CN203587774U

CN203587774U - Battery sensor and assembly used for manufacturing battery sensor

Info

Publication number: CN203587774U
Application number: CN201320600041.5U
Authority: CN
Inventors: K·齐默尔曼; M·翁特哈尔特
Original assignee: Hella KGaA Huek and Co
Current assignee: Hella GmbH and Co KGaA
Priority date: 2013-06-06
Filing date: 2013-09-27
Publication date: 2014-05-07
Anticipated expiration: 2023-09-27
Also published as: JP3193376U; KR20140006274U; DE202013005113U1

Abstract

The utility model relates to a battery sensor and an assembly used for manufacturing the battery sensor. The battery sensor comprises a housing, an electronic measuring device, a first connection element and a second connection element, wherein the housing is internally provided with a resistor element, the resistor element comprises a first contact area and a second contact area, the first contact area and the second contact area extend out of the housing respectively, the electronic measuring device is arranged in the housing, the first connection element is used for being electrically connected to the electronic measuring device, and the second connection element is used for connecting the battery sensor to a battery electrode. The second connection element is provided with a first connection area for being connected to the battery electrode and a second connection area for connecting to the first contact area, and the second contact area is provided with a third connection element used for connecting an electrical connection wire. The battery sensor and the assembly used for manufacturing the battery sensor provided by the utility model are simple in structure and can be used flexibly.

Description

Battery sensor and for the manufacture of the assembly of battery sensor

Technical field

The utility model relates to a kind of battery sensor, particularly a kind of battery sensor of multiple elements with common formation battery sensor.

Background technology

Battery is more and more important in automobile, particularly owing to reclaiming for energy and/or as the growing application of running driving device electric machinery.This in battery for Charge Management importantly, can measure charged state and/or charging current and/or discharge current or cell voltage.

For this reason, use battery sensor, it expends and is incorporated in battery.This causes shortcoming, because battery sensor must expend the situation that is adapted to respective battery, and cell geometry and the geometric configuration of the electronic installation of for example battery or other member.

Utility model content

The purpose of this utility model is, a kind of battery sensor and a kind of assembly for the manufacture of battery sensor are provided, and it forms simply and can use neatly.

About battery sensor, utilize battery sensor described below to reach this object.

An embodiment of the present utility model relates to a kind of battery sensor, and described battery sensor comprises:

-mono-housing,

-the resistive element that arranges in described housing, described resistive element comprises the first contact area and the second contact area, described the first contact area and the second contact area stretch out in respectively described housing,

-measurement the electronic installation that arranges in described housing,

-in order to electrically connect at the first Connection Element of measuring on electronic installation,

-in order to described battery sensor is attached to the second Connection Element of a battery electrode,

Wherein, the second Connection Element is provided with to be connected in the first join domain of a battery electrode and in order to be connected in the second join domain of the first contact area, and the second contact area is provided with to connect the 3rd Connection Element of electric connection line.Realize thus, battery sensor can be attached directly to battery electrode and realize a simple and configuration flexibly by the configuration of battery sensor.

At this particularly advantageously, housing, measure electronic installation, the first Connection Element, the second Connection Element, the 3rd Connection Element and/or resistive element and can from a predetermined assembly, select.Simultaneously can advantageously with different forms of implementation, mutually combine each corresponding parts, to realize a battery sensor that meets each corresponding requirement.

At this particularly advantageously, between the first contact area of resistive element and the second contact area, set a definite resistance.This resistance this can be by resistive element a definite size in the region between each contact area form as length and xsect.

Also meet object, measure the electric current that electronic installation is surveyed predetermined ohmically voltage drop, passed through predetermined resistance, its corresponding time-derivative and/or its corresponding time change.Also meet object, measure electronic installation evaluation Example as the temperature on battery electrode jaw.Correspondingly, can form like this measurement electronic installation, it can monitor and export relevant measured value.

At this, meet object, the first join domain of the second Connection Element is configured to annular clamp device.For example circular, conical or columniform battery electrode can be held and is clamped in the opening of ring-type element of clamp device like this.Realize thus reliable and lasting electrical connection.

Also advantageously, the second Connection Element has plate shaped element part, and this plate shaped element part stretches out from annular clamp device.Thus can realization and favourable reclining and be connected of housing and resistive element.

At this, particularly advantageously, plate shaped element part forms the second join domain, and described the second join domain setting is in order to be connected in the first contact area of resistive element.

At this, meet object, plate shaped element part also has to remain on the device on housing.This model shaped element part can not only be connected in resistive element and for example contact with resistive element, and is connected in housing reliably.The reliable configuration that battery sensor can be provided thus, is wherein arranged on sensor element in one housing and by the connection part on an electrode of battery and is fixedly connected on housing.

At this, meet especially object, for the device keeping, be configured to teat as an outstanding flange, described flange embeds in the accommodation section of housing to realize the connection that shape is sealed.At this, another protuberance also can be set, its after device injects in accommodation section screens in another accommodation section, to realize an anti-lost safety feature.

Also meet object, the 3rd Connection Element is configured to screwing element, riveted joint element, the element, cable joint that for connector, connect, for pushing the element of connection and/or the element being welded to connect for electric connection line.

Meet especially object, that the second contact area and the 3rd Connection Element are configured to single type or be connected with the 3rd Connection Element, as sealed in shape or material is connected in locking manner, as melting welding or soldering.Realize thus a good and reliable electric and mechanical connection.

Also meet object, that the second join domain and the first contact area are configured to single type or be connected with the first contact area, as sealed in shape or material is connected in locking manner, as melting welding or soldering.

Particularly advantageously, annular clamp device forms a unlimited ring-type element, described ring-type element with a screw device in order to a connection element is clamped in ring-type element as a battery electrode.By can advantageously harmonize clamping degree and can easily again unclamp clamping of screw device, thereby be convenient to assembling.

About assembly, utilize assembly described below to reach this object.

An embodiment of the present utility model relates to a kind of assembly for the manufacture of battery sensor, and described assembly comprises:

-mono-housing,

-the resistive element that arranges in described housing, described resistive element comprises the first contact area and the second contact area, described the first contact area and the second contact area stretch out from housing respectively,

-measurement the electronic installation that arranges in described housing,

Wherein, described the second Connection Element is provided with to be connected in the first join domain of a battery electrode and in order to be connected in the second join domain of the first contact area, and the second contact area is provided with to connect the 3rd Connection Element of electric connection line,

Its middle shell, measurement electronic installation, the first Connection Element, the second Connection Element and/or resistive element can be selected from assembly.

Other favourable form of implementation is described and describes by each side by the following drawings.

Accompanying drawing explanation

On the basis of at least one embodiment, by accompanying drawing, illustrate in greater detail the utility model below.Wherein:

Fig. 1 illustrates the 3-D view of one first embodiment of a battery sensor,

Fig. 2 illustrates the 3-D view of one second embodiment of a battery sensor,

Fig. 3 illustrates the 3-D view of one the 3rd embodiment of a battery sensor,

Fig. 4 illustrates the 3-D view of one the 4th embodiment of a battery sensor,

Fig. 5 illustrates the 3-D view of one the 5th embodiment of a battery sensor,

Fig. 6 illustrates the 3-D view of one the 6th embodiment of a battery sensor.

Fig. 1 to 6 illustrates respectively battery sensor, and its each element can be combined by the assembly of multiple elements, to meet the corresponding requirement to battery sensor.

Embodiment

At this, particularly can from assembly, take out and can mutually combine at least one in following elements:

-mono-housing,

-resistive element, this resistive element comprises one first contact area and one second contact area,

-special measurement the electronic installation arranging in housing,

-in order to be electrically coupled to the first Connection Element of measuring electronic installation,

-in order to described battery sensor is connected or to be electrically connected to the second Connection Element of a battery electrode.

Fig. 1 illustrates that one comprises the battery sensor 1 of a housing 2, and a resistive element 3 is set in this housing.At this, resistive element 3 is set like this, makes resistive element pass that housing 2 stretches out and stretch out in respectively housing 2 with one first contact area 4 with one second contact area 5.Two contact areas 4,5 at this resistive element 3 stretch out in housing opposed to each other.At this advantageously, housing has two openings, and these two openings are opposed especially, and resistive element 3 stretches out through described opening with its contact area 4,5.Contact area 4,5 is configured to the opposed end regions of resistive element 3 at this.

Housing 2 is advantageously configured to plastic casing, and described plastic casing holds resistive element 3, and this resistive element crosses housing 2.One measurement electronic installation 6 is also set in housing in order to control measurement resistance.At this, can advantageously measure time variation, temperature and/or the voltage of electric current, voltage, voltage drop, electric current.By these, measure the charged state that also can reason out battery.

One first Connection Element 7 is also set in housing 2, and this first Connection Element is being measured electrically connecting of electrical connection on electronic installation 6 for one.For example can be using the first Connection Element 7 as a plug connector elements setting at this, it can match as cable with another plug connector elements of electrical connection.

Housing 2 can be configured to one and have the housing of a lid 8 to be opened, thereby measure electronic installation 6, when lid 8 is opened, can insert in housing.As selection, measure electronic installation and/or resistive element and can insert and/or can inject housing.

In addition, battery sensor 1 has one second Connection Element 9, and this second Connection Element is for being connected to battery sensor 1 a unshowned battery electrode of battery.At this, form like this second Connection Element 9, be about to its formation have one in order to the first join domain 10 and of being connected in a battery electrode in order to be connected in the second join domain 11 of the first contact area 4.

The first join domain 10 is configured to annular clamp device as the pattern of a circlip or battery electrode jaw, it comprises two roughly semicircular ring-

type elements

12,13, they can be assembled with screw element 15 and nut 16 by means of being threaded, to clamp a battery electrode being contained in annular opening 17.At this, the axis with respect to the join domain that is configured to cylindrical circlip becomes the angle of approximately 45 ° to screw element 15.

The second Connection Element 9 also has the plate shaped element part 18 of a general plane, in the plane of this plate shaped element part in an axis perpendicular to circlip, and stretches out from annular clamp device.

At this plate shaped element part 18, form one first flange 19, this first flange electricity be mechanically connected, for example soldering or melting welding is in the first contact area.

Plate shaped element part 18 also forms one second flange 20, and this second flange is roughly opposite to the first flange 19 and embeds in an accommodation section 21 of housing, to be used as in order to the second Connection Element is remained on to the device on housing 2.The pattern that is openings in this accommodation section 21, its along continuous straight runs is formed on the upside of housing 2.Flange 20 passes accommodation section 21 in a plane of plate shaped element part 18 at this.

Plate shaped element part 18 has one first pressing part 22, and it roughly forms reinforcing portion hook-type and that be used as plate shaped element part 18.Plane at these pressing part 22 preferred slave plate shaped element parts protrudes upward.Another pressing part 23 is also set, and its slave plate shaped element part 18 stretches out downwards.When flange 20 injects in accommodation section 21, this pressing part 23 can embed in a groove of housing upside, thereby produces interlocking pattern or the sealed connection of shape.

In addition resistive element 3 has a coupling arrangement 24 as the 3rd join domain on its second contact area 5, and it arranges in order to resistive element is connected in to the connecting line of a unshowned electricity.At this coupling arrangement 24, be configured in the embodiment in figure 1 riveted joint element.One formation as screwing element is also possible.Riveted joint element is used in particular for connecting the cable of a power supply for onboard power system.

Resistive element 3 is preferably configured to copper shunt at this, and it is preferably configured to the pattern an of Tongliang County.Alternatively, can select another Tongliang County's form of implementation, it does not form single type, and forms the element that comprises one first segmentation Tongliang County, an interlude and one second segmentation Tongliang County.At this, interlude can be for example consists of electric resistance alloy, pottery or the metallic ceramics with a definite resistance.

Can realize being connected between the second join domain 11 and the first contact area 4 by melting welding or soldering.At this, can implement a tool and be with or without the electric resistance welding that is placed in middle scolder band.Alternatively, also can set a laser bonding, an electron beam welding, a resistance welded etc.

The second Connection Element is preferably configured to sheet metal bending part, still adds screw element 15 and nut 16 for this reason.

The second Connection Element 9 be different from the sealed connection of above-mentioned shape being connected of housing also can be by housing be injection-moulded on Connection Element 9 and be realized.Alternatively, also can between Connection Element 9 and housing 2, realize a bonding or riveted joint.

In Fig. 1, along one, the straight line A-A being threaded 14, between transition part and housing 2 realizes in the transition of two ring-

type elements

12,13.

Fig. 2 illustrates one second embodiment of battery sensor 101, wherein form like this second Connection Element 109, along a line B-B who turns over angle (abgewinkelten), being threaded 114, realize between transition part and housing 102, wherein between online A-A and line B-B, there is an angle [alpha] in the i.e. transition of two ring-type elements 112,113.Angle [alpha] is at this in scope between 20 ° and 70 °.

In the embodiment of Fig. 2, also save the reinforcing portion 22 of Fig. 1.This reinforcing portion can or alternatively also can be omitted according to form of implementation and embodiment setting.

Fig. 3 illustrates one the 3rd embodiment of battery sensor 201, wherein, is provided for another fixed form of a stube cable as coupling arrangement 224.In this as coupling arrangement 224, form a cable joint 225 that comprises the contact pin 226 that each approximate horizontal stretches out, it roughly becomes U-shaped outstanding.A cable can be embedded in an approximate vertical direction between each outstanding lug like this, wherein and then can, by each lug distortion, cable is fixed between each lug 226.

At this, advantageously, cable joint 225 welds with resistive element 203.Alternatively, cable joint also can form single type.

Fig. 4 illustrates another the 4th embodiment according to battery sensor of the present utility model, and wherein, the second Connection Element is not configured to the sheet metal bending part by Fig. 1, and is configured to forging or foundry goods.Also the axis that is parallel to annular opening 317 at this arranges screw element 315.Alternatively, screw element also can be with 90 ° of axis that favour annular opening 317.

Can as in Fig. 1, be formed in this embodiment being connected between the second Connection Element 309 and housing, that is form and have a flange 20, this flange embeds in accommodation section 21.Alternatively, plate shaped element part or the second Connection Element also can be riveted with housing.

Fig. 5 illustrates one the 5th embodiment of battery sensor 401, wherein, is provided for another fixed form of a stube cable as coupling arrangement 424.In this as coupling arrangement 424, select one to be welded to connect, wherein cable 425 and the second contact area 405 weld.At this, can directly between cable and resistive element, realize welding.

Alternatively, also cable can be twisted and is connected on the second contact area with screw element.

In addition alternatively also a bolt can be pressed into the second contact area, so that the sealed connection cable of shape.

Fig. 6 illustrates one the 6th embodiment of battery sensor 501, wherein, Connection Element 507 be arranged on second contact area 505 the same sides on, that is stretch out on opposed side with the different Connection Elements 507 of embodiment in Fig. 1.The orientation of Connection Element 507 can be to the right, realize left or to the prolongation of the axis A-A of forward position Fig. 2.In the orientation to the right of pressing Fig. 1 and by the orientation left of Fig. 6, orientation is parallel to resistive element location all the time.

In Fig. 1 to 3 and 5,6 embodiment, each screw element 15 tilts with respect to the axis of opening 17 respectively, and wherein in Fig. 4, the location of screw element 315 is parallel to the axis setting of opening 317.According to the utility model, degree of tilt is selectable and can is also zero at Fig. 1 to 3 and 5,6 embodiment medium dip degree, thereby screw element is parallel to the axis location of opening.Correspondingly, the screw element 315 of Fig. 4 also can tilt.

Alternatively, replace bolt to connect another kind of clamp system also can be set.

As coupling arrangement, also can select a bolt or a screw element, this bolt or screw element can directly insert in an opening of resistive element or tighten in the screw thread of resistive element.At this bolt, be preferably pressed in opening, at this also referring to Fig. 1,2,4 and 6.Like this, for example a cable is connected in to resistive element with a cable joint pattern.Alternatively, an additional auxiliary element can be welded on resistive element, a cable can be installed again thereon, as by clamping, by welding or by the sealed connection of shape.If desired, the soldering of cable is also possible.

At this, in the various embodiments described above, from a predetermined assembly, select housing, measure electronic installation, the first Connection Element, the second Connection Element, the 3rd Connection Element and/or resistive element, wherein at this, the each corresponding parts of each embodiment can advantageously be combined mutually with different forms of implementation, to realize a battery sensor.

The utility model is not limited to the each embodiment describing or illustrate, and each feature of each embodiment also belongs to the utility model with the combination of the feature of different embodiment.

Reference numerals list

1 battery sensor

2 housings

3 resistive elements

4 first contact areas

5 second contact areas

6 measure electronic installation

7 Connection Elements

8 lids

9 second Connection Elements

10 first join domains

11 second join domains

12 ring-type elements

13 ring-type elements

14 bolts connect

15 screw elements

16 nuts

17 annular openings

18 plate shaped element parts

19 first flanges

20 second flanges

21 accommodation sections

22 pressing parts

23 pressing parts

24 coupling arrangements

101 battery sensors

102 housings

109 second Connection Elements

112 ring-type elements

113 ring-type elements

114 bolts connect

201 battery sensors

203 resistive elements

224 coupling arrangements

225 cable joints

226 contact pin

301 battery sensors

309 second Connection Elements

315 screw elements

317 annular openings

401 battery sensors

405 second contact areas

424 coupling arrangements

425 cables

501 battery sensors

505 second contact areas

507 Connection Elements.

Claims

1. battery sensor (1), is characterized in that, described battery sensor comprises:

-mono-housing (2),

The resistive element (3) of-setting in described housing (2), described resistive element comprises the first contact area (4) and the second contact area (5), described the first contact area and the second contact area stretch out from housing (2) respectively,

The measurement electronic installation (6) of-setting in described housing (2),

-in order to electrically connect at the first Connection Element (7) of measuring on electronic installation (6),

-in order to described battery sensor (1) is attached to second Connection Element (9) of a battery electrode,

Wherein, described the second Connection Element (9) is provided with to be connected in first join domain (10) of a battery electrode and in order to be connected in second join domain (11) of the first contact area (4), and the second contact area (5) is provided with to connect the 3rd Connection Element (24) of electric connection line.

2. according to battery sensor claimed in claim 1, it is characterized in that, housing (2), measure electronic installation (6), the first Connection Element (7), the second Connection Element (9), the 3rd Connection Element (24) and/or resistive element (3) and can from a predetermined assembly, select.

3. according to the battery sensor described in claim 1 or 2, it is characterized in that, between first contact area (4) of resistive element (3) and the second contact area (5), set a definite resistance.

4. according to battery sensor claimed in claim 3, it is characterized in that, described measurement electronic installation (6) detecting temperature, the predetermined corresponding time-derivative of ohmically voltage drop, the electric current by predetermined resistance, described voltage drop and electric current and/or the corresponding time of described voltage drop and electric current change.

5. according to the battery sensor described in claim 1 or 2, it is characterized in that, first join domain (10) of described the second Connection Element (9) is configured to annular clamp device.

6. according to battery sensor claimed in claim 5, it is characterized in that, described the second Connection Element (9) has plate shaped element part, and described plate shaped element part stretches out from annular clamp device.

7. according to battery sensor claimed in claim 6, it is characterized in that, plate shaped element part forms the second join domain (11), and described the second join domain setting is in order to be connected in the first contact area.

8. according to the battery sensor described in claim 6 or 7, it is characterized in that, described plate shaped element part also has to remain on the device on housing.

9. according to battery sensor claimed in claim 8, it is characterized in that, describedly in order to the device remaining on housing, be configured to outstanding flange, described flange embeds in the accommodation section of housing to realize the connection that shape is sealed.

10. according to the battery sensor described in claim 1 or 2, it is characterized in that, described the 3rd Connection Element (24) is configured to screwing element, riveted joint element, the element, cable joint that for connector, connect, for pushing the element of connection and/or the element being welded to connect for electric connection line.

11. according to the battery sensor described in claim 1 or 2, it is characterized in that, the second contact area (5) with the 3rd Connection Element (24) form single type or be connected with the 3rd Connection Element.

12. according to the battery sensor described in claim 1 or 2, it is characterized in that, that the second join domain (11) and the first contact area (4) form single type or be connected with the first contact area.

13. according to battery sensor claimed in claim 5, it is characterized in that, described annular clamp device forms has unlimited ring-type element, described ring-type element to be threaded device in order to a connection element is clamped in ring-type element.

14. according to the battery sensor described in claim 11, it is characterized in that, the second contact area (5) or material sealed with the 3rd Connection Element (24) shape is connected in locking manner.

15. according to the battery sensor described in claim 11, it is characterized in that the second contact area (5) and the 3rd Connection Element (24) melting welding or soldering.

16. according to the battery sensor described in claim 12, it is characterized in that, described the second join domain (11) or material sealed with the first contact area (4) shape is connected in locking manner.

17. according to the battery sensor described in claim 12, it is characterized in that, described the second join domain (11) and (4) melting welding of the first contact area or soldering.

18. according to the battery sensor described in claim 13, it is characterized in that, described connection element is battery electrode.

19. assemblies for the manufacture of battery sensor, is characterized in that, described assembly comprises:

-mono-housing,

-the resistive element that arranges in described housing, described resistive element comprises the first contact area and the second contact area, described the first contact area and described the second contact area stretch out from housing respectively,

-measurement the electronic installation that arranges in described housing,

-in order to described battery sensor is connected to the second Connection Element of a battery electrode, wherein, described the second Connection Element is provided with to be connected in the first join domain of a battery electrode and in order to be connected in the second join domain of the first contact area, and the second contact area is provided with to connect the 3rd Connection Element of electric connection line

Wherein, housing, measurement electronic installation, the first Connection Element, the second Connection Element and/or resistive element can be selected from described assembly.