DE343870C - Carburettor with self-regulating fuel flow - Google Patents

Description

Carburetor with automatically regulating fuel flow. The invention relates to a carburetor with an automatically regulating fuel flow according to the patent 341911. It consists in the fact that to achieve a fluid level that is as free from fluctuations as possible in the open container the three containers (vacuum lifter, intermediate and open container) are arranged approximately at the same height and the air flow from the open to the intermediate container via a dip tube provided with fine bores.

Two embodiments of the subject invention are on the Drawing shown.

Fig. I shows a three-vessel, for supplying the fuel from carburettor specific to a high or low-lying tank, Fig. 2 a simplified embodiment, which are particularly suitable for use in conjunction with a high-level tank in Comes into consideration.

In the case of the carburetor according to Fig. I, the three containers c, a and, lt in question are approximately at the same height and are arranged in such a way to one another that short overflow paths are created, in which strong pressure conversions are avoided. The open container c is placed directly next to the intermediate container a, with which it is connected through an opening or short line h. The vacuum lifter h, on the other hand, is suspended in the container a and closes it off at the top.

The air flow into the container a is through the immersion tube e regulated, at its lower end, which is immersed in the container c, with a Number of fine bores i, slots or the like. Is provided. At the top, kanni the tubes open freely or throttled into the air space of the container a or else be introduced into the liquid standing in the container a. This achieves that the overflow air is shut off gradually and not suddenly, which is a finer one and result in quieter regulation. The liquid level in the container c can be in this way are maintained at approximately the same height, resulting in a uniform Liquid discharge from the nozzle d and when the suction effect is interrupted in the Tube fine immediate interruption of the jet of liquid emerging from the nozzle has the consequence.

The containers a and 1a are connected to one another on the one hand through the overflow line 1a and on the other hand through the automatic bottom valve p. A float x is housed in the container lt, which in its highest position opens the automatic valve o built into the overflow line k with a needle q or the like. The air space of the vacuum lifter h is in constant communication with the suction line f of the machine fed by the described carburetor through a duct l with a check valve nt.

Furthermore, the container h stands with the boiling or low-lying one Liquid tank t is still connected by a pipe g in which an air opening r can be accommodated.

The mode of operation of the device is as follows: When the liquid level in the open container c drops, air passes through the overflow line into the air space of the intermediate container a, which enables liquid to flow from the container a through the opening b into the open container c. This flow ceases as soon as the original liquid level is reached again in the open container c and the air openings i in the immersion tube e are closed.

Under the influence of the negative pressure that is established through the pipe l in the vacuum lifter h, liquid is sucked in from the tank t via the pipe ä until the float it has lifted so far that it pushes open the valve o in the overflow line k. At that moment a pressure equalization occurs between the air spaces of the vacuum lifter li and the intermediate container a.

On the one hand, this pressure equalization results in an interruption of the liquid flow in the pipe j, which is accelerated by the air bubbles entering the air opening r. On the other hand, as a result of the pressure equalization between the containers a and h, the bottom valve p opens, so that an overflow of liquid from the vacuum lifter lt into the intermediate container a can take place. As the liquid level in the container h falls, so does the floating point it, as a result of which the valve o is released again and the connection between the containers h and a is interrupted.

Now a negative pressure can again set in the air space of the container h, which starts the flow of liquid from the tank t again. When turned off Machine, the negative pressure disappears in the pipe f, which is now closed by closing the Valve -iii is shut off from container h.

In the embodiment according to Figure 2, the container h is omitted and the Schwiminer has been placed in container a. It no longer works on the superfluous @, "overflow line, but on the vacuum line l, in such a way that the vacuum line is shut off when the float is raised, is open when the float is lowered.

The effect between containers a and c is the same as with Fig.i described. The container a is created by the vacuum connection Z topped up via line g from tank t at a higher level. The here increasing Schwimmer blocks the vacuum connection when it reaches its maximum position, what immediately penetration of air bubbles into the air opening y and thus an interruption the movement of liquid in the tube g results. The interruption lasts so long until the container a begins to empty again and the sinking float n has re-established the vacuum connection.

The movement of the float in the described embodiments expediently carried out in leaps and bounds to allow a more specific opening and closing of the to achieve control parts set therefrom.

Claims (2)

PATEN T CLAIMS: i. Carburetor with automatically regulating fuel flow according to patent 341911, characterized in that the three containers (c, a and k) are arranged at approximately the same height in order to achieve a fluid level that is as free from fluctuations as possible in the open container, and the air flow from the open to the intermediate container (c or . a) via a dip tube (e) provided with fine bores (Fig. i). 2. Device according to claim i, characterized in that that the same vessel (a) is used as vacuum lifter and intermediate container, so that the connecting lines between the two vessels are omitted, and that the The air space of this vessel after it has been filled by the float (s) from the suction line (f) the machine is shut off (Fig. 2).