DE2309540A1 - GAS FIRING SYSTEM WITH A VARIETY OF GAS FIREPLACES - Google Patents

Description

Patj-.NTANwalte Dipl.-Ing. F. Weickmann,

Dipl.-Ing. H. Weickmann, üipl.-Phys. Dr. K. Fincke Dipl.-Ing. F. A. Weickmanh, Dipl.-Culm. B. Huber

8 MUNICH 86, POST BOX 860 820

MÜHLSTRASSE 22, CALL NUMBER 48 39 21/22

<983921/22>

Werner Diermayer, 1275 Panorama Drive Lafayette, Calif. 94 549, V.St.ν.Α.

Luitpold Kutzner, 8 Munich 60 Marschner Strasse 78

Gas firing system with a variety of gas fireplaces
Keyword: CO 2 regulation

The invention relates to a gas firing system with a large number of supply air and exhaust gas sides connected to a common one Air exhaust chimneys connected to gas fireplaces at different heights.

Such gas firing systems are known by the buzzwords coined for the associated air exhaust chimneys SE-duct and U-duct. With these gas firing systems, the individual gas fires are not operated with pure combustion air fed, but with the air exhaust gas mixture flowing at the respective point. The gas fireplaces themselves as well as the supply air and exhaust pipes are sealed off from the space accommodating the respective gas fireplace.

409838/0401

The disadvantage of the known gas firing systems The type defined at the beginning consists in the fact that the oxygen supply to a gas fireplace is dependent on how many more gas fireplaces between them and the fresh air intake point of the air exhaust chimney in Operation are; if there is no other gas fireplace in operation in this route, the gas fireplace under consideration receives Fresh air supplied with a correspondingly high supply of oxygen; * however, there are more in the route Gas fireplaces in operation, the gas fireplace under consideration receives an exhaust gas mixture as an oxygen carrier different oxygen content. The closer a gas fireplace is to the fresh air intake point of the air extraction chimney is arranged, the greater its average oxygen supply, the further the gas fireplace away from the chimney's air intake point, the lower its average oxygen supply.

The invention is based on the object of a gas fire installation of the type mentioned at the beginning, the oxygen supply at the individual gas furnaces is independent of the number and mode of operation of the upstream gas firing stations at least approximately constant to keep.

To solve this problem, it is proposed according to the invention that that in the bypass lines formed for the individual gas fireplaces, flow control devices are provided, which the Durchflußquerschnitx in the respective shunt line as a function on the extent of the firing of this bypass duct in the flow direction of the air-flue gas chimney regulate preceding gas fireplaces in such a way that this flow cross-section increases with increasing extent this firing increases.

409838 / CU01

230S540

The flow cross-section of a bypass channel can be controlled by the gas temperature in its area be; For example, you know the Gasteniperatui in the supply air!: anal or in the exhaust duct of each use the fireplace in question to control the flow control device; it is. also thinks; the temperature in the air exhaust chimney in the area of the respective shunt line for controlling the through use fiow control device; however, preference is given to the gas temperature in the inflow branch of the ever Use certain bypass lines because when using this temperature to control the flow control device the response sensitivity is best and no feedback effects are to be expected.

You can also use the flow control device as a function! c control of other parameters, for example depending on the gas composition in the area of each considered shunt.

The control function of the flow control device must take into account that with increasing lighting the between: the considered place and the fresh air intake point detr The chimney of the gas fireplace under consideration, on the one hand, therefore absin: - ;, because the air is mixed with exhaust gas and, on the other hand, because the gas-air mixture expands. Other its It must also be taken into account that with increasing firing, the flow velocity in the air exhaust chimney increases, which increases the oxygen supply again.

In detail, the control function can be determined by simple experiments or by calculation without great effort.

A09838 / 0i01

In terms of construction, the flow control device can be approximately design so that parallel to each other an always open minimum cross-section and next to it a throttle body variable additional cross-section is provided. The throttle device can be bimetallic controlled, for example, a type of control popular for its simplicity.

The invention further relates to a for an inventive Gas firing system designed gas firing facility with a flow control device of the above designated type is equipped.

Finally, the invention also relates to the flow control device even those for installation either in the gas fireplace itself or in the inflow or exhaust pipe the gas fireplace is designed.

The accompanying figures explain the invention using an exemplary embodiment. They represent:

Fig. 1 shows the scheme of a gas firing system according to the invention and

FIG. 2 shows a section along line II-II in FIG. 1.

In FIG. 1 one recognizes an air exhaust gas chimney, which is designated by 10. In the case of Fig. Shunt lines 12 and 14 connected, each of which has a furnace 16 and 18, respectively, arranged on different floors. In the upper bypass line a flow control device 20 is shown, a corresponding device is also in the other Shunt line provided. The flow control device is of the type in the German patent 1 679 638 shown, with the one deviation that only part of the transverse

409838 / CU01

23LLS540 - 5 -

Section - in the example two quadrants - as an egg-metal flap are formed, while the rest of the cross section is always open. The one covered by the bimetal flap Area is denoted by 21 in FIG. 2, while the always open cross-section is denoted by 22. The always open one Area 22 is dimensioned so that it meets the oxygen demand with fresh air supply. When an air / exhaust gas mixture is supplied as a result of the gas fireplace being put into operation 18 opens the bimetallic flap formed in area 21, so that the total inflow cross-section to the gas fireplace 16 is changed according to the control function impressed on the bimetal valve.

9-8 38/0401

Claims (9)

Claims 1.). Gas combustion system with a large number of supply air and exhaust gas Gas fireplaces connected to an air exhaust chimney at different heights, characterized in that that in the bypass lines (12, 14) formed for the individual gas fires (16, 18), flow control devices (20) are provided, which the flow cross-section of the .related shunt line (12, 14) as a function of the extent of the firing of the bypass line (12, 14) preceding this in the flow direction of the air exhaust chimney (10) Regulate gas fireplaces in such a way that this flow cross-section increases with the extent of the firing. 2. Gas firing system according to claim 1, characterized in that that the control device (20) by the gas temperature in the area of the respective shunt line (12, 14) is activated. 3. Gas firing system according to claim 1 or 2, characterized in that that the control device (20) by the temperature in the bypass line (12, 14) to one Place is controlled in the direction of flow in front of the respective fireplace (16, 18). 4. Gas firing system according to claim 1 or 2, characterized in that that the control device (20) by the temperature in the bypass line (12, 14) to a:. * Place in the direction of flow behind the respective fireplace (16, 18) is controlled. 5. Gas firing system according to claim 1, characterized in that the control device (20) by the gas composition is controlled in the area of the respective fireplace (16, 18). 409838/0401 23Ü9540 _ ν - 6. Gasfeuerunr nla ^ ^ e of any one of claims 1 to i ?, characterized in that the control device (20) hastens parallel rider an always open Mindectquer- cut (??) and next to it a variable throttle member by a Zusatzqusr cut (21) having. 7. Gas firing system according to claim 6, characterized in that the throttle element (at 21) is bimetallic controlled . 8. Gas fireplace for a gas combustion system according to one of claims 1 to 7, characterized in that it is equipped with a flow control device (20), 9. Flow control device for gas firing systems according to one of claims 1 to 7 _t, characterized in that it is designed for installation in the gas fireplace and / or in the bypass line (12, 14) of a gas fireplace. 409838/0401 Blank page