DE2809701A1 - Two stage electromagnetic gas supply control valve - has two armatures with coaxial spindles between oscillation damper and valve member - Google Patents

Abstract

The control valve for the fuel supply of a gas burner is electromagnetically operated and has a two stage operation. The body (1) contains an upper winding (7) and a larger lower winding (6) enclosing respective armatures (9, 8). The lower armature (8) acts on a rod (10) with the valve member (3) secured to it. Coaxial with this rod is a coupling rod (11) between the two armatures, fitting into the lower armature (8) and passing through the upper armature. This coupling rod has a head (15) on top, acting as a piston inside a cylinder (21). On top of the cylinder rests a further coaxial rod (18) projecting from underneath an oscillation damping member (17) supported above the valve housing.

Description

The invention relates to an electromagnetic gas valve with two opening stages, which is under spring pressure of the valve closure part via a rod with a first and a second plunger of a first or a second solenoid for setting the two opening levels is connected and by the action of a The damper device experiences a delay at least in part of its opening movement, the second Immersion armature with a predetermined working stroke, the valve closure part in a partial opening stage and the first plunger with the working stroke specified for it, the valve closure part without adjusting the first Immersion anchor moved to a fully open stage.

In known gas valves of the type described above, the linkage is for actuating the valve closure part in alignment with a pressure tappet opposite the damper device and depending on the setting of the Distance between the two at the beginning or in the course of the opening stroke to the contact against the plunger. the then occurring reaction of the damper device causes a slowed, creeping opening movement of the Valve closure member.

In principle, it is regularly desirable in such valves to avoid sudden opening, which

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for example with burners to undesired pressure surges in combustion chambers, disturbances in the structure of the flame and also to their Can cause tearing off. The opening characteristics that can be achieved with conventional two-stage gas valves is, however, unfavorable in that at most the first, particularly critical stage can be excluded from the delay effect while it is shown has that although the first stage should contain a delay at least in one end region of its opening, however, the second stage, i.e. H. the transition from partial to full opening of the valve, in its effects is not critical and should be switched through without delay in the interest of fast switching.

To achieve the opening characteristic described above, according to the invention, a gas valve of the im Claim 1 designated type proposed. By giving up the direct action of the linkage on the Damper device a coupling is provided between the damper device and the second plunger armature the delay characteristics are limited to the partial stroke until the valve reaches the partial opening stage, in order to ensure a steady build-up of pressure and flow in the lines downstream of the valve and assemblies, especially burners. Switching operations between the two opening levels of the

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Valve, on the other hand, can run without a delay, for example to provide rapid regulation. Here are also material stresses attenuation losses and additional expenditure of switching energy as they occur in the event of an unnecessary damping _s been closed

A particularly clear, simple, robust and compact structure can be achieved with the one known per se coaxial arrangement of the solenoids and their plungers in alignment with the valve closure part and with one that is rigidly joined to the first immersion anchor and engages behind the second immersion anchor Achieve linkage, the damper device also coaxially at the end over the second Magnet coil is arranged.

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Further features and configurations of the invention emerge from the claims and the following Description in which an exemplary embodiment of the subject matter of the invention is explained in more detail with reference to a drawing is. In the single figure of the drawing, a longitudinal section through a gas valve is shown schematically.

The gas valve designated rait I in the drawing as a whole has a valve housing 2 in which a valve closure part 3 cooperates with an annular valve seat 4.

A coil housing 5 is arranged on the valve housing 2 and has two magnetic coils, namely a first magnetic coil 6 and encloses a second magnetic coil 7 in a coaxial arrangement. The solenoids 6 and 7 work with their magnetic field in each case on a plunger, namely a first plunger 8 or a second Immersion armature 9 with their magnetic fields that are not coupled to one another. The diving anchors 8, 9 are with the Valve closure part 3 via a linkage composed of two coaxially arranged rods 10, 11 in connection. Furthermore, the valve closure part 3 is under the action of a spring 12, which the valve closure part 3 with de-energized solenoid coils against the valve

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seat 4 presses and at the same time the plunger in your Brings rest position or holds in this.

The working stroke of the plunger 8, 9 is switched on Magnet coils limited by associated pole shoes 13 and l4. In detail are the two switching stages of the valve defined in that the second plunger has a smaller, z. B. execute a stroke limited to 3 mm can and thereby the rod 11, which passes through the plunger 9 centrally and with an end head 15 in a - .. the top recess l6 engages behind, pulls upwards. The rod 11 is fixed in the first plunger 8 anchored, the lower end also holds the rod 10 in fixed anchoring, which in turn with the valve closure part 3 is firmly connected. The lifting of the plunger 9 thus causes a corresponding partial stroke of the Valve closure part 3 to a first opening stage.

The second (full) opening stage is through tightening of the first plunger 8 causes which can perform a larger stroke than the second plunger 9 and thereby the valve closure part 3 is raised further in relation to the valve seat 4. The central penetrating anchor 9 and the rod 11 engaging behind the end head 15 on the top side can be released freely from the plunger 9 and move up "

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The parts and functions of the arrangement described above are conventional. In these, the Effect of a continued coaxial to the magnetic coils 6, 7, the plunger armatures 8, 9 and the linkage 10, 11 The damper device 17 arranged on the top of the coil housing 5 is initially disregarded. The end-side coaxial arrangement of this damper device is also common in conventional gas valves a structure of the type described above is known, although such a damper device and thus in particular a plunger 18 projecting centrally on this underside so that it goes down into the bobbin case 5 was displaced so that the plunger 18 could come into pressure engagement with the end head 15 of the rod 11 ·.

In the illustrated embodiment of the invention, however, the damper device 17 and the lower The end of the plunger 18 is displaced so far upwards that the latter comes out of the stroke area of the end head 15. This shift is based on components of the conventional type, through the interposition of a The spacer 19 has the effect that the lower end has an external thread and the upper end has a corresponding internal thread, so that a threaded connector provided on the damper device 17 and partially enclosing the plunger 18 20 no longer directly on the bobbin case 5, but

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staggered upwards in the spacer: 19 arranged will. The height adjustment of the spacer 19 can be done by a transverse grub screw 2 ^. in a the spacer 19 receiving connection piece on the top of the coil housing 5 are secured.

The operative engagement sought here between the damper device 17 and the plunger 9 is produced by a coupling insert 21. The coupling insert is hollow and open at the bottom and is supported with its lower edge on the bottom of the recess 16. The cross section of its interior 22 is so measured, that it surrounds the end head 15 while maintaining a free movement play and the axial length of the inner space 22 is sufficient _s to the end head of its free axial movability over the full working stroke of the plunger to leave. 8 On the upper side, the coupling insert 21 offers a face 23 directed towards the lower end of the plunger. In this case, a distance between the end face 23 and the lower end of the plunger 18 can be provided for the rest position of the plunger 9 ₃ so that the delay effect of the damper device only occurs after a certain initial stroke of the plunger _s if necessary "also occurs after an initial stroke of the valve closure part 3 _s, with an axial play between the end head 15 of the

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Rod 11 and the bottom surface of the recess 16 in the immersion anchor 9 must be taken into account. So whether the delay Effect of the damper begins at the beginning of the partial stroke of the locking part 3 or only in its course, can be specified by the distance between the end face 23 and the lower end of the plunger 18. A subsequent one Stabling is by means of screw adjustment of the spacer 19 possible.

The embodiment described above is a two-stage The gas valve therefore allows the first stage to be subjected to a delay in the opening process and to switch the second stage without delay. The valve closes immediately in each stage, which already results from the fact that the coupling insert 21 only in the pressure direction, d. H. in the direction of the valve opening process, with which plunger 18 interacts.

Advantageous in the embodiment described above is also the easy way of removing this from a conventional gas valve through small built-in components to create. All that is required for this is the insertion of the coupling insert 21 and the spacer 19. In the opposite sense, it is of course also possible for special applications from the here described

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to manufacture a valve of the conventional type, in which the opening paths of both stages are delayed. The changeover only requires removal the coupling insert 21 and the spacer 19.

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Claims (4)

7790 G. Kromschröder Aktiengesellschaft Jahnplatz 6, D 4500 Osnabrück Electromagnetically operated gas valve Patent claims: lj Electromagnetically operated gas valve with two opening stages, the spring-loaded valve closure part of which is connected via a linkage to a first and a second plunger of a first and a second magnet coil for setting the two opening stages and a delay at least in part of its opening movement by the action of a damper device the second plunger moves the valve closure part into a partial opening stage with a working stroke specified for it and the first plunger moves the valve closure part with the working stroke specified for it into a full opening stage without adjusting the first plunger, characterized in that the damper device (17) with the second plunger (9) is connected by a coupling (21) which brings the damper device into operative engagement with the plunger at least in the end region of its working stroke. 90 - - · ■ 9 ORiGiNAL INSPECTED 2. Gas valve according to claim 1, characterized in that the magnetic coils (6,7) and their plunger armature (8,9 coaxially one above the other and in alignment with the valve closure part (3) as well as through one with the first plunger (8) rigidly joined together and the second plunger (9) engaging rod (10, 11) are connected wherein the damper device (17) is arranged coaxially at the end above the second magnetic coil (7). 3. Gas valve according to claim 2, characterized in that the coupling (21) consists of a coaxial top side
there is a coupling insert arranged on the second plunger (9) and in aligned opposition to a pressure tappet (18) of the damper device (17). 4. Gas valve according to claim 3, characterized in that the coupling insert (21) is hollow
and in its cavity (22) a second plunger (9) engaging behind the end head (15) of the rod (10, 11) encloses in such a way that he conditions for his Arbeitsbew relative to the plunger (9) a sufficient axial and radial play receives. 9 0 · " ⁷ Z '' 53 Ö