Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60J—WINDOWS, WINDSCREENS, NON-FIXED ROOFS, DOORS, OR SIMILAR DEVICES FOR VEHICLES; REMOVABLE EXTERNAL PROTECTIVE COVERINGS SPECIALLY ADAPTED FOR VEHICLES
  • B60J7/00—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs
  • B60J7/20—Vehicle storage compartments for roof parts or for collapsible flexible tops
  • B60J7/201—Vehicle storage compartments for roof parts or for collapsible flexible tops being outside of vehicle, e.g. onto boot lid, or into a storage compartment to be closed by one of the roof panels itself
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60J—WINDOWS, WINDSCREENS, NON-FIXED ROOFS, DOORS, OR SIMILAR DEVICES FOR VEHICLES; REMOVABLE EXTERNAL PROTECTIVE COVERINGS SPECIALLY ADAPTED FOR VEHICLES
  • B60J7/00—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs
  • B60J7/08—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position
  • B60J7/12—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position foldable; Tensioning mechanisms therefor, e.g. struts
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60J—WINDOWS, WINDSCREENS, NON-FIXED ROOFS, DOORS, OR SIMILAR DEVICES FOR VEHICLES; REMOVABLE EXTERNAL PROTECTIVE COVERINGS SPECIALLY ADAPTED FOR VEHICLES
  • B60J7/00—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs
  • B60J7/08—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position
  • B60J7/12—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position foldable; Tensioning mechanisms therefor, e.g. struts
  • B60J7/14—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position foldable; Tensioning mechanisms therefor, e.g. struts with a plurality of rigid plate-like elements or rigid non plate-like elements, e.g. with non-slidable, but pivotable or foldable movement
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60J—WINDOWS, WINDSCREENS, NON-FIXED ROOFS, DOORS, OR SIMILAR DEVICES FOR VEHICLES; REMOVABLE EXTERNAL PROTECTIVE COVERINGS SPECIALLY ADAPTED FOR VEHICLES
  • B60J7/00—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs
  • B60J7/08—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position
  • B60J7/12—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position foldable; Tensioning mechanisms therefor, e.g. struts
  • B60J7/14—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position foldable; Tensioning mechanisms therefor, e.g. struts with a plurality of rigid plate-like elements or rigid non plate-like elements, e.g. with non-slidable, but pivotable or foldable movement
  • B60J7/143—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position foldable; Tensioning mechanisms therefor, e.g. struts with a plurality of rigid plate-like elements or rigid non plate-like elements, e.g. with non-slidable, but pivotable or foldable movement for covering the passenger compartment
  • B60J7/148—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs of non-sliding type, i.e. movable or removable roofs or panels, e.g. let-down tops or roofs capable of being easily detached or of assuming a collapsed or inoperative position foldable; Tensioning mechanisms therefor, e.g. struts with a plurality of rigid plate-like elements or rigid non plate-like elements, e.g. with non-slidable, but pivotable or foldable movement for covering the passenger compartment at least one element being stored in vertical fashion
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B60—VEHICLES IN GENERAL
  • B60J—WINDOWS, WINDSCREENS, NON-FIXED ROOFS, DOORS, OR SIMILAR DEVICES FOR VEHICLES; REMOVABLE EXTERNAL PROTECTIVE COVERINGS SPECIALLY ADAPTED FOR VEHICLES
  • B60J7/00—Non-fixed roofs; Roofs with movable panels, e.g. rotary sunroofs
  • B60J7/20—Vehicle storage compartments for roof parts or for collapsible flexible tops

Definitions

• This invention relates to motor vehicles and in particular to a motor vehicle that is transformable from one style of motor vehicle to another style of motor vehicle.
• motor vehicle having a body structure including a two piece roof structure comprising a front roof panel and a rear roof panel each of which is moveable from an in use position to a stowed position
• the front roof panel is moveable by a pair of stowage mechanisms each of which comprises first and second elongate arms which are pivotally attached at respective first ends to a respective side of the front roof panel and are pivotally attached at respective second ends to part of the body structure of the motor vehicle and a drive means driveably attached to at least one of the first and second of arms to reversibly move the front roof panel between its in use and stowed positions
• at least one of the first and second arms is connected at its second end to the body structure of the motor vehicle by a moveable support and an actuator means is provided to reversibly move the moveable support so as to raise and lower at least a rear end of the front roof panel between its in use position and a raised position.
• the actuator means may be operable to reversibly move the moveable support between lowered and raised positions.
• Both of the first and second arms may be pivotally connected at their respective second ends to the moveable support .
• the positioning and respective lengths of the first and second arms may be such that the orientation of the front roof panel is maintained substantially the same during movement from the in use position to the stowed position.
• the actuator means may be operable to raise and lower the entire front roof panel between the in use and raised positions .
• the drive means and the actuator means may be formed by a single actuator which is operable to reversibly move the front roof panel between the in use and stowed positions and to reversibly move the moveable support between lowered and raised positions.
• the moveable support may be slidingly attached to a guide plate fixed to part of the structure of the motor vehicle.
• the guide plate may have at least one slot formed therein used to slidingly attach the moveable member to the guide plate.
• the guide plate may have a further slot formed therein to control the rotary movement of the second arm.
• the second arm may be driveably connected to the single actuator by a third arm and the third arm is connected to the single actuator by a pin having a portion engaged with the further slot.
• the further slot may have substantially vertical and substantially horizontal portions and, when the pin is in the vertical portion of the third slot, retraction and extension of a piston rod of the single actuator will cause the moveable support to be raised and lowered and when the pin is in the horizontal portion of the further slot retraction or extension of the piston rod will cause the third arm to be rotated so as to move the roof to and from the stowed position.
• a method for converting a two box motor vehicle having a moveable front roof panel and a moveable rear roof panel into a convertible style of motor vehicle comprising raising at least a rear end of the front roof panel from an in use position to a raised position, moving the rear roof panel forwardly and downwardly under the rear end of the raised front roof panel into a stowed position and moving the front roof panel from the raised position to a stowed position.
• the method may further comprise moving the rear roof panel from the in use position to the stowed position before the front roof panel is moved from the raised position to the stowed position.
• the method may further comprise moving the front roof panel from the stowed position to the raised position before the rear roof panel is moved from the stowed position to the in use position.
• the method may further comprise lowering the front roof panel from the raised position to the in use position after the rear roof panel has returned to the in use position.
• Fig.l is a cutaway left hand side view of a rear part of a two box motor vehicle according to the invention, the motor vehicle has front and rear roof members both of which are shown in their x in use' positions;
• Fig.2 is a cutaway left hand side view of the motor vehicle shown in Fig.l showing the first step in a transformation process from a two box style to a convertible style of motor vehicle;
• Fig .3 is a cutaway left hand side view similar to Fig.2 but showing the front and rear roofs in their stowed positions;
• Fig.4 is a cutaway left hand side view similar to Fig.3 but showing a rear row of seats folded forward;
• Fig.5 is a right hand side view of respective right hand side front and rear stowage mechanisms shown in the positions they adopt when the front and rear roofs are both in the 'in use' positions shown in Fig.l;
• Fig.6 is a right hand side view similar to Fig.5 but showing the front and rear stowage mechanisms in the positions they adopt when the front and rear roofs are at the first step of the transformation process shown in Fig.2;
• Figs.7 and 8 show the positions of the front and rear stowage mechanisms at further steps in the transformation process
• Fig.9 is a right hand side view showing the front and rear stowage mechanisms in the positions they adopt when the front and rear roofs are in their stowed positions as shown in Figs .3 and 4 ;
• Fig.10 is a three quarter rear view of the right hand side front stowage mechanism shown in figs 5 to 9 showing the stowage mechanism as it would appear at the first step shown in Fig.6;
• Figs .11 to 14 are enlarged views of part of the front stowage mechanism shown in Figs. 5 to 10 showing a combined lift and rotate mechanism forming part of the front roof stowage mechanism in various positions corresponding to the positions shown in Figs. 5, 6, 8 and 9;
• Figs.l5A and 15B are right hand side views showing an alternative front roof stowage mechanism in positions corresponding to Figs .1 and 2 ;
• Fig.16 is a left hand view of the right hand rear roof stowage mechanism shown in Figs.5 to 9 showing the stowage mechanism in a partly stowed position;
• Fig.17 is a three quarter rear view of the rear roof stowage mechanism in the position shown in Fig.16;
• Fig.18 is a left hand view of an alternative right hand rear roof stowage mechanism to that shown in Figs.16 & 17 showing the alternative stowage mechanism in the same position as the stowage mechanism shown in Figs.16 and 17; and
• Figs.19 to 22 show some alternative actuator means for the rear roof stowage mechanism.
• a two box motor vehicle 5 having front and rear stowable roof members or panels 6 and 7 each of which is moveable between an in use position as shown in Fig.l and a stowed position as shown in Figs. 3 and 4. It will be appreciated that when the two roof panels 6, 7 are in their respective in use positions the two roof panels 6, 7 form a cover for a passenger compartment of the motor vehicle 5.
• the two box motor vehicle 5 is in this case in the form or style of a hatchback motor vehicle but could also be in the style of an MPV or estate vehicle. It will be appreciated by those skilled in the art that a two box vehicle is one with an engine compartment and a passenger compartment with no fixed bulkhead between the passenger compartment and a luggage storage area at the rear of the motor vehicle 5.
• the luggage storage area is formed as part of the passenger compartment and the front or rear seats depending upon the number of rows of seats are used as a separator between the passenger compartment and the luggage storage area.
• the front roof panel 6 is moveable by means of a front roof stowage mechanism 20 having a number of connected elongate arms of which one is driven by a motive source to move the front roof panel 6 from its in use position to its stowed position and vice-versa.
• the front roof stowage mechanism 20 is described in greater detail hereinafter with reference to Figs.5 to 14.
• a rear roof stowage mechanism 30 also having a number of connected arms is used to move the rear roof panel 7 from its in use position to its stowed position and is described in greater detail hereinafter with reference to Figs .5 to 9 and 16 and 17.
• the motor vehicle 5 has two rows of seats, there is a front row of seats having two seats 9 arranged side by side one of which is for a driver of the motor vehicle 5 and a rear row of seats having in this case two seat assemblies 10 arranged side by side although it will be appreciated that the row of seats could alternatively have three seat assemblies arranged in a row or a single seat assembly if a bench type seat is used.
• Each of the seat assemblies 10, of which only one is shown in Figs .1 to 4 comprises of a seat cushion 12 and a backrest 11 which are pivotally connected together so that the backrest 11 can fold forward and lie upon the seat cushion 12.
• the backrest 11 has an upper edge from which extends a head restraint 13 supported by two rods each of which is slideably supported by part of the structure of the backrest 11 for movement between a raised position in which the head restraint 13 is positioned above the upper edge of the backrest 11 and a lowered position in which the head restraint 13 is positioned adjacent to the upper edge of the backrest 11 or is positioned in a recess formed in the upper edge of the backrest 11.
• the rear roof panel 7 includes a lift up rear panel which is pivotally connected at its upper edge to the main structure of the rear roof panel 7 and forms, when the rear roof panel 7 is in its in use position, an upper tailgate to permit objects to be placed in or removed from the luggage storage area.
• the main body structure of the motor vehicle 5 hingedly supports a drop down flap forming a lower tailgate which can also be used to place or remove objects from the luggage storage area.
• the front and rear stowage mechanisms 20, 30 are in this case independently controllable by means of an electronic control unit (not shown) .
• a single switch or driver input device is used to control the movement of both of the roof panels 6, 7 via the electronic control unit.
• the electronic control unit is programmed to ensure that the movement of the two roof panels 6, 7 is correctly sequenced to allow the roof panels 6, 7 to be moved from their in use positions to their stowed positions .
• At least a rear end of the front roof panel 6 and in this case the entire front roof panel 6 is raised from its in use position to a raised position as shown on Fig.2. This is done in order to provide room for the rear roof panel 7 to move and disengages the front roof panel 6 from a seal on the motor vehicle body structure located at a front end of the front roof panel 6 and a seal between the front roof panel 6 and the rear roof panel 7 along a rear end of the front roof panel 6. It will be appreciated that when the front and rear roof panels 6, 7 are both in their in use positions the rear end of the front roof panel 6 overlies a front end of the rear roof panel 7.
• the next step in the process is to move the rear roof panel 7 forwardly and downwardly under the rear end of the raised front roof panel 6 into its stowed position.
• the rear roof panel 7 when in its stowed position is located between the front row of seats 9 and the rear row of seat assemblies 10 and lies just behind the front row of seats 9. It will be appreciated that the rear roof panel 7 is stowed between the two rows of seats even if the rear row of seat assemblies 10 is folded flat.
• the next step in the process is to move the front roof panel 6 from the raised position to its stowed position in which it at least partially overlies the stowed rear roof panel 7.
• the front roof panel 6 is located in its stowed position substantially horizontally to the rear of the front row of seats 9 so that it covers the rear row of seat assemblies 10. Therefore when the two roof panels 6, 7 are in their raised positions they define a four seat hatchback vehicle and when the two roof panels 6, 7 are in their stowed positions they define a two seat open top vehicle.
• the luggage area 11 can still be accessed via the lower tailgate and has a similar or the same carrying capacity to the luggage area when the vehicle is in the style of a hatchback motor vehicle.
• the front roof panel 6 is first moved from its stowed position to its raised position and the rear roof panel 7 is then moved from its stowed position to its in use position.
• the rear roof panel 7 is then moved from its stowed position to its in use position.
• the front roof panel 6 is then lowered from its raised position to its in use position.
• front and rear roof stowage mechanisms 20 and 30 are independent of one another a further motor vehicle style can be produced.
• the first step is to move the front roof panel 6 to its raised position as shown on Fig.2.
• the next step in the process is to move the rear roof panel 7 forwardly and downwardly under the rear end of the raised front roof panel 6 into its stowed position.
• the next step is to return the front roof panel 6 to its in use position.
• This has transformed the two box motor vehicle into a pick-up style of motor vehicle the carrying capacity of which can be completed by folding the rear row of seat assemblies 10 forward.
• the lift up rear panel attached to the rear roof panel 7 can then be opened while the rear roof panel 7 is in the stowed position to provide a wind break behind the front row of seats 9.
• the front roof stowage mechanism 20 comprises of a first roof support arm 21 pivotally connected at a first or upper end to a bracket 27 fixed to the right hand side of the front roof panel 6.
• the first roof support arm 21 is pivotally connected at a second or lower end to a moveable support in the form of a slide plate 26.
• a second roof support arm 22 is pivotally connected at a first or upper end to the bracket 27 and is pivotally connected at a second or lower end to the slide plate 26.
• the slide plate 26 is slidingly connected to a guide plate 24 fixed to part of the main body structure of the motor vehicle 5.
• the guide plate 24 has three elongate slots 28U, 28L and 29 formed in it.
• the guide slots 28U and 28L are used to guide the motion of the slide plate 26 relative to the guide plate 24 and permit the slide plate 26 to move up and down relative to the guide plate 24 in a substantially vertical direction.
• Each of the guide slots 28U, 28L has a respective guide pin 4OU, 4OL engaged with it.
• the guide pins 40U, 4OL are fixed to the slide plate 26 and are a sliding fit in the guide slots 28U, 28L.
• the slide plate 26 has 1 degree of freedom which is vertical translation and is provide by the engagement of the two guide pins 4OU, 4OL with the guide slots 28U, 28L.
• guide pins could be fixed to the guide plate 24 and the slide plate 26 could have slots formed in it or that some other form of slideable connection could be used between the slide plate 26 and the guide plate 24.
• the third or control slot 29 is used to control the rotation of the second roof support arm 22 and has a substantially vertically extending portion and a substantially horizontally extending portion.
• a control pin 41 is slidingly engaged with the control slot 29.
• the control pin 41 is used to attach a piston rod of a linear actuator 25 to one end of a third or link arm 23.
• the link arm 23 is drivingly connected at its other end to the second roof support arm 22 by means of a common pin 17 to which both of the arms 22, 23 are fastened.
• the common pin 17 is rotatably supported by the slide plate 26 so as to permit the two arms 22, 23 to rotate relative to the slide plate 26.
• One end of the linear actuator 25 is rotatably fastened to part of the main body structure of the motor vehicle 5 and the linear actuator 25 is connected to a source of pressurised fluid such as hydraulic fluid and is a double acting device so that the piston rod is both extended and retracted by fluid pressure.
• the supply of fluid pressure to the linear actuator 25 is controlled by an electronic control unit (not shown) .
• the linear actuator 25 is positioned such that when the control pin 41 is located in the vertical portion of the control slot 29 retraction of the piston rod will cause the slide plate 26 to be moved upwardly and when the control pin 41 is in the horizontal portion of the control slot 29 retraction of the piston rod will cause the second roof support arm 22 to be rotated in a direction to move the front roof panel 6 in a stowing direction and vice-versa.
• Operation of the front roof stowage mechanism 20 is as follows .
• Fig.11 the first and second roof support arms 21 and 22 are shown in the positions corresponding to the front roof panel 6 being in its in use position.
• the piston rod of the linear actuator 25 is fully extended, the guide pins 4OU, 40L are at the lower end of the guide slots 28U, 28L, the control pin 41 is at the lower end of the vertical portion of the control slot 29 and the slide plate 26 is in a lowered position.
• the respective lengths of the first roof support arm 21 and the second roof support arm 22 is such that the front roof panel 6 is maintained in substantially the same orientation throughout the motion from the in use position to the stowed position and so the front roof panel 6 when in the stowed position is positioned substantially horizontally if the motor vehicle 5 is resting upon a horizontal surface.
• both of the roof support arms 21, 22 are pivotalIy connected to the slide plate 26 and the entire front roof panel 6 is raised it will be appreciated that it would be possible to pivotally connect only the second roof support arm 22 to the slide plate 26 so that only the rear end of the front roof panel 6 is raised provided the seal used at the front of the front roof panel 6 is suitably constructed to permit rotation about the front end of the front roof panel 6 and separate actuators are used to raise the slide plate 26 and rotate the first roof support arm 21.
• One advantage of the front roof stowage mechanism described above is that a single relatively small actuator is used to produce both raising of the front roof panel 6 and its subsequent movement to the stowed position.
• slide plate 26 could be moved by a separate actuator to the actuator used to move the front roof panel 6.
• the separate could be a rotary actuator with a cam which engages the slide plate or a linear actuator which moves the slide plate.
• FIGs.l5A and 15B there is shown a front roof stowage mechanism that is intended to be a direct replacement for that previously described and in many respects is the same as that previously described.
• the stowage mechanism comprises of a first roof support arm 121, a second roof support arm 122 and a first linear actuator 125 connected to the second roof support arm 122 to produce rotation of the second roof support arm 122.
• the moving of the front roof panel 6 to the raised position is performed by a second linear actuator 128.
• the second linear actuator 128 is fastened to part of the main body structure of the motor vehicle 5 and has a piston rod connected to a support frame 129.
• the first linear actuator 125 has one end fastened to the support frame 129.
• One advantage of this arrangement is that the vertical movement of the front panel 6 is separate from the rotation of the front roof panel 6 to its stowed position. This allows the front roof panel to be simply raised to allow the rear roof panel 7 to be stowed and then lowered back into its in use position by simply operating only the second linear actuator 128. Such an action is useful if the motor vehicle 5 is to be transformed into a pick-up style of motor vehicle in which the front roof panel 6 is in its in use position and the rear roof panel 7 is in its stowed position.
• FIG. 16 and 17 there is shown in greater detail the right hand side rear roof panel stowage mechanism 30 forming one of a pair of stowage mechanisms used to reversibly move the rear roof panel 7 between its in use and stowed positions.
• the rear roof stowage mechanism 30 comprises of a first rear roof support arm 34, a second rear roof support arm 35 which form in combination with a rear roof mounting bracket 37 and a support plate 38 a primary four bar linkage between the main body structure and the rear roof panel, a secondary four bar linkage comprised of a first drive arm 31, a link arm 36 connecting the first drive arm 31 to a second drive arm 32 and the support plate 38 and a linear actuator 33.
• the support plate 38 is fastened to part of the main body structure of the motor vehicle 5 of which it forms a part and the rear roof mounting bracket 37 is fastened to the rear roof panel 7.
• the first and second elongate rear roof support arms 34 and 35 have respective first ends which are pivotally attached to the rear roof mounting bracket 37 and have respective second ends which are pivotally attached to the support plate 38.
• the first drive arm 31 has a first end pivotally connected at a first pivot point to a piston rod of the linear actuator 33 and a second end pivotally connected at a second pivot point to the support plate 38.
• the link arm 36 is drivingly connected at a first end to the piston rod of the linear actuator 33 and is drivingly connected at a second end to the second drive arm 32.
• the second drive arm 32 has a first end drivingly connected at a first pivot point to the link arm 36 and a second end pivotally connected at a second pivot point to support plate 38.
• the distance between the first and second pivot points of the second drive arm 32 is less than the distance between the first and second pivot points of the first drive arm 31 so that when the first drive arm 31 is rotated by the linear actuator 33 a specific amount the second drive arm 32 will be rotated a greater amount. That is to say the secondary four bar linkage amplifies the displacement of the piston rod of the linear actuator 33.
• the second drive arm 32 is drivingly connected to the first rear roof support arm 34 of the primary four bar linkage by a drive shaft 39 to which both of the arms 32, 34 are fastened.
• the drive shaft 39 is rotatably supported at one end by the support plate 38.
• the lengths of the first and second rear roof support arms 34 and 35 of the primary four bar linkage are such that movement of the rear roof panel 7 from the in use position to the stowed position causes a front edge of the rear roof panel to rotate downwardly as the rear roof panel 7 is moved to the stowed position. That is to say, the first and second rear roof support arms 34 and 35 are connected to the rear roof mounting bracket 37 at respective first pivot points and are connected to the support plate 38 at respective second pivot points and the distance between the first and second pivot points of the first rear roof support arm 34 is less than the distance between the first and second pivot points of the second rear roof support arm 35.
• the rear roof panel 7 is in its in use position and a front edge of the rear roof panel 7 is sealingly engaged with the rear end of the front roof panel 6 such that the rear end of the front roof panel 6 lies upon the front end of the rear roof panel 7.
• the first step is to raise the front roof panel 6 as has been described above.
• the front roof panel 6 has been moved to its raised position as shown in Fig.6 the rear roof panel 7 can then be moved from it in use position.
• the linear actuator 33 which is controlled by the electronic control unit and is connected to a source of fluid pressure.
• the linear actuator 33 is a double acting actuator which is to say the piston rod of the linear actuator 33 is powered in both directions .
• the linear actuator 33 is operated so as to retract the piston rod which will cause the first drive arm 31 to rotate and via the link arm 36 the second drive arm 32 is also rotated. Because the second drive arm 32 is drivingly connected to the first rear roof support arm 34 by the drive shaft 39 the first rear roof support arm 34 is also rotated causing the rear roof panel 7 to be moved and will move under the rear end of the raised front roof panel 6.
• the angle of this vertical inclination is the same as the vertical inclination of the backrests fitted to the front row of seats 9 and it is preferable that the inclination of the front row of seats 9 be limited by an end stop or the position be controlled so that the backrests are moved automatically into a predetermined vertical inclination when transformation of the vehicle 5 from the hatchback style is started.
• both the inclination of the backrests and the fore-aft positioning of the front row of seats 9 within the passenger compartment is automatically set when the transformation to the convertible vehicle style is started.
• the rear roof panel 7 when in the stowed position, the rear roof panel 7 is located between the front and rear rows of seats 9 and 10 and partially overlies the rear row of seats 10 so as to partly obscure them from view.
• the process is reversible by using the electronic control unit to cause fluid to be supplied to the linear actuator 33 to cause the piston rod to be extended thereby returning the rear roof panel 7 to its in use position.
• a second embodiment of stowage mechanism for the rear roof panel 7 which is in most respects identical to that previously described and operates in the same manner as that previously described.
• the second drive arm is formed not by a separate arm but by a portion of the first rear roof support arm 34 of the primary four bar linkage. This is achieved by drivingly connecting the link arm 36 directly to the first rear roof support arm 34 at a small distance from the position where the first rear roof support arm 34 is pivotally connected to the support plate 38.
• the distance between the point of connection of the link arm 36 to the first rear roof support arm 34 and the position of pivotal connection of the first rear roof support arm 34 to the support plate 38 is less than the distance between the first and second pivot points of the first drive arm 31 so that when the first drive arm 31 is rotated by the linear actuator 33 a specific amount the first rear roof support arm 34 will be rotated a greater amount .
• the rear roof stowage mechanism 30 comprises as before of the first rear roof support arm 34, the second rear roof support arm 35 which form in combination with the rear roof mounting bracket 37 and the support plate 38 a primary four bar linkage between the main body structure and the rear roof panel 7 but in these cases there is no secondary four bar linkage.
• an actuator means comprising of a rotary actuator 110 that can be an electric motor or a hydraulic motor having a rotatable output shaft 105.
• the rotary actuator 110 is fastened to the support plate 38 and the first rear support arm 34 is fastened directly to the rotatable output shaft 105 of the rotary actuator 110. Therefore rotation of the rotatable output shaft 105 will rotate the first rear support arm 34 to move the rear roof panel 7 between the in use and stowed positions.
• the rotary actuator 110 may include internal gearing to increase the torque output therefrom.
• an actuator means comprising of a rotary actuator 120 that can be an electric motor or a hydraulic motor having a rotatable output shaft 125.
• the rotatable shaft 125 has a worm gear 126 formed thereon for engagement with teeth 130 formed around the second end of the first rear support arm 34.
• an actuator means comprising of a linear actuator or ram 140 having a piston rod 145.
• the piston rod 145 has a number of teeth 146 formed thereon for engagement with teeth 130 formed around the second end of the first rear support arm 34. Therefore in and out linear movement of the piston rod 146 will, due to the interengagement of the teeth 146 and the teeth 130, rotate the first rear support arm 34 to move the rear roof panel 7 between the in use and stowed positions .
• a rotary actuator 150 such as an electric or hydraulic motor to operate both a left hand side rear roof stowage mechanism 3OL and a right hand side rear roof stowage mechanism 3OR.
• the rotary actuator 150 has a rotatable output shaft (not shown) which is driveably connected via a 'Tee' or splitter drive unit 156 to two drive links 155L and 155R.
• Each of the drive links 155L, 155R which can be flexible drive links is connected by a geared drive to a respective first rear support arm (not shown) of the stowage mechanism 3OL, 3OR for which it provides drive. Therefore rotation of the rotatable output shaft of the rotary actuator 150 will, due to the driveable connection provided by the two links 1551, 155R, drive both of the stowage mechanisms 3OL, 3OR so as to rotate the respective first rear support arms to move the rear roof panel 7 between the in use and stowed positions .
• a hatchback style of vehicle having two rows of seats it could be applied to other types of two box motor vehicle such as an MPV or estate style.
• the rear roof member will still be stowed within the passenger compartment but may be stowed behind a second row of seats if the vehicle has three rows of seats and the front roof member may comprise of more than one panel so that one of the panels stows as described above onto a rear part of the vehicle and the other panel stows in. some other manner or is removable from the vehicle. Therefore, for example, a MPV style of vehicle having three rows of seats can be transformed into a convertible having two rows of seats or into a pick-up having two rows of seats .

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• Engineering & Computer Science (AREA)
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• 2005
  • 2005-06-29 GB GB0513234A patent/GB2427594A/en not_active Withdrawn
• 2006
  • 2006-06-05 CN CN2006800232784A patent/CN101208215B/zh not_active Expired - Fee Related
  • 2006-06-05 WO PCT/GB2006/002045 patent/WO2007000563A1/en active Application Filing
  • 2006-06-05 DE DE112006001632.6T patent/DE112006001632B4/de not_active Expired - Fee Related
  • 2006-06-05 JP JP2008518946A patent/JP2008544918A/ja active Pending
  • 2006-06-05 GB GB0723302A patent/GB2441087B/en not_active Expired - Fee Related

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