Hydrant nozzle cap spacer

That which is claimed is: 1. A nozzle cap spacer for a hydrant nozzle cap comprising: a spacer body defining an outer body edge, the spacer body defining a spacer body thickness; and a resilient first spacer spring arm extending from the outer body edge and biased away from the spacer body in an extended orientation, wherein the first spacer spring arm defines a first spring arm thickness; wherein: the first spring arm thickness of the first spacer spring arm is equal to the spacer body thickness of the spacer body; a slot is defined between the first spacer spring arm and the outer body edge; in the extended orientation, a width of the slot increases towards a distal arm end of the first spacer spring arm; the distal arm end is opposite a proximal arm end of the first spacer spring arm; the outer body edge defines a length (La) corresponding to the first spacer spring arm; an inward step is formed at a distal length end of the length (La); and a body recess is formed in the outer body edge along the length (La). 2. The nozzle cap spacer of claim 1 , wherein: a joint is formed between the first spacer spring arm and the spacer body; and a notch is formed at the joint. 3. The nozzle cap spacer of claim 2 , wherein a width of the notch is greater than a width of the slot between the proximal arm end and the outer body edge. 4. The nozzle cap spacer of claim 1 , wherein the first spacer spring arm is substantially arcuate from the proximal arm end to the distal arm end. 5. The nozzle cap spacer of claim 1 , wherein: the spacer body further defines an inner body edge; and the inner body edge defines a body opening formed through a center of the spacer body. 6. The nozzle cap spacer of claim 5 , wherein the body opening is substantially circular. 7. The nozzle cap spacer of claim 1 , wherein the first spacer spring arm extends from the outer body edge at an acute angle. 8. The nozzle cap spacer of claim 7 , wherein: the first spacer spring arm is configurable in the extended orientation and a compressed orientation; and in the compressed orientation, the first spacer spring arm is compressed inward towards the spacer body. 9. The nozzle cap spacer of claim 8 , wherein the acute angle is less in the compressed orientation than in the extended orientation. 10. The nozzle cap spacer of claim 9 , wherein: in the extended orientation, the nozzle cap spacer defines a substantially non-circular shape; and in the compressed orientation, the nozzle cap spacer defines a substantially circular shape. 11. The nozzle cap spacer of claim 7 , wherein the first spacer spring arm extends from the outer body edge in a radially outward direction. 12. The nozzle cap spacer of claim 1 , further comprising a resilient second spacer spring arm extending from the outer body edge opposite the first spacer spring arm. 13. The nozzle cap spacer of claim 12 , wherein each of the first spacer spring arm and the second spacer spring arm extend at least partially about a circumference of the spacer body in a first direction. 14. The nozzle cap spacer of claim 13 , wherein the first direction is a clockwise direction. 15. The nozzle cap spacer of claim 1 , wherein the first spacer spring arm defines a proximal arm end connected to the spacer body, a distal arm end spaced from the spacer body, an arcuate inner arm edge extending from the proximal arm end to the distal arm end, and an arcuate outer arm edge extending from the proximal arm end to the distal arm end.