A swimming pool basketball stand

By using a pre-embedded anchor system and 316L stainless steel, the problems of unstable fixation and height adjustment of the pool basketball hoop were solved, achieving improved stability and durability in the underwater environment, adapting to different water depths for height adjustment, and reducing maintenance costs.

CN224462213UActive Publication Date: 2026-07-07TAIZHOU ACE SPORTS EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TAIZHOU ACE SPORTS EQUIP CO LTD
Filing Date
2025-07-04
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing methods for fixing basketball hoops in swimming pools lack sufficient anti-tipping capacity, posing safety hazards. Their height adjustment mechanisms are out of step with the swimming pool environment, and maintenance costs are high in underwater environments.

Method used

The basketball hoop base is securely connected to the rigid extended foundation using a pre-embedded anchor bolt system. Horizontal impact force is transferred to the concrete foundation through a shear key structure. The support rod adopts an upper and lower sleeve telescopic structure to achieve height adjustment. 316L stainless steel is used to improve corrosion resistance.

Benefits of technology

It significantly improves the basketball hoop's resistance to overturning and shearing, adapts to different water depths with height adjustment, reduces maintenance frequency and costs, and ensures stability and durability in underwater environments.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a swimming pool basketball stand relates to basketball stand technical field, including the basket board subassembly and with the basket board subassembly front end connection's basket frame subassembly, the basket frame subassembly lower extreme is connected with the support pole body part of downward extension, the support pole body part is the mutual sleeve joint upper and lower support structure, and the upper and lower support structure passes through adjustable telescopic movement to adjust the height of support pole body part in the swimming pool, support pole body part bottom is connected with the pre -buried anchor bolt system, and the pre -buried anchor bolt system is fixedly connected with the swimming pool bottom to fix the basketball stand in the swimming pool. Adopt pre -buried anchor bolt system and rigid expansion base fastening connection of basketball stand base, and the anchor bolt only bears vertical tension and transfers horizontal load to the foundation. The telescopic structure of upper and lower sleeve joint is adopted to the support pole, and the basketball stand height can be adjusted flexibly according to different water depth, and the use convenience and experience are improved. Adopt pure mechanical telescopic structure to realize underwater stepless heightening, and maintenance cost greatly reduces.
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Description

Technical Field

[0001] This utility model relates to the field of basketball hoop technology, specifically to a swimming pool basketball hoop. Background Technology

[0002] As a water sports and recreational facility, pool basketball hoops must simultaneously meet three core requirements: adaptability to water depth, stability against fluid impact, and corrosion resistance. Existing technologies, such as patent CN221358430U, disclose an adjustable basketball hoop for the poolside, which reduces the frequency of the basketball landing by laterally moving the backboard. However, this design has the following inherent drawbacks and is difficult to meet the special working conditions of a swimming pool environment:

[0003] Existing pool basketball hoops use a counterweight base for fixation, which is only suitable for use on the edge of the pool. If directly transplanted to the bottom of the pool, the buoyancy of the water will weaken the counterweight effect, and it cannot withstand the combined bending moment loads generated by water flow and dunking impacts. In practical applications, basketball hoop collapses are mostly caused by insufficient shear strength of the foundation. Its horizontal shear resistance relies entirely on the friction between the base and the ground. In the slippery environment of a pool, this structure is prone to displacement or even toppling due to repeated impacts.

[0004] Existing adjustment mechanisms only allow for lateral displacement along the pool edge and cannot adapt to different water depths (such as the height difference between a basketball hoop in a children's pool and a deep end). Their adjustment range is limited to the horizontal direction, failing to address the issue of swimmers experiencing a decline in shooting comfort due to changes in water level. Pool basketball hoops require frequent height adjustments to match water levels or user age groups, but existing hoop adjustments rely on motor drives (such as servo motors). The electrical system is prone to short-circuiting and failure in the high-humidity environment of a pool, and the underwater mechanical structure has extremely high maintenance costs. Utility Model Content

[0005] The problems to be solved by this utility model are: the existing fixing methods for swimming pool basketball hoops have insufficient anti-tipping capacity, which poses safety hazards; and the height adjustment mechanism is out of touch with the swimming pool setting. The present invention provides a swimming pool basketball hoop.

[0006] To address the aforementioned problems, this utility model provides a pool basketball hoop, comprising a backboard assembly and a basket frame assembly connected to the front end of the backboard assembly. The lower end of the basket frame assembly is connected to a downwardly extending support rod component. The support rod component is an interlocking upper and lower support structure. The upper and lower support structures can adjust the height of the support rod component in the pool through adjustable telescopic movement. The bottom of the support rod component is connected to a pre-embedded anchor bolt system. The pre-embedded anchor bolt system is fixedly connected to the bottom of the pool or the ground on the pool edge, thereby fixing the basketball hoop in the pool or on the pool edge.

[0007] Preferably, the backboard assembly includes a backboard main board with protruding inserts evenly distributed along its outer edge. A protective frame plate is arranged around the outer perimeter of the backboard main board, and the inner edge of the protective frame plate has multiple slots. The protruding inserts are inserted laterally into the slots along the backboard main board to achieve locking and limiting. A limiting block is provided at the lower end of the backboard main board and the protective frame plate. The protruding inserts are laterally inserted into the slots of the protective frame plate and locked in conjunction with the limiting block. Replacing the backboard main board does not require disassembling the entire frame, greatly reducing maintenance time. Preferably, the basket assembly includes an L-shaped connecting plate. Threaded connectors pass through the limiting block and the clearance holes on the L-shaped connecting plate in sequence to fix the backboard main board, the protective frame plate, and the basket assembly. One end of the L-shaped connecting plate is fixedly connected to the basket.

[0008] Preferably, the other end of the L-shaped connecting plate is fixedly connected to an inclined support rod, and the other end of the inclined support rod is fixedly connected to the basketball hoop to form a triangular support structure for the basketball hoop. A net hook is fixedly installed on the lower edge of the basketball hoop. The basketball hoop assembly uses an L-shaped connecting plate in conjunction with the inclined support rod to form a triangular support structure, effectively absorbing the forces generated by dunking and impacts. This triangular reinforcement structure, similar to a "built-in H-shaped bracket," can maintain the rigidity of the rim and backboard during high-intensity use, preventing structural deformation.

[0009] Preferably, the support rod component includes a sliding upper support rod, which has an arc-shaped rod structure. The lower end of the sliding upper support rod has a lower support sleeve, and the upper end of the lower support sleeve has a groove. The lower end of the sliding upper support rod is inserted into the groove. Multiple sets of coaxial adjustment holes are formed on the side walls of the sliding upper support rod and the lower support sleeve. Positioning threaded parts pass through the corresponding adjustment holes, thereby adjusting the sliding upper support rod and the lower support sleeve vertically to achieve a fixed height. The support rod component adopts a nested structure of a sliding upper rod and a lower sleeve, achieving stepless height adjustment through multiple sets of coaxial adjustment holes 303 and positioning threaded parts, adapting to all scenarios from children's pools (0.8m) to deep water areas (2.5m). It eliminates the need for motor drive; adjustment only requires manually tightening one bolt, avoiding the risk of short circuits and significantly reducing the frequency of underwater maintenance.

[0010] Preferably, the pre-embedded anchor system includes anchor bolts, a basketball hoop base plate, and a rigid extended foundation. The horizontal anchoring section of the anchor bolt is pre-embedded in the rigid extended foundation, and the vertical connecting section of the anchor bolt extends out of the surface of the rigid extended foundation and is fastened to the screw holes of the basketball hoop base plate by threads to transfer vertical loads. A shear key groove is pre-embedded on the top surface of the rigid extended foundation, and a steel plate is welded into the pre-embedded groove. An extended protruding key is provided at the lower end of the basketball hoop base plate, and the extended protruding key is inserted into the pre-embedded shear key groove and welded to the steel plate to form an interlocking structure. The gap between the anchor bolt and the hole in the rigid extended foundation is filled with epoxy sealant. The epoxy sealant fills the gap in the anchor bolt, blocking the path of water seepage and corrosion, and improving the durability of the foundation. Employing a unique load diversion mechanism, the mechanical transmission path is optimized through the synergistic action of the anchor bolts and shear key interlocking structure (groove and convex key) in the pre-embedded anchor system. Horizontal load impact forces (such as dunking / water flow) are directly borne by the convex key sidewall, through the keyway steel plate, and then to the concrete foundation, completely avoiding the risk of shear force on the bolts; the bolts are only subjected to tensile force. Vertical load tensile forces (such as toppling moment and dunking impact) are transmitted from the basketball hoop to the vertical section of the L-shaped bolt and then to the horizontal anchoring section, where the concrete bond resists upward pull. Bending moment loads are borne by the tensile strength of the L-shaped bolt and the compressive strength of the concrete, forming a force couple, while the shear key provides anti-rotational restraint.

[0011] Preferably, the anchor bolts are L-shaped bolts to resist the upward pull when the basketball hoop tilts.

[0012] Preferably, the extended protruding key and the keyway mechanically engage to form a rigid shear-resistant node; the rigid extended foundation is a concrete foundation layer, and the pre-embedded shear-resistant key groove bears the horizontal shear force and restricts the displacement of the base.

[0013] Preferably, the support rod components, anchor bolts, and basketball hoop base plate are all cast from 316L stainless steel. With excellent resistance to chloride environments, 316L stainless steel effectively resists corrosion from swimming pool disinfectants (such as chlorine) compared to common ordinary steel or welded structures. Furthermore, after rust-proof surface treatment, it remains rust-resistant even after long-term exposure to water, significantly extending its service life and reducing maintenance costs.

[0014] Compared with the prior art, the present invention achieves the following beneficial technical effects:

[0015] This invention employs a pre-embedded anchor bolt system to securely connect the basketball hoop base to a rigid extended foundation. The anchor bolts only bear vertical tensile force and transfer horizontal loads to the foundation. Compared to existing solutions that rely solely on friction for fixation, this invention uses a shear key structure to transfer horizontal impact forces to the concrete foundation, significantly improving overturning and shear resistance, making the basketball hoop more stable under combined loads such as water flow impact or dunking impact. It is suitable for both shoreline surfaces and swimming pool bottoms.

[0016] This utility model features a support rod with an upper and lower telescopic structure, allowing for flexible adjustment of the basketball hoop height according to different water depths, thus improving ease of use and user experience. The purely mechanical telescopic structure enables stepless underwater height adjustment, significantly reducing maintenance costs and overcoming the limitation of traditional basketball hoops that can only be fixed in height. This allows swimmers to achieve a suitable shooting height in children's pools, shallow water areas, and deep water areas. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the assembly of the swimming pool basketball hoop and the pre-embedded anchor bolt system of this utility model.

[0018] Figure 2 for Figure 1 Enlarged view of a portion of point A in the middle.

[0019] Figure 3 This is a front structural diagram of the swimming pool basketball hoop of this utility model.

[0020] Figure 4 This is a structural diagram of the back of the swimming pool basketball hoop of this utility model.

[0021] Figure 5 This is a bottom view of the swimming pool basketball hoop of this utility model.

[0022] Figure 6 This is a side view of the swimming pool basketball hoop of this utility model.

[0023] In the diagram: 1-Backboard assembly, 101-Backboard mainboard, 102-Protruding insert, 103-Protective frame plate, 104-Groove, 105-Limiting block, 2-Basket frame assembly, 201-L-shaped connecting plate, 202-Threaded connector, 203-Basket frame, 204-Angled support rod, 205-Net hook, 3-Support rod component, 301-Sliding upper support rod, 302-Lower support sleeve, 303-Coaxial adjustment hole, 304-Positioning threaded component, 4-Pre-embedded anchor bolt system, 401-Anchor bolt, 402-Basket hoop base plate, 403-Rigid extended foundation, 404-Shear key groove, 405-Extended protruding key. Detailed Implementation

[0024] The present invention will be further explained below with reference to the accompanying drawings and embodiments.

[0025] Reference Figure 1-6As shown, this utility model provides a swimming pool basketball hoop, including a backboard assembly 1 and a basket frame assembly 2 connected to the front end of the backboard assembly. The lower end of the basket frame assembly 2 is connected to a downwardly extending support rod component 3. The support rod component 3 is an interlocking upper and lower support structure. The upper and lower support structures can adjust the height of the support rod component 3 in the pool through adjustable telescopic movement. The bottom of the support rod component 3 is connected to a pre-embedded anchor bolt system 4. The pre-embedded anchor bolt system 4 is fixedly connected to the bottom of the pool or the ground of the pool edge, thereby fixing the basketball hoop in the pool or the ground of the pool edge.

[0026] The backboard assembly 1 includes a backboard main board 101. Protruding inserts 102 are evenly distributed along the outer edge of the backboard main board 101. A protective frame plate 103 is arranged around the outer periphery of the backboard main board 101. Multiple slots 104 are formed along the inner edge of the protective frame plate 103. The protruding inserts 102 are laterally inserted into the slots 104 along the backboard main board 101 to achieve locking and limiting. A limiting block 105 is provided at the lower end of the backboard main board 101 where it meets the protective frame plate 103. The protruding inserts 102 are laterally inserted into the slots 104 of the protective frame plate 103 and locked in place with the limiting block 105. Replacing the backboard main board 101 does not require disassembling the entire frame, greatly reducing maintenance time.

[0027] The basketball hoop assembly 2 includes an L-shaped connecting plate 201. A threaded connector 202 passes through a limiting block 105 and a clearance hole on the L-shaped connecting plate 201 in sequence to fix the backboard main board 101, the protective frame plate 103 and the basketball hoop assembly 2. One end of the L-shaped connecting plate 201 is fixedly connected to the basketball hoop 203.

[0028] The other end of the L-shaped connecting plate 201 is fixedly connected to an inclined support rod 204. The other end of the inclined support rod 204 is fixedly connected to the basket frame 203, thus forming a triangular support structure for the basket frame 203. A net hook 205 is fixedly installed on the lower edge of the basket frame 203. The basket frame assembly uses an L-shaped connecting plate and an inclined support rod to form a triangular support structure, effectively absorbing the force generated by dunking and impact. This triangular reinforcement structure is similar to a "built-in H-shaped bracket" that can maintain the rigidity of the rim and backboard during high-intensity use and prevent structural deformation.

[0029] The support rod component 3 includes a sliding upper support rod 301, which has an arc-shaped rod structure. The lower end of the sliding upper support rod 301 is provided with a lower support sleeve 302, and the upper end of the lower support sleeve 302 is provided with a sleeve groove. The lower end of the sliding upper support rod 301 is inserted into the sleeve groove. Multiple sets of coaxial adjustment holes 303 are opened on the side walls of the sliding upper support rod 301 and the lower support sleeve 302. The positioning threaded part 304 passes through the corresponding adjustment hole 303, thereby adjusting the sliding upper support rod 301 and the lower support sleeve 302 up and down to achieve a fixed height. The support rod component 3 adopts a nested structure of an arc-shaped sliding upper rod 301 and a lower sleeve rod 302. Through multiple sets of coaxial adjustment holes 303 and positioning threaded parts 304, stepless height adjustment is achieved, which is suitable for all scenarios from 0.8m in children's pools to 2.5m in deep water areas. It eliminates the need for motor drive, and adjustment only requires manually tightening one bolt, avoiding the risk of short circuit and greatly reducing the frequency of underwater maintenance.

[0030] The pre-embedded anchor system 4 includes anchor bolts 401, a basketball hoop base plate 402, and a rigid extended foundation 403. The horizontal anchoring section of the anchor bolts 401 is pre-embedded in the rigid extended foundation 403, and the vertical connecting section of the anchor bolts 401 extends out of the surface of the rigid extended foundation 403 and is fastened to the screw holes of the basketball hoop base plate 402 through threads to transmit vertical loads. A shear key groove 404 is pre-embedded on the top surface of the rigid extended foundation 403, and a steel plate is welded into the groove. An extended protruding key 405 is provided at the lower end of the basketball hoop base plate 402. The extended protruding key 405 is inserted into the pre-embedded shear key groove 404 and welded to the steel plate to form an interlocking structure. The gap between the anchor bolts 401 and the holes of the rigid extended foundation 403 is filled with epoxy sealant. The epoxy sealant fills the gaps of the anchor bolts 401, blocking the path of water seepage and corrosion, and improving the durability of the foundation. Employing a unique load diversion mechanism, the anchor bolts 401 in the pre-embedded anchor system 4 work synergistically with the shear key interlocking structure (groove and convex key) to optimize the mechanical transmission path. Specifically, horizontal load impact forces (such as dunking / water flow) are directly borne by the sidewall of the convex key 405 through the keyway steel plate to the concrete foundation 403, completely avoiding the risk of shear force on the bolts; the bolts are only subjected to tensile force. Vertical load tensile forces (such as toppling bending moment, dunking impact) are transmitted from the basketball hoop to the vertical section of the L-shaped bolt 401 and then to the horizontal anchoring section, where the concrete bond resists upward pull. Bending moment loads are borne by the tensile strength of the L-shaped bolts and the compressive strength of the concrete, forming a force couple, while the shear key provides anti-rotational restraint. The L-shaped anchor bolts 401 resist the upward pull force when the basketball hoop tilts. The extended protruding key 405 mechanically engages with the keyway to form a rigid shear-resistant node; the rigid extended foundation 403 is a concrete foundation layer, with a pre-embedded shear-resistant key groove 404 bearing horizontal shear forces such as the impact force of a basketball shot, and limiting the displacement of the base.

[0031] The support rod component 3, anchor bolts 401, and basketball hoop base plate 402 are all cast from 316L stainless steel. With excellent resistance to chloride environments, compared to common ordinary steel or welded structures, 316L stainless steel effectively resists corrosion from swimming pool disinfectants. After rust-proof surface treatment, it remains rust-resistant even when exposed to water for extended periods, significantly extending its service life and reducing maintenance costs.

[0032] To facilitate understanding of the above technical solutions of this utility model, the following detailed description of the above technical solutions of this utility model is provided through specific usage methods.

[0033] The specific work process is as follows: First, install the pre-embedded anchor bolt system 4. Excavate a foundation trench at the bottom of the pool or on the shore, and pour concrete to form a rigid extended foundation 403. A shear key groove 404 is reserved on the top surface of the foundation, and a thick steel plate is welded inside the groove. The horizontal anchoring section of the L-shaped anchor bolt 401 is pre-embedded in the foundation, and the vertical section extends out of the top surface of the foundation. The gap between the bolt and the foundation hole is filled with epoxy sealant. Then, insert the extended protruding key 405 at the lower end of the basketball hoop base plate 402 into the groove 404 and fully weld it to the perimeter of the steel plate inside the groove to form a mechanically interlocking shear-resistant node.

[0034] Next, the protruding insert 102 on the outer edge of the backboard main board 101 of the backboard assembly is inserted laterally into the groove 104 of the protective frame plate 103, and locked in place by the lower limiting block 105. Two threaded connectors 202 of the basket frame assembly pass through the limiting block 105 and the clearance hole of the L-shaped connecting plate 201 to secure the basket frame assembly 2 to the backboard assembly 1. The two ends of the diagonal support rod 204 are welded to the L-shaped connecting plate 201 and the basket frame 203 respectively, forming a triangular support structure. A mesh hook 205 is welded to the lower edge of the basket frame, and a mesh bag is installed on the mesh hook 205.

[0035] Finally, the bottom end of the lower support sleeve 302 of the support rod component 3 is welded and fixed to the basketball hoop base plate 402. Then, the lower end of the arc-shaped sliding upper support rod 301 is inserted into the groove of the lower support sleeve 302 and aligned and positioned through multiple sets of coaxial adjustment holes 303. The height is adjusted according to the water depth, and the positioning threaded part 304 is used to lock it through the corresponding adjustment hole.

[0036] In use, the anchor bolts 401 in the pre-embedded anchor system 4 and the shear key interlocking structure (the shear key groove 404 and the extended protruding key 405 work together to optimize the mechanical transmission path. Among them, the horizontal load impact force (such as dunking / water flow) is directly borne by the side wall of the extended protruding key 405 to the keyway steel plate to the concrete foundation 403, completely avoiding the risk of the bolt bearing shear force, and the bolt is only subjected to tensile force; among them, the vertical load tensile force (such as toppling bending moment, dunking impact) is transmitted from the basketball hoop to the vertical section of the L-shaped bolt 401 to the horizontal anchoring section, and resists the upward pull through the concrete bond force; among them, the bending moment load is jointly borne by the tensile strength of the L-shaped bolt and the compressive strength of the concrete to form a couple, and the shear key provides anti-rotation constraint.

[0037] This invention systematically solves the problems of stability, adaptability and durability of swimming pool basketball hoops by pre-embedded anchor bolts for load diversion, mechanical height adjustment and corrosion-resistant integrated structure.

[0038] In the description of this utility model, it should be noted that the terms "upper," "lower," etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Unless otherwise expressly specified and limited, the terms "installed," "connected," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal connection of two components. For those skilled in the art, the specific meaning of the above terms in this utility model can be understood according to the specific circumstances.

[0039] It should be noted that in this invention, relational terms such as "first" and "second" are used merely to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0040] The above description is merely a specific embodiment of the present invention, enabling those skilled in the art to understand or implement the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features of the present invention.

Claims

1. A pool basketball hoop, comprising a backboard assembly (1) and a basket frame assembly (2) connected to the front end of the backboard assembly, wherein the lower end of the basket frame assembly (2) is connected to a downwardly extending support rod component (3), characterized in that, The support rod component (3) is an interlocking upper and lower support structure. The upper and lower support structures can adjust the height of the support rod component (3) in the pool through adjustable telescopic movement. The bottom of the support rod component (3) is connected to the pre-embedded anchor bolt system (4). The pre-embedded anchor bolt system (4) is fixedly connected to the bottom of the pool or the ground of the pool shore to fix the basketball hoop in the pool or the ground of the pool shore.

2. The pool basketball hoop according to claim 1, characterized in that, The backboard assembly (1) includes a backboard main board (101), with protruding inserts (102) evenly distributed on the outer edge of the backboard main board (101). A protective frame plate (103) is arranged around the outer periphery of the backboard main board (101). The inner edge of the protective frame plate (103) has multiple slots (104). The protruding inserts (102) are inserted into the slots (104) laterally along the backboard main board (101) to achieve snap-fit ​​and limit. A limit block (105) is provided at the lower end of the backboard main board (101) and the protective frame plate (103).

3. The pool basketball hoop according to claim 2, characterized in that, The basketball hoop assembly (2) includes an L-shaped connecting plate (201), and a threaded connector (202) passes through the limiting block (105) and the clearance hole on the L-shaped connecting plate (201) in sequence to fix the backboard main board (101), the protective frame plate (103) and the basketball hoop assembly (2). One end of the L-shaped connecting plate (201) is fixedly connected to the basketball hoop (203).

4. The pool basketball hoop according to claim 3, characterized in that, The other end of the L-shaped connecting plate (201) is fixedly connected to an inclined support rod (204), and the other end of the inclined support rod (204) is fixedly connected to the basket frame (203) to form a triangular support structure for the basket frame (203). A net hook (205) is fixedly provided on the lower edge of the basket frame (203).

5. The pool basketball hoop according to claim 1, characterized in that, The support rod component (3) includes a sliding upper support rod (301), which has an arc-shaped rod structure. The lower end of the sliding upper support rod (301) is provided with a lower support sleeve (302), and the upper end of the lower support sleeve (302) is provided with a sleeve groove. The lower end of the sliding upper support rod (301) is inserted into the sleeve groove. Multiple sets of coaxial adjustment holes (303) are opened on the side walls of the sliding upper support rod (301) and the lower support sleeve (302). The positioning threaded part (304) passes through the corresponding adjustment hole (303) so that the sliding upper support rod (301) and the lower support sleeve (302) can be adjusted up and down to achieve a fixed height.

6. The pool basketball hoop according to claim 1, characterized in that, The pre-embedded anchor system (4) includes anchor bolts (401), basketball hoop base plate (402), and rigid extension foundation (403). The horizontal anchoring section of the anchor bolt (401) is pre-embedded in the rigid extension foundation (403). The vertical connecting section of the anchor bolt (401) extends out of the surface of the rigid extension foundation (403) and is fastened to the screw hole of the basketball hoop base plate (402) by threads to transmit vertical loads. The top surface of the rigid extension foundation (403) is provided with a pre-embedded shear key groove (404). A steel plate is welded in the groove of the pre-embedded shear key groove (404). The lower end of the basketball hoop base plate (402) is provided with an extended protruding key (405). The extended protruding key (405) is inserted into the pre-embedded shear key groove (404) and welded to the steel plate to form an interlocking structure. The gap between the anchor bolt (401) and the hole of the rigid extension foundation (403) is filled with epoxy sealant.

7. The pool basketball hoop according to claim 6, characterized in that, The support rod component (3), as well as the anchor bolt (401) and the basketball hoop base plate (402), are all made of stainless steel casting.