DE102008015144A1 - Pump for conveying fluid in motor vehicle, has channel wrapped at outer side with coils, and conveying element made from material exhibiting ferrous magnetic characteristics provided in channel between openings - Google Patents

Abstract

The pump (11) has a channel (1) wrapped at an outer side with coils (4-6), and valve units (17, 18) that are assigned to openings (2, 3) provided for admitting a fluid into the channel and/or for discharging the fluid from the channel. A conveying element (12) made from a material exhibiting ferrous magnetic characteristics is provided in the channel between the openings. The conveying element is contactlessly movable into the channel. The conveying element is designed as a ball i.e. stainless steel ball. An independent claim is also included for a method for conveying a fluid.

Description

The Invention relates to a pump for conveying a fluid, with its help, for example, a liquid in one Motor vehicle can be promoted, as well as a method for conveying a fluid.

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

adversely in such a pump is that an electrically conductive liquid is assumed as a pumped medium. This is an assignment as a motor vehicle pump for any medium largely excluded.

It It is an object of the invention to provide an electrically easy-to-use Pump for conveying a fluid and a method for conveying to create a fluid by means of which any fluid promoted can be.

The Solution of the problem is carried out according to the invention by a pump for conveying a fluid having the features of Claim 1 and by a method for promoting a Fluids having the features of claim 6. Advantageous embodiments of Invention are specified in the subclaims.

According to the invention a pump for conveying a fluid is provided, the one Channel with a first opening and a second opening having. The channel is on an outside with a coil wrapped. The first opening is a first valve unit for admitting the fluid into the channel and / or for discharging the Fluids from the channel assigned. The second opening is a second valve unit for introducing the fluid into the channel and / or assigned to the discharge of the fluid from the channel. In the channel is one between the first opening and the second opening movable conveying element of ferromagnetic properties having Material provided.

According to the invention thus giving a pump that is electrically easy to use and which can promote any fluid. The inventive Pump also requires no bearing and is therefore low maintenance, since no additional mechanism is provided. The pump has a high volume performance and is gaseous and / or liquid media, such as. B. fuel in one Motor vehicle, usable. When the coil with the electric storm is driven, builds up a magnetic field. The magnetic Field attracts the ferromagnetic conveying element and accelerates the conveying element in the direction of the bobbin center. Dressed through the magnetic field displaces the conveyor element the fluid in the channel. This is by the first or second valve unit recessed further fluid in the channel and Fluid is discharged from the channel through the second or first valve unit. The conveying element is preferably made of a ferromagnetic Property exhibiting material, such. As iron, cobalt or Nickel, or a ferromagnetic properties alloy or a magnetic material.

According to one preferred embodiment is the conveying element movable without contact in the channel. By doing that Conveying element without contact in the channel movable is, resulting in low wear and low friction between the conveying element and the channel. Furthermore, the conveying element preferably designed such that it is flush abuts the channel but is easily movable within the channel is so that a sufficient seal between the conveyor element and the channel is given. By doing that, no frustrating Components are provided, the pump is low maintenance.

Especially Preferably, a plurality is on the outside of the channel provided by coils, wherein preferably at least three coils are provided. The coils are preferably in the axial direction wrapped one after the other around the channel. The spools are in particular spaced from each other and overlap preferably not. Due to the design of at least three Coils can better accelerate the conveyor element, So a better capacity of the pump can be achieved.

According to one preferred embodiment is the conveying element as a ball, in particular as a stainless steel ball executed. Most preferably, the conveying element has a cylindrical shape on and is z. B. designed as a bolt. Since the conveying element preferably flush against the channel to a corresponding To achieve sealing between the conveyor element and the channel, is by the spherical or circular cylindrical design the conveying element has a circular inner diameter given the channel.

Particularly preferably, the valve unit is configured with at least one inlet valve and at least one outlet valve. It is further preferred that at least one inlet valve and / or at least one outlet valve are designed as a valve train. Through the use of standardized valves results in a special simple and inexpensive production.

The The invention further relates to a method for conveying a Fluid. A pump is provided, the pump having a Having at least one coil wound channel. In the channel is a conveying element with ferromagnetic properties exhibiting material arranged. The coil comes with an electric Power controlled to the means of the conveying element, the fluid over a suck in the first valve unit and at the same time via a promote second valve unit. The coil comes with a inverted electric current driven to by means of the conveying element aspirate the fluid through the second valve unit and simultaneously via the first valve unit to promote. A continuous delivery of the fluid can be achieved be that alternating the coil with an electric current is driven and is driven by an inverted electric current. By the method it is possible any fluid to promote. Furthermore, the invention is characterized Process by a high efficiency in conveying the fluid out.

Especially at least one after the first coil is preferred in succession further, adjacent coil driven by electric current. there is always driven only one coil with electric current and / or always only one coil and another, adjacent coil with electrical Current activated. By driving with an electric Electricity creates a magnetic field, which is the conveying element accelerated in the direction of the coil center. Preferably, the Electric power, just before the conveyor element, the coil center achieved, 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 then the other, adjacent coil with the electric current driven. This further, adjacent coil generates a magnetic field and thereby attracts the conveying element. The electric current to generate the magnetic field is shortly before reaching the coil center switched off to a braking effect of the magnetic field to avoid the conveyor element. By using a The conveyor element made of magnetic material can this before be described effect amplified. With ongoing Sequential control of the successively mounted coil with the electric current, the process is repeated, so that itself an ongoing promotion of the channel located fluid stops. By varying the speed the sequential drive with the electric current vary the speed of the conveyor element and thus the flow rate the pump. This applies both when driving with the electric Current as well as when driven with the inverted electrical Electricity.

In a further preferred embodiment of the invention Several coils are provided in series, with one to one end the row arranged last coil is provided. The last coil will be longer energized with electricity than the at least another coil arranged in the row. In that the last one Coil is driven longer with electric current is braked the conveyor element. After the last coil with the current is driven, the current is inverted. This changes the field direction of the magnetic field and the magnetic field pulls the conveyor element in the opposite direction. As previously stated, the process of control is repeated the coils with electric current. Thus, a continuous Movement of the conveyor element in the one and then in the other direction.

In a further preferred embodiment of the invention the control of the coils is carried out with electric current Pulse width modulation. By specifiable, different length and off times of the power supply, controlled by pulse width modulation, The coils are driven by electric current. The inputs and Off times are especially in terms of speed of the conveying element or in dependence of the delivery rate adaptable to the pump. For example, it may be due to larger Delivery height with otherwise normal delivery rate be a part of the company, a longer control with electric Electricity or a control with a higher electrical Provide electricity. In particular, it can also be provided that the Control via an electrical or microprocessor-controlled Control unit can be done. This can ensure that the control of the coils with electric current as possible exactly, so that the performance of the pump, especially the Delivery of the pump, is precisely adjustable.

following the invention with reference to the accompanying drawings based on a preferred embodiment closer explained.

It demonstrate:

1 : A schematic cross-sectional view of a pump according to the invention in a first view and

2 : A schematic cross-sectional view of the pump according to the invention in a second view.

From the 1 is a schematic cross sectional view of a pump 11 according to a preferred embodiment of the invention can be seen. This pump 11 serves to convey a fluid, such as. As water, and has a channel 1 with a first opening 2 and a second opening 3 on. According to the preferred embodiment of the invention described herein, the channel is 1 with three coils 4 . 5 . 6 wrapped. The first opening 2 is a first valve unit 17 associated with a first inlet valve 7 and a first exhaust valve 8th having. The second opening 3 of the canal 1 is a second valve unit 18 associated with a second inlet valve 9 and a second exhaust valve 10 having. In the channel 1 is one between the first opening 2 and the second opening 3 movable conveyor element 12 provided ferromagnetic material having material. The conveying element 12 can be designed as a sphere, in particular as a stainless steel ball. The diameter of the ball corresponds to the inner diameter of the channel 1 such that the ball is flush with the channel 1 is present, but free within the channel 1 can move. The diameter of the first opening is preferred 2 and the diameter of the second opening 3 smaller than the inside diameter of the channel 1 so that the conveying element 12 not from the channel 1 can escape.

To initiate a pumping process is a coil 4 . 5 . 6 supplied with an electric current. As a result, a magnetic field builds up, which the conveying element 12 accelerated in the direction of the coil center. Just before the conveyor element 12 reaches the coil center, the electric current to build up the magnetic field is switched off again to a braking effect of the magnetic field on the conveyor element 12 to avoid. Due to the acceleration promotes the conveyor element 12 that in the canal 1 located fluid via the first outlet valve 8th to an outlet 14 the pump 11 ,

In the present embodiment illustrated in accordance with 1 There is an electric current on the coil 5 at. The conveying element 12 This will move towards the coil center of the coil 5 accelerated. The conveying element 12 moves in the direction of an arrow 13 on the first opening 2 of the canal 1 to. By the movement of the conveyor element 12 further fluid flows through the second inlet valve 9 in the channel 1 after, while the second exhaust valve 10 closed is. At the same time promotes the conveyor element 12 in the canal 1 fluid located through the first outlet valve 8th while the first intake valve 7 closed is. That from the first exhaust valve 8th outflowing fluid flows through the outlet 14 the pump 11 from. At the same time, further fluid flows through the inlet 15 the pump 11 according to which, in the presently illustrated embodiment, via the second inlet valve 9 in the channel 1 flows.

Out 2 a pumping process can be seen, in which the conveying element 12 in the one compared to the one 1 Pumping shown in the opposite direction along an arrow 16 emotional. The sink 5 is driven by an electric current, so that the conveying element 12 in the direction 16 the coil center of the coil 5 is accelerated. The conveying element promotes 12 in the canal 1 located fluid passing through the first inlet valve 7 in the channel 1 nachströmt. At the same time promotes the conveyor element 12 Fluid, which from the second outlet valve 10 flows. The second inlet valve 9 as well as the first exhaust valve 8th are closed.

1

channel

2

First opening

3

Second opening

4

Kitchen sink

5

Kitchen sink

6

Kitchen sink

7

first intake valve

8th

first outlet valve

9

second intake valve

10

second outlet valve

11

pump

12

impeller

13

arrow

14

outlet

15

inlet

16

arrow

17

First valve unit

18

Second valve unit

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 [0002]

Claims (9)

Pump for conveying a fluid, comprising a channel ( 1 ) with a first opening ( 2 ) and a second opening ( 3 ), where the channel ( 1 ) on an outside with a coil ( 4 . 5 . 6 ), one of the first opening ( 2 ) associated first valve unit ( 17 ) for introducing the fluid into the channel ( 1 ) and / or for discharging the fluid from the channel ( 1 ), one of the second opening ( 3 ) associated second valve unit ( 18 ) for introducing the fluid into the channel ( 1 ) and / or for discharging the fluid from the channel ( 1 ), where in the channel ( 1 ) between the first opening ( 2 ) and the second opening ( 3 ) movable conveying element ( 12 ) is provided from ferromagnetic properties having material. Motor vehicle pump according to claim 1, characterized in that the conveying element ( 12 ) contactless in the channel ( 1 ) is movable. Motor vehicle pump according to claim 1 or 2, characterized in that on the outside of the channel ( 1 ) a plurality of coils ( 4 . 5 . 6 ), wherein preferably at least three coils ( 4 . 5 . 6 ) are provided. Motor vehicle pump according to one of claims 1 to 3, characterized in that the conveying element ( 12 ) is designed as a ball, in particular as a stainless steel ball. Motor vehicle pump according to one of claims 1 to 4, characterized in that the valve unit ( 17 . 18 ) with at least one inlet valve ( 7 . 9 ) and with at least one outlet valve ( 8th . 10 ) is configured. Method of conveying a fluid comprising the steps of: providing a pump ( 11 ), in particular according to one of claims 1 to 5, wherein the pump ( 11 ) one with at least one coil ( 4 . 5 . 6 ) wrapped channel ( 1 ), in which a conveying element ( 12 ) is arranged with ferromagnetic properties material, driving the coil ( 4 . 5 . 6 ) with an electric current in order, by means of the conveying element ( 12 ) the fluid via a first valve unit ( 17 ) and simultaneously via a second valve unit ( 18 ), driving the coil ( 4 . 5 . 6 ) with an inverted electrical current to 12 ) the fluid via the second valve unit ( 18 ) and simultaneously via the first valve unit ( 17 ) to promote. Method according to claim 6, wherein after a first coil ( 4 . 5 . 6 ) successively at least one further, adjacent coil ( 4 . 5 . 6 ) is controlled with electric current, such that only one coil ( 4 . 5 . 6 ) is driven with electric current and / or always only one coil ( 4 . 5 . 6 ) and another, adjacent coil ( 4 . 5 . 6 ) is driven by electric current. Method according to claim 6 or 7, wherein a plurality of coils ( 4 . 5 . 6 ) are provided in series, with a last coil arranged at one end of the row ( 4 . 6 ), the last coil ( 4 . 6 ) is driven by electric current for a longer time than the at least one other coil arranged in the row ( 5 ). Method according to one of claims 6 to 8, characterized in that the control of the coils ( 4 . 5 . 6 ) with electric current via pulse width modulation.