DE1629884A1 - Rotary gas switch, especially for water heaters - Google Patents

Description

Rotary gas switch, especially for water heaters The invention relates to a rotary gas switch in particular for Water heater with coaxially arranged ignition gas and main t gas valve provided with a driver by the stroke of a riding Valve stem are to be opened one after the other. It is with such Rotary gas switches known, the stroke of the valve stem by a to control rotatably and displaceably arranged curve supports, which is controlled by a rotary handle by means of a da2an @ cams rotatable and in the. ve @ c @ right position by a Heat-sensitive locking device against the action a return spring can be locked9 whereby the opening of the main gasventgls success by turning the twist grip backwards :, that the; Control cam on a lift cam of the .locked cam. carrier slides and thereby an axial @ eschiel @ ua @ "des @ e @ .ber @ caused. For rotary gas switches that work in this> C7eise eeDBp 1 ®59 857) releases the locking of the curve support when the ignition gas valve the possibility of an acting on the lock, z. B. to attach thermoelectric ignition fuse. The invention is based on the task of a rotary gas switch of the described to improve and perfect the art, especially the To facilitate production and to increase functional reliability, The invention consists in dtaß with the twist grip a control cam bearing cam is connected, the one hand on Curve support rests and on the other hand with a fixed to the housing Inclined surface cooperates in such a way that the rotary handle and the cam carrier is also axial when turning the rotary handle by an amount sufficient to open the ignition gas valve shifts. The curve for generating the ignition gas required to open valve required Hubos is therefore not at the rotatable .Kurventräger attached l> but for this gine is bea special on Rotary handle attached cam provided and the rotary handle designed to be axially displaceable. This has the advantage that di: r The valve stem rest centrally on the cam support and its The contact surface can be adjusted, for example , by means of an adjusting screw can be® The rotary accelerator of this type is further improved by that the cam carrier has a radially protruding shoulder , the 3-armed, pivotable pivot lever cooperates in such a way that by striking the neck the locking lever on the middle lever arm. as far as is forgotten until a hooked end of the outer lever arm overlaps the approach, being the third lever in the area-a virus-sensitive Holding device arrives. The return spring is expediently the Kurges @ tpäge @ as one that can be tensioned when twisting, but also A spiral spring causing an arial movement of the curve support trained. Here, between the outer disc of the rotary handle and de g learve @ aty @ ger his elastic ring for dampening the return Movement of the curve support can be arranged. In a further embodiment of the invention it is provided that the warmth. Sensitive locking device from two independent mutually responsive, non-positive on a locking lever affecting heat-sensitive organs. Then you can .The locking of the rotary gas switch both by a z. E. thermoelectronic ignition fuse as well as by one on the Make water temperature responsive thermostats releasable and This saves additional safety valves. A Ausfdhrusgsbeispiel the invention is below Described in more detail with reference to the figures. his, 1 shows an elevation of the rotary gas switch in section. F sharp. 2 is a section d - A of the Tig. 1. Fig. 3 shows a front view of the rotary gas switch. fig. shows a section of the rotary gas switch in the ignition position. fi g. 5. is a section B - B of the Ti g .. 6 shows a front not in the ignition position.

Fig. Z -Sets an embodiment with additional thermal Staten represents.

Fig. 8 is a section C - C of the hig, i.

In a housing an ignition gas valve feAerbelastetes 2 and a likewise spring-loaded Pauptgasventil 3-1 is classified equiaxial reasonable. A valve stem 4 has a driver 4 ° and is guided in the housing 1. By lifting the valve stem 4 , the valves 2, 3 can be opened one after the other against the action of the valve springs and the gas pressure. An ignition gas line 5 is branched off between the valves 2, 3. The valve stem: 4 rests on the testicle of a cup-shaped curve support 6, which has a peg-like extension 6 '. An adjusting screw Z, which forms an adjustable contact surface for the valve stem 4, is seated in the shoulder 6 ′. The cam holder 6 is arranged in the housing 1 coaxially to the valves 2, 3 and is azial displaceable and rotatably. A helical spring 8 which surrounds the valve stem 4 is fastened on the one hand to the housing 1 and on the other hand to the cam support 6 and counteracts both a rotation and an axial displacement of the cam support 6. A rotary handle 9 , which is firmly connected to a cam disk 10, is pushed over the peg-shaped extension 6 ′ of the cam carrier 6. This cam 10 is located with the interposition of an elastic damping ring 11 on the cam carrier 6 and is guided in a screwed to the housing 1 Übervurfdeckel 12th The cam 10 has a curve 10 ′ which works together with an inclined surface 13 in the interior of the cover 12 . Hei a rotation of the rotating knob 9 at the same time it is displaced axially with the cam carrier 6 and thereby opens the pilot gas valve. 2 This deaf is limited by the fact that the cam disc 10 finds a stop on an end face 1 'of the housing 1. The cam disk 10 is provided with a cam 14, by means of which, when the rotary handle 9 is rotated, the cam carrier 6 is taken along and rotated against the action of the helical spring 8. The cam carrier 6 travels on a radial projection 15, which when the rotary handle 9 is rotated into the in Fig. 2 shown by dashed lines comes position. Then this is the one Case when the rotary handle 9 is out of the position shown in FIG into position I (ignition position) shown in FIG. 6 by more than 900 is turned. In housing 1 is a three-armed bolt lever 16 mounted at 16 '. By the radial approach 15, which is on the middle arm of the locking lever 16 comes to rest, the Riegelhebe1 @ 16, supported by the spring 17, against the effect a spring 18 pivoted slightly so that the hook-shaped outer Leverara engages over the approach 15 and thereby a reverse rotation of the Curve carrier 6 prevented (Fig. 5). On the third arm of the bolt Lever 16 is a pin 19 under the entry of a spring 18 frictionally. The pin 19 carries the armature 20 of a thermo- Electrically excited holding magnets 21. In the case of the set the ignition position, the locking lever 16 has the force of the spring 18 and the armature 20 to the poles of the holding magnet 21 created. Since the pilot gas valve 2 is open, a pilot flame, not shown, are ignited in known Way a generating the excitation current of the holding magnet 21 Thermally heated. t; enn when the pilot flame is burning the holding Magnet 21 is excited, this holds the armature 20 against the action the spring 18 firmly. When you let go of the rotary handle 9, it remains in its position, since the spring 18 was now relieved Lock lever 16 the cam carrier 6 when the helical spring 8 is tensioned holds in the twisted position. The ignition lamp goes out and so that the excitation of the holding magnet 21, then the spring 18 - when released! Rotary handle 9 the locking lever 16 back and the Coil spring 8 may be the cam carrier 6 and the knob 9 the _.n Return the starting position (0 position) , whereby the ignition # .tas- valve 2 is closed again. The opening of the main gas valve 3 is only possible when the furcträger 6 in its twisted position nuf the besch: ti etienc: Travel held by the circlip 16. Is. Then turn matte the rotary handle 9 from d (, r zvirück in S'te -. lunf; 11 (£ i f. 6), then the.llacl: en 14. Slides on ciner- = I £ ubkurvr: 22-. the twisted F.'urvc-n-räaers@-%i un, 1 cerechieben, this = (6) i # l axi.f? rtVi chtunr unier l '! fin.ung des hßilhi @ =. edventil.s -.3 =: @ = Dst.e =. slides. the mixture has reached 15 under the latch lever 16 until the cam 14 to position II at 23 a stop position, we the turning handle 9 via the position II also again in position 0 is rotated, sliding the cams 14 on another lift curve 24 of the Curve carrier 6 and moves this (6) by a further amount in the axial direction. In the process, however, the locking lever 16 slides from the projection 15 so that now the helical spring 8 can turn the cam carrier 6 back into the original position shown in FIG. 1 and push it back, whereby both valves 2 and 3 are closed . This takes place regardless of the fact that the holding magnet 21 is still energized for the time being. The latch lever 16 is then held by the compression spring 1'j in its illustrated in Figure "5 position. It is therefore the gas valves 2, 3 in the position 0 arbitrarily at any time even when burning pilot flame close by back-rotation of the rotating knob 9.

When in Fig T and illustrated embodiment. 8 of the locking lever 16 may not only by the spring 18 upon release of the holding magnet 21 also triggered by a wachungsthermostaten to be described over- and so that the two valves 2, put the rotary gas switch for Abachluß 3 will. A monitoring thermostat 25 in the form of an expansion vessel connected to a heat sensor through a capillary 25 ' is accommodated in a sleeve-shaped housing extension 26. The expansion vessel 25 acts on an angle lever 28 which is mounted at 27 in the housing extension 25 and which engages with a tang pin 29 in an opening 30 of a switching lever 31. The reed lever 31 is mounted in the Gehtuns 26 at 32 and protrudes with its one end 33. The switching lever 31 engages under the locking lever 16 and is under the influence of a switching spring 34. As soon as a predetermined temperature is exceeded on the heat sensor , the expansion lever 25 lifts the angle lever # 28 and thereby brings the catch pin ° 29 out of engagement with the -Öffnung 30 the switching lever 31: Dadürch is the trapped by the catch pin 29 force spring 34 free, so that the switch lever 31 is now 16 of the giant gelhebel: can trigger. If the locking lever 16 is brought back into the locked position by turning the rotary handle 9 when it is switched on again, then the spring 18 and the spring 34 must be overcome until the catch pin 29 has cooled down the expansion joint 25 Again in the opening 30 of the shift lever 31 can enter . It can be set up in such a way that this does not happen by itself, but rather that for this purpose the switching lever 31 first has to be brought into a certain position by hand through the protruding end 33 after the cause of the malfunction has been eliminated .

Claims (1)

P a t. Ent : requirements 1. Rotary pass switch, especially for water heaters, with ignition gas and main gas valves arranged on the same axis, which can be opened one after the other by the stroke of a valve stem provided with a driver , whereby the stroke of the valve stem is controlled by a twisted UN4 slidably disposed cam carrier is controllable, which of a turning handle by means of a thereto mounted control cam rotatable and in the rotated position is lockable by a heat-sensitive locking device against eie action of a return spring and the bffnen of the main gas valve by a reverse rotation of the rotary control handle riadurch made that the Control cam on a stroke curve of the locked cam carrier slides uni dadurc-i causes an axial displacement of the same , thereby geken: izeichnet that the rotary handle (Q) is connected to a cam (10) carrying the control cam (14) , which is one on the curve support (E) and on the other hand with a GehAusef most inclined surface (13) in such a way. zusannenarbeitet that the Drehgri to ff (4) and the cam carrier (6) at the same time axially for a! it shifts 2ündgasventils (2) amount sufficient upon rotation of the rotary handle (9) for Mfinen. 2. Rotary pass switch according to claim 1, characterized in that the cam carrier (6) has a radially projecting extension (15). Which cooperates with a three-armed, pivotable rhlager: en locking lever, (16) in such a way that durc "i strike . the extension (15) of the Hobelarm-'tiegelhebcl (16) as far as verschuenkt to nittleren until a hakenfäraig, is the end of the outer lever army (15) engages over the AnEatr, the third Hetelarn vobci in the hereich a virrieemrfindli hen Haltevorrichtui: g (20, 21, 25, 31 ). 3. Rotary gas switch according to claim 1 or 2, characterized in that the return spring of the cam carrier (6) as a tensionable during rotation , but also an axial displacement of the cam carrier (6) A rotary gas switch according to one of claims 1 to 3, characterized in that an elastic ring (11) for damping between the cam (10) of the rotary handle (9) and the cam carrier (6) the return movement ung of the curve support (6) is arranged. 5. Rotary gas switch according to one of claims 1 to 4, characterized in that the heat-sensitive locking device consists of two heat-sensitive elements (20, 21, 25, 31) which act independently of each other and are force-locking on a locking lever (16). 6. rotary gas switch according to claim 2 and 5, gekennzeichnet_ in that on the third lever arm of the locking lever (16) on the one hand, the return spring (19) of an armature held by a thernoelektrisch excitability th magnet (21) (20), on the other hand, the spring (34) a locked lever (31) engages, the lock (29, 30) can be triggered by a monitoring thermostat (25) . '.