DE102007050906A1 - Gas Regulator - Google Patents

Abstract

The invention relates to a gas control device (10), comprising at least one valve (11, 12), wherein the or each valve (11, 12) at least one coil (19, 20) is assigned to the valve against one of a valve closing Open spring element (17, 18) provided spring force and against a voltage applied to the valve pressure difference. According to the invention, at least two coils (19, 20) are associated with the or each valve (11, 12), at least two of the coils (19, 20) associated therewith being connected to open the respective valve (11, 12), and wherein after Opening the respective valve (11, 12), the previously parallel-connected coils (19, 20) are connected in series.

Description

The The invention relates to a gas control device according to the preamble of Claim 1 or according to the preamble of claim. 7

Gas control units have at least one Valve. Each valve has one valve body and a valve seat, wherein in the closed position of the respective Valve of the valve body via a spring element is pressed against the valve seat of the respective valve, so the valve to keep closed. In known from practice gas control devices each valve next to the spring element further associated with a coil, wherein with the aid of the respective valve associated with the coil valve body against the spring force provided by the spring element as well be opened against a voltage applied to the valve pressure difference can.

To open a Valve of a gas control device Accordingly, the coil associated with the valve must have the spring force of the valve associated spring element and the prevailing valve Overcome pressure difference. The magnetic field to be provided by the coil is when opening the Valve maximum, after opening the valve, however, decreases the required magnetic field, which provided by the coil associated with the respective valve must become. The coil associated with a valve of a gas control device must However, be designed so that the required when opening the valve magnetic Field can be provided. This results in relative large coils, on the one hand expensive and on the other hand heavy. It therefore exists a need for a gas control device, which with smaller and cheaper coils the required functionality can provide.

Of these, the invention is based on the problem, a novel Gas Regulator to accomplish.

This Problem is according to a first aspect of the invention by a gas control device with the features of claim 1. Thereafter, the or each valve are each at least two coils assigned to being open of the respective valve at least two of the respective valve associated coils are connected in parallel, and wherein after opening the respective valve in parallel before the coils in series are switched.

To The first aspect of the present invention is any valve of the gas control device at least associated with two coils. To open the the respective valve coils are connected in parallel with the same associated coils. After opening the respective valve, however, are the previously connected in parallel Coils connected in series. This makes it possible with relatively small, inexpensive Coils that open required of the valve to provide magnetic field. After the first aspect of here present invention, each valve of a gas control device regardless of other valves of the same opened and closed.

To In a second aspect of the invention, this problem is addressed by Gas Regulator solved with the features of claim 7. After that are to open the Valves the same associated coils connected in parallel, wherein after opening the Valves the previously parallel-connected coils connected in series are.

To The second aspect of the present invention is at least two valves in series at least two common coils assigned to open the valves are connected in parallel and after opening the valves in series are switched. The valves connected in series can be independent of each other open but only be closed together.

preferred Further developments of the invention will become apparent from the dependent claims and the following description. Hereinafter, embodiments of the invention, without being limited thereto, with reference to the drawing explained in more detail. In the drawing shows:

1 a cross section through a gas control device according to the invention;

2 : an equivalent circuit diagram of a gas regulator of the valve 1 associated coils in a first circuit state thereof;

3 : the equivalent circuit of the 2 in a second circuit state;

4 an alternative equivalent circuit of coils associated with a valve in a first circuit state thereof; and

5 : the equivalent circuit of the 4 in a second circuit state.

A preferred embodiment of the present invention will be described below with reference to FIG 1 to 3 described in detail, wherein 1 a cross section through a gas control valve 10 with two valves in series 11 . 12 shows. Each of the valves 11 . 12 has a valve body 13 . 14 , and a valve seat 15 . 16 , with each of the valves 11 . 12 a spring element 17 . 18 is assigned, which the respective valve body 13 . 14 , against the respective valve seat 15 . 16 of respective valve 11 . 12 presses and so the respective valve 11 . 12 closed.

To open a valve 11 . 12 must the valve body 13 . 14 of the respective valve 11 . 12 against the spring element 17 . 18 provided spring force and against the prevailing on the valve body pressure difference from the respective valve seat 15 . 16 be lifted off.

In the embodiment of 1 to 3 are for this purpose each of the two valves 11 . 12 two coils 19 . 20 assigned. To open the respective valve 11 . 12 are the coils associated therewith 19 . 20 connected in parallel (see 2 ), after opening the respective valve 11 . 12 are, however, the previously parallel-connected coils 19 . 20 connected in series (see 3 ). It should be noted that although in the embodiment shown each valve 11 . 12 only two coils 19 . 20 it is also possible that each of the valves 11 . 12 more than two coils are assigned.

To open the respective valve are according to 2 all coils associated with same 19 . 20 connected in parallel. After opening the respective valve are according to 2 all coils associated with same 19 . 20 connected in series.

In the case where, in the embodiment shown, each of the valves 11 . 12 associated two coils 19 . 20 are identical and have an identical ohmic resistance R, is when opening the respective valve 11 . 12 the total ohmic resistance R _{parallel to} the coils 0.5 · R connected in parallel. After opening the respective valve, namely when the coils 19 . 20 are connected in series, the total ohmic resistance R _series of series-connected coils 2 · R.

After switching from the parallel connection to the series connection of the coils 19 . 20 Accordingly, the total resistance of the arrangement of the two coils changes 19 . 20 by a factor of 4, which also implies that through the coils 19 . 20 flowing electric current changes by a factor of 4.

Of the Factor by which the total resistance of the coil assembly and the one flowing through it Electricity changes, is self-evident Depending on the number of coils and the sizing of the same.

As 2 and 3 can be taken are the coils 19 . 20 controllable switching elements 21 assigned. Depending on the switching position of the switching elements 21 are the one valve 11 . 12 associated coils 19 . 20 either in parallel or in series. To open a valve 11 . 12 , become the controllable switching elements 21 controlled such that the same in 2 assume the switching position shown and the coils 19 . 20 are therefore connected in parallel. After opening the respective valve 11 . 12 becomes the control of the switching elements 21 changed so that the same in 3 assume the switching position shown and the coils 19 . 20 are therefore connected in series.

Preferably, they are a valve 11 . 12 associated coils are identically dimensioned, the coils 19 . 20 of each valve 11 . 12 are executed in phase.

The direction of the coil 19 . 20 flowing electrical current and the direction of the magnetic field provided by the same is in the same direction, so that the same to open the respective valve 11 . 12 can provide the required magnetic field.

In the embodiment shown, each of the valves 11 . 12 of the gas regulator 10 two coils each 19 . 20 with corresponding switching elements 21 assigned. Each of the two valves 11 . 12 can therefore be independent of the other valve 12 . 11 be opened and closed.

4 . 5 show an alternative embodiment of the invention, in which each of the two valves 11 . 12 four coils 19a . 19b . 20a . 20b assigned. To open the respective valve 11 . 12 are a subset, namely at least two, of the same associated coils 19a . 19b . 20a . 20b connected in parallel (see 4 ), after opening the respective valve 11 . 12 are the previously parallel connected coils 19a . 19b . 20a . 20b connected in series (see 5 ).

In contrast, it is also possible that in the embodiment shown the 1 the two valves connected in series are associated with two common coils, which are connected in parallel to open the two valves and connected in series after the opening of the two valves. In this case, then the two valves can be opened independently but only closed together.

10

Gas Regulator

11

Valve

12

Valve

13

valve body

14

valve body

15

valve seat

16

valve seat

17

spring element

18

spring element

19 19a, 19b

Kitchen sink

20 20a, 20b

Kitchen sink

21

switching element

Claims (8)

Gas control device, comprising at least one valve, wherein the or each valve is associated with at least one coil to open the valve against a provided by a valve closing spring element spring force and against a pressure applied to the valve pressure difference, characterized in that the or each valve ( 11 . 12 ) at least two coils ( 19 . 20 ; 19a . 19b . 20a . 20b ) are assigned, wherein for opening the respective valve ( 11 . 12 ) at least two of the coils associated therewith ( 19 . 20 ; 19a . 19b . 20a . 20b ) are connected in parallel, and wherein after the opening of the respective valve ( 11 . 12 ) the previously parallel-connected coils ( 19 . 20 ; 19a . 19b . 20a . 20b ) are connected in series. Gas Regulator according to claim 1, characterized in that for opening the respective valve all the same associated coils connected in parallel are, and that after opening of the respective valve all the same associated coils in series are switched. Gas Regulator according to claim 1, characterized in that for opening the each valve a subset of the same associated coils are connected in parallel, and that after opening the respective valve all the coils associated therewith are connected in series. Gas control device according to one of claims 1 to 3, characterized in that the coils ( 19 . 20 ; 19a . 19b . 20a . 20b ) controllable switching elements ( 21 ) are assigned, wherein, depending on the switching position of the switching elements ( 21 ) a valve ( 11 . 12 ) associated coils ( 19 . 20 ; 19a . 19b . 20a . 20b ) are connected in parallel or in series. Gas control device according to one or more of claims 1 to 4, characterized in that the same two valves in series ( 11 . 12 ), each valve ( 11 . 12 ) at least two coils ( 19 . 20 ) are assigned, wherein for opening the respective valve ( 11 . 12 ) all the coils associated therewith are connected in parallel, and wherein after the opening of the respective valve ( 11 . 12 ) All the same associated coils are connected in series. Gas control device according to one or more of claims 1 to 4, characterized in that the same two valves in series ( 11 . 12 ), each valve ( 11 . 12 ) at least two coils ( 19a . 19b . 20a . 20b ) are assigned, wherein for opening the respective valve ( 11 . 12 ) a subset of the associated coils are connected in parallel, and wherein after the opening of the respective valve ( 11 . 12 ) All the same associated coils are connected in series. Gas control device with several valves in series, each valve at least one coil is assigned to the valve against one of one closing the valve Spring element provided spring force and against one on the valve open pressure difference to open, characterized in that the opening of the valves the same associated coils are connected in parallel, and that after opening the Valves the previously parallel-connected coils are connected in series. Gas Regulator according to claim 7, characterized in that the same two in series switched valves, having two valve common coils are assigned that to open the valves connected in parallel with the same coils are, and that after opening the valves previously connected in parallel coils are connected in series are.