DE102018201438A1 - Flexible cell connector - Google Patents

Abstract

The invention relates to a flexible cell connector (3) for the electrical connection of electrical contact points, in particular of cells (2) of an energy store (1), to each other, with a band-shaped main body (5) having a screw opening (7) on at least one end (6) ) for carrying a shaft (12) of a fastening screw (11). It is provided that the base body (5) has a fabric band (8), and in that at least one end (6) a the fabric band (8) at least circumferentially comprehensive, the screw opening (7) mitbildende contact sleeve (10) is arranged.

Description

The invention relates to a flexible cell connector for the electrical connection of electrical contact points, in particular of cells of an energy storage, with each other, with a band-shaped base body having at least one end a screw hole for passing a shaft of a fastening screw.

Furthermore, the invention relates to a device having at least two electrical units, in particular control unit, energy storage, power cell and / or module for a motor vehicle, each unit each having at least one electrical contact point, and wherein at least two of the contact points by a cell connector, as above described.

Cell connectors of the type mentioned are already known from the prior art. Usually energy storage, in particular high-performance energy storage, consist of a plurality of electrical cells that must be electrically connected to each other. Particularly in motor vehicle construction, in which the requirements of energy storage devices increase due to the increasing electrification of the drive technology, it is desirable to connect as many cells as possible in an energy store for improving the capacity and the maximum achievable electrical voltage. Due to the compact design of the energy storage, which should claim as little space in the motor vehicle for itself, however, it comes to the operation of the energy storage to temperature fluctuations. If the cells were firmly or rigidly connected to each other electrically, these temperature fluctuations could lead to a high load on the connection, which permanently damages them. However, vibrations and impacts that occur during the journey may affect or damage the cell connections. At the same time a high current between the cells can be transmitted through the cell connector, which requires a correspondingly large cross-section of the cell connector. In order to unite these goals, it is known to provide flexible or flexibly deformable cell connectors, each electrically connecting one cell to another cell. The flexibility allows a length expansion or expansion in temperature fluctuations, which does not build up any critical mechanical stresses. In addition, the flexibility allows vibrations and shocks between adjacent cells to be compensated or compensated, and yet a high line cross-section is available.

For this purpose, for example, in the published patent application DE 10 2009 058 723 A1 proposed a cell connector which is flexible deformable both in its longitudinal extent and transversely thereto. For this purpose, the cell connector on a base body, which has a metal strip with a flexible bending portion, which is also formed laminated. The metal strip also has at least one of its ends a screw opening through which serves a fastening screw for fastening the cell connector to a contact point of an energy cell or to a cell contact of the cell. The screw is passed with the screw shaft through the opening and screwed into a mating thread of the contact point, so that it then presses the cell connector against the cell contact with the screw head.

Another cell connector is known from the published patent application EP 2 846 376 A1 known, in which case the sheet metal strip is formed of a plurality of superposed layers of a metallic foil. From the publication DE 10 2012 019 108 A1 Another flexible cell connector is known, which is designed as a composite cell connector. For this purpose, a plurality of strand bundles are superimposed and radially surrounded by a tube or a sheath that holds the strands together. At the end, the strands are connected with connection plates, with the connection plates or caps removed from the strands having a screw opening.

The invention has for its object to provide an improved cell connector, which offers high flexibility in a small space and at the same time provides a high cable cross-section available.

The object underlying the invention is achieved by a cell connector having the features of claim 1. This is characterized in that the base body is formed as an electrically conductive fabric tape, and that at least one end of the fabric tape at least circumferentially comprehensive, the screw opening co-forming contact sleeve is arranged. The contact sleeve is pushed in particular on the end. Due to the fact that the contact sleeve co-forms the screw opening, the screw opening extends through the contact sleeve on the one hand and the fabric band or the main body itself on the other hand. A fastening screw is thus guided through both the contact sleeve and through the fabric band. This ensures that, when the fastening screw is screwed into a mating thread of the contact point, not only the contact sleeve, but also the fabric tape lying in the contact sleeve is pressed. As a result, in the region of the contact sleeve, the electrical contact surface of the individual fibers of the tissue band increases and thus ensures a particularly advantageous power transmission or a favorable line cross section to the contact safely. Through the fabric band of the base body is particularly flexible, especially at the end with the screw hole. By embracing the screw opening with the contact sleeve, which further extends or forms the screw opening, the fabric band is tensioned and deformed during the screwing process, so that the number of contacting contact surfaces in the fabric band and to the contact sleeve is maximized. The contact sleeve offers on the one hand a secure mechanical support of the cell connector to the cell contact and the advantageous electrical performance of the cell connector.

According to a preferred embodiment of the invention, the sleeve is formed as a deformable metal or copper sleeve. This ensures, on the one hand, an advantageous electrical conductivity and, on the other hand, ensures that the tissue band is pressed inside the sleeve. Preferably, the contact sleeve is tinned at least in the region of the screw opening in order to ensure advantageous electrical contacting with low corrosion phenomena.

Furthermore, it is preferably provided that the screw opening has a reinforcing sleeve. The reinforcing sleeve ensures that the screw opening does not change radially as a result of the screwing, and in particular that the fabric strap does not enter the screwing area during screwing. As a result, higher bolting moments in the area of the screw connection can be realized, which could otherwise also lead to damage to the fabric band. The reinforcing sleeve is inserted in particular into the screw opening.

Alternatively, the reinforcing sleeve is preferably held by its plastic deformation on the base body. Thus, the reinforcing sleeve is attached by a subsequent plastic deformation of the body. As a result, a secure mounting and locking of the reinforcing sleeve and in particular an advantageous pre-assembly of the reinforcing sleeve or the cell connector is ensured with reinforcing sleeve.

In particular, the reinforcing sleeve is formed as a deep-drawn part, in particular in one piece with the contact sleeve, whereby a simple and cost-effective realization of the plastic deformation of the reinforcing sleeve on the base body can be achieved.

According to a preferred development of the invention, the main body has an electrically insulating sheath of the fabric band. As a result, an undesirable contact with the electrically conductive parts of the cell connector is prevented, whereby the assembly is simplified.

In particular, the casing is a plastic casing, which is inexpensive to produce. In particular, the plastic casing is subsequently applied to the fabric tape, in particular sprayed.

Furthermore, it is preferably provided that the fabric tape has fabric fibers of aluminum and / or copper. In the context of the present invention, a fabric band is to be understood to mean a construct of interwoven fabric fibers which form a solid structure, namely the fabric band, with flexible properties. In this respect, a solid structure is to be understood as meaning an object which, even without further measures, in particular even without the aforementioned sheathing, maintains its shape, in particular also under load.

The energy storage device according to the invention with the features of claim 10 is characterized by the flexible cell connector according to the invention, which connects, for example, two cells of the energy storage with each other electrically. In particular, at least one of the contact points, with which the cell connector is connected, preferably has an internal thread, in particular in the form of a threaded bush, in which a fastening screw, which is guided through the screw hole of the cell connector, screwed or screwed. This results in the already mentioned advantages.

• 1 einen Energiespeicher für ein Kraftfahrzeug in einer vereinfachten Darstellung,
• 2 einen Zellverbinder des Energiespeichers in einer perspektivischen Darstellung,
• 3 eine Schnittdarstellung des Zellverbinders gemäß einem ersten Ausführungsbeispiel,
• 4 eine Schnittdarstellung des Zellverbinders gemäß einem zweiten Ausführungsbeispiel,
• 5 eine Schnittdarstellung des Zellverbinders gemäß einem dritten Ausführungsbeispiel, und
• 6 eine Schnittdarstellung des Zellverbinders gemäß einem vierten Ausführungsbeispiel.

Further advantages and preferred features and combinations of features emerge in particular from the previously described and from the claims. In the following, the invention will be explained in more detail with reference to the drawing. Show this

• 1 an energy store for a motor vehicle in a simplified representation,
• 2 a cell connector of the energy storage in a perspective view,
• 3 a sectional view of the cell connector according to a first embodiment,
• 4 a sectional view of the cell connector according to a second embodiment,
• 5 a sectional view of the cell connector according to a third embodiment, and
• 6 a sectional view of the cell connector according to a fourth embodiment.

1 shows in a simplified representation of an energy store 1 for a motor vehicle. The energy storage 1 is designed as a high-performance energy storage and has a plurality of energy cells 2 on, which are arranged in a housing. The cells 2 are each electrically connected. These are cell connectors 3 present, each with a contact point 4 a cell with the contact point 4 a neighboring cell 2 connect electrically. The cells can be connected by means of the cell connectors 3 be connected in parallel and / or in series with each other.

2 shows in a perspective view one of the cell connectors 3 , This has a strip or band-shaped body 5 on, at its ends 6 one screw opening each 7 which extends through the main body 5 extends through. The screw holes 7 are present present slot openings.

The main body 5 has an electrically conductive fabric tape 8th on, as in a free cut in 2 indicated, which has a plurality of fabric fibers made of aluminum and / or copper, which are interwoven with each other so that they form a band-shaped structure that independently maintains its shape, but is flexibly deformable. The fabric tape 8th is from a sheath 9 edged, which is designed as a plastic sheath. The jacket 9 In the present case, this extends only to the ends 6 of the tissue band 8th that the ends 6 are free of the sheath. Instead, the ends are 6 each with an electrically conductive contact sleeve 10 provided on each end 6 is deferred.

3 shows this in a sectional view along the line AA out 2 the cell connector 3 at the height of one of the screw holes 7 , It can be seen that the screw opening 7 both the contact sleeve 10 as well as through the fabric band 8th extends through. To attach a fixing screw 11 with her screw shaft 12 through the screw hole 2 passed and into an internal thread 14 the contact point 4 screwed in until her screw head 13 on top of the cell connector 3 rests. Will the screw 11 now in a mating thread on the cell contact 4 screwed in, the contact sleeve 10 and the fabric tape contained therein 8th between the screw head 13 and the contact point clamped. This will be the fabric tape 8th compressed and also the contact sleeve 10 in the direction of the contact point 4 deformed. The deformation causes the individual fibers of the tissue band 8th deformed and pressed together so that the number of touch contacts and the resulting contact surface increases. The contact sleeve 10 is preferably made of copper, in particular with a tinning in the region of the screw opening 7 designed to provide a favorable electrical contact to the fabric tape 8th on the one hand and the fixing screw 11 , which is preferably also electrically conductive, on the other hand to achieve. Preferably, the contact point is also 4 at her the cell connector 3 facing top electrically conductive to ensure safe transmission of electrical energy with a high performance.

Because of the main body 3 the fabric tape 8th has and the sheath 9 is preferably formed elastically deformable, in particular as a plastic sheath, is the cell connector 3 seen in its longitudinal extent flexible, so on the one hand assembly tolerances / manufacturing tolerances and on the other hand also in operation resulting tensions due to the flexible deformation of the cell connector 3 can be resolved. Thus, in particular temperature-induced changes in length can be easily compensated and shocks or vibrations dampened or compensated. In particular, the cell connector 3 , as in 2 shown a basic form in which the main body 5 is curved in the middle, so that when loaded in the longitudinal direction, especially when the ends 6 moved toward each other, a preferred direction for further bulging of the body 5 already predetermined so that no tensions after assembly by the cell connector 3 can arise.

4 shows a further embodiment of the cell connector 3 based on the above-mentioned sectional view along the line AA , In contrast to the previous embodiment is now a reinforcing sleeve 15 in the screw hole 7 used. The reinforcing sleeve is made for example of plastic and / or of an elastically conductive material and serves to increased Anschraubdrehmomente when attaching the cell connector 3 at the contact point 4 through the fixing screw 11 to ensure without the fabric tape 8th or the contact sleeve 10 to be damaged. The reinforcement sleeve 15 is cylindrical and thus easy in the screw hole 7 used. Appropriately, the contour of the reinforcing sleeve corresponds 15 the contour of the screw hole 7 ,

5 shows a further embodiment in which in the screw opening 7 a reinforcing sleeve 15 is used. In contrast to the previous embodiment, the reinforcing sleeve 15 not cylindrical, but has a T-shaped longitudinal section, with a bent collar 16 standing on the bottom of the fabric band 8th rests. Alternatively, the collar is located 16 on the bottom of the contact sleeve 10 on or through the contact sleeve 10 self-educated. In this case, the reinforcing sleeve 15 especially as a deep-drawn part 17 designed for the production in the screw hole 7 is deep-drawn. In particular, this is the contact sleeve 10 formed so that it is an inwardly into the screw hole 7 projecting edge portion, which by deep drawing to the inside of the screw hole 7 is bent to define the screw opening on its inside. The inwardly swiveled thigh 18 is thus as part of the contact sleeve 10 educated. By deep drawing on the one hand, the contact sleeve 10 safely on the fabric tape 8th held and on the other hand, the reinforcing sleeve 15 easy and inexpensive in the screw hole 7 realized.

6 shows a further embodiment, which differs from the preceding embodiment in that the reinforcing sleeve 15 Both at the bottom and at the top of each a collar 16 so that the reinforcing sleeve 15 safely in the screw hole 7 is held. Also in this case, the collar can 16 through the contact sleeve 10 be made. Alternatively, the reinforcing sleeve 15 separately to the contact sleeve 10 formed and at the screw opening 7 assembled. In particular, by a subsequent deformation of the collar 16 ,

While in the present embodiment, the use of the cell connector 3 on connecting two cells 2 an energy store 1 is limited to each other, the advantageous cell connector 3 However, of course, be used to connect other electrical units. Thus, according to a further embodiment (not shown here), it is provided that the cell connector 3 is used to two energy storage 1 or two more cells each 2 electrically connecting the energy storage modules. Also, the cell connector 3 usable to contact a control device or other electrical units or modules, in particular a motor vehicle.

LIST OF REFERENCE NUMBERS

1

energy storage

2

cell

3

cell connectors

4

contact point

5

body

6

The End

7

screw opening

8th

cloth tape

9

jacket

10

contact sleeve

11

fixing screw

12

screw shaft

13

screw head

14

inner thread

15

reinforcing sleeve

16

collar

17

Deep-drawn part

18

leg

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

• DE 102009058723 A1 [0004]
• EP 2846376 A1 [0005]
• DE 102012019108 A1 [0005]

Claims (10)

Flexible cell connector (3) for the electrical connection of electrical contact points, in particular of cells (2) of an energy store (1), with each other, with a band-shaped main body (5) having at at least one end (6) a screw opening (7) for carrying out a Shaft (12) of a fastening screw (11), characterized in that the base body (5) has a fabric band (8), and in that at least one end (6), the fabric band (8) at least circumferentially comprehensive, the screw opening ( 7) co-forming contact sleeve (10) is arranged. Flexible cell connector after Claim 1 , characterized in that the contact sleeve (10) is designed as a deformable metal or copper sleeve. Flexible cell connector according to one of the preceding claims, characterized in that the screw opening (7) has a reinforcing sleeve (15). Flexible cell connector according to one of the preceding claims, characterized in that the reinforcing sleeve (15) is held by its plastic deformation on the base body (5). Flexible cell connector according to one of the preceding claims, characterized in that the reinforcing sleeve (15) is designed as a deep-drawn part (17). Flexible cell connector after Claim 5 , characterized in that the reinforcing sleeve and the contact sleeve are integrally formed with each other. Flexible cell connector according to one of the preceding claims, characterized in that the base body (5) has an electrically insulating sheathing (9) of the tissue band (8). Flexible cell connector according to one of the preceding claims, characterized in that the sheath (9) is an elastically deformable plastic sheath. Flexible cell connector according to one of the preceding claims, characterized in that the fabric band (8) has fabric fibers of aluminum and / or copper. Device with at least two electrical units, in particular control unit, energy storage, power cell and / or module, each unit each having at least one electrical contact point (4), and wherein at least two of the contact points (4) by a flexible cell connector (3) electrically connected are characterized in that the cell connector (3) according to one of Claims 1 to 9 is trained.

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