A multi-layered polymeric checkstand conveyor belt of the type used in grocery stores that is printed to display advertising information to engage the shopper at the point of sale and coated with a durable and impervious antimicrobial-containing surface coating. The inclusion of a QR code on the printed belt enables a shopper to easily access the information with a QR code reader app on the shopper's cell phone which directs to the store's website. The advertising and information content on the website can be easily changed and updated by the store so that the information content, including store promotions and special events are kept current. The antimicrobial agent in the surface coating is a quaternary ammonium organosilane compound that kills microbes on contact and has long-lasting residual effects to destroy and prevent the proliferation of microbes such as bacteria, viruses, mold, and the like. However, the cleanliness of the antimicrobial checkstand conveyor belt must be maintained by regular, and preferably at least daily, cleaning with an all-purpose cleaner and application of an antimicrobial surface protectant that inhibits the growth of bacteria the conveyor belt surface for an extended period of time. Compliance with the cleaning procedure is facilitated and ensured by the provision of an App downloaded to a tablet PC, for example, that has a detailed dashboard and accessible data to remind, report, and confirm cleaning of the belt.

A multi-layered polymeric checkstand conveyor belt of the type used in grocery stores that is printed to display advertising information to engage the shopper at the point of sale and coated with a durable and impervious antimicrobial-containing surface coating. The inclusion of a QR code on the printed belt enables a shopper to easily access the information with a QR code reader app on the shopper's cell phone which directs to the store's website. The advertising and information content on the website can be easily changed and updated by the store so that the information content, including store promotions and special events are kept current. The antimicrobial agent in the surface coating is a quaternary ammonium organosilane compound that kills microbes on contact and has long-lasting residual effects to destroy and prevent the proliferation of microbes such as bacteria, viruses, mold, and the like. However, the cleanliness of the antimicrobial checkstand conveyor belt must be maintained by regular, and preferably at least daily, cleaning with an all-purpose cleaner and application of an antimicrobial surface protectant that inhibits the growth of bacteria the conveyor belt surface for an extended period of time. Compliance with the cleaning procedure is facilitated and ensured by the provision of an App downloaded to a tablet PC, for example, that has a detailed dashboard and accessible data to remind, report, and confirm cleaning of the belt.

A method for producing a non-woven material, the method comprising: using a spun non-woven or melt spun method; using an arrangement including a conveyor belt; and forming a web of the non-woven material on a surface of the conveyor belt while being moved, wherein the conveyor belt includes a product side that is in contact with the non-woven material, and a machine side that is in contact with conveying devices of the arrangement to produce the non-woven material, wherein the conveyor belt includes longitudinal threads that extend in a running direction of the web of the non-woven material and transversal threads perpendicular to the longitudinal threads, wherein at least a portion of the longitudinal threads of a surface that is oriented towards the product side of the conveyor belt is made from a polymeric material which includes at least a portion of a thermoplastic elastomeric material.

A sensor and monitoring system that can prevent the accumulation of scraps of a transport object on the sensor are provided. A sensor 4 is located below a return-side portion 2a of a conveyor belt 2, and includes: a detector 40 that detects a detection object 3 embedded in the conveyor belt; and a cover 41 covering at least an upper part of the detector, wherein the cover has a downward surface 411 that extends continuously downward from a top part of the cover while extending outward in the horizontal direction.

A sensor and monitoring system that can prevent the accumulation of scraps of a transport object on the sensor are provided. A sensor 4 is located below a return-side portion 2a of a conveyor belt 2, and includes: a detector 40 that detects a detection object 3 embedded in the conveyor belt; and a cover 41 covering at least an upper part of the detector, wherein the cover has a downward surface 411 that extends continuously downward from a top part of the cover while extending outward in the horizontal direction.

A conveyor belt is formed by covering a belt core body with a cover rubber. The cover rubber has a fine ridged/grooved structure formed on at least a portion of a surface thereof, and has a surface roughness of 1 μm or more and 12 μm or less, a degree of sharpness of 2 or more and 9 or less, and a specular gloss at an angle of incidence of 60° of 0.1 or more and 10 or less due to the fine ridged/grooved structure. The surface roughness is preferably 2 μm or more and 5 μm or less, and the degree of sharpness is preferably 3 or more and 5 or less, and the specular gloss at an angle of incidence of 60° is preferably 0.1 or more and 3 or less. Such conveyor belt is less likely to have a poor appearance due to bloom.

A method for producing and/or recycling a conveyor belt, the conveyor belt having at least one belt layer, the at least one belt layer or one of the belt layers including a tension member, the tension member including a matrix material and filaments embedded in the matrix material, includes: providing a tension member starting material by: providing a recyclate, which already contains filaments or filament groups, or combining a recyclate, which already contains filaments or filament groups, with the matrix material and/or filaments, or combining the matrix material with filaments; producing an extrudable state of the tension member starting material by mixing the provided tension member starting material in a mechanically-aided manner and influencing a temperature on the provided tension member starting material; and extruding the tension member, forming the at least one belt layer of the conveyor belt, from the tension member starting material.

A method for producing and/or recycling a conveyor belt, the conveyor belt having at least one belt layer, the at least one belt layer or one of the belt layers including a tension member, the tension member including a matrix material and filaments embedded in the matrix material, includes: providing a tension member starting material by: providing a recyclate, which already contains filaments or filament groups, or combining a recyclate, which already contains filaments or filament groups, with the matrix material and/or filaments, or combining the matrix material with filaments; producing an extrudable state of the tension member starting material by mixing the provided tension member starting material in a mechanically-aided manner and influencing a temperature on the provided tension member starting material; and extruding the tension member, forming the at least one belt layer of the conveyor belt, from the tension member starting material.

The invention relates to a belt (1) as a continuous traction means, in particular for conveyor belts of agricultural machines, in particular baling presses, comprising at least one fabric layer (2) embedded, at least in certain regions, in a polymer layer (3), in particular rubber layer, whereby end regions (1a, 1b) of the belt (1) lie flat on top of one another in an overlap region (4) and are connected to each other for creating a continuous belt (1) reinforced by the fabric layer (2). According to the invention, it is provided that the end regions (1a, 1b) of the belt (1) are connected to each other by at least one thread (7) forming a seam (9), whereby, to that end, said at least one thread (7) penetrates the end regions (1a, 1b) of the belt (1) in a seam region (6) in several stitches (8), whereby the fabric layer (2) of the belt (1) is embedded in the polymer layer (3) at least across said seam region (6), and the thread (7) is embedded in transition regions (20) between the stitches (8) into the polymer layer (3) in such a manner shallowly at a depth of penetration (T) that the thread (7) runs below surfaces (10a, 10b) of the belt (1).

The invention relates to a belt (1) as a continuous traction means, in particular for conveyor belts of agricultural machines, in particular baling presses, comprising at least one fabric layer (2) embedded, at least in certain regions, in a polymer layer (3), in particular rubber layer, whereby end regions (1a, 1b) of the belt (1) lie flat on top of one another in an overlap region (4) and are connected to each other for creating a continuous belt (1) reinforced by the fabric layer (2). According to the invention, it is provided that the end regions (1a, 1b) of the belt (1) are connected to each other by at least one thread (7) forming a seam (9), whereby, to that end, said at least one thread (7) penetrates the end regions (1a, 1b) of the belt (1) in a seam region (6) in several stitches (8), whereby the fabric layer (2) of the belt (1) is embedded in the polymer layer (3) at least across said seam region (6), and the thread (7) is embedded in transition regions (20) between the stitches (8) into the polymer layer (3) in such a manner shallowly at a depth of penetration (T) that the thread (7) runs below surfaces (10a, 10b) of the belt (1).