Patents by Inventor Patrick Damizet
Patrick Damizet has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 11578891Abstract: An adjustment device designed to adjust a flow rate of a fluid flowing in a duct, including a body in which an adjustment valve is mounted, movable in rotation about an adjustment axis, the body having an area upstream of the adjustment axis and a downstream area opposite to the upstream area with respect to the adjustment axis, where the adjustment axis is equipped with connecting means which cooperate with at least one first control member positioned in the downstream area and a second control member positioned in the upstream area.Type: GrantFiled: July 24, 2019Date of Patent: February 14, 2023Assignee: ALDES AERAULIQUEInventors: Patrick Damizet, Fabien Bertran, Xavier Loigerot
-
Publication number: 20200033022Abstract: An adjustment device designed to adjust a flow rate of a fluid flowing in a duct, including a body in which an adjustment valve is mounted, movable in rotation about an adjustment axis, the body having an area upstream of the adjustment axis and a downstream area opposite to the upstream area with respect to the adjustment axis, where the adjustment axis is equipped with connecting means which cooperate with at least one first control member positioned in the downstream area and a second control member positioned in the upstream area.Type: ApplicationFiled: July 24, 2019Publication date: January 30, 2020Inventors: Patrick DAMIZET, Fabien BERTRAN, Xavier LOIGEROT
-
Patent number: 9631649Abstract: The invention relates to a device (20) for adjusting a rate of flow of air flowing along an air duct, comprising: a tubular body (22) extending along an axis (24); at least one flap (28) able to pivot about an axis transverse to the axis (24) of the body (22); a ring (34) mounted to pivot on an end portion (22b) of the body (22) about the axis (24) of this body; each flap (28) being provided with a male drive means and the ring (34) being provided with a female drive means, or vice versa, the male drive means and the female drive means being arranged in such a way that, in response to the ring (34) being pivoted about the body (22), the male drive means engages with the female drive means to alter the position of each flap (28) and hence the cross section available for the passage of air.Type: GrantFiled: November 14, 2012Date of Patent: April 25, 2017Assignee: ALDES AERAULIQUEInventor: Patrick Damizet
-
Publication number: 20150153054Abstract: A ventilation opening for an aeration system, in particular of the air admission opening type, of the type comprising a body delimiting an air conveying duct and a flap pivotally mounted on the front facade of the body between a closed position and an open position, and further comprising a system for blocking the flap in the open position and in the closed position, comprising an elastically deformable locking blade that is fastened to the flap and provided with at least two stops and a stopping device incorporated to the front facade of the body and presenting at least two bearing elements, where the locking blade cooperates with a stopping device so that the flap passes from a closed position, wherein a stop of the locking blade bears against a bearing element, to an open position, wherein another stop of the locking blade bears against another bearing element, by initially pushing the flap against the front facade and then by spacing apart the cover from the front facade, and the flap passes from the openType: ApplicationFiled: November 26, 2014Publication date: June 4, 2015Inventors: Alexandre CREDOZ, Patrick DAMIZET
-
Publication number: 20140305528Abstract: The invention relates to a device (20) for adjusting a rate of flow of air flowing along an air duct, comprising: a tubular body (22) extending along an axis (24); at least one flap (28) able to pivot about an axis transverse to the axis (24) of the body (22); a ring (34) mounted to pivot on an end portion (22b) of the body (22) about the axis (24) of this body; each flap (28) being provided with a male drive means and the ring (34) being provided with a female drive means, or vice versa, the male drive means and the female drive means being arranged in such a way that, in response to the ring (34) being pivoted about the body (22), the male drive means engages with the female drive means to alter the position of each flap (28) and hence the cross section available for the passage of air.Type: ApplicationFiled: November 14, 2012Publication date: October 16, 2014Inventor: Patrick Damizet
-
Publication number: 20130098588Abstract: Air-air heat exchanger (1) intended to be fitted to a room double-flow ventilation system comprising a plurality of plates (2) that are superposed to form a stack (3), each plate (2) comprising a plurality of flow channels forming a first air circulation volume (5) for a first air flow. The heat exchanger (1) further comprises spacer means designed to keep the plates (2) a distance apart so as to delimit a space (10) between two adjacent plates (2), these various spaces (10) between plates (2) forming an air circulation volume for a second air flow, first means for closing off the spaces (10) between the plates (2) at the two ends (6, 7) of the exchanger, second closing-off means (13), these second closing-off means (13) comprising, near the ends of the exchanger, two openings (20, 21), one for letting the second air flow in and the other for letting it out.Type: ApplicationFiled: June 17, 2011Publication date: April 25, 2013Applicant: ALDES AERAULIQUEInventors: Patrick Damizet, Xavier Boulanger
-
Patent number: 7248704Abstract: The device for the active sound attenuation of a sound signal propagated in a duct comprises: at least first sensor means for a first sound signal, attenuation actuating means supplying an active sound attenuation signal in response to a selected control signal, an electronic control means generating the active sound attenuation signal for the actuating means. The first sensor means and the actuating means are arranged completely inside the duct opposite one another and at a selected distance from the casing of the duct, the axis of symmetry of the radiation of the actuating means and the axis of symmetry of the first sensor means are substantially parallel to the direction of propagation of the sound signal in the duct, and the actuating means are arranged upstream of the first sensor means in the direction of propagation of the sound signal in the duct.Type: GrantFiled: November 4, 2002Date of Patent: July 24, 2007Assignees: Technofirst, Aldes AerauliqueInventors: Christian Carme, Virginie Delemotte, Pierre Chaffois, Patrick Damizet
-
Patent number: 6699119Abstract: A ventilation unit is provided comprising an electronically driven ventilator, mounted inside a casing wherein emerge several ducts connected to one or several rooms. Said unit further comprises orifices with specific cross-section, and a differential-pressure sensor measuring the difference in pressure between two predetermined points, said value being transmitted to an analysis and control device, which compares the differential pressure value to a reference value and controls the ventilator, such that it accelerates or slows down it rotational speed, so as to maintain the differential pressure constant and equal to the reference value, to maintain the desired flow rate at said orifices.Type: GrantFiled: November 27, 2002Date of Patent: March 2, 2004Assignee: Aldes AerauliqueInventors: Xavier Boulanger, Patrick Damizet
-
Publication number: 20030157882Abstract: The invention concerns a ventilation unit comprising an electrically driven ventilator (3), mounted inside a plenum chamber (2) wherein emerge several ducts (7) connected to one or several rooms. Said unit further comprises orifices with specific cross-section (21, 22, 23), and a differential pressure sensor (9) measuring the difference in pressure between two predetermined points, said value being transmitted to an analyzing and control device (10), which compares the differential pressure value to a reference value and controls the ventilator (3), such that it accelerates or slows down it rotational speed, so as to maintain the differential pressure constant and equal to the reference value, to maintain the desired flow rate at said orifices.Type: ApplicationFiled: November 27, 2002Publication date: August 21, 2003Inventors: Xavier Boulanger, Patrick Damizet
-
Publication number: 20030053635Abstract: The device for the active sound attenuation of a sound signal propagated in a duct comprises: at least first sensor means for a first sound signal, attenuation actuating means supplying an active sound attenuation signal in response to a selected control signal, an electronic control means generating the active sound attenuation signal for the actuating means. The first sensor means and the actuating means are arranged completely inside the duct opposite one another and at a selected distance from the casing of the duct, the axis of symmetry of the radiation of the actuating means and the axis of symmetry of the first sensor means are substantially parallel to the direction of propagation of the sound signal in the duct, and the actuating means are arranged upstream of the first sensor means in the direction of propagation of the sound signal in the duct.Type: ApplicationFiled: November 4, 2002Publication date: March 20, 2003Applicant: TECHNOFIRSTInventors: Christian Carme, Virginie Delemotte, Pierre Chaffois, Patrick Damizet
-
Patent number: 5191673Abstract: This device has a housing 2, a motorized vacuum turbine 4 pneumatically connected to outlet 2b of a housing, and at least one tube 6 whose downstream end 6a terminates in housing 2, and structure 13, 40 connected to upstream end 6b of tube 6 capable of generating a temporary pneumatic pressure wave in the direction of its downstream end 6a. The latter is associated with structure 20, 22 for detecting the pressure wave and acting on module 23 for controlling the power to electric motor 3 of vacuum turbine 4 to start the system operating. The pneumatic pressure wave is conveyed by tube 6 itself from its upstream end 6b to its downstream end 6a, this downstream end being provided with a shutoff flap 18, normally held in the closed position and capable of causing the tube to be opened under the influence of the vacuum flow.Type: GrantFiled: May 23, 1990Date of Patent: March 9, 1993Assignees: Aldes Aeraulique, Societe d'Etudes et de Recherche de Ventilation et d'Aeraulique S.E.R.V.A.Inventor: Patrick Damizet