Dalman
Andrew Thomas Dalman, Fargo, ND US
Patent application number | Description | Published |
---|---|---|
20150352250 | ARTIFICIAL BONE FORMS AND COMPOSITIONS FOR APPROXIMATING BONE - An artificial bone construct which approximates one or more components of a skeletal system, wherein the artificial construct is used in the testing and development of new surgical procedures, ballistics testing, implantable devices, etc., and wherein the artificial construct closely approximates the physical and mechanical properties of one or more components of a skeletal system. The artificial bone construct can be implanted in a human body. | 12-10-2015 |
Austin Lew Dalman, Baldur CA
Patent application number | Description | Published |
---|---|---|
20130318877 | Sliding Cantilever Gate - A sliding cantilevered gates gate panel is carried by posts for sliding movement in the plane of the gate opening with each post having inner and outer parallel post members separated by a central opening within which the gate panel is mounted. The gate panel has a longitudinally extending track member, a plurality of upstanding posts connected to and upstanding from the track member and a top rail connected across top ends of the posts forming together a generally rectangular panel. Each post has support rollers for running along the track and a drive assembly at a post drives a sprocket engaging a chain mounted inside the track member. | 12-05-2013 |
John A. Dalman, Elburn, IL US
Patent application number | Description | Published |
---|---|---|
20090301826 | Railroad freight car brake beam strut assembly and method of manufacturing same - A method of manufacturing a railroad freight car brake beam strut assembly including the steps of: providing a railroad freight car brake beam strut having an axially aligned slot defined between first and second sides of the strut, with each side of the strut defining a bore opening to the slot and to an exterior of the strut, with the bores defined by the strut being aligned relative to each other along an axis extending generally normal to a longitudinal axis of the strut. The methodology of the present disclosure further includes the step of: pressing a brake pin bushing into each bore of the strut in a direction extending away from the longitudinal axis of the strut. A railroad freight car strut assembly is also disclosed. | 12-10-2009 |
20120247886 | RAILROAD FREIGHT CAR BRAKE BEAM STRUT ASSEMBLY AND METHOD OF MANUFACTURING SAME - A method of manufacturing a railroad freight car brake beam strut assembly including the steps of providing a railroad strut having an elongated slot defined between first and second sides of the strut, with each side of the strut defining a bore opening to the slot and to an exterior of the strut. The bores defined by the strut are aligned relative to each other along an axis. The methodology of the present disclosure further includes the step of: pressing a brake pin bushing into each bore of the strut in a direction extending away from the longitudinal axis of the strut with each brake pin bushing having first and second ends, and wherein a periphery of each bushing has a frusto-conical surface configuration. A railroad freight car strut assembly is also disclosed. | 10-04-2012 |
John C. Dalman, Brea, CA US
Patent application number | Description | Published |
---|---|---|
20080211307 | Two-Wire Power And Communications For Irrigation Systems - A large number of irrigation system devices connected to a common two-wire cable can be powered and individually controlled from a central location by transmitting over the cable DC pulses of alternating polarity. Control information is conveyed by transmitting a command pulse train consisting of a series of pulses, separated by short no-power intervals, whose polarities indicate logic ones or zeros. Following a command pulse train, a selected watering station decoder acknowledges receipt of instructions by drawing current during a predetermined pulse of an alternating-polarity power pulse cycle, while a sensor decoder returns binary data by drawing current during one or the other of the alternating-polarity pulses of a series of power pulse cycles. | 09-04-2008 |
Ronald L. Dalman, Portola Valley, CA US
Patent application number | Description | Published |
---|---|---|
20080243168 | System and method for embolic protection - A balloon catheter system distinguishing a proximal balloon catheter system and a distal balloon catheter is provided. The proximal balloon catheter system has a first and a second catheter. These two catheters are positioned side-by-side over at least part of the longitudinal area of their outer surfaces, and they are detachably connected to each other. A first inflatable member is attached to the first catheter near the distal end of the first catheter. The distal balloon catheter distinguishes a catheter part with a distal end and a proximal end, and an exchange rod attached near the proximal end of the catheter part. The catheter part has a second inflatable member encircling the outer surface of the catheter part. The balloon catheter system can be used for example in methods of isolating a segment of a vessel, generating reversal fluid flow and creating an in-vivo shunt with a balloon catheter. | 10-02-2008 |
20120022426 | System and method for embolic protection - A balloon catheter system distinguishing a proximal balloon catheter system and a distal balloon catheter is provided. The proximal balloon catheter system has a first and a second catheter. These two catheters are positioned side-by-side over at least part of the longitudinal area of their outer surfaces, and they are detachably connected to each other. A first inflatable member is attached to the first catheter near the distal end of the first catheter. The distal balloon catheter distinguishes a catheter part with a distal end and a proximal end, and an exchange rod attached near the proximal end of the catheter part. The catheter part has a second inflatable member encircling the outer surface of the catheter part. The balloon catheter system can be used for example in methods of isolating a segment of a vessel, generating reversal fluid flow and creating an in-vivo shunt with a balloon catheter. | 01-26-2012 |