Standardized Working Distance

I read an article recently that recommended standardizing on an 18 inch working distance for all equipment. The reason being the combination of 18, 24 and 36 inch distances would be confusing to the users and there will always be at least one task that will require an 18 inch working distance. This would also provide the worst case exposure and labeling for worst case has been recommended in several posts on the forum.

Is this typically done?

So is this to say that when using 18" say the HRC=4. If using a larger distance the worker could get a way with wearing only HRC=2.

Would something need to be done for the worker's arms, the insulating gloves we use do not go up to the elbow, which is about 18" on my test subject (myself). The torso will be able to be >18" away from the exposed part but not the upper arm.

Thanks for the continued great information.

You have to be careful here, one large company in your area used increased working distances as a "mitigation" method to get some >40cal areas to <40cal, they had all different assumed working distances all over the plant, some were just silly (52"), and of course none of the skilled trades guys understood what the assumed distances meant.

Thanks for the information. This forum is great - it's beneficial to read a variety of answers based on different experiences and applications of the the users. Some of the discussions really make you think and of course ask even more questions! It's a great resource.

But this statement confuses me what if you are working on the back of the gear?

I say 18" for working in the back of the gear. The increased distances are based on the distance from the front of the breaker to the energized stabs, or so I have been led to believe.

Although this is not a desired working condition (back of the gear) but what about infrared testing when removing the back panels for scanning (when ports are not provided), and I have seen some projects where electrical work is conducted on the rear of the gear(switchboard UL891, and switchgear UL1556 or ANSI C37) both low voltage and medium voltage (480V, 4800V & 13200V) whether it be testing, new cable installation, etc. from the back of the gear with the gear energized, as I stated earlier not the best working condition but it happens, is multiple labeling appropriate one on the front door and one on the rear cover? Another question how does insulated bus work into the equation?

Wow after reviewing my edition of 1584 (2002) I did not see this anywhere? I thought for sure I would find something, I guess this also fall into the realm of the double egress in the NEC for large switchboard applications is double egress required from the rear access of the gear? Anyway I digress thanks for all your input and I will look for future updates. Where does it talk about the 24" and 36" distances being from the front of the gear only? thanks again a great site / forum with tons of great information. good job everyone!

We initially standardized on 24" because we did not want the confusion and possible errors originating from wrong choices. At that time we rationalized that most AF PPE for the trunk and face rating would be no closer than 24" even though workers hands could be.

We have now revised that study to 18" on 480V MCC and 480V panelboards (but not 480V switch gear) because that is the default kicked out of our software apparently based on IEEE1584.

Back of gear energized work should be not recommended, if absolutely necessary, perhaps it would be good to de-energize the gear and estimate the distance of the bus to the person's head and shoulders, it'll probably be around 18" but it will not hurt to verify on site