EP3941776A1 - Contact device, vehicle, and charging station - Google Patents

Abstract

The invention relates to a contact device to be arranged on an electrically driven vehicle, in particular an electric bus or the like, or on a charging station for an electrically driven vehicle, with at least two contact strip assemblies (10) each comprising one contact strip carrier (11) and at least one contact strip (12), which is arranged on the contact strip carrier and which is contactable by a charging contact of a charging contact carrier of a charging contact device of the charging station or by a contact strip of the vehicle, the contact strip having a connection device (13) for connecting the contact strip to an electrical conductor (14) that can be guided to the vehicle or to the charging station, the connection device comprising a groove (15) running longitudinally in the contact strip (15) and a connection element (16), which is secured to the groove, for connection to the electrical conductor.

Description

Contact device, vehicle and charging station

The invention relates to a contact device for arrangement on an electrically powered vehicle, in particular an electric bus or the like, or at a charging station for an electrically powered vehicle, an electrically powered vehicle and a charging station for an electrically powered vehicle, the contact device having at least two contact strip assemblies comprises, each comprising a contact strip carrier and at least one contact strip arranged on the Kontaktleistenträ, which can be contacted by a charging contact of a charging contact carrier of a charging contact device of the charging station or by a contact strip of the vehicle, the

Contact strip has a connecting device for connecting the contact strip with a feasible to the vehicle or the charging station's electrical conductor.

Such contact devices, electrically powered vehicles and charging stations are known from the prior art, with contact devices of the type mentioned at the beginning regularly for charging electrically powered vehicles at a stop or a stop. a breakpoint can be used. Electrically powered vehicles used in local transport, such as electric buses, can be continuously supplied with electrical energy via an overhead line. In order to be able to use the advantages of an electric drive without a catenary network, it is known to equip public transport with batteries or other types of energy storage. Continuous operation of the means of transport can only be guaranteed if the batteries are charged while the means of transport is stopped at a stop. Various contact devices for producing an electrically conductive connection between a stationary charging station in the area of a bus stop and a vehicle or electric bus are known from the prior art. For example, a so-called current collector with a contact strip on a roof of the electric bus can be arranged on an electric bus, with a rail or a charging contact being suspended above a lane in the area of the bus stop. When the electric bus stops at the stop, the pantograph is moved from the roof of the bus up to the rail or the charging contact, whereby an electrical connection is established for the duration of the intended stop of the electric bus at the stop, so that in this Period a charge can take place. It is also known from the prior art to arrange a contact strip directly on a roof of an electric bus, with a Positioniervorrich device or a rocker with a charging contact arranged thereon is suspended above a roadway in the area of a stop. In this case, the charging contact is moved down to the contact strip by means of the positioning device or the rocker, so that a corresponding charging can be carried out.

Contact strips may also be required for a control line, grounding or data transmission, for example. There are then a plurality of contact strips arranged on a contact device with a corresponding number of charging contacts arranged in the direction of travel of the electric bus, which can be formed, for example, as parallel rails, can be contacted. A larger number of contact pairings can thus be produced simultaneously or taking into account a specific sequence. In particular, additional electrical connection lines can be used between the stationary charging station and the vehicle, for example for controlling and monitoring a charging process.

In a known contact device, two contact units comprising two contact strip assemblies are arranged parallel to one another on a roof of an electrically powered vehicle, the two contact strip assemblies being arranged one behind the other and adjacent to one another within the contact unit. The contact strip arrangements of the contact unit can also be connected to one another. Each contact strip arrangement comprises a contact strip carrier as well as a contact strip arranged on the contact strip carrier, which can be contacted by a charging contact of a charging contact carrier of a charging contact device of a charging station suspended above a roadway in the area of a stop. Furthermore, each contact strip has a connecting device for connecting the contact strip to an electrical conductor, such as a cable, that can be guided to the vehicle or to a battery of the vehicle. A screw is regularly used as the connecting device, which screw is screwed into a through hole in a surface of an upper side of the contact strip or a contact surface of the contact strip. The disadvantage here is that a head of the screw protruding over the contact surface on the one hand reduces the quality of a charging current flow or current transmission formed between the contact strip and the charging contact and on the other hand the head of the screw leaves a weld point-like pattern on the charging contact when it makes contact with the charging contact which leads to a gradual material weakening of the charging contact. Also because of that the quality of power transmission is also increasingly being degraded. In addition, heating of the screw that occurs during a charging process sometimes leads to an elongation of the screw, which regularly leads to the electrical conductor becoming detached from the contact strip. Learner, the connection device is regularly ausgebil det that only one electrical conductor with a predetermined cross-section of the conductor can be connected to the contact strip, which not least has a limitation of a maximum charging current and makes flexible use of the contact device impossible. So it is not easily possible to replace a conductor connected to the Kontaktleis with a cross-section by a conductor with a cross-section that differs from this cross-section.

Another disadvantage of this contact device is associated with the fact that the contact strip in practice only has one through-hole, so that the conductor cannot be fixed in a freely selectable position on the contact strip.

It is also known to equip trainees the contact strip with a heating device, wherein heating wires are inserted in practice in a cavity of the contact strip below a contact surface of the contact strip. The problem here is that the heating wires are only inserted into the cavity, so that an air gap regularly forms between the heating wires and a material of the contact strip. As a result, the heating wires cannot develop their full heating power.

The present invention is therefore based on the object of proposing a contact device for arrangement on an electrically powered vehicle, an electrically powered vehicle, and a charging station for an electrically powered vehicle, which enables better power transmission.

This object is achieved by a contact device with the features of claim 1, an electrically powered vehicle with the features len of claim 16 and a charging station with the features of claim 18 solved.

The contact device according to the invention for arrangement on an electrically powered vehicle, in particular an electric bus or the like, or on a charging station for an electrically powered vehicle with at least two contact strip arrangements, each comprises a contact strip carrier and at least one contact strip arranged on the contact strip carrier, which is from a charging contact a charging contact carrier of a charging contact device of the charging station or a contact strip of the vehicle can be contacted, the contact strip having a connecting device for connecting the contact strip to an electrical conductor that can be guided to the vehicle or to the charging station, the connecting device having a groove running longitudinally in the contact strip and a connecting element attached to the groove for connection to the electrical conductor comprises.

Accordingly, the connecting device is not formed here by a screw or the like screwed into a through hole in a surface of a top side of the contact strip or a contact surface of the contact strip, but the connecting device comprises a groove running longitudinally in the contact strip and a connecting element fastened to the groove by means of whose electrical conductor is connected to the contact strip. It is now possible to fix the conductor at a freely selectable position on the contact strip, where the contact device can be used more flexibly. The connecting element can be shaped according to a shape of the groove and be positively connected to the groove, so that additional securing of the connecting element is not required. However, it is also conceivable that the connecting element is additionally connected to the groove with a force fit. The groove advantageously extends over an entire length of the contact strip. The connecting element can at least be at least partially received in the groove. The connec tion element can also expediently be formed from an electrically conductive material. Overall, this configuration of the connec tion device on the one hand increases the quality of power transmission between the contact strip and the charging contact and on the other hand prevents the formation of weld point-like patterns which weaken a material of the charging contact.

According to a structurally advantageous embodiment of the invention, the groove can be designed as a T-groove. In this case, the connec tion element can be attached very securely to the groove. A dovetail-shaped groove is also conceivable.

In a particular development of the invention, the connecting element can be designed to be movable along the groove. The connecting element can then be moved manually in the groove. As a result, a position of the connecting element within the groove can be freely selected at any time. It is thus possible to advantageously adapt the position of the connecting element to a guide for the electrical conductor coming from the vehicle. To reduce friction between the groove and the connecting element, a lubricant or lubricant can also be provided in the groove.

In one embodiment of the invention, the connecting device can have a Feiteraufnahme connected to the connecting element. A cable lug, a clamp or a sleeve can be provided as a Feiter mount. In particular, the electrical conductor can be securely attached to the contact strip by dispensing with a screw.

According to an expedient structural embodiment of the invention, the Feiter retainer can be releasably connected to the connecting element. The Feiteraufnahme can then be connected to a cross section of the electrical see head to be adjusted. The contact device can thus be used even more flexibly.

Two or more connecting elements can also be attached to the groove. An electrical conductor can then be connected to each connecting element, so that with an increasing number of connecting elements or electrical conductors, a maximum charging current strength can advantageously be increased. This can lead to a shortening of a loading time.

An underside of the contact strip can preferably have the groove. The groove is then well protected against external, in particular weather-related, influences. Nevertheless, the groove can run longitudinally in a side surface of the contact strip which does not have the contact surface.

In one embodiment of the invention, a surface of an upper side of the contact strip can be designed to be closed with respect to the surroundings. The upper side of the contact strip is to be understood here as a side of the contact strip having a contact surface, the contact surface being provided for making contact with the charging contact. The contact surface can advantageously occupy the entire surface of the upper side of the contact strip, as a result of which good current transmission can be ensured. Because the surface is designed to be closed, that is, in particular, no head of a screw protrudes beyond the surface, the quality of the power transmission can be additionally improved.

In one embodiment of the invention, the contact strip can have a heating device. By generated by the heater

Heat, a layer of ice, frost, or the like can be effectively removed from the contact strip, so that optimal power transmission can be ensured even in relatively cool or wintry weather conditions. In an advantageous variant of the invention, the heating device can be implemented by at least one heating wire integrated into the groove. The groove can have a recess into which the heating wire can be inserted, such that the heating wire is at least partially connected to the groove in a form-fitting manner.

In a special development of the invention, the heating wire can be at least partially, preferably completely, cast in a material introduced into the groove. It can thereby be achieved that the heating wire rests against a contact surface of the groove without forming an air gap between the heating wire and a material of the contact strip, so that the heating wire can develop a full heating power of the heating wire. The material introduced into the groove can be a heat-resistant dielectric such as, for example, a silicone resin or an epoxy resin.

Particularly preferably, the contact device can comprise two contact units each comprising two contact strip arrangements.

It is useful if the contact strip arrangements each comprise a contact strip carrier and exactly one contact strip arranged on the contact strip carrier. The two contact strips can be arranged one behind the other and adjacent to one another within the contact unit. The contact units can be aligned parallel to one another. The additional con tact strips or contact strip carriers can advantageously be used for controlling and monitoring a charging process or for grounding or data transmission.

The contact strip carriers can be connected to one another. For this purpose, screws can be provided, for example.

In one embodiment of the invention, the contact strip carrier can have a first support structure arranged at a first end of the contact strip and a second support structure arranged at a second end of the contact strip Have support structure. The first and the second support structure can have through bores for connecting the support structures

Have screws with the vehicle. Furthermore, at least one of the support structures can have connections for a heating device of the contact strip, such as heating wires, and for a power supply of the heating device.

In an advantageous variant of the invention, the connecting device can have a slot nut. The connecting element can then be fastened in a simple manner along the groove in a desired position. The sliding block can have a thread so that the connecting element can be screwed to the sliding block by means of a screw.

In the above description of the contact device, the variant was primarily described in which the contact device is arranged on an electrically driven vehicle. Of course, the person skilled in the art will transfer all of the features contained in the above description mutatis mutandis to the variant in which the contact device is arranged at a charging station for an electrically powered vehicle.

The electrically driven vehicle according to the invention, in particular an electric bus or the like, has a contact device according to the invention. For the advantageous effects of the vehicle according to the invention, reference is made to the description of the advantages of the contact device according to the invention.

In one embodiment, the contact strip arrangements can be arranged parallel to one another on the vehicle. In this arrangement, a contact strip of a contact strip arrangement is then aligned parallel to a contact strip of another contact strip arrangement. Further advantageous embodiments of the vehicle emerge from the description of features in the dependent claims that refer back to device claim 1.

The charging station according to the invention for an electrically driven vehicle, in particular an electric bus or the like, has a contact device according to the invention. With regard to the advantageous effects of the charging station according to the invention, reference is made to the description of the advantages of the contact device according to the invention.

Further advantageous embodiments of the charging station emerge from the description of features in the dependent claims referring back to device claim 1.

A preferred embodiment of the invention is explained in more detail below with reference to the accompanying drawings.

Show it:

Fig. 1 is a perspective view of a Kontaktträgeran arrangement in one embodiment;

Fig. 2 is a sectional view of the contact strip assembly taken along line A-A;

3 shows a bottom view of a contact strip arrangement in a further embodiment;

Fig. 4 is a side view of the ten arrangement Kontaktleis shown in Fig. 3;

Fig. 5 is a plan view of a contact device;

Fig. 6 is a prior art contact strips arrangement. A synopsis of FIGS. 1 and 2 shows a contact strip arrangement 10, which comprises a contact strip carrier 1 1 and a contact strip 12 arranged on the contact strip carrier 1 1, which contact strip can be contacted by a charging contact not shown here. The contact strip 12 also has a connecting device 13 for connecting the contact strip 12 to an electrical conductor 14 that can be guided to an electrically powered vehicle, not shown here. In particular, the electrical conductor 14 can be connected to a battery, not shown here, of the electrically driven vehicle. The connecting device 13 in turn comprises a longitudinally extending groove 15 in the contact strip 12, which is formed here as a T-groove and a connecting element 16 attached to the groove 15 for connection to the electrical conductor 14. The connecting element 16 is along the Groove 15 designed to be movable and can be secured against movement or displacement in any position along the groove 15 by means of a screw 17 of the connecting device 13 and a sliding block, not shown here, of the connecting device 13. Furthermore, the connecting device 13 has a conductor receptacle 18 which is screwed to the connecting element 16 and which is formed here by a cable lug.

A surface 19 of an upper side 20 of the contact strip 12 is formed closed against an environment. The contact strip carrier 11 has a first support structure 22 at a first end 21 of the contact strip 12 and a second support structure 24 at a second end 23 of the contact strip 12, the support structures 22 and 24 by means of screws ben 25 and 26 with the vehicle can be connected. The contact strip 12 also has a heating device 27, which is implemented by a heating wire 28 integrated into the groove 15. The heating wire 28 is completely cast in a material 29 introduced into the groove 15. The first support structure 22 comprises a connection 30 for the heating wire 28 as well as a socket formed by a Deten connection 3 1 for connecting a cable, not shown here, for a power supply of the heating device 27.

FIG. 2 shows a sectional view of the contact strip arrangement 10 along a line A-A with a view in a direction R or in a direction of the first support structure 22.

A combination of FIGS. 3 and 4 shows a contact strip arrangement 32 which essentially corresponds to the contact strip arrangement 10. In particular, a first support structure 33 with a connection 34 for a cable (not shown here) for supplying power to a heating device (also not shown here) and a connecting device 35 can be seen, wherein a connecting element 38 can be secured in any position by means of a screw 36 along a groove 37 .

FIG. 5 shows a contact device 39 which comprises four contact strip arrangements 40. Electrical conductors 41 are connected to the contact device 39 by means of a connecting device not shown here. Two contact strip arrangements 40 are joined together to form a contact unit 42, the contact units 42 being arranged parallel to one another. Within the contact units 42, the contact strip arrangements 40 are arranged one behind the other in such a way that first support structures 43 adjoin one another or are connected to one another.

6 shows a contact strip arrangement 44 belonging to the prior art, comprising a contact strip carrier 45 and a contact strip 46 which has a through-hole 47. An electrical conductor, also not shown here, is connected to the contact strip 46 by means of a screw, not shown here, so that a head of the screw, which cannot be seen here, protrudes over a contact surface 49 of the contact strip 46. The contact strip carrier 45 also has a heating device 48, one of which is not shown in FIG. 6 The heating wire is inserted into a cavity of the contact strip 46, which cannot be seen here and is located under the contact surface 49.

The description, the drawings and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations. If a dependent claim referring back to an independent claim, which comprises a set of features A, includes, for example, a feature B and a feature C, the person skilled in the art will expediently also use the combination of the features A with the feature B, i.e. without the feature C, consider. In particular, the person skilled in the art will also combine features of various embodiments illustrated in the drawings.

Claims

Claims

1. Contact device (39) for arrangement on an electrically driven vehicle, in particular an electric bus or the like, or on a charging station for an electrically powered vehicle with at least two contact strip assemblies (10, 32, 40), each comprising a contact strip carrier (11 ) and at least one contact strip (12) arranged on the contact strip carrier, which can be contacted by a charging contact of a charging contact carrier of a charging contact device of the charging station or by a contact strip of the vehicle, the contact strip having a connecting device (13, 35) for connecting the Has a contact strip with an electrical conductor (14, 41) that can be guided to the vehicle or to the charging station,

characterized,

that the connecting device comprises a groove (15, 37) running longitudinally in the contact strip and a connecting element (16, 38) attached to the groove for connection to the electrical conductor.

2. Contact device according to claim 1,

characterized,

that the groove (15, 37) is designed as a T-groove.

3. Contact device according to claim 1 or 2,

characterized,

that the connecting element (16, 38) is designed to be movable along the groove (15, 37).

4. Contact device according to one of claims 1 to 3,

characterized,

that the connecting device (13, 35) has a conductor receptacle (18) connected to the connecting element (16, 38).

5. Contact device according to claim 4,

characterized,

that the conductor receptacle (18) is detachably connected to the connecting element (16, 38).

6. Contact device according to one of claims 1 to 5,

characterized,

that two or more connecting elements (16, 38) are attached to the groove (15, 37).

7. Contact device according to one of the preceding claims,

characterized,

that an underside of the contact strip (12) has the groove (15, 37).

8. Contact device according to one of the preceding claims,

characterized, that a surface (19) of an upper side (29) of the contact strip (12) is designed to be closed with respect to the surroundings.

9. Contact device according to one of the preceding claims,

characterized,

that the contact strip (12) has a heating device (27).

10. Contact device according to claim 9,

characterized,

that the heating device (27) is implemented by at least one heating wire (28) integrated into the groove (15, 37).

11. Contact device according to claim 10,

characterized,

that the heating wire (28) is at least partially, preferably completely, cast in a material (29) introduced into the groove (15, 37).

12. Contact device according to one of the preceding claims,

characterized,

that the contact device (39) comprises two contact units (42) each comprising two contact strips (10, 32, 40).

13. Contact device according to one of the preceding claims,

characterized,

that the contact strip carriers (11) can be detachably connected to one another.

14. Contact device according to one of the preceding claims,

characterized,

that the contact strip carrier (11) one at a first end (21) of the Contact strip (12) arranged first support structure (22, 33) and a second support structure (24) arranged at a second end (23) of the contact strip.

15. Contact device according to one of the preceding claims,

characterized,

that the connecting device (13, 35) has a sliding block.

16. Electrically powered vehicle, in particular electric bus or the like, with a contact device (39) according to one of the preceding claims.

17. Vehicle according to claim 16,

characterized,

that the contact strip arrangements (10, 32, 40) are arranged parallel to one another on the vehicle.

18. Charging station for an electrically powered vehicle, in particular an electric bus or the like, with a contact device (39) according to one of claims 1 to 15.