JP3149074U - Collision detection switch, collision detection switch device using the same, and collision detection system between multiple objects - Google Patents

Abstract

When a plurality of moving objects contact or collide, the contacted or collided object and each collision part are specified. When two electrodes made of a thin conductor are spread over a surface of a switch board made of an insulating material with a narrow gap therebetween, one switch board when two types of switch boards contact or collide with each other. This electrode is configured to short-circuit between the two electrodes of the other switch substrate, and the electrode of the other switch substrate is configured to short-circuit between the two electrodes of the one switch substrate. A short circuit is electrically detected, and the detected information is transmitted to the collision determination device together with information for specifying the switch board, and the two switch boards that have caused the collision are specified. [Selection] Figure 1

Description

  The present invention is a switch that is used by attaching to the surface of a plurality of moving objects. When two objects contact or collide with each other, the two objects that contact or collide with each other, and the respective contact or collision site. In particular, the present invention relates to a collision detection switch used for specifying the above, a collision detection switch device equipped with the same, and a collision detection system between a plurality of objects.

  For example, in a fencing competition using a sword called a saber, when a sword touches the opponent's effective surface (head, torso, arm), a score is given to the player who touched it. Since it is difficult to visually determine whether the sword has come into contact with the effective surface of the opponent, it is electrically performed. During the match, players wear metal jackets made of metal fibers on top of their uniforms. The metal jacket and the metal sword are each connected to an electric referee through a cord. When one player's sword touches the other player's effective surface made of metal fiber, the electrical circuit closes. The electric umpire detects this and determines the player who has attacked, and informs the determination result with a buzzer, a lamp, or the like.

  However, this method requires an electric cord for connecting the moving player's sword and metal jacket to the electric referee. For this reason, a player's movement range and attitude | position are restrict | limited, and a game place is limited. In addition, the conventional electric umpire can be applied only to a game such as fencing where two players play against each other. For example, the present invention cannot be applied to a competition in which two people form a pair and two pairs of four people play, or a competition in which three or more people engage randomly.

In recent years, the use of autonomous guided automatic guided vehicles is increasing at production sites. In the future, it is expected that autonomous walking robots will replace humans. When a plurality of such autonomous unmanned transport carts and robots are operated on the same site, it is conceivable that a contact or a collision may occur between them due to a malfunction of the control device or the collision prevention device. When such a contact or collision occurs, it is necessary to detect which part of which trolley / robot contacted and what part of which trolley / robot at what time to investigate the cause.
JP 2003-267663 A

  The present invention has been made from this background, and the problem is that when there are multiple moving objects, when a contact or collision occurs between these objects, which part of which object, which object, It is an object of the present invention to provide a collision detection switch used for detecting whether a part has been touched or collided, a collision detection switch device equipped with the collision detection switch, and a collision detection system between a plurality of objects.

  According to the first aspect of the present invention for solving the above-described problem, when two of a plurality of moving objects cause a collision, the two objects that caused the collision and the respective collision sites are specified. A collision detection system for a plurality of objects for detecting a short circuit of a switch attached to a surface of a portion of each object where there is a possibility of collision, a detection timing of the switch A collision detection switch device that wirelessly transmits information for specifying a switch, and the detection timing and information for specifying the switch that are wirelessly transmitted by each of the collision detection switch devices, and any of a plurality of received detection timings When the two timings coincide with each other within a predetermined time difference, the scan specified by the information specifying the switch transmitted together with the detection timings. Each switch is composed of two electrodes made of thin conductors with a narrow gap between them on the surface of a switch board made of an insulator. When the switch attached to two parts caused by the movement of each object causes a collision, the conductor constituting the electrode on the switch board of one switch that caused the collision The two electrodes on the switch board of the other switch that caused the short circuit are short-circuited, and the conductor constituting the electrode on the switch board of the other switch is between the two electrodes on the switch board of the one switch. Is a collision detection system between a plurality of objects.

  According to the collision detection system having such a configuration, it is possible to reliably identify an object that has contacted or collided and its portion.

  According to a second aspect of the present invention, in the collision detection system between a plurality of objects according to the first aspect of the present invention, each electrode of two electrodes formed by stretching a thin conductor on the surface of the switch board is comb-toothed. In this collision detection system, a plurality of comb-like electrodes are arranged with a narrow inter-electrode gap therebetween.

  The collision detection system having such a configuration has the same effects as the collision detection system according to the first aspect.

  According to a third aspect of the present invention, there is provided a collision detection system between a plurality of objects according to the first aspect, wherein each of the two electrodes formed by extending a thin conductor around the surface of the switch substrate is a narrow electrode. A collision detection system between a plurality of objects, wherein the collision detection system is arranged in a spiral shape with a gap between them.

  The collision detection system having such a configuration has the same effects as the collision detection system according to the first aspect.

  According to a fourth aspect of the present invention, in the collision detection system between a plurality of objects according to any one of the first to third aspects, each of the collision detection switch devices is the second of the switches connected to the device. A voltage is applied between two electrodes, and the current flowing when the electrodes are short-circuited is detected to detect that the switch is short-circuited. It is a collision detection system.

  The collision detection system having such a configuration has the same effects as the collision detection system according to the first aspect.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an overall configuration of a collision detection system between a plurality of objects according to the present invention. The collision detection system 1 includes a plurality of collision detection switch devices 21 to 24 and a collision determination device 31 having the same configuration. Although four types of collision detection switch devices 21 to 24 are shown in the drawing, the number is arbitrary as long as it is two or more.

  FIG. 2 is a configuration diagram of a collision detection switch device 21 as an example. The collision detection switch device 21 includes a collision detection switch 21a and a detection circuit 21b. The collision detection switch 21a is composed of a switch substrate 21c and two electrodes 21d stretched on the surface thereof. The switch board 21c is made of a flexible electrical insulator sheet. Examples of the material for the electrical insulator sheet include glass epoxy, paper epoxy, Teflon (registered trademark), alumina, and paper phenol.

  On the surface of the switch substrate 21c, two electrodes 21d made of a thin conductor are stretched across a narrow inter-electrode gap. The winding pattern (arrangement) may be a spiral pattern as shown in FIG. 2 or a pattern in which comb-like electrodes as shown in FIG. 3 are arranged facing each other. Such an electrode pattern can be formed on the surface of the switch substrate 21c by using a printed wiring board manufacturing technique. The ends of the two electrodes 21d are connected to two through-hole terminals 21e forming a terminal block. Each terminal 21e is connected to two input terminals 21g of the detection circuit 21b by two lead wires 21f.

  The detection circuit 21b is a circuit for detecting a conduction state between the two electrodes 21d, and includes resistors R1 to R3, a DC voltage source E1, a comparator CP1, a modulation circuit 21h, an antenna 21j, and an oscillation circuit 21k. ing. The resistors R1 and R2 are voltage dividing resistors and are connected in series and connected to both ends of the DC voltage source E1. The divided voltage V1 is input to the inverting input terminal of the comparator CP1.

  The resistor R3 is connected in series with the two electrodes 21d, and the series circuit is connected to both ends of the DC voltage source E1. The voltage V2 at the interconnection point between the resistor R3 and the electrode 21d is input to the non-inverting input terminal of the comparator CP1. The direction of the voltage generated by the DC voltage source E1 is as shown in the figure, and the negative potential is a reference potential grounded.

  When the gap between the two electrodes 21d is open (the collision detection switch 21a is OFF), V1> V2, and the output voltage of the comparator CP1 is at a low level (logic 0). When the two electrodes 21d are short-circuited (the collision detection switch 21a is in the ON state), V1 <V2, and the output voltage of the comparator CP1 is at a high level (logic 1). The output voltage of the comparator CP1 is input to the modulation circuit 21h. The carrier wave generated by the oscillation circuit 21k is also input to the comparator CP1. The modulation circuit 21h modulates the input carrier wave with a logic signal output from the comparator CP1. The modulated radio wave is wirelessly transmitted from the antenna 21j.

  The oscillation frequencies of the oscillation circuits 21k to 24k constituting the collision detection switch devices 21 to 24 are set to different values. Therefore, the transmitted collision detection switch device can be identified by examining the frequency of the radio wave modulated and modulated by the logic signal. Further, by detecting the radio wave, it is possible to determine the state of the logic signal that has been carried on the radio wave. That is, the ON / OFF state of the collision detection switches 21a to 24a connected to the collision detection switch devices 21 to 24 can be determined.

  A collision determination device 31 in FIG. 1 receives radio waves transmitted from the collision detection switch devices 21 to 24, and detects collisions connected to the collision detection switch devices 21 to 24 based on the above-described radio wave frequency and logic signal states. This is a circuit for determining the ON / OFF state of the switches 21a to 24a. The collision determination device 31 includes an antenna 31a, a reception unit 31b, and a collision determination unit 31c.

  The receiving unit 31b discriminates radio waves captured by the antenna 31a by frequency, and detects a logic signal used for modulation from the modulated state of the frequency radio waves thus discriminated. The result is input to the collision determination unit 31c. The collision determination unit 31c determines ON / OFF states of the collision detection switches 21a to 24a connected to the collision detection switch devices 21 to 24 from the input detection result. Subsequently, the collision determination device 31 performs the collision determination described below.

  In the case where there are a plurality of moving objects and two of them contact or collide, the collision detection system 1 is in contact with the two objects that have caused the contact or collision, and the contact or collision. It is a system that aims to identify the site that caused the problem. The collision detection switch devices 21 to 24 shown in FIG. 1 are attached to a moving object, and the collision detection switches 21a to 24a are attached to the surface where contact or collision is likely to occur.

  Assume that two objects contact or collide, and for example, two collision detection switches 21a and 22a contact or collide. Then, the electrode 21d mounted on the surface of the collision detection switch 21a short-circuits the two electrodes 22d mounted on the surface of the collision detection switch 22a. Conversely, the electrode 22d attached to the surface of the collision detection switch 22a short-circuits the two electrodes 21d attached to the surface of the collision detection switch 21a. The detection circuit 21b and the detection circuit 22b detect a short circuit almost simultaneously, and inform the collision determination device 31 by radio that the short circuit has occurred.

  The collision determination device 31 receives radio and recognizes that the collision detection switches 21a and 22a are turned on. The collision determination unit 31c detects that the collision detection switches 21a and 22a are in the ON state, and determines that a contact or collision has occurred between the two objects on which the collision detection switches 21a and 22a are mounted. The determination result is output as a display or sound.

  The determination that the contact or the collision has occurred and the identification of the collision detection switch that has occurred are performed by, for example, a logic circuit as shown in FIG. In the figure, Q1-6 are 2-input AND circuits. Each logical product circuit receives ON / OFF logic signals of two different collision detection switches 21a to 22a. The AND circuits Q1 to Q6 output a logic 1 when both of the input signals from the two collision detection switches are ON. For example, when both the collision detection switches 21a and 22a are ON, the output of the AND circuit Q1 becomes logic 1. Thereby, it can be specified that the collision detection switches 21a and 22a have contacted or collided. Similarly, a collision detection switch that has caused another contact or collision can be identified.

  As described above, in the collision detection system 1 of the present embodiment, the collision detection switch that collided with the collision detection switch that is collided is turned on, and the collision detection switch that collided collides with the collision detection switch. The two collision detection switches that have contacted or collided are identified using the ON state of the collision detection switch. Therefore, there is an advantage that the two collision detection switches that have caused contact or collision can be reliably identified. In particular, the collision detection switch of the present embodiment has an advantage that it can detect the contact even when the contact is made with a slight pressing force. On the other hand, in the case of the pressure-sensitive switch described in the next modified embodiment, there is a weak point that cannot be detected unless contact is made with a certain amount of large pressing force.

(Modified embodiment)
(Part 1) In the above-described embodiment, two electrodes 21d are stretched across the surface of the switch substrate 21c with a narrow gap, and the two collision detection switches that have caused contact or collision cause each other's electrodes to be short-circuited. Was used. A pressure sensitive switch may be used instead of such a contact type switch. The pressure-sensitive switch is a mechanical pressure-sensitive switch that causes a short circuit when two electrode plates stacked with a narrow gap come into contact with each other when the pressing force acting on the surface of the switch board exceeds a certain value. . Even when such a pressure-sensitive switch is used, the pressure-sensitive switch that caused the collision presses the pressure-sensitive switch of the other party to turn on the switch, and at the same time, the switch of its own is also caused by the reaction force of the pressure. Turns on. Therefore, it is possible to identify two switches that have caused a collision.

(Part 2) In the embodiment, in order to identify the collision detection switch devices 21 to 24 that have transmitted radio waves, each collision detection switch device modulates a carrier wave having a frequency assigned to the device with an ON / OFF logic signal. To send. Instead of changing the frequency of the carrier wave in this way, the time zone in which the switch has been kept in the ON state and the state in which the collision detection switch device is specified may be converted into a digital numerical value and transmitted. In the collision determination device 31 to receive, when the time zones in the ON state overlap, it is determined that a contact or collision has occurred between the collision detection switches connected to the two collision detection switch devices that have transmitted the signal.

  The collision detection system according to the present invention can be used for the following applications, for example. FIG. 5 is an example in which a collision detection switch is mounted on the surface of a toy sword. It may be attached to a kendo bamboo sword, a fencing sword, or a spearhead. FIG. 6 shows an example in which a collision detection switch is mounted on the body surface, which is a kendo protection tool. You may attach to the surface of the body protector used for competitions, such as karate, Aikido, Iaido, and fencing. If a collision detection switch is mounted on the surface of these attacking equipment and protective equipment, in any game or play where two or more competitors play, It is possible to reliably determine whether the protective equipment has been hit.

  FIG. 7 shows an example in which a collision detection switch 25a is mounted on the surface of an autonomously traveling robot such as the arm, foot, back of hand, elbow, and chest. If a collision detection switch is installed in this way, when multiple robots work while autonomously running on the same work floor, if a collision occurs due to some trouble, the part that collided with the robot that caused the collision , The time can be reliably detected and the cause can be investigated. It is also possible to construct a robot game or the like in which such an autonomous robot has a toy sword equipped with the collision detection switch shown in FIG.

1 is an overall configuration diagram of a collision detection system 1 between a plurality of objects according to the present invention. 2 is a configuration example of a collision detection switch device 21. 4 is another configuration example of the collision detection switch device 21. It is an example of the logic circuit which identifies the collision detection switch which caused the collision. This is an example in which a collision detection switch is mounted on the surface of the sword. This is an example in which a collision detection switch is mounted on the surface of a kendo trunk. This is an example in which a collision detection switch is mounted on the surface of an autonomously traveling robot such as the arm, foot, back of hand, elbow, and chest.

Explanation of symbols

  In the drawings, 1 is a collision detection system, 21 to 24 are collision detection switch devices, 21a to 25a are collision detection switches, 21b to 24b are detection circuits, 21c to 24c are switch boards, 21d to 24d are electrodes, and 31b is a receiver. , 31c indicates a collision determination unit.

Claims (4)

When two of a plurality of moving objects have collided, a collision detection system between the two objects for identifying the two colliding objects and the respective collision parts,
Collision detection switch for wirelessly transmitting a switch attached to the surface of a portion of each object where there is a possibility of collision, and detecting that the switch is short-circuited and detecting the timing of the switch Equipment,
When each of the collision detection switch devices receives the detection timing wirelessly transmitted and information for specifying the switch, and any two of the received detection timings coincide with each other within a predetermined time difference, It is composed of a collision determination device that determines that a collision has occurred between the switches identified by the information identifying the switch transmitted together with the detection timing,
Each switch is composed of two electrodes made of a thin conductor on the surface of a switch board made of an insulating material with a narrow gap therebetween, and is attached to two parts by the movement of each object. When a switch that has collided causes a collision between the two electrodes on the switch board of the other switch, the conductor that constitutes the electrode on the switch board of the one switch that has caused the collision. A collision between a plurality of objects, wherein a conductor constituting the electrode on the switch board of the other switch is configured to short-circuit between the two electrodes on the switch board of the one switch. Detection system.   The collision detection system between a plurality of objects according to claim 1, wherein each electrode of the two electrodes formed by extending a thin conductor around the surface of the switch substrate is formed in a comb-like shape, and two comb-like electrodes are provided. Is a collision detection system between a plurality of objects, characterized by being arranged with a narrow gap between electrodes.   2. The collision detection system between a plurality of objects according to claim 1, wherein each electrode of the two electrodes formed by extending a thin conductor on the surface of the switch substrate is arranged in a spiral shape with a narrow inter-electrode gap. A collision detection system between a plurality of objects.   The collision detection system between a plurality of objects according to any one of claims 1 to 3, wherein each of the collision detection switch devices applies a voltage between the two electrodes of the switch connected to the device, A collision detection system between a plurality of objects, wherein a current flowing when an electrode is short-circuited is detected to detect that a switch is short-circuited.