[0001] THIS INVENTION concerns a housing adapted to contain a PIR sensor and at least the
lens of a security camera. The device is particularly, though not exclusively, intended
to be mounted on a support being part of an exterior lighting assembly such that the
PIR sensor operates to energise the light when a person approaches, and a security
camera provides a transmitted image of the person.
[0002] It is known to combine a PIR sensor and camera lens in a single housing adapted to
be mounted on the exterior of a building but the lens conventionally is of variable
focal length and thus requires moving parts to the effect that the lens cannot be
sealingly mounted on the housing. This leads to the ingress of moisture which may
damage the circuit components of the assembly.
[0003] According to the present invention, there is provided, a combined PIR sensor and
camera comprising a housing fronted by a PIR lens and camera lens; characterised in
that the camera lens is sealingly retained in the housing wall and is adapted to produce
an image at a fixed focal length.
[0004] Preferably, the PIR lens and camera lens are separately disposed in the housing and
sealingly engaged therewith.
[0005] The housing is preferably rotatable thus to select the angle of view, individually
or collectively, of the PIR lens and camera lens.
[0006] An embodiment of the invention will now be described, by way of example only, with
reference to the accompanying drawings in which:-
Fig. 1 illustrates, in perspective, a combined PIR sensor and camera housed within
an exterior lamp assembly;
Fig. 2 is an enlarged perspective view of a PIR sensor and camera housing before installation
of the lamp assembly;
Fig. 3 is a partial cross-sectional view of the assembly.
and Fig. 4 is a circuit diagram.
[0007] Referring now to the drawings, in a practical application, an exterior lamp 10 has
a backplate 11 to enable the assembly to be screwed to a wall usually adjacent the
entrance to a building. The backplate 11 has, in its lower region, an aperture 12
through which protrudes a part of a combined PIR sensor and camera housing 13.
[0008] Referring now to Fig. 2, the housing 13 comprises an upper part 14 arranged to be
located behind the backplate 11 with a lower frontal part 15 protruding through the
opening in the backplate. The lower part 15 of the housing is rotatable about an upright
axis with respect to the upper part 14.
[0009] The entire PIR and camera assembly is made from plastic and is fronted by a PIR lens
20 and a fixed focus camera lens 21. The PIR lens 20 is integrally moulded with the
housing 13. The single element, pin-hole type camera lens 21 is installed and sealed
into the housing after moulding. Within the housing 13 there will be located the usual
PIR sensor 22 and certain image production components of the security camera. Other
parts of the camera may be housed elsewhere and connected to a monitor for viewing
within the building. The angle of view, vertically, of the PIR lens is determined
by its physical characteristics whereas the field of view horizontally may be determined
by rotation of the lower part of the housing as is the field of view from the camera
lens.
[0010] By providing a simple camera lens of fixed focal length sealed within the wall of
the housing, the ingress of water or moisture or dirt is prevented.
[0011] The rotational interface between the upper and lower parts of the housing is sealed
by an O-ring, again to prevent the ingress of contaminants.
[0012] Referring now to Fig. 4 the principal electrical components include a power supply
unit 30 to which is connected mains voltage at 31 and to which is connected the PIR
sensor 22 and via a preamplifier 40, a camera 32. The lamp 10 is supplied with mains
voltage by an internal switch 33 driven by an opto-isolator unit 34. The PIR 22 is
connected via a daylight sensing photocell 35 and, a first adjustable timer 36 to
the opto-isolator 34.
[0013] The PIR 22 is also connected via a second adjustable timer 37, via an on/off switch
39, to a scart lead 38, which is also connected to the camera 32.
[0014] The scart lead may be connected to a domestic television receiver 41.
[0015] The device operates such that if the PIR sensor 22 detects the presence of an adjacent
person or other movement, then, if the ambient light level is low such as at night,
a signal is fed from the PIR 22 via timer 36 to the opto-isolator 34 which, through
its separated LED and photocell, actuates switch 33 to energise the lamp 10. The timer
may be set, for example, at forty seconds such that the lamp remains illuminated for
that period.
[0016] With the scart lead 38 connected to the television receiver and if the receiver is
switched on and tuned, the signal from the PIR simultaneously transmitted via timer
37 switches the circuitry within the television receiver to display, for the period
set by timer 37, an image derived from the camera 32. Typically, the timer 37 may
be set for ten seconds. Therefore, the arrival of a person, perhaps at the front door
where the device is installed, will cause the lamp to light, if at night, and the
image of that person viewed by the camera lens 21, to appear on the television screen.
[0017] If required, a one or two-way audio intercom may be provided with a microphone disposed
in housing 15 such that a voice transmission to the television set may occur.
[0018] The presence of the opto-isolator 34 wherein no electrical connection exists between
the switch terminals 33 and the PIR 22, prevents the possibility of mains voltage
being fed back into the PIR and/or camera circuitry.
[0019] The image transmitted by the camera to the television receiver is provided even if
the lamp 10 is not illuminated, for example, in the hours of daylight.
[0020] If required, a signal transmitted to the scart lead 38 as a result of a signal from
the PIR, can energise an audible warning device and/or the camera 32 may be connected
to a secondary monitor receiving an image from the camera when the television receiver
is not switched on.
[0021] The switch 39 may be opened to disable the connection to the television receiver
whereby, if preferred, interruption of television programmes is avoided.
1. A combined PIR sensor and camera comprising a housing fronted by a PIR lens and a
camera lens; characterised in that the camera lens is sealingly retained in the housing
wall and is adapted to produce an image at a fixed focal length.
2. A combined PIR sensor and camera according to Claim 1, wherein the PIR lens and camera
lens are separately disposed in the housing and sealingly engaged therewith.
3. A combined PIR sensor and camera according to Claim 1 or Claim 2, wherein the housing
includes at least a part thereof which is rotatable thus to select the angle of view,
individually or collectively, of the PIR lens and camera lens, the rotatable and fixed
parts of the housing including a sealed interface to prevent the ingress of contaminants.
4. A combined PIR sensor and camera according to any preceding claim, wherein the PIR
lens is integrally moulded with the housing.
5. A combined PIR sensor and camera according to any preceding claim, wherein the camera
lens is installed and sealed into the housing after production thereof.
6. A combined PIR sensor and camera according to any preceding claim, wherein the housing
contains a PIR sensor and at least one image production component of the camera.
7. A combined PIR sensor and camera according to any preceding claim, wherein the housing
includes a part adapted to be located behind a backplate of a lamp with a lower frontal
part of the housing protruding forwardly through an opening in the backplate.
8. A combined PIR sensor and camera according to any preceding claim, including a first
adjustable timer connecting the sensor to the camera whereby a signal from the camera
may for a selected time be transmitted to a television monitor, and including a second
adjustable timer whereby the PIR sensor may, for a predetermined time, be connected
to an opto-isolator and switch for energising a lamp.
9. A combined PIR sensor and camera according to any preceding claim, including a daylight
sensing photocell whereby a signal from the PIR sensor to energise a lamp may be interrupted
during hours of daylight.
10. A combined PIR sensor and camera according to Claim 8, including a switch operable
to prevent an image from the camera being transmitted to the television monitor irrespective
of a signal from the PIR sensor.
11. A combined PIR sensor and camera according to Claim 8, including an audio intercom
provided with a microphone disposed in the housing such that a voice transmission
to the television monitor may occur.