DE102018002381A1 - High-voltage component arrangement with a protective device for the protection of high-voltage components - Google Patents

Abstract

The invention relates to a high-voltage component arrangement comprising a high-voltage component (1) having a component housing (7) for an electrically operated vehicle, wherein the component housing (7) has a housing opening (6) and a protective device (2) for protecting the high-voltage component (1). in the case of an occurring arc (3) or short circuit, wherein the protective device (2) has a protective housing (8) which is connected via the housing opening (6) with the component housing (7), so that through the arc (3) or the short circuit released energy (4) in the protective housing (8) is receivable.

Description

The invention relates to a high-voltage component arrangement having a high-voltage component having a component housing for an electrically operated vehicle, wherein the component housing has a housing opening and a protective device for protecting the high-voltage component in the event of an occurring arc or short circuit, according to the preamble of the patent claim 1 ,

Vehicles, in particular passenger cars, which are designed as electric vehicles or hybrid vehicles, have complex and sensitive high-voltage electrical systems. High voltage electrical systems include a variety of high voltage components, such as a high-voltage battery or a motor inverter. These high-voltage components are very complex and can be damaged by an occurring electrical short circuit. In the event of a short circuit, the resulting arc mainly damages the high-voltage component. In the event of damage to the high-voltage on-board electrical system or to the high-voltage battery, the vehicle may fail completely because of defective components. These must be renewed or replaced, which leads to a high financial loss. It would also be conceivable that the damaged high-voltage battery burns and thus the entire vehicle is destroyed irreversible.

From the CN 000202923408 U is an integrated power device of a pure electric vehicle known. The integrated power device includes an integrated power controller, a communication module, an isolation detection module, a smoke detection module, a collision detection module, a precharge module, and a high voltage power distribution module, the communication module communicating with the integrated power controller to acquire current vehicle state information and inform the entire vehicle controller of an energy system state. The outputs of the isolation detection module, the smoke detection module and the collision detection module are connected to an analog-to-digital conversion module of the integrated power controller to perform a signal measurement and to assess whether dangerous accidents such as electrical leakage, fire disasters or collisions occur. Also, an algorithmic control signal of the integrated power controller is output by the precharge module.

The object of the present invention is that an improved protection of high-voltage systems is achieved in order to avert secondary damage to electrically powered vehicles.

This object is achieved according to the independent claims. Meaningful developments emerge from the dependent claims.

The invention provides a high-voltage component arrangement with a high-voltage component, which has a component housing, for an electrically operated vehicle, the component housing having a housing opening. The high-voltage component arrangement has a protective device for protecting the high-voltage component in the event of an occurring arc or short circuit, wherein the protective device has a protective housing and the protective housing is connected via the housing opening with the component housing, so that released by the arc or the short circuit energy in the protective housing is receivable.

Electrically powered vehicles have complex high-voltage electrical systems. These high-voltage electrical systems include a variety of high-voltage components, which must be protected. A high-voltage component is formed with a component housing and has a housing opening. In the event of a technical defect in the high-voltage system of an electrically operated vehicle, electric short circuits and / or electric arcs may occur in the area of the high-voltage vehicle electrical system. A short circuit occurs when two poles of a voltage source are connected without resistance. The flowing current in the event of a short circuit is many times greater than the operating current. This high current damages or destroys sensitive electrical components. In an electric arc, gas discharges occur between two electrodes. For the gas discharge to take place, it requires a sufficiently high electrical voltage difference. During a gas discharge, a plasma forms, which is able to damage or destroy electrical components. To protect the high voltage components against a short circuit or arc, a protection device is used. This protective device has a protective housing, which is designed to shield internal components of the protective device. The energy released in the event of a short circuit or an arc is absorbed in the protective housing. The protective housing is connected via the housing opening with component housing, thereby the released energy can escape into the protective housing.

A further variant of this invention provides that a pressure compensation element is arranged in the housing opening.

The pressure compensation element is formed with a membrane, which ensures that z. B. Condensation from the closed component housing can escape again. The membrane thus ensures that air with a high relative humidity can escape and thus the relative humidity in the high-voltage component decreases. Due to an increased energy conversion, which occurs when a short circuit or arc occurs, it comes to a pressure pulse. Due to the pressure pulse, the pressure compensation element of the high-voltage component is damaged and / or destroyed. The energy released by the arc or short circuit flows from the high voltage component through the open location where the pressure equalization element was located into the protective housing.

A further variant of this invention provides that the protective housing has an absorption element, from which the released energy can be absorbed.

The energy released by the arc or short circuit is conducted into the protection device. The absorption element in the protective housing is able to absorb the released energy. The material of the absorption element is designed so that it can absorb an electrical energy. It would be particularly advantageous if the completely released energy is absorbed, so that there is no danger for the other high-voltage components in the vehicle.

A further variant of this invention provides that the absorption element has a labyrinth-shaped channel.

In order that the released energy can be absorbed as efficiently as possible, it is useful that the energy is divided or weakened by a constructive measure. The energy should already be weakened so far that the remaining energy can be absorbed by the absorption element. To achieve this, the absorption element is formed with a labyrinth-shaped channel. This ensures that the energy flow has to take a path with several branches, curves and directional changes. In this labyrinthine channel, the released energy is attenuated and can be absorbed more efficiently.

A further variant of this invention provides that the absorption element is designed to guide an arc.

In the case of an occurring arc, a plasma is created by a gas discharge. This plasma is a mixture of particles whose components are partially charged components, ions and electrons. As a result, the plasma is also electrically conductive. Since the plasma has a gaseous state, the absorption element should be able to absorb it. Here the gaseous constituents of the plasma are to dissolve on the solid surface of the absorption element.

A further variant of this invention provides that the protective housing is formed as a die-cast aluminum housing.

Since the protective housing is an additional component in an electrically powered vehicle, its weight must not be an additional burden on the electrically powered vehicle. For electrically operated vehicles to be used efficiently, they have a very low vehicle weight. The more weight a vehicle has, the more energy is needed. Therefore, the protective case is preferably formed as an aluminum die-cast housing. This has the advantage that the protective housing can be produced thin-walled and with a complex geometry. The use of aluminum reduces the weight of the protective housing to a minimum. An aluminum die cast housing still has an additional advantage. The application of a die-cast ensures that the surfaces and edges of the protective housing are smooth. This allows the released energy to be distributed evenly. With rough edges or areas, there is a risk of a punctual energy concentration. Damage to the protective housing can occur at the points with an increased energy concentration.

Further advantages, features and details of the invention will become apparent from the following description of a preferred embodiment and from the drawing. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the figure description and / or alone in the single figure can be used not only in the respectively indicated combination but also in other combinations or alone, without the frame to leave the invention.

The single FIGURE shows a schematic representation of an embodiment of the high-voltage component arrangement according to the invention.

In the figure, identical or functionally identical elements are provided with the same reference numerals.

The Fig. Thus shows z. B. a high voltage component arrangement, with the high-voltage component to be protected 1 and the trained protection device 2 to protect the high-voltage component 1 in the case of an occurring arc 3 or Short circuit. When the short circuit or the arc occurs 3 becomes energy 4 released. In the figure, for example, is to be protected high-voltage component 1 , a motor inverter. The high-voltage component 1 is at the high-voltage battery 5 connected and is thus supplied with voltage. About a housing opening 6 of the component housing 7 is the high voltage component 1 with the protective housing 8th the protection device 2 connected. In the case opening 6 there is a pressure compensation element 9 , which ensures that, for example, the relative humidity in the high-voltage component 1 not too high. The protective housing 8th has an absorption element 10 which is capable of releasing energy 4 take. The absorption element 10 has a labyrinthine channel 11 on which the released energy 4 weakens.

In the case of a short circuit or an arc 3 creates a pressure pulse, which may be the sensitive membrane of the pressure compensation element 9 destroyed. This can release the released energy 4 from the component housing 7 in the protective housing 8th flow. There is the released energy 4 through the labyrinthine channel 11 of the absorption element 10 absorbed.

This ensures that the high-voltage component 1 the electrically operated vehicle is not exposed to further stress or damage.

LIST OF REFERENCE NUMBERS

1

High-voltage component

2

guard

3

Electric arc

4

released energy

5

High-voltage battery

6

housing opening

7

component housing

8th

housing

9

Pressure compensation element

10

absorbing element

11

labyrinthine channel

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

• CN 000202923408 U [0003]

Claims (6)

High-voltage component arrangement comprising - a high-voltage component (1) having a component housing (7) for an electrically operated vehicle, wherein - the component housing (7) has a housing opening (6), and having - a protective device (2) for protecting the high-voltage component ( 7) in the event of an occurring arc (3) or short circuit, characterized in that - the protective device (2) has a protective housing (8), - the protective housing (8) via the housing opening (6) with the component housing (7) is connected in that an energy (4) released by the arc (3) or the short circuit can be absorbed in the protective housing (8). High-voltage component arrangement according to Claim 1 , characterized in that in the housing opening (6) a pressure compensation element (9) is arranged. High-voltage component arrangement according to Claim 1 or 2 , characterized in that the protective housing (8) has an absorption element (10) from which the released energy (4) can be accommodated. High-voltage component arrangement according to Claim 3 , characterized in that the absorption element (10) has a labyrinth-shaped channel (11). High-voltage component arrangement according to one of the preceding claims, characterized in that the absorption element (10) for guiding an arc (3) is formed. High-voltage component assembly according to one of the preceding claims, characterized in that the protective housing (8) is designed as a die-cast aluminum housing.

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