Resumes
Resumes
Chris Storlie
View pageLocation:
United States
Chris Storlie Phones & Addresses
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2367 E Ridge Rd, Decorah, IA 52101 (563) 382-0258
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2741 Iawinn Rd, Decorah, IA 52101 (563) 580-2053
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Boise, ID
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20333 County 8, Spring Grove, MN 55974
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2367 E Ridge Rd, Decorah, IA 52101
Work
Company:
Deco products company, lllp
Address:
506 Sanford St, Decorah, IA 52101
Phones:
(563) 382-4264
Position:
Assistant general manager
Industries:
Nonferrous Die-Castings, Except Aluminum
Business Records
Name / Title
Company / Classification
Phones & Addresses
Assistant General Manager
Deco Products Company, Lllp
Nonferrous Die-Castings, Except Aluminum
Nonferrous Die-Castings, Except Aluminum
506 Sanford St, Decorah, IA 52101
CEO
Deco Products
Motion Picture and Video Tape Production
Motion Picture and Video Tape Production
506 Sanford Street, Decorah, IA 52101
Assistant General Manager
Deco Products Company, Lllp
Nonferrous Die-Castings, Except Aluminum
Nonferrous Die-Castings, Except Aluminum
506 Sanford St, Decorah, IA 52101
CEO
Deco Products
Motion Picture and Video Tape Production
Motion Picture and Video Tape Production
506 Sanford Street, Decorah, IA 52101
Assistant General Manager
Deco Products Company, LLLP
Other Nonferrous Foundries, Exc Die-Casting
Other Nonferrous Foundries, Exc Die-Casting
506 Sanford St, Decorah, IA 52101
(563) 382-4264, (563) 382-9845, (800) 327-9751, (319) 382-4264
(563) 382-4264, (563) 382-9845, (800) 327-9751, (319) 382-4264
Publications
Us Patents
Media Edge Sensor Utilizing A Laser Beam Scanner
View pageUS Patent:
52529916, Oct 12, 1993
Filed:
Dec 17, 1991
Appl. No.:
7/811763
Inventors:
Chris A. Storlie - Boise ID
Edwin Hirahara - Boise ID
Edwin Hirahara - Boise ID
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
G03G 2100
G01D 942
G01D 942
US Classification:
346108
Abstract:
A system is described for providing positional information regarding a media sheet in an image forming apparatus. The system includes a laser for providing a beam of collimated light and a mechanism for moving a media sheet along an imprinting path. Beam sensors are placed in the imprinting path, and positioned so as to be partially shaded by a media sheet when it is moved along the imprinting path. A scanning system moves the light beam across the media sheet and past its edges to cause the beam to fall on the beam sensors, when the media sheet is partially shadowing the beam sensors. A processor is responsive to outputs from the beam sensors to determine positional information regarding the media sheet. Positional information is derived by determining the time during which the scanned beam is incident on a sensor.
Force Transferring Magnetic Actuator Apparatus And Method
View pageUS Patent:
53990374, Mar 21, 1995
Filed:
Jun 29, 1993
Appl. No.:
8/084378
Inventors:
Chris A. Storlie - Boise ID
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
B41J 1980
US Classification:
400572
Abstract:
A magnetic actuator apparatus which transfers a magnetic force produced by a solenoid to a movable arm. The arm is movable between an engaged position spaced away from the solenoid and a solenoid position abutting the solenoid. The arm has a bore formed therein opposite the solenoid. A magnetic member is slidingly received in the bore. The magnetic member is spaced away from the solenoid a distance less than the arm when the arm is in the engaged position and abuts the solenoid when the arm is in the solenoid position. A head is connected to the magnetic member on the side of the arm opposite the solenoid to prevent the magnetic member from passing through the bore. The head transfers the force applied to the magnetic member to the arm when the solenoid is energized. The arm and the magnetic member move in unison until the magnetic member abuts the solenoid at which point the arm moves relative to the magnetic member until the arm reaches the solenoid position.
Developing Housing Having A Plurality Of Angled Ribs
View pageUS Patent:
54953197, Feb 27, 1996
Filed:
Jun 6, 1994
Appl. No.:
8/254343
Inventors:
Chris A. Storlie - Spring Grove MN
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
G03G 1509
US Classification:
355245
Abstract:
An arrangement for moving a developer material along the developer axis where a bulk of the developer material is stored in a reservoir located on one side of the developer. The developer consists of the reservoir and a housing having a cavity extending along the developer axis. Several angled ribs are formed inside the cavity. A magnetically transparent sleeve resides inside the cavity and is rotated about the axis. Finally a magnetic element placed inside the sleeve magnetically attracts the developer material toward the sleeve such that the rotation of the sleeve induces the rotation in the developer material. As the developer material comes into contact with the angled ribs, the rotation of the developer material is translated into a lateral motion along the axis by the angled ribs.
Method And System For Compensating For Paper Shrinkage And Misalignment In Electrophotographic Color Printing
View pageUS Patent:
50936743, Mar 3, 1992
Filed:
Aug 2, 1990
Appl. No.:
7/561831
Inventors:
Chris A. Storlie - Boise ID
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
H04N 121
US Classification:
346108
Abstract:
A method and system for controlling the alignment and registration of color images such as those of cyan, yellow, magenta, and black (C, Y, M, K) which are successively printed on a photoconductive drum and then transferred from the drum to paper during electrophotographic color printing. Each scccessive color image printed on paper is fused therein, and then vertical, horizontal and angular error signals are generated after each fusion. These error signals represent the difference between an original image reference position and the image position after each color image fusion into the paper. These error signals are then processed in a closed loop feedback control system in such a manner as to control the position and scan rate of a laser beam being projected onto the photoconductive drum to thereby cause the next-printed color image to be aligned with the previously printed color image. In this manner, the electro-optical control of each successively printed latent image formed on the photoconductive drum is responsible for the above alignment and paper correction without requiring complex mechanical schemes to accomplish same.
Image Development And Transfer Apparatus Which Utilized An Intermediate Transfer Film
View pageUS Patent:
52912515, Mar 1, 1994
Filed:
Dec 17, 1992
Appl. No.:
7/992394
Inventors:
Chris A. Storlie - Boise ID
Thomas Camis - Boise ID
James G. Bearss - Boise ID
Thomas Camis - Boise ID
James G. Bearss - Boise ID
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
G03G 1514
US Classification:
355271
Abstract:
Image development and transfer apparatus for use in electrophotographic color printers and including a photoconductor, such as either a photoconductive drum or belt, which is spaced from sources of liquid color toners. An intermediate transport film is driven around a section of the photoconductor surface and between this surface and the sources of liquid color toners. Thus, the latent image developed on the surface of the photoconductor is transferred from the surface of the photoconductor to the outer surface of the intermediate transport film where the composite color image is developed. Then, this composite color image is transferred directly onto a print receiving media. Consequently, the photoconductor is not exposed to heat or carrier fluids during the image transfer and development process. This novel feature not only improves overall print quality on the printed media, but additionally extends the useful lifetime of the photoconductor. In a preferred embodiment of the invention, the intermediate transfer film is passed into contact with a conditioning squeegee roller of a selected material during each pass around the photoconductor in order to compress the developed image on the film and enhance the image quality thereof.
Electrophotographic Color Printer Using Grit Wheels For Imparting Linear Motion To The Printed Media
View pageUS Patent:
52125327, May 18, 1993
Filed:
May 15, 1992
Appl. No.:
7/883844
Inventors:
Chris A. Storlie - Boise ID
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
G03G 1501
US Classification:
355326
Abstract:
A color printer and method of operation wherein a plurality of color toners located within a fixed position carousel are transferred to the surface of a photoconductive drum. The media on which a printed image is to be formed is mounted on a stationary platform beneath the photoconductive drum, and the printed media is driven linearly back and forth on the fixed position platform during the formation of each of the cyan, yellow, magenta, and black color planes on the media. Then the media containing thee composite cyan, yellow, magenta, and black color image is passed through a pair of fuser rollers wherein the composite color image is fused into the media before the media is passed to an output media collection bin. During the above operation, the media supporting platform moves vertically in and out of contact with the photoconductive drum, allowing a pair of grit wheels to linearly move the paper within the printer housing and along the surfaces of contoured paper guides at each end of the platform. This feature minimizes the linear path of media travel in the printer, and in turn enables a significant reduction in the linear media travel dimension of the color printer.
Continuously Variable Resolution Laser Printer
View pageUS Patent:
52393135, Aug 24, 1993
Filed:
Jul 24, 1992
Appl. No.:
7/920213
Inventors:
Kurt R. Marko - Boise ID
Chris A. Storlie - Boise ID
Chris A. Storlie - Boise ID
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
H04N 121
US Classification:
346108
Abstract:
Disclosed is a laser printer (100) which employs existing mechanical and electrical components by using a method which trades print resolution for paper speed. By changing various combinations of the laser spot size, paper motion speed, V. sub. p, video data rate, f. sub. d, and scanner speed,. omega. sub. s, printer resolutions between 75 DPI and 900 DPI are simultaneously possible in both the horizontal and the vertical directions using existing engines such as the Canon LBRLX laser engine with only slight modifications.
Fuser Method And Apparatus For Reducing Media Curl In Electrophotographic Printers
View pageUS Patent:
52453936, Sep 14, 1993
Filed:
Sep 12, 1991
Appl. No.:
7/758011
Inventors:
Chris A. Storlie - Boise ID
Richard F. Beaufort - Boise ID
Richard F. Beaufort - Boise ID
Assignee:
Hewlett-Packard Company - Palo Alto CA
International Classification:
G03B 1506
US Classification:
355290
Abstract:
A combination fusing and media direction control method and apparatus wherein a fuser roller is positioned adjacent to a pair of idler pressure rollers located at predetermined locations adjacent to the surface of the motor driven fuser roller which is operative to receive printed media from a photo-conductive drum within a printer housing. The printed media enters a location between the surface of the fuser roller and one of the idler pressure rollers where it then traverses an approximately 90. degree. contoured path around approximately one-quarter (1/4) of the surface area of the fuser roller where it then exits the fuser roller at the intersection of the fuser roller and the second idler pressure roller. From this point, the direction of media travel is maintained substantially in a horizontal direction until the time the media comes to rest in an output paper collection tray of the printer. A deflection baffle member is provided adjacent the location of the fuser roller and the second idler pressure roller to provide a slight vertical deflection of the fused media so as to maintain its direction of travel into the output paper collection tray substantially flat or horizontal, thereby maintaining the media in the substantially flat or horizontal position over the entire length of the time that the fused paper is being cooled after leaving the fuser roller.