DE7616916U1 - HEATING BOILER WITH LYING BOILER SECTIONS - Google Patents

Description

EYER & OUR PATENT LAWYERS

D-6O79 SPRENDLINGEN, ROBERT-BOSCH-STR. 12a

PATENT LAWYERS: DIPL.-ING. PH. EYER DIPL.-ING. E EVER PHYSICIST H. LINSER

Pojffodi 2210

Telephone national ι (06103) 61022 international: 47610361022 Tslexi 04-17924 Tetegrammet Corvus

Applicant: "

company

Hydrotherm Gerätebau Gml

Industriestrasse

6110 Dieburg

Boiler with horizontal boiler sections

The invention "relates to a boiler with lying Armchair sections made up of several horizontal heat exchanger elements that conduct heat from the heating medium to the heat transfer medium, of which at least the inner elements of the heat transfer medium leading, with outer convection ribs provided tubes are formed.

In a known boiler of this type, there are boiler sections from a heat transfer medium leading, d. H. frame provided with an all-round liquid channel, in which, depending on the boiler size, any number of Pipes are held as further heat exchanger elements with a fluid-conducting connection to the frame channel. the

suffered β

Vertical duct connection of the boiler sections takes place via vertical nozzles which are connected to the frame duct.

Boilers with horizontal boiler sections have a number of significant ones compared to boilers with vertical boiler sections Advantages, in particular the advantage that the links only have to be connected to one another on one side, so that the operationally unavoidable changes in length due to the heating can compensate for each other without tension. Their disadvantage compared to the boilers with standing boiler sections is to be seen in particular in the fact that the known horizontal boiler sections have a lower specific heat output - based on the material used - than the vertical boiler sections Have boiler sections and therefore require a greater specific material input than these.

The aim of the present invention is to provide a boiler with horizontal boiler sections, which compared to the known Boilers of this type require a significantly reduced specific material input and the invention exists in that the boiler section consists of a flat frame in which the pipes carrying the heat transfer medium are held and which is thermally conductive with at least the adjacent pipe (s) by means of the ribs arranged on them, is preferably materially connected.

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It has surprisingly been shown that the ribs

- in the case of a connection to the frame elements in addition to the absorption of heat from the flue gases and their Transfer to the heat transfer medium in the associated pipe to dissipate the heat absorbed by the frame elements to the inner elements is able, so that contrary to previous assumption, its own direct cooling of the frame

is not required by heat transfer medium. A connection of the longitudinal frame parts is generally sufficient here only the immediately adjacent heat transfer pipe, it however, a more extensive connection is also possible in such a way that the convection ribs form continuous transverse webs, with the arrangement is expediently made so that the heat transfer medium The leading pipes of boiler sections lying one above the other lie one above the other and the ribs are offset against one another are arranged. This ensures optimal heat transfer

- whereby turbulent flue gas guidance can also be achieved through a suitable design - as well as perfect access to the surfaces swept by the flue gas from above for the purpose of cleaning.

Another possibility is to design the ribs of the individual boiler sections so that they only face the parting plane of the model. The ribs of the other part of the model are then each in the gaps. The advantage of this Training consists in the fact that with unilateral entry and exit

7616916 12/21/71

management of the heat transfer medium in a common nozzle for the whole, consisting of several boiler sections

^ Boilers only need one mode device because

I all boiler sections are the same.

I It is also advantageous in the levels of heat conduction

rf ribs inside the pipe "turbulators" in the form of deflection

attached, through which on the one hand the heat transfer I increased area to the heat transfer medium and on the other hand

i set the heat transfer medium in a turbulent flow

is caused by the local overheating and thus the occurrence prevented by boiling noises.

The invention is illustrated in the drawing, for example. Show it

i -Fig. 1 a view from above of a boiler

element

J Fig. 2 is a partial longitudinal section through A-A

¹ Fig. 1

FIG. 3 shows a cross-section along B-B through FIG. 1

Fig. 4- three superposed links of a '; Boiler

«Fig. 5 is a section through another embodiment

Form of a boiler section in one

3 of FIG. 2 corresponding view.

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The boiler section shown in the drawing consists of a flat frame 1, in which the the heat transfer medium leading pipes 2 are held and which is connected to the pipes by means of the ribs 3. The boiler section is off Cast in one piece so that there is a material connection between the frame and the ribs. It In the drawing Fig. 1, the ribs are partially as continuous ribs spanning the entire frame (right Half) partially shown as ribs extending only to the adjacent tube (left half.). the Pipes have connection to the vertical nozzle 4a with after opening 4b directed upwards and downwards directed Opening through which (Fig. 4) the links can be mutually connected at their ends, so that a forced passage of the heat transfer medium is achieved through all links. There are also - Fig. 3 - inside the tubes 3 turbulators in each connection area to the outer ribs 5 arranged. This embodiment has advantages in relation to the liquid flow and the other Advantage that by appropriately offset attachment of the ribs 3 to the construction of a boiler with corresponding to FIG positionally offset ribs 3a and 3b only members of a training are required, which are only placed on top of each other in a position rotated by 180.

It is also possible to join the boiler sections on one side and split them in half

7616916 12/21/71

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of the connecting piece may be provided, in which case, however, it is expedient to boilers like those shown in FIG Find type use in which the ribs 6, 6a with mutual displacement up to a dividing line pass.

Claims (4)

! · ·· r »mm nnri« η · • »•• ο · ■ ·· - 7 Us / n languages 1. Boilers with horizontal boiler sections made up of one or more horizontal, the heat from the heating medium to the heat transfer medium conducting heat exchanger elements, of which at least the inner elements of the heat transfer medium leading pipes provided with outer ribs are formed, characterized in that that the Keesel link consists of a flat frame (1), in which the tubes (2) carrying the heat transfer medium are held and the one with at least the outer tube or tubes Tube (s) connected in a thermally conductive manner, preferably with a material fit, by means of the ribs (3) arranged on them is. 2. Boiler according to claim Ί, characterized in that the pipes (2) carrying the heat transfer medium are superimposed Boiler sections one above the other and the heat conducting fins (3) are arranged offset from one another. 3. Boiler according to claim 1, characterized in that 21.1111 ■ ι · «··« · r-rr. η. 1 | ΐι · ι in β · cn · I t . 1 .11 that in the planes of the ribs (5) in the pipe interior turbulators (5) are attached in the form of deflection or resistance ribs. 4. Boiler according to claim 1, characterized in that the ribs 1 (6, 6ä) ~ ^ each-only up to: Trennetsene ' of the model. Ee / Sp