DE83689C - - Google Patents

Description

IMPERIAL

PATENTAM

PATENT LETTERING

CLASS 36: heating systems.

CH MARTINI in LEIPZIG. Radiator with turbine.

Patented in the German Empire on December 7, 1894.

The heating fluid provided with voltage or pressure (steam, water, gas, etc.) should be used in two ways, namely to perform mechanical work and for heating.

Fig. Ι and 2 show a turbine provided with a radiator in which these purposes are fulfilled. The heating fluid enters the chamber B through the pipe A , flows through holes in the hollow shaft C and is distributed into the two blades D of the turbine. These are provided with holes in one direction of rotation through which the heating fluid exits. As a result of the resulting reaction, the turbine is rotated in the direction of the arrow, and the force thus obtained is transmitted to some device or machine through the shaft C and the gear F at its end. The jets of the heating fluid emerging from the turbine hit the wall of the heating element E and give off their heat directly to the same. In this way, the heating fluid is enabled to give off its inherent energy to do work and at the same time give off its heat to heat the radiator. The used heating fluid escapes through pipe G.

Instead of the gearbox F , a line roller, pulley or the like can also be attached in order to transmit the power gained.

In Fig. 3, instead of the gear F, a fan H is attached. As soon as the radiator E is still surrounded by one or two jackets 11 ₁ , an air flow is generated by the fan H in order to constantly suck in fresh air, heat it on the radiator E and blow the heated air out again. Depending on the position of the fan blades, the air adopts the direction of the arrows or the opposite.

Instead of the turbine -D, the heating element E can also be set in rotation, as shown in FIGS. 5 and 6. He is equipped inside with blades E ₁ , which of. the rays of the heating fluid are hit. The two wings D are solid and are held at the top and bottom by suitable supports C ₁ C ₃ . The used heating fluid escapes through holes in the hollow axis C ₂ and further through the tube G. A cord roller K is attached to the heating element E to transmit the force.

The heating element E can be provided on the outside with a helical blade L , as shown in FIGS. 7 and 8, in order to move the heated air upwards more quickly and thus bring about a lively exchange of air.

In Fig. 9 to 12 an axial turbine JV is mounted in the fixed radiator R at the top. The heating fluid is supplied through the pipe M , divided into several guide tubes TJ and passed through these onto the blades of the turbine JV. The rotation of the latter is propagated through the shaft O and the line roller P attached at the top. From the chamber above the partition Q. the used heating fluid passes into the hanging tubes S,

to exit through holes thereon. The rays hit the wall of the radiator R, as Fig. 10 shows, and give off their heat directly to the same. At the bottom, the used and cooled heating fluid escapes through the tube T. Instead of the several guide tubes U , only one can be attached.

Claims (1)

Patent claim: A fixed or rotating radiator of any type in conjunction with any one Turbine of the type that the heating fluid enters the turbine to reduce its voltage or its Convert pressure into mechanical work, and the surface of the radiator is brushed to their To transfer heat to the same. For this purpose ι sheet of drawings.