In one aspect, a textile machine for processing and/or transporting fiber material includes at least one processing unit configured to process and/or transport fiber material and at least one sensor unit configured to detect soiling on and/or at the at least one processing unit and/or damage to the at least one processing unit. The textile machine also includes at least one display unit configured to display the soiling on and/or the damage to the at least one processing unit.
A conveying unit of a textile machine has an endless circulating and drivable conveying element, the conveying element having a conveying area on an outer side thereof to receive and convey textile material. Opposite side walls are disposed to hold the textile material in the conveying area in a transverse direction of the conveying element. A sealing device is arranged between each of the side walls and the conveying element such that an interior space enclosed by the conveying element is at least partially sealed with respect to the textile material. The sealing device includes a sealing element connected to the conveying element so as to extend transversely away from and above the outer side of the conveying element.
B65G 21/22 - Rails ou éléments analogues d'engagement à glissières ou à rouleaux fixés aux porte-charges ou aux éléments de traction
B65G 21/20 - Moyens incorporés ou fixés au châssis ou aux carters pour guider les porte-charges, les éléments de traction ou les charges portées sur les surfaces mobiles
B65G 15/44 - Courroies ou porte-charges sans fin analogues en caoutchouc ou en matière plastique avec nervures, stries ou autres saillies superficielles pour communiquer l'impulsion aux charges
B65G 15/08 - Transporteurs comportant des surfaces porteuses de charges sans fin, c.-à-d. des tapis roulants ou autres systèmes équivalents, auxquelles l'effort de traction est transmis par des moyens différents des éléments d'entraînement sans fin de même configuration la surface portant la charge étant formée par une courroie concave ou tubulaire, p. ex. une courroie formant auget
3.
Storage device for fiber material comprising a cleaning unit
A fiber material storage device for a textile includes a storage chute having a chute housing and a supply line leading into the storage chamber. Fiber material is pneumatically conveyed with conveying air into the storage chamber. A cleaning unit in the storage chamber cleans contamination from the conveying air and includes a cleaning chamber. A semipermeable dividing wall is situated between the storage chamber and the cleaning chamber to retain the fiber material in the storage chamber and allow the contaminated conveying air to flow into the cleaning chamber. A filter element is situated in the conveying air flow between the cleaning chamber and outer surroundings to retain the contamination in the cleaning chamber and allow filtered conveying air to escape into the surroundings. The cleaning housing has a collection chamber situated underneath the cleaning chamber, wherein the contamination retained by the filter element settles in the collection chamber.
F26B 7/00 - Procédés de séchage d'un matériau solide ou d'objets utilisant une combinaison de procédés non couverts par un seul des groupes ou
B65G 3/04 - Emmagasinage de matériaux en vrac ou d'objets en vrac, c.-à-d. en désordre dans des réservoirs, des trémies ou dans de grands réceptacles de ce genre
D01G 23/02 - Chargeuses automatiquesCheminées de remplissage
B08B 9/08 - Nettoyage de récipients, p. ex. de réservoirs
A fiber conveyor for a fiber blending unit includes a blending belt, wherein fiber material dropped onto the blending belt from a bale opener is transportable away by the blending belt. Opposite guide walls are arranged laterally to the blending belt to guide the fiber material on both sides of the blending belt. A rotary distributor is arranged above the blending belt so that the fiber material dropped onto the blending belt is distributable in a transverse direction of the blending belt between the two guide walls by rotational movement of the rotary distributor.
A fiber processing system for opening and mixing fiber material includes a plurality of bale openers for opening fiber bales. Conveying devices are arranged downstream of the bale openers for mixing and conveying the opened fiber material to a downstream processing device. The bale openers are divided into at least two opener groups, wherein each opener group produces a respective fiber mixture. Each opener group is allocated one or more of the conveying devices arranged in such a manner that the respective fiber mixtures are transported directly away from their associated opener group in different directions and the fiber mixtures are subsequently combined before or in the processing device into an overall fiber mixture.
A method and a device for opening and dosing fiber feeds the fiber material via a feeding shaft of an opening device. The fiber material is processed in a first opening step of a dosing opener and is fed without an interconnecting pneumatic means to the feeding shaft of a second opening step. A large-volume feeding shaft has been placed before the first opening device from which the fiber material is delivered to a feeding shaft with a considerably smaller volume that delivers the fiber material to a second opening device. Both opening devices and their associated feeding shafts are placed on top of one other.
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