LU93238B1 - Connector part for a charging system - Google Patents

Abstract

A connector part (1) for connection to a mating connector part (2), in particular for a charging system for charging an electric vehicle, comprises a housing (10) and a plug-in opening (101) formed on the housing (10), which has a first opening portion (101 A ) and a second opening portion (101 B), wherein a mating connector part (2) with a mating plug portion (200) in an insertion direction (E) in the first opening portion (101 A) of the insertion opening (101) can be inserted. At least one first plug-in section (11) projects into the first opening section (101 A) with at least one first electrical contact element (110), and at least one second plug-in section (12) projects into the second opening section (101 B) with at least one second electrical contact element (120) into it. It is provided that the at least one second plug portion (12) has a contact portion (123) which is formed with the connector part (1) connected mating connector part (2) with a mating plug portion (200) surrounding peripheral surface (206) of the mating connector part (2) to get into abutment with support. In this way, a connector part for connection to a mating connector part is provided, which may have a reduced space requirement, while still favorable mechanical connection with a mating connector part in the inserted state.

Description

9 * 932 3 8

Connector part for a charging system

The invention relates to a connector part for connecting to a mating connector part, in particular for a charging system for charging an electric vehicle, according to the preamble of claim 1.

Such a connector part comprises a housing and a plug-in opening formed on the housing. The plug-in opening has a first opening section and a second opening section, in each of which electrical contact elements are arranged. Thus, at least a first electrical contact element projects into the first opening section, while at least one second electrical contact element protrudes into the second opening section.

Such a connector part can be used in particular in the context of a charging system for charging an electrically driven vehicle (referred to as electric vehicle) use. Such a connector part can in this case be arranged for example as a charging socket on an electric vehicle, but can also be attached as a charging plug, for example, to a charging cable and connected via the charging cable with a charging station.

Connector parts for charging an electric vehicle are now standardized and thus defined in their mechanical dimensions as well as in the arrangement of the contact elements.

For example, the international standard IEC 62196 defines a type 2 charging plug system that specifies a universal plug system for electric vehicles with a charging capacity of 1.9 KW to 240 KW. While the Type 2 charging plug system is for AC charging, an extension of this charging plug system known as CCS 2 (CCS for Combined Charging System) can also be used for direct current charging.

For example, a common in China, referred to as GB / T 20234.2 standard specifies a charging plug system, which is comparable in its mechanical design to the type 2 charging plug system according to the IEC standard, but in which the Steckabschnittgeometrien to provide Steckdomen on the one hand and sockets on the other hand between charging plug and charging socket are reversed and also no

Charging plug with a combined AC / DC plug face (as used in IEC 62196 CCS 2).

A connector part which allows charging of an electric vehicle with either an alternating current or a direct current (eg according to IEC 62196 CCS 2), allows to insert an AC charging plug into a first opening section to charge the electric vehicle via first contact elements in this first opening section using alternating current. Soil the electric vehicle are charged in contrast with a direct current, a DC charging plug is inserted into the second opening portion of the plug opening and thereby contacted with the second contact elements, wherein in such a DC charging plug also signal contacts and a ground contact (PE contact) in the first opening section can be used.

In standard charging connector systems, the geometric dimensions of charging socket on the one hand and charging connector on the other hand are given, so that the required space is largely prescribed by the standard. A space reduction, especially in the plane transverse to the direction of insertion, is thus hardly possible in standardized systems.

However, there are also areas of application that are subject to no or only limited normative regulations. For such applications may be desirable to provide connector parts with a reduced space requirement available. In a construction space reduction, however, it should be noted that a combination of connector part and mating connector part should be mechanically sufficiently supported in the mated state to create a mechanically stable connection between the connector part and the mating connector part.

Object of the present invention is to provide a connector part for connection to a mating connector part available, which may have a reduced space requirement, while still favorable mechanical connection with a mating connector part in the inserted state.

This object is achieved by an article having the features of claim 1.

Accordingly, the at least one second plug-in section has an abutment section, which is designed to abut against the mating plug-in part connected to the plug-in part with a circumferential surface of the mating plug-in part part surrounding the mating plug section. For example, an alternating current can be transmitted via the first contact elements on the first plug-in section assigned to the first opening section, while, for example, a direct current can be transmitted via the second contact elements on the plug-in section of the second opening section. Thus, both an alternating current and a direct current can be transmitted via the connector part, for example for charging an electric vehicle.

The connector part may for example be designed as a charging socket and e.g. to be arranged on an electric vehicle.

If a current is transmitted via the first contact elements of the first plug-in section in the first opening section, an associated mating plug connector part with its mating plug section is inserted into the first opening section of the plug-in opening. As a result, contact elements on the mating plug section engage with the first contact elements on the first plug-in section of the first opening section, so that an electrical contact is made between the plug connector part and the mating plug connector part.

In order to reduce the space required for such a connector part (on which the contact elements in the first opening section and / or the second opening section can be used for electrical contacting), the different opening sections of the plug-in opening are approached and merge into each other, so that an inward opening the mating connector part inserted into the first opening section of the plug opening of the plug connector part projects into the second opening section of the plug opening part and is supported on the second plug section assigned to the second opening section.

The second plug-in section of the second opening section thus also serves for the mechanical support of a mating plug section of a mating plug connector part inserted into the first opening section, so that a reliable, mechanically loadable support of the mating plug connector part on the mating plug connector part

Connector part can be provided. The plug portion of the second opening portion thus not only serves - as before - for electrical contacting, but at the same time for mechanical support when a mating plug portion is inserted into the first opening portion for contacting with the first contact elements of the first opening portion.

At the second opening section, one or more second plug-in sections may be formed. For example, a plug-in section may be provided on which a plurality of electrical contact elements are arranged. It is also conceivable and possible, however, to provide a plurality of separately formed plug-in sections in the second opening section, wherein each plug section is assigned exactly one electrical contact element.

The at least one second plug-in portion may be formed, for example, as a protruding mandrel with, for example, a cylindrical basic shape. The at least one second plug-in section is in this case surrounded, for example, by a lateral surface into which the contact section is formed.

The contact portion is preferably along the direction of insertion on the lateral surface extends. Upon insertion of the mating connector part in the first opening portion of the plug-in opening of the connector part, the mating plug portion of the mating connector part thus slides along the contact portion, so that the contact portion guides the plugging movement along the plugging direction.

In one embodiment, the abutment portion, viewed in a cross-sectional plane transverse to the insertion direction, for example, be concave. If, for example, the mating plug portion of the mating connector part is cylindrically shaped (at least in sections), this makes it possible for the mating plug portion of the mating plug portion to abut against the contact portion in connected condition.

Each opening portion of the plug-in opening of the connector part is preferably delimited by a bottom when viewed along the plug-in direction. The at least one first plug-in section protrudes along the plug-in direction from the bottom of the first opening section, while the at least one second plug-in section projects from the bottom of the second opening section along the plug-in direction.

The plug-in sections are preferably made of an electrically insulating material, in particular a plastic material, so that contact elements arranged on the plug-in sections are electrically insulated from one another.

An assembly, for example, for a charging system for charging an electric vehicle advantageously comprises a connector part of the type described above and a to be connected to the connector part mating connector part. The mating connector part in this case has a mating plug portion for insertion into the first opening section of the plug-in opening of the plug connector part, so that electrical contact with the first contact elements in the first opening section of the plug connector part can take place via the mating plug section and contact elements arranged thereon. By abutment of the mating plug portion on the abutment portion of the at least one second plug portion in the second opening portion of the plug-in opening, the mating plug connector part is mechanically supported on the plug connector part.

The mating plug portion of the mating connector part is advantageously circumferentially surrounded by a circumferential surface. About this peripheral surface of the mating plug portion comes into contact with the contact portion of the at least one second plug portion of the connector part, when the mating connector part is inserted into the connector part. In this case, the mating plug-in section may, for example, have a cylindrical cross-sectional shape, which may be flattened on one side, for example.

The mating plug portion of the mating connector part may for example have a standardized shape and a standardized distribution of its contact elements. For example, the mating connector part can realize a charging plug according to the I EC or the GB / T standard.

By supporting the mating plug portion of the mating connector part in the plugged-in state (zusâtziich) on at least a second plug portion of the (unused) second opening portion, it becomes possible to integrate different mating faces, for example for transmitting an alternating current on the one hand and transmitting a direct current on the other hand at least partially into each other , Thus, the mating plug portion protrude in the inserted state in the second opening portion and be supported there on the at least one second plug portion, resulting in a mechanically stable hold of the

Can favor mating connector part on the connector part and also allows a spatially close construction of the groups of contact elements of the different opening portions.

The idea underlying the invention should be explained in more detail below with reference to the embodiments illustrated in the figures. Show it:

Fig. 1 is a schematic view of a charging system for charging a

Electric vehicle;

Figure 2 is a view of an embodiment of a connector part in the form of a charging socket for attachment to an electric vehicle.

Fig. 3 is a front view of the connector part;

Figure 4 is a view of an embodiment of a mating connector part for connection to the connector part.

Figure 5 is a view of the connector part, with an inserted into the connector part mating connector part.

Fig. 6 is a fragmentary enlarged view of the arrangement of FIG. 5;

Fig. 7 is a view of an embodiment of a conventional

Mating connector part in the form of a charging plug;

Fig. 8 is a view of another mating connector part in the form of a

Charging plug;

9 is a view of a conventional connector part in the form of a

Charging socket; and

10 is a view of another mating connector part in the form of a

Charging plug.

1 shows a schematic view of a charging system for charging an electric vehicle 5, that is, for charging batteries of an electrically driven vehicle (electric car), via a charging station 4.

At the electric vehicle 5, a connector part 1 is attached in the form of a charging socket, which can be connected in a plug-in manner with a mating connector part 2 in the form of a charging connector. The mating connector part 2 is connected to the charging station 4 via a charging cable 3, so that when mating connector part 2 inserted into the connector part 1, an electrical connection is made between the charging station 4 and the electric vehicle 5 and charging currents can be transmitted.

FIGS. 7 to 10 show charging connector systems which are designed according to the specifications of different standards.

7 and 8 show mating connector parts 2 in the form of charging plugs, and FIG. 9 shows a connector part 1 in the form of a charging socket, which are designed according to the international standard IEC 62196. While the connector part 1 shown in FIG. 9 may serve to transmit both AC and DC power (IEC 62196 CCS 2), the connector part 1 shown in FIG. 8 for transmitting an AC power and the connector part 1 shown in FIG. 7 for transmitting a DC current serve.

The connector part 1 according to FIG. 9 has a housing 10 which has a front side 100 with a plug-in opening 101 formed therein and bounded by a peripheral wall 102.

The plug-in opening 101 is functionally divided into two opening sections 101 A, 101 B.

In the upper, first opening section 101A, a first plug-in section 11 'is arranged, in which (in total seven) socket-shaped plug-in openings 111 are formed with pin-shaped contact elements 110 arranged therein. The contact elements 111 of this plug-in section 11 'provide load contacts for the transmission of a (single-phase or polyphase) alternating current, signal contacts and a central grounding contact (ΡΕ contact) being additionally provided.

In contrast, a second plug-in section 12 'is arranged in the lower, second opening section 101B, in which two plug-in openings 121 are formed with contact elements 120 arranged therein for transmitting a direct current.

The mating connector part 2 according to FIG. 8 has a housing 20 and a mating plug section 200 formed thereon. The mating connector part 2 can be inserted into the upper, first opening section 101 A of the plug-in opening 101 of the connector part 1 (FIG. 9) in an insertion direction E. As a result, contact elements 210 reach into plug-in domes 21 within the mating plug-in section 200 with the contact elements 110 in the plug-in openings 111 of the plug-in section 11 'in electrical contact, so that an alternating current can be transmitted.

Soil on the other hand, a DC to charge the electric vehicle 5 are used, the mating connector part 2 shown in FIG. 7 is used, which has at its Gehause 20 an upper, first mating portion 200 and a lower, second mating portion 201. When inserted into the connector part 1, the first mating plug portion 200 engages with the first opening portion 101 A, while the second mating plug portion 201 is inserted into the second opening portion 101 B.

On plug domes 22 in the second mating plug portion 201 are load contacts performing electrical contact elements 220 are arranged, which engage with the contact elements 120 at the second plug portion 12 'within the second opening portion 101 B, so that a load current in the form of a direct current can be transmitted. By contrast, contact elements 210 in plug-in domes 21 on the upper, first mating plug section 200 make contact with contact elements 110 of the first plug-in section 11 'within the first opening section 101A for transmitting control signals and for earthing, so that signal contacts and a grounding contact (ΡΕ contact) of the first opening portion 101A also be used for the DC transmission.

The mating connector part 2 shown in FIG. 10 is in contrast to the standard GB / T 20234. 2 formed. The mating connector part 2 according to FIG. 10 corresponds functionally essentially to the mating connector part 2 according to FIG. 8 and serves to transmit a charging current in the form of an alternating current. In the mating connector part 2 according to FIG. 10, however, only one mating plug section 200 is present, in which a plurality of plug openings 202 are arranged with pin-shaped contact elements arranged therein. In the charging connector system according to the GB / T standard, dom-shaped and socket-shaped geometries between the connector part and the mating connector part are thus interchanged with respect to the IEC standard.

Because the geometric dimensions of plug-in sections and mating plug sections are predetermined in standardized charging plug systems, the installation space is determined largely as far as possible, especially in the plane transverse to the plug-in direction E. In application areas in which it is possible to deviate from the normative regulations, it is possible to change the geometric dimensions in order to achieve a reduction in space. However, it should be noted that a reduction of the installation space does not impair the electrical strength and, moreover, sufficient mechanical support must be provided from the connector part to the mating connector part in the inserted state.

In an embodiment of a connector part 1 shown in FIGS. 2 and 3 in the form of a charging socket to be arranged, for example, on an electric vehicle 5, opening portions 101 A, 101 B of a plug-in opening 101, which is formed in a front side 100 of a housing 10, are functionally at least partially integrated. Thus, in this embodiment, plug-in portions 11 in the form of cylindrical, protruding from a bottom 103 sockets within the first opening portion 101A of the plug opening 101 plug portions 12 in the form of cylindrical, from a bottom 104 protruding dome within the second opening portion 101B of the plug 101 spatially approached, resulting in causes a mating connector part 2, which is inserted into the first opening portion 101A to transmit a charging current in the form of a direct current, with its mating male portion 200 to project into the second opening portion 101B, as shown in FIGS. 5 and 6.

The connector part 1 is in this case based on the charging connector system according to the GB / T standard and allows plugging a mating connector part 2 for transmitting an alternating current in the first opening portion 101A, which is designed according to the specifications of the GB / T standard and the mating connector part 2 in accordance Fig. 10 corresponds. In plug-in connection, the mating connector part 2 engages with its mating plug portion 200 with the first opening portion 101A of the plug hole 101, the plug portions 11 inside the first opening portion 101A retracting into the contact holes 202 on the mating plug portion 200 of the mating connector part 2, so that the socket-shaped contact members 110 in FIG contact the contact openings 111 of the plug portions 11 with pin-shaped contact elements in the contact openings 202 of the mating plug portion 200.

The plug-in opening 101 is circumferentially surrounded by a wall 102 which limits the plug-in opening 101 in the plane transverse to the plug-in direction E. Because the first opening portion 101A and the second opening portion 101B are approximated to each other, the mating connector part 2 is supported on the wall 102 only in a reduced manner, compared to a previous, standardized connector part (see FIG. 2 in conjunction with FIG. 9). In order to provide an additional support for the mating plug portion 200 in the plug 101, the plug portions 12 in the form of cylindrical plug domes in the second opening portion 101B of the plug 101 each on its peripheral surface 122 has an axially along the plug-in direction E, concave curved contact portion 123, which when plugged in with a mating plug portion 200 circumferentially bounding peripheral surface 206 comes into abutment, thereby performs the insertion movement and provides an additional mechanical support in the inserted state.

As can be seen in particular from the enlarged view according to FIG. 6, the mating plug portion 200 is thus peripherally supported in the plugged-in state and thus held mechanically firmly in the plug-in opening 101 of the plug connector part 1.

The abutment sections 123 on the plug-in sections 12 in the second opening section 101B serve in particular for the mechanical support of a mating connector part 2 which is inserted into the upper, first opening section 101A. In this case, the second opening section 101B remains (as far as possible) free, so that the contact elements 120 are not electrically contacted within the plug-in openings 121 of the plug-in sections 12.

Because the geometry of the plug 101 and also the arrangement of the contact elements 110, 120 modified from each other compared to the conventional, standardized combinations of connector part and mating connector part, and a mating connector part 2, which is to serve for transmitting a direct current, adapt. This is illustrated in an embodiment in Fig. 4.

Accordingly, mating plug portions 200, 201 are integrated with each other in the mating connector part 2, that the mating connector part 2 with the mating plug portions 200, 201 in both opening portions 101 A, 101 B of the plug 101 of the connector part 1 can be inserted simultaneously. At an upper, first mating plug portion 200, pin-shaped contact elements 210 are arranged in plug openings 202, which come into contact with the plug portions 11 of the plug connector part 1 during plug-in connection with contact elements 110 and realize signal contacts and, for example, a ground contact (ΡΕ contact). On the other hand, contact elements 220, which realize load contacts and come into contact with the contact elements 120 in the plug-in sections 12 within the second opening section 101B of the plug-in opening 101 of the plug connector part 1, are arranged on a lower, second mating plug section 201.

As can be seen from FIG. 4, a curved section 205, which is pre-curved into the plug-in opening 203, is formed inside the plug-in openings 203, which serves to engage with the contact section 123 on the respectively assigned plug-in section 12 of the plug connector part 1.

At a side facing the upper, first mating plug portion 200, the lower, second mating plug portion 201 is concavely curved at a wall portion 204. This wall portion 204 abuts when inserted with a shoulder 124 between the bottom 104 of the second opening portion 101B and the bottom 103 of the first opening portion 101A.

The idea on which the invention is based is not limited to the exemplary embodiments described above, but can basically also be implemented in a completely different manner.

In particular, a connector part of the type described here and a combination of a connector part with a mating connector part not only in the context of a charging system for charging an electric vehicle usable, but can be used in a variety of ways quite different.

LIST OF REFERENCES 1 connector part (charging socket) 10 housing 100 front side 101 plug-in opening 101 A, 101 B opening section 102 wall 103, 104 floor 11, 11 'plug section 110 electrical contact element (contact socket) 111 contact opening 12, 12' plug section 120 electrical contact element (contact socket) 121 contact opening 122 Lateral surface 123 contact section 124 paragraph 2 mating connector part (charging connector) 20 housing 200,201 mating section 202,203 contact opening 204 wall section 205 curved section 206 peripheral surface 21,22 contact elements 210,220 electrical contact 3 charging cable 4 charging station 5 vehicle E direction of insertion

Claims (12)

A connector part (1) for connection to a mating connector part (2), in particular for a charging system for charging an electric vehicle, comprising - a housing (10), - a plug-in opening (101) formed on the housing (10), which has a first opening section (101 A) and a second opening portion (101 B), wherein a mating connector part (2) with a mating plug portion (200) in a plugging direction (E) in the first opening portion (101 A) of the plug opening (101) can be inserted, - at least a first plug-in section (11) projecting into the first opening section (101 A) with at least one first electrical contact element (110) and - at least one second plug section (12) projecting into the second opening section (101 B) with at least one second electrical contact element (120), characterized in that the at least one second plug portion (12) has an abutment portion (123) which is formed with the st eckverbinderteil (1) connected mating connector part (2) with a mating plug portion (200) surrounding circumferential surface (206) of the mating connector part (2) to reach supporting in conditioning. Second connector part (1) according to claim 1, characterized in that the at least one second plug-in portion (12) is formed as a projecting dome. 3. connector part (1) according to claim 1 or 2, characterized in that the at least one second plug-in portion (12) has a cylindrical basic shape. 4. connector part (1) according to one of claims 1 to 3, characterized in that the at least one second plug portion (12) has a circumferential surface (122), wherein the abutment portion (123) on the lateral surface (122) is formed. 5. connector part (1) according to claim 4, characterized in that the contact portion (123) along the insertion direction (E) on the lateral surface (206) extends. 6. connector part (1) according to any one of the preceding claims, characterized in that the contact portion (123), viewed in a cross-sectional plane transverse to the insertion direction (E), is concavely curved. 7. connector part (1) according to any one of the preceding claims, characterized in that each opening portion (101 A, 101 B), viewed along the plugging direction (E), by a bottom (103, 104) is limited, 8. plug connector part (1) according to claim 7, characterized in that the at least one first plug portion (11) along the plugging direction (E) of the bottom (103) of the first opening portion (101 A) and the at least one second plug portion (12) protrudes along the plugging direction (E) from the bottom (104) of the second opening portion (101 B). 9. connector part (1) according to one of the preceding claims, characterized in that the at least one second plug portion (12) made of an electrically insulating material, in particular a plastic material, is made. 10. An assembly, comprising a connector part (1) according to one of the preceding claims and one with the connector part (1) to be connected mating connector part (2), wherein the mating connector part (2) has a mating plug portion (200) for insertion into the first opening portion (101 A ) of the plug-in opening (101) of the connector part (1). 11. An assembly according to claim 10, characterized in that the mating plug portion (200) circumferentially surrounded by a peripheral surface (206) connected to the connector part (1) mating connector part (2) with the contact portion (123) of the at least one second plug portion (12) of the connector part (1) supporting in abutment. 12. An assembly according to claim 10 or 11, characterized in that the mating plug portion (200) protrudes with the connector part (1) connected mating connector part (2) in the second opening portion (101A).