IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0629153
(2015-02-23)
|
등록번호 |
US-9675859
(2017-06-13)
|
발명자
/ 주소 |
- Green, Danny
- Nye, S. Curtis
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
88 |
초록
▼
In one example, a basketball system a goal attached to a backboard assembly. A connecting structure connects the backboard assembly to a support structure. A height adjustment mechanism includes a handle assembly that is directly connected to the support structure, and the handle assembly is operabl
In one example, a basketball system a goal attached to a backboard assembly. A connecting structure connects the backboard assembly to a support structure. A height adjustment mechanism includes a handle assembly that is directly connected to the support structure, and the handle assembly is operable to change a height of the goal and backboard assembly. As well, a shock absorbing element is provided that includes a first portion directly connected to the handle assembly, and the shock absorbing element has a second portion directly connected to the support structure of the basketball system, and the shock absorbing element enables temporary displacement of the goal and the backboard in response to imposition of a load or force on the goal. Finally, a structure is provided that is directly connected to the handle assembly and directly connected to the connecting structure.
대표청구항
▼
1. A basketball system, comprising: a goal;a backboard assembly to which the goal is connected, wherein a position of the goal relative to the backboard assembly is fixed;a support structure;a connecting structure that comprises three sets of arms, each set of arms being rotatably connected to the b
1. A basketball system, comprising: a goal;a backboard assembly to which the goal is connected, wherein a position of the goal relative to the backboard assembly is fixed;a support structure;a connecting structure that comprises three sets of arms, each set of arms being rotatably connected to the backboard assembly and to the support structure;a height adjustment mechanism including a handle assembly that is directly connected to the support structure, the handle assembly being operable to change a height of the goal and backboard assembly;a shock absorbing element having a first portion directly connected to the handle assembly, and the shock absorbing element having a second portion directly connected to the support structure of the basketball system, wherein the shock absorbing element enables temporary displacement of the goal and the backboard in response to imposition of a load or force on the goal, wherein the shock absorbing element comprises one or more of a spring, a gas spring, or a shock; anda structure directly connected to the handle assembly and directly connected to the connecting structure. 2. The basketball system as recited in claim 1, wherein the structure that is directly connected to the handle assembly and directly connected to the connecting structure comprises a shock absorbing element. 3. The basketball system as recited in claim 1, wherein the shock absorbing mechanism is arranged in parallel with the structure. 4. The basketball system as recited in claim 1, wherein an upward motion of the handle assembly causes a corresponding downward motion of the goal and backboard, and a downward motion of the handle assembly causes a corresponding upward motion of the goal and backboard. 5. The basketball system as recited in claim 1, wherein a height of the goal relative to a playing surface remains substantially unchanged in response to imposition of a first force and/or load on the goal, and the height of the goal relative to the playing surface changes in response to imposition of a second force and/or load on the goal, wherein the second force and/or load is greater than the first force and/or load. 6. The basketball system as recited in claim 5, wherein subsequent to removal of the second force or load, the shock absorbing element automatically returns the goal to the position that the goal was in prior to imposition of the second load or force. 7. The basketball system as recited in claim 1, wherein the handle assembly has a trigger-less configuration that enables a height of the goal to be adjusted without first requiring operation of a trigger. 8. A basketball system, comprising: a goal;a backboard assembly to which the goal is connected, wherein a position of the goal relative to the backboard assembly is fixed;a support structure;a connecting structure that comprises three sets of arms, each set of arms being rotatably connected to the backboard assembly and to the support structure;a height adjustment mechanism including a handle assembly that is directly connected to the support structure, the handle assembly being operable to change a height of the goal and backboard assembly;a shock absorbing element having a first portion directly connected to the handle assembly, and the shock absorbing element having a second portion directly connected to the connecting structure of the basketball system, wherein the shock absorbing element enables temporary displacement of the goal and the backboard in response to imposition of a load or force on the goal; anda structure directly connected to the handle assembly and directly connected to the support structure. 9. The basketball system as recited in claim 8, wherein the structure that is directly connected to the handle assembly and directly connected to the support structure comprises a gas spring. 10. The basketball system as recited in claim 8, wherein the shock absorbing element comprises a gas spring having a first portion connected directly to the handle assembly basketball system, and the gas spring having a second portion connected directly to the connecting structure. 11. The basketball system as recited in claim 8, wherein an upward motion of the handle assembly causes a corresponding downward motion of the goal and backboard, and a downward motion of the handle assembly causes a corresponding upward motion of the goal and backboard. 12. The basketball system as recited in claim 8, wherein a height of the goal relative to a playing surface remains substantially unchanged in response to imposition of a first force and/or load on the goal, and the height of the goal relative to the playing surface changes in response to imposition of a second force and/or load on the goal, wherein the second force and/or load is greater than the first force and/or load. 13. The basketball system as recited in claim 12, wherein subsequent to removal of the second force or load, the shock absorbing element automatically returns the goal to the position that the goal was in prior to imposition of the second load or force. 14. A basketball system, comprising: a goal;a backboard assembly to which the goal is connected, wherein a position of the goal relative to the backboard assembly is fixed;a support structure;a connecting structure that comprises three sets of arms, each set of arms being rotatably connected to the backboard assembly and to the support structure; anda height adjustment mechanism operable to change a height of the goal and backboard assembly, and the height adjustment mechanism including a shock absorbing element that enables temporary displacement of the goal and the backboard in response to imposition of a load or force on the goal, and the shock absorbing element automatically returns the goal and the backboard to their initial position after removal of the load or force, wherein the shock absorbing element has a first portion directly connected to an element of the height adjustment mechanism, and the shock absorbing element has a second portion directly connected to the support structure of the basketball system, and wherein the shock absorbing element comprises any one or more of a gas spring, a shock, and a spring.
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