FR2884626A1 - Movable vehicles` distance adjusting device for e.g. constantly maintaining distance, has vehicle with ultrasonic receiver to receive signal that is variable with distance, and adapting its path for constantly maintaining signal - Google Patents

Abstract

The device has a vehicle provided with an ultrasonic transmitter to transmit a signal. Another vehicle has an ultrasonic receiver to receive the signal. The signal is variable with a distance between the vehicles. The latter vehicle adapts its path for constantly maintaining the signal in amplitude, phase shift or intensity. The signal is maintained constant in phase shift between a part of the signal that is optic and another part of the signal that is ultrasonic.

Description

In this context, the invention relates to a device for adjusting the

  distance between mobile vehicles, comprising a first vehicle provided with means

  for transmitting a signal or transmitter and a second vehicle provided with means for receiving said signal or receiver, characterized in that the signal is variable with the distance to said first vehicle and in that the second vehicle adapts its path to maintain the received signal essentially constant.

  In particular embodiments of the invention: the received signal is kept essentially constant in amplitude - the received signal is kept substantially constant in phase shift the received signal is kept substantially constant in intensity - the signal is ultrasonic the signal is optical - the signal is kept substantially phase-shifted between a first part of the signal which is optical and a second part of the signal which is ultrasound In an application of the invention to keep the distance essentially constant and to make the orientations identical in a horizontal plane, in order to to achieve a crawling effect, a first and second moving vehicles of the horizontal table type, each provided with forward or reverse movement controls and rotation commands about an axis vertical, at least one transmitter is installed on the first vehicle, at least two receivers are installed on the second d, the sum of at least two of the received signals is held constant by acting on the forward or reverse motion control of the second vehicle and the difference of at least two of the received signals is maintained zero by action on the rotation controls of the second vehicle around a vertical axis.

  It is understood by caterpillar effect, the property for the second vehicle to follow later to the first vehicle, the same trajectory.

Description of the invention

  The invention described finds its application in the attachment of two vehicles each comprising a plate provided with two wheels, perpendicular to an axis located substantially in the middle of the plate and allowing a displacement orthogonal to this axis, forwards or backwards depending on whether said tray is tilted forward or backward respectively. The traces of the plateau on a vertical plane are said to be antiparallel with respect to a horizontal line in this plane for movements in opposite directions.

  It is easy to see that the connection of two vehicles with conventional mechanical techniques in the prior art to connect two mobiles by a ball joint results in rendering all the two vehicles unusable.

  Indeed, when the trays of two vehicles are linked by a ball joint inserted between the rear of the plate of the first and the front of the second, the lowering of the front of the first plate leads to the lifting of its rear and therefore of the front of the second vehicle. The traces of the trays of the first and second vehicles are therefore antiparallel in a vertical plane, with respect to a horizontal line in this plane. When one of the vehicles tends to advance, the other tends to move back with the same intensity. The set of two vehicles therefore tends to remain motionless and is therefore unusable to make a displacement.

  This behavior does not change if one binds by a kneecap the rear of the two vehicles or their front, in all these cases, the displacements of the trays are antiparallel compared to a horizontal line and the whole of the two vehicles remains unusable for a displacement.

  However, the joint use of several vehicles is of obvious interest to transport several people at the same time with a single driver or luggage.

  In this context, the invention then proposes for connecting a first and a second vehicle to use an ultrasonic transmitter disposed on the first vehicle and excited by a rectangular pulse type signal, for example with a duration of 25 microseconds, which makes it possible to use ultrasonic sensors at 40 kHz for automotive alarms, for example available from the manufacturer Murata, to use an ultrasonic receiver identical to the transmitter, the piezoelectric effect being reversible, and to detect the amplitude of the pulse received by an operational amplifier in transimpedance assembly with a typical resistance of a megohm. Under these conditions, the maximum amplitude received decreases with the distance between the transmitter and the receiver, the transmitted energy is distributed uniformly over spheres of radius equal to the distance between transmitter and receiver.

  For a rectilinear movement of the two vehicles, it is therefore possible by slaving the movement controls to the front or the rear of the second vehicle to the amplitude of the received signal, to obtain a rectilinear movement in which the second vehicle adjusts its distance to the first vehicle to remain at a substantially constant distance, depending on the setpoint chosen for the value of the amplitude of the received signal. Thus, a decrease in amplitude of the signal will be associated with an acceleration of the second vehicle and an increase with braking, respectively.

  It is thus possible to maintain a substantially constant distance between two vehicles of the mentioned horizontal table type without mechanical contact between them and thus avoiding the mentioned difficulties.

  By providing each vehicle to convoy, a transmitter and a receiver, for example a receiver in the front and a transmitter in the back, it is possible to associate them, for a straight trajectory.

  For displacements in a horizontal plane along a curved trajectory, it is possible to use two transmitters located on the first vehicle and arranged in the same horizontal plane, to use two receivers located on the second vehicle and arranged in the same horizontal plane. , opposite the two transmitters. Advantageously, these two emitters are little directional and integral with the vehicle platform to allow their inclination without significant decrease in amplitude. Each pair transceiver allows to define a distance between two points located on the first and second vehicles respectively. The two pairs therefore make it possible to define the relative position of two line segments located on said vehicles respectively and contained essentially in the same horizontal plane.

  For vehicles moving in a plane, the angle of these two straight segments, materialized by the two transmitters on the first vehicle and the two receivers for the second vehicle, then represents an angle between the two vehicles and, hence, between their trajectories. These vehicles are equipped with rotary grip type controls located on either side of a handlebar and for indicating by the amplitude of their rotation, the amplitude of the rotation to be performed about a vertical axis, a rotation of the first vehicle is then possible and results in an increase in the difference in amplitude, between the two received signals, for a direction of rotation io around a vertical axis, by a decrease for the other direction of rotation and by a zero difference or equality of the signals, for a zero angle between the segment of the emitters and the segment of the receivers, that is to say between the trajectories of said vehicles. The sum of the two received signals is, for its part, proportional to the distance of the media of the two segments formed by the emitters and the receivers. It is therefore possible by slaving the rotation control about a vertical axis of the second vehicle to maintain a zero setpoint value for the difference of the two received signals, to null the angle between the vehicles. In addition, by controlling the displacement control towards the front or rear of the second vehicle to obtain a constant value of the sum of the amplitudes of the two received signals, it is possible to maintain a constant distance between the two vehicles. Finally, it is possible with two pairs of transceivers to slave the position of the second vehicle to maintain a constant distance on an identical trajectory between the two vehicles, for movement along any trajectory of the first vehicle on a horizontal plane.

  It is advantageously possible to use only one transmitter and two receivers, because with a single transmitter and two receivers spatially separated, the difference in amplitudes is still variable during the rotation of the receiver segment. Indeed, for a constant distance between a transmitter and the middle of two receivers connected in an indeformable way, a rotation of the receivers causes a reconciliation of the transmitter for one and a distance for the other, resulting in a variation of the difference received signals.

  It is also possible, for a rectilinear trajectory, to measure a phase shift of the signal by emitting a signal composed of an ultrasonic part and an optical part, to measure the phase difference between these two parts in the received signal and to slave said dephasing, representative of the distance traveled by the ultrasonic signal, in the air or the medium that supports the transmission of the ultrasonic signal, to a target value representative of a distance to be maintained constant between the vehicles. As for a signal kept constant in amplitude, for a signal kept constant in phase, the doubling of the number of transmitters and receivers, or only of the receivers makes it possible, by using the sum of the phase shifts and their difference, to maintain between the vehicles a constant distance and a constant or zero angle, respectively.

  It is finally possible to use transmitting and receiving means adapted to a signal kept constant in intensity. Thus, the optical detectors are sensitive to the intensity, which is the square of the amplitude of the received signal. Since the optical intensity received decreases with distance, in particular, according to Bouguer's law, as the inverse of the fourth power of this distance, it is thus possible to use an optical emitter of the electroluminescent diode type and a quadratic optical receiver, sensitive to the intensity of the signal, of the photodiode type, and to send the signal received on a transimpedance assembly identical to the ultrasonic case, to obtain a signal whose intensity is variable with the distance between the vehicles. Similarly, the doubling of transmitters and receivers or receivers only makes it possible, by using the sum of the intensities and their difference, to maintain between the vehicles a constant distance and a constant or zero angle, respectively.

  Finally, any variable signal with the distance between a transmitter-receiver pair, may be used for the implementation of the invention. The characteristics of a signal, when variables with distance, such as frequency, phase shift and amplitude can therefore be used if the medium crossed by the signal between the transmitter and the receiver causes the variation with the propagation.

  The above description is therefore not limiting from the point of view of the type of signal but intended to illustrate a particular embodiment of the invention.

  For the purposes of applying the invention, for connecting two vehicles of the horizontal plateau type, as described in the international application WO 00/75001, to keep the distance essentially constant and essentially to cancel the angle in a horizontal plane between a first and a second mobile vehicle, that is to say erase their orientation differences in a horizontal plane to make them take the same path, with a so-called caterpillar effect, two transmitters, for example ultrasound, are installed w on the first vehicle, two receivers, for example ultrasonic, are installed on the second vehicle, the sum of the amplitudes received is kept constant by action on the forward or reverse movement control of the second vehicle and the difference of the amplitudes received is maintained zero by action on the rotation controls of the second vehicle about a vertical axis.

  The application of the present invention to a park, allows the formation of temporary convoys, by association, without mechanical or rigid contact, of several vehicles in chain, making possible, for example, the transport of passengers with a single driver or transport luggage and, more generally, all uses for which a single vehicle is unsuitable. In the case of the vehicles mentioned in the aforementioned international application, the association also makes it possible to benefit from the power of each vehicle for traveling in convoy.

  It is understood that any means for contactlessly informing the second vehicle of the position of the first allows the device of the invention to be equivalent. A system for global positioning of vehicles in their movement plan can thus be used if its accuracy and reliability are compatible with maintaining a constant distance between the vehicles considered.

  The invention is susceptible of industrial application in the field of passenger and luggage transport vehicles.

Claims (1)

  Device for adjusting the distance between moving vehicles, comprising a first vehicle provided with means for transmitting a signal and a second vehicle provided with means for receiving said signal, characterized in that the signal is variable with the distance to said first vehicle and in that that the second vehicle adapts its trajectory to maintain the received signal substantially constant Device according to claim 1, characterized in that the received signal is maintained essentially constant amplitude Device according to claim 1, characterized in that the received signal is kept substantially constant Device according to Claim 1, characterized in that the received signal is maintained essentially constant in intensity Device according to Claim 1, 2 or 3, characterized in that the signal is ultrasound Device according to Claim 1 or 4, characterized in that that the signal is optical Device according to the claim 3, characterized in that the signal is maintained substantially constant in phase shift between a first portion of the signal which is optical and a second portion of the signal which is ultrasonic. Application of the device according to any one of claims 1 to 7 to maintain substantially constant the distance and make the orientations identical in a horizontal plane, in order to obtain a crawling effect, a first and a second mobile vehicles of the horizontal plateau type, each provided with forward movement controls or rearward and rotation commands about a vertical axis, characterized in that at least one transmitter is installed on the first vehicle, at least two receivers are installed on the second vehicle, the sum of at least two of received signals 1) 2) to 3) 4) 5) 6) 7) 8) is held constant by action on the forward or reverse movement control of the second vehicle and the difference in the ego ns two of the received signals is maintained zero by action on the rotation controls of the second vehicle around a vertical axis.