FIELD OF THE INVENTION
The field of the invention relates to golf equipment, more particularly, a golf ball marker connected to an alignment device used during the process of putting.
BACKGROUND OF THE INVENTION
In the game of golf, a golfer is allowed to mark the position of their golf ball on the putting surface using a ball marker. A ball marker is defined as an artificial object such as a tee, coin, or other object made to be a ball-marker, or another small piece of equipment. After marking the location of the golf ball by placing the marker on the ground near the golf ball, a golfer may lift their golf ball off the putting surface, clean the golf ball, then place the golf ball back on the putting surface in the same location in relation to the ball marker prior to being lifted. The ball marker however cannot be moved while the ball is off the ground.
When the golf ball is placed back down on to the putting surface in the same location relative to the ball marker, the golfer is allowed to adjust the golf ball, by rotating it, so that the printed alignment line featured on the golf ball is aimed at the golfer's desired trajectory. Practically every golf ball features an alignment line printed on one side of the ball. Once the golf ball is placed in its original location in relation to the ball marker with the golfer's satisfactory alignment aim, the ball marker is lifted from the putting surface and the golfer putts the golf ball toward their intended trajectory at the golf hole.
SUMMARY OF THE INVENTION
The present application relates to an improvement of traditional ball markers. The ball marker of the present application includes at least two spikes and reference points on the ball marker as well as a connected rotating alignment device. The design of the ball marker described herein abides to equipment standards and the rules of golf in order to prevent the possibility of rules violations by a golfer using the ball marking device of the present application. The two spikes ensure that ball marker will not move when the attached alignment component is adjusted, and the triangular cutouts on the perimeter of the two-spike ball marker reference the location of the ball on the putting surface when the ball is lifted. The rotating alignment component makes the process of aligning the golf ball toward their intended trajectory at the golf hole easier and more accurate.
The alignment ball marker combines a two-spike ball marker connected to and underneath a rotating alignment component. In one embodiment of the ball marker, the two-spike ball marker features four triangular cutouts on the perimeter of its circular form and two descending spikes. The triangular cutouts serve as a reference point for the location of a golf ball on the putting surface when the golf ball is lifted from and placed back on to the putting surface.
The two descending spikes from the base of the two-spike ball marker are pushed into the putting surface to prevent the two-spike ball marker from moving when the connected rotating alignment component is adjusted. By the rules of golf, if a ball marker is moved by the golfer once the golf ball has been lifted from the putting surface, penalties are applied to a golfer's score for compromising the location of the golf ball on the putting surface.
The alignment component is connected to the two-spike ball marker but not interlocked so that the alignment component can rotate three hundred and sixty degrees around the two-spike ball marker, clockwise or counter clockwise. The alignment component features vertical lines on a top surface that travel from the front of the alignment component toward the rear of the alignment component. The rotation of the alignment component allows a golfer to align the alignment lines on the top of the alignment component toward their desired trajectory at the golf hole.
The adjustment or manipulation of the alignment component can be accomplished by a golfer using their hand or a putter. The benefit from using a putter to make the alignment provides visual perspective that is not achievable by use of a hand. When a golfer is able to see the putting surface terrain between the golf hole and the alignment ball marker as well as the alignment ball marker, the golfer is capable of reading the putting surface terrain while making the adjustment.
The length of the putter serves as an extension of a golfers reach for manipulating the alignment component and affords the visual perspective. The design of the rear or tail section of the alignment component extends beyond the physical dimensions of the two-spike ball marker to allow a golfer the physical ability to manipulate the alignment component using a putter.
In accordance with the present application, golf ball marking and alignment devices and methods of using the same are provided. One general aspect of the application includes an apparatus for marking a golf ball comprising a ball marker component and a rotating adjustment component. The ball marker component may include: a base, a plurality of spikes descending from the base configured to penetrate a ground surface; and a plurality of cutouts on the perimeter of the base. The rotating alignment component may include: one or more directional lines on a top surface of the rotating alignment component; an elongated tail section; and a connection element configured to connect the rotating alignment component to the ball marker component.
Implementations of the apparatus for marking a golf ball may include one or more of the following features together in various combinations or in separate embodiments. The rotating alignment component is connected to the ball marker component so as to allow the rotating alignment component to rotate 360° in both clockwise and counterclockwise directions relative to the ball marker component. The base of the ball marker component can be a circular disk. The plurality of spikes may include two spikes. The ball marker component further may include a further connection element configured to engage the connection element of the rotating alignment component. The further connection element of the ball marker component may include a circular hole through the base of the ball marker component, and the connection element of the rotating alignment component may include a finger configured to be inserted through the circular hole. The finger may include a plurality of flexible segments having an enlarged base, wherein the plurality of flexible segments are configured to flex inwardly to insert the finger through the circular hole and flex outwardly after the finger is inserted through the circular hole. The rotating alignment component may include a circular front section adjacent to the elongated tail section. The circular front section of the rotating alignment component may include a base having the connection element arranged thereon. The circular front section may include a top portion having a projecting edge extending over the base. The elongated tail section may include a lower surface that is sloped at least in part.
A further general aspect of the present application includes an apparatus for marking a golf ball comprising a ball marker component and a rotating adjustment component. The ball marker component may include: a base; and a plurality of spikes descending from the base configured to penetrate the ground; a rotating alignment component may include: an elongated tail section; and at least one connection element configured to connect the rotating alignment component to the ball marker component.
Implementations of this further apparatus of the present application may include one or more of the following features. The rotating alignment component can be connected to the ball marker component so as to allow the rotating alignment component to rotate 360° in both clockwise and counter-clockwise directions relative to the ball marker component. The plurality of spikes may include two spikes. The ball marker component further may include a further at least one connection element configured to engage the at least one connection element of the rotating alignment component. The further connection element of the ball marker component may include a circular hole through the base of the ball marker component, and the connection element of the rotating alignment component may include a finger configured to be inserted through the circular hole. The finger may include a plurality of flexible segments having an enlarged base, wherein the plurality of flexible segments are configured to flex inwardly to insert the finger through the circular hole and flex outwardly after the finger is inserted through the circular hole. The rotating alignment component may include a circular front section adjacent to the elongated tail section, and where the circular front section of the rotating alignment component may include a base having the connection element arranged thereon.
BRIEF DESCRIPTIONS OF THE DRAWINGS
FIG. 1 is a top view of an alignment component of a ball marker device according to an embodiment of the present application.
FIG. 2 is a side view of the alignment component of FIG. 1.
FIG. 3 is a bottom view of the alignment component FIG. 1.
FIG. 4 is a top view of a spiked ball marker component of a ball marker device according to an embodiment of the present application.
FIG. 5 is a side view of the spiked ball marker component of FIG. 4.
FIG. 6 is a bottom view of the spiked ball marker component of FIG. 4.
FIG. 7 show cross-sectional side views of the alignment component of FIG. 1 and the spiked ball marker component of FIG. 4 illustrating how the two pieces connect to each other.
FIG. 8 is an exploded, perspective view of the ball maker device according to an embodiment of the present application
FIG. 9 is a bottom perspective view of the ball maker device of FIG. 8.
FIG. 10 is a top view of the of the ball maker device of FIG. 8.
FIG. 11 illustrates the clockwise rotational movement of the alignment component around the spiked ball marker in the ball maker device.
FIG. 12 illustrates the counter-clockwise rotational movement of the alignment component around the spiked ball marker in the ball maker device.
FIG. 13 illustrates a process of use of the ball marker device according to an embodiment of the present application.
FIG. 14 illustrates an example of a golfer using a putter to adjust the alignment component of the ball marker device from a standing position.
FIG. 15 illustrates an example of a golfer using a putter to adjust the alignment component of the ball marker device from a crouched position.
DETAILED DESCRIPTION OF THE ILLUSTRATIVE EMBODIMENTS
The subject matter of the present application will be described hereafter with reference to FIGS. 1-15. The figures include several reference numerals, which are listed below for convenience:
- 10 Alignment component front section
- 11 Alignment component tail section
- 12 Alignment component alignment line(s)
- 13 Connection bayonet snap
- 14 Projecting Edge
- 20 Ball marker base
- 21 Spikes
- 22 Cutouts
- 23 Connection hole
- 30 Golf ball
- 31 Golf ball printed alignment line
- 32 Golf hole
- 33 Golfer
- 34 Putting surface
- 35 Putter
- 40 Enlargement of illustration section
- 41 Direction of movement
- 41a Clockwise rotation of alignment component
- 41b Counter-clockwise rotation of alignment component
- 42 Visualization of alignment trajectory
- 43 Visualization of putting surface terrain
- 100 Alignment component
- 200 Spiked ball marker
- 300 Alignment ball marker
The present application relates to a golf ball marking apparatus 300, which includes an alignment component 100 and a spiked ball marker 200. The alignment component 100 and spiked ball marker 200 are configured to be connected in a manner that allows the alignment component 100 to fully rotate about the spiked ball marker 200 in both clockwise and counterclockwise directions, for use in alignment of a golf ball 30.
As shown in FIGS. 1-3, a preferred embodiment of the alignment component 100 that has an overall form including a circular form in a front section 10 that extends towards an elongated tail section 11, which steps down in dimensional width towards the tail section 11. Inset from the edge of the circular front section 10, one or more directional lines 12, or other directional indicia, are arranged on the top surface of the alignment component 100 and extend toward the tail section 11 of the alignment component 100 but not as far as the end of the tail section 11. The directional lines 12 are configured to serve as visual aids for a golfer to aim the alignment component 100 at their desired trajectory toward a golf hole 32.
As shown in FIG. 2, the front section 10 of the alignment component 100 may have two-tiers, including a circular top portion and a base portion, with a finger or connection bayonet 13 descending from the base of the front section 10 of the alignment component 100. The top portion of the front section 10 may be longer or greater in diameter than the bottom portion, so as to provide a projecting edge 14 that a golfer 33 can use to grip the alignment ball marker 300 easily to remove from the ground. In the embodiment illustrated in the Figures, the tail section 11 of the alignment component 100 is sloped, in whole or in part, with a raised portion at least at the end, so that the tail section 11 does not touch the ground and for ease of use when a golfer 33 manipulates the alignment component 100 by adjusting it. The descending bayonet 13, or other connection means, connects with the connection hole 23, or other connection means, of the ball marker 200 and holds the two pieces together. It is noted that in other embodiments, the alignment component 100 and the corresponding front section 10 and tail section 11 may also take alternative shapes from those illustrated in the Figures.
A preferred embodiment of the spiked ball marker 200 is shown in FIGS. 4-6. FIG. 4 shows a top view of the spiked ball marker 200 that illustrates the overall form as being a circular disc, having four triangular cutouts 22 on all four sides and a circular connection hole 23 in the center. The triangular cutouts 22 are reference points for the location of the golf ball 30 on the putting surface 34. Although the embodiment illustrated in the Figures shows four cutouts 22, other embodiments of the ball marker 200 may include more or less than four cutouts 22, and the shapes of the cutouts 22 may differ from that shown in the Figures. The circular hole 23 is configured to receive the bayonet 13 of the alignment component in order to connect the alignment component 100 to the two-spike ball marker 200.
FIG. 5 shows a side view of the spiked ball marker 200 that illustrates the overall form of the base 20, the inset of the triangular cutouts 22 and the two descending spikes 21 from the spiked ball marker 200 base 20. The two descending spikes 21 penetrate the ground to hold the alignment ball marker 300 in place so that the spiked ball marker 200 will not move or rotate when a golfer adjusts or turns the connected alignment component 100. Although the embodiment illustrated in the Figures shows two descending spikes 21, other embodiments of the ball marker 200 may include more than two spikes 21.
As shown for example in FIG. 6, the circular hole 23 for connecting the spiked ball marker 200 to the alignment component 100 may include differing diameters of on the top and bottom surfaces of the spiked ball marker 200. The top portion of the connection hole 23 may be smaller in diameter than the bottom portion so that when the bayonet 13 is pushed through the connection hole 23 it holds the two pieces together. The bayonet 13 may include segments that are configured to be flexed inward to fit through the smaller top portion of the connection hole 23 and expand outwardly once they pass through the hole 23 to secure the connection between the alignment component 100 and spiked ball marker 200.
FIG. 7 is an interior side view of the alignment component 100 and the spiked ball marker 200 illustrating how the bayonet 13 on the alignment component 100 flexes inward to travel through and fit into the connection hole 23 of the spiked ball marker 200 in illustrations X., Y., Z. FIG. 8 is a three dimensional bottom view of the alignment component 100 and the spiked ball marker 200 illustrating how the alignment component 100 is positioned to connect with the spiked ball marker 200. Although the Figures illustrate the bayonet 13 and connection hole 23 as the mechanisms on the alignment component 100 and ball marker 200, respectively, for their connection, it is noted that in other embodiments, alternative connecting arrangements may be provided. For example, the bayonet 13 may be in the form of a peg or a pin without multiple flexing segments, and the bayonet, peg or pin may be arranged on the ball marker 200 for receiving in a connection hole on the alignment component. The mechanisms for connecting the alignment component 100 and the ball marker 200 can take other forms that allow the alignment component 100 to rotate circumferentially about the ball marker 200 when the ball marker 200 is in a fixed position.
FIGS. 9 and 10 illustrate the assembled alignment ball marker 300 including the alignment component 100 connected to the spiked ball marker 200. The diameter of the spiked ball marker 200 is larger than the diameter of the front section 10 of the alignment component 100 so that the triangular cutouts 22 of the ball marker 200 are visible to a golfer 33. The position of the alignment component 100 on top of the spiked ball marker 200 shows that both pieces share the same center axis.
The alignment component 100 and spiked ball marker 200 are connected in a way that enables the alignment component 100 to rotate in both the clockwise and counter-clockwise direction. FIG. 11 illustrates the clockwise motion 41a of the alignment component 100 rotating around the spiked ball marker 200, which remains fixed. The position of the spiked ball marker 200 does not change in FIG. 11 parts A., B., C., or D. The alignment component 100 moves in a clockwise motion 41a around the spiked ball marker 200 in FIG. 11 parts A., B., C., or D. FIG. 12 illustrates the counter-clockwise motion 41b of the alignment component 100 rotating around the spiked ball marker 200. The position of the spiked ball marker 200 does not change in FIG. 12 parts E., F., G., or H. The alignment component 100 moves in a counter-clockwise motion 41b around the spiked ball marker 200 in FIG. 12 part E., F., G., or H.
Examples illustrating the use of the alignment ball marker 300 are shown in FIGS. 13-15. FIG. 13 shows a top view of the alignment ball marker 300, golf ball 30, and golf hole 32 on the putting surface 34 showing the process for using the alignment ball marker 300 from STEP 1 through STEP 4. STEP 1 shows the alignment ball marker 300 behind the golf ball 30 on the putting surface 34 to mark the position of the golf ball 30. Once a golf ball 30 is marked, it may be lifted off of the putting surface 34 in order to be cleaned. STEP 2 shows a putter 35 being used to push the tail section 11 of the alignment component 100 to change the trajectory 42 of the alignment lines 12 toward the golf hole 32, or towards the putting line that the golfer wants to aim along. STEP 3 shows the golf ball 30 placed back on to the putting surface 34 in the same location in relation to the alignment ball marker 300 as shown in STEP 1 but with the alignment line 31 on the golf ball 30 in a different position. STEP 4 shows the alignment line 31 on the golf ball 30 rotated, so that it lines up with the same trajectory as the directional lines 12 on the alignment component 100 that were set by the golfer 33, while maintaining the same location in relation to the spiked ball marker 200 on the putting surface 34. Once the alignment is satisfactory, the alignment ball marker 300 is lifted and the golfer 33 putts the golf ball 30 at the golf hole 32.
FIG. 14 is a perspective view of a golfer 33, standing behind and over the alignment ball marker 300, using his or her putter 35 to adjust the alignment component 100 while judging the terrain of the putting surface 34 from the marked location of a golf ball to the golf hole 32. The illustration shows how the putter 35 becomes an extension of the reach of golfer 33 to manipulate the alignment component 100 and provide perspective 43 of the putting surface 34 at the same time. As a result, if the golfer 33 seeks to align the alignment component 100 from an elevated perspective 43 without bending or crouching, he or she can do so.
FIG. 15 is a perspective view of a golfer 33, crouched behind the alignment ball marker 300, using his putter 35 to adjust the alignment component 100 while judging the terrain of the putting surface 34 from the marked location of a golf ball to the golf hole 32. The illustration shows how the putter 35 becomes an extension of the reach of golfer 33 to manipulate the alignment component 100 and provide enhanced perspective 43 of the putting surface 34 from a greater distance behind the position the golf ball 32.
While this invention has been described as having preferred steps, structures, features or designs, it is understood that it is capable of further modifications, uses and/or adaptations of the invention following in general the principle of the invention, and including such departures from the present disclosure as those come within the known or customary practice in the art to which the invention pertains, and as may be applied to the central features hereinbefore set forth, and fall within the scope of the invention and the limits of the appended claims.
Patent Application
20210268351
