DE1526630C3 - Carburetors for internal combustion engines - Google Patents

Description

The invention relates to a carburetor for internal combustion engines with an upstream of the main throttle valve of the carburetor arranged in the intake duct acting control device which is controlled by a linkage is formed, which assumes a blocking position when the throttle valve is closed which it from the actuator of an expansion thermostat depending on the internal combustion engine temperature is movable, which engages a pivotally fixedly mounted pivot lever, which in turn over Articulated connections act on a lever connected non-rotatably to the throttle valve shaft Patent 15 26 628.

In the carburetor according to the main patent, the articulated connections consist of one on the throttle valve shaft freely pivotable lever, which on the one hand has a slot connection with the Pivoting lever is connected and on the other hand cooperates via a stop with a nose that on cooperates with the lever firmly connected to the throttle valve shaft. The pivot lever forms In addition, when the throttle valve is in the closed position, a blocking stop for a projection, which is formed on the lever firmly connected to the throttle valve.

With the present invention, which is a further development of the carburetor according to the main patent represents, the articulated connections between the pivot lever and the one with the Vordrosselklappenwel-Ie non-rotatably connected lever are structurally simplified.

To solve this problem, a carburetor with the features specified at the outset is according to the invention characterized in that a rod connects the pivot lever with the lever, one on the one hand on the arm of the lever and on the other hand is rotatably mounted on the movable end of the pivot lever, the Axis of rotation of the mounting of the pivot lever and the axes of rotation of the attachment points of the rod in Align the blocking positions with each other.

Due to the knee joint-like connection between the pivot lever and the one with the pre-throttle valve shaft non-rotatably connected lever is reached in a very simple manner, without a separate blocking device with stops or the like is required. The solution according to the invention is therefore structurally simpler than the solution according to the main patent.

Toggle joints for locking the pre-throttle valve in its closing pitch are already known per se (US-PS 23 09 419 and FR-PS 7 45 736). In these previously known solutions, however, the pre-throttle valve is actuated as a function of two different operating parameters (internal combustion engine temperature and intake pressure in the intake duct), one operating parameter being used to adjust the pre-throttle valve and the other operating parameter being used to release the knee joint from the blocked position. In contrast to this, in the solution according to the invention, the adjustment of the pre-throttle valve as well as the release of the toggle joint from the blocking position are effected by a single operating parameter.
Appropriately, the central axis of rotation of the three aligned axes of rotation is offset from the alignment line by a small amount, namely opposite to the direction in which the joint of this axis of rotation is moved by the actuator when the expansion thermostat is heated. This prevents the central joint from being moved out of its dead center by accidental vibrations in the same direction in which the actuator of the thermostat moves it when the engine warms up. In this case, the pre-throttle valve could be opened by the negative pressure in the intake duct against the restoring force of the actuator.

In the following the invention is illustrated by means of an exemplary embodiment with reference to the drawing explained. It shows

Fig. 1 is a front view of a carburetor with a connecting rods according to the invention,

Fig. 2 is a side view of the carburetor of Fig. 1,
F i g. 3 connecting rods, thermostat and throttle valve in the position typical for the cold engine (section 3-3, FIG. 1),

F i g. 4 shows a section along the line 4-4 in FIG. 2, and F i g. 5 the linkage and the throttle valve in the position typical for a warm engine.

1 shows a carburetor 10 and a thermostatic member 12 which actuates a throttle valve 30 via a connecting rod 9 to be described in more detail.

The thermostatic member 12 has a displaceable actuator 86, the position of which is determined by the pressure in an expansion container 99 and by a spring 80. When the engine is cold, the actuator 86 is biased to the left in the drawing by the spring 80; when the engine heats up, the gas in the expansion tank 99 expands, whereby the actuator 86 is moved to the right. The actuator 86 is provided with a groove 106 at its end.

The throttle valve 30 is rotatably supported by screws 34, 36 on a shaft 32 in hubs 38 and 40.

An opening 44, which is closed by a leaf spring 42 , which is attached to the inside of the pre-throttle valve 30, is provided as a starting aid. At one end of the shaft 32 of the

Throttle valve 30, a lever 112 is fixedly attached, which extends substantially perpendicular to the plane of the throttle valve.

The connecting linkage 9 provides a knee joint-like connection between the actuator 86 and the with the shaft 32 firmly connected lever 112. It consists of a pivot lever 100 and a rod 114. The rod 114 is roughly in the form of a crank, one end of which is in a hole in the one on the shaft 32 attached lever 112 is mounted so that a first Joint 118 is formed. The second end of the crank-shaped rod 114 is rotatable in one eye stored, which is formed at one end of the pivot lever 100, and forms a zu.immen with this another joint 120 of the connecting rod. The other end of the pivot lever 100 is also with provided with an eye which has a pin 101 molded onto the housing of the thermostatic member 12 receives and forms a third joint 122 together with this. The connecting rod 9 thus has a Fixed joint 122 and two joints 118 and 120 that are not spatially fixed. The pivot lever 100 is with a slot 108 is provided, in which the portion of the actuator 86 provided with the groove 106 is guided.

The dimensions of the lever 112, rod 114 and of the pivot lever 100 are selected so that when the engine is cold and the actuator 86 the joints 118,120,122 lie in a straight line.

Preferably, however, the hinge 120 is as in FIG. 3 shown offset to the left, so that in Closed position of the pre-throttle valve 30 even with a slight counterclockwise rotation of the shaft 32 the knee joint is preserved. When the machine is cold, the pre-throttle valve remains unaffected the speed of the engine in its closed position.

As the motor heats up, the actuator 86 is pushed to the right and the lock is activated the throttle valve 30 is canceled. The position of the pre-throttle valve depends on this temperature range from the negative pressure prevailing in the intake duct and the restoring force of the spring 80, which in the Rotation of the throttle valve beyond the equilibrium position corresponding to the temperature by the Vacuum must be compressed. In this temperature range, both temperature and also speed-dependent throttling by the pre-throttle valve. When the operating temperature of the Motor, the actuator comes into its rightmost position in the drawing. So are the lever 112, the rod 114 and the pivot lever 100 and the throttle valve 30 in the in Fig.5 The position shown in which the throttle valve is fully open regardless of the engine speed Location is held.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Carburetor for internal combustion engines with a control device which acts on the pre-throttle valve located upstream of the main throttle valve of the carburetor and which is formed by a linkage which, when the throttle valve is closed, assumes a blocking position from which it can be moved by the actuator of an expansion thermostat depending on the internal combustion engine temperature, which engages a pivotably fixed pivot lever, which in turn acts via articulated connections on a lever connected to the throttle valve shaft in a rotationally fixed manner, according to Patent 15 26 628, characterized in that a rod (114 ) connects the pivot lever (100) to the lever (112) , which is rotatably mounted on the one hand on the arm of the lever (112) and on the other hand on the movable end of the pivot lever (100) , the axis of rotation of the mounting of the pivot lever (100) and the axes of rotation of the attachment points of the rod (114) in the blocking position essentially flu want.