Device for Cleaning Roller Surfaces of a Drafting Arrangement

Abstract

The invention relates to an apparatus on a spinning preparation machine having a drafting system (1) for processing a fiber material (G) which is moved by the drafting system in the direction of conveyance (F), including a plurality of roller pairs arranged one after the other with upper rollers and lower rollers (2, 3; 4, 5; 6, 7), having at least two elongated stripping devices (9) which are each in contact with one of the upper rolls (3, 5, 7) along their stripping edges (K) for removing dirt and other contaminants, and having a suction hood (AH) which is mounted above the stripping devices (9) and is connected to a vacuum source (U). To avoid accumulations of components that have been stripped off the rollers in the area of the stripping devices and to improve the suction effect, it is proposed that each stripping device (9) be mounted in its own suction channel (11, 12, 13), wherein the stripping edge (K) of the respective stripping device (9) protrudes beyond its suction channel in the area of a first opening (O1), and the individual suction channels are each mounted on a bottom wall (8) provided with openings (B1, B2, B3), wherein the respective suction channel (11, 12, 13) is provided with a second opening (O2) opposite the first opening (O1), this second opening being opposite one of the openings (B1, B2, B3) of the bottom wall (8), wherein the suction hood (AH) protrudes beyond the openings (B1, B2, B3) of the bottom wall and is mounted on the side of the bottom wall (8) which is opposite the suction channels (11, 12, 13).

Claims

1. An apparatus on a spinning preparation machine having a drafting system (1) for processing a fiber material (G) which is moved by the drafting system in the direction of conveyance (F), including a plurality of roller pairs arranged one after the other with upper rollers and lower rollers (2, 3; 4, 5; 6, 7), having at least two elongated stripping devices (9) which are each in contact with one of the upper rolls (3, 5, 7) along their stripping edges (K) for removing dirt and other contaminants, and having a suction hood (AH), which is mounted above the stripping devices (9) and is connected to a vacuum source (U), characterized in that each of the stripping devices (9) is mounted in its own suction channel (11, 12, 13) wherein the stripping edge (K) of the respective stripping device (9) protrudes beyond its suction channel in the area of a first opening (O1), and the individual suction channels are each mounted on a bottom wall (8) provided with openings (B1, B2, B3), wherein the respective suction channel (11, 12, 13) is provided with a second opening (O2) opposite the first opening (O1), this second opening being opposite one of the openings (B1, B2, B3) of the bottom wall (8), wherein the suction hood (AH) protrudes beyond the openings (B1, B2, B3) of the bottom wall and is mounted on the side of the bottom wall (8) which is opposite the suction channels (11, 12, 13).

2-12. (canceled)

Description

[0029] Additional advantages of the invention will now be presented and described in greater detail on the basis of the following exemplary embodiments.

[0030] FIG. 1 shows a schematic side view of a drafting system having a stripping device designed according to the invention.

[0031] FIG. 1a shows an enlarged partial view according to FIG. 1.

[0032] FIG. 1b shows another exemplary embodiment according to FIG. 1a.

[0033] FIG. 1c shows a partial view according to FIG. 1a with another exemplary embodiment.

[0034] FIG. 2 shows a sectional diagram X-X according to FIG. 1.

[0035] FIG. 1 shows a schematic side view of a drafting system 1 which is equipped with roller pairs 2, 3; 4, 5 and 6, 7 arranged one after the other. These roller pairs are provided for processing fiber material G in a pre-drawing zone VV and a main drawing zone HV. Their fiber material G to be drawn is moved in the conveyor direction F by the drafting system 1. The lower rollers 2, 4, 6 which are connected to drive means (not shown) are usually embodied as profiled steel rollers and are mounted so they can rotate in a machine frame MG. The upper rollers 3, 5, 7 (also referred to as pressure rollers) assigned to the lower rollers usually have a rubberized surface (peripheral surface) Z and are pressed against the suitably assigned lower roller 2, 4 or 6 by means of a device that is not shown here during operation, to form a clamping site K1, K2, K3. The upper rollers 3, 5, 7 are mounted so they can rotate by means of axles A in bearings 26, 27, 28 and are driven by means of friction by the respective lower rollers 2, 4, 6 which cooperate with them. The bearings 26, 27, 28 which are arranged on the respective ends of the upper rollers, are mounted on a frame 24, which is itself mounted on the machine frame MG, so that it can pivot about a pivot axle 22. In the lower position shown in FIG. 1, the frame 24 is in a working position in which the upper rollers 3, 5, 7 are resting on the lower rollers 2, 4, 6, wherein the frame is locked in this position by means of an apparatus (not shown). As indicated by dotted lines and by a double arrow, the frame 24 can also be pivoted upward about the pivot axle 22 into an out-of-operation position. In this pivot operation the upper rollers 3, 5, 7 are also pivoted which thus permits free access to the lower rollers 2, 4, 6.

[0036] During operation of the drafting system 1, soiling and other components from the fiber material G passed through may be deposited on the circumferential surfaces Z of the upper rollers 3, 5, 7. This may be further encouraged by an electrostatic charge on the upper rollers. These deposits would have negative effects on the drawing operation if they reach the respective clamping site K1-K3 in the revolution of the upper rollers. In other words, the clamping effect on the fiber material G is irregular due to the spots of deposits present on the roller surfaces, as seen over the width of the respective pair of rollers.

[0037] Stripping devices 9 consisting of a holder H and a stripper E having a stripping edge K are therefore provided for stripping away such deposits above the upper rollers 3, 5 and 7. The strippers are made of a flexible material (for example, plastic, rubber, etc.) and may be glued or otherwise joined to the holder.

[0038] The respective stripping devices 9 are each mounted inside a suction channel 11, 12 or 13 and are fastened at each of their ends to an outside wall of the respective suction channel by means of fastening means 20, shown schematically in FIG. 2, and held in the working position shown in FIGS. 1 and 1a. In this position the respective end of the stripper which is provided with the stripping edge K protrudes through a first opening O1 out of the respective suction channel by a certain length and sits on the circumferential surface Z of the respective upper roller under a prestress.

[0039] The stripping devices 9 (FIG. 1a) are arranged approximately centrally within the respective suction channel 11, 12 or 13as seen transversely to their longitudinal direction Land at a distance a of 2 to 10 mm from the front and/or rear channel wall W1 and/or W2, respectively. The stripping device 9 therefore has an air flow around it on both sides (indicated by arrows), which is created by applying a vacuum via a vacuum source U. This ensures that the material stripped off will not be deposited on the surface of the stripping device 9.

[0040] On the opposite side of the first opening O1, the respective suction channel 11, 12, 13 is provided with a second opening O2 which is opposite an opening B1, B2 or B3 which is mounted in a bottom wall 8.

[0041] The bottom wall 8 is provided with flanged edges 8a protruding upward on both longitudinal sides, as seen in the direction of conveyance F.

[0042] The flanged edge 8a has elongated holes L1 and/or L2 on the respective front and rear ends through which bolts 30 and/or 31 protrude and are fastened on the frame 24 at each end. The bottom wall 8 is thus connected to the frame 24 by means of the bolts 30, 31. The bottom wall 8 can be shifted with respect to the frame 24 in the direction of conveyance F or opposite that direction through the corresponding alignment of the elongated holes L1, L2 (see FIG. 1). Between the flanged edges 8a and the frame 24, spacers (not shown) may be provided on the bolts 30, 31 to secure a central position (as shown in FIG. 2) of the bottom wall 8 within the frame parts of the frame 24 running laterally to the bottom wall.

[0043] FIG. 1b shows another exemplary embodiment, wherein the stripping devices 9 are fastened directly in the extension of the front side wall W1 of the respective suction channels 11, 12. In other words, the holder H is fastened to the front side wall W1 by means of fastening means which are not shown further here. This fastening may be designed in such a way that an advance of the stripper in the direction of the circumferential surface Z of the rollers 3, 5 is possible if the rollers must be dressed again, and their diameter is thereby reduced.

[0044] Such a readjustment of the strippers is also to be provided with the additional exemplary embodiments.

[0045] The stripping device 9 is at least partially opposite the rear side wall W2 of the respective suction channel 11 and/or 12 at a distance k of 8 to 20 mm. The end of the stripper E protrudes with its stripping edge K by a certain amount out of the respective suction channel 11 and/or 12 and sits on the circumference Z of the respective roller 3, 5.

[0046] As already described, the material stripped from the roller circumference Z due to the stripper E which is designed to be flexible and under the influence of the rotational movement of the rollers 3 and/or 5, which is indicated by an arrow, into the region behind the stripper (as seen in the direction of conveyance F) from which it is removed by suction in the direction of the suction hood AH by the suction air current (see arrow) applied to the suction channels 11, 12.

[0047] FIG. 1c shows schematically another embodiment according to FIG. 1a on the basis of the suction channel 11. In contrast with the embodiment in FIG. 1a, in the embodiment in FIG. 1c the stripping device 9 is mounted eccentrically within the suction channel 11. The distance a from the front side wall W1 is less than the distance a from the rear side wall W2. It would also be possible to reverse the ratios of the distance. This results in different channel cross sections on both sides of the stripping device 9. This results in the fact that the velocity of flow is greater in the area with the smaller distance a than the velocity of flow in the area with the greater distance a. Due to this effect, the fibers which are positioned around the stripping edge K of the stripper E, as shown schematically, become loosened again. This takes place when the channel 11 with the stripping device 9 is shifted periodically with respect to the axle A of the roller 3 for cleaning purposes (see the following example). In doing so, this stripping edge K is lifted up from the circumference Z of the roller 3 and enters a position indicated with dash-dot lines. Due to the greater air flow in the suction channel at the distance a, these fibers are released and picked up by the suction in this area and sent to the suction hood AH.

[0048] As shown in FIG. 1, at least one spring element 36, which is supported at its free end on the bolt 30, is mounted on a transverse web 33 which is itself mounted between the flanged edges 8a. The spring element 36 is designed as a compression spring and causes the bottom wall 8 to be displaced in the direction of travel F until the elongated hole L1 comes to a stop in the position on the bolt 30 shown in FIG. 1. Thus the bottom wall 8 is secured in the position shown (FIG. 1) opposite the frame 24.

[0049] Another transverse web 34 is provided between the flanged edges 8a on the end of the bottom wall 8 opposite the elongated holes L1. At least one bellows, which is fastened to a transverse web 40 of the frame 24, as shown schematically in FIG. 1, is hinge connected to this transverse web 34. The bellows cylinder 38 is acted upon by a pressure source P. If the bellows cylinder 38 is acted upon by compressed air through the pressure source P, then a compressive force is applied to the frame 24 by means of the transverse web 34, displacing the latter in the direction opposite the direction of conveyance F and opposite the spring force of the spring 36. With this displacement, the frame 24 is guided over the elongated holes L1, L2 onto the bolt 30, 31. Since the suction channels 11, 12, 13 are fastened onto the bottom wall 8 (as will be described further below), these are also displaced with the stripping devices 9 fastened inside the suction channels. Due to this displacement movement, the respective stripping edge K is moved a distance away from the surfaces Z of the upper rollers 3, 5, 7, so that any deposits in the area of these stripping edges K can be loosened and removed by suction. As soon as the bellows cylinder 38 is no longer being acted upon by the pressure source P, the bottom wall 8 is conveyed back in the direction of conveyance F into its starting position by means of the spring force of the spring 36. The periodic displacement of the stripping devices 9 can take place through a corresponding controlled action of the bellows cylinder 38 in predetermined intervals of time.

[0050] As shown in the enlarged view in FIG. 1a in particular, cover elements A1, A2, A3 are mounted on the suction channels 11, 12, 13 in the area of the respective second opening O2, lying directly or indirectly thereon, leaving free the respective opening O2 beneath the bottom wall 8. These cover elements have lateral flanged edges A11, A21, A31, which are in direct or indirect contact with the flanged edge 8a of the bottom wall 8.

[0051] The lateral flanged edges A11 and A21 are provided with elongated holes T, through each of which a screw R protrudes by means of which the flanged edges A11 and A21 are connected to the flanged edge 8a of the bottom wall 8. By means of the elongated holes T, it is possible to displace the cover elements A1 and A2 with respect to the bottom wall 8after loosening the screws R. Changes in the clamping distances in the pre-drawing VV and the main drawing HV can thus be compensated with the masses c and d.

[0052] In other words, as soon as one of the roller pairs 2, 3 or 4, 5 has been shifted with respect to the direction of conveyance F to change the distance c or d between the clamping lines K1, K2 and/or K2, K3, the corresponding stripping devices 9 may be adapted in their position. This ensures that the stripping devices will always be in the correct stripping position with respect to the similarly assigned upper roller.

[0053] The foremost roller pair 6, 7 (as seen in the direction of conveyance F) is mounted fixedly. The front suction channel 13 is therefore also attached fixedly to the bottom wall 8. Then the cover element A3 mounted on the suction channel 13 is in direct contact with the bottom wall 8 wherein the opening 02 in the suction channel 13 and the opening B3 in the bottom wall 8 are directly opposite one another. For fastening the suction channel 13 to the bottom wall 8, the cover element A3 has a lateral flanged edge A31, which is directly in contact with the lateral flanged edge 8a of the bottom wall 8. The flanged edge A31 is fastened to the flanged edge 8a by means of screws R. The flanged edge 31 is therefore provided with holes through which the screws R can pass.

[0054] To be able to carry out such a displacement of the suction channels 11 and/or 12 wherein the free passage from the second openings O2 of the suction channels 11 and/or 12 into the interior 43 of the following suction hood AH must be ensured, it is necessary to provide the openings B1 and B2 of the bottom wall 8as seen transversely to the longitudinal direction L of the stripping device 9with a width h, which is greater than the width e of the second opening O2 of the respective suction channel 11, 12. The opening B1 and/or B2 protrudes beyond the openings O2 on both sides around the extent of the possible adjustment.

[0055] To avoid collisions between cover elements A1 and A2 in a certain adjustment of the position of the suction channels 11, 12, the cover element A2 sits directly on the bottom wall 8 (FIG. 1a) and extends over the cover element A1, which is in contact with the cover element A2. Here again, to ensure free passage in any position of the suction channel 11 from the second opening O2 of the suction channel 11 to the interior 43 of the suction hood AH in any position of the suction channel 11, the cover element A2 is provided with another opening B, whose width corresponds approximately to the width h of the opening B1.

[0056] This ensures that the interior 43 of the suction hood AH is shielded with respect to the ambient air in any position of the suction channels 11, 12, except for the openings O2.

[0057] This ensures an extensive and targeted suction of the stripped constituents in the area of the suction channels 11 to 13.

[0058] The components entering the interior 43 of the suction hood AH are transferred to a collective storage S, which is indicated schematically, under the influence of a vacuum source U connected to the suction hood AH. The vacuum source U is connected at a tubular connection part 10, which is situated in an upper area of the suction hood AH.

[0059] The suction hood which sits on the bottom wall 8 by means of a peripheral seal D protrudes beyond the openings B1 to B3 of the bottom wall 8 in the area of their contact. The suction hood AH is fastened to the bottom wall 8 by means of fastening means 44 (e.g., screws), shown schematically here.

[0060] In other words, the suction hood AH is mounted so that it can be dismantled and can be removed at any time for example, to carry out cleaning work or to eliminate problems. The suction hood may be made of a transparent material so that the monitoring of the interior 43 of the suction hood is simplified.

[0061] The apparatus proposed here permits intensive suction removal of components stripped away from the roller and a simple adjustment of the apparatus to different distortion distances during pre-drawing or main drawing of the drafting system due to the proposed mounting of adjustable suction channels that are provided with stripping devices.