MODULAR AERO DEVICE ACTUATOR AND A MODULAR ACTIVE GRILLE SHUTTER SYSTEM HAVING A REDUCED NUMBER OF VANES

Abstract

A modular active grille shutter system that includes a frame connected to an automobile at a location forward of an engine or energy source such as a battery pack. The frame is formed from assembling several different sized components to create a cooling aperture. The modular active grille shutter system also includes an actuator pocket in the frame, the actuator pocket has an aperture and a surface that forms side walls of a pocket and the surface also includes a vane connection side. There is a plurality of alternate actuator output axes located within the actuator pocket, which depending on the actuator design they represent different possible locations for alignment of the actuator with the three vanes.

Claims

1. A modular active grille shutter system comprising: an active grille shutter system having a frame located in a cooling pathway of a power source for a vehicle, wherein the frame includes a base integrated end cap and a base non-integrated end cap, wherein the base non-integrated end cap has an actuator pocket with a plurality of alternate actuator output axes located within the actuator pocket; a plurality of vanes rotatably connected at a first end to the base end cap and extending across the cooling pathway and connected at a second end to the base non-integrated end cap, wherein the plurality of vanes rotate between an open position and a closed position; and an actuator having a housing with a rotatable, wherein the aperture and rotatable output are formed at a location that is alignable with one of the plurality of alternate output axes, wherein the actuator is operably connected to the plurality of vanes such that rotation of the actuator output will rotate the plurality of vanes.

2. The modular grille shutter system of claim 1 further comprising: a connector formed on the actuator housing, the connector having a connector axis that is parallel to the plurality of alternate output axes.

3. The modular grille shutter system of claim 1 further comprising: one or more apertures formed on the surface of the actuator pocket; and one or more resilient male tabs extending from the housing of the actuator for snapping into a respective one of the one or more apertures of the actuator pocket.

4. The modular grille shutter system of claim 1 further comprising: one or more datum features extending from the housing of the actuator; and one or more datum cavities formed in the actuator pocket of the base integrated end cap for receiving a respective one of the one or more datum features for aligning the housing of the actuator during assembly to the actuator to the actuator pocket and preventing rotation of the housing of the actuator during operation.

5. The modular grille shutter system of claim 1 further comprising one or more tunable retention features formed on the surface of the actuator pocket that engage an outer surface of the housing of the actuator when connected to the actuator pocket, wherein the one or more tunable retention features prevent the housing from rotating within the actuator pocket by engaging the outer surface of the housing of the actuator at one or more gap locations between the actuator housing and a surface of the actuator pocket.

6. The modular grille shutter system of claim 1 wherein the housing of the actuator has a width that is no greater than about two millimeters greater than the width of one of the plurality of vanes.

7. The modular grille shutter system of claim 1 wherein the frame further comprises: a first universal rail and a second universal rail each connected at a first end to the base end cap and at a second end to the base non-integrated end cap, the first universal rail and second universal rail each form a side of the frame having a longitudinal axis with a longitudinal channel extending along the longitudinal axis, wherein the longitudinal channel has a deformable edge opening; and a secondary attachment having at least one clip for connecting to the longitudinal channel of one of the first universal rail or the second universal rail, wherein the at least one clip has at least one post larger than the deformable edge opening, wherein the at least one post slides into the longitudinal channel and deforms the deformable edge opening to fix the secondary attachment to the longitudinal channel.

8. The modular grille shutter system of claim 7 wherein the secondary attachment is an auxiliary mount used to mount a secondary component.

9. The modular grille shutter system of claim 8 wherein the secondary attachment is a center bar that extends across an opening of the frame to provide support to the frame.

10. A modular active grille shutter system comprising: an active grille shutter system having a frame located in a cooling pathway of a power source for a vehicle; a first base integrated end cap of the frame having a first end with a female connection groove and at least one snap aperture and a second end with a male tongue and at least one hook, wherein the first base integrated end cap has an actuator pocket; a second base integrated end cap of the frame having a first end with a female connection groove and at least one snap aperture and a second end with a male tongue and at least one hook, wherein the first end of the second base integrated end cap connects to be second end of the first base integrated end cap such that the female connection groove of the second base integrated end cap receives the male tongue of the second end of the first base integrated end cap and the at least one hook of the first base integrated end cap snaps into the at least one snap aperture of the second base integrated end cap; a first base non-integrated end cap of the frame having a first end with a female connection groove and at least one snap aperture and a second end with a male tongue and at least one hook; a second base non-integrated end cap of the frame having a first end with a female connection groove and at least one snap aperture and a second end with a male tongue and at least one hook, wherein the first end of the second base integrated end cap connects to the second end of the first base non-integrated end cap such that the female connection groove of the second base non-integrated end cap receives the male tongue of the second end of the first base non-integrated end cap and the at least one hook of the first base non-integrated end cap snaps into the at least one snap aperture of the second base non-integrated end cap; a first universal rail connected at a first end to the first base integrated end cap and at a second end to the first base non-integrated end cap; a second universal rail connected at a first end to the second base integrated end cap and at a second end to the second base non-integrated end cap, the first universal rail and second universal rail each form a side of the frame; a plurality of vanes each rotatably connected at a first end to one of the first integrated base end cap or the second integrated base end cap and at a second end to one of the first non-integrated base end cap or the second non-integrated base end cap such that the plurality of vanes extend across the cooling pathway and rotate between an open position and a closed position; and an actuator connected to the actuator pocket and having a housing with a rotatable output operably connected to the plurality of vanes such that rotation of the actuator output will rotate the plurality of vanes.

11. The modular grille shutter system of claim 10 further comprising: wherein the first base integrated end cap further includes a plurality of vane retainers each having a vane connection side for receiving the first end of one of the plurality of vanes and an end cap connection side rotatably fixed to the base integrated end cap, wherein the end cap connection side includes a post that rotatably extends into a collar formed on the first base integrated end cap, the post includes a stop extending from an outer radius of the post, wherein the stop is positioned in a collar groove formed in the collar that allow the stop and the post to rotate, while preventing the post from sliding out of the collar; wherein the second base integrated end cap further includes a plurality of vane retainers each having a vane connection side for receiving the end of another one of the plurality of vanes and an end cap connection side rotatably fixed to the base integrated end cap, wherein the vane connection side includes a post that rotatably extends into a collar formed on the first base integrated end cap, the post includes a stop extending from an outer radius of the post, wherein the stop is positioned in a collar groove formed in the collar that allow the stop and the post to rotate, while preventing the post from sliding out of the collar; and a multi-piece link arm connected to and extending between each of the plurality of vane retainers and rotatably connected to each link pin formed on each vane connection side of the plurality of vane retainers of the first base integrated end cap and the second base integrated end cap.

12. The modular active grille shutter system of claim 11 wherein the link pin of each of the plurality of vane retainers has a reverse draft formed on the outer diameter that extends through one of a plurality of link apertures formed on the multi-piece link arm.

13. The modular grille shutter system of claim 11 wherein the multi-piece link arm further comprises: a first piece with a first end having a link aperture with a tab extending from an edge surface of the link aperture and a second end having two alignment posts and a single flexible tang extending from a surface; and a second piece with a first end having a link aperture with a tab extending from an edge surface of the link aperture and a second end having two alignment posts and a single flexible tang extending from a surface, wherein the first end of the second piece engages the second end of the first piece such that the two alignment posts and flexible tang slide through the link aperture and of the first piece and the flexible tank bends and locks to the tab extending from the edge surface to lock the first piece to the second piece.

14. The modular grille shutter system of claim 10 further comprising: one or more apertures formed on the surface of the actuator pocket; and one or more resilient male tabs extending from the housing of the actuator for snapping into a respective one of the one or more apertures of the actuator pocket.

15. The modular grille shutter system of claim 10 further comprising: one or more datum features extending from the housing of the actuator; and one or more datum cavities formed in the actuator pocket of the first base integrated end cap for receiving a respective one of the one or more datum features for aligning the housing of the actuator during assembly to the actuator pocket and preventing rotation of the housing of the actuator during operation.

16. The modular grille shutter system of claim 10 further comprising one or more tunable retention features formed on the surface of the actuator pocket that engage an outer surface of the housing of the actuator when connected to the actuator pocket, wherein the one or more tunable retention features prevent the housing from rotating within the actuator pocket by engaging the outer surface of the housing of the actuator at one or more gap locations between the actuator housing and a surface of the actuator pocket.

17. The modular grille shutter system of claim 10 wherein the housing of the actuator has a width that is no greater than about two millimeters greater than the width of one of the plurality of vanes

18. The modular grille shutter system of claim 10 wherein the frame further comprises: wherein the first universal rail and second universal rail each have a longitudinal axis with a longitudinal channel extending along the longitudinal axis, wherein the longitudinal channel has a deformable edge opening; and a secondary attachment having at least one clip for connecting to the longitudinal channel of one of the first universal rail or the second universal rail, wherein the at least one clip has at least one post larger than the deformable edge opening, wherein the at least one post slides into the longitudinal channel and deforms the deformable edge opening to fix the secondary attachment to the longitudinal channel.

19. The modular grille shutter system of claim 18 wherein the secondary attachment is an auxiliary mount used to mount a secondary component.

20. The modular grille shutter system of claim 19 wherein the secondary attachment is a center bar that extends across an opening of the frame to provide support to the frame.

21. A modular active grille shutter system comprising: an active grille shutter system having a frame located in a cooling pathway of a power source for a vehicle, wherein the frame includes a base integrated end cap and a base non-integrated end cap, wherein the base non-integrated end cap has an actuator pocket; a plurality of vanes rotatably connected at a first end to the base end cap and extending across the cooling pathway and connected at a second end to the base non-integrated end cap, wherein the plurality of vanes rotate between an open position and a closed position; and an actuator having a housing with a rotatable output formed in the housing; one or more datum features extending from the housing of the actuator; and one or more datum cavities formed in the actuator pocket of the base integrated end cap for receiving a respective one of the one or more datum features for aligning the housing of the actuator during assembly to the actuator to the actuator pocket and preventing rotation of the housing of the actuator during operation.

22. The modular grille shutter system of claim 21 further comprising one or more tunable retention features formed on the surface of the actuator pocket that engage an outer surface of the housing of the actuator when connected to the actuator pocket, wherein the one or more tunable retention features prevent the housing from rotating within the actuator pocket by engaging an outer surface of the housing of the actuator at one or more gap locations between the actuator housing and a surface of the actuator pocket.

23. The modular grille shutter system of claim 21 wherein the housing of the actuator has a width that is no greater than about two millimeters greater than the width of one of the plurality of vanes

24. The modular grille shutter system of claim 21 wherein the frame further comprises: a first universal rail and a second universal rail each connected at a first end to the base end cap and at a second end to the base non-integrated end cap, the first universal rail and second universal rail each form a side of the frame having a longitudinal axis with a longitudinal channel extending along the longitudinal axis, wherein the longitudinal channel has a deformable edge opening; and a secondary attachment having at least one clip for connecting to the longitudinal channel of one of the first universal rail or the second universal rail, wherein the at least one clip has at least one post larger than the deformable edge opening, wherein the at least one post slides into the longitudinal channel and deforms the deformable edge opening to fix the secondary attachment to the longitudinal channel.

25. The modular grille shutter system of claim 24 wherein the secondary attachment is an auxiliary mount used to mount a secondary component.

26. The modular grille shutter system of claim 25 wherein the secondary attachment is a center bar that extends across an opening of the frame to provide support to the frame.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:

[0012] FIG. 1 is first side plan view of a modular active grille shutter arrangement according to a first embodiment of the invention.

[0013] FIG. 2 is a schematic side plan view of the actuator connected to an actuator pocket.

[0014] FIG. 3 is a side perspective view of the actuator connected to the actuator pocket of the frame.

[0015] FIG. 4A is an end plan view of the actuator connected to the actuator pocket of the frame.

[0016] FIG. 4B is a first side perspective view of the actuator connected to the actuator pocket of the frame.

[0017] FIG. 4C is a first side perspective view of the actuator connected to the actuator pocket of the frame.

[0018] FIG. 5 is first side perspective view of a modular active grille shutter arrangement according to a first embodiment of the invention.

[0019] FIG. 6 is an end plan view of the actuator pocket of the frame.

[0020] FIG. 7A is first side perspective view of a modular active grille shutter arrangement according to a second embodiment of the invention.

[0021] FIG. 7B is first side perspective view of a modular active grille shutter arrangement according to a third embodiment of the invention.

[0022] FIG. 8A is a rear side perspective view of a center bar and auxiliary mount connected to the first universal frame rail and the second universal frame rail.

[0023] FIG. 8B is a front side perspective view of the auxiliary mount.

[0024] FIG. 8C is a front side perspective view of the center bar.

[0025] FIG. 9 is a side plan view of the first based end cap, second base end cap and multi-piece link arm.

[0026] FIG. 10A is an exploded side perspective view of the multi-piece link arm.

[0027] FIG. 10B is a side plan view of an assembled multi-piece link arm.

[0028] FIG. 10C is an enlarged cross-sectional first side view of a link connection.

[0029] FIG. 10D is an enlarged cross-sectional second side view of a link connection.

[0030] FIG. 11A is a first side perspective view of a first end of a second connection.

[0031] FIG. 11B is a first side perspective view of a second end of a first connection.

[0032] FIG. 11C is a second side perspective view of the first end of the second connection.

[0033] FIG. 11D is a second side perspective view of a first end of the first connection.

[0034] FIG. 11E is a first side perspective view of the first connection and second connection together.

[0035] FIG. 12 is an enlarged side perspective view of a vane retainer.

[0036] FIG. 13 is an enlarged side cross sectional view of a vane retainer and multi-piece link arm attached.

[0037] FIG. 14 is an enlarged side cross-sectional view of a vane connected to a post.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0038] The following description of the preferred embodiments are merely exemplary in nature and are in no way intended to limit the invention, its application, or uses.

[0039] Referring now to all of the figures, the present invention is directed to a modular active grille shutter system 10 that includes a frame 12 connected to an automobile at a location forward of an engine or energy source such as a battery pack. The frame 12 is formed from assembling several different sized components including a first universal frame rail 14a, connected between a first base integrated end cap 14b and first base non-integrated end cap 14d. There is also a second universal frame rail 14c that connects between the first base integrated end cap 14b and second base non-integrated end cap 14d. When the different sized components are all assembled the frame 12 forms a cooling aperture 16. While a single cooling aperture 16 is shown, it is within the scope of the invention for the modular active grille shutter system 10 to have multiple cooling apertures depending on the desired frame design.

[0040] The modular active grille shutter system 10 further includes an actuator pocket 18 in the frame 12. Referring now to FIG. 6 the actuator pocket 18 has an aperture 20 and a surface that from a vane connection side with side walls 22a, 22b, 22c extending perpendicularly therefrom. Referring to FIG. 2 a plurality of alternate actuator output axes 28a, 28b, 28c is shown extending through the actuator pocket 18, which depending on the actuator design they represent different possible locations for alignment of an actuator 30 with three vanes 32a, 32b, 32c, shown in FIG. 3. While certain drawings depict three vanes, other drawings depict five vanes. It is within the scope of this invention for the modular active grill shutter system 10 to have any number of vanes, however, in one preferred embodiment of the invention, shown in FIG. 1 there are three vanes.

[0041] Referring now to FIGS. 4A and 6 the actuator pocket 18 of the first base integrated end cap 14b includes datum cavities 34a, 34b, 34c, 34d, 34e, 34f. A housing 38 of the actuator 30 has datum features 33a, 33b, 33c, 33d, 33e, 33f extending from the housing 38 that align with and slide into the respective datum cavities 34a, 34b, 34c, 34d, 34e, 34f the housing 38 of the actuator 30 during assembly. The datum features 33a, 33b, 33c, 33d, 33e, 33f function to prevent rotation of the housing 38 of the actuator 30 during operation. This is particularly important since the actuator 30 is smaller to fit into a smaller actuator pocket 18, thereby pricing a modular active grille shutter system 10 that is smaller and can have fewer than three vanes.

[0042] Referring to FIG. 2, the smaller actuator 30 is possible in part to a stacked gear set 41 that is more compact, together with having a connector 31 formed on the housing 38 that has a connector axis 43 that is parallel to the plurality of output axis 28a, 28b, 28c, instead of being perpendicular to the plurality of output axis 28a, 28b, 28c. Within the housing 38 there is a printed circuit board 39 lead frame that is modified to extend connector wires 40 perpendicular to the printed circuit board 39, thereby allowing the connector 31 to have a connector axis that is parallel instead of perpendicular to the plurality of alternate output axes.

[0043] The smaller size of the actuator 30 combined with the torque makes the actuator 30 more susceptible to rotating, but the datum features 33a, 33b, 33c, 33d, 33e, 33f prevent the actuator 30 from rotating in the actuator pocket 18. In addition to the datum cavities 34a, 34b, 34c, 34d, 34e, 34f and datum features 33a, 33b, 33c, 33d, 33e, 33f that help to position and hold the actuator 30, the actuator pocket 18 further includes tunable retention features 29a, 29b, 29c, 29d, 29e, 29f, 29g, 29h, 29i formed on the surface of the actuator pocket 18. The tunable retention features 29a, 29b, 29c, 29d, 29e, 29f, 29g, 29h, 29i as shown are in the form of raised ribs, but can also be wedges, plateaus or other surface features that contact or engage an outer surface of the housing 38 of the actuator 30, to position the actuator at a desired depth or lateral position in the actuator pocket 18. The tunable retention features 29a, 29b, 29c, 29d, 29e, 29f, 29g, 29h, 29i can have different heights, thickness or locations depending on the desired position of the housing 38 in the actuator pocket 18.

[0044] To hold the actuator 30 in place there are a plurality of resilient male tabs 35a, 35b, 35c extending from the surface of the housing 38 of the actuator 30. The actuator pocket 18 has one or more apertures 36a, 36b, 36c formed through the surface of the actuator pocket 18 that a respective one of the male tabs 35a, 35b, 35c snap into to hold the housing 38 within the actuator pocket 18.

[0045] Connecting conventional actuators to the active grille arrangement involves moving the actuator on more than one degree of freedom. A degree of freedom means the directional variances that must be applied during assembly of the actuator to the conventional active grille shutter system or modular active grille shutter system. Conventional methods use at least two degrees of freedom as the actuator is moved toward the connecting position on the frame, the actuator must be tilted and/or shifted in several directions to ensure that the connector 31 is placed into an aperture on the frame and to align the actuator housing with fastener connection holes on the frame.

[0046] The datum features 33a, 33b, 33c, 33d, 33e, 33f and clips 35a, 35b, 35c of the actuator 30 of the present invention provide an improvement over the conventional assembly methods by allowing assembly using what is referred to herein as a single degree of freedom assembly method. The single degree of freedom means that the actuator 30 is moved into engagement so the datum features 33a, 33b, 33c, 33d, 33e, 33f slide into respective datum cavities 34a, 34b, 34c, 34d, 34e, 34f to position the actuator 30 radially aligned within the actuator pocket 18, while simultaneously the male resilient tabs 35a, 35b, 35c of the actuator 30 snap into respective apertures 36a, 36b, 36c of the actuator pocket 18 to lock the actuator 30 into place and prevent the actuator 30 from moving laterally out of the actuator pocket 18. During assembly, the actuator 30 is pushed in one direction into the actuator pocket 18 so that the rotatable output of the actuator 30 is aligned with the select alternate output axis 28a, 28b, 28c and simultaneously connected to the actuator pocket 18 using the male resilient tabs 35a, 35b, 35c. The one degree of freedom assembly is also made possible by the connector axis 43 of the connector 31 being parallel to the alternate output axis 28a, 28b, 28c instead of perpendicular. This parallel positioning eliminates the need to tilt or move the actuator 30 by additional degrees of freedom, since the connector axis 43 is parallel to the plurality of alternate output axes 28a, 28b, 28c, rather than perpendicular to the vane rotation axis as found in conventional actuators used with active grille shutter systems.

[0047] The modular active grille shutter system 10 also includes the plurality of vanes or three vanes 32a, 32b, 32c shown in FIG. 1, extending across the cooling aperture 16 of the frame 12 and rotatably connected to the frame 12 to rotate between an open position where air can move through the frame and a closed position where the vanes 32a 32b, 32c block air from moving through the cooling aperture 16. Each of the vanes 32a 32b, 32c are connected to the vane side 26 of the actuator pocket 18. In the present embodiment of the invention vane 32b is in alignment with one of the plurality of alternate actuator output axes 28a, 28b, 28c and functions as a driven vane for the plurality of vanes 32a, 32b, 32c. While vane 32b is the driven vane in the present embodiment of the invention it is within the scope of the invention for the driven vane to be any one of the plurality of vanes 32a, 32b, 32c. Another unique feature of the invention is the size of the housing 38 of the actuator 30, which has a width that is no greater than about two millimeters greater than the width of one of the plurality of vanes 32a, 32b, 32c. In a preferred embodiment of the invention the vanes 32a, 32b, 32c each have a width of less than about 35 mm and the width of the housing 38 is about 37 mm or less.

[0048] The modular active grille shutter system 10 further includes the actuator 30 housing 38 having a rotatable output 39 positioned in alignment with one of the plurality of alternate actuator output axes 28a, 28b, 28c of the actuator pocket 18. One additional feature of the invention is that the axis of the rotatable output 39 of the actuator 30 can be located at different locations to match up with each of the alternate actuator output axes 28a, 28b, 28c. This is made possible using the stacked gear train 41, where the gears are stacked within the housing 38 rather than a linear layout. This also allows the housing 38 to be smaller and fit into the actuator pocket 18, which has a reduced size compared to conventional active grille systems.

[0049] Referring back to all of the figures generally, the first universal rail 14a and the second universal rail 14c are connected between the first base integrated end cap 14b and the first base non-integrated end cap 14d. The first universal rail 14a and second universal rail 14c each form a side of the frame and each have a longitudinal axis with a pair of longitudinal channels 42a, 42b, 42c, 42d extending along the longitudinal axis of the first universal rail 14a and second universal rail 14c. Each of the longitudinal channels 42a, 42b, 42c, 42d have a deformable edge opening 44a, 44b, 44c, 44d (see FIGS. 3 and 4a). The longitudinal channels 42a, 42b, 42c, 42d connect to respective first end 46a and second end 46b on the first base integrated end cap 14b and respective first end 48a and second end 48b on the first base non-integrated end cap 14d.

[0050] Additionally, as shown throughout the figures there are secondary attachments in the form of center bars 50a, 50b of different lengths that extend across the opening of the frame and support the frame. The secondary attachments also include an auxiliary mount 52 or mounts used to connect other components such as, but not limited to sensors, microphones, speakers, lights, light detection and ranging modules (i.e., LIDAR), wiring mounts or decorative panels such as grilles. The secondary attachments each have at least one clip 54a, 54b, 54c for connecting to a respective one of the longitudinal channels 42a, 42b, 42c, 42d of one of the first universal rail 14a or the second universal rail 14c. Each clip 54a, 54b, 54c has a pair of posts 56a, 56b, 56c, 56d, 56e, 56f, 56g disposed about a spike 58a, 58b, 58c, which are all slightly larger than the respective deformable edge opening 44a, 44b, 44c, 44d. The posts 56a, 56b, 56c, 56d, 56e, 56f, 56g slide into desired one of the longitudinal channels 42a, 42b, 42c, 42d and deform the respective deformable edge opening 44a, 44b, 44c, 44d to fix the secondary attachment to the longitudinal channel 42a, 42b, 42c, 42d.

[0051] The present invention significantly simplifies and reduces the method of assembling the modular active grille shutter system 10. During typical method of assembling modular active grille shutter system 10 the frame, vanes and actuator are all formed separately and then connected together using hand assembly or a combination of automation and hand assembly.

[0052] In another aspect of the invention the actuator 30 contains a type of memory chip such as RAM or EPROM. A modular grille software is programmed onto the memory chip. The modular grille software contains a library of pre-encoded operational commands that are stored on the memory chip. The pre-encoded operational commands contain commands for different operational parameters for the actuator to operate the modular active grille shutter system based on various variables including grille size, number of shutters, temperature data, type of system of implementation (e.g., internal combustion engines, electric vehicles, etc.). When the modular active grille shutter system is connected to a vehicle of a specific type the memory chip of the actuator is updated to build an operational program using the pre-encoded commands stored on the memory chip. This way the actuator operation will also be modular because the operational program is assembled using different pre-encoded commands already residing on the memory chip, thereby eliminating the need to separately write new operational software for each vehicle application.

[0053] Referring now to FIGS. 7A and 7B a second and third embodiment showing a modular grille shutter system 100, 200 are shown. The modular grille shutter system 100, 200 utilizes the same components as shown in the modular grille shutter system 10 and builds off the same components to form a frame 112, 212 having an aperture 116, 216 that is larger than frame 12 and aperture 16. Like reference numbers from modular grille shutter system 10 will be carried forward. Modular grille shutter system 100 has six vanes, while modular grille shutter system 200 has eight vanes. Modular grille shutter system 100, 200 both include a second base integrated endcap 114 having a first end 146a and second end 146b. The second end 146b is connected to the first end 46a of the first base integrated end cap 14b. There is also a second base non-integrated end cap 114d having a first end 148a that connects to the second end 48b of the first non-integrated end cap 14d. In modular grille shutter system 100 the first universal frame rail 14a is attached to the second end 146b of the second base integrated end cap 114b and a second end 148b of the second base non-integrated end cap 114d to create a six vane system. The addition of the second based integrated end cap 114b and second base non-integrated end cap 114d increases the area of the frame 112 vertically to add three additional vanes 132a, 132b, 132c.

[0054] Modular grille shutter system 200 shown in FIG. 7B is an eight vane system that further includes a first base integrated end cap extension 114e having a first end 246a connected to the second end 146b of the second base integrated end cap 114b. A first non-integrated end cap extension 114f having a first end 248a connected to the second end 148b of the second base non-integrated end cap 114d. The first universal frame rail 14a is connected at one end to a second end 246b of the first base integrated end cap extension 114e, and at a second end of the first universal frame rail 14a is connected to a second end 248b of the first non-integrated end cap extension 114f. Connected between the first base integrated end cap extension 114e and non-integrated end cap extension 114f are vanes 132d, 132e which complete a set of eight vanes for the modular grille shutter system 200.

[0055] Referring also to FIGS. 11A, 11B, 11C, 11D, 11E all the connection details of the first end 46a, 146a, 246a, 48a, 148a, 248a and second end 46b, 146b, 246b, 48b, 148b, 248b of the first base integrated end cap 14b, second base integrated end cap 114b, first base integrated end cap extension 114e, first base non-integrated end cap 14d, second base non-integrated end cap 114d and first non-integrated end cap extension 114f are now shown and described. The first end 46a, 146a, 246a, 48a, 148a, 248a include a male tongue 64a, 64b and hook 66a, 66b on each side. The second end 46b, 146b, 246b, 48b, 148b, 248b have a female connection groove 60a, 60b on each side, each having a snap aperture 62a, 62b with a tab 65a, 65b extending from an edge of the snap aperture 62a, 62b. When a connection is desired the male tongue 64a, 64b slides into the female connection groove 60a, 60b and the hook 66a, 66b slides through the snap aperture 62a, 62b and snaps into place on the respective tab 65a, 65b. The common configuration of the first end 46a, 146a, 246a, 48a, 148a, 248a and second end 46b, 146b, 246b, 48b, 148b, 248b allows for vertically assembling a modular grille shutter system of virtually any height without using fasteners, adhesives, or any additional connections.

[0056] In all embodiments of the modular grille shutter system 10, 100, 200 one end of each vane 32a, 32b, 32c, 132a, 132b, 132c, 132d, 132e are each held separately by a vane retainer 68a, 68b, 68c, 68d, 68e, 68f, 68g, 68h rotatably connected to one of the first base integrated end cap 14b, second base integrated end cap 114b, first base integrated end cap extension 114e. As shown best in FIG. 14 a second end of each vane 32a, 32b, 32c, 132a, 132b, 132c, 132d, 132e is slides onto and rotates about a respective post 69a, 69b, 69c, 69d, 69e, 69f, 69g, 69h formed on a respective one of the first base non-integrated end cap 14d, second base non-integrated end cap 114d and first non-integrated end cap extension 114f. The details of the vane retainer and posts are described in United States Patent Application Publication No. US2020/0346538A1 titled “IN MOLD ASSEMBLY FOR ACTIVE GRILLE SHUTTER SYSTEM” filed Mar. 23, 2020; the entire specification and drawings of which are hereby expressly incorporated by reference.

[0057] Referring now to FIGS. 12 and 13 additional features of each vane retainer 68a, 68b, 68c, 68d, 68e, 68f, 68g, 68h are now described. Each vane retainer 68a, 68b, 68c, 68d, 68e, 68f, 68g, 68h include a vane connection side 70 and an end cap connection side 72 rotatably fixed to the respective one of the first base integrated end cap 14b, second base integrated end cap 114b, first base integrated end cap extension 114e. Each vane retainer 68a, 68b, 68c, 68d, 68e, 68f, 68g, 68h can optionally include a post 74 that rotatably extends into a collar 76 formed on one of the first base integrated end cap 14b, second base integrated end cap 114b, first base integrated end cap extension 114e. Each post 74 has a stop 78 that extends from an outer radius of the post 74 and is positioned in a collar groove 80 formed in the collar 76 that allows the vane retainer 68a, 68b, 68c, 68d, 68e, 68f, 68g, 68h, stop 78 and the post 74 to rotate, while preventing the post 74 from sliding out of the collar 76.

[0058] Referring now to FIGS. 9 and 10A-D, the details of a multi-piece link arm 82 are now described. Since the modular grille shutter system 10, 100, 200 can have different vertical heights it is necessary to transfer operational force from the actuator 30 to all of the vanes 32a, 32b, 32c, 132a, 132b, 132c, 132d, 132e, which is accomplished using the vane retainer 68a, 68b, 68c, 68d, 68e, 68f, 68g, 68h and the multi-piece link arm 82. In order to transfer force from the actuator 30, in the present embodiment vane 32b is what is connected to the rotatable output 39 through the vane retainer 68b using a direct connection. Referring to FIG. 9, in order to transfer force each vane retainer 68a, 68b, 68c, 68d, 68e, 68f has a link pin 84a, 84b, 84c, 84d, 84e, 84f formed on each vane connection side 70. The multi-piece link arm 82 as shown has a first piece 85 and second piece 86 connected together by a link connection 87. The first piece 85 connects rotatably to link pin 84a, 84b, 84c, while second piece 86 connects rotatably to link pin 84d, 84e, 84f. Each link pin 84a, 84b, 84c, 84d, 84e, 84f of vane retainer 68a, 68b, 68c, 68d, 68e, 68f has a reverse draft 88a, 88b (shown in FIG. 13) formed on the outer diameter that extends through a link aperture 89 formed on the multi-piece link arm 82. The reverse draft 88a, 88b is formed during the molding process and rotatably and securely connects the multi-piece link arm 82 to each vane retainer 68a, 68b, 68c, 68d, 68e, 68f to they cannot easily be separated and do not rely on other connection means such as retainers or adhesives.

[0059] Referring now to FIGS. 10A-C additional details of the multi-piece link arm 82 are shown. The first piece 85 and second piece 86 are connected together using the link connection 87. In embodiments having additional vanes requiring additional pieces of the multi-piece link arm, additional link connections similar to the link connection 87 are used. The link connection 87 as shown includes a link aperture 90 formed on the first piece 85 at a first end and has a tab 91 extending from an edge surface of the link aperture 90. The first piece 85 also has a second end with two alignment posts 92a, 92b and a single flexible tang 93 extending from the surface. The second piece 86 as shown includes a link aperture 94 formed on the second piece 86 at a first end and has a tab 95 extending from an edge surface of the link aperture 94. The second piece 86 also has a second end with two alignment posts 96a, 96b and a single flexible tang 97 extending from the surface. The first end of the second piece 86 engages the second end of the first piece 85 such that the two alignment posts 92a, 92b and flexible tang 93 slide through the link aperture 94 of the second piece 86, and the flexible tang 93 bends and locks to the tab 95 extending from the edge surface, to lock the first piece 85 to the second piece 86. If needed the aperture 90 and tab 91 of the first piece 85 can be used to connect additional pieces on the other side of the first piece 85, while the two alignment posts 96a, 96b and single flexible tang 97 can be used to connect additional pieces to the second side of the second piece 86.

[0060] The description of the invention is merely exemplary in nature and, thus, variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.