EP3582993A1 - Connection device for charging a battery device on a vehicle - Google Patents

Abstract

The invention relates to a connection device (10) for charging a battery device on a vehicle, having an electrical alternating current interface (20) for receiving an alternating current connector and a direct current interface (30) for receiving a direct current connector (130), wherein the direct current interface (30) has a cover flap (40) which is mounted movably between a closed position (SP) which covers the direct current interface (30) and an open position (FP) which exposes the direct current interface (30). According to the invention, the direct current interface (30) has a catch mechanism (50) with a catch means (52) on the cover flap (40), said catch means locking with a mating catch means (54) of the cover flap (40) when in the open position (FP), wherein the mating catch means (54) has an actuating section (56) with which the direct current connector (130) makes contact and which unlocks the catch device (50) when the direct current connector is received in the direct current interface (30).

Description

 Connecting device for charging a battery device of a vehicle

The present invention relates to a connection device for charging a

Battery device of a vehicle and a DC plug for insertion into such a connection device.

It is known that vehicles have battery devices, in particular to serve for driving such a vehicle. These can be purely electric vehicles but also vehicles with supporting

Electric motor, in particular so-called hybrid vehicles. To charge the

 Battery device are usually provided in such electrically powered vehicles power interfaces to supply the battery device with associated power and charging. It is fundamentally to distinguish between two concepts, how and in what way the battery device can be charged. For one, this is an AC charging option, with a corresponding

AC plug can be plugged into an AC interface.

Alternatively, it is also possible that DC plugs are used to plug into a DC interface of such a terminal device. A disadvantage of the known solutions is that there should be opportunities that vehicles can be charged with two different charging mechanisms, ie both with alternating current, as well as with direct current. Accordingly, separate interfaces in the form of an AC interface on the one hand and a DC interface on the other hand are necessary for this purpose. However, this can basically lead to confusion. In particular, in tank situations in which a person who is not the vehicle owner to perform a refueling service, it is advantageous if only a single standard interface is provided in the form of the AC interface. If, however, another charging situation, for. B. is to be provided at home in the garage of the vehicle owner, in addition, the DC interface is useful. The above explanation shows that the combination of a AC interface on the one hand and a DC interface on the other hand for a connection device for charging a battery device of a vehicle increases not only the complexity of the system, but also the complexity of handling in particular by different groups of people.

It is an object of the present invention to at least partially overcome the disadvantages described above. In particular, it is an object of the present invention in a cost effective and simple manner to reduce the complexity in terms of use in a connection device with double charging function.

The above object is achieved by a connection device with the

Features of claim 1 and a DC plug with the features of claim 10. Further features and details of the invention will become apparent from the dependent claims, the description and the drawings. In this case, features and details that are described in connection with the connection device according to the invention, of course, also in connection with the

DC connector according to the invention and in each case vice versa, so that with respect to the disclosure of the individual invention aspects always reciprocal reference is or can be.

According to the invention, a connecting device for charging a battery device of a vehicle is configured. For this purpose, the claim device has an electrical AC interface for receiving an AC plug and a

DC interface for receiving a DC plug on. The DC interface is equipped with a cover flap, which is located between one of the

DC interface concealing closed position and the DC interface releasing release position is movably mounted. A

Connecting device according to the invention is characterized in that the

DC interface has a latching mechanism with a locking means on the cover flap. This locking means locked with a counter-locking means of the cover in the release position. In this case, the counter-locking means on an operating section, which is contacted when receiving the DC plug in the DC interface of this and triggers the locking of the locking device.

According to the invention, the connection device is designed with two different and separate connection options for charging the battery device. On the one hand, this is the AC interface, which can be designed in particular as a standard AC interface. Additionally and separately, the DC interface is provided, which is responsible for the recording of the

DC plug is designed. In accordance with the invention, at least the DC interface can now be brought into two different positions. This refers to the respective position of the cover flap. With the help of the cover flap, the DC interface can be at least partially covered in the closed position thereof. In this covered position of the cover now access to the DC interface for a corresponding DC plug is no longer possible. Only when the cover has been moved from the closed position to the release position, the access and thus the insertion of a DC plug into the DC interface is possible.

The DC interface and the AC interface have in the

Essentially two fundamental components. Each of the two interfaces has a geometric shape, which according to the key-lock principle the

associated and complementarily shaped plug can accommodate. In addition, an arrangement of corresponding electrical terminals is provided within the DC interface and within the AC interface, which can be brought into an electrically conductive contact with associated electrical terminals of the respective connector when it is plugged into the associated interface. In this case, the respective contour, which can receive the associated connector form-fittingly, is configured differently between the alternating-current interface and the direct-current interface and in particular designed to be exclusive. This means that both the DC plug and the AC plug can not be plugged into the other interface. In accordance with the invention, it is now possible for the standard AC interface to be used for normal service operation during charging. Both the user of the vehicle, as well as a third person, for. As the service personnel of a gas station, can now get in a simple and fast way direct access to the open AC interface and plug in an associated AC plug. It should be noted that the entire connection device in a vehicle usually behind a cover, which is also referred to in vehicles as tank lid, is arranged. As soon as this gas cap opens, the person has direct access to the AC interface, but not to the DC interface, as it is in a covered position, namely the closed position of the cover.

If it is now desired, the vehicle in an exceptional situation, for. B. the domestic garage, a hotel or at another loading position on a

 To load DC functionality, the cover of the

Closed position to be moved to the release position. In this movement, a change in the correlation of a locking means with the counter-locking means of

Cover flap, so locked in the release position, the counter-locking means with the locking means and in this way the locking mechanism holds the cover in the open position, ie the release position. Thus, it will after opening the

Cover flap easy to plug the corresponding DC plug into the DC interface, since the cover is in the release position in a secured position by the latching mechanism.

To prevent a complex situation with an open DC interface from being removed when the DC plug is disconnected, it is necessary to note that

According to the invention, an automatic termination of the release position for the cover given. This is achieved by using a geometric correlation in the DC interface with the DC plug

Contacting the actuating portion of the counter-locking means already during insertion of the DC plug into the DC interface. By this operation, the latching between the counter-locking means and the latching means is canceled when plugging the DC plug into the DC interface. So as soon as the DC plug is in the inserted position in the DC interface, the cover flap is held only in the release position that there is a geometric correlation with the DC plug in the inserted position, and thus the collapse in the Closing position is prevented. As soon as the DC plug is disconnected from the DC interface after the charging process has been completed, this geometric correlation is missing and the cover flap can be moved to the closed position, in particular in automatic or automatic mode

be returned partially automatic way.

By combining a partial coverage of the connection device, namely the cover of the DC interface with the cover flap on the one hand and moreover with a substantially automatic closure after charging, the overall complexity of the connection device with respect to the use is significantly reduced. For the normal charging process at the AC interface, the DC interface via the cover flap is invisible or, as far as the functionality is concerned, invisible. When charging via the DC interface with a DC plug, the plugging in of the DC plug already prepares you for the automatic reset after the charging process has ended and the DC plug has been disconnected

Standard position is achieved, namely with the cover in the closed position. It may be advantageous if, in a connecting device according to the invention, the locking device has a biasing means, which covers the cover with a

Preload force applied in the direction of the closed position. Under a biasing means is in particular a spring device to understand which a spring means, a

Elastomer or a similar component to provide a force. In particular, the biasing means has an associated spring characteristic, which depending on the relative position of the individual relevant components to one another provides defined force for loading. The biasing means thus serves to ensure that the cover flap moves without any counterforce always in the direction of the closed position, preferably into the closed position. In particular, the biasing means is configured such that the biasing force in the cover flap in this closed position still includes a residual closing force. That means a

unwanted rattling in the closed position of the cover is avoided while driving the vehicle. As soon as the DC plug is removed from the DC interface, the biasing force of the biasing means now leads to the fact that due to the lack of blockage of the DC plug after its removal now the cover flap automatically and driven by the biasing force of

Biasing means is brought back into the closed position.

It is also advantageous if in a connecting device according to the invention, the cover flap has a sliding surface for slipping of the DC plug when removing from the DC interface. Such sliding facilitates the

 Possible uses in a connection device according to the invention still further. Thus, when inserting the DC plug into the DC interface of the locking mechanism is released, as has already been explained. This works

Cover flap back so far that it strikes the base body of the DC plug and is prevented by this, to be moved further in its closed position. This is especially correlated with the biasing means according to the preceding paragraph. As soon as the charging process is finished, the DC plug should be removed from the DC interface. For this purpose, however, the contact between the cover and the DC plug remains, so that takes place here a slide. A sliding surface is in the context of the present invention on the cover in particular a flat, preferably flat portion which prevents the locking or snagging or snagging between the cover on the one hand and the DC plug on the other. This ensures that the automatic closing can also be done using the described biasing means in a simple, inexpensive and fast way. It is also advantageous if, in a connection device according to the invention, the counter-locking means is movably mounted between a locking position and a release position. While basically static, mechanical, magnetic or combined embodiments of a locking mechanism are conceivable, it is in a kind of movable purely mechanical solution for the counter-locking means to a particularly simple and inexpensive embodiment. In particular, by the detent position and the release position by means of simple geometric correlations of the individual components to each other an exact definition and predetermination of

Movement possibilities of the individual components are provided to each other. In particular, the counter-locking means can be provided movably about a central locking bearing axis. Preferably, this locking bearing axis is parallel or substantially parallel to a bearing axis of the cover flap, which can also be referred to as Abdecklagerachse.

It is also advantageous if in a connection device according to the invention, the counter-locking means comprises a spring device which acts on the counter-locking means with a spring force in the direction of the locking position. The spring device likewise has a spring means on which the corresponding force, preferably with a spring characteristic, can be made available. By this bias using the

Spring device, the locking takes place in a secured manner also automatically when the cover has moved to the release position. It may be advantageous if the spring device and / or the counter-locking means a separate

Have release functionality in the form of a solvent to pick up even without plugging a DC plug the locking mechanism and return the cover to the closed position can.

It is advantageous, moreover, if in an inventive

Connection device, the locking means has a contour portion for a sliding contact of the counter-locking means during the movement of the cover flap between the closed position and the release position. In particular, this is a curved, preferably around a simply curved surface. The contour section serves to avoid undesired catching and thus a mechanical defect between the latching means and the counter-latching means, or to reduce its probability to a minimum. The contour section thus serves, in particular, at least partially, for guiding the counter-locking means in its relative movement to the latching means.

It may also be advantageous if, in a connection device according to the invention, the cover flap has a cover section, which covers the DC interface in the closed position and leaves open the AC interface. As has already been explained, the AC interface is designed in particular as a standard interface, so that after opening a fuel cap of a vehicle direct access to the connection device and thus also exposed

AC interface is possible. The substantially exclusive coverage of the DC interface and the release of the AC interface further enhances this advantage and, in particular, emphasizes standardization with the AC interface when used in charging a battery device. In normal charging, therefore, the AC interface is always automatically accessible immediately and the DC interface in terms of

DC charging functionality in a first step reset by the

Cover flap.

It is also advantageous if in a connection device according to the invention according to the preceding paragraph, the cover in the release position of

Cover flap covers the AC interface at least partially. While accidental incorrect insertion of an associated connector in the wrong interface is already avoided by different geometric embodiments of the AC interface and the DC interface, can be ensured by the at least partially covering the AC interface in the release position that already the attempt of wrong insertion of the

DC plug in the AC interface also optical

For backup reasons omitted. This reduces the complexity of the overall system in particular, and simplifies the use in the implementation of a

Charging. The cover flap thus has not only the first functionality, as has been explained in accordance with the invention, but also a second backup functionality against unwanted insertion into the wrong interface.

It is furthermore advantageous if, in the case of a connecting device according to the invention, a sensor device is provided for detecting at least one of the following positions:

 - closed position

 - Release position

 - Rest position

 - Release position The list above is a non-exhaustive list. With the aid of the sensor device, in particular a sensor signal or a

Output signal are generated, which correlates with the associated detected position. Thus, in particular a subsequent control unit with this

Output are supplied and adapted to the appropriate actual deployment situation. For example, is the cover in the

Release position, this information can be used to switch an associated control unit to a charging process using the DC interface. Next can be determined using the release position of the locking mechanism that the associated DC plug is now in the plugged position in the DC interface and now the charging process can be started. As soon as the cover flap is in the closed position, the control unit can be switched over to the standard charging function using the AC interface. Another object of the present invention is a DC plug for insertion into a connecting device according to the invention. Such a DC Plug has a base body with a contact portion for contacting the actuating portion of the counter-locking means of the locking mechanism. Thus, a DC plug according to the invention brings the same advantages as have been explained in detail with reference to a connection device according to the invention.

Likewise provided by the present invention is a system of one

Connecting device according to the present invention and at least one

DC plug according to the present invention.

Further advantages, features and details of the invention will become apparent from the following description in which with reference to the drawings

Embodiments of the invention are described in detail. The features mentioned in the claims or in the description may each be essential to the invention individually or in any desired combination. They show schematically:

1 shows a connection device according to the invention in the normal state, the embodiment of FIG. 1 with the cover open,

3 shows the embodiment of FIGS. 1 and 2 before plugging in the DC

plug

4 shows the embodiment of FIGS. 1 to 3 after the removal of the DC

Plug and

Fig. 5 is a detail of a locking mechanism in the

Connection device. Figures 1 to 4 show, as schematically, a charging process using a DC plug 130 at the DC interface 30 of the terminal device 10 can be performed. The connection device 10 is equipped for this purpose with two separate interfaces, namely the AC interface 20 on the one hand and the DC interface 30 on the other. If a fuel cap is opened on an electrically driven vehicle, the view becomes visible, as shown in FIG. In other words, the AC interface 20 is open to access an AC plug. However, if no charging by means of an AC plug is desired for a particular case, the DC interface 30 must be uncovered. In the closed position SP, the DC interface 30 is still covered by a cover portion 44 of the cover 40 and accordingly neither visible nor accessible.

Figure 2 shows the situation when the cover flap 40 has been moved to the release position FP. Thus, the cover portion 44 has been brought in this release position FP in a position in which now a direct access and the inspection of the DC interface 30 is possible. It should also be noted that by means of a biasing means 58, the cover flap 40 is biased in the direction of the closing position SP. So in order to hold against this biasing force of the biasing means 58, the cover flap 40 in the release position FP according to Figure 2 is a

Latching mechanism 50 present, as will be explained later with reference to Figure 5.

Thus, as soon as access to the DC interface 30 according to FIG. 2 has taken place by moving the cover flap 40 into the release position FP, the

DC plug 130 are introduced according to Figure 3 in the DC interface 30. The DC plug 130 is for this purpose with a main body 132nd

fitted. At its front end, which is also formed as a form-fitting section or Gegenformschlussabschnitt for penetration into the DC interface 30, a contact portion 134 is provided, which has a corresponding correlation in a geometrical manner within the DC interface 30. When plugging the DC plug 130 into the DC interface 30, the contact section 134 contacts an actuating section 56 of a counterpart Locking means 54, as shown in particular in the embodiment of Figure 5. This results in that the latching functionality of the latching mechanism 50 is released. Thus, now in the inserted position of the DC plug 130 is the

Preload the biasing means 58 on the cover 40 and moves them into a contacting position with the main body 132 of the DC plug 130. Due to the fact that the latching of the latching mechanism 50 is released at this time, when pulling the DC plug 130, as this is shown schematically in Figure 4, automatically by the biasing force of the biasing means 58 the

Cover flap 40 and thus also the cover 44 back into the

Closed position SP brought in accordance with Figure 4.

FIG. 5 shows schematically how such a detent mechanism 50 can be formed. If the cover flap 40 is brought with the cover 44 in the release position FP, as shown here in Figure 5, then the counter-locking means 54 will slide over a contour portion 53 and in its latching position RP as shown in Figure 5, the Lock cover flap 40 and secure. As soon as the DC plug 130 is introduced into the associated DC interface 30, there is a contact between a contact portion 134 and the operating portion 56 of the locking means 54. Thus, the counter-locking means 54 is returned to the

Release position LP, as shown by an arrow in Figure 5. A

Spring device 55 may serve to urge the counter-locking means 54 in the detent position RP with an associated force. Once the release of the latching of the latching mechanism 50 has taken place, when the DC plug 130 is removed, the cover flap 40 can automatically return to the closed position after removal of the DC plug 130. Since here usually a contact of the main body 132 of the DC plug 130 on the one hand and the body of the cover 40 on the other hand, in this embodiment, a sliding surface 42 is provided which can ensure a safe sliding without snagging. The above explanation of the embodiments describes the present invention solely by way of example. Of course, individual can Features of the embodiments, if technically feasible, are freely combined with one another without departing from the scope of the present invention.

Claims

claims

1. Connection device (10) for charging a battery device of a

A vehicle comprising an AC electrical interface (20) for receiving an AC plug and a DC interface (30) for receiving a DC plug (130), the DC interface (30) having a cover flap (40), which is movably mounted between a closing position (SP) covering the DC interface (30) and a release position (FP) releasing the DC interface (30), characterized in that the DC interface (30) has a

Latching mechanism (50) with a latching means (52) on the cover flap (40) which with a counter-latching means (54) of the cover flap (40) in the release position (FP) locked, wherein the counter-latching means (54) a

Operating portion (56) which is contacted when receiving the DC plug (130) in the DC interface (30) of this and the locking of the latching device (50) dissolves.

Second connecting device (10) according to claim 1, characterized in that the latching device (50) comprises a biasing means (58) which acts on the cover flap (40) with a biasing force in the direction of the closed position (SP).

3. Connection device (10) according to one of the preceding claims, characterized in that the cover flap (40) has a sliding surface (42) for a

Slipping of the DC plug (130) when disconnecting from the DC interface (30).

4. Connecting device (10) according to one of the preceding claims, characterized in that the counter-locking means (54) movable between a

Resting position (RP) and a release position (LP) is mounted.

5. Connection device (10) according to claim 4, characterized in that the counter-locking means (54) has a spring device (55) which acts on the counter-locking means (54) with a spring force in the direction of the detent position (RP).

6. Connecting device (10) according to any one of the preceding claims, characterized in that the latching means (52) has a Kontourabschnitt (53) for a sliding sliding contact of the counter-latching means (54) during the movement of the cover flap (40) between the closed position ( SP) and the release position (FP).

7. Connection device (10) according to one of the preceding claims, characterized in that the cover flap (40) has a cover portion (44) which in the closed position (SP) covers the DC interface (30) and the AC interface (20 ) leaves free.

8. Connection device (10) according to claim 7, characterized in that the cover section (44) in the release position (FP) of the cover flap (40) at least partially covers the AC interface (30).

9. Connection device (10) according to one of the preceding claims, characterized in that a sensor device (60) is provided for detecting at least one of the following positions:

- closed position - release position

- Rest position

- Release position

10. DC plug (130) for insertion into a connection device (10) with the features of one of claims 1 to 9, comprising a base body (132) having a contact portion (134) for contacting the

Operating portion (56) of the counter-locking means (54) of the latching mechanism (50).