A window stabilization system for a window of a vehicle includes a first inflatable bladder positioned adjacent a path along which the window passes such that the inflatable bladder will engage a surface of the window when the window is opened at least a predetermined amount and the inflatable bladder is inflated; an inflator in fluid communication with the first inflatable bladder configured to pump a fluid into the inflatable bladder such that when the first inflatable bladder is inflated a predetermined amount, the first inflatable bladder comes into physical contact with a surface of the window when the window is opened at least a predetermined amount; and a bladder control system to control operation of the inflator in response to data received regarding operation of the window.

A window plate for vehicle includes a metallic member joined via a viscoelastic member on a surface of the window plate. The metallic member and the window plate are electrically connected.

The invention relates to a method for selecting a viscoelastic plastic interlayer including two outer layers and a central layer that can be incorporated between two glass sheets of a glazing unit, the method includes providing first and second components that constitute respectively the central layer and the outer layers, measuring the shear modulus G′ of the first and second components, selecting the material of the second component only if G′≧3×10.sup.7 Pa at 20° C. and between 100 Hz and 240 Hz, and setting the thickness h of the first component so that h is between 0.31 mm and 1.20 mm and so that g=G′/h is between 5.58×10.sup.8 Pa/m and 2.37×10.sup.9 Pa/m at 20° C. and between 100 Hz and 240 Hz.

Systems and methods for mitigating wind throb in vehicles are disclosed herein. An example method includes detecting wind throb in a cabin of a vehicle due to opening of a first window of the vehicle, determining when a seat that is adjacent to a second window of the vehicle is unoccupied, opening the second window when the seat is determined to be unoccupied so as to compensate for the wind throb, determining that the first window has been closed, and closing the second window in response to closing of the first window.

A window stabilization mechanism includes a rail provided on a first cabin frame provided on one side of a window, and has a first end and a second end opposite to the first end in the lengthwise direction of the rail. A sliding member is provided on a windowpane and is configured to slide on the rail. The sliding member is located at a first end when the window is opened and at a second end when the window is closed. A lock mechanism is configured to lock the windowpane to the first cabin frame when the window is closed. A window support member is configured to abut on the windowpane when the window is closed, and to press the windowpane in an oblique direction from the windowpane toward the rail and from the second end toward the first end when the windowpane is locked by a lock mechanism.

A vehicle includes: a vehicle body; a side door provided openably and closably in the vehicle body, the side door including at least a first window opening and a second window opening; first window glass provided in a fixed manner in the first window opening of the side door; and second window glass configured to be manually raised and lowered, the second window glass being provided in the second window opening of the side door. The first window opening is placed ahead of the second window opening in the vehicle front-rear direction, and the first window opening has an area larger than an area of the second window opening.

A vehicle may include a vehicle body, a door, a window frame, a window panel, a lower support and an anti-vibration member. The window panel may be provided in the window frame, configured to be manually raised and lowered, and supported to movable between an upper limit position where the window panel closes an opening of the window frame and a lower limit position where the window panel opens the opening of the window frame. The lower support may include a groove. The groove may be configured to receive a lower edge of the window panel when the window panel is located at the lower limit position. The anti-vibration member may have viscoelasticity, disposed in the groove of the lower support, and configured to hold the window panel from both sides of the window panel.

A vehicle may include a vehicle body, a door, a window frame, a window panel, a lower support and a stopper. The window panel may be provided in the window frame, configured to be manually raised and lowered, and supported to be movable between an upper limit position where the window panel closes an opening of the window frame and a lower limit position where the window panel opens the opening of the window frame. The lower support may include a groove. The groove may be configured to receive a lower edge of the window panel when the window panel is located at the lower limit position. The stopper may be disposed in the groove of the lower support and include an abutting surface configured to abut the lower edge of the window panel, wherein the abutting surface may be curved to protrude upward.

Systems and methods for mitigating wind throb in vehicles are disclosed herein. An example method includes detecting wind throb in a cabin of a vehicle due to opening of a first window of the vehicle, determining when a seat that is adjacent to a second window of the vehicle is unoccupied, opening the second window when the seat is determined to be unoccupied so as to compensate for the wind throb, determining that the first window has been closed, and closing the second window in response to closing of the first window.

A vehicle may include a vehicle body, a door, a window frame, a window panel, a lower support and a stopper. The window panel may be provided in the window frame, configured to be manually raised and lowered, and supported to be movable between an upper limit position where the window panel closes an opening of the window frame and a lower limit position where the window panel opens the opening of the window frame. The lower support may include a groove. The groove may be configured to receive a lower edge of the window panel when the window panel is located at the lower limit position. The stopper may be disposed in the groove of the lower support and include an abutting surface configured to abut the lower edge of the window panel, wherein the abutting surface may be curved to protrude upward.