DE202015104233U1 - Housing for a current sensor - Google Patents

Abstract

Housing for a current sensor having a circumferential outer wall (1), and further comprising a circumferential inner wall (2) arranged therein, through which an inner passage opening (7) is formed, wherein the outer wall (1) with the inner wall (2) via a rear wall (2). 6), characterized in that within the housing (10) has two spacers (4, 4 ') for positioning of two magnetic cores (8, 8') is arranged.

Description

The invention is based on a current sensor housing according to the preamble of the independent claim 1.

Such current sensor housings are required to accommodate at least one magnetic core and at least one Hall element in order, for example, to measure an electric current in a so-called "open loop" arrangement.

State of the art

The publication EP 1 965 217 B2 shows such an open loop arrangement with a nearly closed magnetic core in a housing. A current flow through the central opening causes a magnetic flux passing through the magnetic core. The almost closed magnetic core has a gap in which such a magnetic field stands. A Hall sensor arranged in the gap measures this magnetic field and thereby indirectly also the flow of current through the central opening.

The publication DE 10 2005 018 357 A1 discloses an electrical current sensor comprising a core having a ring shape. Further, the current sensor includes a plurality of core pieces which are layered and integrated to provide the core, a magnetic gap disposed on a predetermined portion of the core, a Hall element disposed in the magnetic gap, a housing for housing the core and the Hall element and an encapsulation member for encapsulating the core and the Hall element in the housing. Each core part has a shape of a thin plate, and the core includes a deformation preventing means for preventing deformation of the magnetic gap.

The publication DE 196 06 445 A1 shows another open loop arrangement with two U-shaped magnetic cores arranged in opposite directions and between which two gaps are formed, wherein in each of the two columns, a measuring coil for measuring the magnetic field is arranged. By an appropriate circuit, the induced voltages of the measuring coils add. This has the advantage, on the one hand, that saturation is avoided and, on the other hand, the influence of external magnetic fields is reduced to a minimum.

The problem with the latter prior art that the two U-shaped magnetic cores must be arranged and fixed at an exact distance from each other, which is very expensive in practice. This exact distance is necessary because the distance existing between the magnetic core ends in each case forms the gap width and therefore must be as accurately as possible and may vary as little as possible during operation at high currents and correspondingly large magnetic fields and thermal loads, so that the measurement is not distorted. In particular, it requires in practice complex techniques and tools to position and fix the two magnetic cores exactly in a suitable position in the housing.

task

The object of the invention is to reduce the effort that is necessary to attach the ends of two, in particular substantially U-shaped magnetic cores for producing a current sensor at a defined distance from each other.

The object is solved by the characterizing features of independent claim 1.

Advantageous embodiments of the invention are specified in the subclaims.

A housing for a current sensor has a circumferential outer wall, and a circumferential inner wall disposed therein, through which an inner passage opening is formed. The outer wall is connected to the inner wall via a rear wall. In particular, both the circumferential outer and the inner wall may have a rectangular cross-section. Then, each side of the inner wall may be parallel to at least one side of the outer wall.

In an alternative possible embodiment, the cross-sectional profile may have a substantially round shape.

Preferably, the inner wall is substantially, i. For example, apart from possibly rounded corners, at any point the same distance from the outer wall.

According to the invention, two spacers for positioning two magnetic cores are arranged in the housing. This is particularly advantageous because it significantly simplifies the workload of the exact positioning of the magnetic cores to each other.

In particular, the spacers are integrally formed on the housing. This is of particular advantage, because in this way in the manufacture of the housing, for example by injection molding, by so-called "inserts" into the tool, i. e.g. the injection mold, incorporated and thus can be made with very little effort.

Preferably, the outer and the inner wall are designed mirror-symmetrically and thus have at least a first common Symmetrieebene on, which is also referred to below as the vertical plane of symmetry. In particular, they furthermore also have a second plane of symmetry, which is arranged at right angles to the first plane of symmetry and is accordingly also referred to as a horizontal plane of symmetry.

In particular, the spacers are formed opposite each other on an inner side of the inner wall. Opposing one another in this case means that they are arranged, if appropriate, symmetrically with respect to the second plane of symmetry.

In particular, the first plane of symmetry can run through the two spacers or, if each spacer is formed from two webs, these two webs can each be arranged symmetrically to the first mirror plane. This has the advantage that two uniform magnetic cores, as they are commonly used in practice, are positionable by the spacers.

Furthermore, it is particularly advantageous if housing has the housing pressure elements for non-positive attachment of the magnetic cores to the spacer elements, wherein the pressure elements are preferably formed respectively on an inner side of the outer wall. In particular, the pressure elements can be arranged opposite one another, that is to say optionally symmetrically with respect to the first mirror plane, on the inner side of the outer wall.

In particular, the pressure elements are triangular or obliquely formed or trapezoidal webs. These can also be produced, for example, in the injection molding process by the corresponding injection molding tool.

During the later insertion of the magnetic cores, the magnetic cores are moved by the pressure elements against the spacers, so that the ends of the magnetic cores are positively connected in the installed state with the spacers.

It is thus particularly advantageous that a gap fixation is ensured with a very simplified assembly.

embodiment

An embodiment of the invention is illustrated in the drawings and will be explained in more detail below. Show it:

1a an oblique view of a housing according to the invention;

1b a front view of the housing according to the invention;

2 , a, b, c show various embodiments of a pressure element;

3a the housing in the oblique view with two magnetic cores to be inserted;

3b the housing in the front view with the two inserted magnetic cores and two Hall elements.

The figures contain partially simplified, schematic representations. In part, identical reference numerals are used for the same but possibly not identical elements. Different views of the same elements could be scaled differently.

The 1a and 1b show an inventive housing 10 in an oblique view or in a frontal view.

The housing 10 has a circumferential outer wall 1 comprising four outer side parts, namely a first outer side part 11 , a second outer side panel 12 , a third outer side panel 13 and a fourth outer side part 14 ,

Furthermore, the housing has 10 a passage opening 7 with a circumferential inner wall 2 , comprising four inner side parts, namely a first inner side part 21 , a second inner side part 22 , a third inner side part 23 and a fourth inner side part 24 , Thus, in other words, by the circumferential inner wall 2 the passage opening 7 educated.

Of course, has the housing 10 both on the outside wall 1 as well as the inner wall 2 in each case an unspecified outer and an inner side, wherein the inner side respectively denotes that side which is directed into the housing interior

Furthermore, the housing has 10 a back wall 6 which the outer wall 1 with the inner wall 2 combines.

Like in the 1b is shown, own the outer wall 1 , the inner wall 2 and the back wall 6 two common planes of symmetry, namely a first plane of symmetry S1 and a second plane of symmetry S2.

The first plane of symmetry S1 is also referred to below as the vertical plane of symmetry S1. The second symmetry plane S2 is in Also referred to below as horizontal symmetry plane S2.

The vertical plane of symmetry S1 runs parallel to the first outer side part 11 , to the first inner side part 21 , to the third outer side part 13 and to the third inner side part 23 and cuts the second outer side part 12 , the second inner side part 22 , the fourth outer side part 14 and the fourth inner side part 24 each in the middle.

The horizontal plane of symmetry S2 runs parallel to the second outer side part 12 , to the second inner side part 22 , to the fourth outer side part 14 and to the fourth inner side part 24 and cuts the first outer side part 11 , the first inner side part 21 , the third outer side part 13 and the third inner side part 23 each in the middle.

The housing 10 owns on the inside of its second 22 and fourth 24 inner side part two spacers 4 . 4' through which the vertical plane of symmetry S1 passes. The two spacers 4 . 4' are in the present case in each case by two webs 41 . 42 ; 41' . 42' educated. As a result, these two webs 41 . 42 ; 41' . 42' each arranged symmetrically to the vertical plane of symmetry S1. In another embodiment, the spacers could also each be a correspondingly wide web, through which the vertical plane of symmetry S1 runs in the middle.

The housing 10 owns on the inside of its first 11 and third 13 outer side part in each case a pressure element 5 . 5 ' , The pressure elements are opposite each other, ie they are arranged symmetrically to the vertical plane of symmetry. The horizontal plane of symmetry S2 passes through these two pressure elements 5 . 5 ' ,

In a further embodiment could also on the first 11 and third 13 outer side part a plurality of pressure elements 5 . 5 ' be provided, which are then arranged symmetrically to the horizontal plane of symmetry S2.

The 2a . 2 B and 2c show possible embodiments of such pressure elements 5 . 5 ' in a top view.

The 2a shows a trapezoidal pressure element 5'' , which is characterized by special stability. Such a pressure element can be made particularly advantageous in the injection molding process by appropriate inserts in the mold together with the other housing.

The 2 B shows a triangular pressure element 5''' , which also together with the entire housing 10 Particularly advantageous in the injection molding process can be produced by appropriate inserts in the mold, and which is suitable for particularly tight housing forms.

The 2c shows an angle in the housing 10 insertable or shapeable web-like pressure element 5'''' , which has the advantage that in its use compared to the aforementioned embodiments, the material savings is particularly high.

All these pressure elements 5 . 5 ' . 5'' , ''', 5'''' is common that they each have an oblique pressure edge 51'' . 51''' . 51'''' which is suitable, two U-shaped magnetic cores 8th . 8th namely, a first magnetic core 8th and a second magnetic core 8th , which are inserted in each half of the housing, automatically press in the direction of the other half of the housing so that the ends 81 . 81' . 82 . 82' the magnetic cores of two opposite directions against the spacers 4 . 4' be pressed.

So in this way, as in 3a is shown, in each half of the housing, such a U-shaped magnetic core 8th . 8th , inserted, so these two magnetic cores 8th . 8th , as in 3b is particularly easy to see, by the pressure elements 5 . 5 ' with their ends 81 . 82 . 81' 82' towards each other and against the spacers 4 . 4' pressed. So originates by the spacers 4 . 4' between the ends 81 . 82 . 81' . 82' the two magnetic cores 8th . 8th one gap each 83 . 83' with one through the spacers 4 . 4' exactly defined gap width B.

To illustrate this effect is the through the first pressure element 5 at the first core 8th acting force F ₁ and by the second pressure element 5 ' on the second magnetic core 8th acting force F ₂ shown. In this case, the first force F ₁ divides into the first two partial forces F ₁ 'and F ₁ ''. Likewise, the second force F _{2 is distributed} to the second two partial forces F ₂ 'and F ₂ ''. For reasons of symmetry, the first two partial forces F ₁ ', F ₁ ''are the same size. Likewise, the second two partial forces F ₂ ', F ₂ ''are the same size. For this it makes sense that the pressure elements 5 . 5 ' are arranged on the horizontal plane of symmetry S2.

Furthermore, to produce the current sensor in each gap, a Hall element 9 with the corresponding connections 91 . 91' inserted. In the version shown are the connectors 91 . 91' symbolically out of the case 10 led out. Usually, the Hall element 9 however connected to an internal circuit board not shown in the drawing.

The housing 10 can then together with the inserted magnetic cores 8th . 8th and the hall elements 9 . 9 ' as well as the printed circuit board, not shown a potting compound to protect against moisture, pollution and mechanical damage are cast.

LIST OF REFERENCE NUMBERS

10

casing

1

 circumferential outer wall

11, 12, 13, 14

 outer side panels

2

 circumferential inner wall

21, 22, 23, 24

 inner side parts

4, 4'

 spacer

41, 42, 41', 42'

 Webs of spacers

5, 5', 5'', 5''', 5''''

 pressure elements

51'', 51''', 51''''

 oblique pressure edges

6

 rear wall

7

Through opening

8, 8 '

 U-shaped magnetic cores

81, 82, 81 ', 82'

 Ends of the magnetic cores

83, 83 '

 Gap between the ends of the magnetic cores

9, 9'

 Hall elements

91, 91 '

 Connections of the Hall elements

S1

 first / vertical plane of symmetry

S2

 second / horizontal plane of symmetry

B

 gap width

F _1, F _2, F ₁ ', F _2', F _1'', F _2''

 personnel

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1965217 B2 [0003]
• DE 102005018357 A1 [0004]
• DE 19606445 A1 [0005]

Claims (12)

Housing for a current sensor with a peripheral outer wall ( 1 ), and further comprising a circumferential inner wall ( 2 ) through which an internal passage opening ( 7 ), wherein the outer wall ( 1 ) with the inner wall ( 2 ) over a back wall ( 6 ), characterized in that inside the housing ( 10 ) two spacers ( 4 . 4' ) for positioning two magnetic cores ( 8th . 8th ) is arranged. Housing according to claim 1, characterized in that the spacers ( 4 . 4' ) to the housing ( 10 ) are formed. Housing according to claim 2, characterized in that the spacers ( 4 . 4' ) opposite each other to an inner side of the inner wall ( 2 ) are formed. Housing according to one of the preceding claims, characterized in that the outer ( 1 ) and the inner wall ( 2 ) are each designed mirror-symmetrically and have a first common plane of symmetry (S1). Housing according to claim 4, characterized in that the first plane of symmetry ( 1 ) through the two spacers ( 4 . 4' ) runs. Housing according to one of claims 4 to 5, characterized in that each of the two spacers ( 4 . 4' ) by two parallel webs ( 41 . 42 . 41' . 42' ) is formed, which are arranged symmetrically to the first plane of symmetry (S1). Housing according to one of claims 4 to 6, characterized in that the outer ( 1 ) and the inner wall ( 2 ) additionally have a second common plane of symmetry (S2) aligned at right angles to the first plane of symmetry (S1). Housing according to claim 7, characterized in that the housing ( 10 ) Pressure elements ( 5 . 5 ' ) for non-positive attachment of the magnetic cores ( 8th . 8th ) to the spacers ( 4 . 4' ) having. Housing according to claim 8, characterized in that the pressure elements ( 5 . 5 ' ) each on an inner side of two opposite outer side parts ( 11 . 13 ) of the circumferential outer wall ( 1 ) are formed. Housing according to claim 9, characterized in that the pressure elements ( 5 . 5 ' ) are arranged opposite one another on the second plane of symmetry (S2). Housing according to one of claims 9 to 10, characterized in that each of the two pressure elements ( 5 . 5 ' . 5'' . 5''' . 5'''' ) is triangular or trapezoidal or at least formed by an obliquely oriented web, so that each pressure element ( 5 . 5 ' . 5'' . 5''' . 5'''' ) an oblique pressure edge ( 51'' . 51''' . 51'''' ) owns. Housing according to claim 11, characterized in that on the insides of each of said two outer side parts ( 11 . 13 ) each have a plurality of pressure elements ( 5 . 5 ' ) are arranged symmetrically to the second plane of symmetry (S2).

Images