DE102009035561A1 - Sealing arrangement for sealing gap between housing of rechargeable battery of power supply arrangement and housing of electric car, has tolerance element for adjusting variable distance between housing and component - Google Patents

Abstract

The arrangement has a sealing element in contact with a housing (1) and a component (5), and a fastening unit for fastening the sealing element at the component or housing. A contact element e.g. magnet and spring, presses the sealing element at the housing and/or the component, and a tolerance element adjusts variable distance between the housing and component. A reinforcing element is provided for stabilizing the sealing element, and the tolerance element is formed as a wave-shaped section of the sealing element. An independent claim is also included for a power supply arrangement comprising a battery.

Description

The The present invention relates to a seal assembly for sealing a gap between a housing and a component, and a power supply arrangement.

In Many situations require a gap between statically seal two components by means of a seal. often This results in the requirement to remove the seal several times in daily operation to be able to and be able to reassemble with sufficient sealing effect.

One example for one such application is the seal of a refrigerator door. For sealing the Gap between the refrigerator door and the refrigerator housing is a radial circumferential seal connected to the door. When you close the refrigerator door is a Sealing lip pressed to the refrigerator housing, so that the resulting gap between the refrigerator door and the refrigerator housing sealed becomes. In normal use of the refrigerator, the door is often opened, so that the seal is generally detached from the housing several times a day and when closing the refrigerator door again is pressed to the seal to the refrigerator housing. These requirements must be considered in developing the corresponding seal. In the event of the refrigerator seal However, the requirements are comparatively low. So must in In this case, only an air exchange with low tolerance can be prevented.

at future Generations of electric cars will require a power supply unit with several rechargeable battery cells with the electric car connect in such a way that it is repeatedly removable. In future Models of electric cars will be possible, the power supply units if necessary, not in the vehicle to charge, but after each discharge cycle to be replaced by a fully charged power supply unit. To have corresponding power supply units fasteners to Attachment to a housing of the electric car. To the feeder of electricity from the power unit to the electric car is an electric Connection of both components necessary. For this it is necessary the electrical connection from the power supply unit in the case of the To lead electric cars. Consequently, the housing has the power unit and the housing of the electric car openings through which the electrical connection can be made when the Power unit is attached to the electric car. It arises a gap between the housing of the electric car and the housing the power supply unit. In operation, an electric car is exposed to environmental influences, so that dirt and moisture in the gap between the electric car and the power supply unit can penetrate. It is therefore necessary the gap around the openings for the electrical connection between the electric car and the power supply unit seal by means of a static seal. The situation is similar to that the refrigerator door, being However, the requirements for the sealing effect of the corresponding Seal arrangement significantly higher are. In particular, in the case of the electric car, it is often necessary separate the power supply unit and replace it with a new one, as possible little effort in the assembly of the seal should arise.

It is therefore an object of the invention, a seal assembly for sealing indicate a gap and a corresponding power supply arrangement, which meet these requirements.

These Task is performed by a seal assembly with the characteristics of Patent claim 1, and a power supply arrangement with the features of claim 14. Advantageous embodiments are the subject of the dependent subclaims.

• – ein in Kontakt mit dem Gehäuse und mit dem Bauteil stehendes Dichtelement,
• – Befestigungsmittel zur Befestigung des Dichtelements an dem Bauteil oder dem Gehäuse,
• – Ein Kontaktierelement zum Andrücken des Dichtelements an das Gehäuse bzw. an das Bauteil und
• – Ein Toleranzelement zum Ausgleichen eines veränderten Abstands zwischen dem Gehäuse und dem Bauteil.

According to claim 1, a sealing arrangement for sealing a gap between a housing and a component, comprising the following features:

• A sealing element in contact with the housing and with the component,
• Fastening means for fixing the sealing element to the component or the housing,
• - A contacting element for pressing the sealing element to the housing or to the component and
• - A tolerance element to compensate for a changed distance between the housing and the component.

By fastening means, it is possible to connect the sealing element fixed to the component or the housing. When removing the component from the housing, the sealing element therefore remains due to the fastening means on the component or on the housing and is removed from the housing or component. If the component with appropriately fastened sealing element in turn brought into contact with the housing, the contacting ensures that the sealing element is pressed against the housing and thus the resulting gap between the housing and the component is reliably sealed. It is necessary that axial tolerances resulting from a change in the distance between the housing and the component, are compensated by the compensation element. Thus, even with tolerances in the seat of the component on the housing a safe sealing effect of the sealing element with a correspondingly simple handling during installation and removal of the component. The sealing element is preferably made of a flexible plastic, for example an elastomer.

In an advantageous embodiment of the invention, the sealing element at least two sealing lips, each of which at least one of the casing and at least one associated with the component. For sealing is the sealing element with the sealing lip against the housing or pressed against the component. As a result, the sealing lip bends and lies according to the Restoring force on casing or on the component, whereby the sealing effect is achieved.

In An advantageous embodiment of the invention is a protective element provided that with the housing is connected and along the outside of the sealing element extends. The protective element protects the Seal against environmental influences, For example, stone chipping or cleaning with a high-pressure cleaner.

In an advantageous embodiment According to the invention, the compensation element is a wave-shaped section of the sealing element. In this case, the sealing element extends not linear between housings and component, but has, for example, two sheets, wherein the course of the sealing element between the sheets reverses. Due to the flexible design of the sealing element Is it possible, in the area of the bend, to compress or stretch the sealing element, so that axial tolerances of the gap dimension can be effectively compensated.

Advantageous is an embodiment of the invention such that the contacting designed as a magnet is, which is arranged on the end side of the sealing element and the sealing element solvable attached to the housing. It is advantageous if the magnet embedded in the sealing element is and / or a plurality of magnets along the gap are provided. In the latter case leaves the sealing element safe even with long extension of the gap to the housing. The magnetic contacting element has the particular advantage on that it is due to the attachment when removing the component from the housing of the sealing element on the housing automatically from the housing solved becomes. The sealing element thus remains on the component. When attaching of the component to the housing puts the magnet on approach to the housing due to the magnetic force, contact with the housing, whereby the sealing element to the housing is pressed and thus ensures the sealing effect is. Depending on the axial extent of the gap thereby tolerances compensated automatically due to the compensation element.

alternative Is it possible, the sealing element on the housing to attach and the magnet on the side associated with the component provided. The operation is analogous to the described embodiment.

In an alternative embodiment the invention, the contacting is designed as a spring, the is arranged such that one in the direction of the housing and the component acting force is exerted on the sealing element. Thus, the sealing element is pressed against the housing due to the spring force, whereby the sealing effect is ensured.

According to claim 14 a power supply arrangement for mounting on a housing is indicated, comprising at least one battery, wherein the power supply arrangement at least one passage opening for cables has, wherein along the passage opening a sealing arrangement according to one of the claims 1 to 13 for sealing a gap between the power supply arrangement and the housing is arranged. Especially when used on electric cars come the advantages and properties of the seal assembly according to the invention to carry.

Further Advantages and embodiments of the invention will become apparent from the explained below embodiments with the attached Characters. Show it:

1 a schematic sectional view of a housing with mounted component,

2 to 7 various embodiments of the invention, and

8th and 9 various embodiments of sealing lips.

following Be different embodiments of seal assemblies explained with the features of the invention. there in particular to an application in electric cars for sealing of stomata between housing and power supply unit of the electric car parked. The advantageous ones Properties of the sealing arrangement according to the invention However, they can also be advantageous in numerous other installation situations bring to use.

In the 1 is schematically a housing 1 shown. The housing 1 has an opening at the bottom 3 on. At the housing 1 is a component 5 attached. The component 5 has an upper side opening 7 on. The component 5 is so on the case 1 mounted that the openings 3 and 7 come to lie one above the other. Thus, it is possible, for example, electrical connection lines from the housing 1 into the component 5 through the openings 3 and 7 relocate. Also, a supply of cooling air from the housing 1 into the component 5 possible. Between the case 1 and the component 5 created by the arrangement of a gap 9 , This causes the openings 3 and 7 In principle, environmental influences from the outside, such as pollution and moisture exposed. To protect against such environmental influences is in the gap 9 one around the openings 3 and 7 running seal 11 arranged the gap 9 axially between the housing 1 and the component 5 seals. In the gap 9 are retaining clips 10 for connecting the component 5 and the housing 1 arranged.

The housing 1 may for example be part of an electric car and for receiving a power supply unit in the component 5 serve. In the component 5 Accordingly, rechargeable batteries are arranged, which on the one hand require active cooling from the housing and on the other hand must be electrically contacted by means of cables. For this purpose are the openings 3 and 7 available, which must be protected against harmful environmental influences.

In particular, in electric cars, it is often necessary, the component 5 to remove and against a similar kind of component 5 to replace with charged batteries. In this case, it is necessary to pay the expense of dismantling the battery and the gasket 11 keep as low as possible and minimize the susceptibility to errors. Ideally, the seal 11 on the component 5 be attached and disassemble the component 5 by itself from the case 1 to solve. When mounting the component 5 with attached seal 11 should this automatically on the housing 1 come to rest, that the sealing effect is ensured. Additional installation effort or disassembly effort for the seal 11 thus disappears.

In the 2 to 7 Various embodiments of possible seals are shown. These are each sealing between a housing 1 and a component 5 arranged. They are designed with respect to the shape that they the openings 3 and 7 enclose completely radially. It is not necessary that the openings 3 and 7 are the same. Likewise, it is not mandatory that the openings 3 and 7 have a regular shape. Regarding the seal 11 is only required that the gap 9 between the case 1 and the component 5 is axially sealed statically. The shape of the seal 11 can do this to the openings 3 and 7 be adjusted. Alternatively, it is possible to use the seal 11 rectangular or round and accordingly larger than the opening 3 respectively. 7 to design. Significantly, it is important that the openings 3 and 7 completely off the seal 11 are enclosed.

In the 2 is fragmentary the housing 1 in the area of the opening 3 shown. Opposite is the component 5 with the opening 7 , Between the case 1 and the component 5 is a seal 21 arranged. The seal 21 includes a flexible sealing element 23 , the end sealing lip 25 and 27 having. The sealing lips 25 and 27 are in their chosen position in their unmounted state of the gasket 21 shown. Upon contact of the seal 21 with the housing 1 and the component 5 bend the sealing lips 25 and 27 inwards, so that they by means of a restoring force on the housing 1 or on the component 5 abutment and thus the sealing effect is guaranteed.

The sealing element 23 points to the component 5 facing end of a molding 29 on that the component 5 partially encircled on the outside and in a corresponding recess 31 of the component 5 intervenes. Between the sealing lip 27 and the shape 29 are sealing ribs 33 arranged, showing the sealing effect of the sealing element 23 improve. The area of the molding 29 until after the seal 21 is by means of a stiffening element 35 stabilized, so that the seal 21 firmly on the component 5 is attached. At the opposite end of the seal 21 has these in the area of the sealing lip 25 a magnet 37 on. The magnet 37 stops due to the on the case 1 acting magnetic force on the housing 1 firmly. If necessary, is on the housing 1 to provide a corresponding section of magnetic or magnetizable material. This will cause the sealing lip 25 against the housing surface of the housing 1 pressed, creating a sealing effect. The magnet 37 is in the sealing element 23 embedded.

Alternatively, the magnet could also be below the sealing element 23 be arranged.

Due to the introduced seal 21 is the gap between the housing 1 and the component 5 sealed against environmental influences from the outside. This seal is used in particular to protect the openings 3 and 7 against penetrating dirt and moisture.

The sealing element has two curvatures 39 and 41 on that between the sealing lips 25 and 27 are arranged, and thus the course of the seal on an area between the housing 1 and the component 5 turning back. The curvatures 39 and 41 allow it, the seal 21 for different the big gap between the case 1 and the component 5 to use. Due to the double curvature of the sealing element 23 is it possible that the magnet 37 both on a more distant housing 1 Holds, as well as on a closer to the component 5 lying housing 1 , In the first case, the bends become 39 and 41 and thus the sealing element 23 stressed on train, so that the enlarged gap through the same seal 21 seal. In the opposite case, the sealing element 23 compressed. Tolerances in the gap can be compensated.

Will now be the component 5 from the case 1 removed, so the entire seal remains 21 due to the attachment to the component 5 , Once the component 5 by train from the housing 1 is removed, first the sealing element 23 loaded on train and thereby increases its effective length. However, as soon as the clamping force of the sealing element 23 the holding force of the magnet 37 on the housing 1 exceeds, the magnet will 37 from the case 1 solve and thus the seal 21 release.

Will the component 5 to the housing 1 mounted and gets the magnet 37 in the force-effective sphere of influence of the housing 1 , it is due to the magnetic force acting on the housing 1 pulled and thus pushes the sealing lip 25 against the surface of the housing 1 , Thus, the sealing effect is ensured without additional action.

Alternatively, magnetic or magnetizable particles can be deposited along the gap 9 in the sealing element 23 embed, so also a force on the case 1 is exercised.

In the 3 an alternative embodiment of the invention is shown. A seal 51 exists analogous to the embodiment of 2 from a sealing element 53 that has two bends in the middle 55 and 57 for tolerance compensation. End side are in contrast to the embodiment of 2 two sealing lips each 59 respectively. 61 arranged. Compared to the embodiment of 2 Thus, the sealing effect is increased with the same principle of action. The sealing element 53 points in the area of the sealing lips 59 a stiffening element 63 on that completely in the sealing element 53 embedded in its stabilization. In the area of the sealing lips 61 shows the seal 51 another stiffening element 65 partly from the sealing element 53 protrudes and on the case 1 is applied. Opposite is a metal element 67 with the sealing element 53 Partially connected to the component 5 around grabs and a molding 69 having, in a corresponding recess 71 on the component 5 intervenes. Thus, the metal element 67 on the component 5 attached. Between the metal element 67 and the stiffening element 65 is a spring element 72 arranged. The spring element 72 exerts forces perpendicular to the surface of the housing 1 and the component 5 out, leaving starting from the metal element 67 via the spring action of the spring element 72 the stiffening element 65 against the case 1 is pressed. Because of this, the sealing lips 61 also against the case 1 pressed so that the sealing effect of the seal 51 results.

Alternatively, the metal element 67 be replaced by a correspondingly acting plastic element.

To compensate for tolerances in the gap between the housing 1 and the component 5 is the spring element even with the largest gap to be considered n an upset position present, so that always a force in the direction of the housing 1 on the stiffening element 65 acts. For smaller gaps, the spring element is compressed accordingly. The differences in length are thereby by the bends 55 and 57 in the sealing element 53 balanced.

In the 4 is a modification of the embodiment of 3 shown. Here are two spring elements 101 and 103 between corresponding metal elements 105 respectively. 107 and 109 respectively. 111 arranged. The sealing element 113 is analogous to the embodiment of 3 executed.

In the 5 is a seal 131 represented as a further embodiment of the invention. In this embodiment, analogous to the embodiment of the 3 or the 4 a metal element 133 and a metal element 135 in each case the housing 1 or the component 5 assigned. Between the metal elements 133 and 135 extends an axially disposed sealing element 137 , At the sealing element 137 are sealing lips 139 and 141 arranged, which the actual sealing effect opposite the housing 1 and the component 5 to ensure. To compensate for axial tolerances is here in the sealing element 137 a feather 143 embedded, which is analogous to the seal 131 around the openings 3 and 7 running around. The sealing element 137 is made of stretchable material, such as elastomer, so that changed gap dimensions can be reliably sealed due to the spring action. Again, the metal elements can be replaced by corresponding plastic elements.

In the 6 and 7 is in each case the embodiment of 1 shown in the 7 in slightly modified form. In the 6 shows the case 1 a shape 201 on, which is why the gap 9 between the case 1 and the component 5 partially reduced in size. The component 5 has a corresponding form mung 203 on, which radially spaced the formation 201 partially behind. The seal used 21 is therefore against direct environmental influences, such as rockfall or high-pressure water, as in the case of cleaning the housing 1 may occur due to the molding 201 protected.

In the 7 is the component 5 analogous to that of 6 shaped and also has a shape 211 on. The housing 1 However, here has no shape, so that the gap 9 between the case 1 and the component 5 analogous to the embodiments of the 2 to 5 is comparatively large. To protect the seal 21 under high pressure water and rockfall is a metal element 213 arranged in the gap. The metal element 213 is axially extended so that it is the shape 211 of the component 5 partially behind. It circles the openings 3 and 7 parallel to the seal 21 , In the rear area is the metal element 213 with a holding element 215 connected in a corresponding recess 217 on the housing 1 intervenes. Consequently, the metal element 213 on the housing 1 attached. The metal element 213 also offers an adhesive surface for the magnet 37 the seal 21 and a sealing surface for the sealing lip 25 ,

In the 8th is an example of an embodiment of the invention, an end portion of a sealing element 301 shown. It includes an embedded magnet 303 for attachment to a housing 1 , The sealing element 301 has two sealing lips 305 on. Through the embedded magnet 303 results as a side effect a stiffening of the sealing element 301 , so that additional stiffening elements are not required here.

In the 9 is an alternative embodiment of a sealing element 321 shown. In this embodiment, no magnet is present, so that in the region of the likewise existing sealing lips 323 a stiffening element 325 in the sealing element 321 embedded.

Especially for electric cars and other applications where simple assembly at multiple Re-mountability and high demands on the tightness can be asked the seal assembly according to the invention Benefit advantageous. The sealing effect is also at a water passage, when the seal is completely submerged guaranteed. At the same time, axial tolerances in the range of several millimeters can be achieved compensate. The easy assembly and disassembly is done by the magnet or ensured the spring element. You practice one in the direction of the housing or directed to the component force on the sealing element, so that a seal is made. The seal arrangement can be high loads Resist, as they occur in the operation of electric vehicles.

The advantageous properties of the invention can also be in others Use area, such as for the sealing of steering column bushings in motor vehicles.

LIST OF REFERENCE NUMBERS

1

casing

3

lower opening

5

component

7

top opening

9

gap

11 21

poetry

23

flexible sealing element

25 27

sealing lips

29

formation

33

sealing ribs

35

stiffener

37

magnet

39, 41

curvatures

51

poetry

53

sealing element

55, 57

curvatures

59, 61

sealing lips

63 65

stiffener

67

metal element

69

formation

71

recess

72

spring element

101 103

spring elements

105 107

metal elements

109 111

metal elements

113

sealing element

131

poetry

133 135

metal element

137

sealing element

139 141

sealing lips

143

feather

201 203

formation

211

formation

213

metal element

215

retaining element

217

recess

301

sealing element

303

magnet

305

sealing lips

321

sealing element

323

sealing lips

325

stiffener

Claims (14)

A sealing arrangement for sealing a gap between a housing and a component, comprising the following features: a sealing element in contact with the housing and with the component, A fastening element for fastening the sealing element to the component or the housing, a contacting element for pressing the sealing element against the housing or to the component, and a tolerance element for compensating a changed distance between the housing and the component. Bearing assembly according to claim 1, wherein at least provided a stiffening element for stabilizing the sealing element is. Bearing arrangement according to claim 2, wherein the sealing element has at least two sealing lips, of which at least a the housing and at least one associated with the component. Bearing arrangement according to claim 2 or 3, wherein a Protective element is provided, which is connected to the housing and itself externally extends along the sealing element. Bearing arrangement according to one of the preceding claims, wherein the sealing element through the contacting with the protective element is brought into contact. Bearing arrangement according to one of claims 1 to 4, wherein the tolerance element is a wave-shaped portion of the sealing element is. Bearing arrangement according to one of the preceding claims, wherein the contact element is designed as a magnet, the end on the sealing element is arranged and releasably secured to the housing, the sealing element. Bearing arrangement according to one of claims 5 to 7, wherein the magnet is embedded in the sealing element. Bearing arrangement according to claim 7 or 8, wherein along the gap several magnets are provided. Bearing arrangement according to one of claims 7, 8 or 9, wherein the contacting element is designed as a spring, which is arranged such that one in the direction of the housing and the component acting force is exerted on the sealing element. Bearing arrangement according to one of the above claims, wherein the spring has turns substantially parallel to the gap run. Bearing arrangement according to one of the above claims, wherein the sealing element one end of the component associated molding comprising, by means of the sealing element in a corresponding recess of the component is fastened. Bearing arrangement according to one of the above claims, wherein is arranged in the region of the formation of the stiffening element. Power supply assembly for mounting on a housing, comprising at least one battery, wherein the power supply arrangement at least a passage for cables has, wherein along the passage opening a sealing arrangement according to one of the claims 1 to 13 for sealing a gap between the power supply arrangement and the housing is arranged.

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