DE675221C - Fuel evaporator for internal combustion engines, preferably with electrical heating - Google Patents

Description

The invention relates to a fuel evaporator for internal combustion engines preferably electrical heating, its heated and in the air supply line opening evaporator part below the fuel level with a fuel storage container is in open connection and is particularly used to facilitate the starting of internal combustion engines should serve. However, the subject matter of the invention can also be used for other internal combustion engines and also used to generate an ignitable steam-air mixture in continuous operation will. In a known embodiment of this type is in the fuel vapor line a nozzle-like constriction switched on, through which the steam generated by the supply of heat develops the fuel requirement of the motor is to be adjusted.

In this fuel evaporator, however, there is a risk that liquid fuel in the suction line can get if. in front of the junction of the fuel vapor line there are greater resistances,

as z. B. a risk of clogging exposed Air filter, a throttle valve or the like. In this case, such a strong negative pressure can occur arise that the liquid fuel in the storage container through the outer Air pressure is pushed into the suction line. In the case of the known embodiment, the development of steam cannot therefore also occur Help of the back pressure arising in the constriction are regulated by the fact that each if necessary, a larger or smaller part of the heated surface with the liquid Fuel comes into contact. This type of regulation is basically also with Another known fuel vaporizer was used, but this vaporizer was a nozzle-like constriction does not have in the fuel vapor line because of the aforementioned difficulties not suitable for use in internal combustion engines.

The invention enables, even with a fuel evaporator intended for internal combustion engines, its heated evaporator part opening into the air supply line of the machine below the fuel level is in open connection with a storage container, the steam generation by changing the wetted by the liquid fuel To regulate the heating pipe surface. This is achieved according to the invention in that a flow resistance is arranged for generation by way of the fuel vapor a dynamic pressure acting on the liquid level in the evaporator and that the environment is above the highest im Reservoir adjusting fuel level and into the air line

the outlet point of the fuel vapor line leading to the internal combustion engine either, if the storage container is a Vei connection with the outside air, still - also with the outside air or further expediently through an overflow line ;; serving channel, is connected to the storage container. This has the effect that the liquid level in the heating tube depends solely on the pressure of the fuel, there the pressure prevailing above the fuel level in the storage container is practically the same the pressure at the mouth of the steam pipe. During the operation of the internal combustion engine variable pressure in the air supply line can therefore not affect the Fuel supply act, and consequently only one by-the size of the flow resistance clearly determined amount of fuel vapor in the air or mixture supply routes reach the machine. Above all, the danger that essential Quantities of the fuel contained in the storage container and in the heating pipe in liquid form State can get into the air supply line if there is one in this line strong overpressure occurs.

The structure of the device can also be significantly simplified if in Another useful embodiment of the invention, the walls of the heating pipe at the same time can be used as a heating resistor. By suitable selection of a material with a relatively high electrical resistance and by choosing suitable pipe cross-sections, Wall thicknesses and heating tube lengths can be achieved that are precisely what the desired evaporator output and or or that required to achieve the most appropriate superheating temperature Amperage can flow in the pipe walls. This design recommends for the reason that they are preferred for the production of electrical resistors The materials in question are also characterized by their high temperature resistance and corrosion resistance. If necessary, the heating pipe itself can also be used can be used to generate the flow resistance by choosing a pipe from suitable diameter and appropriate length or with the help of a through Deformation of a wall point generated in it Cross-sectional constriction. Further embodiments of the subject matter of the invention are used in the following description of exemplary embodiments explained.

Several exemplary embodiments of the subject matter of the invention are shown in the drawing shown, namely shows

Fig. Ι a fuel evaporator in connection with an injection fuel ,. machine, \

;; _ΐ: fig. 2 another expedient embodiment of the fuel vaporizer. 'φ. ^ - Fig. FIG. 3 shows a further embodiment of a fuel vaporizer, likewise in connection with an injection internal combustion engine, which is shown enlarged in section in FIG. 4. In the exemplary embodiment in FIG. 1, a heating tube 10 provided with a nozzle 11 at the end is inserted into an air supply line L of an internal combustion engine M provided with a filter F. The other end of this heating pipe is led upwards a short distance and ends in a storage container 12 closed with a lid 13, into which fuel is filled up to a level determined by an overflow 14. An electrical heating coil 15 is attached to the heating tube 10.

The device works as follows: When the heating coil 15 is supplied with current, the heating tube 10 is heated and with it the fuel column which extends up to the height H in it. The steam, which then develops in abundant quantities, is dammed up at the nozzle and pushes the liquid level in the heating tube to about the level H ₁ . As a result of the pressure of the liquid column h on the steam, steam, which is dried in the heating zone that is not wetted by the fuel and finally superheated, emerges at high speed from the nozzle ti into the air supply line. If the steam generation decreases, more fuel enters the heating zone and increases the steam formation again; if the steam supply is too high, the fuel is pushed further out of the heating zone. The steam generation regulates itself completely automatically. After a short heating period, a very stable and, above all, ignitable mixture of air and steam forms in the air supply line, which enters the cylinders when the starter is actuated, ignites slightly after compression and operates the machine for as long as the heating device 15 is in action. If the device is to be used only for the starting process of an internal combustion engine, the storage container 12 can be made very small; nevertheless, the fuel only needs to be refilled at longer intervals. Advantageously, however, fuel in excess can also be fed to the container 12 by a conveying device (not shown). In this case too, the overflow 14 ensures that the fuel level is always kept at the correct height.

67 & 221

The nozzle 11 extends into a bulge 16 which is attached to the air supply line L and in which a wide pressure equalization opening 17 is attached. This prevents the suction pressure, which under certain circumstances can rise quite high if the filter F is clogged, from acting on the liquid level in the heating pipe. For continuous operation of the machine, injection nozzles D of the usual type are provided on the top of the cylinder block of the machine M , to which the fuel is supplied by an injection pump (not shown).

The embodiment of Fig. 2 initially differs from that of the Fig. I that the heating tube 20 does not carry a heating coil, but at the same time as Heating resistor is used. With its lower part, the heating pipe is through the storage container 22 and its lower tapered part 23 penetrating shaft 25 out. Schachf 25 and heating pipe 20 are on an in an insulator 26 inserted connecting piece 27 attached, which through several openings 28 contains an always open connection path between the heating tube and the lower part 23 of the storage container. By a bolt 29 serving as a power supply at the same time, the tubes 20 and 25 are detachable set in the container 22, on the lid 30 they are also releasably attached Isolator 31 are held. A connector 32 attached to the container 22 is standing with a fuel delivery device in connection.

The outflow nozzle 36, which can be regulated by a screw spindle 35, is directed against a wall opening 37 in the air supply line L. The nozzle is located in a chamber 38 which is in communication with the outside air through pressure equalization openings 39. Since the total cross section of these compensation openings is significantly larger than that of the wall opening 37, the pressure in the air supply line L cannot act on the nozzle or the interior of the heating pipe 20. In order to avoid with certainty that fuel vapor escapes from the pressure equalization openings 39 into the open when the device is started up, the chamber 38 can be connected to the air space above the liquid level in the container 22 by a wide line. In this case, the overflow pipe 24 must have a large cross-section. The mode of operation of the device is the same as that of Fig. 1. In the embodiment of Figs. 3 and 4, the heating tube 20 with the nozzle 11 is arranged completely inside the storage container 22, which is attached directly to the air supply line L of the machine M , so that its air space with the line L is in communication. As FIG. 4 shows, the fuel space 40 is separated from the air space located above it by an intermediate wall 41, which is penetrated by an overflow line 42 which ends freely in the air supply line L. The fuel is introduced into the fuel tank through the opening 44, and to refill the fuel tank, only the small amount of leakage oil that occurs during operation of the injection pump P from one of the injection nozzles D is used, which is fed to the fuel chamber through a leakage oil line 43 ending in the connector 44. In this exemplary embodiment, the connecting piece 27 is metallically connected to the container lower part 23, which is connected to the ground of the machine via the air supply line L. The power is supplied through a holder 45 which is insulated and guided through the housing cover and by means of which the outflow end of the heating tube 20 is fixed in the correct position. The constriction 46 forming the flow resistance is located in the part of the heating tube 20 through which current flows, ie in the heating zone. In the present exemplary embodiment, an inspection glass 34 through which the fuel level in the container 22 can be observed is arranged in a bulge 35 in the container wall. The mode of operation of the device is the same as that of the exemplary embodiments discussed above.

Claims (6)

Patent claims: i. Fuel evaporator for internal combustion engines with preferably electric Heating, which is heated and opens into the air supply line of the machine Evaporator part below the fuel level - with a fuel storage container is in open connection, in particular for starting injection internal combustion engines, thereby characterized in that a flow resistance (11, 36, 46) is arranged in the path of the fuel vapor for generation a dynamic pressure acting on the liquid level in the evaporator (io, 2o), and that the surroundings of the above the highest in the storage container (12, 22) are adjusting fuel level and opening into the air line Exit point of the fuel vapor line either when the storage container has a connection to the outside air, also with the outside air or, expediently, through a duct (42) serving as an overflow line, is connected to the reservoir. 2. Fuel evaporates according to claim i, characterized in that the Flow resistance serving to generate the dynamic pressure (constriction 46 in Fig. 4) is arranged in the heating zone. 3. Fuel evaporator according to claim ι or 2, in which the environment the mouth of the fuel vapor line as well as the storage tank are connected to the outside air, characterized in that that the mouth (36) of the fuel vapor line is located in a pressure equalization chamber (38) which with the air supply line (L) only through one at the same time to the passage of the fuel vapor jet serving opening (37) is in communication, which is narrower than the total cross section of the Openings (39) connecting the pressure equalization chamber with the outside air (Fig.2). 4. Fuel evaporator after one of the Claims 1 to 3, characterized in that the heating pipe (20) is inside one of the reservoir (22, 23) penetrating and above the highest liquid level reaching shaft (25) is arranged (Fig. 2 and 4). 5. He vaporizes fuel according to claim ι or 2 depending on the claim 4, in which the fuel storage tank and the fuel vapor line with the air supply line of the machine are in open connection, characterized ^ that the fuel storage container (22, 23, 40) attached directly to the air supply line (L) and that the heating pipe (20), which is completely accommodated in the storage container, is simultaneously used as a power supply serving holder (45) set on the wall of the storage container is (Fig. 4). 6. Fuel evaporator according to claim 5, characterized in that the for receiving the fuel supply serving container part (40) of the air space of the storage container is separated by a partition (41) into which the The duct (25) surrounding the heating pipe and one opening into the air supply line (L) Overflow line (42) is used. 1 sheet of drawings