the electromagnet and armature are safe from waste deposits from the flowing gas od. Like. Protected, but this arrangement results in a relatively elongated design that is suitable above all for greater safety valves of this type.

To unhindered by foreign body contact between the pole face and the armature ensure the electromagnet, are not only w - ie in the known embodiments, the access of the contaminants with it leading gas züi the contact surfaces by a surrounding chamber can be prevented, but also the The possibility of solid particles arising through wear and tear of surfaces rubbing against each other, such as sealing sleeves rubbing along the chamber wall, can be excluded by the fact that, in the case of the safety shut-off valves mentioned at the outset, according to the invention, the chamber enclosed by the valve housing by external action, against a return force, in the opposite direction of the armature stroke, at least up to to the contact position of the pole face of the magnet with the armature, is displaceable.

Further features of the invention are set out in the description below with reference to the embodiment shown in the drawing # example in more detail explained as well as contained in the claims.

The drawing illustrates an embodiment of the subject matter of the invention in longitudinal section.

The valve housing i has a pipe socket 3 for connecting the gas discharge line. The end of the housing opposite the pipe socket 3 is closed by a removable cover 4. In the cover, a socket 5 is axially displaceable to the pipe socket 3 , which at its end protruding from the lid carries a removable hood 6 , which serves as a push button, the other end of the socket 5 protrudes into the valve housing i and carries the removable cover 7 of a housing 8, which forms the closed chimney for the electromagnet 9 and its armature io. The electromagnet is arranged on the inside of the cover 7 , and its winding is connected by movable lines ii to small connecting pieces 12 which are secured in an insulated manner in the cover 4 of the valve housing. The Ankerao is connected to a pin 13 which is guided displaceably in a socket 114 fastened in the bottom of the magnet housing. The other end of the pin 13 is guided displaceably with a reinforced collar in a bore 15 of a valve body, in which a spring 17 sits, which tries to push the collar of the pin upwards against a stop. The valve body 16 interacts with its sealing surface with an annular seat of a bushing 18 inserted into the valve housing. A spring 11.-9 tries to press the valve body 16 onto its seat. In the valve housing there is also a spring that grips around the magnet housing 8 : 2o, which tries to push the magnet housing into its upper end position in the vicinity of the cover 4.

In addition, a tubular sieve zi is inserted into the valve housing, which is intended to stop the suspended particles contained in the gas flowing in from the nozzle 2.

- in the bore of the slidable in the lid 4 bush 5 is seated a ball 22 which is urged by a spring 23 against an annular seat in the socket bore. ' The tension of the spring 23 can be adjusted by a screw 24 which can be adjusted after the push-button cover 6 has been removed. The bore below the ball is connected to the interior of the valve housing i by transverse bores -, 5. Underneath the ball, a pin 26 is guided displaceably in the axial direction of the socket 5 , which rests with its upper, slightly bent-open end on the ball 2.2 and with its other end protrudes through the electromagnet 9 by a certain amount. The socket bore - above the ball 2- is connected in every operating position of the socket 5 through transverse bores 2.7 with a cover bolt 2.8 to which a pilot flame line is connected.

The drawing shows the valve in the switch-off position. If the device is to be put into operation, the push button 6 is pressed down so that the chamber 8 is likewise pushed down accordingly against the action of the spring 2o. The electromagnet 9 is pressed with its pole face against the pole face of the armature, which in turn pushes the pin 26 up by its end protruding beyond the magnetic pole face. As a result, the ball 22 is lifted against the action of the spring: 23 from its valve seat, so that gas can now flow from the pipe socket 2 through the bore 25 ″, the open ignition gas valve 2, 2, the bores 27 and the bore 28 to the pilot flame nozzle, not shown the pilot flame can then be ignited and heated a likewise not shown thermocouple, which now generates electricity flows through derdie winding of the electromagnet 9. thus, the electromagnet is energized, so that it holds the Anker.io. the push button 6 can now be released, whereupon the spring zo pushes the magnet housing 8 and the socket 5 with the push button 6; back into the upper starting position.

But 9 thereby takes the excited electromagnet the armature io with which 1 9 apart by the pin 113 Deii valve barrel 116 against the action of the spring from its seat. now the gas can also flow to the main burner, not shown in the drawing, connected to the nozzle 3, which is ignited by the already burning pilot flame Ball valve 22- is held open by the pin 26 pushed up. If the flame heating the thermocouple goes out for any reason, the current exciting the electromagnet 9 does not occur. The electromagnet then lets go of the armature io, whereupon the spring, ig presses the valve body 116 into its final position. The main breliner is now no longer receiving gas and also goes out. The safety valve is closed and the system is in the shutdown position.

The slidable, resilient connection between the pin! 3 and the valve body 16 ensures that when the valve body r6 is suddenly closed by the spring ig, the armature io is not suddenly moved downwards, but comes to its rest position swinging and is therefore not damaged can be. The main task of the buffer, however, is to compensate for the additional stroke when the push button 6 is pressed in until it stops, and thus to prevent the spindle 13 from being overloaded.

In addition to its task of closing the ball valve 22, the spring 23 achieves a further advantageous effect. When the ball valve 2 # - is open, the tension of the spring: 23 is transmitted through the pin.26 to the armature io held by the magnet 9. The tension of the spring 23 thus acts against the holding force of the magnet, so that the armature io is already lifted from the magnet when the holding force is somewhat greater than the tension of the spring, ig. Since with a thermal power source the electrical voltage does not suddenly drop but gradually after the thermal energy has failed, the armature is held in place by your magnet for a while. By adjusting the tension of the spring 23 , malt zero can determine at what level of the falling electrical voltage the armature is to be lifted off the magnet, whereby the operational reliability of the system can be significantly increased.

All moving parts of the safety valve are removable with the Cover 4 of the valve housing i combined into one structural unit, whereby the production and the assembly can be simplified. If repairs are necessary, the mentioned The unit can easily be exchanged for another unit of the same type, so that the operation of the gas fireplace connected to the safety valve does not must be interrupted.

The displaceable arrangement of the chamber 8, which closes the valve and the armature, in the valve housing i, as is particularly evident from the drawing, makes full use of the available space, which results in a particularly small design.

Claims (2)

PATENT CLAIMS: i. Safety shut for gas burners that heated by means of one of the thermal current of a, ii pilot flame thermocouple -c excited Elektroniagneten, counter to a restoring force, is held in the open position and the hurried the electromagnet and its armature ge - en the -asdurchströmten interior of b alve -housing chamber, through the wall of which a member connecting the armature to the valve body is slidably guided, characterized in that the chamber enclosed by the valve housing is acted upon from outside, counter to a return force, in the opposite direction of the armature stroke, at least up to the contact position of the pole face of the magnet with the armature, is displaceable. 2. Safety valve according to claim i with a shaft which can be pushed into the valve housing by hand against the action of a return force in the direction of the valve stroke, for Ilibetriebosition of the safety valve, characterized in that the end of the shaft (5) lying in the valve housing (i) fixed to the Chamber (8) is connected. 3. Safety valve according to claim 2, characterized in that the shaft (5) is connected to a disc-shaped cover (7) of the chamber (8) which removably closes one side of the chamber (8). 4. Safety valve according to claim 3, characterized in that the electromagnet (9) on the inside of the cover (7) is arranged f est. 5. Safety valve according to one of claims i to 4, characterized in that " an ignition gas valve (22) is installed in the shaft (5) , which inevitably counteracts the effect of the return force (23) in the open position when the pole face of the electromagnet comes into contact with the armature is maintained and is upstream of, downstream connected by lateral bores of the shank with the inlet pressure space of the valve housing by * Bahrungen in the stem and in the stem guide with the pilot gas. ZD n 6 ,. safety valve according to claim 5, characterized by an electromagnet in the stroke direction of the armature (io) durchdritigenden pin (216): the lifting movement, along preferably a section is at the end of the stroke, transmits the Offnungssinn to the ignition gas valve (22) 7. the safety valve of claim 5 od2r wherein the pressure in the closing direction of the ignition. gas valve (2,2) acting return force (, 2'3) is overcome by the tensile force of the electromagnet, characterized in that d The return force (23) is adjustable. 8. Sicherheitsvelitil according to one of the preceding claims, characterized in that a resilient buffering member is arranged in the connection between the armature (io) and the valve body (16). G. Safety valve according to one of the preceding claims, characterized in that all movable parts of the safety valve are combined with the removable cover (4) of the valve housing to form an easily exchangeable structural unit. Referenced publications: German patent specification No. 725 495.