CN114504783A - Adjustable basketball stand - Google Patents

Abstract

The utility model relates to an adjustable basketball stand belongs to sports equipment technical field, and it includes base, two baskets and sets up support housing on the base, the last two displacement boards that are provided with of support housing, one the displacement board corresponds one the basket, the one end of displacement board is located outside the support housing, the other end of displacement board all is located in the support housing, every just be located on the displacement board all be connected with drive assembly in the support housing, the displacement board is located the outer one end of support housing is used for bearing the basket, drive assembly is used for the drive to correspond the displacement board is followed vertical direction and is moved, is provided with coupling assembling between two drive assembly, coupling assembling is used for driving two drive assembly functions simultaneously. This application helps improving basketball stands's suitability.

Description

Adjustable basketball stand

Technical Field

The application relates to the technical field of sports equipment, in particular to an adjustable basketball stand.

Background

Basketball is one of the sports that is liked by people deeply, is fit for the crowd of each age bracket, all installs basketball stands in places such as community, school, but because the place is limited, consequently adopt two position basketball stands more in order to satisfy people's demand to basketball stands quantity.

The utility model provides a two-position basketball stand, including base and the support housing of setting on the base, be equipped with lifter and drive assembly on the support housing, the lifter sets up along vertical direction, the top of support housing is passed on the top of lifter and is provided with two backboards, two backboards set up mutually back on the back, and all be connected with the basket on every backboard, drive assembly is used for driving the lifter and removes along vertical direction, reciprocate the height that can adjust two backboards through drive assembly drive lifter, and then adjust the height of basket, make basketball stand can adapt to the crowd that the height is different.

In the process of implementing the present application, the inventors found that the above-mentioned technology has at least the following problems:

the up-and-down movement of the lifting rod can adjust the heights of the two backboards at the same time, so that people with large height difference can not use the basketball stands at the same time, and the basketball stands are low in adaptability.

Disclosure of Invention

In order to help improve the suitability of basketball stands, the application provides an adjustable basketball stand.

The application provides an adjustable basketball stands adopts following technical scheme:

the utility model provides an adjustable basketball stand, includes base, two baskets and sets up support housing on the base, be provided with two displacement boards on the support housing, one the displacement board corresponds one the basket, the one end of displacement board is located outside the support housing, the other end of displacement board all is located in the support housing, every on the displacement board and be located all be connected with drive assembly in the support housing, the displacement board is located the outer one end of support housing is used for bearing the weight of the basket, drive assembly is used for the drive to correspond the displacement board is followed vertical direction and is moved, is provided with coupling assembling between two drive assemblies, coupling assembling is used for driving two drive assembly operates simultaneously.

Through the technical scheme, one displacement plate corresponds to one drive, so that the drive assembly can independently drive the corresponding displacement plate to move up and down, and the two baskets can be conveniently and independently adjusted; meanwhile, the connecting component can drive the two driving components to operate simultaneously, so that the two displacement plates can be driven to move along the vertical direction simultaneously, and the two baskets are driven to move up and down simultaneously; when using crowd's difference in height great, the height of each basket of independent adjustment, when using crowd's difference in height less, the height of two baskets of simultaneous adjustment realizes that independent adjustment and linkage adjustment are integrative to people adjust basketball stands according to user's specific height condition, and then help improving basketball stands's suitability.

In a specific possible embodiment, a transverse plate is arranged in the support housing, and the transverse plate is positioned below the displacement plate; the driving assembly comprises a screw rod, a sliding block and a first bevel gear, the sliding block is connected to the displacement plate, the screw rod penetrates through the sliding block along the vertical direction and is in threaded connection with the sliding block, the screw rod penetrates through the transverse plate and is in rotating connection with the transverse plate, and the bottom end of the screw rod is in rotating interference fit with the first bevel gear.

Through the technical scheme, the first bevel gear is driven to rotate along the axial line direction of the screw rod, the screw rod is driven to rotate, the sliding block can move up and down, the displacement plate connected with the sliding block can also move, the height of the displacement plate is convenient to adjust, and the height of the corresponding basket is convenient to adjust.

In a specific possible implementation manner, the driving assembly further includes a second bevel gear and a rotating rod, the second bevel gear is engaged with the first bevel gear, the second bevel gear is in interference fit with the rotating rod, one end of the rotating rod, which is far away from the second bevel gear, penetrates through the side wall of the supporting housing and is connected with a driving member, the rotating rod is rotatably connected with the supporting housing, and the driving member is used for driving the rotating rod to rotate.

Through above-mentioned technical scheme, the driving piece can be time motor, also can be hand wheel etc. can drive the bull stick and take place pivoted structure for take place to rotate through the drive bull stick, drive the second bevel gear and take place to rotate, take place the first bevel gear of meshing with the second bevel gear and take place to rotate, so that the displacement plate that the drive corresponds takes place to move.

In a specific possible implementation, the connecting assembly includes two third bevel gears, one of the third bevel gears is engaged with one of the first bevel gears, one of the third bevel gears is provided with a driving rod in interference fit, the driving rod is horizontally disposed and rotatably connected to a side wall of the supporting housing, and a connecting rod is detachably connected between the two driving rods and is used for driving the two driving rods to rotate simultaneously.

Through the technical scheme, when the connecting rod is connected with the two driving rods, the two driving rods can be driven to rotate simultaneously, the third bevel gears on the two driving rods can drive the corresponding first bevel gears to rotate, and then the two first bevel gears can be driven to rotate in the same direction simultaneously, so that the two displacement plates can be driven to move in the same direction simultaneously, and the synchronous displacement of the two baskets is realized; the connecting rods are disassembled, so that the two connecting rods are separated from the two driving rods, linkage does not exist between the two driving rods, and independent adjustment of the corresponding displacement plates can be achieved by independently driving the two rotating rods.

In a specific possible implementation scheme, a bearing rod is arranged between the connecting rod and the inner surface of the support shell, one end of the bearing rod is rotatably connected to the support shell, a bearing seat is arranged at the other end of the bearing rod, and the connecting rod is in interference fit with a bearing preset on the bearing seat; two ends of the connecting rod are obliquely arranged to form inclined planes, the two inclined planes are parallel to each other, and one end of each driving rod, which is close to the connecting rod, is attached to the inclined plane corresponding to the connecting rod; the bearing rod is provided with a pushing piece, and the pushing piece is used for driving the bearing rod to rotate.

Through the technical scheme, the driving rods are attached to the inclined planes at the end parts of the connecting rods, so that when one of the driving rods rotates by taking the axial lead as the center, the driving rod can be abutted against the inclined plane on the connecting rod to drive the connecting rod to rotate by taking the central line of the connecting rod as the center, and the inclined plane of the connecting rod close to the other driving rod is abutted against the other driving rod so as to drive the other driving rod to rotate, so that the two driving rods are connected through the connecting rod to rotate simultaneously; the bearing rod is pushed to rotate by the pushing piece, so that the connecting rod is separated from the two driving rods, and the rotating rod and the first bevel gear can be independently adjusted.

In a specific possible implementation manner, the pushing member is a pushing plate, the pushing plate is disposed on a side surface of the carrying rod, a pushing rod is disposed on the pushing plate, the pushing plate is disposed along a horizontal direction, one end of the pushing rod is in sliding fit with the pushing plate, and one end of the pushing rod penetrates through the supporting housing.

Through above-mentioned technical scheme, with promoting the push rod in the supporting shell, then the push rod is located the one end in the supporting shell and exerts the motive force and the relative displacement takes place for the push plate with the push plate, and then the promotion carrier bar takes place to rotate for the connecting rod takes place to separate with two actuating levers, and can pull back the push plate to original position through the pulling carrier bar, so that the connecting rod can with the actuating lever butt.

In a specific implementation scheme, the push plate is provided with a abdicating hole, and the abdicating hole is arranged along the horizontal direction; the push rod passes the hole of stepping down and sets up first limiting plate, be provided with the second limiting plate on the push rod, the second limiting plate be used for with first limiting plate cooperation is right the push pedal carries out the centre gripping.

Through above-mentioned technical scheme, when the direction to inserting in the supporting shell promotes the push rod, the second limiting plate applys thrust to the push pedal, and when the direction pulling push rod of taking out in following the supporting shell, pulling force is applyed to the push pedal to first limiting plate, and then realizes taking place to rotate through promoting push pedal drive carrier bar.

In a specific possible embodiment, each driving rod is penetrated by an eccentric circular plate, and the eccentric circular plate is not in a straight line with the axis line of the driving rod; the display rod penetrates through the side surface of the supporting shell and is arranged along the horizontal direction, a supporting plate is arranged on the display rod and located in the supporting shell, the supporting plate is in contact with the side surface of the eccentric circular plate, and a spring is connected between the supporting plate and the inner surface of the supporting shell.

Through above-mentioned technical scheme, support the board under the effect of spring and the side surface butt of eccentric plectane, when the actuating lever takes place to rotate, the rotation also takes place for eccentric plectane, then support board and demonstration pole and follow the horizontal direction motion under the effect of spring, through observing the length that shows that the pole stretches out from the axial lead, be convenient for observe current actuating lever pivoted angle, so that after adjusting the displacement board alone, adjust corresponding actuating lever through rotating the bull stick and remove to can laminating with the connecting rod inclined plane, pull back the connecting rod to original position through the pulling push rod after that, so that continue to realize the linkage regulation to the displacement board.

In a specific possible implementation, a guide rail is arranged on the inner side wall of the supporting shell and on both sides of the displacement plate in the horizontal direction, the guide rail is arranged in the vertical direction, and the supporting shell is in sliding fit with the guide rail.

Through above-mentioned technical scheme, the guided way plays the guide effect to the displacement of displacement board to be convenient for consolidate the guided way and support being connected of casing, help avoiding the displacement board to take place to turn over and turn over.

In a specific possible embodiment, the top end of the side surface of the screw is provided with a limit plate.

Through above-mentioned technical scheme, the limiting plate is convenient for avoid the slider along the slippage from the lead screw top when vertical direction motion.

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

1. one displacement plate corresponds to one drive, so that the drive assembly can independently drive the corresponding displacement plate to move up and down, and further, the two baskets can be independently adjusted; meanwhile, the connecting component can drive the two driving components to operate simultaneously, so that the two displacement plates can be driven to move along the vertical direction simultaneously, and the two baskets are driven to move up and down simultaneously; when the height difference of the user crowd is large, the heights of the baskets are independently adjusted, and when the height difference of the user crowd is small, the heights of the two baskets are simultaneously adjusted to realize the integration of independent adjustment and linkage adjustment, so that people can adjust the basketball stand according to the specific height condition of the user, and the suitability of the basketball stand is further improved;

2. when the basket needs to be independently adjusted, the connecting rod is rotated to be separated from the driving rod, so that the first bevel gear can be independently driven, the first bevel gear drives the corresponding screw rod to rotate, the sliding block on the screw rod can be displaced along the vertical direction, and the displacement plate corresponding to the sliding block is driven to be displaced along the vertical direction, so that the basket can be independently adjusted; when needs simultaneous adjustment, rotate the connecting rod to with the actuating lever butt for through rotating one of them actuating lever, drive the connecting rod and take place to rotate, the connecting rod then drives another actuating lever and takes place to rotate, makes two actuating levers rotate simultaneously, then third bevel gear on two actuating levers also takes place to rotate simultaneously, also rotates simultaneously with third bevel gear engaged with first bevel gear, and then is convenient for realize carrying out altitude mixture control to two baskets simultaneously.

Drawings

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

Fig. 2 is a schematic structural view of the inside of the support housing according to the embodiment of the present application.

Fig. 3 is a schematic structural diagram of a driving assembly according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a connection assembly according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram for showing the connection relationship between the driving rod and the connecting rod according to the embodiment of the present application.

Fig. 6 is a schematic structural diagram of a push rod according to an embodiment of the present application.

Fig. 7 is a schematic structural view of a display rod according to an embodiment of the present application.

Fig. 8 is a schematic structural diagram for showing the positional relationship between the eccentric circle and the driving rod according to the embodiment of the present application.

Description of reference numerals: 1. a base; 2. a support housing; 21. a transverse plate; 22. a reinforcing plate; 3. a displacement plate; 31. a backboard; 32. a basket; 33. a guide rail; 4. a drive assembly; 41. a screw rod; 42. a slider; 43. a first bevel gear; 44. a second bevel gear; 45. a rotating rod; 46. a hand wheel; 5. a connecting assembly; 51. a drive rod; 511. a groove; 512. an eccentric circular plate; 513. an annular groove; 52. a third bevel gear; 53. a connecting rod; 531. an inclined surface; 532. a bump; 54. a carrier bar; 541. pushing the plate; 5411. a hole of abdication; 542. a bearing seat; 55. a push rod; 551. a first limit plate; 552. a second limiting plate; 56. a display lever; 561. a resisting plate; 562. a spring.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses an adjustable basketball stand. Referring to fig. 1, the adjustable basketball stand comprises a base 1 and a supporting shell 2 connected to the base 1, wherein the supporting shell 2 is located above the base 1; two displacement plates 3 distributed along the horizontal direction are arranged on the supporting shell 2, each displacement plate 3 is arranged along the vertical direction, two opposite side surfaces of each displacement plate 3 are connected with backboards 31, and the side surface of each backboard 31 far away from the displacement plate 3 is provided with a basket 32; each displacement plate 3 penetrates through the top end of the support shell 2 and is inserted into the support shell 2, with reference to fig. 2, a driving assembly 4 is connected to the bottom end of each displacement plate 3 and is positioned in the support shell 2, the driving assembly 4 is used for driving the corresponding displacement plate 3 to move in the vertical direction, and the heights of the two groups of adjusting backboards 31 and baskets 32 can be adjusted independently by adjusting the driving assembly 4 independently; be connected with coupling assembling 5 between two drive assembly 4, coupling assembling 5 is used for driving two drive assembly 4 simultaneous operation to the regulation of two backboard 31 and basket 32 height simultaneously, realize that the adjustment alone is integrative with the linkage adjustment, be convenient for select basketball stands regulative mode according to the difference in height of using crowd, and then realize the regulation to basketball stands, help improving basketball stands's suitability.

Referring to fig. 3, the driving assembly 4 includes a screw rod 41 and a slider 42, the inner surface of the supporting housing 2 is connected with a transverse plate 21, the screw rod 41 is arranged along the vertical direction, the bottom end of the screw rod 41 penetrates through the transverse plate 21 and is in interference fit with a first bevel gear 43, and the screw rod 41 is rotatably connected with the transverse plate 21; the screw rod 41 penetrates through the sliding block 42 and is in threaded connection with the sliding block 42, and with reference to fig. 2, the sliding block 42 is connected to the side surface of the displacement plate 3, and when the first bevel gear 43 rotates, the screw rod 41 is driven to rotate, so that the sliding block 42 can move in the vertical direction, and the displacement plate 3 can move in the vertical direction along with the rotation; the top end of the screw 41 is provided as a polished rod portion and is provided with a limit plate 411, so that when the slider 42 moves to the top end of the screw 41, the limit plate 411 facilitates to prevent the slider 42 from falling off from the screw 41.

Referring to fig. 3, the driving assembly 4 further includes a second bevel gear 44 and a rotating rod 45, wherein the rotating rod 45 is distributed along the horizontal direction, with reference to fig. 1, one end of the rotating rod 45 penetrates through the side surface of the supporting housing 2 and extends out of the supporting housing 2, the other end of the rotating rod 45 is in interference fit with the second bevel gear 44, the second bevel gear 44 is meshed with the first bevel gear 43, one end of the rotating rod 45 located outside the supporting housing 2 is connected with a driving part, which may be a hand wheel 46 or a motor, and the like, in this embodiment, a hand wheel 46 is used, so that the rotating rod 45 is driven to rotate by rotating the hand wheel 46, the second bevel gear 44 on the rotating rod 45 also rotates, and then the first bevel gear 43 is driven to rotate, thereby facilitating the driving of the displacement plate 3 to move up and down.

Referring to fig. 4, the connecting assembly 5 includes two driving rods 51, each driving rod 51 is disposed along a horizontal direction, the axial lines of the two driving rods 51 are located on the same straight line, one driving rod 51 is located below one first bevel gear 43, two reinforcing plates 22 are connected to the lower surface of the transverse plate 21, the two reinforcing plates 22 are distributed between the two first bevel gears 43 along the horizontal direction, a bearing is disposed at one end of each reinforcing plate 22 far from the transverse plate 21, one driving rod 51 corresponds to one reinforcing plate 22, and the driving rod 51 is in interference fit with the bearing on the corresponding reinforcing plate 22; one end of each of the two driving rods 51, which is far away from the corresponding reinforcing plate 22, is connected to the inner surface of the support housing 2 through a bearing, so that the driving rods 51 can rotate around the axis thereof, and one end of one of the driving rods 51, which is far away from the corresponding reinforcing plate 22, penetrates through the side surface of the support housing 2, thereby fixing the two driving rods 51 in the support housing 2; each driving rod 51 is provided with a third bevel gear 52 in interference fit, and the third bevel gear 52 is meshed with the corresponding first bevel gear 43; the end of the driving rod 51 outside the supporting housing 2 is connected to a hand wheel 46, and when the driving rod 51 is driven to rotate by the hand wheel 46, the third bevel gear 52 also rotates, and the correspondingly engaged first bevel gear 43 is also driven to rotate.

Referring to fig. 4, a connecting rod 53 is connected between the two driving rods 51, the connecting rod 53 is arranged along the horizontal direction, and the axis of the connecting rod 53 and the axis of the driving rod 51 are located on the same straight line; referring to fig. 5, both ends of the connecting rod 53 are obliquely arranged and form an inclined surface 531, the inclined directions of the two inclined surfaces 531 are the same, one end of the driving rod 51 close to the connecting rod 53 is attached to the corresponding inclined surface 531 on the driving rod 51, a protrusion 532 is connected to the inclined surface 531, one end of the driving rod 51 close to the carrying rod 54 is provided with a groove 511, the groove 511 extends like the side surface of the driving rod 51 along the radial direction of the driving rod 51, and the protrusion 532 is located in the corresponding groove 511 and attached to the inner surface of the groove 511.

When the hand wheel 46 on the driving rod 51 is rotated to rotate the driving rod 51, one end of the driving rod 51, which is attached to the connecting rod 53, can push the inclined surface 531 corresponding to the connecting rod 53, so that the connecting rod 53 rotates around the axis of the connecting rod 53, the other inclined surface 531 of the connecting rod 53 can push the other driving rod 51, and the other driving rod 51 can rotate around the axis of the driving rod 51, thereby realizing the simultaneous rotation of the two driving rods 51.

Referring to fig. 2 and 4, one of the two third bevel gears 52, one of the third bevel gears 52 is located at an end of the corresponding first bevel gear 43 close to the reinforcing plate 22, and the other third bevel gear 52 is located at an end of the corresponding first bevel gear 43 far from the reinforcing plate 22, so that when the driving lever 51 and the connecting lever 53 rotate simultaneously, the two first bevel gears 43 can rotate in the same direction, so as to drive the two lead screws 41 to rotate in the same direction, and thus, to move the two displacement plates 3 in the same direction.

Referring to fig. 4, a bearing rod 54 is rotatably connected to the inner surface of the bottom end of the support housing 2, the bearing rod 54 is arranged in the vertical direction, a bearing seat 542 is fixed to the top end of the bearing rod 54, the connecting rod 53 is in interference fit with a bearing in the bearing seat 542, a pushing member is arranged on the bearing rod 54, and the bearing rod 54 can be pushed to rotate by the pushing member to drive the connecting rod 53 to rotate by taking the axial lead of the bearing rod 54 as the central line.

Referring to fig. 4, the pushing member in this embodiment is a pushing plate 541, the pushing plate 541 is disposed along a vertical direction, the pushing plate 541 is connected to a side surface of the bearing rod 54, an abdicating hole 5411 is formed in the side surface of the pushing plate 541, the abdicating hole 5411 is disposed along a horizontal direction, a pushing rod 55 is further disposed on the pushing plate 541, one end of the pushing rod 55 penetrates through the abdicating hole 5411 and is connected to a first limiting plate 551, referring to fig. 6, a second limiting plate 552 is further connected to the pushing rod 55, the first limiting plate 551 and the second limiting plate 552 are distributed on two sides of the pushing plate 541 and both can contact with the pushing plate 541, and one end of the pushing rod 55, which is far away from the first limiting plate 551 and the second limiting plate 552, penetrates through an inner surface of the supporting housing 2 and extends out of the supporting housing 2. When the single adjustment is needed, the push rod 55 is pushed in the direction of inserting into the support housing 2, and the second limit plate 552 on the push rod 55 can push the push plate 541 to rotate, so that the bearing rod 54 rotates to drive the connecting rod 53 to rotate, and further the connecting rod 53 is separated from the two driving rods 51, so that the two first bevel gears 43 can be driven independently.

Considering that the rotation angles of the two driving levers 51 may be different after the two first bevel gears 43 are driven individually, and thus when the connecting lever 53 is rotated back to the original position, the end portion of the driving lever 51 cannot be attached to the inclined surface 531 of the connecting lever 53, the connecting lever 53 needs to be rotated back to be located on the same straight line with the two driving levers 51 after the rotation angle of one end of the driving lever 51 close to the connecting lever 53 is adjusted, and thus the rotation angle of the driving lever 51 needs to be adjusted.

Referring to fig. 7, each driving rod 51 is fixedly connected with an eccentric circular plate 512, the driving rod 51 penetrates through a non-center position of the corresponding eccentric circular plate 512, and with reference to fig. 1, two display rods 56 penetrate through a side surface of the supporting housing 2, one display rod 56 is located at one side of one eccentric circular plate 512, and the two display rods 56 have the same structure, and the following description will be given by taking one display rod 56 as an example:

referring to fig. 7, the display rod 56 is arranged along the horizontal direction, one end of the display rod 56 located in the supporting housing 2 is connected with a resisting plate 561, a spring 562 is sleeved outside the display rod 56, and the display rod 56 abuts against the side surface of the corresponding eccentric circular plate 512 under the action of the spring 562; when the driving rod 51 rotates, the eccentric circular plate 512 also rotates, and the display rod 56 moves in the horizontal direction by the driving of the eccentric circular plate 512. An annular groove 513 is formed in the side surface of the driving rod 51, so that when the side surface of the eccentric circular plate 512 farthest from the axial line of the driving rod 51 contacts the display rod 56, the annular groove 513 is located outside the supporting housing 2, so that whether the rotating position of the driving rod 51 is deviated or not can be known by observing whether the annular groove 513 on the display rod 56 extends out of the supporting housing 2, and if the rotating position of the driving rod 51 is deviated, referring to fig. 3, the driving rod 51 can be attached to the inclined surface 531 of the connecting rod 53 by rotating the hand wheel 46 corresponding to the driving rod 51 to adjust the rotating position of the driving rod 51.

Referring to fig. 4, two ends of the connecting rod 53 are respectively inclined surfaces, and each inclined surface is respectively engaged with an end of the corresponding driving rod 51, when the connecting rod 53 needs to be driven to rotate with the axis of the bearing rod 54 as a center line, if the two protrusions 532 on the connecting rod 53 are not on the same horizontal plane, the inclined surfaces of the driving rods 51 interfere with the rotation of the connecting rod 53, so that the connecting rod 53 needs to be pushed to be separated from the two driving rods 51 after the two protrusions 532 are adjusted to rotate to the same horizontal plane by the rotating hand wheel 46. Referring to fig. 8, when the side surface of the eccentric circular plate 512 farthest from the axis of the driving rod 51 contacts the display rod 56, the angles of the two protrusions 532 are on the same horizontal plane, so that by observing whether the annular groove 513 on the display rod 56 protrudes from the inside of the supporting housing 2, it is easy to know whether the side surface of the eccentric circular plate 512 farthest from the axis of the driving rod 51 contacts the display rod 56, and it is known whether the two protrusions 532 are on the same horizontal plane.

Referring to fig. 2, support on the 2 inside walls of casing and be located the both sides on the 3 horizontal direction of displacement board and all be provided with a guided way 33, guided way 33 sets up along vertical direction, combine fig. 1, guided way 33 wholly is the L shape, the one end of guided way 33 is connected on the inside wall of supporting casing 2, part displacement board 3 in the supporting casing 2 is located between guided way 33 and the 2 internal surfaces of supporting casing, make displacement board 3 when taking place the displacement along vertical direction, guided way 33 can play the guide effect to displacement board 3.

The implementation principle of this application embodiment adjustable basketball stands does: when the height of two baskets 32 needs to be adjusted simultaneously, two ends of the connecting rod 53 are attached to the corresponding driving rods 51, the hand wheel 46 on the driving rod 51 is rotated, one end of the driving rod 51 close to the connecting rod 53 pushes the inclined surface 531 corresponding to the connecting rod 53, the other inclined surface 531 of the connecting rod 53 can push the other driving rod 51 to rotate, so that the two driving rods 51 rotate simultaneously, the third bevel gear 52 on the driving rod 51 and the first bevel gear 43 meshed with the third bevel gear 52 also rotate in the same direction, and the two screw rods 41 are driven to rotate in the same direction; after the screw rod 41 rotates, the sliding block 42 on the screw rod 41 can displace along the vertical direction, the displacement plate 3 connected with the sliding block 42 can also displace, and the displacement plate 3 can drive the backboard 31 and the basket 32 to move, so that the heights of the two baskets 32 can be adjusted simultaneously.

When the heights of the two baskets 32 need to be adjusted individually, the hand wheel 46 on the driving rod 51 is rotated first, so that the annular groove 513 on the display rod 56 extends out of the supporting shell 2, then the push rod 55 is pushed in the direction of inserting into the supporting shell 2, the push rod 55 pushes the push plate 541 to rotate, the supporting rod and the connecting rod 53 are driven to rotate simultaneously in the axial lead direction of the supporting rod, the separation of the connecting rod 53 and the driving rod 51 is realized, then the hand wheel 46 corresponding to the basket 32 to be adjusted is rotated, the hand wheel 46 drives the rotating rod 45 and the second bevel gear 44 to rotate, and the first bevel gear 43 is driven to rotate, so that the basket 32 can be adjusted individually.

After the basket 32 is adjusted individually, when the heights of two baskets 32 need to be adjusted simultaneously, the positions of the annular grooves 513 on the two display rods 56 are adjusted by driving the hand wheel 46 on the corresponding driving rod 51, so that the annular grooves 513 on the display rods 56 extend out of the supporting housing 2, and then the push rod 55 is pulled in the direction of being pulled out from the supporting housing 2 until the inclined surfaces of the connecting rods 53 are attached to the driving rod 51, so that the heights of the two baskets 32 can be continuously adjusted simultaneously.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. An adjustable basketball stand, includes base (1), two baskets (32) and sets up support shell (2) on base (1), its characterized in that: support be provided with two displacement board (3) on casing (2), one displacement board (3) correspond one basket (32), the one end of displacement board (3) is located outside support casing (2), the other end of displacement board (3) all is located in support casing (2), every on displacement board (3) and be located all be connected with drive assembly (4) in support casing (2), displacement board (3) are located the outer one end of support casing (2) is used for bearing basket (32), drive assembly (4) are used for the drive to correspond displacement board (3) are followed vertical direction and are moved, are provided with coupling assembling (5) between two drive assembly (4), coupling assembling (5) are used for driving two drive assembly (4) function simultaneously.

2. The adjustable basketball stand recited in claim 1, wherein: a transverse plate (21) is arranged in the supporting shell (2), and the transverse plate (21) is positioned below the displacement plate (3); the driving assembly (4) comprises a screw rod (41), a sliding block (42) and a first bevel gear (43), the sliding block (42) is connected to the displacement plate (3), the screw rod (41) penetrates through the sliding block (42) in the vertical direction and is in threaded connection with the sliding block (42), the screw rod (41) penetrates through the transverse plate (21) and is in rotational connection with the transverse plate (21), and the bottom end of the screw rod (41) is in rotational interference fit with the first bevel gear (43).

3. An adjustable basketball stand as defined in claim 2, wherein: in a specific possible embodiment, the driving assembly (4) further includes a second bevel gear (44) and a rotating rod (45), the second bevel gear (44) is engaged with the first bevel gear (43), the second bevel gear (44) is in interference fit with the rotating rod (45), one end of the rotating rod (45) far away from the second bevel gear (44) penetrates through the side wall of the supporting housing (2) and is connected with a driving member, the rotating rod (45) is rotatably connected with the supporting housing (2), and the driving member is used for driving the rotating rod (45) to rotate.

4. An adjustable basketball stand as defined in claim 3, wherein: the connecting assembly (5) comprises two third bevel gears (52), one third bevel gear (52) is meshed with one first bevel gear (43), one third bevel gear (52) is provided with a driving rod (51) in interference fit, the driving rod (51) is arranged in the horizontal direction and is rotatably connected to the side wall of the supporting shell (2), a connecting rod (53) is detachably connected between the two driving rods (51), and the connecting rod (53) is used for driving the two driving rods (51) to rotate simultaneously.

5. An adjustable basketball stand as defined in claim 4, wherein: a bearing rod (54) is arranged between the connecting rod (53) and the inner surface of the supporting shell (2), one end of the bearing rod (54) is rotatably connected to the supporting shell (2), a bearing seat (542) is arranged at the other end of the bearing rod (54), and the connecting rod (53) is in interference fit with a bearing preset on the bearing seat (542); two ends of the connecting rod (53) are obliquely arranged to form inclined surfaces (531), the two inclined surfaces (531) are parallel to each other, and one end, close to the connecting rod (53), of each driving rod (51) is attached to the inclined surface (531) corresponding to the connecting rod (53); the bearing rod (54) is provided with a pushing piece, and the pushing piece is used for driving the bearing rod (54) to rotate.

6. An adjustable basketball stand as defined in claim 5, wherein: the pushing piece is a pushing plate (541), the pushing plate (541) is arranged on the side surface of the bearing rod (54), a pushing rod (55) is arranged on the pushing plate (541), the pushing plate (541) is arranged along the horizontal direction, one end of the pushing rod (55) is in sliding fit with the pushing plate (541), and one end of the pushing rod (55) penetrates through the supporting shell (2).

7. An adjustable basketball stand as defined in claim 6, wherein: the push plate (541) is provided with a yielding hole (5411), and the yielding hole (5411) is arranged along the horizontal direction; the push rod (55) penetrates through the abdicating hole (5411) and is provided with a first limiting plate (551), a second limiting plate (552) is arranged on the push rod (55), and the second limiting plate (552) is used for being matched with the first limiting plate (551) to clamp the push plate (541).

8. An adjustable basketball stand as defined in claim 7, wherein: each driving rod (51) is provided with an eccentric circular plate (512) in a penetrating way, and the axial leads of the eccentric circular plates (512) and the driving rods (51) are not on the same straight line; a display rod (56) penetrates through the side surface of the supporting shell (2), the display rod (56) is arranged along the horizontal direction, a resisting plate (561) is arranged on the display rod (56) and is positioned in the supporting shell (2), the resisting plate (561) is in contact with the side surface of the eccentric circular plate (512), and a spring (562) is connected between the resisting plate (561) and the inner surface of the supporting shell (2).

9. An adjustable basketball stand as claimed in any one of claims 1 to 8, wherein: support on casing (2) inside wall and be located both sides on displacement plate (3) horizontal direction all are provided with a guided way (33), guided way (33) set up along vertical direction, support casing (2) with guided way (33) sliding fit.

10. An adjustable basketball stand as claimed in any one of claims 2 to 8, wherein: and a limiting plate (411) is arranged at the top end of the side surface of the screw rod (41).

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