DE10248433A1 - Device for delivery of media, in particular injector valve for combustion engines of motor vehicles, has fuel pump integrated with injector valve - Google Patents

Abstract

A stack of piezo elements (4) are housed in a tubular housing (3) which screws into the valve body (1). When energized the piezo elements activate a drawbar (5) linked to a lever (15) causing it to pivot anti- clockwise. This forces the pump element (28) upwards against the force exerted by a helical compression spring (31). In turn the pump element forces fuel through a non-return valve (33) into the injector.

Description

The invention relates to a device to promote of media, in particular an injection device for internal combustion engines of motor vehicles, according to the preamble of claim 1.

They are fuel injectors known in which the fuel from a pump via lines Injector supplied becomes. Because of the lines, the device is complicated in Structure and expensive to manufacture. For the pump is additional Installation space required. In addition, the pump must be mechanically connected to the existing system in the vehicle can be connected.

The invention is based, which generic device to train so that they requires little installation space with simple structural training and for the A high technical effort is not required to connect the pump is.

This task is carried out in the generic device according to the invention with the characterizing features of claim 1 solved.

In the device according to the invention the pump is essentially integrated into the valve body. This is an additional Installation space for the Pump not required. This also eliminates long connection routes between the pump and the valve, so that to build up the pressure of the medium to be discharged requires only a low pump pressure is.

Further features of the invention result from the other claims, the description and the drawings.

The invention is based on some embodiments illustrated in the drawings. It demonstrate

1 in axial section a first embodiment of a delivery device according to the invention in the form of an injection valve arrangement,

2 a plan view of the device according to 2 .

3 in axial section a second embodiment of a device according to the invention,

4 a section along the line IV-IV in 3 .

5 in axial section a third embodiment of a device according to the invention,

6 in an enlarged view according to a hydraulic stroke transformer of the device 5 .

7 in an enlarged view a valve with a valve seat according to the device 5 .

8th a detail of the device according to 5 .

9 a section along the line IX-IX in 5 .

10 in axial section a fourth embodiment of a device according to the invention,

11 in an enlarged view according to a stroke transformer of the device 10 .

12 in a perspective view of a first lever of the lifting transformer 11 .

13 in a perspective view of a second lever of the lifting transformer 11 .

14 in an enlarged view a valve seat with a valve ball according to the device 10 .

15 a detail of the device according to 10 .

16 a section along the line XVI-XVI in 10 ,

The fuel injector devices described below serve to fuel into the combustion chambers of an internal combustion engine inject. The fuel is delivered with a pump that is integrated in the injection valve device. This is for the pump an additional Installation space not required, so that Injector can also be installed where there is little installation space is available. The injection valve device has the same dimensions like known injection valve devices, so that it is easily possible such conventional Injector devices through the injection valve devices provided with integrated pumps to replace.

The injector device can except to promote of fuel, for example, also used to promote a urea solution as required for exhaust gas aftertreatment of diesel engines is.

The injection valve device according to the 1 and 2 has an elongated valve body 1 , at whose in 1 a pump drive is connected at the top. It has a sleeve-shaped housing 3 , in the piezo elements 4 are accommodated. They are disc-shaped and form a piezo stack that is centered on a pull rod 5 is enforced. On the piezo stack 4 there is a thrust washer 6 , on which one end of a compression spring assembly 7 rests. In the exemplary embodiment, it is formed by stacked disc springs. The compressive force can also be generated by other springs, for example helical compression springs. The other end of the compression spring assembly 7 lies on a lid 8th with which the housing 3 is closed at one end. The pull rod 5 penetrates the thrust washer 6 , the compression spring package 7 and the lid 8th , In the area of the compression spring assembly 7 is the tie rod 5 in a sleeve 9 led, the preferred two in one piece with the thrust washer 6 is trained. The housing 3 is in the upper area with an electrically insulating jacket 10 Mistake. The other end of the case 3 is in a screw sleeve 11 recorded with which the pump drive 2 at the top into the valve body 1 is screwed. Due to this detachable connection, it is easily possible, if necessary, the pump drive 2 exchange.

The pull rod 5 penetrates sealed the floor 12 of the housing 3 as well as a floor 13 one the screw sleeve 11 receiving bore 14 with internal thread of the valve body 1 ,

In the area below the hole 14 is in the valve body 1 a one-armed lever 15 pivoted. It sits with one end on a perpendicular to the axis of the drawbar 5 lying pivot axis 16 and is in a recording room 17 of the valve body 1 ,

The pull rod 5 penetrates the lever with its lower end 15 and is with a thickening 18 provided on which the lever 15 rests. At the free end is the thickening 18 with a bunch 19 provided in a cup-shaped housing 20 is housed. The cylindrical casing 21 is angled radially inwards at the free end and forms with this angled edge 22 a stop for the federal government 19 , The housing 20 sits on a pilot valve needle 23 that are in a central, axial bore 24 of the valve body 1 is housed.

On the edge of the case 22 a compression spring is supported 25 from which is supported with its other end on the valve body side. Under the force of the compression spring 25 lies the housing 20 at the free end of the pilot valve needle 23 on.

The free end of the lever 15 lies in the starting position 1 on one stroke 26 , which is preferably formed by an adjusting screw in the valve body 1 screwed and through a nut 27 is secured in the set position.

With this stop 26 can the exact starting position of the lever 15 can be adjusted continuously.

A pump element is located on the opposite side of the free lever end 28 which is designed as a hollow piston. From its bottom 29 is a dome-shaped approach 30 from the end of the lever. The dome-shaped design ensures that the lever 15 around the axis 16 can be reliably pivoted to the pump element in a manner to be described 28 to operate.

In the pump element 28 is at least a compression spring 31 housed, which loads the pump element against the lever end, so that it is always with its approach 30 abuts the end of the lever.

Behind the compression spring 31 there are two check valves 32 and 33 , of which the check valve 32 a hole 34 then locks when the pump element 28 against the force of the compression spring 31 through the lever 15 is moved. The other check valve 33 opens into a hole during this pumping movement 35 that are in a store 36 leads. It is under the force of at least one compression spring 37 standing piston 38 biased. That memory 36 is in a side approach 39 the valve body 1 , which is advantageously in one piece with the approach 39 is trained.

From the hole 35 branches a hole 40 starting the hole 35 with a feed hole 41 connects in the fuel of a chamber 42 is supplied from which it opens after opening a valve needle 43 in a known manner via injection nozzles 87 is injected into the combustion chamber of the internal combustion engine.

In order to trigger an injection process, the piezo stack 4 excited. As a result, it elongates, causing the thrust washer 6 against the force of the compression spring assembly 7 is moved. About that on the thrust washer 6 overlying sleeve 9 becomes the tie rod 5 that have a sleeve 44 on the free end of the sleeve 9 is supported, shifted upwards. About the thickening 18 becomes the lever 15 counterclockwise around the axis 16 pivoted. This will make the pump element 28 against the force of the compression spring 31 shifted upwards. This will make the check valve 33 opened while the other check valve 32 remains in its closed position. The one in front of the pump element 28 Any fuel is passed through the open check valve 33 and the holes 35 . 40 . 41 into the chamber 42 , In addition, part of the fuel gets through the bore 35 also in the preloaded memory 36 , The lever 15 lies with a curved surface 45 on the thickening 18 on so that the pivoting movement of the lever 15 by moving the drawbar 5 is not affected. How 2 shows is the lever 15 in the area of the swivel axis 16 with a longitudinal slot 46 through which the tie rod 5 protrudes. The longitudinal slot 46 has such a length that the lever 15 without hindrance from the drawbar 5 can be pivoted to the required extent.

When moving the pull rod 5 when the piezo pack is excited 4 the federal government moves 19 at the bottom of the drawbar 5 initially relative to the housing 20 until the federal government 19 on the edge of the case 22 strikes. As long as the displacement h of the drawbar 5 is only so large that the federal government 19 just on the edge of the case 22 comes to rest, the housing 20 not postponed. The lever 15 will definitely be off the drawbar 5 about their thickening 18 taken so that the described pumping action occurs.

Will the Piezo Package 4 the drawbar is no longer energized 5 by the force of the compression spring 25 pushed back to their starting position. This also causes the lever to pivot 15 clockwise into its in 1 shown stop position back since it is over the pump element 28 and the compression spring 31 is pivoted back. During this return stroke of the pump element 28 becomes the check valve 33 closed and thus the connection to the hole 35 and to the store 36 blocked. The check valve opens at the same time 32 so that a hole 47 in the valve body 1 released to a port 48 leads to which the fuel tank is connected. The pump element moves 28 under the force of the compression spring 31 back to its starting position, is over the hole 47 the fuel sucked in through the open check valve 32 in a recording room 49 in the pump element 28 flows. Will the Piezo Package 4 excited again, then in the manner described in the recording room 49 located fuel through the pump element 28 compressed and via the check valve that then opens 33 to the chamber 42 promoted. There it is available for the injection process when the valve needle 43 is opened.

The installation conditions are chosen so that the lever 15 is pivoted by half the swivel path h when the collar 19 at the bottom of the drawbar 5 on the edge of the case 22 comes to the plant. Will the tie rod 5 however pushed further up, which is due to maximum energization of the piezo elements 4 the case is the lever 15 pivoted further counterclockwise, the collar 19 over the edge 22 the housing 20 against the force of the compression spring 25 entraining. This will also make the bottom of the case 20 attached pilot valve needle 23 taken. This lifts it from its valve seat 50 from. The feed hole 41 is via a branch hole 51 with a pressure room 52 in front of the valve needle 43 connected. Via the branch hole 51 a small part of the fuel delivered during the pumping process reaches the pressure chamber 52 , Now becomes the pilot valve needle 23 from the valve seat 50 can be lifted in the pressure chamber 52 fuel under pressure via the open valve seat 50 for connection 48 flow back. The pilot valve needle 23 is circumferential with recesses extending in the axial direction 53 provided, via which the fuel from the pressure chamber 52 for connection 48 can flow.

Between the valve seat 50 and the pressure room 52 there is an aperture 54 , Also in the branch hole 51 there is an aperture 55 , Both panels 54 . 55 reduce the system pressure, for example to half the value, if the situation described above exists.

Will the piezo elements 4 no longer energized, then the housing 20 through the compression spring 25 returned to the starting position. At first, the edge of the case remains 22 attached to the federal government 19 , Once the housing 20 on the ground 56 one the housing and the compression spring 25 receiving recording 57 strikes, loosens during the further return stroke of the drawbar 5 under the force of the spring 31 the Bund 19 from the edge of the case 22 ,

The injection valve arrangement described sucks on the return stroke of the pump element 28 the fuel in the recording room 49 on. When energizing the piezo elements 4 then this will be in the recording room 49 located fuel through the pump element 28 over the holes 35 . 40 and 41 into the chamber 42 promoted. The check valves 32 . 33 are thus opened and closed alternately.

The 3 and 4 show an injector device in which the tie rod 5 interacts with a two-armed lever, the axis of which 16 perpendicular to the longitudinal axis of the drawbar 5 lies. The pull rod 5 penetrates the longitudinal slot according to the previous embodiment 46 of the lever 58 , This longitudinal slot 46 is provided at the short end of the lever arm. The end of the other lever arm lies between the preferably adjustable stop 26 and the pump element 28 , In contrast to the previous embodiment, the stop is 26 above and the pump element 28 below the lever 58 , Accordingly, the two check valves 32 and 33 in the area below the pump element 28 intended.

That in the recording 57 of the valve body 1 located housing 20 closes with its wall, which, in contrast to the previous embodiment, extends downwards 21 on one with the wall 21 connected spring plate 59 of the housing jacket 21 protrudes radially and with play in the recording 57 is arranged. At the edge of the spring plate 59 one end of the compression spring is supported 25 from which is supported with its other, upper end on the valve body side. At the bottom of the spring plate 59 is the pilot valve needle 23 attached.

Will the piezo elements 4 energized, the pull rod is according to the previous embodiment 5 postponed due to the extension of the piezo package. The lever 58 is through the thickening 18 at the bottom of the drawbar 5 clockwise around the axis 16 pivoted. This will raise the other end of the lever arm from the stop 26 and shifts the pump element designed as a hollow piston 28 against the force of the compression spring 31 , The check valve 32 is pressed into its closed position by the flow generated by the pump element, while the check valve 33 is opened. This allows the in the recording room 49 located fuel through the open check valve 33 and the holes 35 . 41 to the chamber 42 stream. Part of the from the recording room 49 displaced fuel flows according to the previous embodiment in the preloaded memory 36 , Will the piezo elements 4 the drawbar is no longer energized 5 back to their starting position 3 pushed. The lever 58 is about the compression spring 31 and the pump element 28 pivoted counterclockwise until it stops 26 strikes. During this return stroke of the pump element 28 closes the check valve 33 while the check valve 32 is opened. This will over the hole 47 and the connection 48 Fuel from the fuel tank into the receiving room 49 sucked. This fuel is thus available for the next pumping process.

As in the previous embodiment, this pumping action occurs when the pull rod 5 is only shifted so far by path h until the federal government 19 on the edge of the case 22 strikes. The lever 58 then only covered part of its maximum possible swivel path.

Will the piezo elements 4 energized to the maximum, so that the pull rod 5 is moved further, the federal government takes 19 the housing 20 against the force of the compression spring 25 With. Because the housing 20 with the spring plate 59 is connected, this is also taken. This will raise the pilot valve needle 23 from their valve seat 50 from, so that according to the previous embodiment, the fuel through the wells 53 the valve needle 23 for connection 48 can flow back. The two panels 54 and 55 in front of the valve seat 50 as well as in the branch hole 51 in turn ensure that the control pressure in the pressure chamber 52 is reduced.

Otherwise, the embodiment according to the 3 and 4 designed the same as the previous embodiment. This injection valve device also works in the same way as the embodiment according to FIGS 1 and 2 ,

The injection valve device according to the 5 to 9 is designed so that the pumping effect on the fuel is achieved solely by linear displacements. The piezo elements 4 act via a pestle 60 on a cylindrical disc at the lower end 61 which has the diameter D. The disc 61 is due to a stroke transformer 62 from a membrane can 63 and the pump element 28 consists. The effective diameter of the membrane can 63 corresponds to the disc diameter D while the pump element 28 that according to the embodiment 1 and 2 is designed as a pump piston, has the smaller diameter d. The pump element designed as a hollow piston 28 lies with its bottom 29 on the membrane box 63 on. The wall of the pump element 28 is directed downwards and surrounds the compression spring over part of the axial length 31 that are on the inside of the piston crown 29 abuts and is supported with its other end on the valve body side. The compression spring 31 surrounds a pestle 64 which has a much smaller diameter than the pump element 28 having. At the top is the pestle 64 with a bunch 65 provided on which the upper end of the compression spring 31 that bears the covenant 65 in plant on the ground 29 of the pump element 28 holds.

In the starting position when the piezo elements 4 are not energized, the lower end of the plunger is 64 at a short distance from a valve body 66 ( 7 ) under the force of at least one compression spring 67 on a valve seat 68 ( 7 ) fits tightly. The valve body 66 is a valve ball in the embodiment, but can also have any other training. The valve body 66 sits on a support 69 that on the pilot valve needle 23 is arranged. The compression spring 67 is supported with one end on the support piece 69 and with its other end on the ground 70 a deepening 71 ( 8th ).

As in the two previous exemplary embodiments, the fuel under pressure passes through the branch bore during the pumping process 51 from the feed hole 41 except in the chamber 42 also on the upper piston surface 72 the valve needle 43 , In the branch hole 51 the panel sits according to the previous embodiments 55 , Besides, how 8th shows another hole 73 provided that from the pressure room 52 comes and in the aperture 54 is provided. Like the branch hole 51 opens the hole 73 into the pressure chamber 52 ,

The membrane can 63 of the stroke transformer 62 has two disc-shaped membranes 74 . 75 ( 6 ), which are clamped at their edges between valve body parts and between which there is a medium 76 located.

Will the piezo elements 4 energized, the package consisting of them lengthens, causing over the plunger 60 and the disc 61 the membrane 74 the membrane can 63 is elastically deformed. About the medium 76 also the opposite lower membrane 75 elastically curved. As a result, the pump element 28 that with the lower membrane 75 is connected or abuts against the force of the compression spring 31 is moved down. Because the top membrane 74 the effective diameter D and the lower membrane has the smaller effective diameter d, the pumping element through this translation 28 even with a small stroke of the piezo elements 4 shifted sufficiently far. The recording room 49 is over the check valve 32 and the hole 47 with the connection 48 connected. In addition, the check valve 33 intended. In contrast to the two previous exemplary embodiments, the two check valves are located 32 . 33 in a radial plane, while in the embodiments according to the 1 to 4 are each arranged in axial planes. Will the pump element 28 when energizing the piezo elements 4 moved, the check valve remains 32 closed while the check valve 33 under the pressure of the fuel opens. He can then go over the hole 35 into the feed hole 41 stream. Some of the fuel also gets through the hole 35 in the preloaded memory 36 , Will the piezo elements 4 no longer energized, the piezo stack shortens, causing the two membranes 74 . 75 to return to their undeformed position. Under the force of the compression spring 31 becomes the pump element 28 pushed back. Because of the im meraum 49 the resulting negative pressure is the check valve as in the previous embodiments 33 closed and the check valve 32 open. This allows the connection 48 and the hole 47 Fuel in the recording room 49 be sucked in. It then stands for the next pumping process of the pump element 28 to disposal.

According to the previous exemplary embodiments, the pump stroke h ( 6 and 7 ) selected so that the valve body 66 not from the valve seat 68 takes off. During the pump stroke, the pump element 28 also the pestle 64 moved, the free end of the distance h from the valve body 66 Has. If the pump stroke h is carried out, the lower end of the ram comes 64 only for contact with the valve body 66 without getting him off the valve seat 68 withdraw. The fuel supplied under pressure passes through the branch hole 51 on the upper piston surface 72 the valve needle 43 , This fuel also gets through the hole 73 in the pressure room 86 so that the support piece 69 and thus the valve body 66 against the valve seat 68 are burdened.

Will the pump element 28 with a corresponding current applied to the piezo elements 4 around its maximum stroke H ( 6 and 7 ) moved, then the valve body 66 with the support piece 69 against the force of the compression spring 67 moved so that the valve body 66 from the valve seat 68 takes off. The one in the print room 86 Fuel under pressure can then be opened via the valve seat 68 for connection 48 and thus flow back to the fuel tank.

As soon as the piezo elements are no longer supplied with current or only with a lower current, the supporting piece becomes 69 and the valve body 66 by the spring 67 pushed back until the valve body 66 at the valve seat 68 fits and closes it. The plunger also does this 64 , supported by the compression spring 31 , pushed back.

The memory 36 lies transversely to the axis of the injection valve device and protrudes only slightly over the valve body 1 ( 9 ). This injection valve device is characterized by a very small cross section. The memory 36 is through at least one drain hole 77 with the suction side of the connection 48 connected.

In the embodiment according to the 10 to 16 becomes the stroke transformer 62 by at least two levers 78 and 79 formed, each formed as a one-armed lever and about mutually parallel axes 16 are pivotable. The two levers 78 . 79 are offset from each other by 180 °. The lever 78 lies on the ram 60 of the piezo elements 4 on. The lever 78 is with an approach 80 provided at the bottom of the plunger 60 is applied. The free end of the lever 78 is due to an appropriate approach 81 of the lever 79 on. The two approaches 80 . 81 are close to the swivel axes 16 the lever provided. The free end of the lever 79 laying on the floor 29 of the pump element designed as a hollow piston 28 on. Depending on the arrangement and design of the levers 78 . 79 the gear ratio can be determined constructively. It is easily possible to arrange additional levers, each offset by 180 ° to one another, in the valve body if the operating conditions so require.

The levers 78 . 79 are each in a disc-shaped carrier 82 . 83 accommodated. The two carriers 82 . 83 are with corresponding recesses 84 . 85 for the levers 78 . 79 Mistake. The disc-shaped carriers 82 . 83 can be easily in the valve body 1 deploy. Because the levers 78 . 79 in the carriers 82 . 83 the swivel axes can be adequately guided 16 omitted, which makes assembly much easier.

Otherwise, the injection valve device is of the same design as the embodiment according to FIGS 5 to 9 , Will the piezo elements 4 energized, then the piezo stack lengthens, causing over the plunger 60 the levers 78 . 79 be pivoted. The lower lever 79 moves the pump element 28 against the force of the compression spring 31 , The one in the recording room 49 of the pump element 28 Fuel is flowing through the hole 35 into the feed hole 41 as well as in the preloaded memory 36 , Under the pressure of the fuel in the recording room 49 remains the check valve 32 closed. As in the previous embodiment, the valve body 66 not so long from its valve seat 68 lifted off like the pump element 28 executes the pump stroke h. Then the pestle comes 64 at most up to the valve body 66 , Will the piezo elements 4 however more energized and accordingly leads the pump element 28 a larger stroke up to the maximum stroke H, then as in the previous exemplary embodiments, the valve body 66 from the valve seat 68 lifted off so that the pressurized fuel is in front of the valve needle 43 over the hole 73 and the pressure chamber 86 to the tank connection 48 can flow back. Once the piezo elements 4 the pump element becomes less or no longer energized 28 under the force of the compression spring 31 pushed back in the manner described. Under the force of the compression spring 67 also becomes the pilot valve needle 23 with her pestle 64 pushed back until the valve body 66 at the valve seat 68 is applied. On the return stroke of the pump element 28 is due to the negative pressure in the recording room 49 the check valve 33 closed while the check valve 32 opens. This allows the connection 48 Fuel in the recording room 49 stream.

Otherwise, the embodiment according to the 10 to 16 designed the same as the previous embodiment.

In the exemplary embodiments described, the fuel pump is accommodated within the injection valve device, so that an additional installation space is not necessary for it. Is too No great technical effort is required to connect the pump to the tank. The injection pump with the piezo elements 4 , the stroke transformers 15 . 58 . 62 and the pump element 28 is essentially within the valve body 1 accommodated. Due to the integration of this fuel pump into the injection valve device, only a low pump pressure is necessary to build up the pressure of the fuel, since long connection paths between the pump and the injection valve 43 omitted.

The exemplary embodiments are for use have been described in an internal combustion engine. With the device with integrated pump but also promoted other media become.

Claims (26)

Device for conveying media, in particular injection device for internal combustion engines of motor vehicles, with at least one pump with at least one pump element, with which the medium can be conveyed to at least one valve, which is accommodated in a valve body, characterized in that the pump ( 2 ) in the valve body ( 1 ) is essentially integrated. Device according to claim 1, characterized in that the pump ( 2 ) a piezo drive ( 4 ) having. Device according to claim 2, characterized in that the piezo drive ( 4 ) via a stroke transformer ( 15 . 58 . 62 ) with the pump element ( 28 ) interacts. Apparatus according to claim 3, characterized in that the stroke transformer ( 15 ) is formed by a one-armed lever. Device according to claim 4, characterized in that the one-armed lever ( 15 ) by a pull rod ( 5 ) which can be pivoted with the piezo drive ( 4 ) is coupled. Device according to claim 4 or 5, characterized in that the one-armed lever ( 15 ) with its free end on the pump element ( 28 ) attacks. Apparatus according to claim 3, characterized in that the stroke transformer ( 58 ) is formed by a two-armed lever. Device according to claim 7, characterized in that the one lever arm with the pull rod ( 5 ) and the other lever arm with the pump element ( 28 ) interacts. Apparatus according to claim 3, characterized in that the stroke transformer ( 62 ) two pistons ( 61 . 28 ) of different diameters (D, d). Apparatus according to claim 9, characterized in that the piston (larger in diameter (D) ( 61 ) by the piezo drive ( 4 ) can be actuated. Apparatus according to claim 9 or 10, characterized in that the piston, which is smaller in diameter (d), the pump element ( 28 ) is. Device according to one of claims 9 to 11, characterized in that between the pistons ( 61 . 28 ) two membranes ( 74 . 75 ) which are a medium ( 76 ) lock in. Device according to claim 12, characterized in that the two membranes ( 74 . 75 ) directly on the two pistons ( 61 . 28 ) issue. Apparatus according to claim 3, characterized in that the stroke transformer ( 62 ) at least two levers ( 78 . 79 ) which are arranged at 180 ° to each other and interact with each other. Device according to claim 14, characterized in that the one lever ( 78 ) by the piezo drive ( 4 ) is pivotable. Device according to claim 14 or 15, characterized in that the other lever ( 79 ) with the pump element ( 28 ) interacts. Device according to one of claims 14 to 16, characterized in that the two levers ( 78 . 79 ) around mutually parallel axes ( 16 ) are pivotable. Device according to one of claims 14 to 17, characterized in that the levers ( 78 . 79 ) in one carrier ( 82 . 83 ) are stored. Apparatus according to claim 18, characterized in that the carrier ( 82 . 83 ) is an insert. Device, in particular according to one of claims 1 to 19, characterized in that the pump ( 2 ) can perform a pumping stroke (h) and an overstroke (Hh). Device according to claim 20, characterized in that this Medium is pumped within the pump stroke (h). Device according to claim 20 or 21, characterized in that the pressure of the medium in a pressure chamber ( 52 ) in front of the valve ( 43 ) is reduced when performing the overstroke (Hh). Device according to claim 22, characterized in that at the overstroke (H-h) a connection to a storage tank for the medium is opened. Device according to one of claims 20 to 23, characterized in that during the overstroke (Hh) the pump element ( 28 ) a valve part ( 63 . 64 ) actuated so that a valve seat ( 50 . 68 ) is opened. Device according to one of claims 1 to 24, characterized in that the pump element ( 28 ) at least one memory ( 36 ) is connected downstream for the medium. Device according to one of claims 1 to 25, characterized in that the pump element ( 28 ) two check valves ( 32 . 33 ), of which one is a check valve ( 33 ) at the pump stroke and the other check valve ( 32 ) opens on the return stroke.