Barcode readers and barcode reader assemblies with lift handles are disclosed herein. An example bioptic barcode reader assembly includes a barcode reader having a housing and a metal frame secured to the housing. A retractable first lift handle having an elongated first aperture is positioned on a first side of the housing and a retractable second lift handle having an elongated second aperture is positioned on a second side of the housing, opposite the first side. Each of the first and second lift handles is movable relative to the housing between a retracted position and an extended position and the first and second apertures in the first and second lift handles overlie a first center of gravity of the barcode reader and a second center of gravity of the barcode reader assembly.

A ruggedized triggering handle device for a mobile scanning system supports a mobile device (tablet, smartphone) attachable by a bracket on the upper surface of the handle. The handle may establish a wireless link to the mobile device; a trigger of the handle device includes a magnetic switch which, when driven proximate to a triggering element enclosed within the handle, causes the triggering element to transmit key codes and instructions via the wireless link, enabling the user to trigger applications and peripheral sensing components (e.g., readers, scanners, imagers) of or proximate to the mobile device via the handle. The peripheral sensing components may be modular elements attachable between the upper and lower portions of the handle device, either individually or serially as needed, and operable via the trigger or the additional buttons without the need for visual reference to the handle.

A system including a multi-dimensional scanner includes a body including a chassis extending from the body, a connector assembly coupled to the chassis, and a plurality of interchangeable attachments. Each of the plurality of interchangeable attachments is securable to the body via the connector assembly and each of the plurality of interchangeable attachments is associated with a type of operation of the system.

A barcode scanner assembly for capturing at least one object appearing in a field of view (FOV) is provided that includes a base defining a curved base surface and a scanner enclosure being mechanically coupled to the base. The scanner enclosure includes a top portion and a bottom portion opposite the top portion. The bottom portion of the scanner enclosure is positioned proximate to the base. The bottom portion of the scanner enclosure includes a curved scanner enclosure surface. The curved base surface and the curved scanner enclosure surface are nested such that a clearance of less than approximately 5 mm is formed between the curved base surface and the curved scanner enclosure surface.

A kiosk includes a barcode reader module, vision camera, and central processing unit positioned within a housing. The housing defines a front surface and has an upper portion that extends outward past the front surface. The barcode reader module includes an imaging assembly with a first field-of-view that defines a product scanning region. The vision camera is positioned within the upper portion of the housing with at least a portion of the vision camera located forward of the front surface of the housing and has a second field-of-view facing generally downward and intersecting the first field-of-view of the barcode reader module within the product scanning region. The central processing unit is operatively connected to the barcode reader module and the vision camera and is configured to decode barcodes captured by the barcode reader module and perform advanced processing of images received from the vision camera.

An optical information reading device 100 includes an aiming module 60 configured to irradiate aiming light for instructing an imaging area of image data generated by an imaging module, a trigger switch 30 for starting imaging processing by the imaging module, an aiming switch 43B for causing the aiming module 60 to irradiate the aiming light, and a reading unit 81 configured to read information of the symbol. The reading unit 81 is configured to, in an aiming state in which irradiation processing for the aiming light by the aiming module 60 is executed by operation of the aiming switch 43B, detect that the trigger switch 30 is operated and read, based on the image data generated by the imaging processing of the imaging module, information of the symbol included in a predetermined partial area PA corresponding to an irradiation position of the aiming light.

An information terminal including a housing projection section which is provided at a position shifted to one end side of a terminal main body in a longitudinal direction while projecting in a thickness direction of the terminal main body, and in which a device is housed, and an expansion connector section which is used to connect an expansion board, in which the housing projection section includes an inclined section downwardly inclined from the one end side toward an other end side in the longitudinal direction, and the expansion connector section is provided in the inclined section.

A ruggedized triggering handle device for a mobile scanning system supports a mobile device (tablet, smartphone) attachable by a bracket on the upper surface of the handle. The handle may establish a wireless link to the mobile device; a trigger of the handle device includes a magnetic switch which, when driven proximate to a triggering element enclosed within the handle, causes the triggering element to transmit key codes and instructions via the wireless link, enabling the user to trigger applications and peripheral sensing components (e.g., readers, scanners, imagers) of or proximate to the mobile device via the handle. The peripheral sensing components may be modular elements attachable between the upper and lower portions of the handle device, either individually or serially as needed, and operable via the trigger or the additional buttons without the need for visual reference to the handle.

A code reader device (10) as well as a method for online verification of a code (20), which is detected by an image sensor (14) of the code reader device (10) in an image, wherein the encoded information of the code (20) is read out and the code quality is judged according to predefined criteria. In order to allow an automatic online verification of different codes at different reading distances without having to recalibrate each time, it is proposed that codes (20) of different sizes and at different distances from the image sensor (14) are brought into focus automatically, a distance value of the code (20) or the object relative to the image sensor (14) is provided, norm-specific and distance-specific calibration parameters are provided on the basis of said distance value, and the read-in code (20) is verified automatically on the basis of said norm-specific and distance-specific calibration parameters and a predefined norm.

A modular vision system that can include a housing with a faceplate and a first and second optical module mounted to the faceplate. Each of the first and second optical modules can include a mounting body, a rectangular image sensor, and an imaging lens that defines an optical axis and a field of view. The first optical module can be configured to be mounted to the faceplate in a first plurality of mounting orientations and the second optical module can be configured to be mounted to the faceplate in a second plurality of mounting orientations. The first and second optical modules can thus collectively provide a plurality of imaging configurations.