DE351501C - Fuel sucker - Google Patents

Description

Fuel sucker. This invention relates to fuel suckers, in which the liquid fuel is sucked from a main container into an additional vessel from which it flows under the force of gravity into an auxiliary container to finally into the carburetor. The flow of fuel into the additional vessel and the outflow from it is regulated by means of valves, as is the connection this vessel with the suction generator and the atmosphere. With devices of this type the valves mentioned have so far been operated by means of floats, which rise and fall with the level of the liquid in the additional vessel Movement is transmitted to the valves in a mechanical way. With the present Invention it is now a question of reducing the activity of the swimmers to the lowest possible level to reduce the work of the whole apparatus in general and the activity to make the valves in particular more reliable. There is also provision for it taken that the liquid is measured.

The main purpose is achieved in that the valves by means of electromagnetic Devices are operated, the circuits of which depend on switches, which by means of of the float can be closed and opened. A device operating accordingly is shown in the drawing. Fig. I shows a vertical section through it; Fig. 2 is a section drawn on a larger scale in relation to Fig. I through one of the valves; Fig. 3 is the circuit diagram and Fig. Q. is a schematic External view of the whole apparatus.

i is a vessel with a predetermined capacity under which a chamber 2 is located. The vessel i is by means of a channel 3 and a line 311 connected to the main container w, which is lower than the vessel i, but is with respect to the carburetor x either also below this or at the same level it is located. In the bottom of the vessel i there is one leading into the chamber 2 Opening q .. From the bottom of this chamber a line 211 goes to the one upstream of the carburetor Float tank xi.

In the vessel i there are rod-like needle valves 5 and 6, from where 5 regulates the entry according to i and 6 the exit according to 2. The valve rods are connected by means of a two-armed lever 7, which is at 8 on one in the vessel reaching approach g of the lid io this vessel is stored. The lever ? Has forked arm ends between collars 511, 5b and 611, 6b of the rods or spindles 5 and 6 grab. If one of these is raised, the other is lowered, and vice versa. The upper ends of the valve spindles extend through packing boxes 5 °, 6 ° into vertical cylinders ii, iia, which are arranged on the cover io. In these the spindles are provided with solenoid cores i2 and 13, the coils of which are on the outside located on cylinders ii, iia.

The circuits of the solenoid coils are closed and opened of floats 16 and 17, of which 16 is in a vessel 18, the in turn is in a container ig, which from the chamber 2 through the Bottom of the vessel i through into the lower part of this protrudes. The vessel 18 communicates with the container ig by means of bottom holes 18a and likewise it communicates with the vessel 1 by means of holes in the ceiling 18. In addition, there is a connection between the Container ig and the fuel supply line 3; this container is also at the top iga with the air space of i and laterally at igb with the liquid space of i in Connection On the lower surface of the float 16 is a rod 2o, the passes freely through a bottom opening of the vessel 18 and at its end with a contact piece 21 is provided. This works together with contact pieces 22 and 22a, which are attached to the bottom of the vessel 18 and connected to lines 23, 23a are. These go to the solenoid coils 1q., 15. Above go from the float 16 Pins 2o11 through the top of the vessel 18; they are used to guide the swimmer.

In the upper part of the device there is a float 17 in one Vessel 2q., With openings 2q.b at the bottom and openings 2q.11 to the side next to it is provided. Aside from that. goes through a bottom opening of this vessel on the float 17 fixed pin 25 which holds a contact piece 26 at the bottom. This works together with contacts 27, 27a. At the top the float is provided with guide pins 25a, through holes in the top of the vessel, which is provided with a number of holes 28 2.4 go through.

The upper ends of the cylinders ii, 11a stand by means of horizontal channels communicates with the space above the perforated ceiling, but the cylinder ii is standing by means of a nozzle 30 also in communication with the atmosphere, and the cylinder ]: yes is connected to a suction generator by means of a pipe 31, as which z. B. one of the cylinders can serve from the device with the liquid Fuel is fed. - The pipeline can conveniently be connected to - the inlet connection y of the carburetor. The connection with the atmosphere at 3o and with the suction generator at 31 is under the regulating action of valves 32 and 33, 'which are carried by the solenoid cores by means of pins 1211 and r311.

From the wiring diagram in Fig. 3 it can be seen that one end of each solenoid coil goes to a common terminal 34 which is seated on the cover and which is connected by means of the wire 36 to a battery 35 or some other power source. The other coil ends go to terminals 37, 38, of which the former is connected to the line 23, whereas the other is connected to the contact piece 27 by means of the line 43. The contact piece 2711 is brought by means of the line 44 to a terminal 40 in connection, lies on the one hand, the other pole of the power source, on the other hand the line 232, which of - the contact piece comes 222nd This can be connected to the contact piece 22 by means of the contact piece 21; likewise, the contact piece 26 can connect the contact pieces 27 and 272 to one another. So there are two circuits, one: 35, 36, 34.14, 23, 22, 21, 222, 23a, 41, 40, 39, 35, the other: 35, 36, 34 15, 43, 27, 26, 27a, 44, 40, 39, 35.

An electrical counting device can be placed in any of the electrical lines be switched on, by means of which it is determined how often the vessel x is filled has been. In the example shown this is the counting device 45 (Fig. 3), which is in line 43, which belongs to the circuit of the solenoid i5. Just as well, however, a line can be selected that leads to the circuit of the solerfoid 14 heard.

The operation of the device is as follows: Assuming that the vessel i, ie the measuring vessel, has to be filled, the valves 5 and 6 as well as the lever 7 are in the position shown in Fig at 30 liquid can enter, whereas. at 3o there is no communication with the atmosphere and at 4 there is no communication with chamber 4. The vessel is therefore under the suction effect from the suction generator, and the liquid fuel is sucked into the vessel from the storage container w through the pipeline 3a. The liquid passes through the opening 1g ° and through the openings igb also into the vessel 19 and through the holes 18 into the float vessel 18, in which the float is lifted. Finally, the liquid also enters the float tank 24 and also lifts the float 17. Very soon after this movement begins, the contact piece 26 closes the circuit of the solenoid 15 by resting against the contact pieces 27, 27a. The electrical counting device 45 is also switched on at the same time.

By switching on the coil 15, the core 13 is raised, with it the spindle 6; the valve 33 is placed against the suction opening of the pipe 31 and the bore 4 is opened. At the same time, however, by means of the lever 7, the spindle 5 has been lowered so that the valve 32 is removed from the air inlet 3o and the flow of liquid from channel y into the vessel i has been interrupted. The liquid contained in the vessel i can therefore flow downwards at 4.

As this happens, the float 17 first lowers so that the solenoid 15 is switched off again, and finally the float also descends 16 until the contact piece 21 contacts the contact pieces 22, 22a and thereby the solenoid 14 is switched on. This has the raising of the spindle 5 and the lowering of the spindle 6 result, d. H. the parts return to the position shown in Fig. 1, in which the measuring container i is filled again. Repeat the game just described now, and so the business goes on automatically.

In order to ensure that the valves 32 and 33 are seated securely, can this can be carried out in the manner shown in FIG. 2 for valve 33. The same design is also shown in Fig. 1. The valve head 32 resp. 33 sits longitudinally on the pin i2a or 13 "and engages with the side Slots 47 over the protruding ends of a cross pin 46. Against the valve head presses a spiral spring 48, which when the head is placed against the to be closed Opening pushed back a little and in turn ensures a tight seal.

The valve 32 may be dispensable, i. H. the measuring container may be permanently connected to the outside air, namely when the Opening 3o, as is known, is dimensioned so small that when sucking from 31 it does a partial air void is created which is sufficient for the liquid to flow in to bring into the vessel i.

The device can also be built so that the two current connectors 21 and 26 are connected to only one float and operated solely by means of it will.

Claims (3)

PATENT CLAIMS: i. Fuel sucker, characterized in that the entry of the fuel into the mediation vessel and its exit it is dominant valves as well as the connection with the suction generator and possibly also the valve controlling the connection with the outside air is electromagnetic operated, with the closing and opening of the associated circuits of one or two swimmers, whose position depends on the liquid level, depends. 2. Apparatus according to claim 1, characterized in that the valves Form two groups that are connected to each other and moved by means of solenoids will. 3. Apparatus according to claim i or 2, characterized in that in one the circuits an electrical measuring or counting device is switched on.