Providence Cancer Institute 22301 Foster Winter Dr 1 Fl, Southfield, MI 48075 2488493321 (phone), 2488498448 (fax)
Saint John Providence Physician NetworkAssarian Cancer Center 47601 Grand Riv Ave, Novi, MI 48374 2484654300 (phone), 2484655471 (fax)
Education:
Medical School Wayne State University School of Medicine Graduated: 1981
Conditions:
Anxiety Phobic Disorders Benign Prostatic Hypertrophy Calculus of the Urinary System Erectile Dysfunction (ED) Hypertension (HTN)
Languages:
Arabic Chinese English
Description:
Dr. Mc Laughlin graduated from the Wayne State University School of Medicine in 1981. He works in Southfield, MI and 1 other location and specializes in Radiation Oncology. Dr. Mc Laughlin is affiliated with Providence Hospital and University Of Michigan Hospitals & Health Center.
License Records
Patrick J Laughlin Rp
License #:
7740 - Active
Category:
Pharmacy
Issued Date:
Feb 1, 1967
Effective Date:
Mar 30, 2015
Expiration Date:
Jan 1, 2018
Type:
Pharmacist
Us Patents
Spool Assembly With Integrated Link-Wire And Electrical Terminals For Non-Explosive Actuators Used In Electro-Mechanical Structural Separation Devices
Andrew Holt - Camarillo CA Jui-Yu Wu - Irvine CA Matthew Dalton - Moorpark CA Patrick Laughlin - Thousand Oaks CA
Assignee:
GH Technology, Inc. - Camarillo CA
International Classification:
G05G 1700
US Classification:
337401, 337 1, 337 5, 337140, 74 2, 403 2, 403 28
Abstract:
An improved spool assembly for non-explosive actuators used in electro-mechanical structural separation devices. The spool assembly includes two spool halves each having external surfaces and a generally flat internal surface, a unitary and integral internal member made of an electrically conductive material and having a link-wire portion and two electrical terminal portions, and an external wrap-wire wound around the two spool halves and having a connecting end connected to the link-wire portion of the unitary and integral internal member such that the wrap-wire tightly binds the two spool halves together to form a spool for retaining an external structural member. When an electrical current of a sufficient magnitude is applied through the electrical terminal portions of the unitary and integral internal member, the link-wire portion of the unitary and integral internal member will be heated, which reduces its tensile strength to a magnitude below a tensile stress exerted thereon by the connecting end of the wrap-wire, causing the link-wire portion of the unitary and integral internal member to be broken, which in turn causes the wrap-wire to be loosened, allowing the two spool halves to separate apart which permits displacement of the external structural member.
Jui-Yu Wu - Irvine CA, US Patrick Laughlin - Thousand Oaks CA, US
Assignee:
G&H Technology, Inc. - Camarillo CA
International Classification:
B66C001/28
US Classification:
294 8224, 294 8235, 294905
Abstract:
A high-load capability non-explosive cable release mechanism for retaining the adjacent ends of two cables and releasing them upon receiving a signal from a remote source. The cable release mechanism has a casing for housing two non-explosive actuators (NEAs), which also has a center bore for housing a jaw and ramp assembly. Each NEA is connected to the jaw and ramp assembly for independently operating the jaw and ramp assembly to retain or release the proximal ends of the two cables. Upon receiving the signal by any one or both of the NEAs, the jaw and ramp assembly will release the adjacent ends of the two cables from the casing.
Lanyard connectors for release of an ordinance are provided. The lanyard connectors include a coupling sleeve and locking ring movable between a first position and a second position. The lanyard connectors also include a latching spring and a reset spring. The latching spring is partially disposed within a groove in the locking ring in the first position, and removed from the groove in the second position. The reset spring is held in place by a connector cover and interfaces with a second groove in the locking ring. The reset spring is compressed in the second position. The lanyard connectors allow for release of an ordinance receptacle when in the second position. Methods of using the connectors are also provided.
An adjustment assembly to quickly and efficiently adjust the length of a lanyard used in conjunction with aircraft umbilical connector release mechanisms. The lanyard cable includes at least two retaining mechanisms spaced apart thereon. The adjustment assembly includes a cam portion that retains one of the retaining mechanisms when in the locked position, and allows movement of the retaining mechanisms through the adjustment assembly when in the released position. The cable length can be adjusted when in the released position.
A densely populated micro miniature connector includes a plug and a receptacle configured to securely mate with each other. Connector plugs include an insert assembly having at least one double-ended pin, a housing, and a coupling ring. Connector receptacles include an insert assembly having at least one spring probe and a housing. The double-ended pin contacts the spring probe when the plug and the receptacle are connected.
A connector spring includes a ring and a plurality of protruding segments protruding radially out from the ring. Each protruding segment of the plurality of protruding segments includes a first spring finger extending out from the protruding segment and a second spring finger extending out from the protruding segment. The first spring finger and the second spring finger angularly extend away from each other on a first side of the ring. The connector spring further includes a plurality of dimples protruding out on a second side of the ring.
A non-explosive tension release actuation device includes an initiator system and a housing base attached to the initiator system. The device also includes a carriage assembly positioned at least partially within the housing base. The carriage assembly includes a carriage unit, a first jaw, a second jaw, a first rocker arm, and a second rocker arm. The first rocker arm and the second rocker arm are attached to the carriage unit and to the initiator system. The device further includes a load attachment unit positioned at least partially within the carriage unit and between the first jaw and the second jaw. The first jaw and the second jaw are configured to swing away from the load attachment unit in response to a downward motion of the carriage unit relative to the housing base.
Isbn (Books And Publications)
Planting Flowers, Pulling Weeds: Identifying Your Most Profitable Customers to Ensure a Lifetime of Growth