Patent Grant
11752412
The invention relates to golf practice implements generally and, more particularly, to a method and/or apparatus for implementing a golf swing simulator/training aid.
There are few, if any golf training aids that are not overly heavy and not substantially eccentrically off balanced relative to a conventional club. If a user desires a full size implement for practicing the golf swing that is weighted like and, when swung in the manner of a golf club, feels like a conventional golf club, the user is likely to choose a conventional golf club, with which the user can either practice his/her swing or hit balls on a driving range. Most golf swing training devices are consistently relatively heavy compared to a conventional golf club because their objective is muscle strengthening or muscle training. There is no golf swing practice aids available that feel like a conventional golf club and can be broken down for storage or to be carried easily while traveling.
It would be desirable to implement a golf swing simulator/training aid.
The invention concerns a golf swing simulator/training aid comprising a first rod section, a second rod section, a third rod section, a fixed weight, a grip, a first threaded connector fitting, and a second threaded connector fitting. The fixed weight is generally secured to a first end of the first rod section. The grip is generally attached to and surrounding a second end of the third rod section. The first threaded connector fitting may removably couple the first rod section to the second rod section. The second threaded connector fitting may removably couple the second rod section to the third rod section.
Embodiments of the invention will be apparent from the following detailed description and the appended claims and drawings.
Embodiments of the present invention include providing a golf swing simulator/training aid that may (i) be comprised of three main plastic rods or sections, two long and one short, (ii) have a single fixed metal weight adhered to an end of one of a first of the long sections, (iii) allow a number of removable weights to be added adjacent to the single fixed metal weight, provide a golf grip handle or training grip on one end of a second of the long sections, (iv) provide an eight-inch center extension rod for longer swing plane work. (v) benefit a golfer by improving swing tempo and strength training for core muscles and all affected golf swing muscles, (vi) be broken down or disassembled for ease of carrying and storage, and/or (vii) be impermeable to heat and/or cold.
In various embodiments, a golf swing simulator/training aid is provided for facilitating indoor practice. In various embodiments, the golf swing simulator/training aid may comprise a plurality of sections (e.g., 3) that may be removably assembled. In an example, the plurality of sections of the golf swing simulator/training aid, when assembled, may have a total length from about 31 and a half inches to about 39 and a half inches. In one example, the golf swing simulator/training aid may include a standard golf grip on one end and a fixed weight at the other end. In another example, the golf swing simulator/training aid may include a training grip on the one end. In various embodiments, the golf swing simulator/training aid generally allows the addition of a variety of removable auxiliary weights. In an example, the removable auxiliary weights may be configured to slide along the first rod section to abut the fixed weight. In an example, a retaining ring may be slid along the first rod section to hold the removable auxiliary weights adjacent to the fixed weight. By providing a variety of weights, the golf swing simulator/training aid may implement a swing moment that is substantially similar to a number of regular golf clubs (e.g., putter, iron, wood, etc.). In various embodiments, the golf swing simulator/training aid generally provides a similar feel, heft, and swinging weight for practice of golf strokes in confined spaces. By comprising a number of removably assembled sections, the golf swing simulator/training aid may be broken down or disassembled for ease of carrying and storage.
Referring to
In various embodiments, the golf swing simulator/training aid 100 may further comprise an auxiliary weight 112 and an auxiliary weight 114. In an example, various combinations of the fixed primary weight 110, the auxiliary weight 112, and the auxiliary weight 114 generally allow the golf swing simulator/training aid 100 to simulate a variety of golf clubs (e.g., putter, iron, wood, etc.). In an example, the fixed primary weight 110 may have a mass of approximately 200 grams. In an example, the auxiliary weight 112 and the auxiliary weight 114 may each have a mass of approximately 40 grams. However, other masses may be implemented to meet design criteria of a particular application. Although two auxiliary weights are illustrated, any number of auxiliary weights may be implemented accordingly.
In various embodiments, the fixed primary weight 110 may be solidly attached to a first end of the first rod section 102 using a pin 118 and epoxy or other applied gluing (or bonding) agent. In an example, the pin 118 may be implemented as a brass pin. A second end of the first rod section 102 may be removably coupled to a first end of the second rod section 104 by a threaded coupling 120 (described in more detail in connection with
A second end of the second rod section 104 may be removably coupled to a first end of the third rod section 106 by a threaded coupling 130. The threaded coupling 130 is generally implemented similarly to the threaded coupling 120. The threaded coupling 130 may comprise a male threaded connection fitting 132, a female threaded connection fitting 134, and a coupling ring 136. In an example, the male threaded connection fitting 132 may be solidly attached (e.g., using epoxy, etc.) to the second end of the second rod section 104. The female threaded connection fitting 134 may be solidly attached (e.g., using epoxy, etc.) to the first end of the third rod section 106.
In various embodiments, the rod sections 102, 104, and 106 may be fabricated from a plastic material. In an example, the rod sections 102, 104, and 106 may be fabricated from one-half inch acetyl copolymer rod (e.g., Delrin® acetal homopolymer (Polyoxymethylene POM) available from DuPont, Wilmington, Del.). In some embodiments, the third rod section 106 may be fabricated from a metal material. In an example, the third rod section 106 may be fabricated from one-half inch aluminum rod. In an example, the third rod section 106 may be fabrication from one-half inch diameter 6061-T6 aluminum round bar. However, other materials may be utilized. The grip 108 is generally attached to a second end of the third rod section 106. In an example, the grip 108 may be attached in a manner that facilitates replacement for wear and/or varying the grip type. In various embodiments, the grip 108 may be implemented using a standard conventional golf grip. However, other types of grips may be implement (e.g., a training grip) to meet design criteria. In various embodiments, the fixed weight 110, the auxiliary weight 112, and the auxiliary weight 114 may be fabricated from solid stainless steel. In an example, the fixed weight 110, the auxiliary weight 112, and the auxiliary weight 114 may be fabricated from one inch diameter 303 stainless steel rod. However, any similarly weighted metal or other material may be utilized accordingly.
Referring to
In an example, the second end of the first rod section 102 may have a pocket 142. A detail 143 illustrates a view looking endwise at the second end of the first rod section 102. The pocket 142 may be configured to receive the male threaded connection fitting 122. In an example, the pocket 142 may have a diameter of about three-eighths of an inch and a depth of approximately one and three-eighths inches. In an example, the male threaded connection fitting 122 may be solidly attached (e.g., using epoxy, etc.) within the pocket 142.
Referring to
The pocket 146 may be configured to receive the male threaded connection fitting 132. A detail 147 illustrates a view looking endwise at the second end of the second rod section 104. In an example, the pocket 146 may have a diameter of about three-eighths of an inch and a depth of approximately one and three-eighths inches. In an example, the male threaded connection fitting 132 may be solidly attached (e.g., using epoxy, etc.) within the pocket 146.
Referring to
In some embodiments implementing the third rod section 106 in aluminum, an interior surface of the pocket 148 in the first end of the third rod section 106 may be smooth (or non-threaded). In some embodiments implementing the third rod section 106 in aluminum, an interior surface of the pocket 148 in the first end of the third rod section 106 may be threaded. In some embodiments implementing the third rod section 106 in aluminum, the first end of the third rod section 106 may be machined to form the female threaded connection fitting 134, thus eliminating the need for the pocket 148 and use of epoxy or other bonding agent.
Referring to
When the rod sections 102 and 104 of the golf swing simulator/training aid 100 are assembled, the coupling ring 126 is generally placed over the threads of the male threaded connection fitting 122. The coupling ring 126 generally facilitates easy disassembly of the rod sections 102 and 104 (e.g., by preventing the threaded connection fittings being overly tightened during use). In an example, the threaded connection fittings 122, 124, 132, and 134 may be fabrication from aluminum rod. In an example, the threaded connection fittings 122, 124, 132, and 134 may be fabrication from one-half inch diameter 6061-T6 aluminum round bar. In an example, the coupling ring 126 may be implemented as a rubber o-ring. In various embodiments, the rod sections 104 and 106 may be joined together similarly by the threaded coupling 130. In an example, a non-threaded portion of each of the male threaded connection fitting 122, the female threaded connection fitting 124, the male threaded connection fitting 132, and the female threaded connection fitting 134 may be tapered to facilitate a snug fit within the pockets 142, 144, 146, and 148.
Referring to
In an example, a cavity (or pocket) 150 may be formed within one end of the primary fixed weight 110. The pocket 150 may have a diameter of about one-half inch and a depth of about one and one-half inches. The pocket 150 is generally configured to fit snugly onto the first end of the first rod section 102. In an example, the end of the primary fixed weight 110 with the pocket 150 may have a through hole 152. The through hole 152 may be configured to receive the pin 118 to solidly attach the fixed primary weight 110 to the first end of the first rod section 102. In an example, the through hole 152 may be located approximately three-quarters of an inch from the end of the primary fixed weight 110. In an example, the through hole 152 may have a diameter of approximately one-eighth of an inch and a length of approximately seven-eighths of an inch. In an example, the cylindrical primary fixed weight 110 may be solidly attached to the first rod section 102 using the brass pin 118 and epoxy or other applied gluing agent.
Referring to
Referring to
In an example, the male threaded connection fitting 162 may be threaded into the second end of the first rod section 102 and solidly attached (e.g., using epoxy, etc.) to the second end of the first rod section 102. The female threaded connection fitting 124 may be threaded into the first end of the first rod section 104 and solidly attached (e.g., using epoxy, etc.) to the first end of the second rod section 104. In an example, the pocket 142 in the second end of the rod section 102 may be threaded to match a first threaded portion of the male threaded connection fitting 162. In an example, the pocket 142 in the second end of the rod section 102 may comprise ¼-20 unified national coarse (UNC)-2B internal threads and the first threaded portion of the male threaded connection fitting 162 may comprise ¼-20 UNC-2A external threads. Similarly, the female threaded connection fitting 164 may be threaded into the pocket 144 in the first end of the second rod section 104 and solidly attached to the second rod section 104 using an epoxy or other applied gluing agent. In an example, the pocket 144 in the first end of the rod section 104 may comprise ¼-20 unified national coarse (UNC)-2B internal threads and the first threaded portion of the female threaded connection fitting 164 may comprise ¼-20 UNC-2A external threads. In an example, the use of internal threads in the pockets 142, 144, and 146 may increase a surface area of the connections upon which the epoxy may act. In an example, a second threaded portion of the male threaded connection fitting 162 may comprise ⅜-16 UNC-2A external threads. Similarly, the female threaded connection fitting 164 may comprise a cavity (or pocket) that may comprise ⅜-16 UNC-2B internal threads.
When the rod sections 102 and 104 of the golf swing simulator/training aid 100 are assembled, the coupling ring 166 is generally placed over the threads of the male threaded connection fitting 162. The coupling ring 166 generally facilitates easy disassembly of the rod sections 102 and 104 (e.g., by preventing the threaded connection fittings being overly tightened during use). In an example, the threaded connection fittings 162 and 164 may be fabrication from half inch diameter aluminum rod. In an example, the threaded connection fittings 162 and 164 may be fabrication from one-half inch diameter 6061-T6 aluminum round bar. In an example, the coupling ring 166 may be implemented as a rubber o-ring. In various embodiments, the rod sections 104 and 106 may be joined together by the threaded coupling 160 similarly to the threaded couplings 120 and 130. In some embodiments, the rod sections 104 and 106 may be joined together by one fitting (e.g., male or female) of the threaded coupling 160 and one fitting (e.g., female or male) of the threaded couplings 120 and 130.
Referring to
Referring to
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The terms “may” and “generally” when used herein in conjunction with “is(are)” and verbs are meant to communicate the intention that the description is exemplary and believed to be broad enough to encompass both the specific examples presented in the disclosure as well as alternative examples that could be derived based on the disclosure. The terms “may” and “generally” as used herein should not be construed to necessarily imply the desirability or possibility of omitting a corresponding element.
While the invention has been particularly shown and described with reference to embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made without departing from the scope of the invention.
This application relates to U.S. Provisional Application No. 63/183,115, filed May 3, 2021, which is hereby incorporated by reference in its entirety.
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