DE206661C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 206661 CLASS 42 /. GROUP

OTTO FROMME in FRANKFURT a. M.

Patented in the German Empire on February 9, 1908.

It has been proposed to make thermostats by winding metal strips or to manufacture metal wires in helical form; Termostats of this type have that Disadvantage that, when the temperature rises, they change according to the structure of their material either bend to the side or wind it up further instead of its lengthwise direction to enlarge. These disadvantages were tried

ίο to be eliminated by combining several metal strips with different coefficients of expansion and winding them up on cylindrical core pieces. The thereby effect to be achieved, however, insofar as the interface between the surrounding medium and the wound spiral strip is not sufficient with a relatively low and as further delayed and the respective temperature of the solid-walled core piece temperature equalization between the metal helical coils and the surrounding medium.

According to the invention, the thermostat is made from a single, 'helical piece of metal made of such a wall thickness that the surrounding medium from both the external and inside, as well as the largest possible contact surface in the radial direction will; a thermostat of such powerful turns will not work by winding a straight rod or wire made in helical form, but either worked out or cut from the solid and then in the longitudinal direction.

pierced or possibly poured. The structure of such a thermostat is then same as that of a straight rod, so that a tendency to increase in temperature bending sideways or curling up is excluded from the outset, rather every change in temperature in the form of a change in length of the rod applies have to do.

The thermostat can be made in one piece with a closing element (valve body) be to in a known manner at a certain temperature of the surrounding medium to enable the termination of a line and, when the temperature drops, this line to release. Likewise, the thermostat can be made in one piece with an on and for ■ known adjusting device, expedient with the arrangement of a screw thread, exist, so that the temperature limit down to which a conclusion of the relevant line and below which a release of the same is to take place, exactly can be adjusted.

Such a thermostat is suitable for a wide variety of applications; so it can be used, for example, in steam boiler construction, in condensate pots, in steam heating systems etc. can be used.

Fig. Ι is a view of the thermostat,

Fig. 2 shows an application of the same to a condensation pot, the latter in longitudinal section is shown

3 shows an application in steam heating.

The thermostat shown in Fig. 1 consists essentially of a helically wound metal rod a, which is expediently chosen thick-walled to also in

the radial direction the surrounding means as large a contact area as possible to accomplish. The screw body can be made of iron, copper or some other suitable Made of metal.

In the embodiment of Fig. Ι the thermostat is designed at one end as a conical valve body b , while the opposite cylindrical end with

ίο screw thread c is provided so that an adjustment in the longitudinal direction. using a hexagon d is possible.

In the case of steam boilers, the thermostat can be used, for example, in such a way that the same is switched on in the steam line leading from the steam boiler to the boiler feed pump, keeps an auxiliary outlet closed above a certain temperature limit of the steam, but opens this auxiliary outlet when the steam temperature falls below this limit and thereby opens the steam pump withdraws the propellant. Another field of application is shown in FIG. 2; in the same a condensate pot β is shown, which is connected in a known manner in a steam line /. The thermostat α is arranged below the pipe socket connected to the condenser plug, approximately parallel to the steam line, in such a way that it can be adjusted in the longitudinal direction with its screw thread c , while the valve end b dominates the inner opening of a pipe socket g . The setting of the thermostat by means of the hexagon d takes place in the application of condensate pots in such a way that as long as the thermostat is exposed to the temperature of the steam usually flowing through the pipe, the valve body b closes the pipe socket g , but below this temperature a contraction of the thermostat and accordingly the pipe socket g is released. The pipe socket g is thus closed when the thermostat α is completely or substantially surrounded by steam, so there is no condensation water or only very little condensation water in the pot e ; as soon as the amount of condensation water increases, the temperature of the same affects the thermostat in such a way that the same contracts and releases the pipe socket g so that the condensation water can drain off. If the latter has taken place, the thermostat is exposed to the direct action of the steam flowing around it, whereby it expands again and closes the pipe socket a.

The thermostat is installed in the same way for steam heating systems (Fig. 3). In this field of application, as long as he is exposed to a temperature below normal steam heat, his task is to open an outlet opening h , while the latter is closed again by the thermostat as soon as the steam flows through the line. This arrangement is used to allow the air present in the steam heater to escape through the opening h when it is started. The air is displaced by the steam flowing in; as soon as the steam reaches the point at which the thermostat α is arranged, the latter expands and closes the opening h so that the air in the steam line is displaced before the steam branches into the individual radiators.

Claims (1)

Patent claim: Thermostat with a helical expansion body, characterized in that that a massive body of this type serves as a helical expansion body, which only expands like a rod and is freely bathed by the heating medium along its entire surface. For this purpose ι sheet of drawings.