Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
  • B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
  • B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
  • B07C5/36—Sorting apparatus characterised by the means used for distribution
  • B07C5/363—Sorting apparatus characterised by the means used for distribution by means of air
  • B07C5/367—Sorting apparatus characterised by the means used for distribution by means of air using a plurality of separation means
  • B07C5/368—Sorting apparatus characterised by the means used for distribution by means of air using a plurality of separation means actuated independently
• • A—HUMAN NECESSITIES
  • A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
  • A24B—MANUFACTURE OR PREPARATION OF TOBACCO FOR SMOKING OR CHEWING; TOBACCO; SNUFF
  • A24B1/00—Preparation of tobacco on the plantation
  • A24B1/04—Sifting, sorting, cleaning or removing impurities from tobacco
• • A—HUMAN NECESSITIES
  • A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
  • A24C—MACHINES FOR MAKING CIGARS OR CIGARETTES
  • A24C5/00—Making cigarettes; Making tipping materials for, or attaching filters or mouthpieces to, cigars or cigarettes
  • A24C5/36—Removing papers or other parts from defective cigarettes
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
  • B07C—POSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
  • B07C5/00—Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
  • B07C5/34—Sorting according to other particular properties
  • B07C5/342—Sorting according to other particular properties according to optical properties, e.g. colour
  • B07C5/3425—Sorting according to other particular properties according to optical properties, e.g. colour of granular material, e.g. ore particles, grain

Definitions

• This invention relates to apparatus for removing foreign matter from a stream of particulate material as part of the processing of that material; and finds particular but not exclusive use in the removal of foreign matter such as paper or other items from a stream of tobacco material as part of the pre-processing of tobacco in the manufacture of cigarettes.
• the invention is particularly useful, although not exclusively so, in the removal of foreign matter which has a significantly lower terminal velocity in air than the components of the main stream of material from which the foreign matter is removed, for instance the removal of paper from tobacco.
• a typical example of the application of the invention is in the removal of paper remenants from tobacco material when cigarettes which have faults in them after their manufacture, are broken up so that the tobacco therein can be re-used in making fresh cigarettes. In such a case it is necessary to remove the remenants of the cigarette papers from the tobacco.
• the foreign matter in the stream of material may be detected by optical means.
• a suitable optical detection system is described in our copending international Patent Application published under the numbers W088/03063, which describes a system for optically detecting the presence of an unacceptable particle across the width of the stream of material, and then rejecting it by operating a specific solenoid value, to provide compressed air to a specific nozzle, located adjacent the path of the stream of material, to blow a detected unacceptable particle from the main stream flow.
• W088/03063 describes a system for optically detecting the presence of an unacceptable particle across the width of the stream of material, and then rejecting it by operating a specific solenoid value, to provide compressed air to a specific nozzle, located adjacent the path of the stream of material, to blow a detected unacceptable particle from the main stream flow.
• W088/03063 which describes a system for optically detecting the presence of an unacceptable particle across the width of the stream of material, and then rejecting it by operating a specific solenoid value, to provide compressed air to a
• An object of the present invention is to provide an apparatus which improves the discrimination of the removal action, whilst limiting the generation of airborn debris from the process of unacceptable particles removal.
• a further object of the invention is to provide a method whereby the rejection area is tightly controlled and any dust generated by the rejection process is carried away with the rejected particles of foreign matter rather than being diffused into the atmosphere surrounding the machine and in the prior art arrangement.
• the present invention provides apparatus for removing foreign matter from a stream of material comprising conveyor means arranged to carry the stream of material from an inlet, successively past an agitation stage in which the material is agitated to spread it evenly over the conveyor means, a detection stage at which foreign matter is detected optically, and an ejection stage at which detected foreign matter is removed from the material, to an exit from the apparatus.
• FIGURES 1 and 1A show a schematic side elevation of a machine embodying the invention
• FIGURE 2 shows a schematic block diagram of the electrical and electronics circuitry associated with the optical detection of the embodiment of Figure 1,
• FIGURE 3 shows a schematic prospective view of an alternative feed arrangement for material to the embodiment of Figure 1 ,
• FIGURE 4 shows a schematic diagram of an alternative arrangement for removing a foreign matter from the .embodiment of Figure 1 and,
• FIGURES 5 & 6 show schematic diagrams of alternative arrangements of Figure 4.
• FIGURE 1 shows a schematic cross sectional side elevation of a machine for removing foreign matter from a stream of material being processed, particularly for removing such matter as paper from a stream of tobacco material.
• the machine comprises a floor mounted frame 10, which includes a support surface indicated generally at 11 , for a conveyor belt 12 which is carried between main rollers 13 &. 14 over the support surface 11, and tensioned by jockey- pulleys 15, 16 & 17.
• the bel 12 is perforated so as to make it readily porous to air, while still being able to support the acceptable particle size of the material to be processed without it passing through the conveyor.
• An inlet 16 for material to be processed is provided at the left hand end of the machine as seen in Figure 1 in the form of an aperture in an upper cover structure 17 which covers and encloses the run of the conveyor belt 12 over the support 11.
• An outlet 18 is provided at the right hand end of the machine in the form of a discharge chute to carry treated material away to some other process.
• the conveyor belt 12 carries material from left to right as seen in Figure 1 from the inlet 16 through a first stage 20 in which the material on the belt is agitated or fluidized, partly to spread the material evenly over the belt, and partly to attempt to bring the foreign matter to be removed to the surface of the material on the belt, an inspection stage 21 at which the foreign material is detected, a foreign matter ejection stage 22 at which the foreign matter is removed from the material on the belt 12, and finally to the exit 18 to leave the machine.
• the first stage 20 is arranged with an air chamber 30 immediately beneath the support 11, so that air supplied to the chamber 30 through a conduit 31, may pass through the belt 12 into the material thereon at that stage to agitate and/or fluidize it. Because the foreign matter to be removed, often has a lower terminal velocity in air than the tobacco material to be treated, apart from spreading the material more evenly across the width of the belt, this agitation or f1uidization, causes the foreign material, particularly paper, to rise to the surface of the material on the belt.
• the cover 17 is formed with an upper chamber 32 over the chamber 30, to collect any dust or other material blown from the material on the belt, and this is extracted by air flow from the chamber 32 to the next stage as will be discussed below.
• the inspection stage 21 comprises a light box 40 having an open lower face which cooperates with an aperture in the top of the housing 17.
• the light box contains lamps, indicated schematically at 41, arranged to illuminate the material on the belt 12 as it passes beneath the light box.
• An optical scanning device 42 is mounted above the light box 40 and arranged to observe through an aperture 43 in a plane 44, a narrow band across the width of the material on the conveyor belt 12.
• the scanning device 42 is mounted on a seperate support frame (not shown) to be supported in position from the ground independantly of the rest of the machine, so that it is not subjected to the vibrations created by the machine.
• the support 11 is provided with apertures 45, 46 & 47 beneath the belt 12 which are a communication with a chamber 48 and thus to an air extraction conduit 49.
• a further aperture 50 is provided beneath the belt in communication with the chamber 51 also in communication with the extraction conduit 49.
• the scanning device 42 scans as mentioned a narrow band across the width of the belt, and optically (and electronically) detects in a manner to be discussed below, any foreign matter on the material passing beneath it on the belt 12 so that it can be ejected from the belt 12 at the ejection stage 22 in an manner to be discussed below.
• the ejection stage 22 comprises two rows 60 and 61 of nozzles, 62, shown in more detail in Figures 1a, disposed beneath the belt 12 in the support 11.
• the rows of nozzles 60 and 61 are arranged so that the nozzle 62 are staggered across the width of the belt, and in this embodiment there are thirty two nozzles 62 in each row thus providing a nozzle to cover each of 64 distinct strips or bands across the width of the belt.
• the nozzle 62 are arranged to supply a blast of air through the belt 12 and the material on it, to eject the foreign material detected off the belt 12.
• a hood 63 is embodied in the upper cover 17 connected to an outlet conduit 64 through which air is continously drawn, so that any foreign material ejected by a nozzle 62 is carried away from the housing 17 and from the machine.
• the rows of nozzles 60 and 61 are carried on a support bar 65 adjustably supported on screw adjusters 66, from a beam 67 forming part of the machine frame 10. This means that the nozzle 62 can be positioned accurately immediately beneath the belt 12.
• Each nozzle 62 is provided with an associated solenoid operated air valve 68, to control the supply of air to the nozzle from a reservoir chamber 69 forming part of the frame 10, by flexible conduits 70.
• Material passes from the ejection stage 22 to fall into the exit chute at the exit 18 and the machine.
• FIGURE 3 shows in schematic block form the electric/electronic circuit for controlling the solenoid valves 68 in response to detection of foreign matter by the scanning device 42.
• the scanning device 42 is arranged to provide a video signal on the line 70, corresponding to the light intensity reflected from the material on the belt 12 in a single line scan across the .width of the belt.
• the scanning device 42 also provides a synchronisation pulse on the line 71 to coincide with the commencement of the video signal line on the line 70.
• the sync pulse is passed to a decoder 72 which embodies a counter arranged to divide the time interval of the video line into a series of elements, in this embodiment 64, to divide the width of the belt 12 in effect into 64 bands.
• the counter is started by the sync pulse on line 71.
• the video signal is passed to an amplifier 73 the gain of which is controlled by control means 74, in dependence from the count from the counter in the decoder 72, indicative of the instantaneous position across the belt 12 that is represented by that instant in the video signal .
• control means 74 in dependence from the count from the counter in the decoder 72, indicative of the instantaneous position across the belt 12 that is represented by that instant in the video signal .
• the decoder 72 provides an output on the line 75 during the scan time of the video signal on the line 70 to activate a sampling means 76 which stores the content of the video signal passed through it from the amplifier 73.
• An averaging device 77 produces ⁇ a background compensation signal from averaging the video signal stored in the sample device 76, and a signal representative of the average output of the scanning device 42 is passed to a summing amplifier indicated at 78, together with a pre-set value for a detection threshold which is set on the line 79.
• the output of the summing amplifier 78, and of the amplifier 73, are passed to a comparator 80, so that when the video signal from the scanning device 42 exceeds a pre-set threshold above the background output, the comparator 80 gives an output signal on the line 81.
• a matter detected signal occurs on the line 81.
• the count from the counter in the decoder 72 is also passed on the a line 82 to a band or strip decoding means 83, in conjunction with the foreign matter detected signal on the line 81, so that a corresponding signal occurs on an appropriate one of a series of parallel outputs 84, which corresponds to the band or strip across the belt at which the foreign matter was detected.
• the outputs 84 are each connected to a respective one of the series parallel shift registers indicated by the block 85. These shift registers are each clocked to carry any input signal along their logical length, in synchronism with the speed of the belt 12 through the machine; so that an output occurs, on one of the series of parallel lines 86, at an instant corresponding to the arrival of detected foreign matter at the ejection stage 22.
• the output lines 26 are connected through driver circuits in the block. 87 to the solenoids 68 to control the air nozzles 62, so that the appropriate one is energised, to eject the detected foreign matter.
• Pre-set means indicated at 88 may be used to alter the starting point in any of the shift registers of the block 85, to adjust the operation of the nozzle 62 for instance to compensate for their staggered relationship.
• Similar means 89 may be provided for controlling the length of time that the solenoids 68 are operated thus to control the length of air blast in operation of the machine.
• the embodiment provides apparatus for receiving material, spreading it out on a conveyor, passing it beneath a scanning device to detect foreign matter and subsequently ejecting that foreign matter, down stream from the scanning device, to seperate it from the main stream of material which then leaves the machine.
• FIGURE 3 shows an alternative arrangement for feeding material to the belt 12 of the embodiment of Figure 1.
• material to be fed to the machine passes down a chute 100 to fallionto the conveyor belt 12 across a perforated plate 101.
• An -air chamber 102 is provided behind the plate 101 and air is supplied to that chamber under pressure so that a series of air jets are emitted from the plate 101.
• the material is subjected to these air jets as it passes across the plate 101 and is subjected to an agitating and mixing effect somewhat similar to the process k-nown as winnowing. .
• FIGURE 4 shows an alternative arrangement of the ejection stage 22.
• suction nozzles 110 are arranged above the belt and connected to an air extraction device 111 by means of .a conduit 112.
• the nozzles 110 are individually movable in vertical direction from a position shown in full in Figure 4 to a position, shown at 113 in dotted outline, immediately above the belt 12.
• the suction nozzles 110 correspond in number, and may correspond in arrangement, to the air nozzles 62.
• the appropriate nozzle 110 is moved down at the appropriate instant to draw the unwanted foreign matter out of the material on belt 12, to be collected in a container 114.
• FIGURES 5 & 6 show alternative arrangements for the nozzles 110 of Figure 4.
• the nozzles are mounted on a transverse bar 115 which is in turn carried on a link 116 driven by an associated crank 117, to cause the nozzles to move in an eliptical path as indicated in the diagram.
• the crank 117 is caused to rotate so that the nozzles 110 execute their eliptical path to come down onto the foreign matter carried on the material on the belt 12, follow it briefly along the path of the belt, and then lift it away for disposal.
• the appropriate nozzle 110 is connected to a source of vacuum by a respective solenoid valve 119 by way of a flexible pipe- US carried on a mounting beam 120.
• Figures 4, 5 & 6 may be used with a belt 12 which is not perforated, in which case it would be preferable to use the feed means of Figure 3. In such an arrangement the chambers 48 and 51 beneath the detection stage may also be omitted. In some circumstances the arrangements of Figures 4, 5 & 6 may be used together with the air jets of Figures 1 or 1a with a perforated belt 12.
• the embodiment of the invention provides apparatus for receiving a stream of material , spreading it upon on moving belt, detecting foreign matter lying in that material and removing from the belt before the stream of material leaves the machine.

Applications Claiming Priority (6)

Publications (1)

Family

ID=27264210

Family Applications (1)

Country Status (2)

Families Citing this family (3)

Family Cites Families (7)

• 1989
  • 1989-11-30 WO PCT/GB1989/001434 patent/WO1990006065A1/en not_active Application Discontinuation
  • 1989-11-30 EP EP90900232A patent/EP0447437A1/de not_active Withdrawn

Non-Patent Citations (1)

Also Published As

Similar Documents

Legal Events