CH684761A5 - Heating boiler closure door - Google Patents

Abstract

The heating boiler closure door consists of a shell-shaped door panel made of cast iron, in which, inside a circumferential, fire-space-side edge rim (2), an insulation block (8) is arranged, and, at the end (1) of the fire-space-side edge rim (2), a seal (9) is arranged in a circumferential groove. According to the invention, the heating boiler closure door is designed in such a manner, that at the fire-space-side end (1) of the edge rim (2), a cross-sectionally Z-shaped steel or special steel ring (3) is attached or inserted with one of its legs (4) and the seal (9) is arranged in the free space between the other leg (5), the base web (6) of the ring (3) and the adjacent end region (7) of the insulation block (8). The thickness (S) of the edge rim (2) is dimensioned considerably smaller than the width (B) of the base web (6) of the ring (3). <IMAGE>

Description

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CH 684 761 A5

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description

The invention relates to a boiler lock door, consisting of a shell-shaped door plate made of cast iron, in which a heat insulation block and a seal is arranged in a circumferential groove at the end of the firebox-side rim in a circumferential groove.

Such boiler lock doors are known from DE-GM 1 913 481. In this known locking door is on a generally flat locking plate made of sheet steel or cast iron around which. To accommodate heat insulation block and a seal, a frame made of cast? Ep attached, which has a circumferential groove for the seal on the kes-selgehäuses edge. By attaching the frame separately, it is possible to "green" this frame, taking into account the formability of a corresponding model, i.e. without pouring the core, whatever is to be aimed at, as far as possible. Other boiler lock doors, which also have heat insulation material and seals, are represented, for example, by DE-GM 1 962 211 and EP-PS 0 173 923. The door according to the EP-PS, however, is a pure sheet steel construction of a special kind. If, for example, a very thick heat insulation block has to be accommodated in the lock door in order for heating gases flowing back from the combustion chamber to flow into the exhaust pipe above lead, i.e. if the relevant exhaust gas duct is molded into the heat insulation block, the surrounding rim of the lock door must be dimensioned accordingly high, which is not only true for this special case, but in general in particular if the inside surface of the lock door is subjected to backflowing heating gases becomes. Furthermore, since, as mentioned, it is always desirable to cast “relatively green” and, as far as possible, in one piece such geometrically relatively simple structures as are represented by boiler lock doors, in the present case it would be necessary to provide the sealing groove in the cast can be provided not only correspondingly high, but also correspondingly thick, since otherwise a casting projection would be provided for accommodating the sealing groove according to DE-GM 1 913 481, but which would no longer permit green formability in the case of a casting which is also to be aimed at in one piece.

The invention is therefore based on the object, starting from a boiler lock door of the type mentioned, to design it in such a way that with one-piece and coreless casting of the entire door, the rim can be kept as thin as possible and with the simplest means for accommodating the necessary seal should be taken care of.

This object is achieved with a boiler lock door of the type mentioned according to the invention by the features stated in the characterizing part of patent claim 1.

A door designed in this way can not only be cast as a one-piece casting, but this casting can also be shaped green in a straightforward manner, a weak taper being required on the relevant parts of the casting, as is usual in casting technology. The «green formability» with the thin wall thickness of the rim of the lock door is achieved in a simple manner by omitting the area of the rim that is to accommodate the seal during casting and by a ring made of steel or stainless steel with a z-shaped cross section is replaced, which is easy to attach to the finished casting. A "z-shaped" ring in cross-section is to be understood here as a cross-section which has two legs of different diameters at opposite ends, which are connected to a base web extending perpendicularly to the leg planes. After attaching the ring of sheet metal, which is designed in this way in cross section and is easy to produce, and after using the heat insulation block, there is thus a free space between the free leg of the ring and the adjacent end region of the heat insulation block, which thus has a circumferential groove for the Includes the necessary seal forms.

In order not to have to significantly increase the size of the locking door, in an advantageous further development the adjacent end region of the heat insulation block is provided with a circumferential recess, part of which is arranged as a ring seal. In order to further reduce heat transfer in the sealing area as much as possible, a further advantageous embodiment of the locking door is that one leg is arranged on the inner surface of the rim and between the latter and the adjacent peripheral surface of the heat insulation block. The leg to be connected directly to the rim can also be dimensioned much longer than the other leg and the length of the rim. With this special measure, the rim of the rim can be reduced in length to such an extent that there is only sufficient hold for the use or attachment of the ring on the lock door. The above-mentioned, z-shaped design of the ring cross-section is not a problem, since it is a simple cranking process of a correspondingly wide sheet metal strip, and it should also be pointed out that neither the ring nor the rim of the lock door must have a circular contour, what follows from the explanation below. If, as mentioned above, the transfer of the heating gases emerging from the combustion chamber against the inner door surface takes place in the boiler door itself, the heat insulation block has an overflow recess for this purpose, the peripheral edge of which forms the inner contact flank for the seal.

The boiler lock door according to the invention is explained in more detail below on the basis of the drawing of an embodiment.

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It shows schematically

1 shows a view of a special embodiment of a boiler lock door which at the same time has correspondingly integrated elements on the outside for receiving a fan burner;

2 shows a section through the boiler door along line II-II in Fig. 1.

Fig. 3 shows a section through the boiler door along line III-III in Fig. 1 and

4 enlarges a section through the boiler door according to circle X in FIG. 3.

As can be seen in particular from FIGS. 2, 3, the boiler lock door consists of a shell-shaped door plate made of cast iron, in which a heat insulation block 8 is arranged within a circumferential, firebox-side rim, and a seal 9 is arranged in a circumferential groove at the end of the firebox-side rim. It is now essential for this boiler lock door that a ring 3 made of steel or stainless steel with its one leg 4 is inserted at the firebox-side end 1 of the rim 2 with a leg 4 and in the space between the other leg 5, the base web 6 of the ring 3 and the seal 9 is inserted into the adjacent end region 7 of the heat insulation block 8. The thickness S of the rim 2 is dimensioned much smaller than the width B (see in particular FIG. 4) of the base web 6 of the ring 3. As can also be seen, in particular from FIG. 4, the adjacent end region 7 of the heat insulation block 8 is advantageous a circumferential recess 10 is provided, in which a part of the seal 9, as shown, is arranged. Another embodiment, also referring to FIG. 4, consists in that one leg 4 of the ring 3 is attached to the inner surface 11 of the rim 2, a gap 13 being provided between the leg 4 and the adjacent peripheral surface 12 of the heat insulation block 8 , which prevents direct heat transfer from the heat insulation block 8 to the leg 4. In order to be able to further reduce the rim L 2 in its length L than shown, which is also in the interest of easy formability, the leg 4 can be dimensioned longer than the leg 5 or as the length L of the rim 2. This is not shown in any particular way , because easily imaginable. With such a measure, only a small part of the heat insulation block 8 is still encompassed by the edge of the rim, while the larger part is covered by the leg 4 or the ring 3.

In the illustrated embodiment, the heat insulation block 8 is provided with an overflow recess 14, the circumferential edge boundary 15 of which forms the inner contact flank for the seal 9. Since the heat insulation block 8 must be of a correspondingly strong design, the described embodiment of the groove formation on the edge of the board is of particular interest in such a case, quite apart from the fact that it is particularly easy to handle by appropriately dimensioning the ring 3 or the leg 4 has to take this thick dimensioning of the heat insulation block 8 into account. So it would be entirely possible to use the same cast model for casting such boiler doors, which on the one hand are to be fitted with extremely strong heat insulation blocks and on the other hand with less strong heat insulation blocks.

Claims (5)

Claims 1. Boiler lock door, consisting of a shell-shaped door plate made of cast iron, in which a heat insulation block (8) and a seal (9) is arranged in a circumferential groove in a circumferential groove within a circumferential, firebox-side rim, characterized in that At the firebox end (1) of the rim (2) a cross-sectionally Z-shaped ring (3) made of steel or stainless steel with one leg (4) attached or inserted and in the space between the other leg (5), the base web (6) of the ring (3) and the adjacent end region (7) of the heat insulation block (8) the seal (9) is arranged, and that the thickness (S) of the rim (2) is dimensioned much smaller than the width (B) of the base web (6) of the ring (3). 2. Boiler lock door according to claim 1, characterized in that the adjacent end region (7) of the heat insulation block (8) is provided with a circumferential recess (10) and a part of the seal (9) is arranged in this. 3. Boiler lock door according to claim 1 or 2, characterized in that the one leg (4) on the inner surface (11) of the rim (2) and between this leg (4) and the adjacent peripheral surface (12) of the Wärmisolationsbiok-kes (8 ) a gap (13) is arranged. 4. Boiler lock door according to one of claims 1 to 3, characterized in that the one leg (4) is longer than the other leg (5) and the length (L) of the rim (2). 5. Boiler lock door according to one of claims 1 to 4, characterized in that the heat insulation block (8) has an overflow recess (14), the peripheral edge boundary (15) of which forms the inner contact flank for the seal (9). 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 3rd