CN108992893B

CN108992893B - Infrared control backboard ball snapping training equipment

Info

Publication number: CN108992893B
Application number: CN201810919953.6A
Authority: CN
Inventors: 李雨黛
Original assignee: Wenzhou Lungbor Technology Co ltd
Current assignee: Hebei Kangaoda Sports Products Co ltd
Priority date: 2018-08-14
Filing date: 2018-08-14
Publication date: 2020-06-26
Anticipated expiration: 2038-08-14
Also published as: CN108992893A

Abstract

The invention relates to training equipment, in particular to infrared control basketball snap training equipment. The technical problem to be solved is as follows: the infrared control backboard ball snapping training equipment can accurately throw a backboard ball, can avoid a player from rubbing against the opposite side due to overlarge action during training, and can avoid the condition that the training cannot be finished independently due to the fact that the basketball must be thrown manually. The technical scheme is as follows: an infrared control basketball snap-off training device comprises a bottom plate, a supporting plate, a sliding rail, a sliding block, an L-shaped rod, a backboard, a basket, an infrared probe, a vertical pipe, a ball falling device, a push block, a first spring, an electric reel and the like; the middle of the top of the bottom plate is provided with a supporting plate. According to the invention, the operation of triggering the self-resetting electromagnet through the infrared probe enables the basketball to continuously roll down from the placing sleeve and accurately throw out the basketball backboard ball, and the delay switch controller controls the speed reducing motor, so that the speed reducing motor drives the second gear to rotate forwards and backwards.

Description

Infrared control backboard ball snapping training equipment

Technical Field

The invention relates to training equipment, in particular to infrared control basketball snap training equipment.

Background

People are in the basketball match, the phenomenon of cricket often appears when players shoot, the crime prevention and attack can both grab the crime and the attack, who snatchs his crime, the crime breaking of the crime is also a basketball match component which creates a great chance for the score of the player, so in order to improve the technique of the crime breaking of the player, the coach usually can require two or two members to form a pair of training for the crime breaking of the crime, one player is responsible for shooting, the other player is responsible for the crime breaking of the crime, and the embarrassment that the time period of the crime breaking of the player can not be connected is avoided.

Because the backboard ball can not be accurately thrown every time, the backboard ball is the same as a goal ball, and when a mistake occurs, a player needs to continuously pick up and throw the basketball, and the basketball is required to be thrown again under the condition that the basketball is not thrown, so that the patience of the player who throws the basketball is very tested; under the cooperation of two players, the players can easily rub against each other due to excessive actions, so that the players are injured; and the manual throwing of the backboard ball wastes time for the player who throws the backboard ball to accompany the teammate for training, which causes manual waste.

Disclosure of Invention

In order to overcome the defects that the failure easily occurs when the basketball is thrown manually, the rubbing and the collision easily occur between members when the basketball is trained, and the training of the snapping of the basketball cannot be finished independently, the technical problem to be solved is as follows: the infrared control backboard ball snapping training equipment can accurately throw a backboard ball, can avoid a player from rubbing against the opposite side due to overlarge action during training, and can avoid the condition that the training cannot be finished independently due to the fact that the basketball must be thrown manually.

The technical scheme is as follows: an infrared control basketball snap-off training device comprises a bottom plate, a supporting plate, a sliding rail, a sliding block, an L-shaped rod, a backboard, a basket, an infrared probe, a vertical pipe, a ball falling device, a pushing block, a first spring, an electric reel, a pull wire, a guide sleeve, a placing sleeve and a control box, wherein the supporting plate is arranged in the middle of the top of the bottom plate, the sliding rail is embedded in the top of the supporting plate, the sliding block is arranged on the sliding rail, the L-shaped rod is connected to the top of the sliding block, the backboard is connected to the right side of the bottom of the L-shaped rod, the basket is connected to the lower portion of the right side of the backboard, the infrared probe is arranged above the basket, the vertical pipe is connected to the upper portion of the left side of the supporting plate, the ball falling device is connected to the top of the vertical pipe, and comprises a ball falling sleeve, an indicating lamp, a first connecting rod, a, The device comprises a flat belt, a third connecting rod, a self-resetting electromagnet, a guide sleeve, a guide rail, a first rack and a second connecting block, wherein the top of the vertical pipe is provided with a ball falling sleeve, the ball falling sleeve is communicated with the vertical pipe, the right side of the bottom of the ball falling sleeve is connected with an indicator lamp, the left side of the top of the ball falling sleeve is provided with a through hole, the lower part of the left inner wall of the ball falling sleeve is connected with a first connecting rod, the right part of the first connecting rod is rotatably provided with a first rotating shaft, the rear part of the first rotating shaft is provided with the first connecting block, the bottom of the first connecting block is connected with a top block, the top of the first connecting block is connected with a baffle plate, the right side of the bottom of the first connecting rod is connected with the second connecting rod, the bottom of the second connecting rod is rotatably provided with a second rotating shaft, the second rotating shaft is provided with a first gear, the top of the third connecting rod is provided with a self-resetting electromagnet, the top of the self-resetting electromagnet is provided with a guide sleeve, the guide sleeve is internally provided with a guide rail in a sliding manner, the guide rail penetrates through the guide sleeve, the top of the guide rail is provided with a first rack which is meshed with a first gear on the left side, the left part of the self-resetting electromagnet is connected with a second connecting block, the top end of the second connecting block is connected with the guide rail, the bottom of the vertical pipe is connected with a first spring, the top end of the first spring is connected with a push block, the left side of the outer bottom of the vertical pipe is provided with an electric reel which is wound with a pull wire, the pull wire penetrates through the vertical pipe, the pull wire penetrates through the first spring and is connected with the push block, the middle part of the left side of the vertical pipe is provided with a guide sleeve, the, the storage battery, the wireless switch controller and the delay switch controller are connected through a circuit, the infrared probe is connected with the delay switch controller through a circuit, the indicator lamp is connected with the delay switch controller through a circuit, and the self-resetting electromagnet is connected with the delay switch controller through a circuit.

Further, still including second spring and atress board, backup pad right side lower part evenly is equipped with the second spring, is connected with the atress board between the second spring right-hand member.

Furthermore, the device also comprises a second rack, a speed reducing motor and a second gear, wherein the upper part of the left side of the sliding block is connected with the second rack, the upper part of the right side of the vertical pipe is connected with the speed reducing motor, the speed reducing motor is connected with the delay switch controller through a circuit, the output shaft on the right side of the speed reducing motor is provided with the second gear, and the second gear is meshed with the second rack.

When a user needs to use the equipment to carry out basketball snapping training, the user controls the electric reel to rotate clockwise, the pull wire drives the push block to move downwards, the first spring is compressed, when the push block moves downwards to a proper position, the user closes the electric reel, the user pours a plurality of basketballs into the placing sleeve, the basketballs enter the vertical tube through the guide sleeve, when a proper amount of basketballs are placed in the equipment, the user controls the electric reel to rotate anticlockwise, the first spring resets, the first spring drives the push block to move upwards to the original position, the basketballs positioned at the top of the vertical tube are positioned in the ball dropping device, the user moves the sliding block and the upper parts of the sliding block forwards or backwards so as to move the basketballs forwards or backwards, when the user moves the basketballs to a proper position, the user starts the wireless switch controller through the remote controller, and the wireless switch, at the moment, a user can jump upwards, when the head of the user reaches the horizontal height which can be sensed by the infrared probe, the infrared probe triggers the delay switch controller to enter a 15-second countdown, the delay switch controller triggers the self-resetting electromagnet to attract, the self-resetting electromagnet drives the upper part of the self-resetting electromagnet to move rightwards for 15S, so that the first rack is driven to move rightwards, the first rack drives the left belt pulley to rotate through the first gear, the left belt pulley drives the right belt pulley to rotate through a flat belt, the right belt pulley drives the baffle to swing upwards through the first rotating shaft, meanwhile, the top block swings rightwards under the action of the first rotating shaft, so that the topmost basketball is pushed out, the basketball continuously rolls down from the guide sleeve to the stand pipe to be compensated under the action of the electric reel control push block, the self-resetting electromagnet is disconnected after 15S, and the self-resetting electromagnet and the, the baffle is driven to swing downwards to return to the original position, the ejector block is driven to swing leftwards to return to the original position, the basketball with the position compensated is ready, the basketball pushed out right rolls to leave the basketball falling sleeve, a user can start to perform basketball robbing-up training, the infrared probe is triggered again in the basketball falling process, the infrared probe triggers the delay switch controller to enter 7S countdown, the delay switch controller enters 15S countdown again after 7S, namely the delay switch controller triggers the self-resetting electromagnet to move rightwards for 15S, the operation is repeated in such a cycle, the basketball continuously falls from the basketball falling sleeve, and the user can continuously perform basketball robbing-up training.

The cooperation of atress board and second spring makes people can not beat on the backup pad when training backboard ball robbes absolutely, has a buffer power, has reduced the impact to the backup pad.

The time delay switch controller controls the reducing motor to rotate forwards for 2S when the infrared probe is triggered for odd times, the reducing motor rotates forwards to drive the second gear to rotate forwards, the second gear drives the sliding block and the upper part of the sliding block to move forwards through the second rack, the basket is driven to move forwards, when the infrared probe is triggered for even times, the infrared probe triggers the time delay switch controller to control the reducing motor to rotate backwards, the reducing motor rotates backwards to drive the second gear to rotate backwards, the second gear drives the sliding block and the upper part of the sliding block to move backwards through the second rack, the basket is driven to move backwards, the circulation is repeated, and the basketball is snapped when falling onto different positions of the backboard.

The beneficial effects are that: according to the invention, the operation of the self-resetting electromagnet is triggered by the infrared probe, so that a basketball can continuously roll down from the placing sleeve and accurately throw out a backboard ball, and the delay switch controller controls the speed reducing motor to drive the second gear to rotate forward and backward, so that the position of the basket is adjusted by the rack, and the training of the basketball on the snapping of people when the basketball falls on different positions of the backboard is realized.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a partial front view of the ball falling device of the present invention.

Fig. 3 is a second front view structure diagram of the present invention.

Fig. 4 is a partial schematic front view of the present invention.

Fig. 5 is a schematic block diagram of the circuit of the present invention.

In the reference symbols: 1 … bottom plate, 2 … support plate, 3 … sliding rail, 4 … sliding block, 5 … L-shaped rod, 6 … backboard, 7 … basket, 8 … infrared probe, 9 … vertical pipe, 10 … ball falling device, 11 … push block, 12 … first spring, 13 … electric reel, 14 … pull wire, 15 … guide sleeve, 16 … placing sleeve, 17 … control box, 171 … storage battery, 172 … wireless switch controller, 173 … time delay switch controller, 101 … ball falling sleeve, 102 … indicator light, 103 … through hole, 104 … first connecting rod, 105 … first rotating shaft, 106 … first connecting block, 107 … top block, 108 … baffle, 109 … second connecting rod, 1010 … second rotating shaft, 1011 … first gear, 1012 … first pulley, 1013 … flat belt 1014, … third connecting rod, 1015, 1013672 guide sleeve, 1013672 second connecting rod, 1013672 second connecting block, …, 361018 second connecting rod, … self-

recovery spring

1018, 302 … force plate, 311 … second rack, 312 … gear motor, 313 … second gear.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

An infrared control basketball snap-off training device comprises a bottom plate 1, a supporting plate 2, a sliding rail 3, a sliding block 4, an L-shaped rod 5, a backboard 6, a basket 7, an infrared probe 8, a vertical pipe 9, a ball falling device 10, a push block 11, a first spring 12, an electric reel 13, a stay wire 14, a guide sleeve 15, a placing sleeve 16 and a control box 17, wherein the supporting plate 2 is arranged in the middle of the top of the bottom plate 1, the sliding rail 3 is embedded in the top of the supporting plate 2, the sliding block 4 is arranged on the sliding rail 3, the L-shaped rod 5 is connected to the top of the sliding block 4, the backboard 6 is connected to the right side of the bottom of the L-shaped rod 5, the basket 7 is connected to the lower portion of the right side of the backboard 6, the infrared probe 8 is arranged above the basket 7, the vertical pipe 9 is connected to the upper portion of the left side of the supporting plate 2, the ball falling device 10 is connected to, The device comprises an indicator light 102, a first connecting rod 104, a first rotating shaft 105, a first connecting block 106, a top block 107, a baffle 108, a second connecting rod 109, a second rotating shaft 1010, a first gear 1011, a belt pulley 1012, a flat belt 1013, a third connecting rod 1014, a self-resetting electromagnet 1015, a guide sleeve 1016, a guide rail 1017, a first rack 1018 and a second connecting block 1019, wherein a ball dropping sleeve 101 is arranged at the top of a vertical pipe 9, the ball dropping sleeve 101 is communicated with the vertical pipe 9, the indicator light 102 is connected to the right side of the bottom of the ball dropping sleeve 101, a through hole 103 is formed in the left side of the top of the ball dropping sleeve 101, the first connecting rod 104 is connected to the lower portion of the left inner wall of the ball dropping rotating sleeve 101, the first rotating shaft 105 is rotatably arranged at the right portion of the first connecting rod 104, the first connecting block 106 is arranged at the rear portion of the first rotating shaft 105, the top block 107 is connected to the bottom of the first connecting block 106, the baffle 108 is connected to, a first gear 1011 is arranged on the second rotating shaft 1010, a belt pulley 1012 is arranged on the front side of the first gear 1011 through the second rotating shaft 1010, another belt pulley 1012 is arranged on the first rotating shaft 105, a flat belt 1013 is wound between the belt pulleys 1012 on the left and right sides, a third connecting rod 1014 is connected to the left side of the bottom in the ball drop sleeve 101, a self-resetting electromagnet 1015 is arranged on the top of the third connecting rod 1014, a guide sleeve 1016 is arranged on the top of the self-resetting electromagnet 1015, a guide rail 1017 is arranged in an inner sliding manner in the guide sleeve 1016, the guide rail 1017 penetrates through the guide sleeve 1016, a first rack 1018 is arranged on the top of the guide rail 1017, the first rack 1018 is meshed with the first gear 1011 on the left side, a second connecting block 1019 is connected to the left part of the self-resetting electromagnet 1015, the top end of the second connecting block 1019 is connected with the guide rail 1017, a first spring 12 is connected to the bottom, the stay wire 14 passes through the riser 9, the stay wire 14 passes through the first spring 12, the stay wire 14 is connected with the push block 11, the middle part of the left side of the riser 9 is provided with the guide sleeve 15, the guide sleeve 15 is communicated with the riser 9, the top of the guide sleeve 15 is provided with the placing sleeve 16, the placing sleeve 16 is communicated with the guide sleeve 15, the lower part of the left side of the support plate 2 is provided with the control box 17, the control box 17 comprises a storage battery 171, a wireless switch controller 172 and a delay switch controller 173, the storage battery 171, the wireless switch controller 172 and the delay switch controller 173 are connected through a circuit, the infrared probe 8 is connected with the delay switch controller 173 through a circuit, the indicator lamp 102 is connected with the delay switch controller 173 through a circuit, and the self-resetting electromagnet 1015 is connected with.

Example 2

The support plate is characterized by further comprising a second spring 301 and a stress plate 302, the second spring 301 is uniformly arranged on the lower portion of the right side of the support plate 2, and the stress plate 302 is connected between the right ends of the second springs 301.

Example 3

The device further comprises a second rack 311, a speed reducing motor 312 and a second gear 313, the second rack 311 is connected to the upper portion of the left side of the sliding block 4, the speed reducing motor 312 is connected to the upper portion of the right side of the vertical pipe 9, the speed reducing motor 312 is connected with the delay switch controller 173 through a circuit, the second gear 313 is arranged on an output shaft of the right side of the speed reducing motor 312, and the second gear 313 is meshed with the second rack 311.

When a user needs to use the device to perform a basketball snapping exercise on the backboard 6, the user controls the electric reel 13 to rotate clockwise, the pull wire 14 drives the push block 11 to move downwards, the first spring 12 is compressed, when the push block 11 moves downwards to a proper position, the user closes the electric reel 13, the user pours a plurality of basketballs into the placing sleeve 16, the basketballs enter the stand pipe 9 through the guide sleeve 15, when a proper amount of basketballs are placed in the device, the user controls the electric reel 13 to rotate anticlockwise, the first spring 12 resets, the first spring 12 drives the push block 11 to move upwards to a home position, the basketballs at the uppermost part of the stand pipe 9 are positioned in the ball dropping device 10, the user moves the slide block 4 and the upper parts forwards or backwards, so as to move the basket forwards or backwards, when the user moves the basket to a proper position, the user starts the wireless switch controller 172 through the remote controller 172, the wireless switch controller 172 controls the storage battery 171 to supply power, at the moment, the user can jump upwards, when the head of the user reaches the horizontal height which can be sensed by the infrared probe 8, the infrared probe 8 triggers the delay switch controller 173 to count down for 15 seconds, the delay switch controller 173 triggers the self-resetting electromagnet 1015 to attract, the self-resetting electromagnet 1015 drives the upper part of the self-resetting electromagnet to move rightwards for 15S, so as to drive the first rack 1018 to move rightwards, the first rack 1018 drives the left belt pulley 1012 to rotate through the first gear 1011, the left belt pulley 1012 drives the right belt pulley 1012 to rotate through the flat belt 1013, the right belt pulley 1012 drives the baffle 108 to swing upwards through the first rotating shaft 105, meanwhile, the top block 107 swings rightwards under the action of the first rotating shaft 105, so as to push out the topmost basketball, the basketball continuously rolls down from the guide sleeve 15 to the stand pipe 9 for compensation under the action of the push block 11 controlled by the electric reel 13, the self-resetting electromagnet 1015 is disconnected after, the self-reset electromagnet 1015 and the upper components thereof move leftwards to reset, so that the baffle 108 is driven to swing downwards to return to the original position, the top block 107 is driven to swing leftwards to return to the original position, the basketball with the position compensated is ready, the pushed basketball rolls rightwards to leave the ball dropping sleeve 101, a user can start to perform basketball robbing-up training on the backboard 6, the infrared probe 8 is triggered again in the falling process of the basketball, the infrared probe 8 triggers the delay switch controller 173 to enter 7S countdown, the delay switch controller 173 enters 15S countdown again after 7S, namely the delay switch controller 173 triggers the self-reset electromagnet 1015 to move rightwards for 15S, and the cycle is repeated, so that the basketball continuously falls from the ball dropping sleeve 101, and the user can continuously perform basketball robbing-up training on the backboard 6.

The cooperation of atress board 302 and second spring 301 makes people can not hit on the backup pad 2 when training backboard 6 ball is robbed up absolutely, has a buffer power, has reduced the impact to backup pad 2.

The delay switch controller 173 controls the deceleration motor 312 to rotate forwards for 2S when the infrared probe 8 is triggered for odd times, the deceleration motor 312 rotates forwards to drive the second gear 313 to rotate forwards, the second gear 313 drives the sliding block 4 and the upper part thereof to move forwards through the second rack 311, so as to drive the basket to move forwards, when the infrared probe 8 is triggered for even times, the infrared probe 8 triggers the delay switch controller 173 to control the deceleration motor 312 to rotate backwards, the deceleration motor 312 rotates backwards to drive the second gear 313 to rotate backwards, the second gear 313 drives the sliding block 4 and the upper part thereof to move backwards through the second rack 311, so that the basket is driven to move backwards, and the cycle is repeated, so that the training of the basketball robbing up the basketball of people when the basketball falls on different positions of the backboard 6 is realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. An infrared control basketball snap training device comprises a bottom plate (1), a supporting plate (2), a backboard (6) and a basket (7), wherein the supporting plate (2) is arranged in the middle of the top of the bottom plate (1), the basket (7) is connected with the lower portion of the right side of the backboard (6), the basketball snap training device is characterized by further comprising a sliding rail (3), a sliding block (4), an L-shaped rod (5), an infrared probe (8), a vertical pipe (9), a ball falling device (10), a push block (11), a first spring (12), an electric reel (13), a stay wire (14), a guide sleeve (15), a placing sleeve (16) and a control box (17), the sliding rail (3) is embedded in the top of the supporting plate (2), the sliding block (4) is arranged on the sliding rail (3), the L-shaped rod (5) is connected with the top of the sliding block (4), the backboard (6) is connected with the right side of the bottom of the L-shaped, the infrared probe (8) is positioned above the basket frame (7), the upper part of the left side of the support plate (2) is connected with a vertical pipe (9), the top of the vertical pipe (9) is connected with a ball falling device (10), the ball falling device (10) comprises a ball falling sleeve (101), an indicator lamp (102), a first connecting rod (104), a first rotating shaft (105), a first connecting block (106), a top block (107), a baffle (108), a second connecting rod (109), a second rotating shaft (1010), a first gear (1011), a belt pulley (1012), a flat belt (1013), a third connecting rod (1014), a self-resetting electromagnet (1015), a guide sleeve (1016), a guide rail (1017), a first rack (1018) and a second connecting block (1019), the top of the vertical pipe (9) is provided with the ball falling sleeve (101), the ball falling sleeve (101) is communicated with the vertical pipe (9), the right side of the bottom of the ball falling sleeve (101) is connected with the indicator lamp (102), the left side of the top, the lower part of the left inner wall of the ball falling sleeve (101) is connected with a first connecting rod (104), the right part of the first connecting rod (104) is rotatably provided with a first rotating shaft (105), the rear part of the first rotating shaft (105) is provided with a first connecting block (106), the bottom of the first connecting block (106) is connected with a top block (107), the top of the first connecting block (106) is connected with a baffle (108), the right side of the bottom of the first connecting rod (104) is connected with a second connecting rod (109), the bottom of the second connecting rod (109) is rotatably provided with a second rotating shaft (1010), the second rotating shaft (1010) is provided with a first gear (1011), the front side of the first gear (1011) is provided with a belt pulley (1012) through the second rotating shaft (1010), the first rotating shaft (105) is provided with another belt pulley (1012), a flat belt (1013) is wound between the belt pulleys (1013) on the left side and the right, the top of the third connecting rod (1014) is provided with a self-resetting electromagnet (1015), the top of the self-resetting electromagnet (1015) is provided with a guide sleeve (1016), the guide sleeve (1016) is internally provided with a guide rail (1017) in a sliding manner, the guide rail (1017) penetrates through the guide sleeve (1016), the top of the guide rail (1017) is provided with a first rack (1018), the first rack (1018) is meshed with a first gear (1011) on the left side, the left part of the self-resetting electromagnet (1015) is connected with a second connecting block (1019), the top end of the second connecting block (1019) is connected with the guide rail (1017), the bottom of the vertical pipe (9) is connected with a first spring (12), the top end of the first spring (12) is connected with a push block (11), the left side of the outer bottom of the vertical pipe (9) is provided with an electric reel (13), a pull wire (14) is wound on the electric reel (13), the pull wire (14) penetrates through the, riser (9) left side middle part is equipped with uide bushing (15), uide bushing (15) and riser (9) intercommunication, uide bushing (15) top is equipped with places cover (16), place cover (16) and uide bushing (15) intercommunication, backup pad (2) left side lower part is equipped with control box (17), control box (17) are including battery (171), wireless switch controller (172) and delay switch controller (173), battery (171), pass through the line connection between wireless switch controller (172) and the delay switch controller (173), infrared probe (8) are connected with delay switch controller (173) through the circuit, pilot lamp (102) are connected with delay switch controller (173) through the circuit, from reset electromagnet (1015) through the circuit with delay switch controller (173) be connected.

2. The infrared control basketball snap-off training device as claimed in claim 1, further comprising a second spring (301) and a stress plate (302), wherein the second spring (301) is uniformly arranged on the lower portion of the right side of the support plate (2), and the stress plate (302) is connected between the right ends of the second springs (301).

3. The infrared control basketball snap-off training device as claimed in claim 2, further comprising a second rack (311), a reduction motor (312) and a second gear (313), wherein the second rack (311) is connected to the upper portion of the left side of the sliding block (4), the reduction motor (312) is connected to the upper portion of the right side of the vertical pipe (9), the reduction motor (312) is connected with the delay switch controller (173) through a circuit, the second gear (313) is arranged on an output shaft of the right side of the reduction motor (312), and the second gear (313) is meshed with the second rack (311).