JPH11232564A - Trespass detection system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a trespass detection system with rare misalarming. SOLUTION: A trespass detection system 11 is equipped with a compound lens 14 to converge incident infrared rays on a light-beam detector 26 and a window to lead the infrared rays on the light beam detector 26 by a curved mirror 24. Further, an insect excluding enclosure to prevent the entry of insects is provided covering the light-beam detector 26. The insect excluding enclosure secures the optical paths between the compound lens 14 and light-beam detector 26, and between the window and light-beam detector 26 to prevent the entry of a body with diameter of about 1 mm or more which exerts influences on the optical paths. To absorb or scatter unnecessary light beams which are not converted on the light-beam detector 26, the inspect excluding enclosure is colored, its internal wall has a fiberous ground, and projections are provided.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a security intrusion detection system using infrared rays (hereinafter, simply referred to as an intrusion detection system), and more particularly, to suppressing unnecessary light beams that are not focused on a light detector. And a device for doing so.

[0002]

2. Description of the Related Art Intrusion detection systems using infrared rays
It has a lens with a plurality of focal lines for focusing incoming infrared light on a light detector. Further, an enclosure member covering the periphery of the light detector eliminates insect invasion. The surrounding member has a space as an optical path between the lens and the light beam detector. Light rays that are focused by the lens at locations other than the light detector are unnecessary light rays (hereinafter, simply referred to as unnecessary light rays), and such light rays are reflected by the inside of the insect rejection enclosure again, and are thus mistaken. It is considered to be a radiation source that induces detection of intrusion. Reducing unwanted light reaching the light detector leads to an improved intrusion detection system using infrared light, which results in minimizing false alarms (false alarms).

[0003] US Patent No. 4268347 (Ric
hard B. Stephens 1981.5.19 effective) etches the surface of a dielectric material (particles).
track etching) to change the reflectivity of the surface. A conical cavity is formed on the surface of the woven fabric. Although it has been described that such a fabric-like surface reduces the reflection of light rays,
No application to infrared is described.

[0004] US Patent No. No. 4271358 (Fra
nk Schwarz 1981.6.2) uses infrared detector housings made of polyhydrocarbon plastics, such as polyethylene, and uses these resins to absorb visible light better and to emit light longer than infrared light. It mentions the addition of dyes or pigments that do not absorb much light.

[0005] US Patent No. 5424718 (Kur
t Muhler et al. 1995.1.13) describes an infrared intrusion detector that utilizes light scattering to prevent false alarms due to light other than the required frequency. The mirror that focuses the light beam has a rough surface to select the required infrared light. Infrared rays are 6 ~
In the wavelength region of 15 μm, the light is reflected and collected according to the shape of the mirror. At this time, visible light having a wavelength of about 0.4 μm or less to 3 μm and light having a wavelength outside the range of near infrared rays are scattered. However, since light rays other than infrared rays are not scattered, it is not possible to prevent a situation where those light rays are erroneously detected.

[0006]

SUMMARY OF THE INVENTION An object of the present invention is to absorb or scatter unnecessary light rays (hereinafter referred to as unnecessary light rays) entering an intrusion detection system using infrared rays. Another object of the present invention is to improve the performance of an intrusion detection system and reduce false alarms (false alarms) by providing means for absorbing unnecessary light. It is also an object of the present invention to color the peripheral wall of the insect rejection enclosure of the intrusion detection system to absorb unwanted light. Another object of the invention is to provide a textile ground surface on the inner wall of the insect rejection enclosure in the intrusion detection system to scatter unwanted light. Another object of the present invention is to provide an undulating surface inside an insect exclusion enclosure of an intrusion detection system, and to attenuate unnecessary light by reflecting unnecessary light in multiple at a valley portion of the undulating surface. is there. Another object of the present invention is to insert a predetermined member into the inside of an insect exclusion enclosure and to color the wall of the member to absorb or scatter unnecessary light, or to fabricate the wall of the member by woven fabric. Improving the performance of existing intrusion detection systems, either by terrain or undulating. It is a further object of the present invention to provide an intrusion detection system having a sealed housing for eliminating insects and a shroud for absorbing or scattering unwanted infrared radiation.

[0007]

Means for Solving the Problems In the present invention, claim 1 is provided.
The structure of the invention described in (1) includes a front assembly member having a compound lens for focusing a light beam, a light beam detecting means for detecting the light beam, and a circuit for processing the light beam detected by the light beam detecting device. And a rear assembly member that covers the circuit board together with the front assembly member, and the front assembly member prevents the compound lens from invading insects into the light detector. An intrusion detection system includes an insect exclusion unit and a prevention unit that prevents unnecessary light from reaching the light detector. According to a second aspect of the present invention, in the first aspect of the present invention, the insect elimination means includes a first opening provided at a first end adjacent to the compound lens; A second opening smaller than the first opening for fitting a light detector protruding from the circuit board. According to a third aspect of the present invention, in the first aspect of the present invention, the insect elimination means is colored to absorb the unnecessary light. According to a fourth aspect of the present invention, in the first aspect of the present invention, the insect elimination means has a woven ground surface for scattering the unnecessary light. According to a fifth aspect of the present invention, in the first aspect of the present invention, the insect exclusion means has an undulating surface for preventing the unnecessary light rays from being reflected on the light ray detection means. To have. According to a configuration of the invention described in claim 6, in the invention described in claim 1, the front assembly member has another window at a lower end for receiving a light beam, and the front assembly member has a window. The incoming light may strike a mirror provided on top of the light detector to reflect the light onto the light detector. According to a seventh aspect of the present invention, in the third aspect of the present invention, the coloring applied to the insect exclusion means is black. According to a configuration of the invention described in claim 8, in the invention described in claim 4, the woven fabric-like surface repeats a random displacement up and down from a smooth reference surface, and a three-dimensional uneven structure is formed. It is in forming. According to a ninth aspect of the present invention, in the invention according to the fifth aspect, the undulating surface has a valley portion for attenuating reflection of the unnecessary light beam and a crest portion. Is to be. According to a tenth aspect of the present invention, in the second aspect, when the second opening of the insect exclusion means is attached to the circuit board, the second opening is formed. Is sealed by a seal member.

[0008] According to the present invention, a front assembly member having a compound lens for focusing a light beam, and a light beam detection device arranged to face the compound lens for detecting the light beam. A circuit board having a vessel and a circuit for processing the detected light beam, and a rear assembly member covering the circuit board together with the front assembly member, and the front assembly member is provided on the compound lens. In addition, there is provided an intrusion detection system which is provided with an insect elimination means for preventing insects from entering the light detector, and which is provided with a suppression means for suppressing unnecessary light rays inside the insect exclusion means. According to a twelfth aspect of the present invention, in the first aspect of the invention, the insect elimination means and the suppression means are provided on a first end adjacent to the compound lens. An opening, the first for fitting a light detector protruding from the circuit board;
And a second opening smaller than the opening. The structure of the invention described in claim 13 is the first invention.
In the invention described in the item 1, the suppression means is colored to absorb the unnecessary light. The structure of the invention described in claim 14 is the first invention.
In the invention described in Item 1, the suppression means has a woven fabric surface for scattering the unnecessary light. According to a configuration of the invention described in claim 15, in the invention described in claim 11, the suppression means has an undulating surface for preventing the unnecessary light from being reflected on the light detection means. That you are doing. According to the structure of the invention described in claim 16, in the invention described in claim 11, the front assembly member has another window at a lower end for receiving a light beam, and the front assembly member has The incoming light may strike a mirror provided on top of the light detector to reflect the light onto the light detector. According to a seventeenth aspect of the present invention, in the invention of the thirteenth aspect, the coloring applied to the insect exclusion means is black. The structure of the invention described in claim 18 is the invention according to claim 14, wherein the woven fabric-like surface repeats a random displacement up and down from a smooth reference plane, and a three-dimensional uneven structure is formed. It is in forming. The structure of the invention described in claim 19 is the invention described in claim 15, wherein the undulating surface has a valley portion for attenuating reflection of the unnecessary light beam and a crest portion. Is to be.

According to a twentieth aspect of the present invention, a front assembly member having a compound lens for focusing a light beam, a light beam detecting means for detecting the light beam, and the light beam detected by the light beam detecting means. A circuit board having a circuit for processing a light beam, a first opening disposed around the light detector, and a second facing the compound lens
The intrusion detection system includes a partition member that suppresses unnecessary light rays, and a rear assembly member that covers the circuit board together with the front assembly member to eliminate insect invasion. According to the structure of the invention described in claim 21, in the invention described in claim 20, the partition member receives light focused at the focal point.
The second opening is positioned in front of the compound lens, and the first light is received by the light detector protruding from the circuit board so as to detect the light received by the second opening. The opening is smaller than the second opening. A structure of the invention described in claim 22 is that, in the invention described in claim 20, the partition member is colored to absorb the unnecessary light. According to a twenty-third aspect of the present invention, in the twentieth aspect, the partition member has a woven fabric surface for scattering the unnecessary light. According to a configuration of the invention described in claim 24, in the invention described in claim 20, the partition member has an undulating surface for preventing the unnecessary light beam from being reflected on the light beam detecting means. That you are doing. According to the structure of the invention described in claim 25, in the invention described in claim 20, the front assembly member has another window at a lower end for receiving a light beam, and the front assembly member has a window. The incoming light may strike a mirror provided on top of the light detector to reflect the light onto the light detector. According to a twenty-sixth aspect of the present invention, in the invention described in the twenty-second aspect, the coloring applied to the insect exclusion means is black. According to a configuration of the invention described in claim 27, in the invention described in claim 23, the fabric-like surface repeats a random displacement up and down from a smooth reference surface, and a three-dimensional uneven structure is formed. It is in forming. According to a configuration of the invention described in claim 28, in the invention described in claim 24, the undulating surface has a valley portion for attenuating reflection of the unnecessary light beam and a peak portion. Is to be.

[0010] According to a twenty-ninth aspect of the present invention, there is provided a step of providing a front assembly member having a compound lens for focusing light rays, and providing the front assembly member on a circuit board having a circuit for processing detected light rays. Detecting the light beam by the provided light beam detecting means, covering the entire surface using a rear assembly member formed so as to be attachable to one surface of the circuit board and joining with the front assembly member, and In order to prevent the arrival of unnecessary light rays, inside the front assembly member, a step of attaching a suppression means to the compound lens in order to eliminate insect invasion and to prevent adverse effects on the light ray detector is included. Method of removing unnecessary light in an intrusion detection system. A structure of the invention described in claim 30 is that, in the invention described in claim 29, a step of coloring the suppression means to absorb the unnecessary light is included. A structure of the invention described in claim 31 is that, in the invention described in claim 29, a step of providing a woven fabric surface on the suppression means in order to scatter the unnecessary light is included.
According to a configuration of the invention described in claim 32, in the invention described in claim 29, in order to prevent the unnecessary light beam from being reflected on the light beam detection device, an undulating surface is provided on the suppression device. And the step of providing. The structure according to claim 33 is the same as that in claim 29.
In the invention described in the above, the step of providing the undulating surface includes a step of providing a valley portion and a peak portion for attenuating the reflection of the unnecessary light.

The invention according to claim 34 is a step of providing a front assembly member having a compound lens for focusing a light beam, and provided on a circuit board having a circuit for processing a detected light beam. Detecting the light beam by the provided light beam detecting means, covering the whole by using a rear assembly member formed so as to be attachable to one surface of the circuit board and joined to the front assembly member, attached to the compound lens A step of removing insects from the light detecting means by a shielding means located in the front assembly member, and a step of installing the shielding means inside to suppress unnecessary light. There is a method for suppressing unnecessary light. According to a thirty-fifth aspect of the present invention, in the invention according to the thirty-fourth aspect, a step of coloring the shielding means to absorb the unnecessary light is included. According to a thirty-sixth aspect of the present invention, in the thirty-fourth aspect, there is provided a step of providing a textile ground surface on the shielding means in order to scatter the unnecessary light. Claim 37
The invention according to claim 34, wherein, in the invention according to claim 34, a step of providing an undulating surface on the shielding means in order to prevent the unnecessary light from being reflected onto the light detection means. It is to include.

[0012]

FIG. 1 is an exploded perspective view of a front assembly member 10 of an intrusion detection system 11, which absorbs or scatters unnecessary light that is not focused on a light detector (infrared detector) 26. FIG. A specific example of an insect exclusion enclosure 12 (insect exclusion means, shielding means) provided with a means for slashing is shown. The insect exclusion enclosure 12 removes the intrusion of an object having a diameter of about 1 mm or more that obstructs the optical path (affects the optical path), and thereby, between the compound lens 14 and the light detector 26, the window (window frame 18) and the light detector. A space as an optical path between 26 is secured. Reducing unwanted light rays results in improved performance for intrusion detection systems such as the present invention by minimizing false alarms. The compound lens 14 is mounted in front of the insect exclusion enclosure 12 and has a plurality of focal lines for focusing infrared light entering the system onto a light detector 26. The light detector 26 is located near the focal point of the compound lens 14 and the curved curved mirror 24. The window frame 18 is the composite lens 1
Together with 4, it becomes an entrance path of the light beam reaching the light detector 26. The front housing 16 surrounds the compound lens 14 and the insect exclusion enclosure 12.

FIG. 2 is an exploded perspective view of the rear assembly member 20 of the intrusion detection system 11. The circuit board 22 is positioned above the light detector 26, the curved mirror 24 for reflecting light rays on the light detector 26, and is mounted on the periphery of the light detector 26. It has a gasket 28 to be connected to one end of the cage 12 and other circuits, etc., and is provided between the front assembly member 16 and the rear assembly member 20 which is fitted and fitted to the front assembly member 16. Have been. The front assembling member 16 and the rear assembling member 20 are fitted to each other. An opening (gap) may be formed in the rear assembly member 20 for various purposes, but this opening serves as an insect entry port.

FIG. 3 shows a wide first opening (front opening) 30 close to the compound lens 14 and a second opening (small opening) for fitting the curved mirror 24 and the light detector 26. ) 32. FIG. FIG. 4 is a front view of the insect exclusion enclosure 12,
A side wall 31 and a first opening 32 provided at the rear are shown.

FIG. 5 shows an insect exclusion enclosure 12 and a compound lens 1.
4 is a cross-sectional view of the light detector 26, showing an example of an optical path of an unnecessary light beam in a case where the insect exclusion enclosure 12 is not colored and a woven fabric ground portion and / or an undulating portion is not provided. It is shown. Also shown is the optical path 36 of the useful light beam (not necessary light beam) that reaches the light detector 26 directly. The unnecessary light beam indicated by the optical path 34 reaches the light detector 26 after being repeatedly reflected inside the insect exclusion enclosure 12.

FIG. 6 is a cross-sectional view showing the colored insect exclusion enclosure 12 (the colored portion is indicated at 40). An unnecessary light beam indicated by the optical path 38 is absorbed by the side wall 41 of the insect exclusion enclosure 12. In order to most effectively absorb unwanted light, it is necessary to color the insect exclusion enclosure 12 black. In addition, insect exclusion enclosure 1
As a material for injection molding of No. 2, for example, a polycarbonate resin such as Lexan 141 manufactured by General Electric Company (Pittsfield, Mass.) Can be suitably used. Lexan 141
Contains 0.2% of carbon black having a particle diameter of 24 nm, which is a coloring dye.

FIG. 7 is a cross-sectional view of the insect exclusion enclosure 12 having a fabric-shaped surface (textile-like surface 42). Unnecessary light rays indicated by the optical path 44 are scattered on the woven fabric surface 42 of the insect exclusion enclosure 12, so that they are not reflected and reach the light detector 26. Note that the fabric ground surface in the present invention refers to a surface which is vertically or randomly displaced from a smooth reference surface in a random or regular repetitive manner to form a three-dimensional uneven structure. FIG. 8A shows a woven fabric surface. FIG.
B is a partial perspective view of the fabric ground surface of the insect exclusion enclosure 12. FIG. 8C is an enlarged cross-sectional view of the woven fabric surface shown in FIGS. 8A and 8B. The width 43 of one unevenness forming the woven fabric is about 0.008 inches and the height 45 is
Is about 0.003 inches.

FIG. 9 is a sectional view of the insect exclusion enclosure 12 in which the surface of the inner wall is formed in an undulating shape. The unnecessary light shown by the optical path 48 is attenuated by repeating reflection on the inner wall (side surface 46) of the insect exclusion enclosure 12 provided with the undulations 47. 8A and 8C.
In the fabric-like surface as shown in (1), the height of the unevenness is formed larger than the width of the unevenness. On the undulating surface in which the height of the unevenness is formed larger than the width of the unevenness, as shown in FIG. Decays.

FIGS. 10A and 10B are exploded perspective views showing a modified example of the intrusion detection system (intrusion detection system 50). FIG. 10A shows the rear assembly member 20 and the light detector 2.
6 is provided, and a disassembly of an intrusion detection system 50 including a circuit board 22 provided with a curved mirror 24 having a curved tip adjacent to the upper side of a light detector 26 and a front assembly member 16. It is a perspective view. FIG. 10B
Connects the front housing 16, the insect exclusion enclosure 12, and the hook 13 of the insect exclusion enclosure 12 to the tab 17 of the compound lens 14.
Is inserted into the insect exclusion enclosure 12 and the compound lens 14 in a state attached to the insect exclusion enclosure 12, and is provided with a colored and / or undulated insertion member (suppression means). 52) is an exploded perspective view of the front assembly member 16 composed of (52). The window frame 18 is installed near the lower end of the insect exclusion enclosure 12 so as to slide the periphery. The insect exclusion enclosure 12 in which the compound lens 14 and the window frame 18 are attached, and the insertion member 52 is built in, is attached behind the front housing 16 so as to be fitted. Also, the front assembly member 15 is
The insect rejection enclosure 12 is fitted to the circuit board 22 via the insect rejection gasket 28. The intrusion detection system 50 has a function of absorbing unnecessary light and / or scattering unnecessary light by inserting the insertion member 52 into a commercially available intrusion detection system.

FIGS. 11A and 11B are exploded perspective views showing another modified example of the intrusion detection system (intrusion detection system 60). FIG. 11A shows a rear housing 62, a circuit board 64, and attached to the circuit board 64, which are colored as described above and / or the inner wall is formed into a woven fabric, and / or the inner wall is undulated. A system 6 including the formed unnecessary light absorbing member (partition member) 67.
0 is an exploded perspective view. The circuit board 64 is mounted to the rear housing 62 and the front assembly 68 is mated with the rear assembly 62 and is sealed to prevent insects from entering the system 60.

FIG. 11B is an exploded perspective view of the front assembly member 68. The front assembly 68 has a compound lens 72 attached to the front housing 70 by a latch 76. The window frame member 74 is moved by the engagement latch 77.
It is attached near the lower end of the front housing 70. In the intrusion detection system 60 of this modified example, the unnecessary light absorbing member 67 is not in contact with the front housing 70. When the intrusion detection system 60 is assembled by joining the rear housing 62 and the front housing 68, an opening through which insects enter is not formed. Also, there are no holes that insects can invade. The absorbing member 67 that is colored and / or has a surface formed in a woven fabric shape and / or has an undulating shape in order to absorb or scatter unnecessary light beams is provided on the circuit board 64. It is attached around the light detector 65. When the detection system 60 is used, the absorbing member 67
It is attached to the rear housing 62 by tape or the like.

The above embodiment is merely an example. Without departing from the spirit of the present invention,
Obviously, the described device can be modified as appropriate. Therefore, it can be said that the invention described in the above claims includes all modifications and improvements that do not depart from the spirit of the present invention.

[0023]

According to the intrusion detection system of the present invention, of the incident light, unnecessary light that is not focused on the light detector is absorbed or scattered by the colored portion, the woven fabric portion, and the undulating portion. Therefore, false alarms caused by detection of unnecessary light beams can be effectively reduced.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view showing a front assembly member of an intrusion detection system.

FIG. 2 is an exploded perspective view showing a rear assembly member of the intrusion detection system.

FIG. 3 is a perspective view showing an insect exclusion enclosure.

FIG. 4 is a front view of an insect exclusion enclosure.

FIG. 5 is a cross-sectional view of an insect exclusion enclosure in which a compound lens and a light detector are installed (a chain line indicates an optical path of a light beam detected by the light detector, and a dashed line indicates an optical path of an unnecessary light beam). Shown).

FIG. 6 is a cross-sectional view of an insect exclusion enclosure in which a compound lens, a light detector, and the like are installed (a dashed line indicates a state where unnecessary light is not reflected by a colored portion).

FIG. 7 is a cross-sectional view of an insect exclusion enclosure in which a compound lens, a light detector, and the like are installed (a chain line indicates a state in which unnecessary light is scattered by a fabric ground portion).

8A is a partial perspective view showing the woven fabric surface of the inner wall of the insect exclusion enclosure of FIG. 7, and FIG. 8B is a partial perspective view showing the woven fabric surface of the insect exclusion enclosure of FIG. FIG. 8 is an enlarged view showing irregularities on the woven surface of the insect exclusion enclosure of FIG. 7.

FIG. 9 is a cross-sectional view of an insect exclusion enclosure in which a compound lens, a light detector, and the like are installed (an alternate long and short dash line indicates how unnecessary light is scattered by an undulating portion).

FIG. 10A is an exploded perspective view showing a modified example of an intrusion detection system provided with an insertion member that absorbs or scatters unnecessary light; FIG. 10B is an exploded perspective view showing an insertion member installed inside an insect exclusion enclosure; It is an exploded perspective view of the front side housing which shows (the insertion member which is colored or the inner wall is formed in the shape of textile fabric or the shape of relief).

FIG. 11A has a front housing for removing insects in a sealed state, and an absorbing member is provided on a peripheral portion of an infrared detector on a circuit board in order to absorb or scatter unnecessary light rays. FIG. 10 is an exploded perspective view showing a modified example of the intrusion detection system to which is attached. FIG.

[Explanation of symbols]

10. Front assembly member, 11 Intrusion detection system, 1
2. Insect exclusion enclosure, 13. Hook, 14. Composite lens, 15. Front assembly member, 16 Front housing, 17 Tab, 18 Window frame, 20 Rear assembly member, 22 circuit board, 24 curved mirror, 26 light detector, 28 gasket, 30 first opening,
31 side wall, 32 second opening part, 34 light path of unnecessary light ray, 36 light path, 38 light path of unnecessary light ray, 4
0 · · · coloring, 41 · · side wall, 42 · · · fabric ground, 43 ·
· Width of irregularities, 44 · · Optical path of unnecessary light, 45 · · · Height of irregularities, 46 · · · Side surface, 47 · · · Undulating, 48 · · · Optical path of unnecessary light, 50 · · · Intrusion detection system, 52 · · · insertion Member, 60 intrusion detection system, 62 rear housing, 64 circuit board, 65 light detector, 67
Absorption member, 68 front assembly member, 70 front housing, 72 complex lens, 74 frame member, 76
· Latch, 77 ··· Engagement latch.

Claims (37)

[Claims] 1. A front assembly member having a compound lens for focusing a light beam, a circuit board having a light beam detecting means for detecting the light beam, and a circuit for processing the light beam detected by the light beam detecting means. And a rear assembly member that covers the circuit board together with the front assembly member, and wherein the front assembly member includes an insect elimination unit that prevents the compound lens from invading insects into the light detector. An intrusion detection system comprising: a prevention means for preventing unnecessary light from reaching the light detector. 2. The method according to claim 1, wherein said insect exclusion means includes a first opening provided at a first end adjacent to said compound lens and said first opening for fitting a light detector protruding from said circuit board. The intrusion detection system according to claim 1, further comprising a second opening smaller than the opening. 3. The intrusion detection system according to claim 1, wherein the insect exclusion means is colored for absorbing the unnecessary light. 4. The intrusion detection system according to claim 1, wherein the insect exclusion means has a woven fabric surface for scattering the unnecessary light. 5. The intrusion detection device according to claim 1, wherein the insect exclusion means has an undulating surface for preventing the unnecessary light from being reflected on the light detection means. system. 6. The front assembly has another window at a lower end for receiving a light beam, and a light beam entering through the window reflects the light beam onto the light detector. The intrusion detection system according to claim 1, wherein the system strikes a mirror provided on an upper part of the light detector. 7. The intrusion detection system according to claim 3, wherein the coloring applied to the insect exclusion means is black. 8. The intrusion detection according to claim 4, wherein the fabric-like surface repeats a random displacement up and down from a smooth reference surface to form a three-dimensional uneven structure. system. 9. The intrusion detection system according to claim 5, wherein the undulating surface has a valley portion for attenuating the reflection of the unnecessary light beam and a peak portion. 10. When the second opening of the insect excluding means is attached to the circuit board, the periphery of the second opening is sealed by a seal member. Intrusion detection system according to 1. 11. A front assembly having a compound lens for focusing the light beam, a light detector positioned opposite the compound lens for detecting the light beam, and a light detector for processing the detected light beam. A circuit board having a circuit, and a rear assembly member that covers the circuit board together with the front assembly member, and wherein the front assembly member invades the compound lens and the insect enters the light detector. An intrusion detection system comprising an insect elimination means for preventing the occurrence of light, and a suppression means for suppressing unnecessary light rays inside the insect exclusion means. 12. A first lens provided at a first end adjacent to the compound lens, wherein the insect exclusion means and the suppression means are provided.
12. The intrusion according to claim 11, wherein the second opening is smaller than the first opening for fitting a light detector protruding from the circuit board. Detection system. 13. The intrusion detection system according to claim 11, wherein the suppression unit is colored for absorbing the unnecessary light. 14. The intrusion detection system according to claim 11, wherein the suppression means has a woven fabric surface for scattering the unnecessary light. 15. The intrusion detection system according to claim 11, wherein the suppression means has an undulating surface for preventing the unnecessary light from being reflected onto the light detection means. . 16. The front assembly has another window at a lower end for receiving a light beam, and a light beam entering from the window reflects the light beam onto the light detector. The intrusion detection system according to claim 11, wherein the mirror hits a mirror provided on an upper part of the light detector. 17. The intrusion detection system according to claim 13, wherein the insect exclusion means is colored black. 18. The intrusion detection according to claim 14, wherein the fabric-like surface repeats a random displacement up and down from a smooth reference surface to form a three-dimensional uneven structure. system. 19. The intrusion detection system according to claim 15, wherein the undulating surface has a valley portion for attenuating the reflection of the unnecessary light beam and a peak portion. 20. A front assembly member having a compound lens for focusing a light beam, a circuit board having a light beam detecting means for detecting the light beam, and a circuit for processing the light beam detected by the light beam detecting means. A first opening disposed around the light detector and a second opening facing the compound lens; a partition member for suppressing unnecessary light; and a circuit board together with the front assembly member. An intrusion detection system comprising: a rear assembly member that covers and eliminates insect invasion. 21. The septum member having the second opening positioned in front of the compound lens for receiving the focused light beam and received by the second opening. 21. The intrusion detection system according to claim 20, wherein the first opening is smaller than the second opening so that a light detector protruding from the circuit board detects the light. . 22. The intrusion detection system according to claim 20, wherein the partition member is colored so as to absorb the unnecessary light. 23. The intrusion detection system according to claim 20, wherein the partition member has a woven fabric surface for scattering the unnecessary light. 24. The intrusion detection system according to claim 20, wherein the partition member has an undulating surface for preventing the unnecessary light beam from being reflected on the light beam detection means. . 25. The front assembly has another window at a lower end for receiving a light beam, and a light beam entering from the window is reflected on the light detector to reflect the light beam. 21. The intrusion detection system according to claim 20, wherein the light strikes a mirror provided on an upper part of the light detector. 26. The intrusion detection system according to claim 22, wherein the insect exclusion means is colored black. 27. The intrusion detection according to claim 23, wherein the fabric-like surface repeats a random displacement up and down from a smooth reference plane to form a three-dimensional uneven structure. system. 28. The intrusion detection system according to claim 24, wherein the undulating surface has a valley portion and a peak portion for attenuating the reflection of the unnecessary light beam. 29. Providing a front assembly having a compound lens for focusing light rays, wherein the light rays are detected by light ray detection means provided on a circuit board having a circuit for processing the detected light rays. Covering the entire surface using a rear assembly member formed so as to be attachable to one surface of the circuit board and joining with the front assembly member, in order to prevent unnecessary light from reaching the light detector. ,
An unnecessary part of the intrusion detection system includes a step of attaching a restraining means to the compound lens in order to eliminate insect invasion and to prevent a light detector from being adversely affected inside the front assembly member. How to remove rays. 30. The method according to claim 29, further comprising a step of coloring the suppression means in order to absorb the unnecessary light. 31. The method according to claim 29, further comprising the step of providing a woven fabric surface on the suppression means to scatter the unnecessary light. 32. The method of claim 29, further comprising the step of providing an undulating surface on the suppression means to prevent the unwanted light from being reflected onto the light detection means. A method for removing unnecessary light in an intrusion detection system. 33. The method according to claim 2, wherein the step of providing the undulating surface includes the step of providing a valley portion and a peak portion for attenuating the reflection of the unnecessary light.
A method for removing unnecessary light beams in the intrusion detection system according to claim 9. 34. A process comprising: providing a front assembly having a compound lens for focusing the light beam; detecting the light beam by light beam detection means provided on a circuit board having a circuit for processing the detected light beam. Covering the entire surface with a rear assembly member formed so as to be attachable to one surface of the circuit board and joining with the front assembly member; being attached to the compound lens and in the front assembly member A method of suppressing unnecessary light in an intrusion detection system, comprising: a step of removing insects from the light detecting means by a located shielding means; and a step of installing the shielding means inside to suppress unnecessary light. . 35. The method according to claim 34, further comprising the step of coloring the shielding means to absorb the unnecessary light. 36. The method according to claim 34, further comprising the step of providing a woven fabric surface on the shielding means to scatter the unnecessary light. 37. The method of claim 34, further comprising the step of providing an undulating surface on the shielding means to prevent the unwanted light from being reflected onto the light detecting means. A method for suppressing unnecessary light in an intrusion detection system.