A ball glove may include a front glove portion, a back glove portion and a webbing. A palm side of the webbing comprises a spin reduction texture. The spin reduction texture includes a first pattern of raised projections and/or recesses.

An athletic training device includes a wheeled frame, and a rotatable platform disposed on a top of the wheeled frame. The wheeled frame comprises an elongated frame body having a front end and a rear end, wherein a front wheel assembly is disposed at the front end of the frame body, and a rear wheel assembly is disposed at the rear end of the frame body. The rotatable platform is configured to support a user's foot during usage of the athletic training device, and may have a substantially planar upper surface portion for placement of the user's foot. The rotatable platform is mounted to the frame body by a pivoting mechanism so that the rotatable platform freely rotates upon the frame body.

A bat having a tubular frame having a circular cross-section, the tubular frame including a large diameter hitting portion, an intermediate tapering portion, and a small diameter handle portion for a user, the tubular frame has a hollow barrel in the large diameter hitting portion, one or more inner barrel inserts positioned within the large diameter hitting portion, the inner barrel inserts each having first and second ends, the inner barrel inserts each have a vertical gap along the length of the entire inner barrel insert, which forms a “C” when viewing the cross section of the inner barrel insert, which is positioned in the hitting portion to enhance the spring effect as well as enhance the durability of the inner barrel insert, the inner barrel insert being secured within said hitting portion, and a cap covering an exposed end of the hitting portion. Wherein said inner barrel insert is relatively convex in shape.

A sporting good implement, such as a hockey stick or ball bat, includes a main body. The main body may be formed from multiple layers of a structural material, such as a fiber-reinforced composite material. One or more microlattice structures may be positioned between layers of the structural material. One or more microlattice structures may additionally or alternatively be used to form the core of a sporting good implement, such as a hockey-stick blade. The microlattice structures improve the performance, strength, or feel of the sporting good implement.

A wrist strengthening device includes a first handle, a second handle coupled to the first handle, and a tightening component coupled to the first handle and the second handle. The tightening component is configured to provide resistance to movement of the first handle and the second handle as the first handle is moved in a first direction and the second handle is moved in a second direction, opposite the first direction. The tightening component includes an outer piece, an inner piece, and a male and a female portion. Movement of the male portion toward the female portion causes space between the inner piece and the outer piece to decrease and friction therebetween to concurrently increase.

A device (e.g., an article of athletic gear) comprising a post-molded expandable component, which is a part of the device that is configured to be expanded or has been expanded after being molded. This may allow the post-molded expandable component to have enhanced characteristics (e.g., be more shock-absorbent, lighter, etc.), to be cost-effectively manufactured (e.g., by using less material and/or making it in various sizes), and/or to be customized for a user (e.g., by custom-fitting it to the user).

Systems and methods for resolving discrepancies between recordings made by multiple scorekeepers for a game comprising discrete events. In an example, a discrepancy resolving system include at least two personal computing devices and a remote server connected thereto, wherein each of the personal computing devices and the server is equipped with software which enables the personal computing devices to receive recordings of game events from a different scorekeeper, sending such recordings to the server, where the recordings from different scorekeepers are compared and discrepancies detected. The discrepancies are sent back to the computing devices for further responses from the scorekeepers. When the responses from different scorekeepers agree with each other, the discrepancies are resolved. When all scorekeepers resolve all discrepancies and agree that the game is over and all game events have been recorded, all versions of game event recordings are identical, and can be merged into one completed, official, scorekeeping record.

A bat handle weight includes a body having a transverse hole with a bat end opening sized to allow a bat handle end to be inserted into the transverse hole. The transverse hole tapers inward at an opposite end from the bat end opening to be narrower than the bat handle end, but wider than the bat handle. The bat handle weight is placed on the bat by placing the bat handle end into the bat end opening, and then rotating the body of the bat handle weight relative to the bat, where the inward tapered portion of the transverse hole bears against the top of the bat handle end, and the user's hand will bear against the outside of the bat handle weight when grasping the bat by the handle, thereby securing the bat handle weight on the bat so that the bat can be swung without the bat handle weight coming off the bat.

A ball bat includes outer shell segments longitudinally spaced apart from each other to form a gap between them. A joint connects the segments. A first outer shell segment may include a barrel portion of the ball bat and at least part of a tapered portion of the ball bat. A second outer shell segment may include at least part of the tapered portion. The joint may include a tubular element having a first portion positioned within the first outer shell segment and at least partially overlapping an interior surface of the first outer shell segment, and a second portion positioned within the second outer shell segment and at least partially overlapping an interior surface of the second outer shell segment. The tubular element may include an elastomeric material. In some embodiments, the joint may be formed by an elastomeric material connecting the outer shell segments in the gap.

Disclosed is a method for analyzing an athletic throwing motion by an individual. The method is executed by a motion monitoring system having at least one computer and at least one inertial sensor for sensing movement of the individual. The method involves the at least one computer receiving inertial sensor data from the at least one inertial sensor during execution of the athletic throwing motion by the individual, analyzing the athletic throwing motion by determining at least one metric from the inertial sensor data, and generating constructive feedback regarding the athletic throwing motion based on the at least one metric. The constructive feedback can for example be biofeedback and/or a prescription for a set of exercises. The constructive feedback can help the individual improve upon the athletic throwing motion. Also disclosed is a motion monitoring system.