This application is the national stage application of PCT Patent Application No. PCT/GB2010/001616 filed Aug. 26, 2010, and entitled, “Window Systems for Vehicles,” which claims priority to United Kingdom Application No. GB 0914921.2 filed Aug. 26, 2009, both of which are hereby incorporated by reference herein in their entireties
The present invention relates to window systems for vehicles, window control systems and vehicle window seals.
It is known to prove a motor car with frameless windows on the driver and passenger doors in which there is no frame member engaging along a top edge of these windows when the associated door is open. When the door is open, the window can be raised to a position which is slightly below the fully closed position. Then, when the door is shut, the window is raised to a fully closed position in which it seals into a seal extending along the bodywork of the vehicle above the window. Later, when the door handle is operated to open the door, the window is lowered out of the seal to enable the door to be opened without interference between the seal and window during this process. This arrangement can allow fairly good sealing, but the window can only move at a finite speed and there is a delay in time between when the door handle is operated and when the door can actually be opened. Furthermore, in some cases of total vehicle power failure or when emergency vehicle evacuation is desirable it may not always be particularly easy to open the vehicle doors.
The present invention aims to alleviate at least to a certain extent problems of the prior art, to improve upon the prior art at least to a certain extent or generally to provide useful systems.
According to a first aspect of the present invention there is provided a window system for a vehicle, the system comprising an openable window and a controller for controlling positions of the window, the controller being arranged for controlling the window to a first closed position when a first condition occurs and to a second closed position when a second condition occurs. This has been found to be highly advantageous since it is possible to provide a first closed position in which the window is firmly closed and is highly watertight and wind tight for minimising drafts and noise, and a second closed position may be provided in which the window is just closed thereby enabling a door to which the window is attached to be opened quickly, or at least without undesirably noticeable grabbing of the window on a seal thereof, due to a small amount of window movement being necessary before the door can open while at the same time being sufficiently prepared and watertight against the elements such as rain or smoke when the vehicle is parked.
According to a further aspect of the invention there is provided a window control system for a vehicle having an openable window, the control system comprising a controller for controlling positions of the window, the controller being arranged for controlling the window to a first closed position when a first condition occurs and to a second closed position when a second condition occurs.
In an embodiment, the window is slideable in a vehicle door and has a top edge arranged to seal with a window seal, the window having a greater insertion into the seal in the first closed position than in the second closed position. The window seal may extend longitudinally along the top edge and may be fixed to bodywork of the vehicle above the window, such as a cant rail.
The seal may have an outer portion extending therealong and the top edge may be inserted about 5 mm into the seal past the outer portion when the window is in the second position. The seal may be generally U-shaped and inverted and may be in at least two or three separate parts for sealing on top of the window with the outer portion engaged against an outer face of the window in the region of the top edge.
The window may be generally planar or slightly curved, such as convex when viewed from the outside.
The seal may have an outer portion extending therealong and the top edge may be inserted about 9 mm into the seal past the outer portion when the window is in the first position.
The insertion amounts in the first and second positions may be tuneable. An insertion of 5 mm+ or −2 mm or 5 mm+ or −1 mm or + or −½ mm in the second position has been found to provide good sealing against the elements while also allowing the top edge of the window to be retracted past the window seal to enable the door to be opened relatively soon after actuating a door handle associated with the door and with no undesirable window grabbing by the seal. An insertion level of 9 mm+ or −3 mm, or 9 mm+ or −2 mm or 9 mm+ or −1 mm when the window is in the first position has been found to enable a very affective seal to be achieved without drafts and with minimum wind noise ensured when the vehicle is being used.
The controller may be arranged to move the window to the first closed position in response to vehicle motion. Accordingly, when the vehicle is parked, the window may be in the second closed position and then when the vehicle begins to move or exceeds a certain speed the window may be raised or otherwise move to the first closed position. A vehicle speed sensor may be provided in which case the controller may be arranged to move the vehicle to the first position when the speed sensor detects speed exceeding a predetermined speed. This predetermined speed may be approximately 5 to 10 kilometers per hour and may be the same speed as a speed at which vehicle door locks are set locked.
The system may include a door handle sensor arranged to provide an indication upon door handle actuation and the controller, upon door handle actuation, may be arranged to control the window to a third position which is an open position in which the door may be opened. Accordingly, when the vehicle has been used and has been in motion and the window is in the first closed position, or when the vehicle has been parked and the window has been in the second position, actuation of the door handle may cause the door handle sensor to send a signal to the controller to enable the controller to control the window to the third, open position. In the third position, the window may be opened or dropped approximately to a position 18 mm below the second closed position, or this may be thought of as a position 13 mm opened or dropped below the vehicle cant rail or the bottom edge of a seal attached to the vehicle for sealing against an outside surface of the window. This therefore allows the door to be easily and quickly opened or slammed shut without causing sudden undesirable pressure changes which may otherwise be felt to be uncomfortable on the ears of occupants in the vehicle. This drop position may be at 13 mm+ or −5 mm below the vehicle cant rail, a seal or bodywork which would block door opening by interfering with the window (which may also be called the nominal cant rail position), more preferably 13 mm+ or −2 mm or 13 mm+ or −1 mm.
In an embodiment, the controller is arranged to control the window to the third position via a fourth position in which the window is further opened than in the third position. In the fourth position, the window may be approximately 5 mm below its position in the third position. This spooling method, which involves opening or dropping to the third position via the fourth position is advantageous in that it enables backlash to be eliminated or corrected and relaxation (e.g. of cables) to be corrected in a window regulator assembly which may be present to move the window glass in response to instructions issued by the controller.
The window system may in an embodiment include a door latch sensor (or door closed sensor) and the controller may be arranged to control the window to the second position in response to a signal that door latching or closing has just occurred. Accordingly, the window may advantageously be left in the second closed position when the vehicle is parked.
The controller may be arranged to receive a signal from a speed sensor and may be arranged to disable all window movement operations when the speed sensors detects a speed higher than a set amount. The set amount may be an amount greater than 150 kilometers an hour, such as approximately 225 to 240 kilometers an hour (140 to 150 mph). This functionality advantageously may therefore prevent window operation at high speed which may otherwise overload components in the window assembly or stalling of a window regulator for moving the window due to aerodynamic forces at very high speed and may also advantageously prevent accidental distraction of the driver while the vehicle is travelling very fast. This may be particularly applicable in sports, GT, saloon and convertible motor cars which are capable of driving at very high speeds.
The window system may include a crash sensor and the controller may be arranged to control the window to be lowered from the first closed position (or from any position higher than the second position) in response to a crash signal issued by the crash sensor. In this case, the controller may control the window to be lowered to the second position which may enable rescue personnel to evacuate occupants from the vehicle to which the system is fitted relatively easily and may also assist the occupants to evacuate the vehicle. It may also be advantageous in cases where a seal is still desirable after crashing, which may for example be the case in the eventuality of certain types of crashes into water or other hostile environments. This functionality makes opening of the door glass and/or the associated door easier.
In some preferred embodiments the system includes a window regulator having a motor for moving the window, the regulator being arranged for operation in response to the controller. The regulator may be of relatively standard type having a rail and cable system for sliding or pivoting the window between positions. The regulator may include a window position sensor or may be arranged to estimate accurately window position based upon stall thereof at known window top stop or bottom stop positions and known movements of a motor of the regulator subsequent to stall in a known said position The regulator may be separate to the controller. The controller may be an individual component such as an ECU or small programmable computer. Alternatively, for example in the case of the regulator for a vehicle driver door, the controller may be positioned at or integral with the regulator so as to be near to various window command switches which may be fitted in this door for controlling all of the windows of the vehicle.
In another aspect, the invention resides in a vehicle including a system as set out in any of the previous aspects of the invention. The vehicle may be a motor car. Examples are motor cars having frameless windows, sports, saloon, GT and convertible motorcars. However, the invention is applicable in other types of vehicle including buses, trucks and lorries.
The vehicle may include a first vehicle side which has a front window arranged for movement in a front door and a rear window arranged for movement in a rear door. The vehicle may also include a second similar vehicle side.
Each door may have an operation handle associated therewith for opening the same, or two said operation handles, in which case one said handle may be located on an interior side of the door and another operation handle may be located on an exterior side of the door. The controller may be arranged to control both windows to the third position upon operation of either operation handle, particularly when a said window is above the third position. This may be particularly advantageous in vehicles having no B-pillar in which the front and rear windows closely abut together with one another separated only by a mutual seal. The controller may be arranged to control the rear window to the second position upon receipt of a signal that the rear door is latched closed (this in some embodiments only happens if the rear window is at or above the third position) and to control the front window to move to the second position only after the rear window has reached the second position (this is some embodiments only happens if the front window is at or above the third position). This sequencing can be advantageous, especially in motor vehicles with no pillar such as a B-pillar between the front and rear windows since it enables one window (e.g. the rear) to help create a frame for the other window, which may be less well supported.
The rear window may have a range of movement from fully open to fully closed and the controller may be arranged to open the rear window to a position in which it is at least 50%, preferably about 75%, towards the fully open position upon operation of a door handle associated with the rear door. This is advantageous since it allows convenient passenger access in and out of the rear door without interference from the window and may be particularly beneficial in cases in which the rear window is concave and/or leans inwardly towards its upper edge.
The controller may be arranged to control the front and rear windows to the second closed position in response to a vehicle global close signal. The global close signal may be received wirelessly from a key fob held by an operator of vehicle. Alternatively, the global close signal may be provided in response to activation of a switch in the vehicle in which case this signal may also in some embodiments selectively actuate vehicle ventilation recirculation and/or pollen or fine filter functions and maybe useful if the driver notes the vehicle is about to enter smoke such as from bonfires. This advantageously improves security and allows quick sealing of the vehicle such as when entering adverse weather or smoke or when a security risk is noted.
The controller may be arranged to open the front and rear windows to fully open positions thereof in response to a vehicle global open signal which may be provided either wirelessly from a remote key fob or from a switch in the vehicle. This is advantageous in various situations, such as when it is desired to cool the vehicle quickly upon entry into it on a hot day or when it is simply desirable to fully open all of the windows with minimum effort and distraction of the driver.
The window may be part of a frameless window assembly, the window having a free upper edge which is arranged to seal against a seal secured to a body portion e.g. a fixed body portion of the vehicle.
According to a further aspect of the invention there is provided a method of controlling window positions in a vehicle which comprises moving a vehicle window to a first closed position when a first vehicle condition occurs and moving the vehicle window to a second closed position when a second vehicle condition occurs.
The method may include sliding a top edge of a window into a seal to close the window and the edge may be inserted further into the seal in response to the occurrence of the first condition than when the window is in the second closed position. The first condition may occur upon vehicle speed exceeding a predetermined value. The second condition may occur upon closing a vehicle door to which the window is mounted.
According to a further aspect of the invention there is provided a window seal for sealing against an edge portion of a moveable vehicle window, the seal having a first resilient portion arranged to seal against an external side of a window, a second resilient portion arranged to seal against an interior side of a window and a third resilient portion arranged to seal against an edge face of the edge portion of the window. This structure advantageously allows sealing of the window in at least three places. In a first configuration, the window glass may seal against the first and second portions. The window may be further insertable into the seal such that a top edge of the window seals against the third portion, thereby achieving a very effective seal. The first portion may have a generally straight finger-shaped cross-section which in an undeformed configuration is generally perpendicular to a general plane of the window. The second portion in an undeformed configuration thereof may have a generally hollow U-shaped cross-section extending generally slanted at about 45° to a general plane of the window. The third portion may be generally L-shaped in cross-section in an undeformed configuration thereof, a distal end of the L-shaped third portion pointing towards the exterior of the window.
According to a further aspect of the invention there is provided a window control system for movable vehicle window which is arranged to control the window away from a fully closed position in response to a signal from a vehicle crash sensor.
The present invention may be carried out in various ways and a preferred embodiment of a window system for a vehicle in accordance with the invention will now be described by way of example only with reference to the accompanying drawings, in which:
Each side of the motor car 10 includes a front door 20 openable pivotally around a hinge system 22 and a rear door 24 open pivotally about a hinge system 26, the hinge systems, 24, 26 being located at respective front edges of the doors 20, 24.
The front door 20 has a window glass 28 driven by a regulator/motor 30 which is connected by a signal path 32 to a user-operable window switch 34 and by a signal path 36 to a controller 38 in the form of an ECU or electronic programmable computer. The front door 20 also includes a door latch sensor 40 connected by a signal path 42 to the controller 38 and interior 44 and exterior 46 door lever/actuator sensors connected by signal path 48 to the controller 38.
In a similar way, the rear door 24 has a window glass 49 driven up and down by a regulator/motor 50 which is connected by a signal path 52 to a user operable window switch 54 and which is connected to the controller 38 by a signal path 56. The rear door 24 also has a door latch sensor 60 connected by a signal path 62 to the controller 38 and user operable interior 64 and exterior 66 door lever/actuator sensors which are connected by a signal path 68 to the controller 38. Sensors 40, 44, 46, 60, 64, 66 may be micro-switches. The rear door 24 may be fitted with a conventional child lock to inhibit opening of the door 24 using the interior door handle/lever.
A roof 70 includes a motorised sunblind 72 connected by a signal path 74 to the controller 38.
Additionally, the motor car 10 has a crash sensor 76 connected by a signal path 78 to the controller 38, a speed sensor 80 connected by a signal path 82 to the controller 38, a wireless receiver 84 connected by a signal path 86 to the controller 38 and a vehicle power mode sensor 88 connected by a signal path 90 to the controller 38.
The motor car 10 also includes various conventional components including a steering wheel 92, front seat 94 and rear seat 96.
The front window 28 is separated by a division bar 98 from a front quarter light window 100. In other embodiments the division bar 98 and front quarter window 100 may be replaced by a window sail.
With the windows 28, 49 in a fully raised position shown in
At an outer side 132 of the top portion 128, the cant rail 102 is provided with a rain gutter channel 134. The cant rail 102 also has a generally vertically downwardly extending outer portion 136 which in cross section has a curved up lower end 138 forming a channel 140. The outer seal member 108 has a generally horizontal finger member 142 having a lower surface 144 whose position defines a (nominal) cant rail height marked by the line CR in
With the window glass 28 shown in the configuration of
In the view of
In the position shown in
With the window glass 28 in the position shown in
It will be appreciated that in this embodiment both windows 28, 49 are driven by the respective regulators 30, 50 with generally vertical translational movement which may actually be vertical or somewhat off vertical and the distances H1, H2, H3 and H4 are considered to be distances moved during this generally translational movement. The various positions may be positions as seen by the regulator or as calculated by the controller in response to motor movements or other measured movements of the regulator. The H1 position may be established by the regulator by moving or re-pulsing (or re-setting) the window to a top stop position of the regulator and the positions of the H2, H3 and H4 or other positions may be set by counting movement from this point.
With regard to the operation of the window system and control system,
Once the vehicle has stopped as indicated to the controller by speed sensor 80 or by hand brake and/or park gear selection sensors (not shown) or below a pre-set speed the programmable controller 38 may apply the method of
Furthermore, according to an easy open logic control method applied by the controller 38, when the exterior or interior handle 66, 64 of either rear door 24 is pulled, as sensed by the associated sensor, the rear glass on that side of the motor car 10 is lowered by the regulator 50 to the H5 position shown in
The various control logic methods described above may be overridden manually by the use of the window switches 34, 54 and, in particular, the computer controller 38 may not run the method of
In this method when an internal handle is pulled as sensed by internal handle switches 44, 64 at point 270, the glass on that window or on that side of the vehicle is short-dropped in accordance with the method of
In the H1 position the glass has a 9 mm insertion into the seal. This can make it hard to open the door when in a total power failure situation. This is alleviated by the method placing the window in the H2 position at any time when the vehicle is parked with nobody in it and doors closed, such that if ever there should be a power failure situation the windows will be in the H2 position. The method ensures that when the door is opened with an interior handle and closed again the glass only returns to H2 until the vehicle speed is greater than V1 which can be the auto door lock speed. With the glass at position H2, it is quick and easy to exit the vehicle since the glass does not need to travel all of the way down from the H1 position to clear the exterior seal.
The controller 38 is also arranged to perform a global close function when lock button 300 on key fob 302 is pressed and held for longer than a certain period of time such as three seconds. When this happens and this is sensed by sensor 84 which sends a global close function signal via sensor 86 to controller 38, the controller ensures that regulators 50, 30 raise all vehicle window glasses 28, 49 to the H2 position and, if fitted, a panoramic roof blind 72 is also caused to fully close upon receipt of a control signal 74 to do the same from the controller 38. The global closed function only operates on door glass which is at the H3 position or lower. All of the window glasses and the blind move at the same time to achieve secured positions as quickly as possible all round. The controller controls the rear glass to raise immediately to the H2 position. The front glass 28 is immediately raised to the H3 position and the controller then checks that the rear glass 49 is at the H2 position and once this is confirmed this front glass is also raised to the H2 position.
The controller 38 is also programmed to perform a global open function. When an unlock button 302 on the key fob is pressed and held for longer than three seconds by a user 306, the controller 38 instructs the regulators 30, 50 to lower all door glasses to their lowest position, regardless of the glass position of each window and all the door glasses 28, 49 move at the same time.
Various modifications are envisaged to the specific embodiments described above. For example, the invention may be employed in motor vehicles with only two doors and only two main raiseable and lowerable windows, instead of in a vehicle with four doors as discussed above. Such changes are considered to be within the scope of the accompanying claims as interpreted under the Patent Law.
Number | Date | Country | Kind |
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0914921.2 | Aug 2009 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB2010/001616 | 8/26/2010 | WO | 00 | 6/6/2012 |
Publishing Document | Publishing Date | Country | Kind |
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WO2011/023955 | 3/3/2011 | WO | A |
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