DE102011004131A1 - Pump, in particular a vehicle brake system - Google Patents

Abstract

In the case of a pump, in particular a vehicle brake system, with a delivery element (14) for delivering fluid by means of pressure build-up and a feed for delivering fluid to the delivery element (14) as well as a discharge for removing the fluid from the delivery element (14), the feed and / or designed the discharge with a formed part (18).

Description

State of the art

The invention relates to a pump, in particular a vehicle brake system, with a conveying element for conveying fluid by means of pressure build-up and a supply for supplying fluid to the conveying element and a discharge for discharging the fluid from the conveying element.

In vehicle brake systems, such as an anti-lock braking system (ABS), pumps are needed to deliver pressure. The pressure media are usually fluids, such as brake fluid. Typical pumps for such vehicle brake systems include a cylindrical housing which serves as a tread for a piston therein. The piston serves to compress the pressure medium. In addition, inlet and outlet valves for the pressure medium are located on the housing. Sealing elements on or in the pump are required to prevent or reduce leaks.

The inlet and outlet valves serve to control the pressure medium flow during the compression phase achieved with the piston. The inlet valve prevents the pressure medium from flowing back into the suction area during the compression phase. The outlet valve prevents a backflow of the pressure medium from the pressure or compression side into the pump interior. The inlet and outlet valves are typically designed as spring-loaded ball valves.

Disclosure of the invention

According to the invention, a pump, in particular a vehicle brake system, is provided with a conveying element for conveying fluid by means of pressure build-up and a feed for supplying fluid to the conveying element and a discharge for discharging the fluid from the conveying element. The supply and / or the discharge is designed with a forming part.

Forming parts are produced purely by plastic shaping and not by machining. They are very inexpensive to produce, since the necessary forming processes of plastic shaping, such. As pressing in a mold or punching, can be kept short in time. In addition, there is no or little tool wear. Even burr formation and a risk from adhering chips can be largely avoided. The danger that emanates from adhering chips in the system, especially in vehicle braking systems of importance.

The forming part according to the invention, for the supply and / or the discharge of the fluid in the pump, is preferably designed substantially cup-shaped. The cup shape is a form which can be produced particularly well by means of forming. It is very well suited to encase a component inside the cup and to define along with it flow paths. Advantageously, therefore, the inflow from the cup edge takes place axially into the cup shape. The outflow preferably takes place centrally through the cup bottom out of the cup shape.

Furthermore, the forming part is advantageously designed with an inflow section, an outflow section and a sealing section which seals against each other. For this purpose, the forming part is preferably designed with depressions and / or elevations, so that lines or channels result solely from the forming part or from the interaction of this with other components on or in sections of these components. Cables and channels can be produced without milling or drilling process.

Further, a pump cylinder is preferably provided in the pump, which is encompassed by the forming part. Designed in this way, the lines and channels can be arranged particularly easily, in particular in the longitudinal direction of the pump cylinder, between the latter and the surrounding forming part.

The forming part engages around the pump cylinder particularly advantageously over a portion of its longitudinal extent. The inlet is located at a portion of its longitudinal extent. The fluid guide extends along the pump cylinder to another portion where the fluid is directed into the interior of the pump cylinder.

Preferably, a pump cylinder, an intake valve and an exhaust valve are provided in the pump, and the intake valve and the exhaust valve are disposed at a front end of the pump cylinder. The inlet and outlet valves are thus concentrated in one area. This area is summed up into two functions without the inlet and the outlet of the fluid interfering with each other. The cable routing is also concentrated on this area. Thus, short lines are realized and there are only small flow losses. Furthermore, this results in a particularly compact design.

In an advantageous embodiment, the inlet valve is designed as a hinge valve. The inlet valve can be designed as a closing element with a flap, a pivotable plate or tab, or a cuff. Hinges serve to guide the closing element during its pivoting or folding movement. This represents a very compact and cost-effective design of the inlet valve. It is particularly advantageous to arrange such an inlet valve on an end face of a pump cylinder. Furthermore, the inlet valve is preferably designed as a ring element, which optionally covers a plurality of openings arranged at a distance from the ring.

In a further advantageous embodiment, the inlet valve is designed as a seat valve with a valve seat and a valve body or closing body. An opening in the valve seat can be closed by means of the valve body, which applies to the valve seat and seals there. Preferably, the valve body is resiliently biased against the valve seat. The valve body is preferably designed with a ball, in particular with resilient bias by means of a helical spring.

The pump according to the invention is further, particularly advantageous, equipped with a conveying element for conveying fluid by means of pressure build-up and a cylinder for receiving the conveying element, wherein the cylinder is designed with a forming part. It thus achieved the above-mentioned advantages of forming in contrast to a machining production.

In the pump, the forming part is preferably designed cup-shaped stepped. The stepped cup shape creates interiors with different sized cross-sectional areas, which can be advantageously used for different functional areas. Preferably, a first region is designed with a large cross-sectional area, in which a seal is arranged to an adjacent eccentric drive. In particular, a conveying means, particularly preferably in the form of a membrane, is arranged in this first region. Advantageously, a second region with a smaller cross-sectional area is also provided in which a spring element supporting the support is arranged, positioned and held.

The bottom of the cup shape may be advantageously used as a surface for forming openings for an inlet valve and / or an outlet valve. The openings can be made by a simple punching process with high dimensional accuracy. Also, sealing surfaces, in particular a seat for a closing body of an exhaust valve, can be advantageously formed in this way.

In the pump, a conveying means in the form of a membrane is particularly advantageously provided. The use of a membrane for conveying fluid allows a compact design of the pump. Furthermore, there can be no leakage, as otherwise occurs on sliding seals of piston pumps. Preferably, the membrane is configured with steel or one or more elastomers. The membrane is preferably secured by means of a retaining ring in the cup shape of the forming part. The retaining ring is preferably glued or pressed.

An exemplary embodiment of the solution according to the invention will be explained in more detail below with reference to the attached schematic drawings. It shows:

1 a perspective view of a pump according to the invention,

2 a longitudinal section of the pump according to 1 .

3 a perspective longitudinal section of a first Umformteils of the pump according to 1 and

4 a perspective longitudinal section of a second Umformteils the pump according to 1 ,

In 1 is a pump 10 , in particular for a vehicle brake system, shown as the first forming part of a cup-shaped pump cylinder 12 includes. In the pump cylinder 12 there is a conveyor element 14 in the shape of a circular membrane, in its center with a pestle 16 is coupled and at its radially outer edge with the pump cylinder 12 is coupled. Furthermore, the pump includes 10 another cup-shaped forming part 18 ,

The pump cylinder 12 is stepped with a circular cylindrical section 19 with a large radius and a circular cylindrical section 20 designed with a comparatively small radius. The forming part 18 is also stepped with a circular cylindrical section 21 with a large radius and a circular cylindrical section 22 designed with a comparatively small radius.

The section 21 essentially has one to the section 20 corresponding cylindrical shape and is on the section 20 stuck or pressed. The section 20 also has three over the circumference of the section 20 evenly distributed indentations 23 on which each in the axial direction of the section 20 or the pump 10 each one channel or gap 24 between the pump cylinder 12 and the forming part 18 produce. Through this column 24 can brake fluid as fluid in the interior of the pump cylinder 12 reach.

The pumping process or conveying process of the pump is triggered 10 by an external excitation of the plunger 16 and the associated conveyor element 14 which in the section 19 is arranged. The excitation is preferably carried out by means of a cam or an eccentric which in such a way on the plunger 16 acts, that this in the axial direction of the pump cylinder 12 moved back and forth.

In 2 are more details of the pump 10 illustrated. You can see a return spring 26 , a promotion room 28 a sealing element 30 , an inlet opening 32 , a sealing element 34 , a sealing spring 36 , an outlet opening 38 , a production opening 40 as well as a line 42 ,

The inlet opening 32 and the sealing element 30 together form an inlet valve 44 , The outlet opening 38 and the second sealing element 34 together form an outlet valve 46 ,

Furthermore, on the forming part 18 a lead 48 formed, which on the pump cylinder 12 , frontally on the conveyor area 20 , rests, and thus a sealing point 50 forms.

You can see it in 2 further between the section 20 the pump cylinder 12 and the section 21 of the formed part 18 one of the three columns 24 which is one of the lines 42 forms. Through these lines 42 can brake fluid from the outside to the intake valves 44 reach. Fits the three columns 24 are at the end face of the cup-shaped pump cylinder 12 the three inlet openings 32 arranged. The brake fluid thus passes from the outside first in front of the sealing element 30 , The sealing element 30 is designed as an annular disc, which all three inlet openings 32 cover and close in this way. The sealing element 30 is by means of the return spring 26 against the front of the pump cylinder 12 pushed and held in this way there in addition.

Furthermore, in 2 the diaphragm designed as a conveyor element 14 which with the pestle 16 is coupled, particularly well to recognize in the cut. By means of the return spring 26 which, as already described, the sealing element 30 is biased, is also the plunger 16 biased in the opposite direction. In other words, the return spring 26 at one end with the pestle 16 and at the other end with the sealing element 30 coupled. Thus, the spring force acts on ram 16 and sealing element 30 ,

When sucking brake fluid into the pump 10 is by means of the conveying element 14 on the sealing element 30 creates a suction, so that the sealing element 30 the inlet openings 32 free, so that the brake fluid in the delivery chamber 28 can occur.

The following is the plunger 16 with the conveyor element attached thereto 14 axially in the direction of the outlet opening 38 the pump 10 pressed. This builds in the pump room 28 Pressure on. This pressure force closes the inlet valve 44 by placing the first sealing element 30 to the front of the pump cylinder 12 with the local inlet openings 32 pressed. Furthermore, the pressure force presses the fluid in the delivery chamber 28 through the outlet opening 38 in the direction of the sealing element 34 , This sealing element 34 is from the associated valve seat at the outlet opening 38 lifted off and the brake fluid can pass the sealing element 34 from the delivery opening 40 escape. The sealing element 34 is here by means of the sealing spring 36 against the outlet opening 38 biased.

The inlet openings 32 and the outlet opening 38 are outside the pump cylinder 12 through the sealing point 50 separated from each other. Thus, the brake fluid, after having the outlet opening 38 happened, not back in the wires 42 and / or the delivery room 28 reach.

In 3 are the arched dents 23 shown separately, which in conjunction with the overlying forming part 18 the wires 42 form. In addition, the inlet openings 32 and the outlet opening 38 shown, which frontally on the delivery room 28 are arranged.

In 4 is the lead 48 for sealing the inlet area of the pump 10 easy to recognize in relation to their outlet area. The lead 48 is formed as a neck or neck substantially circular. This lead 48 lies on a circular surface, which extends between the inlet openings 32 and the outlet opening 38 at the end of the pump cylinder 12 located. As a result, the already mentioned sealing point 50 , And thus formed the seal of the fluid supply and the fluid removal.

Claims (10)

Pump, in particular a vehicle brake system, with a conveying element ( 14 ) for conveying fluid by means of pressure build-up and a feed for supplying fluid to the conveying element ( 14 ) and a discharge for discharging the fluid from the conveying element ( 14 ), characterized in that the supply and / or the discharge with a forming part ( 18 ) is designed. Pump according to claim 1, characterized in that the forming part ( 18 ) is designed substantially cup-shaped. Pump according to claim 1 or 2, characterized in that the forming part ( 18 ) with a Inflow section, an outflow section and a sealing sealing portion is formed against each other. Pump according to one of claims 1 to 3, characterized in that a pump cylinder ( 12 ) provided by the forming part ( 18 ) is encompassed. Pump according to one of claims 1 to 4, characterized in that a pump cylinder ( 12 ), an inlet valve ( 44 ) and an outlet valve ( 46 ) are provided and the inlet valve ( 44 ) as well as the outlet valve ( 46 ) at a front end of the pump cylinder ( 12 ) are arranged. Pump according to one of claims 1 to 5, characterized in that an inlet valve ( 44 ) is provided, which is designed as a hinge valve. Pump according to one of claims 1 to 6, characterized in that an inlet valve ( 44 ) is provided, which is designed as a seat valve. Pump, in particular according to one of claims 1 to 7, pump, with a conveying element ( 14 ) for conveying fluid by means of pressure build-up and a cylinder for receiving the conveying element ( 14 ), characterized in that the cylinder is designed with a forming part. Pump according to claim 8, characterized in that the forming part is designed cup-shaped stepped. Pump according to one of claims 1 to 9, characterized in that a conveying element ( 14 ) is provided in the form of a membrane.

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