DE102008006868A1 - Motor vehicle pump for conveying e.g. fuel, has annular channel wrapped by coils exteriorly, and conveyor element i.e. rustless steel ball, provided in channel, where element is made of material comprising ferromagnetic characteristics - Google Patents

Abstract

The pump has an annular channel (2), through which a conveyable medium can flow. The channel is wrapped by coils (3) exteriorly, and a conveyor element (4) i.e. rustless steel ball, is provided in the channel, where the element is made of a material comprising ferromagnetic characteristics. The coils are arranged at same angular distance (alpha) to each other, and are successively controlled by a coil supply with energy. The pump has inlet and outlet connections (6, 7), where dimension of the connection (6) and/or dimension of the connection (7) is smaller than dimension of the channel.

Description

The The invention relates to a pump, in particular a motor vehicle pump, for conveying a recoverable medium, wherein a from the conveyable medium permeable annular channel is provided, which is wrapped from the outside with a coil is.

Automobile pumps, be used in various applications, such. B. for fuel supply in a motor vehicle, needed. It must smallest as well as larger quantities of fuel exactly dosed and promoted.

Out In the prior art are various implementations of pumps known. Most of these pumps are designed according to the principle of operation Displacement or flow pumps classified. Within These divisions are a variety of designs known.

From the EP 0 106 958 A1 For example, a pump for electrically conductive liquids is known, wherein coils are wound around a ring channel through which the electrically conductive liquid can flow. The coils each consist of an uninterrupted helically wound around the annular channel electrical conductor and / or a flow-through by an electrically conductive liquid pipe.

A similar principle of such an electromagnetic pump for moving an electrically conductive liquid in an annular channel by magnetic traveling fields is in the DE 0 55 49 59 A executed.

These From the prior art known constructions set an electrical conductive liquid as a conveying medium ahead. Thus, use as a motor vehicle pump is largely excluded.

The Pump according to the invention, in particular a motor vehicle pump, In contrast, has the advantage that any conveyable medium can be promoted.

According to the invention this is achieved by a pump, in particular a motor vehicle pump, for conveying a recoverable medium, wherein a from the conveyable medium permeable annular channel is provided, which is wrapped from the outside with a coil is, characterized in that in the annular channel a conveying element provided ferromagnetic properties having material is.

According to the invention so given a pump that requires no stock and thus low maintenance. Furthermore, the pump has a high volume performance on and is for liquid and / or gaseous Media and / or granules can be used. The conveying element is preferably designed so that it flush rests against the annular channel, but slightly within the annular channel is movable, leaving a sufficient seal between the conveyor element and the annular channel is given.

in principle can the ring channel any, z. B. oval, executed. However, very particular preference is a circular design of the ring channel. The conveying element is preferably made of a ferromagnetic property having element such. As iron, cobalt or nickel, or a ferromagnetic properties comprising alloy.

in principle can be provided any number of coils. According to one preferred embodiment of the invention is a plurality of coils provided, preferably at least three coils. Here are the Coils preferably successively from the outside around the annular channel wound. The coils preferably do not overlap.

A preferred development of the invention is that the coils are arranged at an equal angular distance from each other.

Farther it is preferred that a coil supply is provided with the coils are sequentially energized. In particular preferred that only one coil is energized with energy. When a coil is energized, a magnetic builds up Field up. The magnetic field pulls the conveyor element from ferromagnetic properties exhibiting material to and accelerates the conveyor element in the direction of the coil center. Attracted by the magnetic field displaces the conveyor element the liquid flowing through the annular channel in Direction of the coil center and promotes the liquid.

The Energy for generating the magnetic field is preferably just before the conveyor element reaches the coil center, switched off to a braking effect of the magnetic field to avoid the conveyor element. This leaves the Movement of the conveying element obtained.

Preferably, thereafter the next clockwise mounted coil is energized. This next coil generates a magnetic field and thereby attracts the conveying element. The conveying element conveys the liquid by the angular distance of the preceding and following coil to each other through the annular channel. Again, the rule is: the energy to generate the magnetic field is switched off shortly before reaching the coil center to avoid a braking effect of the magnetic field on the conveyor element.

at continuous sequential control of the sequential attached coils with energy, the process is repeated, so that an ongoing promotion of the Adjusting annular channel by flowing liquid. By varying the speed of the sequential control with energy, the speed of the conveyor element varies and thus the delivery rate of the pump.

A preferred development of the invention is that the conveying element fixed at a fixed position. By constant control a coil or multiple coils with energy becomes a constant Magnetic field constructed, which the conveying element to a fixed Position fixed in the ring channel. This makes the pump as a valve usable.

in principle can control the coils via any controller respectively. Especially, however, it is provided that the coil supply is configured such that the control of the coil via Pulse width modulation (PWM) is feasible. By specifiable, different on and off times of the power supply, controlled by PWM, the coils are driven with energy. The turn-on and turn-off are particularly in relation to the Speed of the conveyor element or in dependence adaptable to the delivery rate of the motor vehicle pump. To the For example, it may be necessary that due to larger Delivery height with otherwise normal delivery rate a longer control with energy or control with higher energy is necessary.

in principle The conveying element may have any shape. According to one preferred development, however, is provided that the conveying element as a ball, in particular as a stainless steel ball executed is. As the conveying element, as described above, preferably flush against the annular channel to a corresponding To achieve sealing between conveying element and annular channel, is due to the spherical design of the conveyor element given a circular inner diameter of the annular channel.

In a preferred embodiment, the diameter the inlet nozzle and / or the diameter of the outlet nozzle a smaller diameter than the annular channel. That's what it's like the annular channel flush adjacent conveyor element a bound by the shape of the annular channel path and does not escape from the annular channel. Furthermore, the outlet can be protected with a grid or sieve such that the conveying element by a possible pressure the fluid located in the annular channel not from the Ring channel can escape. Also, a guide of the conveying element be provided on a rail within the annular channel.

Farther it is preferred that a plurality of conveying elements is provided. In this way, z. B. a larger one Delivery pressure can be achieved. Furthermore, the conveying element Preferably be controlled such that in each case an equivalent plurality is powered by coils at the same time, so that each energized coil a conveyor element by construction of a magnetic field.

The previously described pump is preferably used in motor vehicles, z. B. for fuel supply. Further applications for such a pump are also outside of motor vehicles. Furthermore, in addition to liquids and gaseous Media or granules eligible.

following the invention with reference to the accompanying drawings on the basis of a preferred embodiment in more detail explained.

It the single figure shows a schematic cross-sectional view a motor vehicle pump according to the invention.

From the figure is a schematic cross-sectional view of a motor vehicle pump according to a preferred embodiment of the invention can be seen. This motor vehicle pump is used to convey a liquid such. As water, and has an annular channel 2 , an inlet pipe 6 and a spout 7 on. According to the presently described preferred embodiment of the invention, the annular channel 2 a circular shape and a circular inner diameter.

The ring channel 2 is in the presently described preferred embodiment of the invention with three coils 3 wrapped, which are arranged at an equal angular distance α to each other. The angular distance α is 120 ° in the presently described preferred embodiment of the invention.

As can be seen from the figure, is in the annular channel 2 a conveyor element 4 arranged. The conveying element 4 is designed as a ball, namely as a stainless steel ball. The diameter of the ball corresponds to the inner diameter of the annular channel 2 such that the ball is flush with the annular channel 2 abuts, but can move freely within the annular channel. Because of the diameter of the inlet nozzle 6 and the diameter of the spout zens 7 smaller than the inner diameter of the annular channel 2 , the ball can not leave the ring channel 2 escape.

To initiate a pumping process is a coil 3 , as described above, energized. As a result, a magnetic field builds up, which accelerates the ball in the direction of the coil center. Just before the ball reaches the coil center, the energy to build up the magnetic field is switched off again to avoid a braking effect of the magnetic field on the ball. Due to the acceleration, the ball promotes that in the ring channel 2 located water.

As a result, the next one becomes moving 8th attached coil 3 powered by the coil supply. The already from the first coil 3 accelerated sphere becomes the next magnetic field in the direction of motion 8th attached coil 3 dressed. Due to the renewed acceleration promotes the ball in the annular channel 2 Water at the angular distance α. The process repeats itself.

2

annular channel

3

Kitchen sink

4

Förderlement

6

flowguide

7

outlet connection

8th

movement direction angular distance

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• EP 0106958 A1 [0004]
• - DE 0554959 A [0005]

Claims (8)

Pump, in particular a motor vehicle pump, for conveying a conveyable medium, wherein a flow-through from the conveyable medium annular channel ( 2 ) provided from the outside with a coil ( 3 ) is wrapped, characterized in that in the annular channel ( 2 ) a conveying element ( 4 ) is provided from ferromagnetic properties having material. Motor vehicle pump according to claim 1, characterized in that a plurality of coils ( 3 ) is provided, preferably at least three coils ( 3 ). Motor vehicle pump according to claim 1 or 2, characterized in that the coils ( 3 ) are arranged at an equal angular distance (α) to each other. Motor vehicle pump according to claim 1 to 3, characterized in that a coil supply ( 5 ) is provided, with which the coils ( 3 ) are sequentially energized. Motor vehicle pump according to claim 1 to 4, characterized in that the coil supply is designed such that the control of the coil ( 3 ) via pulse width modulation is feasible. Motor vehicle pump according to claim 1 to 5, characterized in that the conveying element ( 4 ) is designed as a ball, in particular as a stainless steel ball. Motor vehicle pump according to claim 1 to 6, characterized in that the diameter of the inlet connection ( 6 ) and / or the diameter of the outlet nozzle ( 7 ) smaller than the diameter of the annular channel ( 2 ) are executed. Motor vehicle pump according to claim 1 to 7, characterized in that a plurality of conveying elements ( 4 ) is provided.