WO2021185908A1 - Button unit for an entry system having at least one door for a rail vehicle, and entry system having at least one door and a button unit - Google Patents

Abstract

A button unit (100) for an entry system (200) having at least one door (210) for a rail vehicle (205) comprises an actuation surface (105), a first sensor device (110) and a contactless sensor device (115). The first sensor device (110) is coupled to the actuation surface (105) and designed to provide an opening signal (120) for opening the door (210) of the rail vehicle (205) when the actuation surface (105) is touched. The contactless sensor device (115) is designed to contactlessly sense the presence of at least one body part of a person (215) or of an object in the region of the actuation surface (105) in order to provide a further opening signal (125) for opening the door (210) of the rail vehicle (205) in the event of presence.

Description

DESCRIPTION

Push button unit for an entry system with at least one door for a rail vehicle and entry system with at least one door and a push button unit

The present approach relates to a button unit for an entry system with at least one door for a rail vehicle and an entry system with at least one door and a button unit.

In the case of rail vehicles, the doors are usually opened automatically. A request to open a door is made here, for example, by a passenger who presses a door opening button or by a vehicle driver who proactively opens all doors at the same time. There are also doors that, similar to supermarket doors, open automatically when a passenger is in the door area.

Against this background, the object of the present approach is to create an improved push button unit for an entry system with at least one door for a rail vehicle, and an improved entry system with at least one door and a push button unit.

This object is achieved by a button unit with the features of device claim 1 and by an entry system according to claim 13.

The advantages that can be achieved with the approach presented are that an opening button that can be actuated both manually and contactlessly is created for opening a door of a rail vehicle. A door opening cycle can in particular be accelerated by a contactless opening process. The contactless opening process also offers hygienic advantages.

A button unit for an entry system with at least one door for a rail vehicle has an actuation surface, a first sensor device and a contactless sensor device. The first sensor device is with the The actuating surface is coupled and designed to provide an opening signal for opening the door of the rail vehicle when the actuating surface is touched or almost touched. The contactless sensor device is designed to contactlessly sense the presence of at least one body part of a person or an object in the area of the actuation surface in order to provide a further opening signal for opening the door of the rail vehicle if it is present. Thus, the opening signal can be provided in response to a touch of the operating surface. The contact can be made by the person or the object carried by the person, for example, which can be an umbrella, stick or the like, for example. The further opening signal, on the other hand, can be provided without touching the button unit and thus also independently of touching the actuation surface. The presence of one of the objects described above can also be sensed in a contactless manner by the contactless sensor device.

The button unit can be designed as an actuating button. The actuation button can, for example, have a housing in which the first sensor device and the contactless sensor device are accommodated. The housing can be shaped as a hollow cylinder or box, for example rectangular. The actuation surface can be a housing portion of the housing or can be arranged in an opening of the housing. The actuation surface can, for example, have a planar shape. The actuation surface can have any suitable shape, for example circular or rectangular. An opening symbol such as an arrow or two arrows can be arranged on the actuation surface. The first sensor device can be designed to provide the opening signal when the operating surface is touched or when the operating surface is pressed. The button unit can thus optically resemble or at least resemble a conventional actuating button for opening a rail vehicle door. Intuitive actuation by a person is thus made possible.

According to one embodiment, the contactless sensor device can be designed to sense the presence that indicates an approach of a Person on the actuation surface and additionally or alternatively the presence of the body part or the object in the area of the actuation surface. This can make it possible that the door does not generally open when a person is recognized and, in addition or as an alternative, an object, but only when the person is likely to want to open, for example due to the approach. If the opening request is recognized as soon as the person approaches, the door can also be opened more quickly.

For example, the contactless sensor device can be designed to sense the approach of the person in a defined distance range in order to provide the further opening signal. The defined distance range can be a distance range between 0.3 meters and 2 meters between the person and the actuation surface. It can thus be ensured that the door is only opened for people who are already close to the door and therefore very likely want to get into the rail vehicle. Such a distance range also offers the possibility of opening the door in good time before the person enters, without the person having to stop or wait in front of the door until it is opened.

It is also advantageous if the contactless sensor device is designed to sense the approach of the person as a person to be moved directly onto the actuation surface. This offers the possibility of identifying a person who is extremely likely to want to get on the rail vehicle.

The contactless sensor device can also be designed to sense the presence of the body part or object in a further defined distance range in order to provide the further opening signal. The further defined distance range can be a distance range between zero meters and less than 0.3 meters between the body part or object and the actuation surface. In this way, people who are already very close to the actuation surface can be recognized on the basis of a body part or an object carried along by the person at the level of the actuation surface. This can be advantageous for recognizing people who are already waiting for the rail vehicle on the platform, for example. It is also advantageous if, according to one embodiment, the contactless sensor device comprises a camera system with at least one camera. Optical sensing of the presence is thus made possible.

For example, the contactless sensor device can be designed to sense its presence using a transit time measurement. The time of flight can be measured using a time-of-flight camera system and, additionally or alternatively, a laser scanner. The transit time measurement can, however, also take place using an acoustic signal that has been emitted. By means of such a transit time measurement, a distance of the person and additionally or alternatively the body part or object can be determined at different points in time, for example to detect the approach of the person.

Additionally or alternatively, the contactless sensor device can be designed to sense the presence of the body part or object using an object recognition device. A body part that is close by and, additionally or alternatively, a person who is further away can advantageously be recognized as such by object recognition.

According to one embodiment, the contactless sensor device can be designed to sense the presence of the body part, which is a hand or a hand section of a hand of a person. An opening request to open a door can be transmitted quickly and easily by a person with a hand signal. Here, the contactless sensor device can be designed, for example, to sense the presence of the body part or object that is immobile. This creates a convenient way for a person to cause the door to be opened by merely holding the hand in front of the operating surface.

The actuation surface can be circular or rectangular and additionally or alternatively planar. Such a formation can be intuitively recognized as an operating field for opening the door. An entry system for a rail vehicle has at least one door and a button unit in one of the variants presented above. The button unit is arranged on the door or on a door frame of the door. Here, the button unit can be arranged, for example, essentially halfway up the door or at a height that can be manually operated by a person. This enables both manual and convenient and hygienic contactless actuation of the button unit to open the door.

The entry system can also have a door opening actuator which is designed to open the door in response to at least one of the opening signals. A fully operational entry system is thus created.

Embodiments of the approach presented here are explained in more detail in the following description with reference to the figures. Show it:

1 shows a schematic representation of a button unit for an entry system for a rail vehicle according to an exemplary embodiment;

2 shows a schematic cross-sectional illustration of an entry system for a rail vehicle according to an exemplary embodiment; and

3 shows a schematic side view of a rail vehicle with a button unit according to an exemplary embodiment.

In the following description of advantageous exemplary embodiments of the present approach, identical or similar reference numerals are used for the elements shown in the various figures and having a similar effect, a repeated description of these elements being dispensed with.

1 shows a schematic illustration of a button unit 100 for an entry system for a rail vehicle according to an exemplary embodiment. The button unit 100 comprises an actuation surface 105, a first sensor device 110 and a contactless sensor device 115. The first sensor device 110 is coupled to the actuation surface 105 and designed to provide an opening signal 120 for opening the door of the rail vehicle when the actuation surface 105 is touched. The contactless sensor device 115 is designed to contactlessly sense the presence of at least one body part of a person or an object in the area of the actuation surface in order to provide a further opening signal 125 for opening the door of the rail vehicle if it is present. According to one exemplary embodiment, the contactless sensor device 115 is designed to detect the presence of the object which, according to different exemplary embodiments, is shaped as an umbrella, stick or the like that is carried by the person, for example. According to one exemplary embodiment, the touch-sensitive sensor device 110 is also designed to sense the touch that occurs through contact with the object or direct contact with the person himself.

According to this exemplary embodiment, the button unit 100 is designed as an actuation button. The actuation button here has, for example, a housing 130 in which the first sensor device 110 and the contactless sensor device 115 are accommodated. According to this exemplary embodiment, the housing 130 is shaped like a hollow cylinder or, according to an alternative exemplary embodiment, is box-shaped, for example rectangular.

By way of example only, the housing 130 has a diameter between 3 cm and 8 cm and a height between 0.5 cm and 3 cm. The shape and dimensions of the housing 130 can be based on known operating buttons. The button unit 100 can thus also serve as a replacement for previously used operating buttons.

According to this exemplary embodiment, the actuating surface 105 is a housing section of the housing 130 and is, for example, planar and / or circular or, according to an alternative exemplary embodiment, curved and / or rectangular. According to this exemplary embodiment, there is on the actuation surface 105 an opening symbol 135 such as an arrow or two arrows is arranged. According to this exemplary embodiment, the actuation surface 105 is received centrally and / or flush in an annular surface section 140 of a surface 145 of the housing 130. According to an alternative embodiment, the actuation surface 105 protrudes from the surface section 140 or is arranged one level deeper in the surface 145 than the surface section 140. According to an alternative embodiment, the actuation surface 105 occupies the entire surface 145 of the housing 130. According to an exemplary embodiment, the first sensor device 110 is also designed to provide the opening signal 120 when the operating surface 105 is pressed and / or when the operating surface 105 is touched.

According to one embodiment, the actuation surface 105 is designed to be movable and / or elastic. In this case, the first sensor device 110 is designed, for example, to detect a movement and / or deformation of the actuation surface 105 and to provide the opening signal 120 in response to a detected movement and / or deformation of the actuation surface 105. According to one embodiment, the actuation surface 105 is designed to be rigid. In this case, the first sensor device 110 is designed, for example, to detect a touch of the actuation surface 105 and to provide the opening signal 120 in response to a detected touch. To implement the first sensor device 110, known sensors can advantageously be used, for example mechanical switches or strain gauges for detecting movement or deformation, or capacitive measuring methods for detecting touch or almost touching.

According to an exemplary embodiment, the contactless sensor device 115 is designed to provide the further opening signal 125 even before the pushbutton unit 100 is touched. The further opening signal 125 can thus also be provided when the pushbutton unit 100 is not touched at all. To implement the contactless sensor device 115, known sensors can advantageously be used, for example optical or acoustic sensors suitable for distance measurement. 2 shows a purely schematic lateral cross-sectional illustration of an entry system 200 for a rail vehicle 205 according to an exemplary embodiment.

The entry system 200 has at least one door 210 and the button unit 100, which can be shaped as described in FIG. 1. According to this exemplary embodiment, the entry system 200 is accommodated on the rail vehicle 205 merely by way of example in order to enable a person 215 to get into the rail vehicle 205 and / or to enable the person 215 to get out of the rail vehicle 205. According to this exemplary embodiment, the button unit 100 is arranged on the door 210 or on a door frame of the door 210, here for example on an outside of the rail vehicle 205. Here, the button unit 100 is, for example, essentially halfway up the door 210 or manual for the person 215 operable height arranged. Alternatively, the button unit 100 can also be arranged on an inside.

According to this exemplary embodiment, the entry system 200 also has a door opening actuator 220 which is designed to open the door 210 in response to at least one of the opening signals 120, 125. The opening signals 120, 125 can be used directly to control the door opening actuator 220. Alternatively, the opening signals 120, 125 can be used by a control device in order to determine a control signal for activating the door opening actuator 220 and to provide it to the door opening actuator 220.

According to one exemplary embodiment, the provision of the opening signal 120 alone leads to the door 210 being opened, as does the provision of the further opening signal 120 alone. The door 210 can thus be opened both by an actuation action that includes touching the push button unit 100 and by an actuation action that does not include touching the push button unit 100. According to an alternative embodiment, both opening signals 120, 125 are required to open the door 210. For example, an opening of the door 210 can be prepared using the further opening signal 125 and can be carried out using the opening signal 120.

According to this exemplary embodiment, the contactless sensor device 115 is designed to sense the presence that represents an approach of the person 215 to the actuation surface 105 and / or the presence of the body part or object in the area of the actuation surface 105. For example, the contactless sensor device 115 according to this exemplary embodiment is designed to sense the approach of the person 215 in a defined distance range in order to provide the further opening signal 125. According to this exemplary embodiment, the defined distance range comprises a distance range between 0.3 meters and 2 meters between the person 215 and the actuation surface 105 Actuating surface 105 to sense person 215 to be moved. In this case, the contactless sensor device 115 according to an exemplary embodiment is also designed to carry out a direction detection and / or to sense the approach of the person 215 within a 180 ° angle.

According to this exemplary embodiment, the contactless sensor device 115 is also designed to sense the presence of the body part or object in a further defined distance range in order to provide the further opening signal 125. According to this exemplary embodiment, the further defined distance range comprises a distance range between zero meters and less than 0.3 meters between the body part or object and the actuation surface 105. According to this exemplary embodiment, the contactless sensor device 115 comprises a camera system with at least one camera 225. The contactless sensor device 115 is designed according to this exemplary embodiment to sense the presence using a transit time measurement 230. According to this exemplary embodiment, the transit time measurement 230 is carried out using a time-of-flight Camera system and / or laser scanner and / or acoustic signal of the contactless sensor device 115 can be carried out. According to this exemplary embodiment, the contactless sensor device 115 is designed to sense the presence of the body part or object using an object recognition device. In this case, the contactless sensor device 115 according to this exemplary embodiment is designed, for example, to sense the presence of the body part which is a hand or a hand section of a hand of a person 215. In this case, the contactless sensor device 115 according to this exemplary embodiment is designed to sense the presence of the body part or object that is immobile. According to this exemplary embodiment, the contactless sensor device 115 is arranged next to, above or below the actuating surface 105 or, according to an alternative exemplary embodiment, behind the actuating surface 105, for example in alignment behind the actuating surface 105.

The push button unit 100 presented here implements a push button with a proximity sensor function and can therefore also be referred to as a “contactless push button”. The button unit 100 can advantageously be mounted in a single position on the door 210. Unlike a possible electronic door opening system, in which the door opens as soon as a passenger is in the door area and which would be necessary in addition to a push button, the push button unit 100 presented here is cheaper to manufacture and takes up less space on the door 210.

Compared to a possible electronic door opening system, in which a vehicle driver proactively opens all doors 210, door opening cycles are greatly reduced and shortened when the rail vehicle 205 is in operation using the button unit 100 and thermal loss in the rail vehicle 205 is thereby advantageously restricted, as is the energy required to open the door 210 saved.

A door opening request is accelerated using the button unit 100, since it occurs before the person 215 presses the actuation button / pushbutton, and is also very convenient for an approaching or waiting person 215, since they only need to be near the contactless sensor device 115 and to open it the door 210 does not need to use the hands. This also offers in particular a relief for people 215 whose hands are not free or who rely on crutches, for example.

Thanks to the button unit 100, the door is requested not only when the person 215 presses the actuation surface 05, but also when the person 215 approaches the button unit 100. For this purpose, the contactless sensor device 115 is accommodated in the form of an additional sensor in the housing of the pushbutton unit 100 / the push button. The contactless sensor device 115 has, for example, a so-called “TOF camera” (English: Time Of Flight) and / or is designed to detect a hand that is motionless in a close range of the contactless sensor device 115. Furthermore, the contactless sensor device 115 is designed to detect an entire person 215 who is moving at a greater distance in the area of the button unit 100 in the moved state towards the button unit 100. Should one of the opening functions fail, for example due to a defect in the first sensor device 110 or the contactless sensor device 115, then the respective other sensor device 110, 115 can still be used. This ensures an overall very reliable function of the push button unit 100 with the possibility of a fallback. 3 shows a schematic side view of a rail vehicle 205 with a button unit 100 according to an exemplary embodiment. The pushbutton unit 100 is, for example, a pushbutton unit as described with reference to the preceding figures. The rail vehicle 205 has at least one door 210 which is arranged in a door frame 310. The door frame is also known as the door portal. The push button unit 100 is arranged, for example, on the door 210, here on an outer surface of a door leaf of the door 210. Alternatively, the button unit 100 or a further button unit is arranged, for example, on the door frame. According to one exemplary embodiment, at least one further button unit is arranged on a side of the door 210 or of the door frame 310 facing the interior of the rail vehicle 205. The button units arranged on the outside and inside can be shaped identically or differently. REFERENCE LIST

100 push button unit

105 actuation surface 110 first sensor device

115 contactless sensor device

120 opening signal

125 further opening signal

130 Housing 135 Opening symbol

140 surface section

145 surface

200 entry system 205 rail vehicle

210 door

215 person

220 door opening actuator

225 camera 230 transit time measurement

310 door frame

Claims

PATENT CLAIMS

1. Push button unit (100) for an entry system (200) with at least one door (210) for a rail vehicle (205), the push button unit (100) having the following features: an actuating surface (105); a first sensor device (110) which is coupled to the actuation surface (105) and is designed to provide an opening signal (120) for opening the door (210) of the rail vehicle (205) when the actuation surface (105) is touched; and a contactless sensor device (115) which is designed to contactlessly sense the presence of at least one body part of a person (215) or an object in the area of the actuation surface (105) in order to open a further opening signal (125) if it is present the door (210) of the rail vehicle (205).

2. Push button unit (100) according to claim 1, which is shaped as an actuating button.

3. Pushbutton unit (100) according to one of the preceding claims, in which the contactless sensor device (115) is designed to sense the presence of a person (215) approaching the actuating surface (105) and / or the presence of the body part or object in the area of the actuation surface (105).

4. button unit (100) according to claim 3, wherein the contactless sensor device (115) is designed to sense the approach of the person (215) in a defined distance range in order to provide the further opening signal (125).

5. Pushbutton unit (100) according to one of claims 3 to 4, in which the contactless sensor device (115) is designed to allow the approach of the person (215) as a person (215) to be moved directly onto the actuation surface (105) to sense.

6. Push button unit (100) according to one of claims 3 to 5, in which the contactless sensor device (115) is designed to sense the presence of the body part or object in a further defined distance range in order to provide the further opening signal (125).

7. Pushbutton unit (100) according to one of the preceding claims, in which the contactless sensor device (115) comprises a camera system with at least one camera (225).

8. Pushbutton unit (100) according to one of the preceding claims, in which the contactless sensor device (115) is designed to sense the presence using a transit time measurement (230).

9. Pushbutton unit (100) according to one of claims 3 to 8, in which the contactless sensor device (115) is designed to sense the presence of the body part or object using an object recognition device.

10. pushbutton unit (100) according to claim 9, wherein the contactless sensor device (115) is designed to sense the presence of the body part, which is a hand or a hand portion of a hand of a person (215).

11. Pushbutton unit (100) according to one of claims 9 to 10, in which the contactless sensor device (115) is designed to sense the presence of the body part or object that is immobile.

12. Pushbutton unit (100) according to one of the preceding claims, in which the actuating surface (105) is circular or rectangular and / or planar.

13. Entry system (200) for a rail vehicle (205), wherein the entry system (200) has at least one door (210) and a button unit (100) according to one of the preceding claims, which on the door (210) or on a door frame ( 310) of the door (210) is arranged.

14. Entry system (200) according to claim 13, with a door opening actuator (220) which is designed to open the door (210) in response to at least one of the opening signals (120, 125).