DISC-BRAKE CALIPER SHIELD SYSTEM

The invention herein disclosed is a disc-brake caliper shield system that is adjustable so as to fit a variety of disc-brake calipers having different shapes, sizes and hex bolt positions.

TECHNICAL FIELD

The invention is a system that covers a vehicle's disc-brake caliper providing cosmetic and protective features.

BACKGROUND OF INVENTION

Although invented in 1902, disc brakes were first introduced to US vehicles in 1949 and essentially displaced drum brakes in the late 1970s and early 1980s.

Instead of the drum brake oriented pan-shaped wheel, the disc brake had a metallic rotor and caliper which was readily seen behind each wheel.

Disc-brake calipers had a fairly standard design by the 1970s but came in a variety of sizes.

As added protection and ornamentation, disc-brake caliper shields were invented, and like the calipers, they came in a variety of sizes with attachments customized for various makes and models of cars.

Makers and sellers of disc-brake caliper shields require that a purchaser specify year, make and model. Most car-parts retailers avoid stocking such items because of the sheer number of different models.

BRIEF DESCRIPTION OF INVENTION

The invention herein disclosed and claimed is a disc-brake caliper shield system that can be adjusted to fit virtually any caliper on any make and model of vehicle. By equipping the shield with two adjustable flanges, and providing shield-attaching fixtures that can be extended horizontally and vertically, a shield can be adjusted to securely attach to a wide variety of disc-brake calipers.

DETAILED DESCRIPTION OF INVENTION

With drum brakes largely replaced by disc brakes in the late 1970s and early 1980s, solid wheels gave way to hub-and-spoke type wheels that showed the rotor and disc-brake calipers behind them.

The calipers were typically unpainted metallic structures that could be dressed up with straddling shields that were more attractive looking and provided some protection for the underlying caliper.

However, there was no standard for caliper size and enclosure, and there were myriad caliper models associated with individual vehicle makes and models.

Makers and sellers of disc-brake shield systems required purchasers to specify year, make and model in order to purchase an essentially customized disc-brake shield.

Although nearly all calipers have two hex bolts that hold their enclosures firmly together, the location of those hex bolts is not standardized and varies with the various disc-brake calipers. Thus, when a disc-brake shield maker outfits a shield with attachment fixtures, those fixtures are specific to each model of caliper in order to make use of those hex bolts for attachment purposes.

The invention herein disclosed is operative to enable a shield to be adjusted and attached to essentially any caliper. It does so by outfitting the shield, itself, with flanges that allow it to be positioned in a plane of the disc-brake rotor. Attached to these flanges are identical, adjustable, shield attachment fixtures that can be extended horizontally and vertically so as to position a hex-bolt collar exactly where a hex bolt is located. Thus, the shield with its adjustable attachment fixtures can be adjusted to fit a wide variety of calipers having different hex-bolt positions.

Most car-parts retailers do not stock disc-brake shield systems because there are simply too many different, customized units. However, a disc-brake system based on the invention herein disclosed would make it possible to stock only a few different unit models that would cover virtually every disc-brake caliper.

The following descriptions and related drawings are exemplary and should not be read as limiting the scope of claims.

In FIG. 1, a hub-and-spoke type wheel (102) enables one to see the disc-brake rotor (103) and disc-brake caliper (101) behind the wheel. In this figure the disc-brake caliper is covered by a shield which gives it a color that is different from the raw metal finish.

In FIG. 2, the view is from the behind the wheel showing a caliper (201), a rotor (203) and a pair of hex bolts (202) that hold the caliper enclosure firmly together.

FIG. 3 is a side view from a slightly elevated position showing the shield (301) and one of its two flanges (302) where the flange allows the shield to be positioned in the plane of the rotor, and once positioned, it is held in place by tightening a screw (307). The shield adjustable attachment fixture has an interleaved portion (303) that slips inside another portion (304) which comprises a vertical portion (308). The horizontal extension can be adjusted by moving 304 relative to 303 and then tightening it using screw (306); and the vertical extension is done by moving the hex-bolt attachment collar (310) up or down relative to 308 and then tightening it into position with screw 309. The hex-bolt attachment collar (310) is tightened onto the hex-bolt head using sub-fixture 311. The dotted-line arrows show the adjustment directions of the attachment fixtures and shield flanges. The hex bolt (FIG. 2, 202) is shown for clarity but is not part of the adjustable attachment fixtures.

FIG. 4 shows the full complement of shield and attachment fixtures from a top-down view.

FIG. 5 shows a perspective view of the shield and adjustable attachment fixtures.

An exemplary method for attaching the disc-brake shield system to a caliper is to first attach the two adjustable shield attachment fixtures to their respective shield flanges. Then, loosening the screws 306, 307, and 309, place the shield so that it straddles the caliper and adjust the adjustable attachment fixtures such that the hex bolt collars cover the hex bolt heads, and tighten the collars using sub-fixture 311. Then, position the shield so that it is covering the caliper and tighten screws 306, 307 and 309.

All drawings and descriptions are meant to be exemplary and should not be read as limiting the scope of the invention. The range of extension, horizontally and vertically, is determined by the sizes and slot lengths in the 303, 304 and 308 portions of the adjustable shield attachment fixtures. A maximum and minimum length could be determined which would be implemented by those sizes and slot lengths.