John H Timmons

US Patent:

20120070713, Mar 22, 2012

Filed:

Sep 22, 2011

Appl. No.:

13/239483

Inventors:

J. Kevin Whear - Utica KY, US
John R. Timmons - Owensboro KY, US
Jeffrey K. Chambers - Philpot KY, US
Tejas R. Shah - Burlington MA, US

International Classification:

H01M 2/16
H01M 4/00
C08L 89/00
H01M 2/18
H01M 2/02
B82Y 30/00

US Classification:

429143, 429247, 429252, 429249, 429248, 429145, 524 21, 977707, 977742

Abstract:

In accordance with at least selected embodiments or aspects, the present invention is directed to improved, unique, and/or high performance ISS lead acid battery separators, such as improved ISS flooded lead acid battery separators, ISS batteries including such separators, methods of production, and/or methods of use. The preferred ISS separator may include negative cross ribs and/or PIMS minerals. In accordance with more particular embodiments or examples, a PIMS mineral (preferably fish meal, a bio-mineral) is provided as at least a partial substitution for the silica filler component in a silica filled lead acid battery separator (preferably a polyethylene/silica separator formulation). In accordance with at least selected embodiments, the present invention is directed to new or improved batteries, separators, components, and/or compositions having heavy metal removal capabilities and/or methods of manufacture and/or methods of use thereof.

US Patent:

20210399385, Dec 23, 2021

Filed:

Aug 27, 2021

Appl. No.:

17/458921

Inventors:

- Charlotte NC, US
J. Kevin Whear - Utica KY, US
John R. Timmons - Owensboro KY, US
Jeffrey K. Chambers - Philpot KY, US
Pierre A. Hauswald - Dorlisheim, FR

International Classification:

H01M 50/449
H01M 50/44
H01M 50/411
H01M 50/431
H01M 50/463
H01M 10/12

Abstract:

A battery separator for a lead acid battery addresses the issues of acid stratification and separator oxidation arising from contaminants. The separator includes a microporous membrane and a diffusive mat affixed thereto. The diffusive mat has a three hour wick of: at least about 2.5 cm. The diffusive mat may be made of synthetic fibers, glass fibers, natural fibers, and combinations thereof. The diffusive mat may include silica. The separator may include a rubber.

US Patent:

20190051946, Feb 14, 2019

Filed:

Oct 16, 2018

Appl. No.:

16/161496

Inventors:

- Charlotte NC, US
James P. Perry - Utica KY, US
Jeffrey K. Chambers - Piney Flats TN, US
Larry A. Spickard - Waxhaw NC, US
John R. Timmons - Owensboro KY, US

International Classification:

H01M 10/12
H01M 2/16
H01M 2/14
H01M 4/02

Abstract:

New or improved battery separators for lead-acid batteries that include a carbon or mineral additive applied to the separator. In possibly preferred embodiments, the battery separator may include engineered carbon materials applied to the battery separator to modify sulfate crystal formation while decreasing the detrimental consequences of excessive gas evolution into the negative electrode itself. In one embodiment, a method of enhancing the lead-acid energy storage performance of a lead-acid battery may include delivering carbon to the negative active material surface of the battery separator where the carbon may effectively enhance charge acceptance and improve life cycle performance of a lead-acid battery.

US Patent:

20170077479, Mar 16, 2017

Filed:

Nov 29, 2016

Appl. No.:

15/363591

Inventors:

- Charlotte NC, US
J. Kevin Whear - Utica KY, US
John R. Timmons - Owensboro KY, US
Jeffrey K. Chambers - Philpot KY, US
Pierre A. Hauswald - Dorlisheim, FR

International Classification:

H01M 2/16
H01M 2/18
H01M 10/12

Abstract:

A battery separator for a lead acid battery addresses the issues of acid stratification and separator oxidation arising from contaminants. The separator includes a microporous membrane and a diffusive mat affixed thereto. The diffusive mat has a three hour wick of: at least about 2.5 cm. The diffusive mat may be made of synthetic fibers, glass fibers, natural fibers, and combinations thereof. The diffusive mat may include silica. The separator may include a rubber.

US Patent:

20150318529, Nov 5, 2015

Filed:

May 5, 2015

Appl. No.:

14/704244

Inventors:

- Charlotte NC, US
James P. Perry - Utica KY, US
Jeffrey K. Chambers - Philpot KY, US
Larry A. Spickard - Waxhaw NC, US
John R. Timmons - Owensboro KY, US

International Classification:

H01M 2/16

Abstract:

New or improved battery separators for lead-acid batteries that include a carbon or mineral additive applied to the separator. In possibly preferred embodiments, the battery separator may include engineered carbon materials applied to the battery separator to modify sulfate crystal formation while decreasing the detrimental consequences of excessive gas evolution into the negative electrode itself. In one embodiment, a method of enhancing the lead-acid energy storage performance of a lead-acid battery may include delivering carbon to the negative active material surface of the battery separator where the carbon may effectively enhance charge acceptance and improve life cycle performance of a lead-acid battery.

US Patent:

20140255752, Sep 11, 2014

Filed:

Mar 7, 2014

Appl. No.:

14/200066

Inventors:

- Charlotte NC, US
J. Kevin Whear - Utica KY, US
John R. Timmons - Owensboro KY, US
Jeffrey K. Chambers - Philpot KY, US
Pierre A. Hauswald - Dorlisheim, FR

Assignee:

Daramic, LLC - Charlotte NC

International Classification:

H01M 2/16

US Classification:

429145, 429144

Abstract:

A battery separator for a lead acid battery addresses the issues of acid stratification and separator oxidation arising from contaminants. The separator includes a microporous membrane and a diffusive mat affixed thereto. The diffusive mat has a three hour wick of: at least about 2.5 cm. The diffusive mat may be made of synthetic fibers, glass fibers, natural fibers, and combinations thereof. The diffusive mat may include silica. The separator may include a rubber.