Provided are an automatic spray system for a shoe sole adhesive and a spray method therefor, wherein a spray gun and a coating tool are provided at the end of a mechanical arm, enabled to be located in an adhesive spray path, and respectively arranged at the inner and outer sides of a contour side line of the top face of a shoe sole, and by cooperating with the scan information of the top face of the shoe sole and the position information of the shoe sole read by a computer, the adhesive spray region of the spray gun slightly exceeds the contour side line of the top face of the shoe sole and overlaps with a cementing region at the top face of the shoe sole such that a large part of the adhesive is sprayed onto the cementing region, and a small part of the adhesive exceeding the contour side line is blocked and adsorbed by the coating tool, whereby the technical effects of automatically and accurately cementing the shoe sole, preventing the adhesive from overflowing and staining the shoe sole appearance, increasing the bonding strength between the shoe sole and the vamp by uniformly coating the adhesive etc.

The manufacturing of articles relies on the bonding of two or more components to form some forms of the articles, such as a shoe sole bonded with a shoe upper. The bonding may be achieved with an adhesive particulate that is applied to a surface of a substrate. The adhesive particulate is selectively fused to the substrate with a controlled energy source having multiple energy emitters individually controllable, such as a laser array. The selective application of laser energy allows for specific geometric structures of adhesive particulate to be formed on the substrate. The substrate having the fused adhesive particulate is mated with another component allowing the fused adhesive particulate to bond the first substrate and the second component.

A multiple camera vision system captures discrete images having overlapping fields of view. Each of the cameras is calibrated and the images from the cameras are stitched together as a stitched image. A stitched image from the multiple cameras is then used in a calibration process to prepare the multiple camera vision system to be used in connection with a processing operation. A stitched image is used as an input for identifying a feature of the material and for determining a tool path for the material. The tool path determined with the stitched image is provided to a process station to perform an operation on the material.

A nozzle dispenses a material, such as an adhesive, primer, paint, or other coating, through a dispensing port on to a substrate. The spray pattern provided by the nozzle defines, at least in part, an application pattern of the material on to the substrate. An air mask port integral with the nozzle or a separate nozzle expels a mask stream of pressurized gas. The mask stream projects toward the substrate to aid in limiting an application of the material beyond an application line on the substrate. The air-mask port and the dispensing port may be moved relative to the substrate and/or the application line such that the mask stream provides a barrier to the material being applied.

Systems and methods of manufacturing a shoe outsole are provided wherein at least a portion of the resulting shoe outsole includes embedded particles. An example method includes applying adhesive to at least one region of the shoe outsole, depositing selected particles onto the adhesive to provide the shoe outsole with a first coat of particles, and at least partially curing the adhesive. The method continues by applying additional adhesive over the first coat of particles, depositing additional particles onto the adhesive to provide the shoe outsole with a second coat of particles, and at least partially curing the subsequent application of adhesive.

A mold and a method for making a heterogeneous composite outer shoe sole. The mold includes a press cutting die, a positioning plate, a positioning jig and a pressing jig. The method involves using the press cutting die to cut a first base material into cut pieces, positioning the press cutting die on the positioning jig with the positioning plate held therebetween, using the pressing jig to push the cut pieces into the material receiving holes of the positioning plate; preparing a shoe sole preform that is made of a second base material and has binding portions positionally corresponding to the material receiving holes; applying adhesive to the binding portions and to the cut pieces; and butting the positioning plate with the shoe sole preform, whereby the cut pieces of the first base material are bound with the binding portions in a batch.

A mold and a method for making a heterogeneous composite outer shoe sole. The mold includes a press cutting die, a positioning plate, a positioning jig and a pressing jig. The method involves using the press cutting die to cut a first base material into cut pieces, positioning the press cutting die on the positioning jig with the positioning plate held therebetween, using the pressing jig to push the cut pieces into the material receiving holes of the positioning plate; preparing a shoe sole preform that is made of a second base material and has binding portions positionally corresponding to the material receiving holes; applying adhesive to the binding portions and to the cut pieces; and butting the positioning plate with the shoe sole preform, whereby the cut pieces of the first base material are bound with the binding portions in a batch.

The invention covers both the sole structure and its related production equipment and technology, especially in relation to a type of flocked shoe sole. Compared with the existing technology, the shoe sole can trap and retain fiber particles via electrostatic or electrostatic spraying, which is not only anti-slippery also with elegant looking and reduce the cost. This set of equipment for making flocked sole is highly automatic, easy to operate, save the labor and reduce the production cost. The production procedure consists of 1) applying prime coating; 2) applying adhesive; 3) natural flock retention or electrostatic flocking; 4) electrostatic separation, cleaning, pairing and packaging. The whole process has been shortened dramatically, simplify the procedure, and reduce the cost. Also the solvent and adhesive used are both environmental friendly, harmless, which helps increase the productivity and yield.

The invention covers both the sole structure and its related production equipment and technology, especially in relation to a type of flocked shoe sole. Compared with the existing technology, the shoe sole can trap and retain fiber particles via electrostatic or electrostatic spraying, which is not only anti-slippery also with elegant looking and reduce the cost. This set of equipment for making flocked sole is highly automatic, easy to operate, save the labor and reduce the production cost. The production procedure consists of 1) applying prime coating; 2) applying adhesive; 3) natural flock retention or electrostatic flocking; 4) electrostatic separation, cleaning, pairing and packaging. The whole process has been shortened dramatically, simplify the procedure, and reduce the cost. Also the solvent and adhesive used are both environmental friendly, harmless, which helps increase the productivity and yield.

Systems and methods of manufacturing a shoe outsole are provided wherein at least a portion of the resulting shoe outsole includes embedded particles. An example method includes applying adhesive to at least one region of the shoe outsole, depositing selected particles onto the adhesive to provide the shoe outsole with a first coat of particles, and at least partially curing the adhesive. The method continues by applying additional adhesive over the first coat of particles, depositing additional particles onto the adhesive to provide the shoe outsole with a second coat of particles, and at least partially curing the subsequent application of adhesive.