Ari M. Hukki - Edgewood KY Keith J. King - Owenton KY
Assignee:
M-I L.L.C. - Houston TX
International Classification:
B07B 149
US Classification:
209405, 209408, 209269, 209411, 209412
Abstract:
A screen system employs a resiliently mounted housing, a vibration generator mounted to the housing, a mounting frame fixed to the resiliently mounted housing and a support surface. This system receives a screen including a screen frame and pre-tensioned screen cloth. The frame includes an inwardly extending mounting flange accessible from below the screen when placed in the housing. Clips pivotally mounted relative to the mounting frame include a first rounded lever extending upwardly to selectively engage the inwardly extending mounting flange. Second levers extend downwardly to cooperate with actuators. The actuators include inflatable bodies with contacts which, upon inflation, force the clips to engage the inwardly extending mounting flanges. This engagement retains the screen on a resiliently mounted housing and is able to further tension the screen in place.
Ari M. Hukki - Edgewood KY, US Keith J. King - Owenton KY, US
Assignee:
M-I, L.L.C. - Houston TX
International Classification:
B07B001/49 B07B001/36
US Classification:
209405, 209309, 209331
Abstract:
A screen system employs a resiliently mounted housing, a vibration generator mounted to the housing, a mounting frame fixed to the resiliently mounted housing and a support surface. This system receives a screen including a screen frame and pre-tensioned screen cloth. The frame includes an inwardly extending mounting flange accessible from below the screen when placed in the housing. Clips pivotally mounted relative to the mounting frame include a first rounded lever extending upwardly to selectively engage the inwardly extending mounting flange. Second levers extend downwardly to cooperate with actuators. The actuators include inflatable bodies with contacts which, upon inflation, force the clips to engage the inwardly extending mounting flanges. This engagement retains the screen on a resiliently mounted housing and is able to further tension the screen in place.
Ari Hukki - Edgewood KY, US Keith King - Owenton KY, US
International Classification:
B07B001/49
US Classification:
209405000, 209409000
Abstract:
A screen system employs a resiliently mounted housing, a vibration generator mounted to the housing, a mounting frame fixed to the resiliently mounted housing and a support surface. This system receives a screen including a screen frame and pre-tensioned screen cloth. The frame includes an inwardly extending mounting flange accessible from below the screen when placed in the housing. Clips pivotally mounted relative to the mounting frame include a first rounded lever extending upwardly to selectively engage the inwardly extending mounting flange. Second levers extend downwardly to cooperate with actuators. The actuators include inflatable bodies with contacts which, upon inflation, force the clips to engage the inwardly extending mounting flanges. This engagement retains the screen on a resiliently mounted housing and is able to further tension the screen in place.
Azar M. Hazrati - Maineville OH Bradley N. Jones - Walton KY Keith J. King - Owenton KY
Assignee:
Emerson Electric Co. - St. Louis MO
International Classification:
B01D 2430 B01D 2512 B07B 128 B07B 134
US Classification:
210388
Abstract:
A vibratory separator having a resiliently mounted housing with a vibratory drive. A screen extends across the housing and a cover is positionable over the screen. The screen includes a discharge port therethrough aligned with a discharge passage for removing material from the top of the screen from the system. Another discharge passage cooperates with a manifold plate extending across the separator beneath the screen. An access port is provided through the cover and arranged to receive a discharge plug which can selectively close the discharge hole through the screen. In operation, separating or dewatering is first accomplished, the energy level of the vibration is reduced and a vacuum is drawn above the screen. Bleed air is allowed into the separator below the screen with a restricted flow so that a vacuum can be drawn. Once the material has dried, the vibrational energy can be increased and the plug removed from the hole through the screen.
Azar M. Hazrati - Maineville OH Bradley N. Jones - Walton KY Keith J. King - Owenton KY
Assignee:
Emerson Electric Co. - St. Louis MO
International Classification:
G01D 2430
US Classification:
210388
Abstract:
A vibratory separator having a resiliently mounted housing with a vibratory drive. A screen extends across the housing and a cover is positionable over the screen. The screen includes a discharge port therethrough aligned with a discharge passage for removing material from the top of the screen from the system. Another discharge passage cooperates with a manifold plate extending across the separator beneath the screen. An access port is provided through the cover and arranged to receive a discharge plug which can selectively close the discharge hole through the screen. In operation, separating or dewatering is first accomplished, the energy level of the vibration is reduced and a vacuum is drawn above the screen. Bleed air is allowed into the separator below the screen with a restricted flow so that a vacuum can be drawn. Once the material has dried, the vibrational energy can be increased and the plug removed from the hole through the screen.
Azar M. Hazrati - Maineville OH Bradley N. Jones - Walton KY Keith J. King - Owenton KY
Assignee:
Emerson Electric Co. - St. Louis MO
International Classification:
B01D 2102
US Classification:
210411
Abstract:
A vibratory separator having a resiliently mounted housing with a vibratory drive. A screen extends across the housing and a cover is positionable over the screen. The screen includes a discharge port therethrough aligned with a discharge passage for removing material from the top of the screen from the system. Another discharge passage cooperates with a manifold plate extending across the separator beneath the screen. An access port is provided through the cover and arranged to receive a discharge plug which can selectively close the discharge hole through the screen. In operation, separating or dewatering is first accomplished, the energy level of the vibration is reduced and a vacuum is drawn above the screen. Bleed air is allowed into the separator below the screen with a restricted flow so that a vacuum can be drawn. Once the material has dried, the vibrational energy can be increased and the plug removed from the hole through the screen.
New Braunfels, TX Poway, CA. Wichita, KS Fort Worth, TX Pembroke Pines, FL Boynton Beach, FL Clearwater, FL Greensboro, NC Willow Grove, PA Packanack Lake, NJ Tucson, AZ
Work:
Gulfstream Aerospace - Sr. Avionics Tech (2004) Boeing Aerospace - Avionics Technician (2003-2004) Spirit Aviation Services - Avionics Manager (2001-2003) Boeing Aerospace - Avionics Lead Technician (1997-2001)
Education:
National Institute of Technology - Electronics Engineering
Tagline:
Transplanted Texan living in Boynton Beach since 2004. Lovin' the beach life.Gulfstream Aero space, Inc