JP2015200142A - Invasion detection system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect invasion of a third person into a predetermined invasion prohibition area, in an invasion detection system.SOLUTION: An invasion detection system 10 includes a plurality of infrared-ray transmission units 12 that successively transmit an infrared-ray in a predetermined direction and are arranged around a predetermined invasion prohibition area 6. At least one infrared-ray transmission unit 12 of the plurality of infrared-ray transmission units 12 is a detection unit-added transmission unit 13 including: a radiation unit 14 for radiating an infrared-ray toward the side of one of adjacent two infrared-ray transmission units 12; a detection unit 16 for detecting an infrared-ray from the side of the other of the adjacent two infrared-ray transmission units 12; and an output unit 20 for outputting a warning signal when the detection unit 16 detects that the infrared-ray successively transmitted by the plurality of infrared-ray transmission units 12 is intercepted.

Description

  The present invention relates to an intrusion detection system that detects the intrusion of a third party into a predetermined intrusion prohibited area.

  Intrusion into this invasion area by placing a color cone (registered trademark) and providing a safety rope etc. around the invasion prohibition area where third parties are prohibited from entering at construction sites. Is preventing.

  As a technique related to the present invention, for example, Patent Document 1 discloses a configuration in which a blinking lighting fixture is attached to the apex of a color cone (registered trademark). As a result, it is stated that attention is given to third parties such as pedestrians and automobiles at construction sites.

Japanese Utility Model Publication No. 58-53402

  According to the configuration of Patent Document 1, intrusion by a third party into the intrusion prohibited area can be suppressed. However, in this configuration, since it is not possible to detect that a third party has entered the intrusion prohibited area, there is a possibility that necessary measures against the third party's intrusion cannot be quickly performed.

  An object of the present invention is to provide an intrusion detection system that detects intrusion of a third party into a predetermined intrusion prohibited area.

  An intrusion detection system according to the present invention is an intrusion detection system in which a plurality of infrared transmission units that sequentially transmit infrared rays in a predetermined direction are arranged around a predetermined intrusion prohibition region, and the plurality of infrared transmission units At least one of the infrared transmission units includes an irradiation unit that emits infrared rays toward one side of the two infrared transmission units adjacent to the infrared transmission unit, and an infrared ray from the other side of the two adjacent infrared transmission units. A detection unit for detecting the output and an output unit for outputting a warning signal when the detection unit detects that the infrared rays sequentially transmitted by the plurality of infrared transmission units have crossed. It is characterized by being.

  In the intrusion detection system according to the present invention, at least one infrared transmission unit other than the transmission unit with the detection unit among the plurality of infrared transmission units is one side of two infrared transmission units adjacent to the infrared transmission unit. It is preferable that it is a reflection transmission part which has a reflection part which reflects the infrared rays from the light so that it may face the other side.

  Moreover, the intrusion detection system according to the present invention preferably includes an aim adjustment mechanism for aligning the optical axis of the infrared light irradiated from the irradiation unit with the center of the detection unit of the adjacent transmission unit with detection unit.

  In the intrusion detection system according to the present invention, it is preferable to include an aim adjustment mechanism that aligns the optical axis of the infrared light irradiated from the irradiation unit with the central part of the reflection unit of the adjacent reflection transmission unit.

  Further, in the intrusion detection system according to the present invention, the intrusion detection system includes a region forming member having a conical shape arranged so as to surround the intrusion prohibited region, and the infrared transmission unit is attached to a vertex of the region forming member. Is preferred.

  Further, in the intrusion detection system according to the present invention, the infrared transmission unit is attached to a power source for operating the irradiation unit, the detection unit, and the output unit, and the apex portion of the region forming member. It is preferable to include a base including a switch mechanism that can supply power from a power source to the irradiation unit, the detection unit, and the output unit.

  According to the above configuration, a warning signal is output when the detection unit detects that the infrared rays sequentially transmitted around the intrusion prohibited area are crossed by a third party. This makes it possible to quickly take necessary measures against the intrusion of a third party.

It is a figure which shows the intrusion detection system of embodiment which concerns on this invention. It is a figure which shows a mode that the warning signal is transmitted to the portable terminal device which an operator carries from the infrared rays transmission part in the intrusion detection system of embodiment which concerns on this invention. It is a figure which shows the intrusion detection system of embodiment which concerns on this invention.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. Also, in the following, corresponding elements in all drawings are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 is a diagram illustrating an intrusion detection system 10. The intrusion detection system 10 is configured such that a plurality of infrared transmission units 12 are arranged in a substantially circular shape at substantially equal intervals around a predetermined intrusion prohibited area 6. The intrusion prohibited area 6 is an area in which a third party is prohibited from entering, for example, in a dangerous work area such as a lifting work, an oxygen deficiency dangerous work, or the like. A plurality of triangular cones 8 are arranged around the intrusion prohibited area 6 at a predetermined interval. The triangular cone 8 is a region forming member having a hollow conical shape. The overall height of the triangular cone 8 is, for example, about 50 cm to 80 cm.

  FIG. 2 is a diagram illustrating a state in which a warning signal is transmitted from one infrared transmission unit 12 to the portable terminal device 21 carried by the worker 7. The infrared transmission unit 12 includes a transmission unit 13 with a detection unit and an aim adjustment mechanism 22. A plurality of infrared transmission units 12 are attached one by one to the apexes of the plurality of triangular cones 8, and infrared rays are sequentially transmitted along the periphery of the intrusion prohibited area 6. The transmission part 13 with a detection part is provided with the irradiation part 14 which irradiates infrared rays, the detection part 16 which detects infrared rays, and the output part 20 which outputs a warning signal.

  The irradiation unit 14 is an infrared light emitting device having a function of irradiating infrared rays toward the detection unit 16 of the infrared transmission unit 12 on one side of the two adjacent infrared transmission units 12. The infrared rays emitted from the irradiation unit 14 are so-called near infrared rays, and the wavelength thereof is about 0.7 μm to about 2.5 μm.

  The detection unit 16 has a function of detecting infrared rays from the other side of the two adjacent infrared transmission units 12. The detection unit 16 includes an infrared film having sensitivity in the near infrared region. A signal indicating whether or not the detection unit 16 has detected infrared rays is transmitted to the output unit 20. In addition, when infrared rays are not detected, it means that the infrared loop 17 has been crossed by a third party.

  The output unit 20 outputs a warning signal when the detection unit 16 detects that the infrared loop 17 sequentially transmitted by the plurality of infrared transmission units 12 has crossed, and the warning signal is operated by a wireless transmission unit (not shown). It is transmitted to the portable terminal device 21 carried by the member 7.

  The portable terminal device 21 includes a wireless reception unit that receives a warning signal wirelessly transmitted from the output unit 20, and a vibrator unit that vibrates when the warning signal is received. In addition, the portable terminal device 21 may be provided with a voice notification unit that notifies by voice instead of the vibrator unit as means for notifying the worker 7 that the warning signal has been received.

  The aiming adjustment mechanism 22 has a sphere 27 attached to the top of a base 23 having a cap shape attached to the apex of the triangular cone 8, and a slidable surface in a three-dimensional direction on the sphere surface. This is a free pan head mechanism having a cover member 28 to which the transmission unit 13 is attached and a screw member 29 for fixing the movement of the cover member 28. When the screw member 29 is loosened, the cover member 28 can move in the three-dimensional direction, so that the transmission unit 13 with the detection unit can be changed to a desired angle. When the screw member 29 is tightened, the movement of the cover member 28 is fixed, and the transmission unit 13 with the detection unit can be held at a desired angle. Thereby, the optical axis of the infrared ray irradiated from the irradiation part 14 can be matched with the center part of the detection part 16 of the adjacent transmission part 13 with a detection part.

  In the base 23, a button type battery constituting a power source for operating the irradiation unit 14, the detection unit 16, and the output unit 20, and a button type battery when the base 23 is attached to the apex of the triangular cone 8. And a switch mechanism that can supply the electric power to the irradiation unit 14, the detection unit 16, and the output unit 20.

  The operation of the intrusion detection system 10 having the above configuration will be described. As described above, in the intrusion detection system 10, a plurality of infrared transmission units 12 are attached one by one to the apexes of the plurality of triangular cones 8, and infrared rays are sequentially transmitted along the periphery of the intrusion prohibition region 6.

  If a third party enters the intrusion prohibited area 6, the infrared loop 17 is blocked by the third party. As a result, infrared rays cannot be detected by the detection unit 16, and a warning signal is output from the output unit 20. Then, since the portable terminal 21 carried by the worker 7 vibrates, the worker 7 notices that a third party has entered the intrusion prohibited area 6. Therefore, the worker 7 can take measures such as alerting a third party to leave the intrusion prohibited area 6.

  Further, the intrusion detection system 10 includes an aiming adjustment mechanism 22 that can align the optical axis of the infrared light emitted from the irradiation unit 14 with the center of the detection unit 16 of the adjacent transmission unit 13 with detection unit. Thereby, even when there is a step in the intrusion prohibited area 6, infrared rays can be sequentially transmitted around the intrusion prohibited area 6 by adjusting the angle.

  FIG. 3 is a diagram showing the intrusion detection system 11. The intrusion detection system 11 is formed by arranging one infrared transmission unit and a plurality of infrared transmission units 15 around a predetermined intrusion prohibited area 6.

  The infrared transmission unit 15 is a reflection transmission unit 25 having a reflection unit that reflects infrared rays from one side of two adjacent infrared transmission units 12 and 15 so as to face the other side. The reflection transmission unit 25 includes an infrared reflection film that reflects the near infrared region. The infrared transmission unit 15 also has an aim adjustment mechanism 22 similarly to the infrared transmission unit 12, but detailed description thereof is omitted. In addition, by having the aim adjustment mechanism 22, the optical axis of the infrared rays irradiated from the irradiation unit 14 can be aligned with the central part of the reflection unit of the adjacent reflection transmission unit 25.

  The operation of the intrusion detection system 11 having the above configuration will be described. In the intrusion detection system 11, one infrared transmission unit 12 is mounted on the apex of one reference triangular cone 8, and a plurality of infrared transmission units 15 are mounted one by one on the apex of the remaining triangular cone 8, Infrared rays are sequentially transmitted along the periphery of the intrusion prohibited area 6.

  If a third party enters the intrusion prohibited area 6, the infrared loop 17 is blocked by the third party. As a result, the detection unit 16 of the infrared transmission unit 12 attached to the apex of the reference triangular cone 8 cannot detect infrared rays, and a warning signal is output from the output unit 20. Then, the portable terminal 21 vibrates, and the worker 7 notices that a third party has entered the intrusion prohibited area 6. Therefore, the worker 7 can take measures such as alerting a third party to leave the intrusion prohibited area 6.

  In the above description, the infrared transmission units 12 and 15 are described as being attached to the apex of the triangular cone 8, but may be attached to a member other than the triangular cone 8. Moreover, although the infrared transmission part 12 demonstrated as what transmits a warning signal to the portable terminal device 21 when infrared rays are not detected, let the infrared transmission part 12 have audio | voice functions, such as a warning announcement to a third party. Also good.

  6 intrusion prohibited area, 7 workers, 8 triangular cone, 10, 11 intrusion detection system, 12, 15 infrared transmission unit, 13 transmission unit with detection unit, 14 irradiation unit, 15 infrared transmission unit, 16 detection unit, 17 infrared loop , 20 output unit, 21 portable terminal, 22 aiming adjustment mechanism, 23 base, 25 reflection transmission unit, 27 sphere, 28 cover member, 29 screw member.

Claims (6)

An intrusion detection system in which a plurality of infrared transmission units that sequentially transmit infrared rays in a predetermined direction are arranged around a predetermined intrusion prohibited area,
At least one infrared transmission unit of the plurality of infrared transmission units is
An irradiating unit that irradiates infrared rays toward one side of two infrared transmitting units adjacent to the infrared transmitting unit;
A detection unit for detecting infrared rays from the other side of the two adjacent infrared transmission units;
An output unit that outputs a warning signal when the detection unit detects that the infrared rays sequentially transmitted by the plurality of infrared transmission units are crossed;
An intrusion detection system characterized by being a transmission unit with a detection unit. The intrusion detection system according to claim 1.
Among the plurality of infrared transmission units, at least one infrared transmission unit other than the transmission unit with the detection unit,
An intrusion detection system comprising a reflection transmission unit having a reflection unit that reflects infrared rays from one side of two infrared transmission units adjacent to the infrared transmission unit so as to face the other side. The intrusion detection system according to claim 1.
An intrusion detection system comprising an aiming adjustment mechanism for aligning an optical axis of infrared rays emitted from the irradiation unit with a central portion of a detection unit of an adjacent transmission unit with detection unit. The intrusion detection system according to claim 2,
An intrusion detection system comprising: an aim adjustment mechanism for aligning an optical axis of infrared light emitted from the irradiation unit with a central part of a reflection unit of an adjacent reflection transmission unit. The intrusion detection system according to any one of claims 1 to 4,
An area forming member disposed so as to surround the intrusion prohibited area and having a conical shape;
The intrusion detection system, wherein the infrared transmission unit is attached to a vertex of the region forming member. The intrusion detection system according to claim 5,
The infrared transmission unit includes a power source for operating the irradiation unit, the detection unit, and the output unit, and the power of the power source when mounted on the apex of the region forming member. And an intrusion detection system comprising a base including a switch mechanism that can be supplied to the output unit.

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