DE3203400A1 - Vacuum system - Google Patents

Abstract

For producing a defined vacuum, a vacuum system is proposed which comprises a vacuum pump, an electric drive motor for the vacuum pump and a pressure switch. The vacuum pump is arranged in a positively interlocking way between the pressure switch and the electric drive motor. A compact unit is thereby created which takes up little installation space, has a low weight, does not require any additional air-carrying lines between pressure switch and vacuum pump and can be attached to existing vacuum-operated devices, without modifying these, at low installation cost. The invention is particularly suited to motor vehicles with vacuum-operated brake boosters. Such brake boosters in fact have the disadvantage that they are fully functional only when the vehicle engine is running. The proposed vacuum system overcomes this disadvantage and makes an important contribution to driving safety in that it is connected to the vehicle battery and then put into operation if a defined vacuum is not present for the brake booster. <IMAGE>

Description

Vacuum system

The invention relates to a vacuum system with a vacuum pump, a electric drive motor for the vacuum pump and one connected to the vacuum circuit Pressure switch, which is equipped with a spring-loaded diaphragm, which with a certain pressure difference between atmospheric pressure and that in the vacuum circuit pressure executes a movement that switches the electrical on and off Drive motor is used for the vacuum pump.

Such vacuum systems have the purpose of creating a defined negative pressure for vacuum-operated facilities.

There are known vacuum systems of this type, preferably for stationary vacuum-operated facilities are used. A key feature of this Vacuum systems is that the vacuum pump, the drive motor for the vacuum pump and the pressure switches are designed as separate system parts. This is particularly disadvantageous when such vacuum systems f dr vacuum-operated Facilities are used where space and weight are important, such as in motor vehicles. This is a disadvantage with the known vacuum systems this type also includes the great installation effort that is required to separate each other system components carried out separately by means of air-carrying pipes and electrical ones Connect cables together.

The present invention is based on the object of a vacuum system To create the type mentioned, which requires little installation space, a small one Has weight on existing vacuum-operated facilities, without changes to them, can be grown and is characterized by functional and manufacturing simplicity so that they can be mass-produced at minimal cost is.

The object is achieved according to the invention in that the vacuum pump arranged in a form-fitting manner between the pressure switch and the electric drive motor is that the pressure switch housing of the pressure switch with a connection for a another vacuum-generating system and a connection for a vacuum-operated device is provided.

The advantage of the invention is that a compact device is created that requires little installation space, has a low weight and that on existing ones vacuum-operated devices can be attached with little installation effort can be made without changes to the existing facilities have to. The invention provides the prerequisite for inexpensive production, as there is no need for additional air-carrying lines between the pressure switch and the vacuum pump and the required electrical.

Lines between the push switch and the electric drive motor are very are short.

An advantageous embodiment of the invention is that the Vacuum pump a radial piston pump with external, star-shaped Cylinder Bores is that the number of cylinder bores is an even number and two of them face each other on the same axis, that in the cylinder bores at least one from one piece existing piston a back and forth Recirculation executes that the piston is symmetrical to its piston ends with two transverse to the longitudinal axis is provided recesses on which a round oscillating disk applied by an eccentric attached to the shaft of the electric drive motor is driven in the center.

The advantage of this embodiment of the invention is that the geometric dimensions of the vacuum pump are particularly small. This is essentially based on the fact that through the continuous, one-piece piston a good longitudinal guidance of the piston is achieved, which in turn is a prerequisite for a high piston speed and thus a high speed of the electric drive motor is.

This makes it cheaper to use, running at high speeds electric drive motors possible, as they are in motor vehicles for auxiliary units can be used. Another advantage is that there is precise control the reciprocating movement of the piston and thus a precise limitation of the upper Reversal points of both piston ends is reached, which limits the harmful Space to a minimum.

Another advantageous embodiment of the invention consists in that the vacuum pump designed as a radial piston pump consists of a pump housing and consists of a pump cover, the dividing line along the center of the diameter of the cylinder bore runs that the cylinder bores on the outside of the vacuum pump open and are closed with closures in which exhaust valves are incorporated.

This creates the prerequisite for the cylinder bores precisely and economically to manufacture. For radial piston pumps with several pistons it is possible to use pistons that consist of one piece.

Another advantageous embodiment of the invention consists in that a suction valve is attached to each cylinder bore of the vacuum pump, the from a ball seated on a conical shoulder of the valve bore and a ball Resetting part consists that presses the ball against the tapered shoulder that the Resetting part consists of a solid, elastic plastic, whose round shape is provided over the entire circumference with recesses, between the recesses The webs formed on the outer diameter are narrower than the width of the air duct.

This is the case with vacuum pumps designed as radial piston pumps to keep the harmful space small. This was caused by the intake valve Using a ball as a sealing element and a tapered ball Massive, elastic return part that pushes the shoulder of the valve bore is reached, which is provided with air-permeable recesses on the circumference.

Another advantageous embodiment of the invention consists in that the intake channels of the intake valves are connected to an annular groove and in the Pressure switch housing a bore is introduced, which the annular groove with an antechamber connects through a check valve from the vacuum chamber of the pressure switch is separated.

The purpose of this training of the vacuum system is when it comes to a standstill the vacuum system is comparable to the existing vacuum-operated equipment Achieve leakage quality. This is achieved by the fact that between the vacuum pump and the vacuum operated device is a check valve of known construction is arranged so that the small-sized intake valves, which experience has shown one Have relatively high leakages, vacuum-wise from the vacuum-operated Device are separated and thus the leakage quality of the vacuum system at standstill the vacuum pump cannot negatively affect it.

Another advantageous embodiment of the invention consists in that the pressure difference moving the membrane between atmospheric pressure and the pressure present in the vacuum chamber of the pressure switch by means of an adjustment part is changeable.

Experience has shown that in vacuum systems of this type, The advantage is if the pressure difference that puts the vacuum system into operation can be changed is.

Another advantageous embodiment of the invention consists in that in the connection for a further vacuum generating system a check valve known design is arranged.

Another advantage of the invention is characterized in that the vacuum system in a motor vehicle between the brake booster and the Intake pipe of a gasoline engine or a vacuum pump driven by a diesel engine is switched.

In the case of motor vehicles, especially passenger cars, in.der Usually vacuum operated brake boosters are used. The one responsible for the function of the Brams power booster required vacuum is in Otto engines of the im Intake pipe of the carburetor system Vprhandenen vacuum provided, in the case of diesel engines by a separate vacuum pump, which is generally driven directly by the diesel engine will. As a major disadvantage of this brake booster Has has been shown that when the engine is not running, the brake booster effect of the Brake booster fails, which under certain circumstances can be life-threatening Situations can arise.

By US patent 2844003 is a vacuum system for motor vehicles known, the necessary for the brake booster when the engine is not running Negative pressure generated.

The disadvantage here is that the vacuum pump is electric Drive motor for the vacuum pump and the pressure switch designed as separate components are. This requires additional air-carrying pipes and a high installation effort, so that in particular retrofitting in existing motor vehicles is very difficult is possible.

The German OS 2505 880 is one for motor vehicles with Otto engines intended brake system has become known, which serves to reduce a pressure difference that is too low between atmospheric pressure and the pressure present in brake boosters to increase so that vacuum-operated brake booster even if the Otto engines can be used. In this invention, there are vacuum pump and pressure switch designed as separate components and the pressure switch is on the brake booster attached, so that the proposed one without changes to existing brake booster Brake system cannot be introduced, which is to be regarded as a major disadvantage is.

Another advantageous embodiment of the invention consists in that a switch is provided through which the ignition lock contact can be bridged can.

This embodiment of the invention enables the operation of the vacuum system also possible if the ignition switch contact of the motor vehicle is not closed. To save the battery, this can be done, for example, with the Towing a motor vehicle are necessary.

Another advantageous embodiment of the invention consists in that the vacuum system is attached directly to the vacuum connection of the brake booster is.

This makes it possible to use the vacuum system in the simplest possible way To install motor vehicles.

Another advantageous embodiment of the invention consists in that the connection of the pressure switch for another vacuum generating system is provided, is closed and the vacuum system is connected to a T-piece is that in the vacuum line of an Otto engine or a vacuum pump of a Diesel engine is interposed in such a way that one is arranged in the vacuum line Check valve of known design the vacuum chamber of the pressure switch the vacuum system separates from the suction pipe in terms of vacuum.

This embodiment of the invention has the advantage that the vacuum system can be attached anywhere in the engine compartment of a motor vehicle can, which is particularly important in existing motor vehicles.

Embodiments of the invention are shown in the drawing and are described in more detail below. They show: FIG. 1 an illustration of the Vacuum system with an axial longitudinal section through the radial piston pump and the Pressure switch, Fig. 2 is a plan view of the vacuum system according to Fig. 1 with the removed Pump cover and electric drive motor, Fig. 3 is a plan view of a suction valve, FIG. 4 shows a longitudinal section of the suction valve according to FIG. 3, FIG. 5 shows a schematic Representation of the electrical circuit of the vacuum system when used in a motor vehicle, 6 shows a schematic representation of the installation of the vacuum system in a motor vehicle with a vacuum-operated brake booster.

The complete vacuum system is designated with 1. As a radial piston pump trained vacuum pump 2 is on one end face of the electric drive motor 3 and on the other hand the pressure switch 4 by means of sealing joining surfaces 19, 21 fastened by fitting screws 5. On the pressure switch is a connection 35 with a check valve 34 of known design for a further vacuum-generating system and a connection 36 appropriate for a vacuum operated facility.

The pistons 8, 9 of the radial piston pump 2 are driven by the vibrating plate 7, in the center of which is on the shaft of the electric drive motor 3 recorded eccentric 6 is rotatably mounted. When rotating the eccentric 6 comes the oscillating plate 7 alternately to rest on the shoulders 59 of the pistons 8, 9, so that they execute a reciprocating movement in the cylinder bores 11. the open cylinder bores 11 are closed by closures 10, in each of which an exhaust valve 12 is arranged, closed. To enable assembly of the pistons 8, 9, the cylinder bores 11 are divided into two halves, one half in the pump housing 18 and one half is placed in the pump cover 17.

A is located in the pump housing 18 on each cylinder bore 11 Suction valve 13, which consists of a ball 57 and an elastic return part 14, which is provided with recesses 53 on the circumference to reduce the harmful space is. The connection of the intake valve 13 to the cylinder bore 11 is made by a Air duct 52 located in pump housing 18.

All intake valves 13 are through'Ansaugkanäle 15 via an annular groove 16 connected to each other. Via a bore located in the pressure switch housing 20 22 becomes the air of you Pump-side vestibule 33 sucked in. The required leakage quality is provided by an antechamber 33 on the pump side Check valve 34 of known design achieved when the radial piston pump is at a standstill 2 a state-of-the-art seal against the evacuated negative pressure chamber 23 ensures.

In the pressure switch housing 20 is the pressure switch, which is from a membrane 24, a contact 28 fixed thereon, a sleeve 27 and a Compression spring 26 consists. The membrane 24 is fastened with a flange 25. part 29 represents a contact that is used to control the in the pressure switch housing space 32 with an angle 56 attached relay 30 is used. With the adjustment part 55 is the spring force of the compression spring 26 adjustable and thus the pressure difference between atmospheric pressure and the vacuum circuit.

The function of the vacuum system is illustrated below with reference to FIG. 1 and FIG. 5. The state shown is that there is a sufficient pressure difference exists between atmospheric pressure and a pressure in the negative pressure space 23, required for a vacuum operated facility. Touch in this state the two contacts 28 and 29 are not. If the pressure difference is too low, i. H. the pressure in the vacuum chamber 23 is too high, then the membrane 24 moves through the compression spring 23 in the direction of the contact 29 up to the latter on the membrane 24 attached contact 28 touches. This actuates the relay 30 and the electrical Drive motor 3 with the radial piston pump 2 put into operation until a sufficient pressure difference between atmospheric pressure and the existing pressure is reached in the vacuum chamber 23.

The use of the vacuum system in a motor vehicle with a gasoline engine and a vacuum-operated brake booster is described below with reference to FIG Fig. 6 described.

The vacuum system is directly on the vacuum connection 51 of the brake booster 41 attached with a connecting piece 57. When the Otto engine 39 is running in Intake pipe 40 generates a negative pressure, which via the negative pressure line 43 and the The vacuum chamber 23 of the pressure switch 4 enters the brake booster 41. At the When the brake pedal 42 is actuated, this negative pressure has a braking force-boosting effect the end.

The thereby increased brake pedal force is in the master cylinder 44 in hydraulic pressure converted via brake lines 45, 46 to the wheel brake cylinders 47, 48, 49, 50 is supplied and thereby brake the motor vehicle. The vacuum system 1 comes into operation, as explained at the outset, when in the intake pipe 40 of the Otto engine 39 insufficient negative pressure is generated. To when the vehicle is parked To conserve the battery, the vacuum system is only ready for operation when the Ignition switch contact 37 is closed, d. H. the ignition key on the corresponding Position.

As can be seen from Fig. 5, the ignition lock contact 37 by the Switch 31 can be bridged. The vacuum system 1 is on via the ground contact 54 connected to the negative pole of the battery 38.

From Fig. 6 top right it can be seen how the vacuum system 1 on can be installed anywhere in the engine compartment. This is done in the Vacuum line 43 interposed a T-piece 61 and the free end with the Connection 36 of the vacuum system 1 connected; the connection 35 of the vacuum system 1 is sealed in this solution.

12 claims 3 sheets drawings, 6 Fig.

1 List of Reference Numbers List of Reference Numbers 1 Vacuum System 2 vacuum pump 3 electric drive motor 4 pressure switch 5 fitting screw 6 eccentric 7 Swing plate 8 Piston 9 Piston 10 Closure 11 Cylinder bore 12 Exhaust valve 13 Suction valve 14 Resetting part 15 Suction channel 16 Annular groove 17 Pump cover 18 Pump housing 19 joining surface 20 pressure switch housing 21 joining surface 22 bore 23 vacuum chamber 24 membrane 25 flange 26 compression spring 27 sleeve 28 contact 29 contact 30 relay 31 Switch 32 Pressure switch housing area 33 Anteroom 34 Non-return valve 35 Connection 36 Connection 37 Ignition lock contact 38 Battery 39 Otto engine 40 Intake pipe 41 Brake booster 42 Brake pedal 43 Vacuum line 44 Master brake cylinder 45, 46 Brake line 47, 48, 49, 50 Wheel brake cylinder 51 vacuum connection 52 air duct 53 recess 54 earth contact 55 Adjustment part 56 Angle 57 Ball 58 Recess 59 Step 60 Connection piece 61 Tee

Claims (12)

Claims 1. Vacuum system with a vacuum pump, an electrical one Drive motor for the vacuum pump and a pressure switch connected to the vacuum circuit, which is equipped with a spring-loaded membrane, which with a certain Pressure difference between atmospheric pressure and that prevailing in the vacuum circuit Pressure executes a movement that switches the electric drive motor on and off is used for the vacuum pump, characterized in that the vacuum pump (2) form-fit between the pressure switch (4) and the electric drive motor (3) is arranged that the pressure switch housing (20) with a connection (35) for a further vacuum-generating system and a connection (36) for a vacuum-operated Facility is provided. 2. Vacuum system according to claim 1, characterized in that the vacuum pump <2) a radial piston pump with external, star-shaped cylinder bores (11) is that the number of cylinder bores (11) is an even number and each two of them are on the same axis opposite each other that in the cylinder bores (11) at least one from one piece existing piston (8) or (9) a Back and forth movement executes that the piston (8) or (9) symmetrically to his Piston ends provided with two recesses (58) running transversely to the longitudinal axis is, on which a round oscillating plate (7) rests, which is supported by one on the shaft of the electric drive motor (3) attached eccentric (6) driven in the center is. 3. Vacuum system according to claims 1 or 2, characterized in that that the vacuum pump (2) designed as a radial piston pump consists of a pump housing (18) and a pump cover (17), the dividing line of which runs along the center of the diameter the cylinder bore (11) extends that the cylinder bores (11) on the outside the vacuum pump (2) are open and with closures (10) in which outlet valves (12) are introduced, are closed. 4. Vacuum system according to one of claims 1 to 3, characterized in that that a suction valve (13) is attached to each cylinder bore (11) of the vacuum pump (2) is that of a seated on a conical shoulder (59) of the valve bore Ball (57) and a restoring part (14) that the ball (57) against the conical Paragraph (59) presses that the restoring part (14) made of a solid, elastic plastic consists, whose round shape is provided with recesses (53) over the entire circumference whose webs formed between the recesses (53) are narrower on the outer diameter than the width of the air duct (52). 5. Vacuum system according to one of claims 1 to 4, characterized in that that the intake channels (15) of the intake valves (13) are connected to an annular groove (16) are and in the pressure switch housing (20) a bore (22) is introduced, which Annular groove (16) connects with an anteroom (33), which is connected by a check valve (34) is separated from the vacuum chamber (23) of the pressure switch (4). 6. Vacuum system according to one of claims 1 to 5, characterized in that that the diaphragm (24) moving pressure difference between atmospheric pressure and the pressure present in the vacuum chamber (23) of the pressure switch (4) by means of an adjusting part (55) can be changed. 7. Vacuum system according to one of claims 1 to 6, characterized in that that in the connection (35) for a further vacuum-generating system, a check valve (34) known design is arranged. 8. Vacuum system according to one of claims 1 to 7, characterized in that that the vacuum system (1) in a motor vehicle between the brake booster (41) and the intake pipe (40) of a gasoline engine or one of a diesel engine driven vacuum pump is switched 9. Vacuum system according to one of the claims 1 to 8, characterized in that a switch (31) is provided through which the ignition lock contact (37) can be bridged. 10. Vacuum system according to one of claims 1 to 9, characterized in that that the vacuum system (1) directly on the vacuum connection (51) of the brake booster (41) is attached. 11. Vacuum system according to one of claims 1 to 9, characterized in that that the connection (35) of the pressure switch (4) for a further vacuum generating System is provided, is closed and the vacuum system (1) is connected to a T-piece (61) is connected, which is in the vacuum line (43) of a gasoline engine or a vacuum pump of a diesel engine is interposed so that a in the Vacuum line (43) arranged check valve of known design the vacuum chamber (23) of the pressure switch (4) of the vacuum system (1) from the suction pipe (40) in terms of vacuum separates. 12. Vacuum system according to claims 1 and 11, characterized in that that the T-piece (61) at one end connected to the vacuum line (43) with a check valve of known type is provided.