DE522431C - Carburetor - Google Patents

Description

Carburettor With the carburetors currently in use A float housing can get stuck or not close properly Inlet valve, also when fuel overflows from the nozzle, if not correct Closing the float needle creates the risk of fire to the machine gets destroyed.

When using a carburetor according to the present invention avoided this danger.

The present invention relates to a carburetor with a machine cycle controlled fuel valve. The new thing is that a fuel valve Control valve with a fuel receiving space is used, which is periodically through an inlet channel filled with fuel and after closing this channel after turning the control valve is emptied by 90 ° by a part of the suction air flowing through it.

According to the invention is also in the fuel receiving space in the Axial direction of the faucet displaceable piston provided through which the volume can be changed. In the 'drawing the subject matter of the invention is illustrated, and Fig. i shows the carburetor in longitudinal section, Fig. a shows the carburetor in cross section, Fig. 3 the control valve and control valve holder in a horizontal section through air and Fuel channel. i represents the control valve holder. The fuel valve is located in it z, which is designed as a control valve. In the control valve z there is a fuel chamber, the volume of which is changed by the piston 3 displaceable to the axial direction of the cock can be. The fuel chamber in the control valve is through the piston, through a Packing and screw cap q. sealed. The head of the piston sits in a Guide sleeve 5. Guide sleeve 5 and piston, 3 can be closed by a spring and raise and lower a bowden cable. This allows the volume in the fuel chamber of the control valve can be enlarged and reduced as required. The control valve is conical in the center of the control valve holder. ground in and is supported by a The spring is pressed onto the seat from below and seals completely. At the bottom of the control valve attacks a device by means of which it is controlled in the machine cycle will.

To secure the control valve holder in its position, it is equipped with a outer cap 7 screwed. This cap also takes the upper compression spring and serves as a guide for the guide sleeve 5.

The control valve holder is passed through a cylindrical fitting piece 8 which is held in place by four ribs of the outer casing 6, as shown in FIG. A preheating device is attached to this cylindrical fitting piece 8. There are electrical heating resistors in channel 9. By channel io the exhaust gases are conducted to the gas mixture preheat. The gas mixture enters the engine through channel ii.

The carburetor works as follows: Located in the control valve In its longitudinal direction there is a channel for receiving the fuel. Its volume can be enlarged and reduced by a piston, as mentioned before will. The control valve is also pierced in its horizontal direction. Of the vertical channel stands with its lower end with the horizontal perforation in connection.

Through the outer wall of the carburetor, the adapter and the control valve holder leads the fuel line i z to the control valve. With a rotation of 9o ° after Fig. A, the fuel can get into the interior of the control valve. With another one Turning 9o ° the fuel supply is shut off and the suction air can do that Empty the inside of the control valve, as illustrated in FIGS. 1 and 3. For the The adapter and the control valve holder are drawn in by the air in the horizontal longitudinal direction pierced as shown in Fig. 3 and i. The perforation stands with the Channel i i directly connected.

The carburetor can be used for two- and four-stroke engines. In four-stroke it would work in the following way: Closes on the work and exhaust stroke the control valve closes the air supply, thus blocking channel i i and is now with the Fuel supply line 1z in connection and fills the fuel chamber. At the The suction stroke turns the control valve 90 °, closes the fuel supply and releases the air supply free. The fuel chamber is opened by the suction air passing through it emptied and enters the preheated channel i i and then into the in the direction of the arrow Engine. At the same time, fresh additional air is fed through the duct during this work cycle 13 sucked in. The additional air combines with the mixture in front of the throttle valve and then flows into the working cylinder.

The perfect explosion safety is achieved by firstly there is no float housing in which a large amount of fuel accumulates. There is only as much fuel inside the control valve as the individual one Suction stroke required. Second, the fuel supply is always prevented on the working stroke. A valve can be burned out, not close tightly or get stuck, the flame can easily strike the gas mixture pipe i i and it will find fire no special 'food but the tiny fuel chamber filling. If you -during the fire brings the engine to a standstill, there are only two options either the fuel line is closed and the fuel chamber filling burns out or the fuel supply is open, but the air supply to the Gas mixture lmnal i i closed, thus also a further fuel outflow and thus a fire is completely excluded.

Claims (1)

PATENT CLAIMS: i. Carburettor with one controlled in machine cycle Fuel valve, characterized in that a control valve is used as the fuel valve with a fuel intake space, which is periodically through an inlet channel with Fuel filled and after closing this channel after turning the control valve is evacuated by 90 ° through part of the suction air flowing through it. z. Carburetor according to claim i, characterized in that in the fuel receiving space a piston is provided which is displaceable in the axial direction of the tap and through which the volume can be changed.