Abstract
A caliper cover has a first mount and a second mount which are configured to engage with opposing sides of a brake caliper. A cover is engaged to the first and second mounts with a pair of struts extending between the mounts and the cover. Each mount is configured for engagement to the caliper without tools through a sliding to a preliminary position and then by imparting pressure to flex the body of the mount to expand and compress upon opposite sides of the brake caliper.
Claims
1. A caliper cover apparatus, comprising: a first mount, said first mount having a body extending between a trailing end thereof and a leading end thereof, and having a central portion of said body of said first mount therebetween; a second mount, said second mount having a body extending between a trailing end thereof and a leading end thereof, and having a central portion of said body of said second mount therebetween; a first connector engaged to said body of said first mount; a second connector engaged to said body of said second mount; a first gap formed between said trailing end and said leading end of said first mount; a second gap formed between said trailing end and said leading end of said second mount; said first mount positionable to an engaged position with a first shoulder portion of a brake caliper, where said leading end and said trailing end thereof are biased against opposing sides of said first shoulder portion of said brake caliper; said second mount positionable to an engaged position with a second shoulder portion of said brake caliper, where said leading end and said trailing end thereof are biased against opposing sides of said second shoulder portion of said brake caliper; a cover plate having a first strut and having a second strut; said first strut engageable with a first connector on said body of said first mount; and said second strut engageable with a second connector on said body of said second mount.
2. The caliper cover apparatus of claim 1, additionally comprising: said body of said first mount formed of flexible metal; said body of said second mount formed of flexible metal; said first mount being slidable on a top surface of said first shoulder portion of said brake caliper to a first preliminary mount position thereon having a distal edge at said leading end thereof, in contact with said top surface of said first shoulder portion of said brake caliper; said second mount being slidable on a top surface of said second shoulder portion of said brake caliper to a second preliminary mount position thereon having a distal edge thereof at said leading end thereof, in contact with said top surface of said second brake caliper; said first mount moveable from said first preliminary mount position to said engaged position with said first shoulder portion of said brake caliper, by imparting pressure to said body thereof, to temporarily deflect said distal edge thereof in a direction away from said trailing end thereof; and said second mount moveable from said second preliminary mount position to said engaged position with said second shoulder portion of said brake caliper, by imparting pressure to said body thereof, to temporarily deflect said distal edge thereof in a direction away from said trailing end thereof.
3. The caliper cover apparatus of claim 2, additionally comprising: said body of said first mount having a body section extending from an angle point on one end of said central portion thereof to said distal end thereof; said body of said second mount having a body section extending from an angle point on one end of said central portion thereof, to said distal end thereof; said body section of said first mount, extending from said angle point thereof in a direction toward said trailing end of said first mount; and said body section of said second mount, extending from said angle point thereof in a direction toward said trailing end of said second mount.
4. The caliper cover apparatus of claim 3, additionally comprising: said body section of said first mount extending at an angle between 60 and 90 degrees relative to an imaginary line running through said central portion of said first mount; and said body section of said second mount extending at an angle between 60 and 90 degrees relative to an imaginary line running through said central portion of said second mount.
5. The caliper cover apparatus of claim 4 wherein said trailing end of said first mount is substantially C-shaped and said trailing end of said second mount is substantially C-shaped.
6. The caliper cover apparatus of claim 3 wherein said trailing end of said first mount is substantially C-shaped and said trailing end of said second mount is substantially C-shaped.
7. The caliper cover apparatus of claim 2 wherein said trailing end of said first mount is substantially C-shaped and said trailing end of said second mount is substantially C-shaped.
8. The caliper cover apparatus of claim 1, additionally comprising: said body of said first mount having a body section extending from an angle point on one end of said central portion thereof to said distal end thereof; said body of said second mount having a body section extending from an angle point on one end of said central portion thereof, to said distal end thereof; said body section of said first mount, extending from said angle point thereof in a direction toward said trailing end of said first mount; and said body section of said second mount, extending from said angle point thereof in a direction toward said trailing end of said second mount.
9. The caliper cover apparatus of claim 8, additionally comprising: said body section of said first mount extending at an angle between 60 and 90 degrees relative to an imaginary line running through said central portion of said first mount; and said body section of said second mount extending at an angle between 60 and 90 degrees relative to an imaginary line running through said central portion of said second mount.
10. The caliper cover apparatus of claim 9 wherein said trailing end of said first mount is substantially C-shaped and said trailing end of said second mount is substantially C-shaped.
11. The caliper cover apparatus of claim 8 wherein said trailing end of said first mount is substantially C-shaped and said trailing end of said second mount is substantially C-shaped.
12. The caliper cover apparatus of claim 1 wherein said trailing end of said first mount is substantially C-shaped and said trailing end of said second mount is substantially C-shaped.
Description
BRIEF DESCRIPTION OF DRAWINGS
(1) FIG. 1 show the sliding installation provided by the configuration of the mount of the caliper cover system herein, showing the leading end sliding upon the housing of the caliper to a preliminary mounting position thereon, and the trailing end sliding toward engagement with a first side of the caliper housing.
(2) FIG. 2 shows the sliding installation at a preliminary mount position, where the trailing end is adjacent or contacts a first side of the caliper housing and a distal edge of the leading end is contacting the top surface of the housing adjacent an opposing second thereof.
(3) FIG. 3 shows the leading end moved to an engaged position with a caliper where it is in compressive contact upon both the first and second end of the caliper housing, subsequent to pressure exerted by the user to cause a flexing of the body of the mount to enlarge a gap between the trailing end and distal edge.
(4) FIG. 4 shows the compressive engagement of the mount upon the housing provided by the flexing body, complementary shape of the facing surface, and C-shape of the trailing end positioned in a first slot between the rotor and housing and the angular or curved shape of the leading end engaged around the housing of the caliper.
(5) FIG. 5 depicts the installation of the cover plate, subsequent to positioning two mounts by sliding them into respective engagements on the housing of the caliper showing a connector engaged with each support member holding the cover plate.
(6) FIG. 5A depicts a side view of the sliding mounting action of FIG. 1, showing the body section extending from an angle point A1 at one end of the central portion 19 to the distal edge 18 of the mount 14. This body section S2, for example, preferably runs at an angle A1 less than ninety degrees relative to the central portion 19 of the body 12 forming the device 10 thereby allowing it to slide easier to the preliminary mounting position, and to form a compressive contact against the second end 30 of the caliper 15, once mounted.
(7) FIG. 6 shows multiple views of a first and typical configuration for the mount herein which is configured for sliding to a compressed engagement onto a caliper housing showing the leading end shaped to slide upon the housing until the trailing end contacts the caliper whereupon the mount is flexed to deflect the leading end momentarily to achieve the compressive engagement, and showing the engageable connector.
(8) FIG. 7 shows the mount similar in configuration to FIG. 6 but wider and configured for two connectors.
(9) FIG. 8 depicts the mount herein having a body adapted in shape to achieve a sliding engagement with the housing of the caliper and also showing an additional positioning member engaged to the mount which has curved ends for engaging side portions of the housing of the caliper.
(10) FIG. 9 shows the mount similar in shape to that of FIG. 7 but with dimensions of the angled portions of the mid portion of the body being differently spaced to mirror or form a shape complementary to the exterior of the caliper housing to which it will compressibly engage after a sliding installation and body flex.
(11) FIG. 10 depicts a body of the mount with differently shaped angled portions thereof which will conform to the exterior of a complementary shaped caliper housing and compressibly engage such after a sliding installation.
(12) FIG. 11 shows another configuration of the body of the mounts wherein the mid portion is bent with different angled sections and the leading end is configured to slide upon the housing during engagement and also shows a projecting side member for contacting a side surface of the housing.
(13) FIG. 12 is another configuration of the mount showing the C-shaped trailing end and a leading end having a width smaller than the width of the mid portion and having two apertures for positioning of connectors therethrough.
(14) FIG. 13 has a mount body formed to be complementary in shape to the indented exterior surface of a caliper housing and showing the leading end narrower than the mid portion of the body and adapted to slide on the distal edge thereof during installation.
(15) FIG. 14 shows a mount body having an elongated section in the C-shaped trailing end much like the other mounts herein and showing the leading end having a cross section smaller than the mid portion of the body and the distal edge of the leading end positioned for sliding contact during installation and compressive engagement after a flexing of the body.
(16) FIG. 15 depicts the mount body herein in another shape forming an interior contact surface which is complementary in shape to the exterior surface of the caliper housing to which it will slidingly engage and flex to a compressive engagement thereon.
(17) FIG. 16 shows another mount configuration having a trailing end configured to engage under and around a first side of the caliper housing and a leading end shaped to slide upon the housing surface and to compressibly engage subsequent to a flexing of the body.
(18) FIG. 17 shows a configuration of the shape of the body of the mount to mirror or conform to the shape of the exterior of the caliper housing to which it engages and shows angular projections shaped and positioned to contact a side surface of the housing when flexed to a compressive engagement thereon.
(19) FIG. 18 shows the mount herein where the leading end curves to a distal edge positioned to slide along the surface of the caliper housing while the trailing end engages and to form a compressive engagement subsequent to flexing to allow the leading end to engage.
(20) FIG. 19 shows another configuration of the angular portions of the mid portion of the body of the mount which mirror or are complementary to the shape of the caliper housing and shows the distal end of the leading end adapted to slide on the housing while the trailing edge engages.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
(21) Referring now to the drawings in FIGS. 1-19, wherein similar parts of the caliper cover with slidingly engageable mounts are identified by like reference numerals. In all modes of the device 10, as shown in FIGS. 1-5, a body 12 is configured with a shape and contour to form a contact surface 13 of the body 12. This contact surface 13 is substantially complementary in shape or a mirror image of the exterior of a first shoulder portion 17 and a second shoulder portion 21 of a caliper housing 15 on which the body 12 of each mount 14 is to respectively compressibly engage.
(22) As shown, for example, in FIGS. 1-4, and common in all modes of the device 10 herein, the body 12 of the mount 14 is configured with a trailing end 20 opposite a leading end 16 which extend from opposite sides of a central portion. A distal edge 18 is positioned on the end of the leading end 16. This leading end 16 preferably has one or a plurality of angles of the body therein between the mid or central portion 19 and the distal edge 18, which is positioned across a gap G a distance from the trailing end 20 (FIG. 6).
(23) During mounting of either of the two mounts 14 to respective engagements on either the first shoulder portion 17 or the second shoulder portion 21 of a caliper 15, with the mount in a preliminary mounting position as in FIG. 1 or FIG. 5A for example, when the body 12 is flexed at the central portion 19, the leading end 16 portion extending to the distal edge 18 flexes along with the central portion 19. This flexing actuated by pressure exerted to the body 12 in a direction toward the caliper 15 will enlarge the gap “G” such as shown in FIG. 6, and allow the distal edge 18 of the mount 14 to slide over the second end 30 of the respective shoulder 17 OR 21 of the caliper 15 and into an engagement upon of the distal edge 18 the respective second end 30 of either the first shoulder portion 17 or second should portion 21 of the caliper 15. This actuation from the positioning the preliminary mount to the mounted position with a shoulder portion 17 or 21 of the caliper 15, is actuated in the same fashion in all modes of the device 10 depicted herein.
(24) This distal edge 18 extending from the central portion 19 at the leading end 16 of the body 12 is actuated by pressure imparted upon the body 12 to deflect the distal edge 18 a direction away from the trailing end 20. This temporarily enlarges the gap between them thereby actuating the distal edge 18 of the device 10 in the preliminary mounting position, to slide upon a second end 30 of the housing of the caliper 15 as the body 12 of the mount 14 is concurrently slid into engagement with the opposite first end 28. Such occurs when the device 10 is slid as in FIG. 1 to the preliminary mounting position, and then flexed by imparting pressure to the central portion 19 in a direction toward the top of caliper 15 as in FIGS. 2-4.
(25) As can be seen in FIG. 2, during this sliding engagement to the preliminary position and an engaged position, the trailing end 20 of the mount 14 is substantially C-shaped. As such sliding the device 10 to a preliminary mounting position with the trailing end 20 adjacent to or in contact with a first end 28 of caliper 15 positions the distal edge 18 of the leading end 16 adjacent to but not past the second end of the housing of the caliper 15. As noted, from this preliminary mounting position, the device 10 can be moved to an engaged position with the caliper 15 by exerting pressure against the body 12 of the mount 14 in a direction toward the caliper 15.
(26) The trailing end 20, as noted, is substantially C-shaped. By substantially C-shaped is meant that the trailing end 20 extends in a curve or angular linear sections from the central portion 19, to form the shape of the letter C. Any number of angled portions or curved areas may be employed.
(27) Once in this position, as shown in FIG. 3, with the trailing end 20 contacting the caliper 15, if the leading end 16 has not fully slid down into contact with the second end 30 of the caliper 15, a slight pressure upon the central portion 19 of the body 12 of the mount 14 moves it from the preliminary position to the engaged position by actuating the body 12 to bend to flex the leading end 16 to increase the angle thereof. During the pressure actuation, the flexible body 12 assumes a flexed position such as in FIG. 2, where the leading end 16 portion of the body 12 extending from the central portion 19 to the distal edge 18 will deflect temporarily in a direction away from the trailing end 20 and move over and engage upon the second end 30 of the housing of the caliper 15.
(28) Thereafter, pressure-induced actuation of the central portion 19 of the body 12 ceases, and the flexible body will return to a non-flexed original shape. In this non-flexed configuration, such as in FIGS. 3-4, the body 12 of the mount 14 forms a compressive engagement upon the housing of the caliper 15. In this compressive engagement the curved trailing end 20 is in contact with the first end 28 of the housing of the caliper 15 and a portion thereof slides into a first gap between the caliper 15 and a rotor 29. The leading end 16 portion of the body 12 forms a secure biased contact where it is curved around the second end 30 of the housing of the caliper 15 opposite the first end 28 of the caliper 15. Thus, the mount 14 in an engaged position such as in FIG. 3 subsequent to pressure exerted thereon, is placed in a biased compressed engagement with both the first end 28 of the caliper 15 and the second end 30 of the caliper 15.
(29) With the mounts 14 so engaged upon the housing of the caliper 15, the cover plate may be engaged to cover the caliper 15 by engaging mating connectors 24 on the mounts 14 to struts 26 extending from the cover plate 22. Slots 27 may be formed into the struts 26 and the engagement point of the connectors 24 to allow translation of the cover plate 22 from side to side or closer or further from the caliper 15 prior to fixing the connectors 24.
(30) In FIG. 5A is shown the preferred configuration of the device 10 yielding the ease of a sliding no-tool installation of the device 10 preferred in all modes herein. As shown in FIG. 5A and the views in FIG. 6, this is preferred configuration for the mount 14 herein which in all preferred modes herein, is shaped to achieve an easy sliding and subsequent pressure actuated engagement onto the caliper 15 without tools.
(31) As shown in the views of FIG. 5A and FIG. 6, the leading end 16 extends from the central portion 19 of the body 12 of the mount 14, and is configured to slide on the distal edge 18 thereof in a sliding contact with a top of the housing of the caliper 15 during installation. During sliding to the preliminary installation point, this leading end 16 slides upon the housing of the caliper 15 until the trailing end 20 contacts or is adjacent the first end 28 of the caliper 15 which positions the device 10 in the preliminary mounting position.
(32) At this juncture, the body 12 of the mount 14 is actuated to flex by application of pressure to the central portion 19 such as in FIGS. 2-3, which deflects the leading end 16 in a direction away from the second end 30 of the caliper 15, to thereby move the distal edge 18 and leading end 16 around the second end 30 of the caliper 15. The leading end 16, so deflected, during pressure actuation, will slide down the second end 30 of the caliper 15 and thereby achieve the compressive engagement. The connector 24 on the central portion 19 of the body 12, engaged to the mount 14, is also engageable to the struts 26 to hold the cover plate 22 employed herewith. Once so engaged, the cover plate 22, with the struts 26 in a fixed engagement thereto, will hold the two mounts 14 during use.
(33) As shown in the multiple views of FIG. 6 operating the same as that in FIG. 5A and FIG. 1, the leading end 16 portion of the body 12, extending from the central portion 19 of the body 12, extends therefrom at an angle A, for a distance to the distal end 18. There may be one angle A or a plurality of angles A and A1, formed along the section S1 or sections S1 and S2, forming the leading end 16.
(34) Preferably, the section forming part or all of the leading end 16 communication from the angle point such as A1 to the distal edge 18, is at an angle shown as A1, which is equal to or less than 90 degrees relative the imaginary line running through the central portion 19 of the body 12. This positions the section, such as S1, adjacent the distal edge 18 to extend backward toward the trailing end 20, during sliding installation. It forms the gap shown “G” to be slightly smaller than the distance across the intended caliper 15 between the first end 28 and second end 30 thereof.
(35) By forming an angle of the last section, shown as S1, along a line positioning the distal end 18 closer to the trailing end 20 by distance, which is shorter than the actual distance between the first 28 and second ends 30 of the intended caliper 15, the distal end 18 will not extend past the second end 30 during sliding in the mounting procedure until pressure is applied to the body 12 to cause the section S1 to deflect in a direction away from the trailing end 30. This momentarily increases the width of the gap “G” until the distal edge 18 slides down the side of the second end 20 of the caliper 15 to the biased engagement against it.
(36) This angled configuration of the sections S1 and/or S2 adjacent the distal end 18, to provide for easier sliding on the caliper surface 15 during mounting, (versus an angle over 90 degrees relative to the central portion 19), forms the leading end 16 in a manner configured to temporarily deflect away from the trailing end 20 during pressure on the body 12. The leading end 16 will return to a compressive engagement with the caliper 15 once pressure ceases and is, thus, preferred in all modes of the device 10, herein, such as those in FIGS. 7-19, as well as FIG. 5-6.
(37) FIG. 7 shows the mount 14 similarly configured to allow the leading end 16 of the mount 14 to slide on the distal edge 18 as the mount 14 is slid upon a housing of the caliper 15. The body of the mount 14 is flexed in a similar fashion as above to position the leading end 16 engaged around the second end of the housing of the caliper 15. Two connectors 24 are shown.
(38) In FIG. 8 is shown the mount 14 herein having a body adapted in shape to achieve a sliding engagement with the housing of the caliper 15. Also included are an additional positioning member 28 engaged to the mount 14 which has curved ends for engaging side portions of the housing of the caliper 15.
(39) Shown in FIG. 9 is the mount 14 similar in shape to that of FIG. 7 but with dimensions of the angled portions of the mid portion of the body 12 being differently spaced to mirror or form a shape complementary to the exterior of the housing of the caliper 15. Subsequent to completion of the sliding engagement and flexing of the mount 14, it is sized to compressibly engage around both sides of the housing of the caliper 15.
(40) Another mode of the mount 14 shaped for sliding engagement upon a housing of a caliper 15 is shown in FIG. 10. The body 12 of the mount 14 has angled portions thereof which along with the leading end 16 and trailing end 20 will conform to the shape and dimensions of the exterior of a complementary shaped housing of a caliper 15. As with all other modes herein, once the mount 14 is slidingly engaged with the distal edge 18 of the leading end 16 sliding on the caliper 15 surface and the body 12 flexed, the mount 14 achieves a compressed engagement on the caliper 15 housing. Connectors 24 can then be employed to engage with the struts 26.
(41) In FIG. 11 is depicted another configuration of the body 12 of the mount 14 wherein the mid portion is bent with different angled sections and the leading end 16 is configured with a distal edge 18 positioned to contact and slide upon the housing of the caliper 15 during a sliding engagement. Also shown are a projecting side member 30 for contacting a side surface of the housing.
(42) FIG. 12 shows views of another configuration of the mount 14 showing the C-shaped trailing end 20 and a leading end 16 having distal edge 18 with a width smaller than the width of the mid portion of the mount 14. Also shown are two apertures 32 for positioning of connectors 24 therethrough.
(43) FIG. 13 depicts the mount 14 formed to be complementary in shape to the indented exterior surface of a caliper housing. Also shown is the distal edge 18 of the leading end 16 narrower than the mid portion of the body of the mount 14. So positioned to contact the caliper 15 during a sliding engagement, the distal edge 18 of the leading end 16 will slide on caliper during installation.
(44) FIG. 14 shows a mount 14 with a body having an elongated portion in the C-shaped trailing end 20 much like the other mounts 14 herein. Also shown are the leading end 16 having a distal edge 18 angled to contact the surface of the caliper 15 during sliding engagement, which has a cross section smaller than the mid portion of the body 14. One or a plurality of apertures 32 are provided for connectors 24.
(45) FIG. 15 depicts the mount 14 in another shape forming an interior contact surface which is complementary in shape to the exterior surface of the caliper 15 housing to which it will slidingly engage. The distal edge 18 of the leading end 16 is curved and positioned to contact and slide on the caliper 15 housing during installation in the fashion noted herein as with other mounts 14.
(46) FIG. 16 shows another mount 14 having a configuration with a trailing end 20 configured to engage under and around a first side of the caliper 15 housing. Also shown are the leading end 15 with a distal edge 18 positioned to contact and slide upon the housing surface during sliding installation noted herein. Subsequent to the flexing of the body, the leading end 16 wraps around and engages the second side of the housing of the caliper 15.
(47) Depicted in FIG. 17 is another configuration of the mount 14 bent to a shape to mirror or conform to the shape of the exterior of the housing of the caliper 15 to which it engages. Also shown are the leading end 16 shaped to position the distal edge 18 as the contact surface with the caliper 15 during sliding engagement and subsequent flexing. Angular projections 34 shaped and positioned to contact side surface of the caliper 15 housing are included once the body is flexed to form the compressive engagement thereon.
(48) Another of the different shapes of the mount 14 is shown in FIG. 18 where the leading end 16 curves to a distal edge 18 positioned to slide along the surface of the caliper 15 housing. As with the other mounts 14 herein, once the trailing end 20 contacts the first side of the housing of the caliper 15, the body of the mount 14 is flexed to allow the leading end 16 to wrap around the second end and thereby form a compressive engagement of the mount 14 on the housing of the caliper 15.
(49) FIG. 19 shows another configuration of the angular portions of the body of the mount 14 which mirror or are complementary to the shape of the caliper 15 housing to which it engages. Also shown are the distal edge 18 of the leading end 16 adapted to contact and then slide on the surface of the caliper 15 housing until the trailing end contacts the caliper 15 housing and the flex of the body of the mount 14 allows the mount 14 to compressibly engage in the fashion noted with all mount 14 herein.
(50) It is to be understood that elements of different construction and configuration and different steps and process procedures and other arrangements thereof, other than those illustrated and described, may be employed for providing the easily mounted decorative and functional caliper covers herein.
(51) As such, while the present invention has been described herein with reference to particular embodiments thereof, a latitude of modifications, various changes and substitutions are intended in the foregoing disclosure, and it will be appreciated that in some instance some features of the invention could be employed without a corresponding use of other features without departing from the scope of the invention as set forth in the following claims. All such changes, alternations and modifications as would occur to those skilled in the art are considered to be within the scope of this invention as broadly defined in the appended claims.
