Abstract: A mobile impeller fan blade assembly having a portable housing, an evaporative media, an impeller fan motor assembly retained within the portable housing and with a motor operably coupled to a plurality of fan blades interposed between an internal upstream air-flow channel and an internal downstream channel of the housing and operably configured to rotate about an axis of rotation, and defining a centrifugally configured outlet aperture relative to an axis of rotation and interposed between the internal downstream channel and the plurality of fan blades, wherein the assembly has a duct of a flexible material, defining one or more duct aperture(s), and operably configured to selectively removably couple to the portable housing to cover air outlet, such that the motor is operably configured to cause the blades to generate an airflow moving cooled air through the housing and out through the duct aperture(s).

Abstract: A method of utilizing a mobile climate control assembly to selectively generate air flow across an angular range and at various velocities that includes providing first and second fan blower wheel assemblies each retained in a housing, having a wheel blade member operably coupled to a motor and operably configured to rotate 360° around an axis of rotation, and having an air deflector wall surrounding a partial circumference of the wheel member to direct generated air outwardly from the housing and electronically controlling the motor(s) to independently rotate the wheel members to generate an ambient air velocity gradient along at least an approximate 90° angular traverse path outwardly from the at least one housing without rotating the housing or the air deflector wall of each of the first and second fan blower-wheel assemblies.

Abstract: A mobile climate control assembly that includes a portable housing with a first fan blower-wheel assembly and a second fan blower assembly each respectively having a wheel blade member, partially surrounded by an air deflector wall, disposed within a housing cavity and operably configured to rotate 360° around an axis of rotation parallel and non-co-planar with respect to one another. The assembly also includes a fan motor operably coupled to the wheel blade members and an electronic controller electronically and communicatively coupled to the fan motor and operably configured to independently and selectively control rotation of the wheel member of each of the first and second fan blower-wheel assemblies to generate an ambient air velocity gradient along at least an approximate 90° angular traverse path from the front face and without rotation of the portable housing.

Abstract: A mobile climate control assembly that includes a portable housing with a first fan blower-wheel assembly and a second fan blower assembly each respectively having a wheel blade member, partially surrounded by an air deflector wall, disposed within a housing cavity and operably configured to rotate 360° around an axis of rotation parallel and non-co-planar with respect to one another. The assembly also includes a fan motor operably coupled to the wheel blade members and an electronic controller electronically and communicatively coupled to the fan motor and operably configured to independently and selectively control rotation of the wheel member of each of the first and second fan blower-wheel assemblies to generate an ambient air velocity gradient along at least an approximate 90° angular traverse path from the front face and without rotation of the portable housing.

Abstract: A simple and attractive electronic survey device for collecting survey data includes an electronic housing including an electronic display, whereon survey questions are displayed. A user input interface is mounted on the electronic housing, and coupled to operate in response to displayed survey questions. A central processing unit (CPU) is coupled to operate the electronic display. An electronic memory, coupled to the CPU, is used for storing at least one question(s) and customer response entered through the user input interface. A communications port is coupled to receive and transmit data from the electronic memory. An Internet: web portal is linked to the communications port for receiving and transmitting survey data including survey programs and questions for loading into the CPU and memory.