CN212047144U

CN212047144U - Vehicle-mounted robot device with position capable of being hidden and changed

Info

Publication number: CN212047144U
Application number: CN202020486783.XU
Authority: CN
Inventors: 潘晓蕾
Original assignee: Yanfeng Visteon Electronic Technology Shanghai Co Ltd
Current assignee: Yanfeng Visteon Electronic Technology Shanghai Co Ltd
Priority date: 2020-04-07
Filing date: 2020-04-07
Publication date: 2020-12-01
Anticipated expiration: 2030-04-07

Abstract

A vehicle-mounted robot device with a position capable of being hidden and changed comprises a driving platform, an armrest box and an automobile electronic control unit; a first through hole is formed in a table board of the driving table, a first vehicle-mounted robot is arranged in the driving table, a first lifting device is arranged on the lower side of the first vehicle-mounted robot, a second through hole is formed in a box surface of the armrest box, a second vehicle-mounted robot is arranged in the armrest box, and a second lifting device is arranged on the lower side of the second vehicle-mounted robot. The utility model discloses can judge according to the position of sound source that mutual main part is front-seat driver and passenger still back row passenger, it appears in turn on driver's platform and handrail case to have realized vehicle-mounted robot, made things convenient for back row passenger and vehicle-mounted entity robot to be mutual, the interactive limitation of back row passenger with vehicle-mounted robot has been reduced, the vision impression that same vehicle-mounted robot commutates to another handrail case position from the driver's platform position has been simulated, driver or passenger's interactive experience has been improved.

Description

Vehicle-mounted robot device with position capable of being hidden and changed

Technical Field

The utility model relates to the field of machinary, especially, relate to the mobile unit technique, particularly be an on-vehicle robot device that position can be hidden and vary.

Background

At present, the entity vehicle-mounted robot is fixedly arranged in the middle of a driving platform and executes instructions sent by sound sources in a vehicle, wherein the instructions comprise instructions of a driving position and front and rear passenger positions. Among the prior art, because entity vehicle-mounted robot is fixed on the driver's cabin, it is far away from back row passenger distance, therefore entity vehicle-mounted robot can only interact with driver or front passenger, it is inconvenient that back row passenger and vehicle-mounted entity robot are mutual, lead to entity vehicle-mounted robot and back row passenger's interactivity not enough, increased back row passenger and vehicle-mounted robot interactive limitation, reduced back row passenger's interactive experience.

SUMMERY OF THE UTILITY MODEL

The utility model provides a vehicle-mounted robot device that position can be hidden and transform, this kind of vehicle-mounted robot device that position can be hidden and transform solve among the prior art that back row passenger is mutual inconvenient with on-vehicle entity robot, lead to entity vehicle-mounted robot and the not enough technical problem of back row passenger's interactivity.

The utility model discloses a vehicle-mounted robot device with a position capable of being hidden and changed, which comprises a driving platform, a handrail box and an automobile electronic control unit, wherein the driving platform is positioned in front of the handrail box, and the automobile electronic control unit is provided with a plurality of signal input ends and signal output ends;

the automobile driving device is characterized in that a first through hole is formed in a table board of the driving table, a first automobile-mounted robot is arranged in the driving table, a first lifting device is arranged on the lower side of the first automobile-mounted robot, the lower end of the first automobile-mounted robot is connected with a power output end of the first lifting device, and a signal output end of the first automobile-mounted robot is connected with a signal input end of an automobile electronic control unit.

The automobile armrest box is characterized in that a second through hole is formed in the box surface of the armrest box, a second vehicle-mounted robot is arranged in the armrest box, a second lifting device is arranged on the lower side of the second vehicle-mounted robot, the lower end of the first vehicle-mounted robot is connected with the power output end of the second lifting device, and the signal output end of the second vehicle-mounted robot is connected with the signal input end of an automobile electronic control unit.

Preferably, the first lifting device comprises a first gear and a first rack, the first gear and the first rack are meshed with each other, the upper end of the first rack is fixedly connected with the first vehicle-mounted robot, the first gear is connected with an output shaft of a first motor through a transmission mechanism, and a control end of the first motor is connected with a signal output end of an electronic control unit of the vehicle.

Preferably, the second lifting device comprises a second gear and a second rack, the second gear and the second rack are meshed with each other, the upper end of the second rack is fixedly connected with the second vehicle-mounted robot, the second gear is connected with an output shaft of a second motor through a transmission mechanism, and a control end of the second motor is connected with a signal output end of an automobile electronic control unit.

Preferably, the driver's cabin in be provided with two first upper covers, two first upper cover and driver's cabin constitute the sliding pair that is on a parallel with the driver's cabin mesa, two the downside of first upper cover on all be provided with the third rack separately, two the downside of first upper cover all be provided with a third gear separately, third gear and third rack intermeshing, two the third gear all through the output shaft of drive mechanism with a third motor, two the direction of rotation of third gear opposite, the control end of third motor be connected with automotive electronics control unit's signal output part.

Preferably, the handrail box in be provided with two second upper covers, two second upper cover and driver's cabin constitute the sliding pair that is on a parallel with the driver's cabin mesa, two the downside of second upper cover on all be provided with the fourth rack separately, two the downside of second upper cover all be provided with a fourth gear separately, fourth gear and fourth rack intermeshing, two the fourth gear all through the output shaft of drive mechanism with a fourth motor, two the direction of rotation of fourth gear opposite, the control end of fourth motor be connected with car electronic control unit's signal output part.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses can judge according to the position of sound source that mutual main part is front-seat driver and passenger still back row passenger, it appears in turn on driver's platform and handrail case to have realized vehicle-mounted robot, it is mutual with on-vehicle entity robot to have made things convenient for the back row passenger, the interactive limitation of back row passenger with vehicle-mounted robot has been reduced, the vision impression that same vehicle-mounted robot changes to another handrail case position from the driver's platform position has been simulated, driver or passenger's interactive experience has been improved, the problem that vehicle-mounted robot appears and needs the loading physics action route degree of difficulty very big in the car in different positions has been solved.

Drawings

Fig. 1 is a first schematic structural diagram of a first lifting device of an on-vehicle robot apparatus with a position capable of being hidden and changed according to the present invention.

Fig. 2 is a second schematic structural diagram of the first lifting device of the on-board robot apparatus with a position capable of being hidden and changed according to the present invention.

Fig. 3 is a third schematic structural diagram of the first lifting device of the on-board robot apparatus of the present invention, the position of which can be hidden and changed.

Fig. 4 is a schematic structural view of a second lifting device of the on-board robot device of the present invention, the position of which can be hidden and changed.

Fig. 5 is a schematic diagram of a first lifting process of a first vehicle-mounted robot of the vehicle-mounted robot apparatus with a position capable of being hidden and changed according to the present invention.

Fig. 6 is a schematic diagram of a second lifting process of the first vehicle-mounted robot of the vehicle-mounted robot apparatus with a position capable of being hidden and changed according to the present invention.

Fig. 7 is a schematic diagram of a third lifting process of the first vehicle-mounted robot of the vehicle-mounted robot apparatus with a position capable of being hidden and changed according to the present invention.

Fig. 8 is a schematic diagram of a fourth lifting process of the first vehicle-mounted robot of the vehicle-mounted robot apparatus with a position capable of being hidden and changed according to the present invention.

Fig. 9 is a schematic diagram of a first lifting process of a second vehicle-mounted robot of the vehicle-mounted robot device with a position capable of being hidden and changed according to the present invention.

Fig. 10 is a schematic diagram of a second lifting process of a second vehicle-mounted robot of the on-board robot apparatus with a position capable of being hidden and changed according to the present invention.

Fig. 11 is a schematic diagram of a third lifting process of a second vehicle-mounted robot of the vehicle-mounted robot apparatus with a position capable of being hidden and changed according to the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments, but the present invention is not limited to this embodiment, and the protection scope of the present invention should be included in all similar structures and similar variations thereof.

Example 1

As shown in fig. 1 to 11, the vehicle-mounted robot device with a position capable of being hidden and changed of the present invention comprises a driving platform 16, a handrail box 17 and an automobile electronic control unit, wherein the driving platform 16 is located in front of the handrail box 17, and the automobile electronic control unit is provided with a plurality of signal input ends and signal output ends;

the automobile driving device is characterized in that a first through hole 8 is formed in the table top of the driving table 16, a first vehicle-mounted robot 5 is arranged in the driving table 16, a first lifting device is arranged on the lower side of the first vehicle-mounted robot 5, the lower end of the first vehicle-mounted robot 5 is connected with the power output end of the first lifting device, and the signal output end of the first vehicle-mounted robot 5 is connected with the signal input end of an automobile electronic control unit.

The automobile armrest box is characterized in that a second through hole 15 is formed in the box surface of the armrest box 17, a second vehicle-mounted robot 14 is arranged in the armrest box 17, a second lifting device is arranged on the lower side of the second vehicle-mounted robot 14, the lower end of the first vehicle-mounted robot 5 is connected with the power output end of the second lifting device, and the signal output end of the second vehicle-mounted robot 14 is connected with the signal input end of an automobile electronic control unit.

Preferably, the first lifting device comprises a first gear 3 and a first rack 4, the first gear 3 and the first rack 4 are meshed with each other, the upper end of the first rack 4 is fixedly connected with a first vehicle-mounted robot 5, the first gear 3 is connected with an output shaft of a first motor (not shown) through a transmission mechanism, and a control end of the first motor is connected with a signal output end of an electronic control unit of the vehicle.

Preferably, the second lifting device comprises a second gear 11 and a second rack 10, the second gear 11 and the second rack 10 are engaged with each other, the upper end of the second rack 10 is fixedly connected with a second vehicle-mounted robot 14, the second gear 11 is connected with an output shaft of a second motor (not shown) through a transmission mechanism, and a control end of the second motor is connected with a signal output end of an electronic control unit of the automobile.

Preferably, the driving platform 16 is provided with two first upper covers 7, two of the first upper covers 7 and the driving platform 16 form a sliding pair parallel to the table surface of the driving platform 16, two of the lower side surfaces of the first upper covers 7 are respectively provided with a third rack, two of the lower sides of the first upper covers 7 are respectively provided with a third gear 1, the third gear 1 and the third rack are meshed with each other, two of the third gears 1 are connected with an output shaft of a third motor (not shown) through a transmission mechanism, the rotating directions of the two third gears 1 are opposite, and the control end of the third motor is connected with the signal output end of the electronic control unit of the automobile.

Preferably, handrail box 17 in be provided with two second upper covers 13, two second upper covers 13 and driver's platform 16 constitute the sliding pair that is on a parallel with driver's platform 16 mesa, two the downside of second upper covers 13 on all be provided with the fourth rack respectively, two the downside of second upper covers 13 all be provided with a fourth gear 9 respectively, fourth gear 9 and fourth rack intermeshing, two fourth gear 9 all through the output shaft of drive mechanism with a fourth motor (not shown), two the direction of rotation of fourth gear 9 opposite, the control end of fourth motor be connected with car electronic control unit's signal output part.

The working principle is as follows:

the method comprises the steps that two microphones are arranged in an automobile body and distributed along the front and back direction of the automobile body, the output ends of the microphones are connected with the signal input end of an automobile electronic control unit, sound sources are detected through the automobile electronic control unit and a built-in program of the automobile electronic control unit, the microphone arrangement and the sound source detection method both adopt the known technical scheme in the prior art, and details are omitted.

When the driver or the passenger issues a voice command to interact with the first in-vehicle robot 5 or the second in-vehicle robot 14, the first in-vehicle robot 5 and the second in-vehicle robot 14 determine that the interaction subject is a front-row driver and a passenger or a rear-row passenger according to the position of the voice source.

When the driver or the passenger is judged to be the front driver or the passenger, the first vehicle-mounted robot 5 transmits a signal to the vehicle electronic control unit, the vehicle electronic control unit transmits a control signal to the third motor, the third motor is started, the two third gears 1 are driven to rotate in opposite directions at the same time, then the two first upper covers 7 are separated from each other and opened by driving the two third racks, then the vehicle electronic control unit transmits a control signal to the first motor, so that the first motor is started and drives the first gear 3 to rotate, and then the first vehicle-mounted robot 5 hidden in the driving platform 16 moves upwards and extends out of the first through hole 8 by driving the first rack 4, so that a driver or a passenger in the front row can interact with the first vehicle-mounted robot 5, at the moment, the second vehicle-mounted robot 14 is hidden in the armrest box 17, and the two second upper covers 13 are in a closed state.

Then when it is judged that the passenger is the rear passenger, the vehicle electronic control unit controls the first motor to drive the first robot to move downwards and hide in the driving platform 16, the third motor drives the two first upper covers 7 to close, the vehicle electronic control unit transmits a control signal to the fourth motor, the fourth motor is started to drive the two fourth gears 9 to rotate in opposite directions simultaneously, then the two second upper covers 13 are separated from each other and opened by driving the two fourth racks, then the vehicle electronic control unit transmits a control signal to the second motor, the second motor is started to drive the second gear 11 to rotate, then the second vehicle-mounted robot 14 hidden in the armrest box 17 moves upwards and extends out of the second through hole 15 by driving the second rack 10, the passenger in the rear row can interact with the second vehicle-mounted robot 14, at this time, the first vehicle-mounted robot 5 is hidden in the driving platform 16, and the two first upper covers 7 are in the closed state.

The vehicle-mounted robot alternately appears on the driving platform 16 and the armrest box 17, the visual perception that the same vehicle-mounted robot is changed from the position of the driving platform 16 to the position of the other armrest box 17 is simulated, and the interactive experience of a driver or passengers is improved.

Claims

1. The utility model provides a position can be hidden and on-vehicle robot device who transforms, includes driver's cabin, handrail case and car electronic control unit, the driver's cabin be located the place ahead of handrail case, car electronic control unit be provided with a plurality of signal input part and signal output part, its characterized in that:

a first through hole is formed in the table top of the driving table, a first vehicle-mounted robot is arranged in the driving table, a first lifting device is arranged on the lower side of the first vehicle-mounted robot, the lower end of the first vehicle-mounted robot is connected with the power output end of the first lifting device, and the signal output end of the first vehicle-mounted robot is connected with the signal input end of an automobile electronic control unit;

2. The on-board robot apparatus capable of hiding and changing a position according to claim 1, wherein: the first lifting device comprises a first gear and a first rack, the first gear and the first rack are meshed with each other, the upper end of the first rack is fixedly connected with the first vehicle-mounted robot, the first gear is connected with an output shaft of a first motor through a transmission mechanism, and a control end of the first motor is connected with a signal output end of an automobile electronic control unit.

3. The on-board robot apparatus capable of hiding and changing a position according to claim 1, wherein: the second lifting device comprises a second gear and a second rack, the second gear and the second rack are meshed with each other, the upper end of the second rack is fixedly connected with the second vehicle-mounted robot, the second gear is connected with an output shaft of a second motor through a transmission mechanism, and a control end of the second motor is connected with a signal output end of the automobile electronic control unit.

4. The on-board robot apparatus capable of hiding and changing a position according to claim 1, wherein: the driver's cabin in be provided with two first upper covers, two first upper cover and driver's cabin constitute the slip pair that is on a parallel with the driver's cabin mesa, two the downside of first upper cover on all be provided with the third rack separately, two the downside of first upper cover all be provided with a third gear separately, third gear and third rack intermeshing, two the third gear all through the output shaft of drive mechanism and a third motor, two the direction of rotation of third gear opposite, the control end of third motor be connected with car electronic control unit's signal output part.

5. The on-board robot apparatus capable of hiding and changing a position according to claim 1, wherein: the handrail in be provided with two second upper covers, two second upper cover and driver's cabin constitute the sliding pair that is on a parallel with the driver's cabin mesa, two the downside of second upper cover on all be provided with the fourth rack separately, two the downside of second upper cover all be provided with a fourth gear separately, fourth gear and fourth rack intermeshing, two the fourth gear all through the output shaft of drive mechanism and a fourth motor, two the direction of rotation of fourth gear opposite, the control end of fourth motor be connected with car electronic control unit's signal output part.