Scoring gauges are tools used in shooting sports to determine the precise position of a bullet hole on a shooting target, and hence its scoring value. There are mainly two types of scoring gauges used for paper and cardboard targets, either the "cone shaped" tool or a transparent overlay.
The increased use of electronic targets have led to manual scoring gauges being less used. In modern olympic precision shooting competitions there is usually no manual evaluation of scoring hits any more. However, many of the same principles for manual scoring gauges discussed in this article also applies for programmed scoring gauges used in electronic targets.
Some competition rules state that a cone tool only can be used to gauge a bullet hole once,[1] since the tool widens the hole.[2]
Overlay gauges can be used several times without affecting the target, making it possible for several referees to evaluate a scoring in case of doubt. Scoring overlays are amongst others used in practical shooting within the International Practical Shooting Confederation.
Electronic targets do not need physical inspection, but rather relies on a programmed gauging of the bullet hole.
Scoring gauges can either have a fixed gauging diameter used for all bullet diameters, or have the gauging diameter vary depending on the caliber used. Caliber independent gauging is solely used on both paper and electronic targets in olympic precision events. Some sports use caliber dependent gauging for paper targets.
To give an example of the difference, consider using a cone shape gauge to score a .22 Long Rifle bullet hole (with the .22 LR having a bullet diameter between 5.7 to 5.73 mm), the tip of the scoring gauge might have a diameter of 5 mm and a gauge base measuring 5.6 mm in diameter. On the contrary, a scoring gauge for the 9×19mm Parabellum (9.01 mm bullet diameter) might have a spindle diameter of 9.65 mm, and is therefore slightly larger than the bullet diameter, which is also the case for most scoring gauges. Therefore, an edge hit with the .32 S&W Long (7.9 mm bullet diameter) gauged with a 9.1 mm bullet diameter scoring gauge would be gauged as almost one millimeter over the actual bullet hole,[3] and possibly breaking a scoring ring the else wouldn't be broken.
The outcome of a score gauging is binary; either the bullet hole is assigned a scoring value or not. A bullet hole that doesn't touch a scoring edge does not need to be gauged, but bullet holes that touch a scoring edge often need to be gauged. These touching-an-edge situations can be classified into five scenarios:
Whether the bullet holes in these scenarios are scored as the higher or lower value depends, according to the Civilian Marksmanship Program (CMP), on whether the target is scored "inward" or "outward".[4]
Scoring with gauges outward is done as follows in CMP:
Scoring with gauges inward is done as follows in CMP: