CN117589116A - Basketball hoop flatness detection device of basketball stand - Google Patents

Abstract

The utility model relates to the technical field of sports goods production, and discloses a basketball hoop flatness detection device of a basketball stand, which comprises a conveying mechanism, wherein the conveying mechanism comprises a conveying table arranged on the ground, a displacement assembly arranged near the conveying table and a pickup assembly arranged on the displacement assembly, the displacement assembly comprises a displacement frame arranged on the ground and a driving part arranged at the top of the displacement frame, the pickup assembly is arranged on the driving part, the driving part is used for driving the pickup assembly to move, and the pickup assembly is used for picking up the basketball hoop; the detecting mechanism comprises an operating platform near the conveying mechanism, a bearing bracket arranged at the top of the operating platform and a detecting part near the bearing bracket, wherein the bearing bracket is used for supporting the basketball hoop, and the detecting part is used for detecting the flatness of the basketball hoop. The application has the effect of promoting the detection effect to rim roughness.

Description

Basketball hoop flatness detection device of basketball stand

Technical Field

The application relates to the technical field of sports goods production, in particular to a basketball hoop flatness detection device of a basketball stand.

Background

Basketball stands are one of the indispensable devices in basketball practice. Existing basketball stands generally include a frame body, a backboard and a basket. The frame body is generally installed on the ground, the backboard is vertically and fixedly installed on the side wall of the frame body, and the basket is fixedly installed on one side, far away from the frame body, of the backboard. In basketball sports, basketball can be scored by being put into the basket.

The basket generally includes a hoop and a net. The basketball hoop is horizontally and fixedly arranged on one side of the backboard far away from the frame body, and the basketball net is arranged on the basketball hoop. When basketball is put into the basket, the basketball is blocked by the basketball net, so that the basketball is convenient to temporarily stop in the process of playing, and a judge and a spectator can conveniently judge whether to play the basketball.

At present, when manufacturing the basketball hoop, a section of steel is generally cut, the steel is bent into a round shape, and the ends of the steel are welded, so that the manufacturing of the basketball hoop is completed. After the production of the basketball hoop, in order to ensure the production quality of the basketball hoop, the flatness of the basketball hoop is generally required to be detected.

At present, when flatness detection is carried out on a basketball hoop, the basketball hoop is generally directly placed on a workbench, and a worker judges whether the flatness of the basketball hoop is qualified by observing whether a gap exists between the basketball hoop and the workbench. When no gap exists between the basket ring and the workbench, judging that the flatness of the basket ring is qualified; when a gap exists between the basket ring and the workbench, the flatness of the basket ring is judged to be unqualified.

In view of the above-mentioned related art, the inventor considers that when producing the rim in the mill, the number of rims that need to be detected is great, and the staff need frequent to place the rim on the workstation when detecting the rim to detect the planarization of rim, and the staff is easy to appear detecting the mistake condition because tired after long-time detection, therefore has the defect that rim detection effect is not good.

Disclosure of Invention

In order to promote the testing effect to rim roughness, this application provides a rim roughness detection device of basketball stands.

The utility model provides a basketball stands's rim roughness detection device adopts following technical scheme:

the basketball hoop flatness detection device comprises a conveying mechanism, wherein the conveying mechanism comprises a conveying table arranged on the ground, a displacement assembly arranged near the conveying table and a pickup assembly arranged on the displacement assembly, the displacement assembly comprises a displacement frame arranged on the ground and a driving part arranged at the top of the displacement frame, the pickup assembly is arranged on the driving part, the driving part is used for driving the pickup assembly to move, and the pickup assembly is used for picking up the basketball hoop;

the detecting mechanism comprises an operating platform near the conveying mechanism, a bearing support arranged at the top of the operating platform and a detecting part near the bearing support, wherein the bearing support is used for supporting the basketball hoop, and the detecting part is used for detecting the flatness of the basketball hoop.

Through adopting above-mentioned technical scheme, when need examining the roughness of rim, make the staff place the rim that waits to detect at the transport bench top, then, drive through drive division and pick up the subassembly and remove towards the rim that waits to detect to pick up the rim that waits to detect through picking up the subassembly. Then, make pick up the subassembly again and bring the rim that waits to detect and move towards being close to detection mechanism direction to place the rim that waits to detect inside the bearing support through pick up the subassembly, then, make detection portion wait to detect the rim roughness, and pick up the rim that the detection is accomplished through pick up the subassembly again, drive the rim that has detected through pick up the subassembly and break away from the bearing support, the staff carries out classification to the rim according to the testing result of rim roughness, thereby, has promoted convenience and the accuracy that detects the rim roughness.

Optionally, the drive part includes the level is arranged in drive piece at displacement frame top, vertically arranges the drive roller at drive piece both ends, arranges the drive link joint between two drive rollers and arranges the drive motor that is close to the drive roller on the drive piece in, the drive roller rotates wears to establish the displacement frame, the motor shaft of drive motor with the tip fixed connection of drive roller, pick up the subassembly and install on the drive link joint outer lane lateral wall.

Through adopting above-mentioned technical scheme, at the drive division during operation, the displacement frame supports the drive piece, and driving motor passes through the drive roller and drives the drive link joint and remove, and the drive link joint drives and picks up the subassembly and remove to, promoted the convenience that picks up the subassembly and remove.

Optionally, a plurality of supporting parts are circumferentially distributed on the side wall of the driving block along the vertical direction of the driving block, each supporting part comprises a supporting rod with one end penetrating through the driving block, and the supporting rods are abutted to the bottoms of the driving chain plates.

Through adopting above-mentioned technical scheme, in the drive link joint course of working, bracing piece and drive link joint bottom are contradicted, support the drive link joint through the bracing piece to, reduced the possibility that the drive link joint breaks away from the drive roller in the course of working, promoted the job stabilization nature of drive link joint.

Optionally, the supporting part further comprises a supporting cylinder rotatably sleeved on the periphery of the supporting rod, and the outer ring wall of the supporting cylinder is abutted to the bottom of the driving chain plate.

Through adopting above-mentioned technical scheme, when supporting the drive link joint, because support a section of thick bamboo and drive link joint bottom conflict, and support a section of thick bamboo rotation cover and establish in the bracing piece periphery, and then, in drive link joint course of working, a section of thick bamboo is rotated around the bracing piece along with the removal of drive link joint to this reduces the frictional force of drive link joint and support a section of thick bamboo.

Optionally, the picking assembly comprises a picking cylinder vertically arranged on the driving part, a picking block arranged at the bottom end of the picking cylinder and a picking part arranged on the picking block and used for picking the basket ring.

Through adopting above-mentioned technical scheme, when needs pick up the rim, pick up the cylinder and promote the pick up portion and move towards the direction of keeping away from the drive link joint, after pick up portion picks up the rim, again through pick up the cylinder with pick up portion towards the direction that is close to the drive link joint and remove the convenience of pick up portion to have promoted.

Optionally, the pick-up portion is including arranging in pick-up board, rotation wearing to establish pick-up lead screw of pick-up board and arranging in the pick-up piece and be close to the pick-up motor of pick-up lead screw, pick-up motor's motor shaft and adjacent pick-up lead screw's tip fixed connection, be provided with two sections reverse screw threads on the pick-up lead screw, just rotate on the pick-up lead screw and wear to establish two pick-up pieces that are used for picking up the rim, two pick-up pieces with pick-up lead screw two sections reverse screw threads one-to-one.

Through adopting above-mentioned technical scheme, when picking up the motor and driving and picking up the lead screw rotation, pick up the board and carry out spacingly to picking up the lead screw, owing to be provided with two sections reverse screw threads on picking up the lead screw, and two sections reverse screw threads and two pick up a one-to-one, and then, when picking up the lead screw rotation, be convenient for two pick up the synchronous keeping away from and synchronous being close to, and then, be convenient for pick up the piece and pick up and put down the rim, simultaneously, also be convenient for fix a position the rim through picking up the piece to this promotes the convenience of placing the rim at detection mechanism.

Optionally, every pick up the piece all include the sliding block and arrange the sliding plate in the sliding block bottom, pick up the lead screw spiral and wear to establish the sliding block, the sliding block with pick up the sliding fit of block, the sliding plate is L type setting.

By adopting the technical scheme, the pick-up screw rod spirally penetrates through the sliding block, and the sliding block is in sliding fit with the pick-up block, so that the pick-up screw rod is convenient to drive the sliding block to move along the length direction of the pick-up screw rod due to the fact that the pick-up block limits the sliding block; when the basketball hoop is required to be picked up, the sliding plates are close to the basketball hoop and are synchronously separated from each other, the basketball hoop is jacked up by the sliding plates, the basketball hoop is supported and limited through the sliding plates, and when the basketball hoop is required to be placed, the two sliding plates are synchronously close to each other, so that convenience in picking up the basketball hoop and placing the basketball hoop is improved.

Optionally, the bearing support is including arranging in the support ring at operation platform top and a plurality of support piece of arranging in on the support ring inner wall, a plurality of support ring is followed support ring axis direction circumference interval distribution, the support piece is used for supporting the rim.

By adopting the technical scheme, when the basketball hoop is required to be placed in the support bracket, the basketball hoop is placed on the support block, and the basketball hoop is supported by the support block, so that the stability of supporting the basketball hoop is improved.

Optionally, the detection portion includes a plurality of range finders of arranging in the operation platform top, every range finders all are arranged in between the adjacent supporting piece, when the supporting piece supported the rim, the rim was arranged in directly over the range finders.

Through adopting above-mentioned technical scheme, the distancer is placed between two adjacent supporting blocks, when the support piece was placed to the rim, because the rim was placed directly over the distancer, carries out the multiple spot range finding to the rim through the distancer, whether the roughness of rim is qualified is judged through distancer measuring numerical value unanimity to this promotes rim roughness measuring accuracy.

Optionally, a positioning cylinder is arranged at the top of the conveying table and is used for positioning the basket ring to be detected.

Through adopting above-mentioned technical scheme, when placing the rim, place the rim that waits to detect in the positioning tube, fix a position the rim through the positioning tube to the subassembly of being convenient for picks up the rim.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the flatness of the basketball hoop is required to be detected, a worker places the basketball hoop to be detected on the top of the conveying table, then drives the pickup assembly to move towards the basketball hoop to be detected through the driving part, and picks up the basketball hoop to be detected through the pickup assembly. Then, make pick up the subassembly again and bring the rim that waits to detect and move towards being close to detection mechanism direction to place the rim that waits to detect inside the bearing support through pick up the subassembly, then, make detection portion wait to detect the rim roughness, and pick up the rim that the detection is accomplished through pick up the subassembly again, drive the rim that has detected through pick up the subassembly and break away from the bearing support, the staff carries out classification to the rim according to the testing result of rim roughness, thereby, has promoted convenience and the accuracy that detects the rim roughness.

2. When the pick-up motor drives the pick-up screw rod to rotate, the pick-up plate limits the pick-up screw rod, and due to the fact that two sections of reverse threads are arranged on the pick-up screw rod, the two sections of reverse threads and the two pick-up pieces are in one-to-one correspondence, and further, when the pick-up screw rod rotates, the two pick-up pieces are convenient to synchronously keep away from and synchronously approach, and further, the pick-up pieces are convenient to pick up and put down the basketball ring, and meanwhile, the pick-up pieces are also convenient to position the basketball ring, so that convenience of placing the basketball ring on a detection mechanism is improved.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic diagram showing a structure of a driving section in the embodiment of the present application.

Fig. 3 is a schematic diagram showing a structure of a pick-up assembly in an embodiment of the present application.

Fig. 4 is a schematic view showing a pickup structure in the embodiment of the present application.

Fig. 5 is a schematic diagram showing the structure of the detection mechanism in the embodiment of the present application.

Reference numerals illustrate:

01. a basket ring; 1. a conveying mechanism; 11. a conveying table; 111. a positioning cylinder; 12. a displacement assembly; 121. a displacement frame; 122. a driving section; 1221. a driving block; 1222. a driving roller; 1223. driving a chain plate; 1224. a driving motor; 123. a support part; 1231. a support rod; 1232. a support cylinder; 13. a pick-up assembly; 131. a pick-up cylinder; 132. picking up the block; 133. a pickup section; 1331. a pick-up plate; 1332. picking up a screw rod; 1333. picking up a motor; 1334. a pick-up; 1335. a sliding block; 1336. a sliding plate; 2. a detection mechanism; 21. an operating platform; 22. a support bracket; 221. a support ring; 222. a support block; 23. a detection unit; 231. a distance measuring instrument.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses basketball hoop flatness detection device of basketball stand.

Referring to fig. 1, a rim flatness detecting device of a basketball stand comprises a conveying mechanism 1 and a detecting mechanism 2. The conveying mechanism 1 and the detecting mechanism 2 are fixedly arranged on the ground, the conveying mechanism 1 is arranged on the ground and close to the position of the detecting mechanism 2, the conveying mechanism 1 is used for conveying the basket ring 01 to be detected to the detecting mechanism 2, the basket ring 01 to be detected is detected through the detecting mechanism 2, and the detected basket ring 01 is taken out again through the conveying mechanism 1.

Referring to fig. 1, when the basket ring 01 needs to be detected, the basket ring 01 to be detected is placed on the conveying mechanism 1, the basket ring 01 to be detected is conveyed to the detecting mechanism 2 through the conveying mechanism 1, the flatness of the basket ring 01 is detected through the detecting mechanism 2, and after the detection of the basket ring 01 is completed, the detected basket ring 01 on the detecting mechanism 2 is taken out through the conveying mechanism 1, so that the efficiency and the accuracy of detecting the flatness of the basket ring 01 are improved.

Referring to fig. 1, the conveying mechanism 1 includes a conveying table 11, a displacement assembly 12, and a pickup assembly 13. The conveying table 11 is fixedly arranged on the ground, the top of the conveying table 11 is fixedly provided with a positioning cylinder 111, and the axis of the positioning cylinder 111 is perpendicular to the ground.

Referring to fig. 1 and 2, the displacement assembly 12 is fixedly installed on the ground near the conveying table 11, and the displacement assembly 12 includes a displacement frame 121 and a driving part 122. The displacement frame 121 is fixedly installed on the ground, and the driving part 122 includes a driving block 1221, a driving roller 1222, a driving link plate 1223, and a driving motor 1224.

Referring to fig. 1 and 2, a driving block 1221 is fixedly installed at the top of the displacement frame 121, and both ends of the driving block 1221 in the length direction are provided with arc surfaces. The driving rollers 1222 are provided with two, the two driving rollers 1222 are respectively arranged at two ends of the driving block 1221, each driving roller 1222 is arranged near the corresponding arc surface, each driving roller 1222 is vertically arranged, and each driving roller 1222 rotates through the displacement frame 121.

Referring to fig. 1 and 2, a driving link plate 1223 is disposed between two driving rollers 1222, and the inner wall of the driving link plate 1223 abuts against the side wall of the driving roller 1222, a driving motor 1224 is fixedly mounted on the top of the driving block 1221, the axis of a motor shaft of the driving motor 1224 coincides with the axis of the driving roller 1222, and the motor shaft of the driving motor 1224 is fixedly connected with the top end of the driving roller 1222.

Referring to fig. 1 and 2, two sides of a length direction of a driving block 1221 are provided with a plurality of supporting parts 123, the plurality of supporting parts 123 are uniformly distributed along the length direction of the driving block 1221, each supporting part 123 comprises a supporting rod 1231 and a supporting cylinder 1232, the supporting rods 1231 are horizontally arranged, the supporting rods 1231 are perpendicular to the driving block 1221, the supporting cylinders 1232 are rotatably sleeved on the outer periphery of the supporting rods 1231, and the bottoms of the supporting cylinders 1232 and the driving chain plates 1223 are in contact.

Referring to fig. 1, 2 and 3, the pickup assembly 13 is provided with a plurality of pickup assemblies 13 circumferentially distributed along the axial direction of the driving link plate 1223. Each pickup assembly 13 includes a pickup cylinder 131, a pickup block 132, and a pickup portion 133. The pick-up cylinder 131 is fixedly installed on the outer circumferential side wall of the driving link plate 1223, and the pick-up cylinder 131 is vertically disposed. Pickup block 132 is fixedly mounted to the bottom of pickup cylinder 131.

Referring to fig. 3 and 4, the pickup portion 133 includes a pickup plate 1331, a pickup screw 1332, a pickup motor 1333, and a pickup piece 1334. Pickup plate 1331 is fixedly installed at the bottom of pickup block 132, and pickup plate 1331 is provided with two pieces. The pick-up screw 1332 is arranged between the two pick-up plates 1331, two ends of the pick-up screw 1332 are in one-to-one correspondence with the two pick-up plates 1331, the end parts of the pick-up screws 1332 are rotatably penetrated through the adjacent pick-up plates 1331, and two sections of threads with opposite screwing directions are arranged on the pick-up screws 1332. The pickup motor 1333 is fixedly installed on the side wall of the pickup block 132 at a position close to the pickup screw 1332, and a motor shaft of the pickup motor 1333 is fixedly connected with the end part of the adjacent pickup screw 1332.

Referring to fig. 3 and 4, the pickup 1334 is disposed between two pickup plates 1331, and the two pickup 1334 are provided with two opposite-handed threads on the two pickup 1334 and the pickup screw 1332. Each pick 1334 includes a slider 1335 and a slider plate 1336. The pick-up screw 1332 rotates through a corresponding sliding block 1335, the sliding block 1335 is in sliding fit with the driving block 1221, a sliding plate 1336 is arranged at the bottom of the sliding block 1335, the sliding plate 1336 is in an L-shaped arrangement, and the sliding block 1335 is fixedly connected with the sliding plate 1336.

Referring to fig. 1 and 5, the detection mechanism 2 includes an operation platform 21, a support bracket 22, and a detection unit 23. The operation platform 21 is fixedly installed on the ground at a position close to the conveying mechanism 1. The support bracket 22 includes a support ring 221 and a support block 222, the support ring 221 is fixedly installed on the operation platform 21, and an axis of the support ring 221 is perpendicular to the ground. The supporting blocks 222 are arranged inside the supporting ring 221, the supporting blocks 222 are provided with a plurality of supporting blocks 222, the supporting blocks 222 are uniformly distributed at intervals along the axial direction of the supporting ring 221, each supporting block 222 is fixedly connected with the inner ring wall of the supporting ring 221, and the tops of the supporting blocks 222 are positioned on the same plane. The detection portion 23 includes a plurality of distancers 231, and a plurality of distancers 231 are all fixed mounting at operation platform 21 top, and a plurality of distancers 231 are along support ring 221 axis direction circumference interval evenly distributed, and between two adjacent supporting pieces 222 are all arranged in to every distancer 231, when support piece 222 top is arranged in to rim 01, rim 01 is arranged in directly over the distancer 231, in this embodiment, the distancer 231 is infrared laser distancer 231.

The implementation principle of the basketball hoop flatness detection device of the basketball stand provided by the embodiment of the application is as follows: when the flatness of the basketball hoop 01 needs to be detected, the basketball hoop 01 to be detected is placed inside the positioning cylinder 111, and the basketball hoop 01 to be detected is initially positioned through the positioning cylinder 111. Then, the driving motor 1224 drives the driving link plate 1223 to move, and when the pickup piece 1334 is disposed right above the basket 01 to be detected, the pickup cylinder 131 makes the pickup piece 1334 approach to the basket 01 to be detected. Then, the pick-up screw 1332 is driven to rotate by the pick-up motor 1333, so that the sliding plate 1336 moves towards the position close to the basket 01 to be detected, the basket 01 to be detected is picked up by the sliding plate 1336, and the basket 01 to be detected is separated from the positioning cylinder 111 again by the pick-up cylinder 131. Then, the ring 01 to be detected is placed on the square of the supporting ring 221 by driving the chain plate 1223 again, and the ring 01 to be detected is placed on the supporting block 222, and the ring 01 to be detected is subjected to multi-point ranging by the plurality of range finders 231, so as to determine the flatness of the ring 01. After the flatness of the rim 01 is detected, the rim 01 is taken out again, so that the subsequent rim 01 can be monitored conveniently.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. Basketball hoop flatness detection device of basketball stands, its characterized in that: the basket ring picking device comprises a conveying mechanism (1), wherein the conveying mechanism (1) comprises a conveying table (11) arranged on the ground, a displacement assembly (12) arranged near the conveying table (11) and a picking assembly (13) arranged on the displacement assembly (12), the displacement assembly (12) comprises a displacement frame (121) arranged on the ground and a driving part (122) arranged on the top of the displacement frame (121), the picking assembly (13) is arranged on the driving part (122), the driving part (122) is used for driving the picking assembly (13) to move, and the picking assembly (13) is used for picking the basket ring (01);

the detecting mechanism (2), detecting mechanism (2) is including arranging in near operation platform (21) of conveying mechanism (1), arrange in bearing support (22) at operation platform (21) top and arrange in near detection portion (23) of bearing support (22), bearing support (22) are used for supporting rim (01), detection portion (23) are used for detecting the roughness of rim (01).

2. The rim flatness detection apparatus of a basketball stand according to claim 1, wherein: the driving part (122) comprises a driving block (1221) horizontally arranged at the top of the displacement frame (121), driving rollers (1222) vertically arranged at two ends of the driving block (1221), a driving chain plate (1223) arranged between the two driving rollers (1222) and a driving motor (1224) arranged on the driving block (1221) and close to the driving rollers (1222), the driving rollers (1222) rotate and penetrate through the displacement frame (121), a motor shaft of the driving motor (1224) is fixedly connected with the end parts of the driving rollers (1222), and the pickup assembly (13) is arranged on the outer ring side wall of the driving chain plate (1223).

3. The rim flatness detection apparatus of a basketball stand according to claim 2, wherein: a plurality of supporting parts (123) are circumferentially distributed on the side wall of the driving block (1221) along the vertical direction of the driving block (1221), each supporting part (123) comprises a supporting rod (1231) with one end penetrating through the driving block (1221), and the supporting rods (1231) are in contact with the bottoms of the driving chain plates (1223).

4. A basketball hoop flatness detection apparatus for a basketball stand according to claim 3, wherein: the supporting part (123) further comprises a supporting cylinder (1232) which is rotatably sleeved on the periphery of the supporting rod (1231), and the outer ring wall of the supporting cylinder (1232) is abutted against the bottom of the driving chain plate (1223).

5. The rim flatness detection apparatus of a basketball stand according to claim 1, wherein: the picking assembly (13) comprises a picking cylinder (131) vertically arranged on the driving part (122), a picking block (132) arranged at the bottom end of the picking cylinder (131) and a picking part (133) arranged on the picking block (132) and used for picking the basket ring (01).

6. The basketball hoop flatness detection apparatus of claim 5, wherein: pick up portion (133) including arrange in pick up board (1331) of pick up piece (132) bottom, rotate pick up lead screw (1332) of wearing to establish pick up board (1331) and arrange in pick up motor (1333) that pick up piece (132) are close to pick up lead screw (1332), pick up motor shaft and the adjacent tip fixed connection of pick up lead screw (1332) of motor (1333), be provided with two sections reverse screw threads on pick up lead screw (1332), just pick up piece (1334) that rotate on lead screw (1332) and wear to establish two and be used for picking up basket (01), two pick up piece (1334) with pick up two sections reverse screw threads one-to-one of lead screw (1332).

7. The basketball hoop flatness detection apparatus of claim 6, wherein: each pick-up piece (1334) comprises a sliding block (1335) and a sliding plate (1336) arranged at the bottom of the sliding block (1335), the sliding block (1335) is spirally penetrated by a pick-up screw rod (1332), the sliding block (1335) is in sliding fit with the pick-up piece (132), and the sliding plate (1336) is in an L-shaped arrangement.

8. The rim flatness detection apparatus of a basketball stand according to claim 1, wherein: the bearing support (22) comprises a bearing ring (221) arranged at the top of the operating platform (21) and a plurality of bearing blocks (222) arranged on the inner wall of the bearing ring (221), wherein the bearing rings (221) are circumferentially distributed at intervals along the axial direction of the bearing ring (221), and the bearing blocks (222) are used for supporting the basketball hoop (01).

9. The rim flatness detection apparatus of a basketball stand, according to claim 8, wherein: the detection part (23) comprises a plurality of distance meters (231) arranged at the top of the operation platform (21), each distance meter (231) is arranged between every two adjacent bearing blocks (222), and when the bearing blocks (222) support the basketball hoop (01), the basketball hoop (01) is arranged right above the distance meters (231).

10. The rim flatness detection apparatus of a basketball stand according to claim 1, wherein: the top of the conveying table (11) is provided with a positioning cylinder (111), and the positioning cylinder (111) is used for positioning the basket ring (01) to be detected.