Basketball stand capable of preventing ball frame from loosening
Technical Field
The invention belongs to the technical field of sports equipment, and particularly relates to a basketball stand capable of preventing a ball frame from loosening.
Background
The basketball sport is a sport which is liked by children in the period of students, basketball stands can not be naturally played in the basketball sport, the existing basketball sport originates in the United states in 1891, is invented by James-Nammi Smith Ph in the United states, the popularity of the basketball sport is obvious, and at least a few basketball courts or even more than ten basketball courts are equipped in schools.
Traditional basketball stands only comprise base, support frame, backboard and rim, can meet various problems when using, and people are difficult to see the rim clearly when playing night balls, make the relaxation that the rim becomes after the sportsman shoots many times or irritates the basket, influence the feeling of playing basketball.
Disclosure of Invention
The invention aims to solve the problems in the prior art, provides a basketball stand capable of preventing a basketball frame from loosening, and solves the problem that a basketball basket is easy to loosen.
The purpose of the invention can be realized by the following technical scheme:
a basketball stand capable of preventing a basketball frame from loosening comprises a base, wherein a supporting frame is fixed on the base, it is characterized in that a first backboard is fixed on the support frame, a second backboard is arranged on the first backboard, a ball frame is fixed on the second backboard, an LED lamp is fixed on the first backboard, the second backboard is made of toughened glass, the surface of the backboard is a frosted surface, the solar panel component for supplying power to the LED lamp is fixed at the rear part of the backboard, the edge of the first backboard is fixed with a retaining edge, the first backboard is fixed with a slide rail, the first backboard is fixed with a slide block matched with the slide rail, the slide block is arranged on the slide rail, the first backboard is connected with the second backboard through a plurality of elastic components, the elastic assembly enables the first backboard to reset after moving downwards relative to the second backboard and simultaneously reduces vibration of the first backboard after being grouted or shot, and the ball frame is provided with the vibration-proof assembly capable of reducing vibration of the ball frame.
The working principle of the invention is as follows: when the sportsman shot to this basketball stands, the basketball strikes behind the rim, the rim takes place to vibrate, this vibration will be eliminated through the vibration subassembly of rim rear side, prevent that the rim is not hard up, make to it irritate the basket when the sportsman irritates the basket again, the rim is at this atress in the twinkling of an eye, the rim drives two backboards and sinks, two backboards pass through elastic component and change its atress and absorb the part, prevent to take place rigid deformation between rim and the two backboards, can reset through elastic component again after sportsman's hand loosens, eliminate its vibration through the antivibration subassembly simultaneously, damage to the rim reduces to minimumly.
The invention can effectively reduce the vibration during shooting or shooting, and avoid the looseness of the ball frame. The blocking edge is arranged along the edge of the backboard, can block a gap between the backboard I and the backboard II, and simultaneously blocks the solar cell panel assembly on the rear side of the backboard, so that the solar cell panel assembly is prevented from being broken by basketball shooting.
In the basketball stand for preventing the basketball frame from loosening, the elastic component comprises a first sliding rod, a second sliding rod, a spring, a first connecting block, a second connecting block and a limiting block, the first connecting block is fixed on the first backboard, the first sliding rod is fixed on the first connecting block, the second connecting block is arranged on the second backboard, the second sliding rod is fixed on the second connecting block, a slide way is arranged in the first sliding rod, the second sliding rod penetrates into the slide way and seals the slide way, the slide way is filled with oil, a sleeve is sleeved outside the first sliding rod, a cavity is formed between the sleeve and the first sliding rod, an alternating current hole which enables the cavity to be communicated with the slideway is arranged on the first sliding rod, the lifting pressing block is arranged in the cavity, the spring is sleeved on the second sliding rod, one end of the spring is fixedly connected with the second sliding rod, and the other end of the spring is fixedly connected with the first sliding rod.
After the ball frame is stressed, the backboard II moves downwards, the sliding rod II on the backboard II penetrates into the sliding rod I, the sliding rod I extrudes oil in the sliding rod II in a short time, the oil enters the cavity from the alternating current hole, then the lifting pressing block rises upwards through the oil, and the sliding rod II buffers through the oil to reduce the vibration of the backboard II. The lifting pressing block can move up and down in the chamber. After the ball frame stops being stressed, the ball frame is reset through the first spring on the outer side, and the first spring can also play a role in damping and reducing the speed of movement.
In the basketball stand for preventing the ball frame from loosening, a first frame and a second frame are fixed on a second backboard, a positioning plate is fixed between the first frame and the second frame, and the ball frame is fixed on the positioning plate. The strength of the backboard II is improved through the frame I and the frame II, and the damage of the backboard II when the ball frame is used is prevented.
In the basketball stand for preventing the ball frame from loosening, the lower end of the second sliding rod is rotatably provided with a rotating shaft, a deceleration shaft is fixed on the rotating shaft, a spiral deceleration buffer belt is arranged on the surface of the deceleration shaft, threads are arranged on the rotating shaft, the spiral direction of the deceleration buffer belt is opposite to the spiral direction of the threads, a sealing block is fixed in a slide way of the first sliding rod, a screw hole matched with the threads is formed in the sealing block, when the rotating shaft extends into the slide way, the rotating shaft rotates and drives the deceleration shaft to rotate, and the deceleration buffer belt on the deceleration shaft drives oil to move downwards and form deceleration resistance. In the descending chamber of the second sliding rod, a rotating shaft at the lower end of the second sliding rod rotates, the rotating shaft drives the deceleration shaft to rotate, the rotating direction of the rotating shaft is opposite to the spiral direction of the deceleration buffer belt at the upper part of the deceleration shaft, and when the deceleration buffer belt rotates, oil in the deceleration buffer belt moves downwards, so that the second sliding rod is decelerated.
In the basketball stand for preventing the basketball hoop from loosening, an air damping assembly is further arranged between the first backboard and the second backboard, the air damping assembly comprises a connecting rod, a first air cylinder with a first air cavity and a second air cylinder with a second air cavity, the connecting rod is fixed to the second basketball hoop, the first air cylinder is sleeved on the connecting rod and enables the first air cavity of the first air cylinder to be closed, the second air cylinder is sleeved on the first air cylinder and enables the second air cavity of the second air cylinder to be closed, and the second air cylinder is fixed to the first backboard. The connecting rod compresses the gas in the first gas cylinder to enable the connecting rod to serve as a first section of buffer, and the first gas cylinder compresses the gas in the second gas cylinder to enable the connecting rod to serve as a second section of buffer. Helium is filled in the air cavity I and the air cavity II.
In the basketball stand for preventing the basketball frame from loosening, the connecting rod is connected with the inner bottom of the first air cylinder through the first pressure spring, and the bottom of the first air cylinder is connected with the inner bottom of the second air cylinder through the second pressure spring. The first compression spring and the second compression spring play a role in buffering.
In the basketball stand for preventing the basketball frame from loosening, the vibration-proof assembly comprises a vibration needle and a connecting spring, two fixing feet are arranged on the basketball frame, the connecting spring is fixed on the fixing feet, and the vibration needle is fixed on the connecting spring. The ball frame is shaken to realize quick shock absorption through the vibration of the vibrating needle.
In the basketball stand for preventing the basketball frame from loosening, the basketball frame is provided with a leaning rod. Should support on backboard two by the pole when the sportsman irritates the basket, prevent that the rim from carrying out deformation by a wide margin.
Compared with the prior art, the invention has the following advantages:
1. the working principle of the invention is as follows: when the sportsman shot to this basketball stands, the basketball strikes behind the rim, the rim takes place to vibrate, this vibration will be eliminated through the vibration subassembly of rim rear side, prevent that the rim is not hard up, make to it irritate the basket when the sportsman irritates the basket again, the rim is at this atress in the twinkling of an eye, the rim drives two backboards and sinks, two backboards pass through elastic component and change its atress and absorb the part, prevent to take place rigid deformation between rim and the two backboards, can reset through elastic component again after sportsman's hand loosens, eliminate its vibration through the antivibration subassembly simultaneously, damage to the rim reduces to minimumly.
2. After the ball frame is stressed, the backboard II moves downwards, the sliding rod II on the backboard II penetrates into the sliding rod I, the sliding rod I extrudes oil in the sliding rod II in a short time, the oil enters the cavity from the alternating current hole, then the lifting pressing block rises upwards through the oil, and the sliding rod II buffers through the oil to reduce the vibration of the backboard II. The lifting pressing block can move up and down in the chamber. After the ball frame stops being stressed, the ball frame is reset through the first spring on the outer side, and the first spring can also play a role in damping and reducing the speed of movement.
3. In the descending chamber of the second sliding rod, a rotating shaft at the lower end of the second sliding rod rotates, the rotating shaft drives the deceleration shaft to rotate, the rotating direction of the rotating shaft is opposite to the spiral direction of the deceleration buffer belt at the upper part of the deceleration shaft, and when the deceleration buffer belt rotates, oil in the deceleration buffer belt moves downwards, so that the second sliding rod is decelerated.
Drawings
FIG. 1 is a schematic of the present invention.
FIG. 2 is a top view of the backboard two of the present invention.
FIG. 3 is a schematic view of the first backboard of the present invention.
Fig. 4 is a partially enlarged view of fig. 3.
In the figure, 1, a base; 2. a support frame; 3. a backboard I; 4. a backboard II; 5. an LED lamp; 6. a solar panel assembly; 7. blocking edges; 8. a slide rail; 9. a slider; 10. a first sliding rod; 10a, a slideway; 11. a second sliding rod; 12. a spring; 13. a first connecting block; 14. a second connecting block; 15. a limiting block; 16. a sleeve; 17. an alternating current hole; 18. lifting and pressing blocks; 20. a first frame; 21. a second frame; 22. a rotating shaft; 23. a deceleration shaft; 23a, a deceleration buffer zone; 24. a sealing block; 25. a connecting rod; 26. a first air cylinder; 27. an air cylinder II; 28. a first pressure spring; 29. a second pressure spring; 30. vibrating the needle; 31. a connecting spring; 32. against the rod.
Detailed Description
The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.
As shown in fig. 1 to 4, a basketball stand capable of preventing a basketball rim from loosening comprises a base 1, a support frame 2 is fixed on the base 1, a backboard 3 is fixed on the support frame 2, a backboard two 4 is arranged on the backboard 3, the basketball rim is fixed on the backboard two 4, an LED lamp 5 is fixed on the backboard 3, the backboard two 4 is made of toughened glass, the surface of the backboard II 4 is a frosted surface, the rear part of the backboard I3 is fixed with a solar cell panel component 6 for supplying electricity to the LED lamp 5, the edge of the backboard I3 is fixed with a retaining edge 7, the backboard I3 is fixed with a slide rail 8, the backboard I3 is fixed with a slide block 9 matched with the slide rail 8, the slide block 9 is arranged on the slide rail 8, the backboard I3 is connected with the backboard II 4 through a plurality of elastic components, the elastic assembly can enable the first backboard 3 to reset after moving downwards relative to the second backboard 4 and reduce vibration of the basketball after the basketball is grouted or shot, and the ball frame is provided with a vibration-proof assembly capable of reducing vibration of the ball frame.
The invention can effectively reduce the vibration during shooting or shooting, and avoid the looseness of the ball frame.
The elastic component comprises a first sliding rod 10, a second sliding rod 11, a spring 12, a first connecting block 13, a second connecting block 14 and a limiting block 15, wherein the first connecting block 13 is fixed on a first backboard 3, the first sliding rod 10 is fixed on the first connecting block 13, the second connecting block 14 is arranged on a second backboard 4, the second sliding rod 11 is fixed on the second connecting block 14, a slide way 10a is formed in the first sliding rod 10, the second sliding rod 11 penetrates into the slide way 10a and seals the slide way 10a, oil is filled in the slide way 10a, a sleeve 16 is sleeved outside the first sliding rod 10, a cavity is formed between the sleeve 16 and the first sliding rod 10, an alternating current hole 17 enabling the cavity to be communicated with the slide way 10a is formed in the first sliding rod 10, a lifting pressing block 18 is arranged in the cavity, the spring 12 is sleeved on the second sliding rod 11, one end of the spring 12 is.
After the ball frame is stressed, the backboard II 4 moves downwards, the sliding rod II 11 on the backboard II 4 penetrates into the sliding rod I10, the sliding rod I10 extrudes oil in the sliding rod II 11 in a short time, the oil enters the cavity from the alternating current hole 17, then the oil enables the lifting pressing block 18 to ascend, the sliding rod II 11 is buffered through the oil, and the vibration of the backboard II 4 is reduced. The elevator compact 18 is capable of moving up and down within the chamber. After the ball frame stops being stressed, the outer spring 12I resets the ball frame, and the spring 12I can also play a role in damping and reducing the speed of movement.
Specifically, the first frame 20 and the second frame 21 are fixed on the backboard 4, the positioning plate is fixed between the first frame 20 and the second frame 21, and the ball frame is fixed on the positioning plate. The strength of the backboard 4 is improved by the first frame 20 and the second frame 21, and the backboard 4 is prevented from being damaged when the ball frame is used.
Specifically, a rotating shaft 22 is rotatably arranged at the lower end of the second sliding rod 11, a deceleration shaft 23 is fixed on the rotating shaft 22, a spiral deceleration buffer belt 23a is arranged on the surface of the deceleration shaft 23, threads are arranged on the rotating shaft 22, the spiral direction of the deceleration buffer belt 23a is opposite to the spiral direction of the threads, a sealing block 24 is fixed in the slide way 10a of the first sliding rod 10, a screw hole matched with the threads is formed in the sealing block 24, when the rotating shaft 22 extends into the slide way 10a, the rotating shaft 22 rotates and drives the deceleration shaft to rotate, and the deceleration buffer belt 23a on the deceleration shaft 23 drives oil to move downwards and form deceleration resistance. In the descending chamber of the second sliding rod 11, the rotating shaft 22 at the lower end of the second sliding rod 11 rotates, the rotating shaft 22 drives the deceleration shaft 23 to rotate, the rotating direction of the rotating shaft 22 is opposite to the spiral direction of the deceleration buffer belt 23a at the upper part of the deceleration shaft 23, and when the deceleration buffer belt 23a rotates, the oil in the deceleration buffer belt moves downwards, so that the second sliding rod 11 is decelerated.
Specifically, an air damping assembly is further arranged between the first backboard 3 and the second backboard 4 and comprises a connecting rod 25, a first air cylinder 26 with a first air cavity and a second air cylinder 27 with a second air cavity, the connecting rod 25 is fixed on the second basketball hoop, the first air cylinder 26 is sleeved on the first connecting rod 25 and seals the first air cavity of the first air cylinder 26, the second air cylinder 27 is sleeved on the first air cylinder 26 and seals the second air cavity of the second air cylinder 27, and the second air cylinder 27 is fixed on the first backboard 3. The connecting rod 25 compresses the gas in the cylinder one 26, so that the connecting rod 25 serves as a first stage buffer, and the cylinder one 26 compresses the gas in the cylinder two 27, so that the connecting rod 25 serves as a second stage buffer. Helium is filled in the air cavity I and the air cavity II.
Specifically, the connecting rod 25 is connected with the inner bottom of the first air cylinder 26 through a first compression spring 28, and the bottom of the first air cylinder 26 is connected with the inner bottom of the second air cylinder 27 through a second compression spring 29. The first compression spring 28 and the second compression spring 29 play a role in buffering.
Specifically, the vibration-proof assembly comprises a vibrating needle 30 and a connecting spring 31, wherein the ball frame is provided with two fixing feet, the connecting spring 31 is fixed on the fixing feet, and the vibrating needle 30 is fixed on the connecting spring 31. The ball frame is shaken to quickly absorb shock through the vibration of the vibrating needle 30.
In particular the ball frame, has an abutment bar 32 thereon. The leaning rod 32 can be supported on the backboard two 4 when the player dunks the basketball, and the ball frame is prevented from being greatly deformed.
The working principle of the invention is as follows: when the sportsman shot to this basketball stands, the basketball strikes behind the rim, the rim takes place to vibrate, this vibration will be eliminated through the vibration subassembly of rim rear side, prevent that the rim is not hard up, make to it irritate the basket when the sportsman irritates the basket again, the rim is at this atress in the twinkling of an eye, the rim drives two 4 sinkings of backboard, two 4 backboards are with its atress conversion and absorption part through elastic component, prevent to take place rigid deformation between rim and the two 4 backboards, can reset through elastic component again after sportsman's hand loosens, eliminate its vibration through the antivibration subassembly simultaneously, damage to the rim reduces to minimumly.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.