[0001] The present invention relates to an optical cigarette filling control device.
[0002] In particular, the present invention relates to a control device for determining
the presence or absence of tobacco at the open end of cigarettes on a cigarette manufacturing
and/or filter assembly and/or packing machine.
[0003] At the output of cigarette manufacturing and/or filter assembly machines and/or at
the input of cigarette packing machines, the cigarettes are normally subjected to
numerous controls, one of which provides for determining the presence or absence of
tobacco at the open end of the cigarettes.
[0004] In the majority of cases, this is done using an optical comparator comprising a light
source for illuminating the front open-end surface of the cigarette; a detecting unit
featuring a telecamera or similar optical monitoring unit for producing an image of
the front open-end surface; and a comparing unit for receiving the monitored image
and comparing it with a specimen image. The comparing unit normally also provides
for emitting a reject signal in the event the difference between the monitored and
specimen images exceeds a given limit.
[0005] In general, the difference between the two images is one of shading, which, as we
know, in the case of the monitored image, varies according to the presence of gaps
in the front open-end surface due to the absence of tobacco. Unfortunately, however,
the shading of the monitored image has been found to depend largely not only on the
presence of said gaps, but also on the colour of the tobacco employed, so that known
devices of the aforementioned type involve long, high-cost setup procedures whenever
a different type of tobacco is used.
[0006] It is an object of the present invention to provide a straightforward, low-cost optical
device designed to overcome the aforementioned drawbacks.
[0007] According to the present invention, there is provided an optical device for controlling
the filling of cigarettes, and characterized by the fact that it comprises, in combination,
a sensor and fixed-focus optical means aligned in a fixed position along the optical
axis of the optical means and presenting a given focusing plane and a substantially
zero depth of field; the focusing plane, in use, being tangent to the end edge of
the cigarette positioned substantially coaxial with said optical axis.
[0008] The above device preferably also comprises a light source for illuminating the end
surface of the cigarette; said sensor being designed to receive a beam reflected by
said end surface towards said optical means.
[0009] According to a preferred embodiment of the above device, said sensor is provided
with comparing means for emitting a reject signal in response to a signal emitted
by the sensor and below a given threshold value.
[0010] A non-limiting embodiment of the present invention will be described by way of example
with reference to the accompanying drawings, in which:
Fig.1 shows a preferred embodiment of the optical device according to the present
invention;
Fig.2 shows a partial view of the Fig.1 device under two different operating conditions;
Fig.3 shows a performance graph of the Fig.1 device.
[0011] Number 1 in Fig.1 indicates an optical device for controlling the filling of end
portion 2 of a cigarette 3. Device 1 comprises a light source 4 for emitting a beam
5 impinging on and for illuminating front end surface 6 of portion 2; and a biconvex
lens 7 having an optical axis 8 and a fixed focus 9. Device 1 presents a focusing
plane 10 at a given distance A from lens 7, and a substantially zero depth of field;
and cigarette 3 is positioned facing lens 7, coaxial with axis 8, and in such an axial
position that end edge 11 of cigarette 3 is tangent to focusing plane 10.
[0012] Device 1 also comprises a sensor 12 located along axis 8, on the opposite side of
focus 9 to lens 7, on the opposite side of lens 7 to cigarette 3, and at a given distance
B from lens 7, which sensor 12 provides for detecting the contrast value of the image
of surface 6 viewed through lens 7 and proportional to the filling of portion 2 of
cigarette 3, and may, for example, be of the type described in USA Patent n. 5,107,337.
Device 1 also comprises a comparing and control unit 13 for receiving the contrast
value of the monitored image from sensor 12, comparing it with a threshold contrast
value C, and emitting a reject signal in the event the incoming contrast value is
below the threshold value.
[0013] In actual use, and with reference to Fig.3, when end portion 2 is full, i.e. when
surface 6 is a flat surface coplanar with edge 11 and plane 10 (Fig.2a), sensor 12
detects a maximum contrast value D. Conversely, in the event of any gaps in portion
2 (Fig.2b), surface 6 is no longer coplanar with edge 11 and plane 10, in which case,
by virtue of the substantially zero depth of field of device 1, the contrast values
detected by sensor 12 fall alongside an increase in the depth of the gaps, as shown
by curve 14, and are such as to determine the emission of a reject signal, when the
depth of the gaps is such that the contrast signal falls below threshold C.
1. An optical device (1) for controlling the filling of cigarettes (3), and characterized
by the fact that it comprises, in combination, a sensor (12) and fixed-focus (9) optical
means (7) aligned in a fixed position along the optical axis (8) of the optical means
(7) and presenting a given focusing plane (10) and a substantially zero depth of field;
the focusing plane (10), in use, being tangent to the end edge (11) of the cigarette
(3) positioned substantially coaxial with said optical axis (8).
2. A device as claimed in Claim 1, characterized by the fact that said optical means
(7) comprise at least one lens.
3. A device as claimed in Claim 1 or 2, characterized by the fact that it also comprises
a light source (4) for illuminating the end surface (6) of said cigarette (3); said
sensor (12) being designed to receive a beam reflected by said end surface (6) towards
said optical means (7).
4. A device as claimed in any one of the foregoing Claims, characterized by the fact
that said sensor (12) is provided with comparing means (13) for emitting a reject
signal in response to a signal emitted by the sensor (12) and below a given threshold
value.