DE102015221571A1 - Device for cooling an electrical connector - Google Patents

Abstract

The present invention relates to a device for cooling a plug connection which comprises a charging plug, a contact socket which is suitable for receiving the charging plug, a first electrical lead which is connected to the contact socket and a second electrical lead which is connected to the charging plug. wherein the first electrical line has a first cavity and / or the second electrical line has a second cavity along the electrical line, via which a coolant is passed.

Description

The present invention relates to a device for cooling a connector.

State of the art

Electric vehicles usually have an electrical energy storage, such as a traction battery, which provides the electrical energy for the drive. The traction battery is usually externally charged using either wired or inductive charging methods. In wired charging methods are electrical connections, such as connectors, are used, which are partially heated during charging (when energized). At a high current, i. With a high applied voltage or a high current flow, the plug connection or the charging cable may overheat. Furthermore, this can lead to a malfunction or failure of the electrical plug connection.

Electrical connections with cooling for heat dissipation are known from the prior art. For example, the shows DE 10 2012 216 694 A1 a contact plug and a contact socket, which has an electrically conductive receptacle, an electrical main line and an electrically insulating first heat conducting element. In this case, the first heat-conducting element is designed such that heat can be dissipated from the contact socket. A disadvantage of this prior art is that the type of cooling is not sufficiently efficient, since the heat dissipation takes place only in the outer region of the plug or the charging socket and is not further removed.

The object of the invention is therefore to provide a device for cooling a connector, can be dissipated efficiently with the heat.

Disclosure of the invention

The inventive method with the characterizing part of claim 1 has the advantages that dangers or failures can be prevented by high temperatures on the charging plug and / or charging socket.

According to the invention it is provided that the device for cooling an electrical connector consists of a charging plug and a contact socket, wherein the contact socket is suitable for receiving the charging plug. Furthermore, the device has a first electrical line which is connected to the contact socket and a second electrical line which is connected to the charging plug.

The first electrical line has a first cavity and / or the second electrical line has a second cavity along the electrical line, wherein a coolant is passed over the cavities. Advantage of this device is that the power loss can be reduced and thus the efficiency of the charging process is increased. Furthermore, more energy can be transferred by the cooling, whereby the charging process is completed faster. In addition, a charging plug provided for the charging process can thus be made smaller or more agile (large, heavy plugs are generally unwieldy for a practical handling) for the charging application to be built. Less failures, a better efficiency and the avoidance of dangers for humans and living beings are thus advantages of this invention. Also can be transmitted by cooling the connector higher power. A more efficient charging process becomes possible.

The measures mentioned in the dependent claims advantageous developments of the device specified in the independent claim are possible.

Advantageously, the first cavity and / or the second cavity are designed as a hose. Since these first cavity and / or second cavity leading hoses along the electrical line (cable) are guided and advantageously connected to this, both the supply of electricity and the supply of coolant can be ensured by means of a plug connection. Accordingly, the coolant can be pumped along the hose in the direction of the connector, there absorb the existing heat in the plug and then be removed again.

Furthermore, it is advantageous that the first cavity surrounds the first electrical line and / or the second cavity surrounds the second electrical line. The fact that the cavities surround the electrical line, a uniform heat dissipation of the entire charging cable is advantageously ensured.

The coolant used is advantageously air. For example, can be cooled by the existing ambient air, eliminating the need to use a cooling liquid omitted.

Furthermore, it is advantageous that the first cavity has a first volume and / or the second cavity has a second volume, wherein the first volume and / or the second volume is reduced without passage of coolant. In other words, the cavity is called a hose surrounds the charging cable, designed so that it expands flexibly when passing coolant and reduces in the absence of coolant. This has the advantage that the cable becomes mechanically more stable during charging by the coolant flowing through it, which can be enhanced, for example, by increased coolant pressure. In the case of air as a coolant, the charging cable is quasi "inflated" by means of the cavity surrounding the charging cable. This has the further advantage that the charging cable in the idle state (ie in the state in which is not loaded) is thin and flexible and thus can be better merge (eg flat fold). Furthermore, an air jacket, in the event that air is used as a coolant, has the advantage that it provides security by additional insulation at high voltages. In a further advantageous embodiment of the invention, a liquid is used as the coolant. Advantageously, the liquid used is oil or water, since they have a higher thermal conductivity than air. Thus, with a liquid better and more efficient heat from the entire connector consisting of charging cable and contact socket can be dissipated.

Furthermore, it is advantageous that the charging plug and / or the contact socket have at least one metal rail, which is thermally conductive with the coolant in combination. By this thermal connection, the heat generated at the charging plug or the contact socket can be advantageously passed through the metal rail to the coolant. Due to the excellent conductivity of this metal, this metal rail is advantageously made of copper.

Other features and advantages of the present invention will become apparent to those skilled in the art from the following description of exemplary embodiments, which are not to be construed as limiting the invention with reference to the accompanying drawings.

Brief description of the drawings

Show it:

1 a schematic representation of a cross section of a device according to the invention for cooling a connector;

2 a further schematic representation of a cross section of a device according to the invention for cooling a connector;

3 a third schematic representation of a cross section of a device according to the invention for cooling a connector;

All figures are merely schematic representations of devices according to the invention or of their components according to embodiments of the invention. In particular, distances and size relationships are not shown to scale in the figures. In the various figures, corresponding elements are provided with the same reference numbers.

1 shows a schematic representation of a cross section of a device according to the invention for cooling a connector 10 as can be used, for example, to charge a traction battery in an electric vehicle. The plug connection 10 includes a charging plug 11 , a contact socket 12 for receiving the charging plug 11 suitable is. Furthermore, it has a first electrical line 13 on that with the contact socket 12 is connected and a second electrical line 14 connected to the charging plug 11 connected is. The contact socket 12 is for example in a motor vehicle, preferably a hybrid / electric vehicle (not shown here). The charging plug 11 connects the contact socket 12 using the second electrical line 14 with a charging device (not shown here) via which the traction battery is conductively charged in the vehicle. The first electrical line 13 that with the contact socket 12 is connected, is arranged in the vehicle and connects the contact socket 12 for example, with the traction battery or the battery management system that monitors the charging of the traction battery. The first electrical line 13 has a cavity 15 on and / or the second electrical line 14 has a second cavity 17 on, which runs along the electrical line. For example, these cavities 15 and 17 designed as a hose. Through these cavities becomes a coolant 16 directed. This coolant may be air, oil, water or other fluid suitable for heat dissipation.

In the first embodiment of the invention, the cavities are located 15 . 17 on the outside of the first and second electrical line 13 and 14 and run parallel to these. During the charging process, when the battery (traction battery) is to be charged as quickly as possible, a high charging power must be transmitted. Due to the higher contact resistance directly on the plug / charging plug 11 Temperature increases first affect the charging plug 11 out. By passing through the cavities 15 and or 17 a coolant 16 is passed, the heat from the charging plug 11 and the one with the charging plug 11 in thermal contact contact socket 12 be dissipated. The first cavity 15 has a first volume 18 on and / or the second cavity 17 has a second volume 19 on. These volumes, 18 and 19 , are designed to work without passing through Reduce coolant. In other words, in the first embodiment, an elastic tube is located along the first and / or second electrical line 13 and 14 over which the coolant 16 is directed. Will not be a coolant 16 through the cavities 15 and or 17 passed, for example, the second electrical line 14 collapse flat, as this is without coolant flow, ie without the pressure of the coolant, flexible, whereas at coolant flow higher mechanical stability is achieved.

2 shows a schematic representation of a cross section through the device for cooling a connector 10 , Same elements in terms of 1 are provided with the same reference numerals and are not explained in detail. In this embodiment, the first cavity 15 and / or the second cavity 17 designed as a hose. In this case, the first cavity surrounds 15 the first electrical line 13 and / or the second cavity 17 surrounds the second electrical line 14 , Preferably, the first cavity 15 and / or the second cavity 17 divided into individual chambers, so that the coolant to the connector 10 can get there to ensure the heat dissipation and the plug connection 10 can be removed. Both cavities 15 and 17 have elastic walls with the existing coolant 16 the electrical wires 13 and 14 give more stability. In the absence of coolant 16 fall the cavities 15 and 17 as far as possible together, so that the electrical lines 13 and or 14 can be merged easier. Another variant of the liquid cooling is that in the state of charge of the charging plug 11 in the contact socket 12 the vehicle is locked and a cooling of the contact socket 12 and the charging plug 11 is done by a coolant device of the vehicle (not shown here). Because the electrical contact resistance at the connector is highest, cooling at this location will have the highest effect. The inserted charging plug 11 in the contact socket 12 gets from a cooling belt 21 (not shown here) jacketed, which cools both elements advantageous. A monitoring of the tightness of the cooling belt with air or liquid is permanently performed. For example, when the metal inner side of the hose is applied to the conductor, it can be switched off. are (electrical line 13 . 14 )

3 shows as a third embodiment, a further schematic representation of a cross section through the device for cooling a connector 10 , Same elements in terms of 1 and 2 are provided with the same reference numerals and are not explained in detail. In this embodiment, the charging plug 11 and / or the contact socket 12 at least one metal rail 20 on, which is thermally conductive with the coolant 16 communicates. The metal rail 20 advantageously consists of a metal with high thermal conductivity, preferably copper. It allows more efficient heat dissipation from the charging plug 11 and / or the contact socket 12 ,

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 102012216694 A1 [0003]

Claims (7)

Device for cooling an electrical plug connection ( 10 ), consisting of a charging plug ( 11 ), a contact socket ( 12 ), which accept the charging plug ( 11 ) is suitable, a first electrical line ( 13 ) connected to the contact socket ( 12 ) and a second electrical line ( 14 ) with the charging plug ( 11 ), characterized in that the first electrical line ( 13 ) a first cavity ( 15 ) and / or the second electrical line ( 14 ) a second cavity ( 17 ) along the electrical line ( 13 ), via which a coolant ( 16 ). Device for cooling a plug connection ( 10 ) according to claim 1, characterized in that the first cavity ( 15 ) and / or the second cavity ( 17 ) is designed as a hose. Device for cooling a plug connection ( 10 ) according to claim 1, characterized in that the first cavity ( 15 ) the first electrical line ( 13 ) and / or the second cavity ( 17 ) the second electrical line ( 14 ) surrounds. Device for cooling a plug connection ( 10 ) according to one of the preceding claims, characterized in that as coolant ( 16 ) Air is used. Device for cooling a plug connection ( 10 ) according to claim 4, characterized in that the first cavity ( 15 ) a first volume ( 18 ) and / or the second cavity ( 17 ) a second volume ( 19 ), wherein the first volume ( 18 ) and or the second volume ( 19 ) reduced without passing coolant. Device for cooling a plug connection ( 10 ) according to one of the preceding claims, characterized in that as coolant ( 16 ) a liquid is used. Device for cooling a plug connection ( 10 ) according to claim 1, characterized in that the charging plug ( 11 ) and / or the contact socket ( 12 ) at least one metal rail ( 20 ), which are thermally conductive with the coolant ( 16 ). Device for cooling a plug connection ( 10 ) according to claim 7, characterized in that the metal rail ( 20 ) consists of copper.

Images