A sports wrist trainer comprising a first elongated swing member with grip attached to a second elongated swing member with head by means of a one way 90 degree hinge, and an elastic return means that returns and holds said swing members at a ninety degree angle one to the other. According to alternative embodiments, the wrist trainer is a bat used for learning batting swings or a golf club used for learning golf swings. The one way hinge rotates to provide a trainer having different swing configurations and to maintain the bat or club head facing the ball at impact just like at address. The elastic return means may be removed and the trainer used without it. A second one way 90 degree rotating hinge can be added to the first providing additional versatility and accommodating both right and left handed golfers.

A sleeve fits over the barrel of a bat. The sleeve defines an opening such that, when the sleeve is applied to the bat, a significant portion of the barrel of the bat is revealed. The sleeve is made of a light-weight, sound-dampening material, such that when the batter hits a pitched ball in an area of the bat covered by the sleeve, the normal “crack” or “ping” of the ball hitting the bat is not heard. Instead, the batter hears a duller, less sharp sound, providing immediate feedback to the batter that he/she did not hit the ball in the desired area of the bat.

This will give people the ability to participant and enjoy the sport of baseball/softball. Apart from aiding people to participate in the sport of baseball/softball it will function as a physical therapy instrument. The Victory Products are available for non-disability people as well.

As per a generic leather hand glove in the sports field it's known as a Baseball Batting Glove. The VICTORY SUPPORT BASEBALL GLOVE is the key component in operational and proper functional actions of the VICTORY BASEBALL GLOVE.

The product consists of two (2) basic baseball playing elements one is a Leather Baseball Glove (Mitt) and the second is a Leather Support Glove (also known as a batting glove).

A sensor system and method of using the system synergistically to improve the accuracy and usefulness of measured results is described. The system is comprised of electronically linked components that act as markers to trigger events, producers that gather data from sensors and aggregators that combine the data from a plurality of producers using triggers from marker devices to select the data of interest. The system is shown to be applicable to selection of data regions of interest and to analysis of the data to improve accuracy. The analysis of the data of any particular sensor within the system makes use of extrinsic data, being data generated by other sensors and intrinsic data, that is data or data limits that are known to be true from nature, laws of physics or just the particular information the user wants to acquire. The system is demonstrated on the analysis of Doppler radar measurements of a thrown object.

A motion sensor package with an elastomer layer that encases the sensor electronics, including the sensors, a processor, an antenna, and a battery. The elastomer layer may provide shock isolation and water resistance to protect the enclosed electronics. Embodiments may also include an outer housing into which the elastomer encased package is installed. The outer housing may for example comprise two cylindrical sections that screw together to close the outer housing. In one or more embodiments part of the outer housing may be integrated into an item of sports equipment. Embodiments for golf may also include a golf club grip adapter that is inserted into the top of a grip, and which attaches to the outer housing containing the elastomer enclosed sensor package.

Devices, systems, and methods for training baseball and softball batters, to identify types of pitched balls (fast ball, curve ball, slider and changeup) and locations (strike or non-strike zone) of pitched balls in order to increase hitting accuracy A motion sensor can be triggered by the leading foot of a pitcher. The motion sensor can use cone or fan shaped sensor to detect the passage of a pitched ball from the pitcher. When the motion sensor is triggered, a signal can be sent to a black out lens that blocks the vision of a hitter being trained to identify the types and locations of the pitched balls. The training includes changing the lens from transparent to opaque at selected distances between the hitter and the pitcher. Batters can be trained to keep their eyes on the pitched balls until the ball reaches the batter. Golfers can be trained to not have to look up when their club hits the ball, where the black out lens are go opaque when the golf swing passes into the motion sensor.

A grip device is disposed on a handle of a piece of equipment. The grip device includes a lower concave surface contacting the handle and a lower concave surface oriented away from the handle. An adhesive tape is wrapped around the handle and grip device in one embodiment. In another embodiment, an adhesive layer is disposed between the handle and grip device. The lower concave surface includes a first taper at an end of the grip device oriented toward a knob of the handle. The upper convex surface includes a second taper at an end of the grip device oriented away from the knob of the handle. The grip device bends to follow a curvature of the handle.

The present invention and method of use enable a batter to practice and increase skills related to following the path and speed of a ball with their eyes, swinging at the right moment in time in relation to ball-speed, making best contact with a moving ball relative to path location, and further developing swinging techniques when qualified instructor is present. The present invention provides a manually operated batting simulation device for simulating various speeds, irregular or three-dimensional travel toward the batter providing a more realistic ball movement, and is engineered to absorb likely practical potential disturbing and uncomfortable vibration and shock-waves generated by the player striking the fast moving ball. The present invention includes at least one rigid portion, at least one flexible portion and at least one ball portion. The present invention is constructed to have the flexible portion between the ball portion and the rigid portion.

A pitching screen assembly adapted to be readily converted between a deployed configuration and a non-deployed configuration including: a first ground-engaging support member having a first end, a second end, and a midpoint, wherein the first end and the second end define a length therebetween; a second ground-engaging support member having a first end, a second end, and a midpoint, wherein the first end and the second end define a length therebetween; a frame sub-assembly having an internal aperture contained therein; a protective screen, wherein the protective screen covers at least a portion of the internal aperture of the frame sub-assembly; wherein the frame sub-assembly is associated with the first ground-engaging support member and the second ground-engaging support member; and wherein the frame sub-assembly is rotatably displaceable along a first axis (X) that is generally orthogonal to the length of the first ground-engaging support member and the length of the second ground-engaging support member.

A lightweight sweet spot trainer includes a sleeve that is slipped over the barrel end of any bat. The sleeve covers the barrel over the primary contact area of the bat. The sleeve holds a force sensor placed inside it such that, when slid over the bat, the force sensor is coincident with the sweet spot of the bat. When a ball comes in contact with the sweet spot, the force sensor directly beneath it is triggered such that instantaneous feedback is given to the athlete thereby making him/her aware of accurate sweet spot contact. Moreover, an array of cylindrical contact/force sensors can be positioned such that the user gets feedback that would depend on how far from the sweet spot the user strikes/contacts the ball. The user may be notified by audio, visual, or sensory cues.