DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0015] FIG. 1 shows a carding machine CM which may be, for example, a DK 903 high-performance carding machine manufactured by Trützschler GmbH & Co. KG, Mönchengladbach, Germany. The carding machine CM has a feed roll 1 , a feed table 2 cooperating with the feed roll 1 , licker-ins 3 a, 3 b, 3 c, a main carding cylinder 4 , a doffer 5 , a stripping roll 6 , crushing rolls 7 , 8 , a web guiding element 9 , a sliver trumpet 10 , calender rolls 11 , 12 and a traveling flats assembly 13 having slowly circulating flat bars 14 which move approximately at between 0.05 and 0.4 m/min. The flat bars 14 are at opposite longitudinal ends thereof coupled to respective, non-illustrated, parallel-arranged endless circulating belts trained about end rollers, such as end rolls (end sprockets) 13 a, 13 b. Also referring to FIG. 2 , the flat bars 14 are pulled by the belts in the working direction A over non-illustrated bends and they reverse direction by means of the end sprocket 13 a rotating in the direction D and continue their travel in the idling direction B. Then the end sprocket 13 b, rotating in the direction C once again advances the flat bars 14 in the working direction A. The direction of rotation of the rolls of the carding machine are shown by curved arrows drawn therein. At the outlet of the carding machine CM a sliver coiler 16 is positioned for depositing sliver into the coiler can 16 ′. On the return travel side the flat bars 14 , as they move in the idling direction B, are exposed to slowly rotating flat bar brushes 17 for cleaning the flat bar clothings 14 ′. The flat bar brush 17 cooperates with a rapidly rotating cleaning roll 18 . A suction device 19 draws debris, dust, short fibers and the like from the inner space underneath the cover 20 of the card.

[0016] According to FIG. 2 the frontal sprocket 13 b (as well as the non-illustrated other frontal sprocket supporting the other belt connected with the respective opposite longitudinal ends of the flat bars 14 ) has five circumferentially distributed throughgoing elongated openings 21 . On the outer circumferential surface of the drive shaft 22 a yielding cylindrical jacket 23 (made, for example, of foam material) is arranged. The outer surface of the jacket 23 is in airtight engagement with the back face 14 ″ of those flat bars 14 which, during the course of their travel, are situated on the sprocket 13 b. By virtue of this arrangement, the suction chamber between two adjoining flat bars 14 has narrow limits and has a small volume.

[0017] FIG. 3 shows the same arrangement for the rear belt sprocket 13 a and is duplicated for the other, non-illustrated rear belt sprocket at the opposite end of the flat bars. As also shown in FIG. 4 , the inlet opening of a suction pipe 25 is located close to the outer face (radial wall) of the sprocket and is aligned with the elongated openings 21 as they pass by. The inlet opening of the suction pipe 25 is situated in the region where the direction of travel of the flats is reversed and draws air through the sprocket 13 a′ of the traveling flats drive. Thus, as it may also be observed in FIG. 2 , the suction chamber 15 is composed by two adjoining flats bars 14 ₁ which at least partially extend within the outline of the inlet opening of the suction pipe 25 and the jacket 23 surrounding the sprocket drive shaft 22 . Since the locations of suction have a small cross section, a high flow velocity is obtained. As the end sprocket rotates, the location of suction is closed in the intermediate traveling bar space and thus the soiled sprocket tooth gaps are exposed to suction. A suction nipple 25 is coupled to a non-illustrated suction source. An adjustable setting flange 26 is affixed to the suction nipple 25 and is mounted on the frame of the carding machine.

[0018] Particularly referring to FIGS. 2, 3 and 4 , the suction nipple 25 of the suction source immediately adjoins the outer side of the end sprocket 13 a. The suction chambers 15 ₁ , 15 ₂ are formed essentially by the drive shaft 22 and the space between the outer faces of any two adjoining flat bars 14 ₁ which are simultaneously at least partially within the outline of an opening 21 and, at the same time, are located within the outline of the suction nipple 25 .

[0019] Thus, as the end sprocket 13 a and/or 13 b associated with a suction arrangement according to the invention rotate, consecutively different suction chambers 15 arrive into the region of the suction nipple 25 whereby the dust laden air (arrow E in FIG. 4 ) is drawn from the suction chamber 15 (see FIG. 3 ) through the elongated end sprocket opening 21 into the suction nipple 25 . FIG. 3 furthermore shows that the tooth gaps 24 between the teeth of the end sprocket are also exposed to suction and are thus cleaned.

[0020] By virtue of the non-continuous mode of operation, a vacuum fluctuation is obtained. This prevents, among others, an adherence or winding of the fibers on the structural components such as the sprockets 13 a and/or 13 b, the flat bars 14 and the flat bar drive belts.

[0021] FIG. 5 shows in perspective view one end sprocket 13 b according to the invention to more clearly illustrate the tooth gaps 24 between adjoining sprocket teeth and the five elongated suction apertures 21 . The drive shaft not shown in FIG. 5 is adapted to pass through the central sprocket opening 27 .

[0022] The suction may take place bilaterally on the right and left-hand side of the machine or may be effected only at a single machine side. Preferably such a suction is effected from the left-hand machine side since there the drive need not be circumvented. In case of a bilateral suction structure, in the middle of the suction chamber normally a dead spot would be formed which, however, is eliminated due to the fluctuating suction according to the invention. In case of unilateral suction on the other side, the suction stream may advantageously be enhanced by air pressure pulses in which case the component 25 is, at such other side, functioning as a pneumatic pressure outlet.

[0023] It will be understood that the above description of the present invention is susceptible to various modifications, changes and adaptations, and the same are intended to be comprehended within the meaning and range of equivalents of the appended claims.