US12339093 - Recoil pad assembly

The patent describes a recoil pad assembly for firearms that incorporates multiple lattice layers, including a gyroid structure designed to optimize recoil absorption and dissipation. Additionally, the assembly features a protective layer to prevent deformation and damage during transport and storage.

Claim 1

1. A recoil pad assembly for a firearm comprising: a recoil pad comprising: a bottom layer that engages with the firearm to secure the recoil pad to the firearm via a firearm coupling means; at least two lattice layers comprising: a first lattice layer connected to the bottom layer and comprising a first lattice structure comprising a predominantly triangular crush zone; a second lattice layer connected to the first lattice layer and comprising a gyroid structure that is computer-engineered and 3-D printed for absorbing the recoil produced by a firearm; wherein the second lattice layer serves as a final lattice layer and is furthest from the firearm; a top layer connected to the final lattice layer; wherein the at least two lattice layers are designed and constructed to dissipate, redirect, absorb, and effect the felt recoil generated by the firearm when a user shoots the firearm; and the firearm coupling means for attaching the recoil pad to the firearm. a recoil pad comprising: a bottom layer that engages with the firearm to secure the recoil pad to the firearm via a firearm coupling means; at least two lattice layers comprising: a first lattice layer connected to the bottom layer and comprising a first lattice structure comprising a predominantly triangular crush zone; a second lattice layer connected to the first lattice layer and comprising a gyroid structure that is computer-engineered and 3-D printed for absorbing the recoil produced by a firearm; wherein the second lattice layer serves as a final lattice layer and is furthest from the firearm; a top layer connected to the final lattice layer; wherein the at least two lattice layers are designed and constructed to dissipate, redirect, absorb, and effect the felt recoil generated by the firearm when a user shoots the firearm; and a bottom layer that engages with the firearm to secure the recoil pad to the firearm via a firearm coupling means; at least two lattice layers comprising: a first lattice layer connected to the bottom layer and comprising a first lattice structure comprising a predominantly triangular crush zone; a second lattice layer connected to the first lattice layer and comprising a gyroid structure that is computer-engineered and 3-D printed for absorbing the recoil produced by a firearm; wherein the second lattice layer serves as a final lattice layer and is furthest from the firearm; a first lattice layer connected to the bottom layer and comprising a first lattice structure comprising a predominantly triangular crush zone; a second lattice layer connected to the first lattice layer and comprising a gyroid structure that is computer-engineered and 3-D printed for absorbing the recoil produced by a firearm; wherein the second lattice layer serves as a final lattice layer and is furthest from the firearm; a top layer connected to the final lattice layer; wherein the at least two lattice layers are designed and constructed to dissipate, redirect, absorb, and effect the felt recoil generated by the firearm when a user shoots the firearm; and the firearm coupling means for attaching the recoil pad to the firearm.

Google Patents

https://patents.google.com/patent/US12339093

USPTO PDF

https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/12339093