According to one embodiment, a method of identifying a part of a conveyance system is provided. The method comprising: capturing an image of a part of a conveyance system using a camera; classifying the part of the conveyance system using supervised learning; and displaying a classification of the part of the part on a mobile computing device.

According to one embodiment, a method of identifying a part of a conveyance system is provided. The method comprising: capturing an image of a part of a conveyance system using a camera; classifying the part of the conveyance system using supervised learning; and displaying a classification of the part of the part on a mobile computing device.

An object processing system is disclosed for unloading objects from a trailer of a tractor trailer. The object processing system includes an engagement system including a truck entry portion for entering the trailer and for indiscriminately engaging unidentified objects within the trailer, and a conveyance system for conveying objects engaged by the engagement system toward an unloading portion of the trailer.

The stop position of a workpiece is detected by a position detection unit. A control unit calculates and records a difference between the detected stop position (actual stop position) and a reference stop position set in advance. After recording the difference multiple times, the control unit performs a statistical processing of the differences and calculates a compensation amount based on results of the statistical processing. In the next position detecting, the position detection unit is disposed at a compensated position which is obtained by adding the compensation amount to the reference stop position, and in this state, detects the position of a predetermined portion of the workpiece.

The stop position of a workpiece is detected by a position detection unit. A control unit calculates and records a difference between the detected stop position (actual stop position) and a reference stop position set in advance. After recording the difference multiple times, the control unit performs a statistical processing of the differences and calculates a compensation amount based on results of the statistical processing. In the next position detecting, the position detection unit is disposed at a compensated position which is obtained by adding the compensation amount to the reference stop position, and in this state, detects the position of a predetermined portion of the workpiece.

A soldering apparatus as a conveyance apparatus includes a substrate loading portion to load a substrate on the soldering apparatus, an intermittent feeding unit to intermittently feed the substrate loaded on the soldering apparatus, a substrate discharge portion to discharge the intermittently fed substrate to the outside of the soldering apparatus and a controller to control conveyance of the substrate. The substrate loading portion includes a first conveyance path to convey the substrate, a first sensor provided in the vicinity of a substrate loading inlet of the substrate loading portion, and a second sensor arranged in a downstream side of the first sensor along the substrate conveyance direction. The intermittent feeding unit includes a second conveyance path for conveying the substrate, and a third sensor placed in the vicinity of an upstream end of the intermittent feeding unit along the substrate conveyance direction.

A soldering apparatus as a conveyance apparatus includes a substrate loading portion to load a substrate on the soldering apparatus, an intermittent feeding unit to intermittently feed the substrate loaded on the soldering apparatus, a substrate discharge portion to discharge the intermittently fed substrate to the outside of the soldering apparatus and a controller to control conveyance of the substrate. The substrate loading portion includes a first conveyance path to convey the substrate, a first sensor provided in the vicinity of a substrate loading inlet of the substrate loading portion, and a second sensor arranged in a downstream side of the first sensor along the substrate conveyance direction. The intermittent feeding unit includes a second conveyance path for conveying the substrate, and a third sensor placed in the vicinity of an upstream end of the intermittent feeding unit along the substrate conveyance direction.

An automatic article sorting conveyor apparatus includes a supply unit configured to include first and second oblique roller frames having a plurality of first and second oblique rollers and to convey articles, an arranging unit configured to include third and fourth oblique roller frames having a plurality of third and fourth oblique rollers and a middle belt frame including a middle belt having a front coupled to the first and second oblique roller frames, and an article drop unit configured to include first and second counter-oblique roller frames having a plurality of first and second counter-oblique rollers on the left and right sides of the middle belt, first and second drop chutes having one ends coupled to the first and second counter-oblique roller frames, and first and second conveying belt frames have one ends coupled to the first and second drop chutes and including conveying belts circulate.

An automatic article sorting conveyor apparatus includes a supply unit configured to include first and second oblique roller frames having a plurality of first and second oblique rollers and to convey articles, an arranging unit configured to include third and fourth oblique roller frames having a plurality of third and fourth oblique rollers and a middle belt frame including a middle belt having a front coupled to the first and second oblique roller frames, and an article drop unit configured to include first and second counter-oblique roller frames having a plurality of first and second counter-oblique rollers on the left and right sides of the middle belt, first and second drop chutes having one ends coupled to the first and second counter-oblique roller frames, and first and second conveying belt frames have one ends coupled to the first and second drop chutes and including conveying belts circulate.

A baggage transfer conveyer unit for mounting over a baggage carousel having a carousel transferring path for transferring a baggage therealong is provided. The conveyor unit comprises a proximal end, a distal end, an upper surface by means of which the baggage is to be transferred from the proximal end to the distal end along a conveyor unit transferring path extending between the ends, a baggage transferring mechanism configured for causing the upper surface to transfer the baggage along the conveyor transferring path; and a baggage diverting mechanism configured for causing a part of the upper surface to divert the baggage from the conveyer unit transferring path along a diverted direction different from that of the conveyor unit transferring path. The baggage transfer conveyer unit is configured to be mounted over the baggage carousel such that the conveyer transferring path is aligned with the carousel transferring path.