JP3500986B2 - Human body detection device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a human body detection device which detects a heat ray emitted from a human body and outputs a signal corresponding to the presence or absence of a person in a detection area.

[0002]

2. Description of the Related Art Heretofore, as a human body detecting device of this type, there has been proposed one in which a heat ray sensor for detecting heat rays emitted from a human body, such as a pyroelectric element, is provided in a case fixed to a construction surface. (See JP-A-6-337290, JP-A-6-337228, JP-A-2-61928, JP-A-2-223889, JP-A-9-243455 and JP-A-6-18931). . The case has a built-in output unit that determines the presence or absence of a person in the detection area set in front of the building surface based on the output of the heat ray sensor and generates a binary output signal according to the presence or absence of the person. It As the form of the output section, a type that generates an electric signal accompanied by a change in voltage or current, or a type that turns a contact on and off like a relay is considered.

By the way, in front of the heat ray sensor, a light receiving lens is attached to a case for the purpose of focusing heat rays from the detection area on the heat ray sensor. A Fresnel lens is generally used as the light receiving lens, and the light receiving lens is formed in a hemispherical shape so as to project in front of the case so that heat rays from a wide range in front of the construction surface can be focused on the heat ray sensor. Is attached to.

As described above, the heat ray is generally designed to be able to receive the heat ray from a wide range. However, the heat ray from an unnecessary portion is detected or a heat fluctuation occurs within the detection range (for example, If there is a swaying object such as an air conditioner) or a curtain, they may be erroneously detected.
Therefore, conventionally, a lens block including a heat ray sensor and a light receiving lens is movably arranged with respect to the case so that the detection range can be changed, and a light blocking member for preventing unnecessary heat rays from entering the light receiving lens. It was arranged on the front surface of the so as to limit the incident direction of heat rays.

[0005]

However, the provision of the movable lens block as described above has a problem that the manufacturing cost such as the material cost and the assembling cost increases due to the increase in the number of parts.

An object of the present invention is to solve the above problems, and an object of the present invention is to provide a human body detecting device having a small number of parts and an inexpensive structure capable of changing the detection range.

[0007]

In order to achieve the above-mentioned object, a heat ray sensor for detecting heat rays radiated from a human body is provided in a case fixed to a construction surface, and a case. A light receiving lens that fixes the heat rays from the detection area set in front of the construction surface to the heat ray sensor, and whether there is a person in the detection area based on the change in the amount of heat rays received by the heat ray sensor. An output portion for outputting a corresponding signal, a light-shielding unit formed of a material having a light-shielding property to change an incident area of heat rays to the light-receiving lens, and a front surface of the case.
The receiving lens is made up of multiple lenses.
This is a multi-divided light receiving lens, and the light blocking means is
Detachable in a fixed position in the case by covering the front surface of the light receiving lens
Is attached to and shields one or more of the light-receiving lenses from light.
The light-shielding part that is not used
The plate is provided with an accommodating portion for accommodating the material, and the incident area of the heat ray to the light receiving lens fixed to the case can be changed by the light shielding means, so that the light receiving lens can be moved. mechanism is not necessary, the number of parts is small and the incident area of the heat ray inexpensive structure, i.e. with the detection area can be realized modifiable human body detecting device, receiving
Out of the multiple lenses of the optical lens
Heat rays do not enter the illuminated lens,
It is possible to limit multiple incident areas with a light blocking member.
In addition, such a light-shielding member is inexpensive with a small number of parts.
Can be manufactured for a reasonable price, and stores unused light-shielding members
Since the plate has a storage part for
Loss of material can be prevented .

The invention of claim 2 achieves the above object.
In order to protect the human body from the
The heat ray sensor that detects the heat ray emitted from the
Fixed from the detection area set in front of the construction surface
Light receiving lens that collects heat rays on the heat ray sensor, and heat ray sensor
Based on the change in the amount of received heat rays at
An output section that outputs a signal according to whether or not there is a light-shielding material
Of the heat rays entering the light receiving lens
Change the light blocking means and the plate that covers the front of the case.
It is equipped with a light-receiving lens and is probably divided into multiple lenses.
It is a split light receiving lens, and the light blocking means is in front of this light receiving lens.
Attach to the fixed position of the fixing member provided at the position facing the surface.
Removably attached to one or more lenses of the light receiving lens
Consists of a small piece of light-shielding member that blocks light
The plate is provided with a storage portion for storing the optical member, and the light receiving lens fixed to the case
The incident area of heat rays can be changed by the light shielding means,
No mechanism for moving the light-receiving lens is required,
The heat radiation incidence area, that is, the inspection area
It is possible to realize a human body detection device that can change the intellectual area
In addition, the heat ray does not enter the lens shielded by the light shielding member among the plurality of lenses of the light receiving lens, and the plurality of incident areas corresponding to each lens can be limited by the light shielding member. Light shielding member can be manufactured at low cost with a small number of parts, and is not used
Since the plate is provided with a storage part for storing
Loss of the light shielding member is Ru can be prevented.

[0009]

[0010]

[0011]

[0012]

[0013]

[0014]

The invention of claim 3 is characterized in that, in the invention of claim 2 , a knob portion for holding by hand is provided on the light shielding member, and the work of changing the detection region can be easily performed.

[0016]

[0017]

(First Embodiment) In the present embodiment,
As shown in FIGS. 1 and 2, a human body detection device fixed to a ceiling surface, which is a construction surface, is illustrated. The basic structure of this type of human body detection device is well known, and a heat ray sensor 4 including a pyroelectric element for detecting heat rays from a human body and the like, and within the detection area based on a change in the amount of received heat rays by the heat ray sensor 4 are detected. The case 1 is provided with an output unit (not shown) that outputs a signal according to the presence or absence of the person. A switch element such as a relay that is turned on / off in response to a signal from the output section is provided in the case 1, and this switch element is inserted in a power supply path between an AC power source and a load such as a lighting load. With such a configuration, it can be applied as a so-called heat ray detection type automatic switch that turns on / off a load (for example, an illumination load such as an incandescent lamp) according to the presence or absence of a person in the detection area.

The heat ray sensor 4 is mounted on a substrate 5 so as to be covered by a lens stand 6 having a substantially cylindrical shape, and a light receiving lens 7 for concentrating heat rays is provided at a tip portion of the lens stand 6.
As shown in FIGS. 1 to 3, this light receiving lens is a dome type and is composed of a so-called Fresnel lens array in which the spherical surface is divided into 28 and a total of 28 Fresnel lenses 7a ... It is configured as a multi-segment light receiving lens. In FIG. 3, the individual Fresnel lenses 7a ...
The incident areas (detection areas) corresponding to A1 to A4 and B1 to
It is represented by the symbols B12 and C1 to C12.

As shown in FIG. 1, the case 1 includes a body 2 having a substantially disk-shaped flange 2a at the lower end, and a body 2.
And a cover (not shown) which is connected to the inside of which the output section and the like are housed. A peripheral wall 2b is projectingly provided on the upper surface side of the flange 2a, and a circular exposure window 8 is formed in the center of the flange 2a inside the peripheral wall 2b. Then, from the upper surface side of the flange 2a to the inside of the peripheral wall 2b, the substrate 5
And the lens base 6 is inserted into the exposure window 8 so that the light receiving lens 7 is exposed from the exposure window 8 to the lower surface side of the flange 2a.

On the lower surface side of the flange 2a near the periphery of the exposure window 8, a substantially cylindrical mounting portion 9 is provided so as to surround the light receiving lens 7 exposed from the exposure window 8, and the outer periphery of the mounting portion 9 is provided. A locking projection 9a is provided on the front end of the surface so as to extend over substantially the entire circumference. A holding cover 10 for holding a light shielding sheet 11, which will be described later, is detachably attached to the attaching portion 9.

The holding cover 10 is formed of synthetic resin in a cylindrical shape with a bottom, and a circular passage window 10a is provided at the bottom for passing the heat rays. Further, on the peripheral wall portion of the holding cover 10, a plurality of projecting pieces 10b having locking claws 10c that lock with the locking projections 9a of the mounting portion 9 are provided inside the tip end portion. Then, when the holding cover 10 is pressed against the mounting portion 9 from the lower surface side of the flange 2a, the holding cover 10
The locking claw 10c is pushed by the locking projection 9a of the mounting portion 9 to bend the projecting piece 10b, and eventually the locking claw 10c rides over the locking projection 9a and is locked, and the holding cover 10 is mounted on the mounting portion 9a. Attached to. When the holding cover 10 is pulled away from the lower surface of the flange 2a, the projecting piece 10b bends and the locking claw 10c and the locking projection 9a are unlocked, so that the holding cover 10 can be removed from the mounting portion 9. it can.

Inside the holding cover 10, a light-shielding sheet (light-shielding member) 11 formed in a circular sheet shape by a member having a light-shielding property as shown in FIG. 4 is housed. The light shielding sheet 11 has an opening 11 through which heat rays pass.
a is provided, and in the example shown in FIG. 4, the incident areas C2 to C5 are shielded from light and the other incident areas A1 are provided.
Heat rays from A4, B1 to B12, C1 and C6 to C12 are incident on the light receiving lens 7 through the opening 11a. Further, in the light shielding sheet 11 as shown in FIG. 5, a substantially circular opening 11a is provided to shield the incident areas C1 to C12 from light. That is, it is possible to block light in any of the incident areas depending on the shape of the opening 11a, and a plurality of types of light shielding sheets 11 provided with the opening 11a having a shape corresponding to the incident area where the heat ray is to be incident are prepared. In addition, a suitable shading sheet 1 according to the installation location and application
By selecting 1 and arranging it at a fixed position on the front surface (lower surface) of the light receiving lens 7, it is possible to block the incident area other than the opening 11a and limit the entire incident area to a desired range.

The light shielding sheet 11 is rotatable within the holding cover 10. Therefore, by rotating the light-shielding sheet 11, it is possible to easily change the light-shielded incident areas in the incident areas (the incident areas C1 to C12 in the case of FIG. 4) arranged on the concentric circles.

Further, since the light shielding sheet 11 is formed in a thin sheet shape, a plurality of sheets can be stacked and stored in the holding cover 10 as shown in FIG. 1 or 2. For example, as shown in FIG. 6, when the two light shielding sheets 11 are overlapped with each other so that the openings 11a are displaced, the heat rays can pass only through the overlapping portions of the openings 11a, and the individual light shielding sheets 1
The incident area that cannot be shielded by 1 can be shielded.
As described above, by stacking a plurality of light-shielding sheets 11, it is possible to easily shield an arbitrary incident area, and reduce the number of types of light-shielding sheets 11 (those having different shapes of the openings 11a) prepared in advance. be able to.

By the way, the front surface (lower surface) of the flange 2a of the body 2 is covered with a substantially cylindrical plate 12.
As shown in FIG. 7, the plate 12 is provided with a circular opening 12a at the center thereof, and a locking portion 12c projecting inward is provided over the entire circumference at the tip of the peripheral wall 12b. The bottom portion is formed so as to project forward (downward) from the peripheral edge toward the central portion. Then, by locking the locking portion 12c to the peripheral end portion of the flange 2a, the plate 12 is moved to the body 2 as shown in FIG.
Be attached to. Here, since the peripheral end portion of the flange 2a is formed in a mountain shape, the plate 12 can be easily rotated while being mounted on the body 2.

The opening 12a of the plate 12 is closed by a shade 13 made of a light-transmitting material. The shade 13 is, as shown in FIG. 1 and FIG.
A circular closing portion 13a that fits and closes the opening 12a of the plate 12, a peripheral portion 13b that is inclined rearward (upper surface side) outward from the peripheral end of the closing portion 13a, and an edge of the peripheral portion 13b. Start-up section 13c and stand-up section 1
A contact piece 13d protruding outward from the peripheral end of 3c is integrally formed. Thus, in the state where the plate 12 is mounted on the body 2, the contact piece 13d of the shade 13 contacts the lower surface of the flange 2a as shown in FIG. 2, and the rattling of the shade 13 is prevented. At this time, a gap slightly larger than the thickness of the light shielding sheet 11 is formed between the peripheral portion 13b of the shade 13 and the bottom portion of the plate 12.

Here, as shown in FIG. 7, the holding cover 1
The light-shielding sheet 11 that is not stored in 0, that is, is not used, can be stored on the back surface (upper surface) of the bottom portion of the plate 12, so that a plurality of types of light-shielding plates 11 are prepared.
Can be prevented from being lost. In this case, the movement of the light shielding sheet 11 is regulated by inserting the end portion of the light shielding sheet 11 into the gap formed between the peripheral portion 13b of the shade 13 and the bottom portion of the plate 12.

As described above, according to this embodiment, the sheet-shaped light-shielding member (light-shielding sheet) 11 having the opening 11a for passing the heat rays is detachably attached to the case 1 at a fixed position by the holding cover 10. The light-shielding sheet 1 is included in the plurality of lenses 7a of the light-receiving lens 7 because it is attached.
Heat rays do not enter the lens 7a shielded by 1,
A plurality of incident areas corresponding to the respective lenses 7a are provided with the light shielding sheet 1
The human body detection device which can be limited by 1, does not require a mechanism for moving the light receiving lens as in the conventional example, has a small number of parts, and has an inexpensive structure, in which the heat ray incident area, that is, the detection area can be changed. Can be realized.

(Embodiment 2) FIG. 8 is an exploded side sectional view showing the structure of the main part of this embodiment. However, since the basic configuration of this embodiment is the same as that of the first embodiment, the same reference numerals are given to the common configurations, and the description thereof will be omitted.
Only the configuration that characterizes this embodiment will be described.

That is, in this embodiment, a fixing member (shade 1) provided at a position facing the front surface of the light receiving lens 7 is provided.
It is characterized in that it is provided with a small piece-shaped light-shielding member (light-shielding chip 14) which is detachably attached to a predetermined position of 3) and shields one to a plurality of lenses 7a forming the light-receiving lens 7.

Back surface (top surface) of the closed portion 13a of the shade 13
As shown in FIGS. 9 and 10, the ribs 15 that divide into sections corresponding to the incident areas A1 of the lenses 7a of the light-receiving lens 7 are projected in a cobweb shape. Note that, similarly to the first embodiment, in FIG. 10, each of the sections is indicated by A1 to A4 and B1 to B1 indicating corresponding incident areas (detection areas).
2, represented by the symbols C1 to C12.

On the other hand, as shown in FIGS. 8 and 9, the light-shielding chip 14 has a main portion 14a formed in a thin plate shape with a member such as a synthetic resin having a light-shielding property, and a back surface (upper surface) side of the main portion 14a. The knob portion 14b protrudingly formed is integrally formed. In addition, in the light-shielding tip 14, the upper surface side of the closed portion 13a of the shade 13 is divided by a rib 15
The main part 1 according to the types of sections A1 ..., B1 ..., C1.
Three types having different shapes and dimensions of 4a are prepared.

Thus, these light-shielding chips 14 are shown in FIG.
As shown in FIG. 1, the main portion 14a is press-fitted into the compartments A1 ... Matching the shape and dimensions, and is detachably attached to the shade 13 to shield the compartments A1. For example, in FIG.
As shown in (a), if the light-shielding chips 14 are attached to the four sections C2 to C5 to shield the light, the incident areas corresponding to the sections C2 to C5 are shielded and the other sections A1 to A5.
Heat rays from the incident areas corresponding to B4, B1 to B12, C1, and C6 to C12 are incident on the light receiving lens 7 through the opening 11a. Further, as shown in FIG.
If the light-shielding chip 14 is attached also to B3 and B4,
The incident area corresponding to B4 is shielded.

That is, it is possible to block light in any incident area depending on whether or not the light-shielding tip 14 is attached to the plurality of sections A1 ... Formed in the closed portion 13a of the shade 13. By attaching the light-shielding chip 14 to an appropriate section A1 ... According to the application, the incident area corresponding to the section A1 ... Is shielded and the entire incident area can be limited to a desired range. Since the light-shielding chip 14 is provided with the knob portion 14b, the light-shielding chip 14 can be easily attached to and detached from the shade 13 by holding the knob portion 14b, and the work of changing the incident area (detection area) can be facilitated. You can do it.

Here, as shown in FIG. 9, a plurality of storage portions for storing unused light-shielding chips 14 are provided on the bottom rear surface of the plate 12. These accommodating portions are formed by a plurality of protrusions 16 protruding from the bottom rear surface of the plate 12, and the light shielding chips 14 are fixed to the accommodating portions of the plate 12 by fitting between the protrusions 16. By storing the unused light-shielding chip 14 in the storage portion of the plate 12, it is possible to prevent the light-shielding chip 14 from being lost.

Reference Example 1 FIG. 13A is an exploded side sectional view showing a configuration of a main part in Reference Example 1 of the present invention . However, since the basic configuration of the present reference example is the same as that of the first embodiment, the same reference numerals are given to the common configurations and the description thereof is omitted, and only the configuration that is a feature of the present reference example will be described.

That is, in this reference example , the front surface of the light-receiving lens 7 is provided so as to be movable with respect to the case 1,
It is characterized in that it is provided with a light blocking member (light blocking plate 17) for blocking one or a plurality of lenses 7a forming the light receiving lens 7.

As shown in FIG. 14, the light shielding plate 17 is formed in a substantially elliptical shape by a thin plate member having a light shielding property, and is provided with a circular opening 17b for passing a heat ray in a substantially central portion thereof. The main piece 17a is provided with a handle portion 17c that is integrally projected from one end of the main piece 17a. In the vicinity of the peripheral edge of the opening 17b of the main piece 17a, there is provided an inclined portion 17d that inclines and projects toward one side as it approaches the opening 17b.

The light-shielding plate 17 constructed as described above
As shown in FIG. 13, the support piece 18 projecting from the lower surface of the flange 2a of the body 2 and the closing portion 13 of the shade 13 are
a With the tip of the rising piece 13e rising from the peripheral edge, it is movably stored inside the plate 12. Here, at the bottom of the plate 12, as shown in FIGS. 13 and 19, a handle portion 17c of the light shielding plate 17 is provided on the plate 12.
A groove portion 19 is formed so as to be led out to the outside of the.
That is, the light-shielding plate 17 is moved to the light-receiving lens 7 by manually operating the handle portion 17c led out from the groove portion 19.
Can be moved with respect to the case 1 so as to cover the front surface (lower surface) thereof.

As shown in FIG. 15A, when the light-shielding plate 17 is not housed in the plate 12, each of the lenses 7a constituting the light-receiving lens 7 is shown in FIG. 15B. The principal point P ... Is exposed, but FIG. 13 (a)
In the state where the light shielding plate 17 is housed as shown in FIG. 5, the opening 17b of the light shielding plate 17 is shown as shown in FIG.
Are exposed, and the lenses 7a, which face the main piece 17a of the light shielding plate 17, are shielded from light. Then, as shown in FIG. 16A, for example, if the handle portion 17c is pulled to move the light shielding plate 17 with respect to the case 1 in the direction of the arrow in the figure, the opening 17b of the light shielding plate 17 also moves, As shown in FIG. 7B, the lenses 7a ... Which are shielded by the main piece 17a are changed.

That is, depending on the relative position of the light shielding plate 17 with respect to the light receiving lens 7, which lens 7a ...
It is also possible to block light even in the (incident region), and depending on the installation location and application, the openings 17 of the light shielding plate 17 can be formed in the lenses 7a ... Corresponding to the incident region where the heat rays are to be incident.
By making b face each other, the lenses 7a ... (Incident region) opposed to the main piece 17a of the light shielding plate 17 other than the opening 17b are shielded from light and the entire incident region can be limited to a desired range.

Here, FIGS. 13 and 16 exemplify a case where the light shielding plate 17 is housed in the plate 12 so that the inclined portion 17d is located on the light receiving lens 7 side.
As shown in FIGS. 17 and 18, it is of course possible to store the inclined portion 17d so that it is located on the shade 13 side. When the inclined portion 17d is positioned on the shade 13 side in this way, even if the relative position of the light shielding plate 17 with respect to the light receiving lens 7 is the same, as shown in FIGS.
7 and FIG. 16 and FIG. 18 are compared, it can be seen that the light-shielded incident area becomes large. That is, since the distance between the light receiving lens 7 and the opening surface of the opening 17b of the light blocking plate 17 changes depending on whether or not the protruding portion (the inclined portion 17d) of the light blocking plate 17 is on the light receiving lens 7 side, the size is different. You can easily change to the incident area.

Further, as described in the first embodiment, since the plate 12 is rotatably attached to the flange 2a of the body 2, the plate 12 is attached to the body 2 as shown in FIG. 19 (a). When rotated with respect to each other, the position of the opening 17b of the light shielding plate 17 is changed as shown in FIG. 7B, so that the incident area of the heat ray can be easily changed.

Reference Example 2 FIG. 20A is an exploded side sectional view showing the configuration of the main part of Reference Example 2 of the present invention . However, since the basic configuration of this reference example is the same as that of the first embodiment, the same reference numerals are given to the common configurations, and a part of the drawings and the description thereof are omitted.
Only the configuration that characterizes the reference example will be described.

That is, in the present reference example , a light-shielding member which is formed of a flexible material in a tubular shape and is capable of expanding and contracting, and one end of which is fixed to the case (body 2) so as to house the light-receiving lens 7 inside. It is characterized in that a member (light-shielding hood 20) is provided.

As shown in FIGS. 20 to 24, the light shielding hood 20 is formed in a cylindrical bellows shape from a flexible synthetic resin or the like, and is expandable and contractible in the axial direction and as shown in FIG.
As shown in FIG. And case 1
One end of the light shielding hood 20 is attached to the lower surface side of the mounting base 21 provided inside. An insertion hole 21a through which the lens base 6 and the light receiving lens 7 are inserted is provided in the center of the mounting base 21, and the lens base 6 and the light receiving lens 7 inserted through the insertion hole 21a are arranged inside the light shielding hood 20. To be done.

As shown in FIG. 20 (a), the light receiving lens 7 as a whole is exposed from the tip of the light shielding hood 20 in the shortest state of the light shielding hood 20, as shown in FIG. 20 (b). Each lens 7 that constitutes the light-receiving lens 7
Although the principal point P of a is not exposed and the incident area is not limited, in the state where the light shielding hood 20 is axially extended as shown in FIGS. 21
As shown in (b) and FIG.
The heat rays incident on the peripheral portion of the light-receiving lens 7 are blocked by the tip portion of the lens, that is, the lens 7a located in the peripheral portion.
.. is blocked, and the longer the total length of the light blocking hood 20, the wider the light blocking range. That is, by expanding and contracting the light shielding hood 20, it is possible to continuously change the incident area of the heat ray to the light receiving lens 7 in a concentric shape. Also, FIG.
As shown in (a) and FIG. 24 (a), by bending the elongated light-shielding hood 20, the light-shielding range of the light-receiving lens 7 is moved to one side as shown in FIGS. 23 (b) and 24 (b). It can be changed to shift.

As described above, in the present reference example , since the cylindrical and bellows-shaped light-shielding hood 20 is provided, the heat ray incident area on the light-receiving lens 7 is easily and finely limited and changed by expanding and contracting and bending the light-shielding hood 20. It becomes possible to do.

Reference Example 3 FIG. 26A is an exploded side sectional view showing the configuration of the main part of Reference Example 3 of the present invention . However, since the basic configuration of this reference example is the same as that of the first embodiment, the same reference numerals are given to the common configurations, and a part of the drawings and the description thereof are omitted.
Only the configuration that characterizes the reference example will be described.

That is, in this reference example , a light blocking member (light blocking tube 2) formed in a tubular shape and having the light receiving lens 7 disposed inside thereof is provided.
2) and a support member (support plate 23) for movably supporting the light-shielding cylinder 22 with respect to the case 1.

As shown in FIG. 27, the light-shielding cylinder 22 has a cylindrical main body 22a made of a synthetic resin having a light-shielding property, and a large number of protrusions along the axial direction on the outer peripheral surface of the main body 22a. The protrusion 22b is provided, and the flange portion 22c is provided so as to protrude from the outer peripheral edge of the main body 22a on one end side.

As shown in FIG. 26, a base 2 having a bottomed cylindrical shape and a circular opening 24a through which the lens base 6 and the light receiving lens 7 are inserted is provided in the center of the case 1 as shown in FIG.
4 are provided. An annular support plate 23 is attached to the opening 24a of the base 24 as shown in FIG. The support plate 23 is provided with three engaging claws 23a that project inward.

As shown in FIGS. 26 and 29,
When the light-shielding tube 22 is inserted through the support plate 23, the engaging claws 23a of the support plate 23 engage with arbitrary ridges 22b of the light-shielding tube 22,
The light shielding cylinder 22 is movably supported by the support plate 23 with respect to the case 1.

For example, as shown in FIG. 26A, when the light-shielding cylinder 22 is pushed all the way into the base 24, the entire light-receiving lens 7 is exposed from the tip of the light-shielding cylinder 22. As shown in FIG. 30B, the principal points P of the lenses 7a constituting the light receiving lens 7 are not exposed and the incident area is not limited, but FIGS.
In the state where the light-shielding tube 22 is pulled out in the axial direction as shown in (a), the light-shielding tube 22 is incident on the peripheral portion of the light-receiving lens 7 by the tip portion of the light-shielding tube 22 as shown in FIGS. 30 (b) and 31 (b). .. located in the peripheral portion is shielded from light, and the longer the length of the light shielding tube 22 protruding from the opening 24a of the base 24, the wider the range of shielding light. That is, by pulling out or pushing in the light shielding tube 22 from the base 24, it is possible to continuously change the incident area of the heat ray to the light receiving lens 7 in a concentric shape. Further, as shown in FIG. 32 (a), it is possible to support the pulled out light-shielding cylinder 22 on the support plate 23 in an inclined state. In this state, the light-shielding range of the light-receiving lens 7 is shown in FIG. 32 (b). ) It can be changed to shift to one side as shown in.

As described above, in the present reference example , since the cylindrical light-shielding tube 22 movably supported by the support plate 23 with respect to the base 24 is provided, the light-shielding tube 22 is pulled out or pushed in from the base 24. By doing so, it becomes possible to easily and finely limit and change the incident area of the heat ray to the light receiving lens 7.

[0056]

According to the first aspect of the present invention, a heat ray sensor for detecting heat rays radiated from a human body is provided in a case fixed to the construction surface, and a heat ray sensor fixed to the case and set in front of the construction surface. The light receiving lens that collects the heat rays from the detection area to the heat ray sensor, the output unit that outputs a signal according to the presence or absence of a person in the detection area based on the change in the amount of the heat rays received by the heat ray sensor, and the light shielding property A light-shielding member that is formed of a material that has heat and changes the area of incidence of heat rays on the light-receiving lens ;
And a plate that covers the front surface of the
It is a multi-division light receiving lens divided into
The step is fixed to the case by covering the front surface of this light receiving lens.
Detachably attached to one or more lenses of the light receiving lens.
It consists of a sheet-shaped light-blocking member that blocks
The plate is provided with a storage part for storing the light-shielding member
Since, it is possible to change the incident area of the heat ray to the immobilized receiving lens with respect to the case by the light shielding means, a mechanism for moving the light receiving lens is not required, the number of parts is small and inexpensive structure incident area of the heat ray, that is, the detection area can change the human body sensing device with can be realized, receiving
Out of the multiple lenses of the optical lens
Heat rays do not enter the illuminated lens,
It is possible to limit multiple incident areas with a light blocking member.
In addition, such a light-shielding member is inexpensive with a small number of parts.
Can be manufactured for a reasonable price, and stores unused light-shielding members
Since the plate has a storage part for
This has the effect of preventing loss of material .

The invention of claim 2 is fixed to a construction surface.
Detects heat rays radiated from the human body that are placed inside the case
It is fixed to the heat ray sensor and the case in front of the construction surface.
Collects heat rays from the set detection area on the heat ray sensor
Based on the change in the amount of heat rays received by the light receiving lens and the heat ray sensor.
Based on the output of a signal according to the presence or absence of a person in the detection area.
And a light receiving part formed of a material having a light shielding property.
Light shielding means for changing the incident area of heat rays to the lens, and the case
And a plate that covers the front surface of the
It is a multi-division light receiving lens divided into
The step is provided at a position facing the front surface of this light receiving lens.
A light-receiving lens that is detachably attached to a fixed position
Is a small piece of light blocking member that blocks one or more lenses of
A storage for storing unused light-shielding members.
Since the part was provided on the plate, it was fixed to the case
Change the incident area of heat rays to the light receiving lens by the light shielding means
And no mechanism for moving the light-receiving lens is required
In addition, the number of parts is small, and the inexpensive structure has a heat ray incident area.
Realizes a human body detection device that can change the area, that is, the detection area
In addition, the heat ray does not enter the lens shielded by the light shielding member among the plurality of lenses of the light receiving lens, and the plurality of incident regions corresponding to the respective lenses can be limited by the light shielding member. inexpensive to produce a light-shielding member is a small number of parts, such as, further, by using
Install a storage unit on the plate to store the light-shielding member.
Because only in that, there is an effect that the loss of the light shielding member is Ru can be prevented.

[0058]

[0059]

[0060]

[0061]

[0062]

[0063]

According to the third aspect of the invention, since the light-shielding member is provided with the knob portion to be held by hand, there is an effect that the work of changing the detection region can be easily performed.

[0065]

[Brief description of drawings]

FIG. 1 is an exploded side sectional view showing a main part of a first embodiment.

FIG. 2 is a side sectional view showing a main part of the above.

FIG. 3 is a front view of the light receiving lens of the above.

FIG. 4 is a front view of the light shielding sheet in the above.

FIG. 5 is a front view of another light shielding sheet in the above.

FIG. 6 is a view showing a state where the light shielding sheet is used in the above.

FIG. 7 is a rear view of the plate in the above.

FIG. 8 is an exploded side sectional view showing a main part of the second embodiment.

FIG. 9 is a rear view of the plate in the above.

FIG. 10 is a plan view showing a bottom portion of the shade in the above.

FIG. 11 is a side sectional view of an essential part showing a mounting state of the light shielding chip in the above.

12 (a) and 12 (b) are explanatory views for explaining the light blocking state of the light receiving lens in the above.

13A is a side sectional view showing a main part of Reference Example 1 of the present invention, and FIG. 13B is an explanatory diagram for explaining a light blocking state of a light receiving lens.

14A and 14B show the light-shielding plate in the above, wherein FIG. 14A is a front view and FIG. 14B is a side sectional view.

FIG. 15 (a) is a side sectional view showing the main part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 16 (a) is a side sectional view showing an essential part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 17 (a) is a side sectional view showing the main part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 18 (a) is a side sectional view showing the main part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 19 (a) is a plan view showing an essential part of the above, and FIG. 19 (b) is an explanatory view for explaining a light blocking state of a light receiving lens.

20A is a side sectional view showing a main part of Reference Example 2 of the present invention, and FIG. 20B is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 21 (a) is a side sectional view showing the main part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 22 (a) is a side sectional view showing an essential part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 23 (a) is a side sectional view showing an essential part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 24 (a) is a side sectional view showing an essential part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

25 (a) and 25 (b) are side views showing the light-shielding hood in the above.

FIG. 26 (a) is a side sectional view showing a main part of Reference Example 3 of the present invention, and FIG. 26 (b) is an explanatory view for explaining a light blocking state of a light receiving lens.

27A and 27B show a light-shielding cylinder in the above, wherein FIG. 27A is a front view and FIG.

FIG. 28 is a front view showing a state in which the same light shielding tube is removed.

FIG. 29 is a front view showing a state in which the same light shielding tube is attached.

FIG. 30 (a) is a side sectional view showing an essential part of the same, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 31 (a) is a side sectional view showing an essential part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

FIG. 32 (a) is a side sectional view showing the main part of the above, (b).
FIG. 6 is an explanatory diagram for explaining a light blocking state of a light receiving lens.

[Explanation of symbols]

1 case 2 body 4 Heat ray sensor 7 Light receiving lens 8 exposed windows 10 holding cover 11 Light-shielding sheet 11a opening

Front page continuation (72) Inventor Shinji Kiribata 1048 Kadoma, Kadoma City, Osaka Prefecture Matsushita Electric Works, Ltd. (72) Inventor Tsunehiro Kitamura 1048, Kadoma, Kadoma City, Osaka Prefecture (72) Inventor, Uchizawa Katsuhiro 1048, Kadoma, Kadoma, Osaka Prefecture, Matsushita Electric Works Co., Ltd. (56) Reference JP-A-6-243356 (JP, A) JP-A-7-280950 (JP, A) Jitsukaihei 7-32529 (JP, U) Actual Kaihei 6-18931 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) G08B 1/00-31/00

Claims (3)

(57) [Claims] 1. A heat ray sensor for detecting a heat ray radiated from a human body, which is arranged in a case fixed to a construction surface, and a heat ray from a detection area fixed to the case and set in front of the construction surface. It is formed of a light-shielding material that collects light on the heat ray sensor, an output unit that outputs a signal according to the presence or absence of a person in the detection area based on a change in the amount of heat ray received by the heat ray sensor, and a light-shielding material. A light-shielding device that changes the heat ray incident area on the light-receiving lens, and a play that covers the front surface of the case.
And the light receiving lens is divided into a plurality of lenses.
It is a multi-divided light receiving lens, and the light blocking means is
It is detachably attached to the case in place by covering the front of the case.
Sheet that shields one or more of the light receiving lenses
Containing unused light-shielding members, which consist of a light-shielding member
A human body detection device characterized in that a storage portion for carrying out is provided on the plate . 2. Arranged in a case fixed to the construction surface
A heat ray sensor that detects heat rays emitted from the human body, and
Detection area fixed in front of the construction surface
The light receiving lens that collects the heat rays from the
Based on the change in the amount of heat rays received by the sensor,
Has an output unit that outputs a signal according to the presence or absence of people and a light-shielding property.
Incidence of heat rays on the light-receiving lens formed by the material
Light-blocking means to change the area and play that covers the front of the case
And the light receiving lens is divided into a plurality of lenses.
It is a multi-divided light receiving lens, and the light blocking means is
Predetermined position of the fixing member provided at the position facing the front surface of the
Mountable to the holder and detachably attached to the receiving lens.
It is composed of a small piece of light-blocking member that blocks light
The plate is provided with a storage part for storing the light-shielding member
The human body sensing device shall be the feature that was. 3. A light-shielding member is provided with a knob portion for holding it by hand.
Human body detection device according to claim 2, wherein the digit.