A treatment system, including a conveyor bed configured to transport a plurality of products; a brushing device located along the conveyor bed and having one or more brushes that include a first antimicrobial compound; a surface treatment device including a lamp configured to emit light of a peak wavelength directed toward a portion of the conveyor bed; and a coating device configured to deliver a coating mixture onto the plurality of products on the conveyor bed.

The device includes a substantially L-shaped body including a docking station for mounting a wick-based fragrance dispensing bottle within a range of sizes. The docking station can include a number of resilient support tabs that grasp the neck of the bottle and serve to localize the bottle’s top wick to a central plane regardless of bottle size so that it can be adjustably engaged by a movable heater. Resilient guide tabs straddling the plane are stiffer than a resilient latching tab that moves within the plane. The heater can be mounted on a sliding carriage that can move along the plane to closely nest the wick for increased vapor emission and move away to decrease vapor emission.

A heated whip hose includes a hose core configured to deliver a fluid, a heating element disposed around the hose core, a protective layer disposed around the heating element and hose core, an insulating layer disposed around the protective layer, and an abrasion protection layer disposed around insulating layer and forming an outer sheath.

A powered water dispenser is plugged into a vehicle or uses a rechargeable battery. The powered water dispenser is connected to a pump and a portable water source. The powered water dispenser may use a prepackaged water container that contains sterilized, distilled or potable water. Additionally, the transparent water container may use an LED light to view water level in the dark. There may also be notches that indicate water level. Also included may be a heating element to warm the water prior to use.

A delivery unit for dispensing adhesive having a housing, a melting apparatus arranged within the housing for melting the adhesive, a distributing device for dispensing molten adhesive in at least one line connectable to the distributing device, and a pump for conveying the molten adhesive through the distributing device, wherein the housing has a plurality of outer side faces, two of the outer side faces are of a flat configuration and arranged perpendicular to a support plane of the delivery unit on a base and substantially at a right angle to each other, and wherein the distributing device, in a region in which the line is connectable to a connector of the distributing device, has a boundary surface of a flat configuration. The two outer side faces are arranged at a distance apart with the boundary surface therebetween forming an obtuse angle with each of the two outer side faces.

Disclosed herein are adhesive splitter systems and methods for using the same. The adhesive splitter systems comprise a multi-nozzle adapter configured to dispense multiple streams of adhesive onto a substrate. The splitter system can also include an attached adhesive dispenser for providing adhesive to the multi-nozzle adapter.

A fog-generating system (1) is described, comprising: a tank (5) containing fog-generating fluid; a pump (3) connected to the tank (5) to withdraw the fog-generating fluid therefrom; a serpentine (2) connected to the pump (3) to receive the fog-generating fluid pumped by the pump (3), the serpentine (2) being divided into a first section (A) connected to the pump (3) and a second section (B) connected to the first section (A) and designed to emit dry fog (7) as output; a battery (6) connected to the serpentine (2) to pass electric current inside the serpentine (2) and to supply the pump (3); a differential amplifier (11) connected to the second section (B); and a threshold comparator (13) which, upon exceeding a certain voltage, a stop index of the serpentine (2) in the second section (B), breaks the supply to the pump (3).

A powered water dispenser is plugged into a vehicle or uses a rechargeable battery. The powered water dispenser is connected to a pump and a portable water source. The powered water dispenser may use a prepackaged water container that contains sterilized, distilled or potable water. Additionally, the transparent water container may use an LED light to view water level in the dark. There may also be notches that indicate water level. Also included may be a heating element to warm the water prior to use.

The present invention relates to a plumbing fixture and a shower bathing system capable of dispensing water spray and drying air. More specifically, the plumbing fixture has a plurality of nozzles or openings for dispensing water and one or more central air vents for blowing out air. The air is produced by a blower and is carried to the air vents through an air carrying pipe. The showerhead has an integrated timer for calculating the time of water dispensing or cessation and is configured to automatically activate the blowing of air when the elapsed time matches a preconfigured value. The showerhead has proximity sensors for automatically deactivating the dispensing of water and stopping blowing out hot air.

The disclosed technology includes a hose nozzle assembly with apertures sized to facilitate heating groundwater based on the expected temperature of the groundwater. The hose nozzle assembly can have a handheld enclosure having a handle portion connected to a body portion, a heating chamber having a heating element configured to heat a fluid, and a spray nozzle. The spray nozzle can include a first aperture configured to provide a first spray pattern at a first flow rate corresponding to a first change in temperature of fluid flowing through the heating chamber and a second aperture configured to provide a second spray pattern at a second flow rate corresponding to a second change in temperature of fluid flowing through the heating chamber. The second flow rate can be less than the first flow rate and the second change in temperature can be greater than the first change in temperature.