A throwing sleeve with visual biofeedback may be provided. Embodiments of the present disclosure may be comprised of a sleeve. The sleeve may be comprised of a plurality of segments forming a single, internal passageway with at least one opening. A first opening may be configured to receive an objec
A throwing sleeve with visual biofeedback may be provided. Embodiments of the present disclosure may be comprised of a sleeve. The sleeve may be comprised of a plurality of segments forming a single, internal passageway with at least one opening. A first opening may be configured to receive an object (e.g., baseball or softball) into the internal passageway of the sleeve. A second opening may be configured to receive a user's hand. Embodiments may further comprise a means for securing the user's hand within the internal passageway of the sleeve. Still further, embodiments may comprise at least one stripe running parallel to an edge of each of the plurality of segments.
대표청구항▼
1. A training system comprising: a throwing sleeve having a closed impact end, an open end, and an internal passage formed there between, wherein the internal passage is designed to receive a ball;a means for securing the open end of the sleeve around a user's wrist such that the user's hand is posi
1. A training system comprising: a throwing sleeve having a closed impact end, an open end, and an internal passage formed there between, wherein the internal passage is designed to receive a ball;a means for securing the open end of the sleeve around a user's wrist such that the user's hand is positioned within the internal passage;marking strips positioned on designated positions on the throwing sleeve, said designated positions corresponding to the left, middle and right sides of the user's hand at ninety-degree angles, wherein the marking strips are left and right marking strips of differing colors attached to sides of the throwing sleeve and a middle marking strip positioned on a top of the throwing sleeve, wherein the left, right and middle colored marking strips provide visual feedback for the wrist and forearm angle locations to an observer;a finger loop attached to an inside of the throwing sleeve under the middle marking strip, wherein the finger loop is used to line up one of the marking strip with a finger of the user's throwing hand; andan end material positioned at the closed impact end of the throwing sleeve, wherein said end material reinforces a strength of the closed impact end, andwherein the marking strips provide visual feedback to the user, the marking strips enable the user to align an arm throwing motion with the user's body in a proper kinetic sequence. 2. The training system of claim 1, further comprising: a rigid screen positioned within the throwing sleeve forming a brace for preventing interference between the throwing sleeve and the ball. 3. The training system of claim 1, wherein the means for securing includes marking strips which align with the marking strips on the throwing sleeve. 4. The training system of claim 1, wherein the finger loop includes sensors embedded in the finger loop. 5. The training system of claim 1, wherein the end material is configured to provide audible feedback as the ball impacts the end material. 6. The training system of claim 1, wherein the throwing sleeve has at least one sensor attached to the throwing sleeve. 7. The training system of claim 6, further comprising: a computing device in communication with the at least one sensor, the computing device comprising a memory storage and a processing unit coupled with the memory storage, wherein the processing unit is operative to receive a signal from the at least one sensor. 8. A training system comprising: a throwing sleeve having a closed impact end, an open end, and an internal passage formed there between, wherein the internal passage is designed to receive a ball, and wherein the throwing sleeve has at least one sensor attached to the throwing sleeve, the at least one sensor being configured to detect data associated with a motion of the ball within the internal passage;a means for securing the open end of the sleeve around a user's wrist such that the user's hand is positioned within the internal passage;marking strips positioned on designated positions on the throwing sleeve, said designated positions corresponding to the left, middle and right sides of the user's hand at ninety-degree angles, wherein the marking strips are left and right marking strips of differing colors attached to sides of the throwing sleeve and a middle marking strip positioned on a top of the throwing sleeve, wherein the left, right and middle colored marking strips provide visual feedback for the wrist and forearm angle locations to an observer;a finger loop attached to an inside of the throwing sleeve under the middle marking strip;an end material positioned at the closed impact end of the throwing sleeve, wherein said end material reinforces the strength of the closed impact end; anda computing device in communication with the at least one senor, the computing device comprising a memory storage and a processing unit coupled with the memory storage, wherein the processing unit is operative to receive a signal from the at least one sensor, andwherein the marking strips provide visual feedback to the user, the marking strips enable the user to align the arm throwing motion with the user's body in a proper kinetic sequence. 9. The training system of claim 8, further comprising: a rigid screen positioned within the throwing sleeve forming a brace for preventing interference between the throwing sleeve and the ball. 10. The training system of claim 8, wherein the means for securing includes marking strips which align with the marking strips on the throwing sleeve. 11. The training system of claim 8, wherein the finger loop includes sensors embedded in the finger loop. 12. The training system of claim 8, wherein the end material is configured to provide audible feedback as the ball impacts the end material. 13. The training system of claim 8, wherein the finger loop is used to line up the middle marking strip with the middle finger of the user's throwing hand. 14. The training system of claim 8, wherein the at least one sensor is positioned within the end material. 15. A training system comprising: a throwing sleeve having a closed impact end, an open end, and an internal passage formed there between, wherein the internal passage is designed to receive a ball, and wherein the throwing sleeve has at least one sensor attached to the throwing sleeve, the at least one sensor being configured to detect data associated with a motion of the ball within the internal passage;a means for securing the open end of the sleeve around a user's wrist such that the user's hand is positioned within the internal passage;a rigid screen positioned within the throwing sleeve forming a brace for preventing interference between the throwing sleeve and the ball;marking strips positioned on designated positions on the throwing sleeve, said designated positions corresponding to the left, middle and right sides of the user's hand at ninety-degree angles, wherein the marking strips are left and right marking strips of differing colors attached to sides of the throwing sleeve and a middle marking strip positioned on a top of the throwing sleeve, wherein the left, right and middle colored marking strips provide visual feedback for the wrist and forearm angle locations to an observer;a finger loop attached to an inside of the throwing sleeve under the middle marking strip, the finger loop being configured to align a figure of the user's hand with the middle marking strip;an end material positioned at the closed impact end of the throwing sleeve, wherein said end material reinforces the strength of the closed impact end and is configured to provide audible feedback as the ball impacts the end material; anda computing device in communication with the at least one senor, the computing device comprising a memory storage and a processing unit coupled with the memory storage, wherein the processing unit is operative to receive a signal from the at least one sensor, andwherein the marking strips provide visual feedback to the user, the marking strips enable the user to align the arm throwing motion with the user's body in a proper kinetic sequence. 16. The training system of claim 8, wherein the means for securing includes marking strips which align with the marking strips on the throwing sleeve. 17. The training system of claim 8, wherein the finger loop includes sensors embedded in the finger loop. 18. The training system of claim 8, wherein the at least one sensor is attached within the end material. 19. The training system of claim 8, wherein the finger loop is further used to line up the middle marking strip with the middle finger of the user's throwing hand.
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이 특허에 인용된 특허 (9)
Suppan, Michael J., Baseball/softball training pouch.
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