DE26143C - Combination of wind or other irregularly acting force with the damping force - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 46: Air and gas engines.

Patented in the German Empire on June 15, 1883.

The purpose of the invention is coal savings in steam engine operations through a connection the action of other natural forces with the force of steam in such a way that regularity of the company does not suffer in any way and nevertheless these natural forces like them be strong or weak to achieve full effect. This is achieved by the fact that by the force of nature, which, as long as it is effective, support the steam power respectively. temporarily is to replace, air is compressed, which after it has been preheated into the steam cylinder is performed, while at the same time an automatic stroke change by a special device the air compression pump takes place depending on the strength of the applied force of nature. The same device for changing the stroke should also be used for liquid pumps.

It consists in the fact that one with the pump piston rod connected sliding block by a small piston located in the pump lever when the force is increased, it is advanced, and when the force is decreased, by one Weight is withdrawn. The piston is in turn driven by water pressure, which is generated by a The throttle valve is regulated, when the force is increased, the weight is moved forward at the same time lifted again.

The above task is now solved constructiv in the following way:

The wave a, Fig. 1, is driven by wind or some other irregular force, e.g. B. water power, driven and moved by means of the conical wheels, the shaft b, which can also be rotated directly when using water power and in turn moves the small water pump d and the pump handle f of the air compression pump g with the crank c. The latter swings around the fixed, partially pierced shaft h, on which the rollers ti, by means of the cord or chain k , carry the weight that seeks to pull the sliding block m back towards the pivot point on the shaft h .

The sliding block m , however, is pushed forward respectively by the piston η sealed with a cuff cover. held, which in turn is produced by the pump d and regulated by throttling by means of the cone valve 0 in such a way that when the driving force is of medium strength, the sliding block m is kept in the middle, as shown in FIG. If the driving force decreases, the speed of the water driven through the cone valve ο will decrease, as a result of which the pressure on the piston η will decrease and it will be pulled back by the weight /. If, on the other hand, the effect of the driving force increases, the speed of the water will increase the pressure on the piston η and this will be advanced in proportion to the increase in force. By moving the sliding block m, on which the piston rod hangs, the lifting height of the pump is changed, which, when it acts as an air compression pump, works with water filling, which also changes with the changed lifting height and, as soon as it decreases, must increase. In order to achieve this, the cold water that has been forced through the throttle valve and is taken from the well by means of the suction pipe is used

pumped into the container q , from which it can flow into the air compression cylinder g by means of the pipe r.

The cock ί is switched on in the pipe r , which is opened by means of the thumb shaft t coupled to the shaft b as soon as the piston u makes the upward movement and the air inlet valve ν has closed. The excess water, which is warmed up on its surface as a result of the compression of the air, goes back through the valve w into the container q at the same time as the air and is discharged outwards by lifting the float χ by means of the upwardly curved tube y , while the compressed air into the steam cylinder φ or into the common steam pipe of the steam boiler. Since it loses the heat released by the compression, it is warmed up in a preheater located in the smoke duct of the boiler furnace. · ■ ■.

If it enters the cylinder directly, it first passes the valve box z, in which the valves α for the compressed air and β for the steam automatically regulate the action and, depending on the greater pressure, introduce compressed air now and steam into the steam cylinder.

When using several motors of auxiliary power, as would be particularly advisable with wind power, the compressed air supplied by them is brought together in a common pipe or a collecting box, as it is drawn, for example, for three motors under γ , on which the necessary safety valve is then immediately placed # may be appropriate. The valve a. be screwed shut. The flywheel λ acts as an accumulator for the air compression pump.

2 shows the water pump d provided with the weight ζ with its linkage in a side view;

3 shows the pump handle in a view;

4 shows a section through the pivot point of the same;

5 shows a section of the same in front of the sliding block;

6 shows a preheater which, however, can have any other shape.

Fig. 7. the introduction of air and steam into the steam cylinder by the self-regulating ones Valves α and ß.

As already mentioned, the device for changing the stroke should also be used for liquid pumps Find application, which then have the usual shape and the one for the air pump the necessary special water supply devices are not required.

The devices described above and shown by the drawing can with success for all steam engine systems that do not work with condensation Find. .

Claims (1)

Patent claim: The combination of one or more wind motors or the like with a steam cylinder for the purpose stated in the description, which is characterized by the activation of an air pump g, the stroke of which is adjusted by a λνΈβΒεΓριιπιρε d in the manner described, the heater and the check valves α and β in the connection shown by the drawing. For this purpose I sheet drawings.