NL8002328A - HEAT RECOVERY DEVICE. - Google Patents

Description

1 * - * ÏÏ.O. 29.Ο23

Heats the recovery device.

The invention relates to a heat recovery device which can be used in particular, but not exclusively, as an auxiliary device for a boiler fitted with a burner and comprising: 5 - a combustion chamber fed by the burner with air and fuel - a heating body in which the fire and combustion gases heat a fluid, - a gas outlet, 10 and - a connection of this outlet to a chimney.

Such boilers are used in domestic or industrial central heating installations. The fluid in question consists, for example, of water, but can also consist of another liquid or a gas, such as air.

In the known boilers of this kind, the gas outlet is directly connected to the connection to the chimney. The hot gases are, for example, with a temperature of the order of magnitude

a

from 190 to 4OC'0, then transported directly into the chimney.

These gases, which flow into the chimney, contain a considerable amount of heat, which is lost to the central heating installation.

Such boilers thus have a medium thermal efficiency. Thermal efficiency is understood to mean the ratio between the amount of heat received by the fluid flowing through the boiler and the amount of heat generated in the boiler by combustion of the fuel fed to the burner.

The object of the invention is to provide a heat recovery device which, used in combination with a heating appliance and in particular with a boiler of the type described, contributes to a considerable increase in the thermal efficiency. For this purpose the recovery device according to the invention consists of a hollow body which is arranged on a heating body and which comprises an inlet which is attached to an exhaust for combustion gases of the heating body, an outlet which is attached to a chimney and at least one valve.

According to a preferred embodiment, said hollow 800 2 3 28 exists

"V

2 'body from a spiral.

According to an advantageous embodiment, the hollow body is covered by a heat insulator on the side that is not attached to the heating body.

According to a preferred embodiment, the recovery device comprises means which bring the valve into its closed position when a burner fitted to the heating body does not work.

The invention will now be further explained with reference to the drawing, which shows by way of example an embodiment of the device according to the invention.

Fig. 1 shows a view of a boiler provided with a heat recovery device according to the invention, which recovery device is connected to the chimney.

FIG. 2 is a side view of the boiler, the recovery device and the chimney of FIG. 1.

In both figures, corresponding members are indicated with the same reference numerals.

The boiler is provided with a burner 2, which in a manner known per se is fed with a liquid fuel and is supplied with air via an inlet which can be closed by a valve 6. This boiler contains a combustion chamber which is filled with air and fuel is fed via the burner 2. The combustion gases leave the boiler via the outlet 3, which is connected to a spiral 25 5 · The latter flows into a connection 11, which in turn opens into the chimney 4 ·

The coil 5 is in direct contact with the heating body. The connection 11 contains a butterfly valve 7 which, in a position, allows the discharge of gases from the spiral 5 into the chimney 4. In its closed position, valve 7 closes connection 11.

The coil 5 makes two complete turns around the heating body of the boiler between, on the one hand, the outlet 3 of the gases and, on the other, the connection 11. The assembly, formed by the boiler 1 and the spiral 5, is covered by a layer 9 of mineral wool, which in turn is covered by a jacket 10.

The assembly is thus heat insulated.

The valve 7 is operated by a motor 8. The electromechanical installation is such that the motor 8 brings the valve 7 into its closed-40 position when the burner 2 is at rest. The valve 6 is then also in its closed position. When the burner 2 is started, the valve 6 is put in its open position while the motor 8 also puts the valve 7 in its open position.

When the burner is operating, combustion gases are formed in the combustion chamber and these gases are passed through the coil 5 and the connection 11 to the chimney 4. The coil 5 then acts as a heat exchanger. The gases are cooled in the spiral while the calories they lose as they pass through the spiral are transferred to the heating body and are therefore usefully used for heating water. At the inlet of connection 11, the gases can be re-cooled to a temperature of the order of 100 ° C.

This heat transfer of the gases contained in the coil 5 continues if the burner does not work, but no gas flow then forms through the coil and through the boiler, because the valves 6 and 7 are then closed. If these valves were open, they would cause an upward flow from the air inlet of the burner 2 to the connection 11 through the boiler 1 and the coil 5, which would result in the coil and boiler being cooled. This is avoided by closing valves 6 and 7 when the burner is not operating.

The cross section of the coil 5 is preferably identical to that of the outlet 3 and is preferably constant over the entire length of the coil. The boiler described above has a thermal efficiency which is considerably higher than that of the known boilers of the same kind and thus makes it possible to generate the same amount of useful calories for the heating installation with a considerably lower fuel consumption.

Most of the known boilers can be completed in the manner according to the invention, so that the application of the invention is not limited to boilers of a new construction.

In addition, it is noted that the invention relates to the recovery device as it is formed by the coil combined with at least one valve 6 or 7 · 35 It is further noted that the invention is not limited to the above-described embodiment, but also extends to modified embodiments, in particular as to the shape, number and composition and arrangement of xs, the members making up the device, which are within the scope of the invention.

800 2 3 28 '4

For example, the coil can have a different number of turns, i.e. more than two turns or a single turn.

However, it is also not necessary for the heat exchanger to be in the shape of a spiral, although this shape gives excellent results. This exchanger can extend over the entire height of the heating body. This can consist of a double jacket that is arranged either inside or outside the heating body. The gas flow through this jacket can be slowed down by baffles or fins.

800 2 3 28

Claims (7)

A heat recovery device, characterized in that it "consists of a hollow body mounted on a heating body and comprising an inlet attached to an exhaust for combustion gases of the heating body, an outlet attached to the chimney and at least one valve. 2. Heat recovery device according to claim 1, characterized in that the hollow body consists of a spiral. Heat recovery device according to claim 2, characterized in that the spiral has at least two turns. Heat recovery device according to any one of the preceding claims, characterized in that the hollow body is covered by a heat insulation on the side which is not mounted on the heating body. Heat recovery device according to any one of the preceding claims, characterized in that it has means for putting the valve in closed position when a burner attached to the heating body does not work. 6. Heat recovery device according to any one of the preceding claims, characterized in that the valve is placed on the side of the above inlet. Heat recovery device according to any one of the preceding claims, characterized in that a valve is placed on the side of the above-mentioned outlet. 800 2 3 28