DE266518C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

Vr 266518 CLASS 12 for GROUP

Patented in the German Empire on September 18, 1912.

The present invention relates to a device for regulating the air supply ■ Sulfur furnaces and the like, in which the air valve is moved by the differential movement between a heated and a cold pipe corresponding to the one produced by the combustion of the sulfur Automatically regulates the heat.

In the previous devices of this type, the air valve generated by the

° controlled auxiliary air flow directly to the outer .luft removed and thus substantially subject to other influences than the main air stream. As a result, there is no mutual relationship whatsoever between the two air flows, with the result that the amount of the auxiliary flow differs more or less than that of the main air flow, depending on the atmospheric conditions, and that when the state of the atmospheric air changes, the previous ones are regulated in a certain way mutual relations of the two air currents are completely overturned. The absolutely necessary uniform effect and performance of the furnace, however, would be completely called into question. As a result, the previous facilities have very significant technical deficiencies.

With the subject matter of the present invention, these serious disadvantages become overcome in that the supply of both the main and the auxiliary air stream from a single source and below the 35th

40

same pressure conditions takes place, so that one in contrast to the older facilities can actually take place completely independent regulation of the furnace. Consequently the furnace no longer needs to be monitored by a highly paid, particularly familiar worker, as was previously absolutely necessary It is sufficient to have the maintenance of the machine carried out by an ordinary unskilled worker.

Another advantage of the innovation is that there is a risk of clogging is completely eliminated by condensed, flour-like sulfur, so that it is no longer As before, it is necessary to shut down the system from time to time and let it cool down must then in order to then cleanse them of the precipitates that have arisen, which is especially on ships where such machines are widely used, could have serious consequences.

The drawing shows:

Fig. Ι a longitudinal section through the furnace according to VV of FIG.

Fig. 2 in its left half a section according to XX and in its right half a section according to YY of Fig. I.

FIG. 3 is a partial section according to WW of FIG. 1, kept on a larger scale.

The furnace is generally of the usual type and is provided with baffles a and a grate b on which the sulfur is brought to be burned there. The combustion air is the

Furnace fed through an inlet pipe d in the usual manner. In the upper part of the furnace there is a thermostat f, which is connected to the valve for monitoring the auxiliary feed line. The feed line e for the secondary air is branched off from the main feed line preferably at a point near the furnace (FIG. 2) and is introduced into the furnace preferably at a point close to the thermostat f , so that the second combustion takes place in the immediate vicinity of the thermostat f. The pipe located inside the auxiliary feed line is kept in its usual closed position by a spring i connected at one end to a fixed point of the furnace and at the other end to a rod j which sits on the axis of the valve g and to the outside of the tube e is enough, while the other end of the rod j is operated by an arm k carried by the thermostat f . In a slot provided in the rod / a pin I is adjustably arranged, which determines the beginning and the duration of the action of the valve g .

The mode of operation of the oven described is as follows:

Sulfur is placed on the grate b and set on fire. As the combustion proceeds, the temperature rises and the sulfur falls from the grate to the bottom c of the furnace, where it continues to burn, producing gas. As a result of the connection of the oxygen in the air with the burning sulfur, the latter is heated above its ignition temperature up to the boiling or evaporation temperature. As soon as this temperature is reached, all or almost all of the oxygen in the main air supply line combines with the sulfur. As a result of the furnace heat, the thermostat expands, the arm k is made to push against the bolt I and rotate the rod /, whereby the valve g opens. The main air supply is thus gradually opened towards the furnace and the steam is caused to burn because it is still above its ignition temperature. If the auxiliary device is provided in the immediate vicinity of the thermostat f , 5c causes its heat to increase its effectiveness. If through the valve g excess air zutreten, this has the tendency to cool the thermostat f, whereupon it contracts, the closure of the VEN causes £ 5 g tiles and thereby reduces the amount of air zutretende.

The proportion of the auxiliary air that is branched off from the main air supply does not change to the main air volume, even if quite 6c considerable pressure fluctuations in the main air supply line occurrence.

If the automatic monitoring of the auxiliary line were not provided, the The vaporized part of the sulfur rises up in the furnace, passes through the outlet and into solid state in the outlet channels outside of the furnace precipitate. To this proper supervision would have to be ensured, while in 7c Using the invention even an inexperienced person can monitor the system can, since the real power is perfect according to the temperature of the oven is adjusted automatically.

Claims (2)

Patent Claims: ι. Device for regulating the air supply for sulfur furnaces by means of one of 8c a thermostat consisting of actuated auxiliary inlet valves, characterized in that the inlet valve for the auxiliary air flow in a branched off from the main air line Auxiliary air line is installed so that the 8; controlled by this auxiliary inlet valve Air flow is taken directly from the main air supply line. 2. Embodiment of the device according to claim 1, characterized in that 9 < that the air flow coming from the auxiliary line brushes the thermostat. 1 sheet of drawings.