CS247530B1 - Hot water lamella exchanger with flue gas inlet at its height - Google Patents

Abstract

The purpose of the invention is to solve the design of an exchanger with a flue gas inlet in the middle of its height, which allows the use of the entire heating surface, half of the heating surface and also direct flue gas extraction as needed. Easy cleaning and the possibility of rational production of exchangers of various capacities are necessary. The purpose is achieved by creating at least two vertical flue gas drafts in the space between the exchanger shell and the vertical lamellas, which are connected in the middle of the height by a gap, while the necessary flue gas flow is directed by two suitably placed flaps.

Description

The invention relates to a hot-water exchanger with vertical fins, eg for central heating boilers, which has an inlet and an outlet of the flue gas located approximately at half its height.

Previously known hot-water heat exchangers with vertical fins have these fins uninterrupted in height. If the flue gas outlet from the furnace is positioned low or high enough, this is the optimal solution.

However, in some furnace designs, the flue gas exhaust is at a height approximately equal to half the boiler height. In these cases, the use of said exchangers means an unnecessary lengthening of the boiler and an increase in the demands on the chimney draft due to the necessity of extending the flue gas paths.

Also, in these heat exchanger designs, it is generally not possible to use only a portion of the heat exchange surface corresponding to the reduced power. In the damped combustion mode, the flue gases are cooled excessively and tar vapor condenses.

The above-mentioned drawbacks are overcome by the hot-water vane heat exchanger according to the invention. The essence of the solution is to place at least two inner vertical hollow lamellas in the shell of the exchanger, one above the other with vertical gaps both between each other and between the shell.

The at least two vertical strokes thus formed are connected in the middle by a vertical gap between the two inner slats. Swivel flaps, conveniently located at the flue gas inlet to the exchanger and at the flue gas outlet from the exchanger, direct the flue gas flow in individual parts of the exchanger as needed.

The main advantages of the hot-water heat exchanger are that it is possible to use the entire heating surface of the exchanger or only half of it, or to allow the flue gas to be led directly into the exhaust. Also, easy access to all surfaces is an advantage, ensuring easy and efficient cleaning of the heat transfer surfaces.

The design of the exchanger is relatively simple and allows the insertion of additional lamella surfaces to increase the heat output of the exchanger. This fulfills the prerequisite for the production of exchangers of different outputs in the form of a kit using the same fins.

The accompanying drawings show exemplary embodiments of hot-water vane heat exchangers in vertical longitudinal sections with marked flue gas passages. Giant. 1 shows the position of the dampers when using the entire heat exchanger surface, FIG. 2 shows the position of the dampers when half of the heat exchanger surface is engaged, and FIG.

Fig. 4 shows an exchanger with an increased number of fins and Fig. 5 shows an exchanger with inverted mounting of the control flaps and indicating their alternative positions.

FIG. 1 shows a hot-water vane exchanger with a flue gas inlet in the middle of its height, which forms a hollow shell 2, in which two internal vertical hollow lamellas 1 are arranged transversely connected to the hollow shell 2 on the sides.

There is a vertical gap between the two slats as well as between the slats 1 and the casing 2. The spaces between the slats 1 and the casing 2 create two vertical flue gas strokes, connected in the middle by a vertical gap between the slats 1.

Rotary control flaps 3 are located at the points at the flue gas inlet 5 and the flue gas outlet 6.

In the position of the control flaps 4 shown in FIG. 1, the flue gas is rectified after entering the exchanger 5 into the lower part of the exchanger by the left control flap 3 and the flue gas is led to the upper part of the exchanger and further to the flue gas outlet 6.

24753C

The entire heating surface of the exchanger is thus put into operation. In FIG. 2, the flue gas is led through the left regulating flap 3 to the lower part of the exchanger and through the right flap 6 to the flue gas outlet 6.

Half of the heat exchanger surface is included. In FIG. 3, both control flaps 3 and 4 direct the flue gas from the flue gas inlet 5 to the outlet 6. Giant. 4 shows an exchanger with an increased number of fins. Giant. 5 shows an alternative solution for the positioning of the control dampers.

Claims (1)

SUBJECT OF THE INVENTION Hot-water heat exchanger with a flue gas inlet in the middle of its height, consisting of a hollow shell and internal vertical hollow plates interconnected with the hollow shell, which create vertical flue gas strokes, characterized in that at least two inner hollow plates (1) are vertically inserted into the hollow shell 2) one above the other with vertical gaps between each other and between the shell, the vertical flue gas flows being provided at the points at the flue gas inlet (5) and at the flue gas outlet (6) with flow control valves (3), (4) flue gas.