A golf training aid alignment device

By incorporating a visually aligned vertical bar and laser feedback into the golf training aid, the problem of existing tools being unable to correct hitting posture has been solved, enabling precise adjustment and intuitive feedback of hitting posture, thus improving training effectiveness.

CN224331463UActive Publication Date: 2026-06-09CHENGDU WEIDA ELECTRONIC TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHENGDU WEIDA ELECTRONIC TECHNOLOGY CO LTD
Filing Date
2025-07-22
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing golf training aids are difficult to accurately correct hitting posture, lack intuitive feedback, are complex to operate, and increase training difficulty and time costs.

Method used

By setting a first vertical bar and a second vertical bar on the first and second supports, the visual alignment characteristics are utilized, combined with the ball and laser illumination mechanism to provide intuitive feedback on the hitting posture, helping the golfer to adjust their posture.

Benefits of technology

It improves the accuracy and effectiveness of hitting posture, reduces the formation of incorrect postures, and enhances the intuitiveness and fun of training.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a golf training auxiliary alignment device, relating to the field of sports training auxiliary devices, comprising: a first support, which is an inverted "U" shaped structure, used to form a closed first doorway after being installed on a flat surface; and a second support, which is an inverted "U" shaped structure, used to form a closed second doorway after being installed on a flat surface; a gap exists between the first and second supports, and the projection of the first doorway in the horizontal direction can overlap with the second doorway; wherein a first vertical rod is provided at the center of the top of the first support, and a second vertical rod is provided at the center of the top of the second support. This utility model, by setting the first and second vertical rods on the first and second supports, can utilize the visual alignment characteristics of the first and second vertical rods to improve the accuracy of golfer's hitting posture correction and provide convenient intuitive feedback.
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Description

Technical Field

[0001] This utility model relates to the field of sports training auxiliary devices, specifically to a golf training auxiliary alignment device. Background Technology

[0002] Golf, with its precise technical requirements and elegant movement, is beloved by many sports enthusiasts. In golf training, the correct striking posture is one of the key factors for achieving accurate shots and improving overall performance. A good striking posture helps golfers better control the direction, power, and trajectory of the ball, leading to better results in competition. Therefore, mastering and maintaining the correct striking posture is crucial for golfers. However, in actual golf training, many golfers, especially beginners, often struggle to accurately grasp and maintain the correct striking posture. This not only affects their training results but can also lead to the formation of incorrect striking habits, ultimately hindering their long-term development in the sport.

[0003] While some golf training aids exist on the market, most only offer basic functions such as swing posture correction or distance measurement, lacking effective means to accurately correct swing posture. Existing aids often suffer from limited functionality, complex operation, and a lack of intuitive feedback on swing posture deviations, failing to meet the diverse needs of golfers for posture correction during training. For example, some training aids guide the golfer's shot direction by setting fixed targets, but due to the distance between the target and the golfer, it's difficult for the golfer to accurately judge the correspondence between the swing posture and the target, resulting in poor training effectiveness. Furthermore, these tools are complex to operate, requiring golfers to spend a significant amount of time adjusting and setting them, increasing the difficulty and time cost of training.

[0004] In view of the above, this application is hereby submitted. Utility Model Content

[0005] The purpose of this invention is to provide a golf training auxiliary alignment device. By setting a first vertical rod and a second vertical rod on a first support and a second support, the visual alignment characteristics of the first vertical rod and the second vertical rod can be utilized to solve the problem in the prior art that it is difficult to accurately correct the golfer's hitting posture and lacks intuitive feedback.

[0006] This utility model embodiment is achieved through the following technical solution: providing a golf training auxiliary alignment device, comprising:

[0007] The first bracket is an inverted "U" shaped structure, used to form a closed first doorway after being installed on a flat surface;

[0008] The second bracket is an inverted "U" shaped structure, used to form a closed second doorway after being installed on a flat surface;

[0009] There is a gap between the first support and the second support, and the projection of the first doorway in the horizontal direction can overlap with the second doorway;

[0010] The first support has a first vertical rod at the center of its top, and the second support has a second vertical rod at the center of its top.

[0011] Optionally, a first sphere is provided at the top of the first vertical rod, and a second sphere is provided at the top of the second vertical rod, with the first vertical rod being higher than the second vertical rod.

[0012] Optionally, a first sphere is provided at the top of the first vertical rod, and an irradiation mechanism is provided at the top of the second vertical rod. The laser irradiated by the irradiation mechanism can form a straight line projection on the flat bottom surface, and the straight line projection penetrates the first doorway.

[0013] Optionally, it also includes a third bracket, which is an inverted "U" shaped structure, used to form a closed third doorway after being installed on a flat surface;

[0014] The second doorway is located between the first and third doorways, and the first, second, and third doorways are all located on the same straight line.

[0015] The third support is equipped with a third vertical rod, and the top of the third vertical rod is equipped with an irradiation mechanism. The laser irradiated by the irradiation mechanism can form a straight line projection on the flat bottom surface, and the straight line projection passes through the first doorway and the second doorway at the same time.

[0016] Optionally, it also includes a first connecting rod, and both the first bracket and the second bracket are provided with first mounting holes;

[0017] One end of the first connecting rod is installed in the first mounting hole of the first bracket, and the other end is installed in the first mounting hole of the second bracket;

[0018] The plane containing the first and second vertical rods is parallel to or overlaps with the first connecting rod.

[0019] Optionally, it also includes a second connecting rod, and both the first bracket and the second bracket are provided with a second mounting hole;

[0020] One end of the first link is installed in the second mounting hole of the first bracket, and the other end is installed in the second mounting hole of the second bracket. The second link is parallel to the first link.

[0021] Optionally, the first bracket and / or the second bracket includes a first support foot and a second support foot. The first support foot is provided with a first groove, and the second support foot is provided with a second groove. A first support rod is installed in the first groove, and a second support rod is provided in the second groove.

[0022] Optionally, a third groove is provided on the top of the first bracket or the second bracket, and a third mounting hole is provided in the third groove for mounting the first vertical rod or the second vertical rod.

[0023] Optionally, a fixing block is provided at the top of the second vertical rod, and a clamping member is provided on the fixing block. The clamping member is used to movably clamp the irradiation mechanism. The clamping member is movably connected to the fixing block, and the angle between the clamping member and the fixing block can be adjusted.

[0024] Optionally, the first sphere and the second sphere are the same size.

[0025] Compared with the prior art, the embodiments of this utility model have the following advantages and beneficial effects:

[0026] 1. During training, the golfer stands outside the first or second support, facing the two vertical bars. When the golfer adjusts their body posture so that the first and second vertical bars overlap in their field of vision, it means that the golfer's body posture is aligned with the direction of the shot. At this point, the golfer can make the shot, and the ball will pass through the first and second holes in the correct direction. This structure visually guides the golfer to adjust their shooting posture through the overlap of the vertical bars, allowing the golfer to more accurately judge whether their posture is correct, thereby improving the accuracy of their shot.

[0027] This embodiment of the invention utilizes the visual alignment characteristics of the first and second vertical rods, allowing golfers to intuitively perceive deviations in their hitting posture during training and make timely adjustments. This intuitive feedback method helps golfers master the correct hitting posture more quickly, avoids the formation of incorrect postures, and thus improves training effectiveness.

[0028] 2. By setting up a first ball and a second ball, players can adjust their hitting posture by observing the relative positions of the two balls during training. This helps players to more accurately perceive the relationship between the hitting direction and body posture, thereby mastering the correct hitting posture more quickly and improving training effectiveness.

[0029] 3. By setting up a first sphere and an illumination mechanism to emit a laser, players can adjust their hitting posture during training by observing the relative position of the sphere and the laser. The linear projection of the laser onto the flat surface has a clear visual contrast with the first sphere, allowing players to more intuitively judge the accuracy of their hitting direction, further enhancing the visual guidance effect. Players can more clearly see the correspondence between the hitting direction and the target during training, thus more effectively correcting their posture and improving hitting accuracy.

[0030] 4. By setting up a first sphere, a second sphere, and a laser emitted by an illumination mechanism, players can receive comprehensive visual feedback during training. Players can not only adjust their hitting posture by observing the overlap of the two spheres, but also judge the accuracy of the hitting direction by observing the linear projection of the laser. This dual visual feedback provides players with richer information, helping them to more comprehensively perceive the accuracy of their hitting posture and direction, thereby more effectively correcting their posture and improving training results.

[0031] In general, the golf training auxiliary alignment device provided by the embodiments of this utility model, by setting a first vertical rod and a second vertical rod on a first support and a second support, can utilize the visual alignment characteristics of the first vertical rod and the second vertical rod to improve the accuracy of golfer's hitting posture correction and provide the convenience of intuitive feedback. Attached Figure Description

[0032] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this utility model and should not be regarded as a limitation on the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.

[0033] Figure 1 This is a schematic diagram of the golf training auxiliary alignment device provided in Embodiment 1 of this utility model;

[0034] Figure 2 This is a schematic diagram of the golf training auxiliary alignment device provided in Embodiment 2 of this utility model;

[0035] Figure 3 This is a schematic diagram of the golf training auxiliary alignment device provided in Embodiment 3 of this utility model;

[0036] Figure 4 This is a schematic diagram of the golf training auxiliary alignment device provided in Embodiment 4 of this utility model;

[0037] Figure 5 This is a schematic diagram of the golf training auxiliary alignment device provided in Embodiment 5 of this utility model;

[0038] Figure 6 A schematic diagram of the support structure provided for an embodiment of this utility model;

[0039] Figure 7 This is a top view of the support structure provided in an embodiment of the present utility model;

[0040] Figure 8 This is a schematic diagram of the bracket installation structure provided in an embodiment of the present utility model;

[0041] Figure 9 This is a schematic diagram of the installation structure of the irradiation mechanism provided in an embodiment of the present utility model.

[0042] The attached diagram shows the markings and corresponding component names:

[0043] 1-First support, 2-First doorway, 3-Second support, 4-Second doorway, 5-First vertical rod, 6-Second vertical rod, 7-First sphere, 8-Second sphere, 9-Illumination mechanism, 10-Linear projection, 11-Third support, 12-Third doorway, 13-Third vertical rod, 14-First connecting rod, 15-First mounting hole, 16-Second connecting rod, 17-Second mounting hole, 18-First support foot, 19-Second support foot, 20-First groove, 21-Second groove, 22-First support rod, 23-Second support rod, 24-Third groove, 25-Third mounting hole, 26-Fixing block, 27-Clamping component, 28-Golf ball, 29-Third connecting rod, 30-Fourth connecting rod. Detailed Implementation

[0044] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can typically be arranged and designed in various different configurations.

[0045] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.

[0046] It should be noted that similar labels and letters in the following figures indicate similar items. Therefore, once an item is defined in one figure, it does not need to be further defined and explained in subsequent figures.

[0047] In the description of this utility model, it should be noted that the terms "first", "second", "third", etc. are used only for distinguishing descriptions and should not be construed as indicating or implying relative importance.

[0048] Example

[0049] Example 1: Refer to Figure 1As shown, this utility model embodiment provides a golf training auxiliary alignment device, including a first bracket 1 and a second bracket 3. The first bracket 1 has an inverted "U" shape structure, which is used to form a closed first doorway 2 after being installed on a flat surface. The second bracket 3 has an inverted "U" shape structure, which is used to form a closed second doorway 4 after being installed on a flat surface. There is a gap between the first bracket 1 and the second bracket 3, and the projection of the first doorway 2 in the horizontal direction can overlap with the second doorway 4. A first vertical rod 5 is provided at the center of the top of the first bracket 1, and a second vertical rod 6 is provided at the center of the top of the second bracket 3.

[0050] Specifically, both the first support 1 and the second support 3 are inverted "U" shaped structures, providing stable support for the entire device and forming a closed first doorway 2 and a closed doorway 4 respectively. The horizontal projections of the two doorways can overlap, providing the golfer with a clear hitting channel. In use, the golfer stands on the outside of the first support 1 or the second support 3 (for example, the golfer can stand on...). Figure 1 As shown at point A, when preparing to strike the ball, these two arches act like a virtual "target gate," guiding the golfer to hit the ball in the correct direction.

[0051] The first vertical bar 5 is positioned at the top center of the first support 1, and the second vertical bar 6 is positioned at the top center of the second support 3. Their function is to utilize visual alignment to help golfers correct their hitting posture. When the golfer stands at point A preparing to hit the ball, by adjusting their body posture, the first vertical bar 5 and the second vertical bar 6 overlap in their field of vision. At this point, the golfer's body posture is in the optimal hitting position. This visual alignment method is very intuitive, allowing golfers to quickly perceive deviations in their posture during training and make timely adjustments.

[0052] It should be noted that the gap between the first support 1 and the second support 3 can be adjusted according to actual training needs and is not limited here. The first vertical rod 5 and the second vertical rod 6 are respectively fixed at the top center of their respective supports to ensure that their positional relationship in space is fixed, providing the player with a stable visual alignment reference. The connection method between the first vertical rod 5 and the first support 1 is not limited here. It can be glued, snap-fitted, threaded, or even welded, integrated, etc., as long as sufficient connection stability is achieved.

[0053] In practical use, the golfer first installs the first support 1 and the second support 3 on a flat surface, ensuring the gap between them is appropriate. Then, the golfer stands outside the first support 1 or the second support 3, facing the two vertical clubs. The golfer adjusts their body posture so that the first vertical club 5 and the second vertical club 6 overlap in their field of vision. At this point, the golfer can make a striking motion, and the ball will pass through the first hole 2 and the second hole 4 in the correct direction (generally, the golf ball 28 is pre-placed on the center line at the bottom of the passage formed by the first hole 2 and the second hole 4, and then struck from the center line). Through this intuitive visual alignment method, the golfer can continuously correct their striking posture during training, improving the accuracy and stability of their shots. This golf training auxiliary alignment device of the present invention not only helps golfers correct their posture and improve training effectiveness, but also enhances the fun of training, allowing golfers to continuously improve their skills while enjoying the sport of golf.

[0054] Example 2: Refer to Figure 2 As shown, based on Embodiment 1, a first ball 7 is provided at the top of the first vertical rod 5, and a second ball 8 is provided at the top of the second vertical rod 6.

[0055] Specifically, the arrangement of the first sphere 7 and the second sphere 8 provides golfers with more intuitive visual references. During training, golfers can not only adjust their posture by aligning the first vertical bar 5 and the second vertical bar 6, but also use the relative positions of the first sphere 7 and the second sphere 8 to further accurately judge the accuracy of their line of sight and hitting direction. Preferably, the first sphere 7 and the second sphere 8 are the same size but different colors, which utilizes the visual effect of color contrast to further enhance the visual guidance function of the device. During training, players can more intuitively judge the alignment of the first sphere 7 and the second sphere 8 through color contrast, thereby more accurately adjusting their hitting posture. For example, if the first sphere 7 is red and the second sphere 8 is blue, when adjusting their posture, players can quickly judge whether their line of sight and body posture are correct by observing the alignment of the red and blue spheres. Of course, in other embodiments, the first sphere 7 and the second sphere 8 can be replaced with other shapes, not limited to spheres, such as cuboids, cones, etc. No limitation is made here.

[0056] In a preferred embodiment of this utility model, the first vertical bar 5 is higher than the second vertical bar 6. When practicing golf, the player can stand on the side of the first vertical bar 5, that is, the higher side. For example, refer to Figure 2At position A, when the player stands to one side of the first vertical bar 5 to prepare for the shot, the height advantage of the first vertical bar 5 provides a clearer and more layered visual guide. The different heights of the first ball 7 and the second ball 8 allow the player to more intuitively perceive the spatial relationship between their body and the target direction when adjusting their hitting posture. More specifically, the higher first vertical bar 5 and the first ball 7, closer to the player, attract their attention and guide their gaze naturally upwards along the vertical bar. The lower second vertical bar 6 and the second ball 8 form a relatively low reference point in the field of vision. When the player adjusts their hitting posture so that the first ball 7 and the second ball 8 are aligned in their field of vision, this height difference helps the player better control their head position and line of sight. The player's gaze naturally extends from the higher first ball 7 to the lower second ball 8, and this extension of vision is consistent with the direction of the shot, thus helping the player maintain the correct head posture and line of sight at the moment of impact.

[0057] More preferably, the first sphere 7 and the second sphere 8 are the same size but different colors. By utilizing the visual effect of color contrast, the visual guidance function of the device is further enhanced. During training, players can more intuitively judge the alignment of the first sphere 7 and the second sphere 8 through color contrast, thereby adjusting their hitting posture more accurately. For example, if the first sphere 7 is red and the second sphere 8 is blue, when adjusting their posture, players can quickly judge whether their line of sight and body posture are correct by observing the alignment of the red and blue spheres.

[0058] Example 3: Reference Figure 3 As shown, based on Embodiment 1, a first sphere 7 is provided at the top of the first vertical rod 5, and an irradiation mechanism 9 is provided at the top of the second vertical rod 6. The laser irradiated by the irradiation mechanism 9 can form a straight line projection 10 on the flat bottom surface, and the straight line projection 10 penetrates the first doorway 2.

[0059] Specifically, based on Embodiment 2, this embodiment of the invention replaces the second sphere 8 with an irradiation mechanism 9. The irradiation mechanism 9 emits a laser to form a clear straight line projection 10 on the flat surface. This straight line projection 10 runs through the first archway 2, providing the player with a clear direction for hitting the ball. Through this straight line projection 10, the player can intuitively see the correspondence between the hitting direction and the target, thereby more accurately adjusting their hitting posture and direction.

[0060] During training, the player stands on one side of the first support 1 (e.g., area A), facing the straight projection 10 formed by the first sphere 7 and the illumination mechanism 9. The golf ball 28 is placed on the straight projection 10 in front of area A, and the straight projection 10 can be adjusted to be the center line of the bottom of the passage. The player adjusts their body posture so that their line of sight extends along the direction of the straight projection 10, while ensuring that the first sphere 7 is in the correct position in their field of vision. When the first sphere 7 completely blocks the laser emitted by the illumination mechanism 9 in space, the player's line of sight and body posture reach the optimal hitting state. At this time, the player can make the hitting motion, and the ball will pass through the first hole 2 and the second hole 4 along the direction of the straight projection 10, thus achieving a precise shot.

[0061] Example 4: Reference Figure 4 As shown, based on embodiment 2, a third support 11 is also included. The third support 11 has an inverted "U" shape structure and is used to form a closed third doorway 12 after being installed on the flat bottom surface. The second doorway 4 is located between the first doorway 2 and the third doorway 12. The first doorway 2, the second doorway 4 and the third doorway 12 are arranged on the same straight line. A third vertical rod 13 is provided on the third support 11. An irradiation mechanism 9 is provided at the top of the third vertical rod 13. The laser irradiated by the irradiation mechanism 9 can form a straight line projection 10 on the flat bottom surface. The straight line projection 10 passes through both the first doorway 2 and the second doorway 4.

[0062] Specifically, the three holes are arranged in a straight line, with the second hole (4) positioned precisely between the first hole (2) and the third hole (12), providing the player with a clear striking path and guiding them in the predetermined direction. The laser emitted by the illumination mechanism 9 projects a straight line projection (10) onto the flat surface. This projection precisely passes through the first hole (2) and the second hole (4), indicating the ball's direction to the player. The player stands to one side of the first support 1, focusing their gaze on the straight line projection (10) formed by the first sphere (7), the second sphere (8), and the illumination mechanism 9. The player adjusts their position and posture until the first sphere (7) and the second sphere (8) perfectly overlap in their field of vision, and precisely block the laser emitted by the illumination mechanism 9. At this point, the player's vision, body posture, and striking direction are all at their optimal state, allowing them to strike decisively. The ball flies out along the direction indicated by the straight line projection (10), passing through the first hole (2) and the second hole (4) in sequence, finally reaching the area of ​​the third hole (12).

[0063] Example 5: In conjunction with reference Figure 5 and Figure 6As shown, based on Embodiment 4, it further includes a first connecting rod 14, and both the first bracket 1 and the second bracket 3 are provided with first mounting holes 15; one end of the first connecting rod 14 is installed in the first mounting hole 15 of the first bracket 1, and the other end is installed in the first mounting hole 15 of the second bracket 3; the planes of the first vertical rod 5 and the second vertical rod 6 are parallel to or overlap with the first connecting rod 14. Preferably, it further includes a second connecting rod 16, and both the first bracket 1 and the second bracket 3 are provided with second mounting holes 17; one end of the first connecting rod 14 is installed in the second mounting hole 17 of the first bracket 1, and the other end is installed in the second mounting hole 17 of the second bracket 3, and the second connecting rod 16 is parallel to the first connecting rod 14. Similarly, a third connecting rod 29 and a fourth connecting rod 30 can also be provided between the second bracket 3 and the third bracket 11.

[0064] The first link 14 ensures a tight connection between itself and the two supports, and also makes the entire device more stable during use, effectively resisting the influence of external factors (such as wind or vibrations generated when a player hits the ball) on the stability of the device. Preferably, the first link 14 and the second link 16 are symmetrically arranged on both sides of the support, further improving the stability of the entire device. The principle of the third link 29 and the fourth link 30 is similar to that of the first link 14 and the second link 16, and will not be repeated here. At the same time, the detachable arrangement of the first link 14, the second link 16, the third link 29, and the fourth link 30 with the corresponding mounting holes improves the flexibility of the entire device.

[0065] As a preferred embodiment of this utility model, in conjunction with reference to... Figure 6 and Figure 8 As shown, the first bracket 1 and / or the second bracket 3 include a first support foot 18 and a second support foot 19. The first support foot 18 is provided with a first groove 20, and the second support foot 19 is provided with a second groove 21. A first support rod 22 is installed in the first groove 20, and a second support rod 23 is provided in the second groove 21.

[0066] Specifically, the first support rod 22 and the second support rod 23 further enhance the stability of the device and increase the contact area between the entire device and the ground, especially on softer grass. Players can adjust the length or position of the support rods according to the actual field conditions to ensure that the device maintains optimal stability in various environments. The detachable connection between the first support rod 22 and the support foot further improves the flexibility of the entire device.

[0067] More preferably, in conjunction with reference Figure 6 , Figure 7 and Figure 8As shown, a third groove 24 is provided on the top of the first bracket 1 or the second bracket 3, and a third mounting hole 25 is provided within the third groove 24. The third mounting hole 25 is used to install the first vertical rod 5 or the second vertical rod 6. By providing a third mounting hole 25 within the third groove 24, not only can the installation accuracy of the vertical rod be improved, but its stability during use can also be enhanced. Furthermore, the detachable connection improves the flexibility of the device. To further improve the installation stability of the vertical rod, it can be configured to be threadedly connected to the third mounting hole 25. The installation method of the third bracket 11 and the third vertical rod 13 can also be similarly configured, and will not be described again here. It should be noted that the structure and dimensions of the first bracket 1, the second bracket 3, and the third bracket 11 can be made completely identical, which facilitates easy alignment during installation.

[0068] Further, refer to Figure 9 As shown, a fixing block 26 is provided at the top of the second vertical rod 6, and a clamping member 27 is provided on the fixing block 26. The clamping member 27 is used to movably clamp the irradiation mechanism 9. The clamping member 27 is movably connected to the fixing block 26, and the included angle between the clamping member 27 and the fixing block 26 can be adjusted. The function of the fixing block 26 is to provide a stable mounting platform for the clamping member 27, ensuring the stability and reliability of the clamping member 27 during use. A threaded hole can be provided at the bottom of the fixing block 26, and then threadedly connected to the vertical rod to improve the connection stability. The clamping member 27 is used to movably clamp the irradiation mechanism 9, allowing the irradiation mechanism 9 to be adjusted within a certain range to adapt to different usage requirements. The clamping member 27 and the fixing block 26 can be connected by existing movable connection methods, which are not restricted here, so that the included angle between the clamping member 27 and the fixing block 26 can be adjusted, thereby realizing multi-angle adjustment of the irradiation mechanism 9.

[0069] During installation, the first bracket 1, the second bracket 3, and the third bracket 11 are first installed on the flat surface. Then, the first connecting rod 14, the second connecting rod 16, the third connecting rod 29, and the fourth connecting rod 30 are installed in the mounting holes of the corresponding brackets to further enhance the stability of the device. Next, the positions of the first support rod 22 and the second support rod 23 can be adjusted according to the actual site conditions to ensure the device remains stable on uneven ground or soft grass. The first vertical rod 5, the second vertical rod 6, and the third vertical rod 13 are installed in their respective third mounting holes 25. The precise setting of the third groove 24 and the third mounting holes 25 ensures the stability and verticality of the vertical rods after installation. The player installs the irradiation mechanism 9 on the clamping member 27 at the top of the third vertical rod 13 and adjusts the angle between the clamping member 27 and the fixing block 26 as needed to ensure that the laser from the irradiation mechanism 9 is accurately projected onto the flat surface, forming a clear straight-line projection 10.

[0070] After installation, the player stands on one side of the first support 1, facing the linear projection 10 formed by the first sphere 7, the second sphere 8, and the illumination mechanism 9. The player adjusts their body posture so that the first sphere 7 overlaps with the second sphere 8, blocking the laser beam. At this point, the player's line of sight and body posture are at their optimal striking position. The player can then strike the ball, which will travel along the linear projection 10, passing sequentially through the first hole 2 and the second hole 4, finally entering the third hole 12.

[0071] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model. It should be noted that the structures or components illustrated in the accompanying drawings are not necessarily drawn to scale, and descriptions of well-known components, processing techniques, and processes are omitted to avoid unnecessarily limiting the utility model.

Claims

1. A golf training aid alignment device, characterized in that, include: The first bracket (1) is an inverted "U" shaped structure, which is used to form a closed first doorway (2) after being installed on a flat bottom surface. The second bracket (3) is an inverted "U" shaped structure, which is used to form a closed second doorway (4) after being installed on a flat bottom surface. There is a gap between the first support (1) and the second support (3), and the projection of the first doorway (2) in the horizontal direction can overlap with the second doorway (4); The first support (1) has a first vertical rod (5) at the top center position, and the second support (3) has a second vertical rod (6) at the top center position.

2. The golf training auxiliary alignment device according to claim 1, characterized in that, The top of the first vertical rod (5) is provided with a first sphere (7), and the top of the second vertical rod (6) is provided with a second sphere (8). The first vertical rod (5) is higher than the second vertical rod (6).

3. The golf training auxiliary alignment device according to claim 1, characterized in that, The top of the first vertical rod (5) is provided with a first sphere (7), and the top of the second vertical rod (6) is provided with an irradiation mechanism (9). The laser irradiated by the irradiation mechanism (9) can form a straight projection (10) on the flat bottom surface, and the straight projection (10) penetrates the first doorway (2).

4. The golf training auxiliary alignment device according to claim 2, characterized in that, It also includes a third bracket (11), which is an inverted "U" shaped structure, used to form a closed third doorway (12) after being installed on a flat bottom surface. The second doorway (4) is located between the first doorway (2) and the third doorway (12), and the first doorway (2), the second doorway (4) and the third doorway (12) are located on the same straight line; The third support (11) is provided with a third vertical rod (13), and the top of the third vertical rod (13) is provided with an irradiation mechanism (9). The laser irradiated by the irradiation mechanism (9) can form a straight projection (10) on the flat bottom surface. The straight projection (10) simultaneously penetrates the first doorway (2) and the second doorway (4).

5. A golf training aid alignment device according to any one of claims 1-3, characterized in that, It also includes a first connecting rod (14), and the first bracket (1) and the second bracket (3) are both provided with a first mounting hole (15); One end of the first connecting rod (14) is installed in the first mounting hole (15) of the first bracket (1), and the other end is installed in the first mounting hole (15) of the second bracket (3); The plane containing the first vertical rod (5) and the second vertical rod (6) is parallel to or overlaps with the first connecting rod (14).

6. A golf training aid alignment device according to claim 5, characterized in that, It also includes a second connecting rod (16), and the first bracket (1) and the second bracket (3) are both provided with a second mounting hole (17); One end of the first connecting rod (14) is installed in the second mounting hole (17) of the first bracket (1), and the other end is installed in the second mounting hole (17) of the second bracket (3). The second connecting rod (16) is parallel to the first connecting rod (14).

7. A golf training aid alignment device according to claim 1, characterized in that, The first bracket (1) and / or the second bracket (3) include a first support foot (18) and a second support foot (19). The first support foot (18) is provided with a first groove (20), and the second support foot (19) is provided with a second groove (21). A first support rod (22) is installed in the first groove (20), and a second support rod (23) is provided in the second groove (21).

8. A golf training aid alignment device according to claim 1, characterized in that, The top of the first bracket (1) or the second bracket (3) is provided with a third groove (24), and a third mounting hole (25) is provided in the third groove (24). The third mounting hole (25) is used to install the first vertical rod (5) or the second vertical rod (6).

9. A golf training aid alignment device according to claim 3, characterized in that, The top of the second vertical rod (6) is provided with a fixing block (26), and a clamping member (27) is provided on the fixing block (26). The clamping member (27) is used to movably clamp the irradiation mechanism (9). The clamping member (27) is movably connected to the fixing block (26), and the angle between the clamping member (27) and the fixing block (26) can be adjusted.

10. A golf training aid alignment device according to claim 2 or 4, characterized in that, The first sphere (7) and the second sphere (8) are the same size.