WO2007132033A1 - System for detecting, guiding or tracking devices or persons - Google Patents

Abstract

The subject of the present invention is a system for detecting, guiding or tracking devices or persons, which makes it possible, at all times, for a movable element to ascertain the position of a transmitter, since, owing to its special configuration, the system makes it possible, at all times, for the movable element to follow a device or person on the move or to be guided by fixed elements placed along its trajectory, by eliminating dead spots, and therefore, at all times, the movable element can ascertain the position of the transmitter and the response time is greatly reduced.

Description

 DETECTION SYSTEM. GUIDANCE OR MONITORING OF DEVICES OR PEOPLE

DESCRIPTION

OBJECT OF THE INVENTION

The present invention aims at a system for detecting, guiding or tracking devices or people that allows at any time to know the position of a transmitter by a mobile element.

Due to its special configuration, the system allows the mobile element to follow a moving device or person at any time or be guided by fixed elements placed along its path.

The system of detection, guidance or tracking of devices or people allows the elimination of dead spots so that at all times the mobile element knows the position of the transmitter and the response time is greatly reduced.

BACKGROUND OF THE INVENTION

Systems that have a transmitter and a receiver each of which are placed in a mobile device are well known in the prior art, so that the receiving device follows the emitting device according to the detected signals.

Among the previous systems is publication US4844493 referring to a vehicle by control remote in which the receiving device and the sending device emit and receive via infrared.

Said remote control vehicle has four infrared receivers or detectors, two of them to control the speed at which the vehicle must follow the emitter, depending on the distance at which it is located and two of them to control the direction in the that the vehicle must follow the emitter, depending on the direction in which the emitter moves.

However, in the previous system there are areas where the vehicle can lose the transmitter due to, for example, a rapid movement of the vehicle, since there are areas where none of the detectors, both speed and direction, receive the signal of the transmitter, the system interprets that the transmitter is in front of the vehicle and at a very short distance.

However, this same state of the detectors can occur when the transmitter is outside the range of the detectors, so that if the transmitter does not re-enter the range of the detectors, the vehicle will not move.

All these inconveniences are overcome by the invention that is now described.

DESCRIPTION OF THE INVENTION

The present invention relates to a system for detecting, guiding or monitoring devices or people that allows the position to be known at all times of a transmitter and track it by a mobile element.

The mobile element has a set of position sensors that cover a range of up to 360 ° and are located in a horizontal plane so that one of the sensors is always faced with the transmitter.

Once the corresponding position sensor detects the location of the transmitter, this information is sent to a receiver decoding unit where the relative position of the mobile element with respect to the transmitter is stored.

Likewise, the mobile element has a distance sensor that determines the separation between said mobile element and the transmitter, the information being then sent to a distance control unit.

This distance sensor can be integrated into the position sensor assembly of the mobile element.

The data stored in the receiver decoding unit and the distance control unit are sent to a central control unit that is responsible for decoding, reorienting and relative or absolute positioning.

From here they are sent to a motion control unit that is in charge of sending a signal to motors arranged in the mobile element to reorient its front position with respect to the transmitter and approach it to a certain distance. - TO -

The entire process of detection and orientation of the mobile element with respect to the transmitter is carried out continuously so that the mobile element while moving is again determining the position of the transmitter with which it corrects continuously and without pauses its trajectory .

DESCRIPTION OF THE DRAWINGS

The present specification is complemented by a set of drawings, illustrative of the preferred and never limiting example of the invention.

Figure 1 shows a block diagram of the detection, guidance or tracking system of devices or people.

Figure 2 shows a detail of the position and distance sensors of the mobile element of the detection, guidance or tracking system of devices or people.

Figure 3 shows a schematic of the path followed by the mobile element when describing a predefined path by a series of transmitters placed at fixed points.

PREFERRED EMBODIMENT OF THE INVENTION

In view of the foregoing, the present invention relates to a system for detecting, guiding or monitoring devices or people that allows at any time to know the position of a transmitter (1) and track it by part of a mobile element (2).

First preferred embodiment

In this first example of preferred embodiment, the transmitter (1) is coupled to a golfer, emitting in this example of preferred embodiment by infrared.

The mobile element (2) is a golf club carriage provided with a set of position sensors (2.1), which in this preferred embodiment are of the infrared type, located equidistant along a circumference contained in a horizontal plane, so that one of the position sensors (2.1) is always facing the transmitter (1).

Once the position sensor (2.1) facing the transmitter (1) detects its location, this information is sent to a receiver decoding unit (3) where the relative position of the element (2) is stored. ) mobile with respect to the transmitter (1).

Likewise, the mobile element (2) has a distance sensor (2.2), which in this preferred embodiment is of the ultrasound type and is integrated in the set of position sensors (2.1), by which the separation is determined between the mobile element (2) and the transmitter (1), the information being then sent to a distance control unit (4).

The data stored in the receiver decoding unit (3) and in the unit (4) of Distance control are sent to a central control unit (5) that is responsible for decoding, reorienting and relative or absolute positioning.

From here they are sent to a motion control unit (6) that is responsible for sending a signal to motors (7) arranged in the mobile element (2) to reorient their front position with respect to the transmitter (1) and approach He up to a certain distance.

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In this second preferred embodiment, a series of transmitters (1) placed along a path defining the trajectory of the mobile element (2) are used, which in this preferred embodiment is a charging robot that follows a Tour the halls of a factory.

The mobile element (2) is provided with a set of position sensors (2.1), which in this preferred embodiment are of the infrared type, located equidistant along a circumference contained in a horizontal plane, of so that one of the position sensors (2.1) is always faced with the first of the transmitters (1).

Once the position sensor (2.1) facing the first transmitter (1) detects its location, this information is sent to a receiver decoding unit (3) where the relative position of the element is stored ( 2) mobile with respect to the transmitter (1). Likewise, the mobile element (2) has a distance sensor (2.2), which in this preferred embodiment is of the ultrasound type and is integrated in the set of position sensors (2.1), by which the separation is determined between the mobile element (2) and the transmitter (1), the information being then sent to a distance control unit (4).

The data stored in the receiver decoding unit (3) and the distance control unit (4) are sent to a central control unit (5) that is responsible for decoding, reorienting and relative or absolute positioning.

From here they are sent to a motion control unit (6) which is responsible for sending a signal to motors (7) arranged in the mobile element (2) to reorient their front position with respect to the transmitter (1) and approach He up to a certain distance.

Once the mobile element (2), in this case the robot, is at a certain distance from the first transmitter (1), the mobile element (2) may stop when the first transmitter (1) stops emitting or be directed in a manner It continues to a second transmitter (1) that begins to emit immediately and that is at a certain distance from the first transmitter (1).

For this to happen, the position sensor (2.1) of the mobile element (2) facing the second transmitter (1) has detected its location and the continuous sequence as described for the first (1) transmitter. The mobile element (2) follows the path described by the set of transmitters (1) knowing at all times the next movement in its path.

Third preferred embodiment

In this third preferred embodiment, the transmitter (1) is coupled to an operator and the mobile element (2) is a charging device where the rest of the elements are the same as those mentioned in the first example of embodiment, it being understood not it is necessary to quote them again.

In other examples of preferred embodiment, the transmitter (1) as well as the position sensors (2.1) and the distance sensors (2.2) of the mobile element (2) can be infrared, ultrasound, radio frequency or a combination thereof. .

In all the previous embodiments, the process of detection and orientation of the mobile element (2) with respect to the transmitter (1) is carried out continuously so that the mobile element (2), while moving, is determining by means of the central control unit (6) the new position of the transmitter (1), in case it had changed its location, thereby correcting its trajectory continuously and without pauses.

Variations in materials, shape, size and arrangement of the component elements, described in a non-limiting manner, do not alter the essentiality of this invention, being sufficient to proceed with its reproduction by an expert

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Claims

I ^to .- detection system, guiding or tracking devices or persons wherein allows always know the position of a transmitter (1) and track it by a movable element (2) due to the presence of a set of position sensors (2.1) covering a range of up to 360 °, so that one of the position sensors (2.1) is always faced with the transmitter (1) to detect its location, also presenting the element (2) mobile a distance sensor (2.2) by which the separation between the mobile element (2) and the transmitter (1) is determined, the information being sent to a receiver decoding unit (3) and a unit (4) ) remote control, whose data is then stored in a central control unit (5), followed by a motion control unit (6) that is responsible for sending a signal to motors (7) arranged in the element (2) mobile for reorient ar its frontal position with respect to the transmitter (1) and approach it to a certain distance.

2 .- detection system, guiding or tracking devices or persons according to claim 1 characterized in that the unit (3) decoding receivers stores the relative position of the element (2) movable relative to the transmitter (1)

3 .- detection system, guidance or tracking devices or persons according to claim 1 characterized in that the unit (5) of central control is responsible for decoding, reorientation and positioning of relative or absolute. 4 .- detection system, guiding or tracking devices or persons according to claim 1 wherein the sensors (2.1) position the moveable member (2) are of the infrared type.

5 .- detection system, guiding or tracking devices or persons according to claim 1 wherein the sensor (2.2) away from the mobile to ele- (2) is of the ultrasonic type.

6 ^a. - System for detecting, guiding or monitoring devices or persons according to claim 1, characterized in that the distance sensor (2.2) is integrated in the set of position sensors (2.1).

7 .- detection system, guiding or tracking devices or persons according to claim 1 wherein the transmitter (1) is coupled in a golfer, wherein the movable member (2) is a trolley of golf clubs.

8 .- detection system, guiding or tracking devices will or persons according to claim 1 terized character- that a plurality of transmitters (1) placed along a path defining the trajectory of the moving element (2) which is used a robot, which follows the predetermined route through the transmitters (D •

9 .- detection system, guiding or tracking devices or persons according to claim 1 wherein the transmitter (1) is coupled to an operator and the movable member (2) is a charging device.