• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a first component (1) of a charging device for electrical energy exchange of an object with an accumulator, in particular for charging a rechargeable battery, for example an accumulator of an electric vehicle, comprising a contacting element (2), wherein the contacting element (2) with a coupling element of a second component for producing an electrical connection is connectable. According to the invention, a base (5) and an arm (6) arranged thereon are provided, wherein the arm (6) is movably mounted on the base (5) around and / or along several axes about the contacting element (2) to the coupling element respectively. Furthermore, the invention relates to a charging device with such a component and a second component with a latching element, wherein one of the components 15 (1) is fixed in place. Furthermore, the invention relates to a use of a first component (1) and a method for electrically charging a device.
    公开号:AT520449A4
    申请号:T50832/2017
    申请日:2017-09-27
    公开日:2019-04-15
    发明作者:
    申请人:Nrg X Charging Systems Gmbh;
    IPC主号:
    专利说明:

    Component for a charging device and charging device hereby
    The invention relates to a first component of a charging device for electrical energy exchange of an object with an accumulator, in particular for charging a rechargeable battery, for example a battery of an electric vehicle, comprising a contacting element, wherein the contacting element is connectable to a coupling element of a second component for producing an electrical connection.
    Furthermore, the invention relates to a charging device for charging a device, in particular a movable device such as an electric vehicle, with such a first component.
    Moreover, the invention relates to a use of such a first component or a charging device.
    Finally, the invention relates to a method for electrically charging a device, in particular a mobile device such as an electric vehicle, wherein the device is positioned for charging, after which an electrical connection is made to a voltage source to charge a battery of the device.
    Various charging devices for charging accumulators have become known from the prior art. In addition to the household appliances well-known chargers, which are relatively small, also much larger charging stations have become known, which are used in particular in the field of electric vehicles. Due to an increasing relative share of electric vehicles in the vehicle market, it is expected that a higher local availability of charging stations will be required.
    Some parking spaces are already equipped with an electrical connection for charging an electric vehicle during a parking phase. In the future, it might become necessary that each individual parking space of a parking lot has a charging device for an electric vehicle.
    It may become necessary for a loading to be user-independent or automated. This is especially true when high-performance charging is desired. Charging capacities of up to 800 kW are already being considered today. Such charging power can be realized, however, require cables with large diameters, which are difficult and therefore manageable by a user only with the appropriate effort.
    The requirements of an automated charging process mentioned in the preceding paragraph also arise in particular in the case of autonomous operation of vehicles which drive automatically, but should always make available, independently of the user, when ready for operation, for example for car-sharing.
    Manual charging is required for the current EV charging points or charging stations. This means that the user himself has to provide for an electrical connection of a charging device to the electric vehicle. It would be much more efficient, however, if, for example, when parking an electric vehicle on a parking space of a parking lot could be done at any time an automatic connection to a voltage source, so that the or the accumulators of the electric vehicle can be charged or energy can be exchanged in general, if energy is to be fed back ,
    From WO 2016/119000 A1, a charging device has become known, which already partly takes into account a requirement for a possible automated loading. The corresponding charging device is constructed in two parts. The charging device comprises a stationary, bottom-side arranged first component, which has a conically shaped plug which is movable. A second component is attached to an electric vehicle, preferably on the underbody. This second component comprises a plate having a plurality of conical receptacles substantially corresponding to the plug. If an electric vehicle with such a second component now parks on a parking space equipped with the first component, the first component can be extended and connected to the second component. In this case, due to the complementary conical formations and the large number of possible contacting possibilities on the plate on the underside of the electric vehicle, an automatic positive connection and thus the production of an electrical connection possible. The disadvantage here, however, is that the plate on the underside of the electric vehicle must be relatively large dimensions, so that an electrical connection can be made even if the electric vehicle is not parked exactly above the first component. For a larger tolerance range or the possibility of charging even with inaccurate shutdown of the electric vehicle is thus the disadvantage of a vehicle relatively heavy module or a large plate to take into account.
    On this basis, it is an object of the invention to provide a first component which eliminates the disadvantage explained above.
    Another object is to provide a charging device with such a component.
    Another object is to provide a use of a first component of the type mentioned above and a charging device.
    Finally, it is an object of the invention to develop a method of the type mentioned in such a way that a charging of an electric vehicle is made possible with a relatively simple structure.
    The object of the invention is achieved if, in a first component of the type mentioned, a base and an arm arranged thereon are provided, wherein the arm is movably mounted on and / or along a plurality of axes on the base to the contacting element to the coupling element to lead.
    An advantage achieved by the invention is to be seen in particular in the fact that due to the training with a base and an arm arranged thereon, which is movably mounted around and / or along several axes, the contacting element with more degrees of freedom than previously moved, what it allowed to form the second component with little or even a contacting element. The second component can therefore be minimized in terms of space and weight. In this case, the first component is usually mounted stationary, for example in a parking lot, whereas the second component is positioned on an electric vehicle. But it is also possible that this installation situation is reversed, that is, the first component is fixed with the arm to a vehicle, whereas the second component is provided stationary on a parking space. The relative arrangement can be chosen arbitrarily, for example, the second component can be laterally attached to an electric vehicle; the arm of the first component then moves when loading laterally to the coupling element of the second component. However, a constellation or installation situation in which the first component is mounted stationary on a parking space and the second component is mounted on an electric vehicle on or in the region of the subfloor is particularly preferred. The electric vehicle can then be parked on a parking space and it can be a loading from the bottom side. This has the advantage that the first component while loading is largely protected from the weather at the same time.
    For the required mobility of the arm with the contacting element, it is expedient if the arm is mounted horizontally pivotable on the base. The arm can then be rotated in a plane that is usually parallel to the ground. A first pivot axis then runs vertically to the base. Basically, it can be provided that the first pivot axis allows complete rotation of the arm about the base, so the pivoting covers an angle of 360 °. For practical purposes, however, it is quite sufficient if the corresponding pivoting range from -90 ° to + 90 °, preferably from -60 ° to + 60 °, runs. This ensures that the arm can compensate for a positioning inaccuracy when parking an electric vehicle along a sufficient circular arc.
    The pivotal range of the arm may be symmetrical to an initial position of the arm as described above. In particular, when a drive for the linear movement of the arm or at least parts thereof is provided, the arm for reasons of low construction next to this drive, preferably at the same height, can be arranged. The arm is then at the same height, but next to the linear drive. In this case, the arm may be formed with respect to the initial position also with an asymmetric pivoting range. It is expedient if the arm continues to pivot in the direction towards the drive, for example up to -50 °, and less widely in the opposite direction, for example up to 30 °.
    In addition to the pivotability about the first pivot axis is preferably further provided that the arm is total or at least partially longitudinally displaceable. By a corresponding additional displacement on the base and / or relative to this, an even larger area can be covered in combination with the pivotability about the first pivot axis. In other words, the contacting element can be achieved in a large surface area. A tolerance range when parking or parking an electric vehicle is increased because a possible larger distance between contacting and coupling element by the linear movement of the arm or a part thereof can be bridged.
    The arm can be stored completely displaceable. For example, the arm can be moved by a motor along a straight line. But it is also possible that the arm is designed as a telescopic arm. A first end of the arm then remains stationary in operation with respect to the linear movement, whereas the second end is extended linearly with the contacting element. It is also possible that only a portion of the arm is designed to be linearly movable. In such an embodiment, pivotal movements can be initiated via a first section and the linear displacement over a second section which rotates rigidly with the first section. In all embodiments, the focus is ultimately on the fact that the contacting element can bring about the pivoting movements and a linear displacement in a suitable position for connection to the coupling element. The arm is thus designed so that these different movements in particular directly affect the position of the contacting element.
    Advantageously, a first drive is provided, with which the arm is linearly displaceable. This may be, for example, a motor which provides a spindle for a linear displacement of the arm. Other embodiments are possible, such as a motor with a gear which engages a rack to move the arm. A drive via a toothed belt is possible; Alternatively, a servomotor can be used for this purpose. In principle, any means is suitable which can effect the desired linear driving of the arm or a part thereof.
    Furthermore, it can be provided that the arm is mounted pivotable about a second pivot axis vertically on the base. A corresponding mounting about a second pivot axis is expedient in order to raise and lower the contacting element on the arm in a simple manner. Due to the pivotability about the first pivot axis in combination with the linear displaceability of the arm, the contacting element can be positioned in the region of a coupling element of a second component. In principle, it may also be provided for height-wise bridging that then a separately movable part of the arm is moved rectilinearly upwards, but with sufficient stability the pivoting movement of the arm can achieve the required distance bridging with simple means.
    In this context, it can be provided that a second drive is provided for vertical pivoting of the arm. The second drive may comprise an electric motor. The electric motor can drive an actuating means which raises or lowers the arm.
    Furthermore, it is expedient that a third drive for horizontal pivoting of the arm is provided on the base. Thus, in a preferred embodiment, three drives are provided, via which the arm can be pivoted and moved around or along several axes. In this case, it may in particular also be provided that all types of movement are limited at both ends or at the ends by Hall sensors, which are actuated by a correspondingly placed permanent magnet. This significantly increases the reliability compared to mechanical limit switches. Alternatively and / or additionally, a corresponding position can also be determined via inductive sensors or other suitable means. Especially for a pivoting movement, a further sensor can be provided, which determines a center position of the arm, that is, a position in which the arm is not pivoted or stands straight, which was previously referred to as the starting position.
    When the arm is pivoted about the second pivot axis, for which a pivoting movement from the base up to a maximum of 60 ° is generally sufficient, the preferably end mounted on the arm contacting element is also moved, which is ultimately the purpose of the movement of the arm. Thus, the contacting element remains in a pivotal movement in a position in which this can interact with the coupling element of a second components, it is preferably provided that the arm is divided into several sections, wherein in a lifting or lowering movement of the arm, a first section automatically in a substantially horizontal position remains. Here, the contacting element is arranged in the region of or on the first section. In a pivoting movement about the second pivot axis of the arm is, for example, pivoted upwards and fed to a bottom of an electric vehicle, the first portion with the contacting element remains substantially in a horizontal position. This can be achieved, for example, by mechanically coupling the first section to the first section. This is advantageous insofar as the horizontal alignment of the contacting element is automatically accompanied by the pivoting movement about the second pivot axis. In particular, an approximate parallelogram guide of the first section can be provided for this purpose via one of the further sections. The angle of inclination of the first section can then be kept constant when lifting or lowering the arm. For this purpose, it is deliberately deviated from an exact parallelogram, so that the first section with the contacting element would be placed slightly obliquely, but this is compensated by its own weight including the weight of the contacting and by a game of fastening components such as bolts and / or screws, that the first portion and thus also the contacting element is kept horizontal.
    The first component has the advantage that it can not only cover a wide range, but also builds particularly low in the inactive state, preferably with a height of less than 7.0 cm. The first component can be mounted stationary. For example, it is possible that the first component is embedded in a floor. In this case, a flush conclusion may be provided with the surrounding soil. A flush finish can be achieved with a bottom plate that closes at the level of the environment, but is movably mounted at and / or for use of the then located below first component. The bottom plate may be slidably mounted, for example, to the side. A particularly space-saving and therefore elegant solution results when the movement of the bottom plate is tuned or coupled with a movement of the first component.
    For this purpose, a further, fourth drive can be provided, which raises the bottom plate, so that the first component can be extended. Advantageously, the bottom plate is raised at several points simultaneously, so that lateral frictional forces in the connection area when lifting the bottom plate, but also when lowering into the flush final position are as reduced as possible. This can be achieved for example via a spindle drive, but also other suitable lifting and lowering means such as pneumatic or hydraulic lifting and lowering devices can be used in principle.
    The base is usually mounted stationary. The base may have at least one opening through which at least one cable can be guided, so that an electrically conductive connection to the contacting element is possible from or away from it, when the first component is in communication with other units of a power network. If a turntable is mounted on the base, which carries the drives and the arm and allows a horizontal pivoting movement, then this turntable also advantageously has an opening for the passage or guidance of a cable. Conveniently, the opening is then on or around the fulcrum, so that the pivoting movement is possible despite guided by cable without further notice.
    Conveniently, the first component is formed with a first housing, so that protection is given in the inactive state, in particular for the contacting element, via which ultimately an electrical connection is to be made. The housing can cover the entire component or only parts thereof. In order to open the first housing for an active state relatively easily, it is advantageously provided that a movement of the arm leads to a folding of the housing. If the arm is retracted, this in turn leads to a collapse of the housing. Due to the corresponding mechanical coupling, no additional drives are required for opening and closing the first housing. This can be realized, for example, by the housing can only be opened against a predetermined force, which can exercise the arm anyway. A possible mechanism for this is given by a corresponding spring load. In principle, however, it would also be possible to design the first housing such that, when the first component is fastened to the base during retraction of the arm, it automatically recovers due to gravity and can be opened against gravity. However, this requires a more massive design of the housing. In general, however, an advantageous embodiment is always given when the first housing is automatically openable upon actuation of the arm against a holding force. When the holding force is exerted by a spring, the first housing may be in communication with at least one spring which holds the first housing in the closed state, but also holds the first housing when fully open. The spring is designed and positioned accordingly. In principle, however, several springs can be provided for such functionality.
    The further object of the invention is achieved if in a charging device of the type mentioned, the first component is formed according to the invention and a second component is provided with a coupling element, wherein one of the components is fixed in place.
    A corresponding charging device brings in particular the advantage that the second component, which is usually mounted on the vehicle side, can be made relatively small and with low weight. Thereby, the advantage is achieved that an operation of an electric vehicle is more cost-effective in terms of power consumption. In particular, the charging device allows automatic charging, as required for autonomous driving. Also for other applications such as vehicle fleets or car sharing, a charging device according to the invention offers.
    The charging device is advantageously designed so that the contacting element with the arm can be independently centered inserted into the coupling element. The contacting element of the first component may be formed, for example, as a plug. The coupling element of the second component is then designed as a corresponding receptacle. Here, a structural design of the two elements according to WO 2016/119001 A1, the disclosure of which is hereby incorporated by reference in particular with respect to the formation of the connector, is preferred. However, it is also possible a reverse training, since it does not depend on the exact position of the plug. However, since the arm is usually cooperates with drives and thus a force can be exerted on the arm, it proves useful if, in a training with a plug and a corresponding receptacle of the plug is attached as a contacting element on the arm. Moreover, this also results in the advantage that the second component can be designed essentially as a passive component. In particular, it is not necessary to exert a force on the second component.
    If the coupling element is designed as a plug, it is advantageous if the contacting element has at least one contacting point, wherein the at least one contacting point can be activated after positioning of the contacting element in the coupling element for producing an electrical connection. Of course, however, a plurality of contacting points may also be provided, for example three, five or seven contacting points. Here, the contacting element as mentioned may be formed in particular according to WO 2016/119001 A1. If this is the case, the contacting element can be inserted into the coupling element and locks in place after suitable positioning. For this purpose, the contacting element is conical in cross section. The coupling element has a corresponding conical depression. Furthermore, the contacting element can be mounted on a flexible carrier indirectly on the arm, so that the contacting element is held within predetermined limits in addition to the movement over the arm movable. Due to this additional adaptability of the position of the contacting element within smaller additional limits, employment of same on the coupling element is largely independent of perfect position control. The contacting element can therefore engage self-positioning in the coupling element under the application of force. After the contacting element and the coupling element have been brought into mechanical or positive connection with each other in a first step and are in a loading position, by moving the contacting points, the electrical connection can be made to start a charging process. The displacement of the contacting points can for example be done by these are held by spring force in a rest position, which is released after said positive connection of contacting and coupling element, so that the contact points are moved by the spring force to make the electrical contact. It can be provided that the contacting points are only moved when a minimum force is achieved with respect to the employment of the contacting element to the coupling element. at
    Implementation of this variant, a force sensor may be provided which measures the contact force. This force sensor can be arranged on the carrier for the contacting element.
    The contacting points are adapted in cross section to the desired charging power. If high charging power is required, the cross section is correspondingly larger. For example, the contacting points may be formed as copper rings having a ring thickness of 0.5 mm to 2.0 mm. The remote station, so the coupling element can be varied accordingly. It is also possible that an outer diameter of the copper rings is constant and is done via a variation over the inner diameter and thus in turn the ring thickness. The coupling element can then have a constant inner diameter in the interplay. In addition, the contacting points of the contacting element as well as those of the coupling element can also be varied in the maximum insertion depth, whereby a further possibility of power adjustment is given. Maximum power is defined by the component with the lowest transferable power. This allows adapted charging scenarios. For example, the contacting element can be designed to be powerful and then interact with a high-performance coupling element in the public sector, but also with a low-power coupling element in the domestic area. In public areas are usually given short parking periods; it can then be desired and done a fast, powerful loading. At home there are usually long periods of absence. Time is therefore a less critical factor, which is why a lower charging power is sufficient for the domestic area.
    Advantageously, the second component is formed with a second housing, so that in the inactive state (that is, when no charging occurs) protection against contamination is given. This is particularly important when the electric vehicle is moving and exposed to various influences such as moisture or dust. The second housing can be designed so that it automatically opens mechanically as soon as the arm touches the second housing and applies a certain force. For this purpose, the second housing may be in communication with at least one spring, which holds in the second housing in the closed state. With the arm of a first component can then be applied the required force for automatic mechanical opening of the housing. For this purpose, the second housing upon actuation of the arm against a holding force can be opened automatically. Alternatively, it is also possible for the second housing to be opened independently of contact with the arm of a first component, for example by means of an electric motor. This variant has the advantage during operation that it can be opened independently of the arm, so even if the arm would be outside a desired position for the opening of the second housing. The two preceding variants can also be combined. It can therefore be provided in principle for an exclusively mechanical actuation for the opening of the second housing, wherein, if necessary, however, an opening by means of an electric motor is possible. It is possible that the first component is mounted below a floor and means are provided to lift or lower the first component from this position. The lifting and lowering means can be designed as desired, for example as pneumatically or hydraulically operating lifting devices or as a toothed drives.
    In accordance with the advantages presented above, a first component according to the invention or a charging device according to the invention is preferably used for charging the accumulator of a vehicle, in particular of a passenger vehicle. Usually this is an electric vehicle.
    The procedural object of the invention is achieved when, in a method of the type mentioned in the region of a first component according to the invention is positioned, after which the contacting element of the first component is connected to a coupling element of a second component which is attached to the device to the to make electrical connection.
    An advantage achieved by means of a method according to the invention can be seen in particular in that a voltage can be applied to an electric vehicle or another object for charging a rechargeable battery in a simple manner, wherein the object can be positioned relatively inaccurately over the first component. Due to the corresponding area coverage of the first component, with which the contacting element is movable over wide areas, the required positional flexibility is achieved. The procedure is bidirectional. Thus, first of all the electrical connection is essential. The device to be charged can be positioned either closer to the contacting element or closer to the coupling element in the direction of current flow.
    Further features, advantages and effects will become apparent from the embodiments illustrated below. In the drawings, to which reference is made, show:
    Fig. 1 is a perspective view of a first component in a resting state (without main panel);
    FIG. 2 shows a lower side of the first component from FIG. 1; FIG.
    FIG. 3 shows the first component from FIG. 1 in a partially extended state; FIG.
    4 shows a side view of the first component from FIG. 1 in a partially extended state;
    FIG. 5 shows the first component from FIG. 1 in a fully extended state in a side view; FIG.
    FIG. 6 shows the first component from FIG. 1 in the fully extended state in a perspective representation; FIG.
    7 shows a second component in the closed state in plan view;
    FIG. 8 is a side view of the second component of FIG. 7; FIG.
    FIG. 9 is an end view of the second component of FIG. 7; FIG.
    FIG. 10 is a perspective view of the second component of FIG. 7; FIG.
    11 is a plan view of the second component of Figure 7 in the open state.
    FIG. 12 shows a side view of the second component according to FIG. 11; FIG.
    FIG. 13 is an end view of the second component of FIG. 11; FIG.
    FIG. 14 is a perspective view of the second component of FIG. 11; FIG.
    Fig. 15 shows a carrier without a contacting element;
    16 shows a carrier with contacting element;
    17 shows a first component integrated in a ground in the inactive state;
    FIG. 18 shows a first component integrated in a bottom during opening; FIG.
    19 shows a first component integrated in a ground in the active state.
    In Fig. 1, a first component 1 is shown. The first component 1 is substantially elongated. A bottom view of the first component 1 is shown in FIG.
    The first component 1 has a base 5 which is clearly visible, in particular in FIG. 2. The base 5 represents an immovable part of the first component 1. The base 5 can be fixed, for example, stationary on a substrate. But it is also possible that the base 5 is attached to an electric vehicle. As can be seen in FIG. 1, an arm 6 is mounted on the base 5. In the illustration in FIG. 1, the first component 1 is in a rest position or zero position. The arm 6 is partially covered by a diaphragm 10. Also visible in FIG. 1 are a first drive 7, a second drive 8 and a third drive 9, the effects of which will be explained below. The arm 6 has at one end or at the end a contacting element 2.
    In addition, FIGS. 1 and 2 show a first pivot axis X1 and a second pivot axis X2. 2, the first pivot axis X1 extends vertically to the base 5. According to FIG. 1, the second pivot axis X2 runs parallel to the flat or flat base 5.
    The arm 6 is movably mounted on the base 5, in several aspects. First, the arm 6 about the first pivot axis X1, which is vertical to the base 5, pivotally. The corresponding bearing can be designed so that the arm 6 is pivotable about the base 5 by 360 °. In general, however, it is sufficient if from the position shown in Fig. 1 or zero position, a deflection of -50 ° to the left to + 40 ° to the right is possible, especially if the arm 6 as shown in Fig. 1 for the realization a low height of the first component 1 is arranged in addition to other sub-components, but still sufficient angles are to be covered on both sides. This covers a sufficient angular range on both sides. Furthermore, the arm 6 is pivotable about the second pivot axis X2. The corresponding pivoting movement is viewed from the base 5 and based on the illustration in Fig. 1 allows upwards. It is sufficient if the corresponding pivoting movement is possible up to 60 ° upwards. As can be seen from FIGS. 1 and 2, the individual components, for example the first drive 7, the second drive 8 and the third drive 9 and the arm 6 are arranged substantially in one plane, so that the first component 1 is particularly flat. In general, the first component 1, including a first housing not shown in detail, which may be formed for example from a plastic, has a height of less than 7.0 cm.
    As can be seen, for example, from FIG. 1, the arm 6 is arranged on the base 5 in addition to the units for linear driving, but also those for carrying out the pivoting movements. By this displacement of the arm 6, a particularly compact construction of the first component 1 can be achieved. Of course, it would alternatively also possible to arrange the arm 6 so that it comes to rest on different drive units. However, this would automatically entail a higher height.
    In order to deflect the arm 6 and thus the contacting element 2 from the zero position in FIGS. 1 and 2, the arm 6 and all other components which are mounted on a plate 11, relative to the base 5 around the first by the third drive 9 vertical pivot axis X1 are pivoted. For this purpose, the third drive 9 comprises, for example, a small electric motor and a gear which rotates or pivots the plate 11 and thus all components of the first component 1 located thereon relative to the base 5. The plate 11 then moves, as shown in FIG. 2 bottom side rolling and / or sliding elements 12 are provided which serve to support, but are not mandatory. Subsequently, the arm 6 can be linearly moved or extended via the first drive 7. For this purpose, the first drive 7 as shown in the embodiment can also be formed with a small electric motor and a spindle 13. Upon actuation of the corresponding electric motor, the spindle 13 is rotated, whereby the arm 6 is moved along the spindle 13. The arm 6 is for this purpose slidably mounted on the plate 11, which is again rotatably mounted as mentioned against the base 5. However, the spindle 13 is merely an exemplary propulsion means. Other drive means, which fulfill the same purpose, namely a linear movement of the arm 6, are of course possible within the scope of the invention. For example, a linear servo motor can be used.
    A third type of movement of the arm 6 is made possible via the second drive 8 for vertically pivoting the arm 6 about the second pivot axis X2. By a corresponding pivoting movement of the arm 6 is moved upward. In this case, the aperture 10 is automatically opened against a predetermined holding and closing force. For the corresponding pivoting movement, as shown in FIG. 3, a mechanism 14 may be provided with a further spindle 15, which is driven by an electric motor.
    If a first housing, not shown in FIG. 1, is provided for the first component 1, it is expedient to carry out the third movement type at least partially immediately at the beginning in order to open the first housing. The remaining steps can then be performed in any order.
    If the corresponding movements are carried out, the first component 1 can be in a working state, as shown in perspective in FIGS. 3 and 4 (FIG. 3) or in a side view (FIG. 4). This is not necessarily a maximum deflection along all motion components. Rather, the first component 1 can be extended even further. In Fig. 5 and 6, a maximum deflection in all directions of movement, namely about the pivot axis X1 and the pivot axis X2 and along the displacement path of the arm 6, is shown. Compared with Fig. 1, taking into account a length of the arm 6 of about 20 cm to 50 cm and the specified pivoting ranges that a sufficient range can be covered, so that the contacting element 2 with a yet to be explained coupling element 4 of a second component 3 interaction can, even if an electric vehicle with the second component 3 is not parked exactly above the first component 1. Rather, there is a very large tolerance range.
    As can be seen in FIG. 4, the arm 6 can be subdivided into a first section 61 and at least one further section 62. As can be seen, the first section 61 is held in a horizontal position even during a lifting or lowering movement. For this purpose, an approximate parallelogram guide of the first section 61 is provided, which is articulated for this purpose on at least one further section 62. In comparison to an ideal parallelogram but a deviation is given because the contacting element 2 usually has a relatively high weight and is also usually positioned at one end of the arm, so thus a long lever is given. In order to take this into account, there is a slight deviation in the sense that the first section 61 per se moves more than necessary and is generally tilted slightly, which is compensated by its own weight and the weight of the contacting element 2, so that ultimately during a Huboder lowering movement of the first portion 61 is kept substantially horizontal.
    Upon activation of the first component 1, as already briefly explained, a small stroke is initially carried out, as a result of which the lid or the first housing opens. After opening the lid and the implementation of said first stroke both the desired pivoting movements and the linear movements can be performed in any order or optionally simultaneously.
    The first component 1 may have on the bottom side a locking which temporarily prevents or blocks a pivoting movement about the pivot axis X1. As a result of the entire unit much larger shear loads, for example, when driving over, be caught on the arm area. The latch may be configured to automatically release when the arm is raised. A possible formation of the lock is given with a pin or bolt.
    A second component 3 can be seen in various views from FIGS. 7 to 10 in a closed state and from FIGS. 11 to 14 in an opened state. The second component 3 comprises a second housing 31, which is designed to be openable. While the first component 1 is usually mounted stationary, the second component 3 is usually attached to an electric vehicle, for example on the underside or bottom plate. In this case, the second element is positioned on the electric vehicle that in the open position, the coupling element 4 is accessible from below. A coupling element 4 may then be paired with the contacting element 2 of the first component to make an electrical connection.
    For charging a rechargeable battery of an electric vehicle, the electric vehicle is positioned above a first component 1. The first component 3 is then activated, and opens by operating the arm 6. The arm 6 is then moved into the region of the bottom side of the electric vehicle mounted second component 3. The individual movements of the arm 6 (pivoting movements on the one hand and linear movements on the other hand) can take place at the same time after a first slight stroke to open the first housing in order to enable rapid positioning. The exact positioning of the arm 6 and in particular of the contacting element 2 is achieved on the one hand via a radio coupling of the electric vehicle with the first component 1. The communication with the electric vehicle via Bluetooth or similar wireless communication, with a target parking position can be displayed on a display in the vehicle interior. On the other hand, a real-time position determination is carried out for the contacting element 2, which is possible in particular by means of ultrasound.
    As soon as the arm 6 touches the second housing 31, it opens automatically, for example passively, so that the contacting element 2, which is conical as shown, can be connected to the corresponding conically recessed coupling element 4. An automatic opening of the second housing 31 is possible, which may be coupled, for example, with a certain degree of extension of the arm 6. To move the second housing 31, for example, in FIG. 12 apparent pinion can be provided, which can also be slightly inclined to safely open the second housing 31, but also make a strong enough and thus close tightly. To connect the necessary fit is first ensured, which can be achieved due to the conical design and a yielding within certain limits storage of the contacting element 2 by the positive connection. For this purpose, the corresponding guides on a smaller vertical component, so that in particular when closing, for example, against a peripheral seal sufficient pressure for a closed and protected against splashing and foreign particles position results. As soon as the contacting element 2 is fixed in a suitable position, contacting points located within the contacting element 2 are released, which then extend upward and thus contact electrical contacts of the coupling element 4 in order to establish an electrical connection. Thus, voltage can flow via a charging device from the first component 1 and the second component 3 from a power network in the accumulator of the electric vehicle. Conversely, a feedback feed from the vehicle into a power grid or charging other device with the accumulator of the electric vehicle is possible.
    FIGS. 15 and 16 show details of a first component 1 which can be used. In Fig. 15 and 16, a first portion 61, as shown in Fig. 4, shown in a variant embodiment. FIG. 16 shows the same first section 61 with a contacting element 2 mounted thereon. As can be seen in FIG. 15, a support 611 is provided which is arranged on the first section 61. This carrier 611 may be formed cross-shaped as shown, wherein a receptacle for the contacting element 2 is provided centrally. A cross of the carrier 611 is made of a somewhat yielding material, such as a slightly harder rubber having a Shore A hardness of about 90, to compensate for inclinations of a few degrees about both axes. An achievable maximum inclination can be limited to, for example, 10 °, preferably 7.5 °, in particular 5 ° or less. This results in itself from the material for the cross of the carrier 611 and its thickness. Incidentally, the carrier 611 on the outside comprises a ring 612, which may for example also consist of an organic plastic or of a stretchable and tear-resistant silicone compound. This ring 612 encloses all four folded ends of a sheet metal part 613, which forms a circular cutout and defines a maximum deflection in any horizontal direction. The standing with the ring 612 in connection sheet metal part 613 prevents in particular a falling out of the contacting element 2 upwards. The elastic ring 612 also ensures that the contacting element 2 can not only be deflected horizontally, but also returns to a center position as soon as the deflecting force subsides or disappears. Overall, a relatively gentle connection of the contacting element 2 with the coupling element 4 can be achieved by this solution. The arm 6 with the contacting element 2 can be guided in use, for example via an ultrasound determination with relatively large positional accuracy to the coupling element 4. However, a certain flexibility for the contacting element 2 is given by the resilient mounting of the contacting element 2 on the carrier 611 or by means of the same, so that the risk of rapid wear or even an inhibition is significantly reduced.
    FIGS. 17 to 19 show a variant of a first component 1 which terminates flush with a bottom 18. This floor 18 may be, for example, the floor 18 of a parking lot. The first component 1 is sunk in the bottom 18 installed. In principle, the first component 1 can be designed as explained above, that is also in the illustrated embodiments. The first component 1 basically also operates in the manner already described. However, it is necessary for a recessed, in particular flush installation that the first component 1 is first exposed, so that they can subsequently perform the described movement mechanisms. For this purpose, a further fourth drive 16 is provided, which in a first step lifts off a bottom-side cover 17 or a bottom plate via a suitable drive mechanism from the bottom 18. It is expedient that a drive mechanism is provided which lifts the lid 17 substantially vertically and lowers again accordingly after operation. Of course, other solutions are conceivable, for example, a lateral unfolding of the lid 17. However, a vertical operation has the advantage that the lid 17 at the pads to the bottom 18 toward either only a small or, if a slight gap is held, subject to no friction , Even if no gap can be left on the connection surfaces for reasons of preventing contamination or a seal is provided, this results in a relatively gentle opening of the cover 17.
    As mentioned, any drive mechanisms for opening the lid 17 are possible. For example, a spindle drive 20 shown in FIG. 18 with a left-handed spindle and a right-handed spindle can be provided for a substantially vertical stroke acting at several points, these counter-rotating spindles allowing the engagement of a lifting movement at several positions of the cover 17 due to the counter-rotation ,
    The lid 17 is in communication with the mechanism for lifting the lid 17. In order for this mechanism in the non-active state, so if the lid 17 is flush with the bottom 18 is not or at least not highly loaded, the cover 17 is expediently at least in several points on a fixed frame underneath or can there come to the plant. It is preferred that a corresponding frame is provided, in which the cover 17 can initiate when closing. The frame may additionally be equipped with a seal to prevent in particular water, but also solids such as dust particles from penetrating.
    Provided pushers which raise a second cover part, advantageously have such a length or height adapted that they are in the raised state, as shown in FIG. 18 can be seen vertically or their attachment points are exactly vertical one above the other. As a result, the raised lid 17 can absorb very high (vertical) loads, without the spindle drive 20 being loaded or being able to be set in rotation, since the load is discharged directly into the ground via the vertically projecting pusher elements.
    It should be understood that in the embodiment illustrated above, the individual elements of the first component 1 and the second component 3 for permanent use can be equipped with additional protection devices to prevent ingress of foreign particles. For example, the arm 6 may be formed independently of the specific training as a freestanding or retractable solution for protection with a bellows.
    权利要求:
    Claims (20)
    [1]
    claims
    1. First component (1) of a charging device for electrical energy exchange of an object with an accumulator, in particular for charging a rechargeable battery, for example a battery of an electric vehicle, comprising a contacting element (2), wherein the contacting element (2) with a coupling element (4) of a second component (3) for making an electrical connection is connectable, characterized in that a base (5) and arranged on this arm (6) are provided, wherein the arm (6) and / or movable along several axes on the Base (5) is mounted to guide the contacting element (2) to the coupling element (4).
    [2]
    2. Component (1) according to claim 1, characterized in that the arm (6) is mounted horizontally pivotable on the base (5).
    [3]
    3. component (1) according to claim 2, characterized in that a first pivot axis (X1) extends vertically to the base (5).
    [4]
    4. component (1) according to one of claims 1 to 3, characterized in that the arm (6) is total or at least partially longitudinally displaceable.
    [5]
    5. component (1) according to one of claims 1 to 4, characterized in that a first drive (7) is provided, with which the arm (6) is linearly displaceable.
    [6]
    6. component (1) according to one of claims 1 to 5, characterized in that the arm (6) about a second pivot axis (X2) is mounted vertically pivotable on the base (5).
    [7]
    7. component (1) according to one of claims 1 to 6, characterized in that a second drive (8) for vertical pivoting of the arm (6) is provided.
    [8]
    8. component (1) according to one of claims 1 to 7, characterized in that a third drive (9) for horizontal pivoting of the arm (6) on the base (5) is provided.
    [9]
    9. component (1) according to one of claims 1 to 8, characterized in that the arm (6) is divided into several sections, wherein in a lifting or lowering movement of the arm (6), a first portion (61) automatically in one remains substantially horizontal position.
    [10]
    10. component (1) according to one of claims 1 to 9, characterized in that the first component (1) are formed with a first housing.
    [11]
    11. Component (1) according to claim 10, characterized in that the first housing upon actuation of the arm (6) against a holding force is automatically openable.
    [12]
    12. component (1) according to claim 10 or 11, characterized in that the first housing is in communication with at least one spring, which holds the first housing in the closed state.
    [13]
    13. Charging device for charging a device, in particular a movable device such as an electric vehicle, characterized in that a first component (1) according to one of claims 1 to 12 and a second component (3) is provided with a coupling element (4) one of the components (1,3) is fixed in place.
    [14]
    14. Loading device according to claim 13, characterized in that the contacting element (2) with the arm (6) is independently centerable in the coupling element (4) can be inserted.
    [15]
    15. Charging device according to claim 13 or 14, characterized in that the contacting element (2) has at least one contacting point, wherein the at least one contacting point after positioning of the contacting element (2) in the coupling element (4) can be activated to produce an electrical connection.
    [16]
    16. Loading device according to one of claims 13 to 15, characterized in that the second component (3) with a second housing (31) is formed.
    [17]
    17. A charging device according to claim 16, characterized in that the second housing (31) is in communication with at least one spring, which holds the second housing (31) in the closed state, and / or the second housing (31) upon actuation of the arm (6) is automatically openable against a holding force.
    [18]
    18. Loading device according to one of claims 13 to 17, characterized in that the first component (1) below a bottom (18) is mounted and means are provided to lift the first component (1) from this position or in this reduce.
    [19]
    19. Use of a first component (1) according to one of claims 1 to 12 or a loading device according to one of claims 13 to 18 for charging a battery of a vehicle, in particular a passenger car.
    [20]
    20. A method for electrically charging a device, in particular a movable device such as an electric vehicle, wherein the device is positioned for loading, after which an electrical connection is made to a voltage source to charge a battery of the device, characterized in that the device in the range a first component (1) according to any one of claims 1 to 12, after which the contacting element (2) of the first component (1) is connected to a coupling element (4) of a second component (3) fixed to the device to make the electrical connection.
    类似技术:
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    同族专利:
    公开号 | 公开日
    US20200164758A1|2020-05-28|
    WO2019060939A1|2019-04-04|
    AT520449B1|2019-04-15|
    EP3687851A1|2020-08-05|
    CN111225821A|2020-06-02|
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    法律状态:
    2021-12-15| PTA| After opposition partly revoked|Effective date: 20211103 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50832/2017A|AT520449B1|2017-09-27|2017-09-27|Component for a charging device and charging device hereby|ATA50832/2017A| AT520449B1|2017-09-27|2017-09-27|Component for a charging device and charging device hereby|
    PCT/AT2018/060226| WO2019060939A1|2017-09-27|2018-09-27|Component for a charging device and charging device having same|
    US16/638,352| US11279253B2|2017-09-27|2018-09-27|Component for a charging device and charging device having same|
    EP18781955.2A| EP3687851A1|2017-09-27|2018-09-27|Component for a charging device and charging device having same|
    CN201880063189.5A| CN111225821A|2017-09-27|2018-09-27|Assembly for charging device and charging device with same|
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