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Cardinali
Bruno Cardinali, Fermo (fm) IT
| Patent application number | Description | Published |
|---|---|---|
| 20110160335 | Biodegradable product obtained from compounds of thermoplastic polymers - A biodegradable product obtained from compounds of thermoplastic polymers is described, comprising: a styrenic block copolymer, a plasticizer, and a biodegradation catalyst, in which the plasticizer is a natural oil and the biodegradation catalyst is a yeast. | 06-30-2011 |
| 20110257294 | Biodegradable polymers and compounds - A method of biodegrading polymeric products is disclosed, which provides for addition of brewer's yeast or yeast mother or a mix of the two in the polymers or compounds that form said polymeric products. | 10-20-2011 |
Jacqueline Cardinali, Seattle, WA US
Joseph Cardinali, Clinton, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20110114445 | ROTATORY SLUG LOADER - A product transfer system includes a first conveyor, a second conveyor, and a rotatable transporter. The first conveyor conveys a series of products along a first axis. The second conveyor is oriented along a second axis. The second axis is spaced below the first axis. The rotatable transporter has a plurality of open compartments. The open compartments are positioned around the rotatable transporter. The rotatable transporter is adapted to move each of the open compartments along a first position, a second position, and a third position, wherein an open compartment of the plurality of open compartments is substantially aligned with the first axis to receive products from the first conveyor when located at the first position, and continues to move after the receiving the products to the second position, wherein the products are dropped on the second conveyor when said open compartment of the plurality of open compartments moves from the second position to the third position. | 05-19-2011 |
Mathew Cardinali, Portsmouth, NH US
| Patent application number | Description | Published |
|---|---|---|
| 20090144918 | Stethoscope cleaning assembly - An assembly structured to clean the head portion of a stethoscope comprising a housing including a path of travel along which the head portion passes during cleaning. A supply of cleaning fluid is associated with a dispenser assembly which is cooperatively disposed relative to an activating assembly. The activating assembly is manually operated due to moveable engagement with the head portion as it travels along the path of travel. The activating assembly is thereby operatively positioned to activate the dispenser assembly when engaged by the head portion as it passes along the path of travel. The dispenser assembly delivers the cleaning fluid to an applicator assembly which distributes the cleaning fluid to the head portion and facilitates the cleaning thereof and removal of excess cleaning fluid there from. | 06-11-2009 |
Mathew Cardinali, Berwick, ME US
| Patent application number | Description | Published |
|---|---|---|
| 20080230099 | Stethoscope cleaning assembly - An assembly structured to clean the head portion of a stethoscope comprising a housing including a path of travel along which the head portion passes during cleaning. A supply of cleaning fluid is associated with a dispensing assembly which is cooperatively disposed relative to an activating assembly. The activating assembly is manually operated due to moveable engagement with the head portion as it travels along the path of travel. The activating assembly is thereby operatively positioned to activate the dispenser assembly when engaged by the head portion as it passes along the path of travel. The dispensing assembly delivers the cleaning fluid to an applicator assembly which distributes the cleaning fluid to the head portion and facilitates the cleaning thereof and removal of excess cleaning fluid there from. | 09-25-2008 |
| 20100116300 | Stethoscope cleaning assembly - An assembly structured to clean the head portion of a stethoscope comprising a housing including a path of travel along which the head portion passes during cleaning. A supply of cleaning fluid is associated with a dispenser assembly which is cooperatively disposed relative to an activating assembly. The activating assembly is manually operated due to moveable engagement with the head portion as it travels along the path of travel. The activating assembly is thereby operatively positioned to activate the dispenser assembly when engaged by the head portion as it passes along the path of travel. The dispenser assembly delivers the cleaning fluid to an applicator assembly which distributes the cleaning fluid to the head portion and facilitates the cleaning thereof and removal of excess cleaning fluid there from. At least one disinfectant agent is dispersed within or comprises a portion of said housing and is formulated to be destructively effective against pathogenic bacteria which is generally not affected by the cleaning fluid. | 05-13-2010 |
| 20100116841 | Stethoscope cleaning assembly - An assembly structured to restrict contamination of individuals from association with the heads of stethoscope comprising a housing including a path of travel along which the head portion passes. Different embodiments include the dispensing of cleaning fluid or the delivery of protective barriers onto predetermined portions of the stethoscope heads, while passing along the path of travel. A dispenser assembly and a cooperatively disposed activating assembly are manually operated by moveable, driving engagement with the head portion passing through the housing. The activating assembly is thereby operatively positioned to activate the dispenser assembly when engaged by a head passing along the path of travel. Differently structured dispenser assemblies function to either deliver the cleaning fluid or individually dispense the barriers onto different heads, so as to either facilitate the cleaning or protective covering of exposed surfaces of the stethoscope heads, dependent on the embodiment utilized. | 05-13-2010 |
Mathew S. Cardinali, Berwick, ME US
| Patent application number | Description | Published |
|---|---|---|
| 20120109155 | HAND OPERATED DEVICE FOR CONTROLLED DEPLOYMENT OF A TISSUE ANCHOR AND METHOD OF USING THE SAME - A tissue anchoring system includes a tissue anchor member that is suitable for anchoring against tissue. The system also includes a tensioning member operatively connected to the anchor member such that the anchor member can slide relative to the tensioning member, the tensioning member capable of being pulled to cause the anchor member to move relative to the tensioning member into a position seated against the tissue. A hand operated deployment catheter is operable to extend and deploy the anchor member therefrom. The deployment catheter includes a rotatable member about which the tensioning member is routed and a clutch assembly for limiting tension within the tensioning member to prevent the deployed anchor from being pulled through the tissue. | 05-03-2012 |
Walter Cardinali, Cerqueto Di Marsciano IT
| Patent application number | Description | Published |
|---|---|---|
| 20110070422 | MICROFIBROUS FABRIC HAVING A SUEDE APPEARANCE, WITHIN THE COLOUR RANGE OF GREY AND BLACK, WITH A HIGH LIGHT FASTNESS, AND PREPARATION METHOD THEREOF - An artificial leather having a suede appearance and colours within the grey-black range and high colour fastness comprising a microfibrous component and an elastomeric matrix; the microfibrous component consisting of polyester microfibres having a count of 0.01 to 0.50 dtex; the elastomeric matrix consisting of polyurethane consisting of soft and hard segments; the ratio between the elastomeric matrix and the microfibrous component ranging from 20/80 and 50/50 by mass; the microfibrous component containing carbon black pigment in a percentage of 0.05 to 2.00% by mass; the elastomeric matrix containing carbon black pigment in a percentage of 0 to 10% by weight; the carbon black always having an average dimension smaller than 0.4 microns. The average length of the tassel is between 200 and 500 microns. The soft segments consist of at least one polycarbonate diol selected from polyalkylene carbonate diols and at least one polyester diol. The hard segments consist of urethane groups deriving from the reaction between free isocyanate groups and water. The total content of carbon black is between 0.025 and 6% by weight. | 03-24-2011 |