Marcia Mary Ketcha - Cincinnati OH, US Pedro Antonio Rodriguez - Sanibel FL, US Todd Laurence Underiner - Cincinnati OH, US Lowen Robert Morrison - Cincinnati OH, US Dennis Allen Beckholt - Kettering OH, US Robert Stanley Dirksing - Cincinnati OH, US David Burton Moore - Hamilton OH, US Kendal William Kerr - Okeana OH, US James Douglas Still - Cincinnati OH, US Peter Blenkiron - Egham, GB Fernando Benvegnu - Kobe, JP John Patrick Herlinger - Germantown OH, US Charles Winston Saunders - Fairfield OH, US Andrew Wilson - Sandhurst, GB
Methods and devices for repelling insects are disclosed. The methods and devices provide personal protection from insect bites and insect landings, particularly mosquito bites. The methods and devices employ insect repellents such as pyrethroids at low (parts per billion) levels. The methods and devices effectively minimize the number of mosquitoes landing on a subject properly using the devices.
Methods And Personal Protection Devices For Repelling Insects
Marcia Mary Ketcha - Cincinnati OH, US Pedro Antonio Rodriguez - Sanibel FL, US Todd Laurence Underiner - Cincinnati OH, US Lowen Robert Morrison - Cincinnati OH, US Dennis Allen Beckholt - Kettering OH, US Robert Stanley Dirksing - Cincinnati OH, US David Burton Moore - Hamilton OH, US Kendal William Kerr - Okeana OH, US James Douglas Still - Cincinnati OH, US Peter Blenkiron - Surrey, GB Fernando Benvegnu - Kobe, JP John Patrick Herlinger - Germantown OH, US Charles Winston Saunders - Fairfield OH, US Andrew Wilson - Sandhurst, GB
Methods and devices for repelling insects are disclosed. The methods and devices provide personal protection from insect bites and insect landings, particularly mosquito bites. The methods and devices employ insect repellents such as pyrethroids at low (parts per billion) levels. The methods and devices effectively minimize the number of mosquitoes landing on a subject properly using the devices.
Methods And Personal Protection Devices For Repelling Insects
Marcia Ketcha - Cincinnati OH, US Pedro Rodriguez - Sanibel FL, US Todd Underiner - Cincinnati OH, US Lowen Morrison - Cincinnati OH, US Dennis Beckholt - Kettering OH, US Robert Dirksing - Cincinnati OH, US David Moore - Hamilton OH, US Kendal Kerr - Okeana OH, US James Still - Cincinnati OH, US Peter Blenkiron - Egham, GB Fernando Benvegnu - Sumiyoshi Yamate, JP John Herlinger - Germantown OH, US Charles Saunders - Fairfield OH, US Andrew Wilson - Sandhurst, GB
Methods and devices for repelling insects are disclosed. The methods and devices provide personal protection from insect bites and insect landings, particularly mosquito bites. The methods and devices employ insect repellents such as pyrethroids at low (parts per billion) levels. The methods and devices effectively minimize the number of mosquitoes landing on a subject properly using the devices.
John Chan - Loveland OH, US Aleksey Pinyayev - West Chester OH, US Lowen Morrison - Cincinnati OH, US
International Classification:
A61C017/22
US Classification:
015022100, 433029000
Abstract:
Disclosed is an electrical connector having particular application in an oral care implement having a removable and/or replaceable head. In particular, an electric toothbrush having a removable brush head and/or head and neck assembly and a severable electrical connector is disclosed in which the brush head includes one or more elements requiring a source of electrical power. The severable electrical connector provides electrical communication between the brush head and a power source retained within the handle or handle portion of the toothbrush.
Method Of Using An Ultrasonic Spray Apparatus To Coat A Substrate
Ke-Ming Quan - West Chester OH, US Gary James Dechert - Fairfield OH, US LuFang Wen - Mason OH, US Lowen Robert Morrison - Cincinnati OH, US Ronald Edward Pegoli - Cincinnati OH, US Stephen Robert Glassmeyer - Cincinnati OH, US
International Classification:
B05B 17/04
US Classification:
239 4
Abstract:
A method to eject a fluid from a surface. The steps of the method are i.) vibrating a surface of a nozzle in a direction substantially normal to the surface and ii.) providing an amplitude of the vibration that is equal to or greater than about 120 microns.
Ke-Ming Quan - West Chester OH, US Gary James Dechert - Fairfield OH, US LuFang Wen - Mason OH, US Lowen Robert Morrison - Cincinnati OH, US Ronald Edward Pegoli - Cincinnati OH, US Stephen Robert Glassmeyer - Cincinnati OH, US
International Classification:
B05B 1/00
US Classification:
2391021
Abstract:
An ultrasonic nozzle for applying a coating to an exterior surface of a substrate. The ultrasonic nozzle has an ultrasonic nozzle having an amplitude. The amplitude is greater than 120 microns.
Ke-Ming Quan - West Chester OH, US Gary James Dechert - Fairfield OH, US LuFang Wen - Mason OH, US Lowen Robert Morrison - Cincinnati OH, US Ronald Edward Pegoli - Cincinnati OH, US Stephen Robert Glassmeyer - Cincinnati OH, US
International Classification:
B05B 17/06
US Classification:
2391022
Abstract:
Field is ejected from a surface of an apparatus. The apparatus comprises a.) a power supply operating at a frequency; b.) a transducer, which upon being applied the power is made to vibrate with a first amplitude; c.) a vibrating nozzle, comprising the surface, which is acoustically coupled to the transducer, to transmit the transducer vibration to the surface with a second amplitude; and, d.) a control unit to control the power supply applied to the transducer. The fluid is delivered to the surface of the nozzle. During this time the control unit cycles the power applied to the transducer at the frequency between a low power level and a high power level. The fluid is ejected from the surface when the high power level (i.e., first power level) is applied to the transducer but not when the low power level (i.e., second power level) is applied to the transducer.
Tea Concentrate Having Freeze Thaw Stability And Enhanced Cold Water Solubility
Scott W. Syfert - Cincinnati OH Lora L. Spangler - Myerstown PA Lowen R. Morrison - Hamilton OH
Assignee:
The Procter & Gamble Company - Cincinnati OH
International Classification:
A23F 316
US Classification:
4263303
Abstract:
A tea concentrate which is stable against flake formation during cyclic freezing and thawing and which has enhanced solubility in cold water is disclosed. The tea concentrate comprises from about 0. 4 to about 8% by weight tea solids, an edible gum selected from xanthan gum, cellulose gums, locust bean gum, guar gum and mixtures thereof in specified amounts, and optionally a solubilizer selected from the sugars, the polyols and mixtures thereof in specified amounts. The tea concentrate has a pH of about 4. 6 or less at 20. degree. C. and is therefore stable against the growth of most microbial pathogens without the use of preservatives. Tea beverages prepared from this tea concentrate also have low astringency, fresh brewed tea flavor, and an enhanced mouthfeel.