A cement mixing tool with a gearbox transmission assembly, an electric drill tool, a pair of mixing blades, a drive shaft housing assembly, a handle assembly and a splash guard. The electric drill tool is attached to the drive shaft housing assembly. The gearbox transmission assembly is attached to the drive shaft housing assembly. The pair of mixing blades are attached to opposing shafts extending from the gearbox transmission assembly. The splash guard attached to the exterior the drive shaft housing assembly. The handle assembly is attached to the drive shaft housing assembly. The resulting tool can be used by a person to mix wet cement within a wheelbarrow or other similar open topped container.

The present disclosure is related to filter elements and more specifically to filter elements for removing dust from air. In an embodiment, an inventive filter element includes a housing having a first side and a second side, filter material in the housing, a space between the filter material and the first side of the housing for forming a suction chamber, and at least one hole in the first side, whereby the area within the circumference of the side of the filter material facing the first side of the housing is larger than the area of at least one hole.

A cement mixing tool with a gearbox transmission assembly, an electric drill tool, a pair of mixing blades, a drive shaft housing assembly, a handle assembly and a splash guard. The electric drill tool is attached to the drive shaft housing assembly. The gearbox transmission assembly is attached to the drive shaft housing assembly. The pair of mixing blades are attached to opposing shafts extending from the gearbox transmission assembly. The splash guard attached to the exterior the drive shaft housing assembly. The handle assembly is attached to the drive shaft housing assembly. The resulting tool can be used by a person to mix wet cement within a wheelbarrow or other similar open topped container.

In at least one embodiment, a system for a blender tub overflow catch is disclosed for fracturing operations using a fracturing fluid blender. In at least one embodiment, the system includes a first tub that may be a blender tub and a second tub forming a blender tub overflow catch that is adapted to circumvent an outside diameter of the first tub to catch overflow fluid from the first tub so that it can be directed back into the first tub upon a determination that the first tub has a capacity to handle the overflow fluid.

An automated frothing assembly. The automated frothing assembly has a wand module that includes an elongate member having an inlet, one or more outlets, and a fluid passageway extending between and in fluid communication with the inlet and the plurality of outlets. At least one of the one or more outlets extends parallel to a vertical plane that includes the centerline of the elongate member and at an acute angle relative to a horizontal plane that is perpendicular to both the vertical plane and the centerline of the elongate member. The assembly further includes an actuator configured to be operatively coupled to the wand module and to drive the movement of at least a portion of the wand module along an axis, and an electronic controller configured to be electrically coupled to the actuator and to control the operation of the actuator to control the movement of the wand module.

Provided are a refractory article, an anti-redox coating composition, and a method of manufacturing the refractory article. The refractory article includes: a platinum (Pt)-based substrate; and a coating layer for preventing a redox reaction on a surface of the Pt-based substrate, wherein the coating layer for preventing a redox reaction includes on an oxide basis SiO.sub.2 in an amount of about 40 wt % to about 70 wt %, Al.sub.2O.sub.3 in an amount of about 20 wt % to about 52 wt %, B.sub.2O.sub.3 in an amount of about 3 wt % to about 6 wt %; and CaO in an amount of about 2.4 wt % to about 4.8 wt %.

A bucket lid assembly for mixing contents of a closed bucket includes a lid that has flat portion and a channel portion is integrated into the flat portion. The channel portion releasably engages a bucket for closing the bucket. The flat portion is comprised of a translucent material to facilitate contents of the bucket to be visible through the lid. The lid has a mixer opening extending therethrough such that a mixing wand is insertable through the mixer opening. In this way the lid facilitates the contents of the bucket to be mixed while the bucket is closed with the lid.

A beverage mixing assembly includes a gasket that is positioned around an open end of a beverage container. The gasket is comprised of a resiliently stretchable material for accommodating a variety of sizes of beverage containers. A housing is coupled to the gasket for gripping the housing and a motor is positioned within the housing. A shaft releasably engages the motor such that the motor rotates the shaft when the motor is turned on. The shaft extending downwardly into the beverage cup when the gasket is positioned around the open end of the beverage container. A mixer is coupled to the shaft such that the shaft rotates the mixer when the motor is turned on thereby facilitating the mixer to mix the beverage in the beverage container.

A device for preparing a gelatin-based product may comprise a mix tank, a mix pod that is fluidly coupled to the mix tank via a pod spike, and a hot water tank, where the hot water tank is coupled to the mix pod via the pod spike. In at least one example, the pod spike may comprise an outer tube and an inner tube. In one or more examples, the pod spike of the device may comprise a hub, where a first end of the outer tube is coupled to the hub. Further, in some examples, a first end of the inner tube may also be coupled to the hub.

A device for preparing a gelatin-based product having a mix tank, a mix pod that is fluidly coupled to the mix tank via a pod spike, and a hot water tank, where the hot water tank is coupled to the mix pod via the pod spike. In at least one example, the pod spike has an outer tube and an inner tube. In one or more examples, the pod spike of the device has a hub, where a first end of the outer tube is coupled to the hub. Further, in some examples, a first end of the inner tube may also be coupled to the hub.