CN213165402U - Ball pushing mechanism for ball picking robot - Google Patents
Ball pushing mechanism for ball picking robot Download PDFInfo
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- CN213165402U CN213165402U CN202021372202.6U CN202021372202U CN213165402U CN 213165402 U CN213165402 U CN 213165402U CN 202021372202 U CN202021372202 U CN 202021372202U CN 213165402 U CN213165402 U CN 213165402U
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Abstract
The utility model relates to a ball pushing mechanism for picking up ball robot, including ball pushing component one, set up at the volleyball passageway of ball pushing component one rear side, set up at the promotion subassembly of volleyball passageway one end, set up at the rotatory volleyball subassembly of the volleyball passageway other end and set up the ball pushing component two of volleyball passageway rear side. The rotary volleyball assembly comprises a bidirectional motor and a rotary impeller connected with an output shaft I of the bidirectional motor through a belt assembly. The first ball pushing assembly comprises a first screw rod, a first motor and a first push plate, wherein the first motor is used for driving the first screw rod to rotate, and the first push plate is sleeved on the first screw rod and is in threaded fit with the first screw rod. The second ball pushing assembly comprises a second screw rod, a second motor for driving the second screw rod to rotate and a second push plate which is sleeved on the second screw rod and is in threaded fit with the second screw rod. The pushing assembly comprises a rack, a pushing plate arranged at the inner end of the rack and a motor III used for driving the rack to move. The utility model has the characteristics of simple structure, operation facility, pick up the success rate and pick up efficiently etc.
Description
Technical Field
The utility model relates to the technical field of sports equipment, concretely relates to a ball pushing mechanism for picking up ball robot.
Background
With the improvement of living standard, ball games such as table tennis, badminton and golf are more and more popular. As is well known, when people play a ball, particularly when practicing playing the ball, a lot of balls are hit, and if the balls are not picked up in time, the balls are easy to be stepped by athletes to cause damage of the balls or the people are easy to fall and hurt. To pick up a large number of balls scattered on a field, people usually bend down to pick up the balls by hands or pick up the balls by a hand-held ball picking tool. Because the times of picking up the ball are many in the daily training process, not only the time is wasted and the training efficiency is influenced by picking up the ball manually, but also the labor intensity is higher for the people picking up the ball.
With the progress of science and technology, a plurality of robots for picking up balls are developed in recent years, but the existing robots for picking up the balls generally have the defects of complex structure, complex operation, low picking up success rate, low picking up efficiency and the like. Chinese patent CN 110152256A discloses a table tennis ball picking robot and an automatic table tennis ball picking and arranging method, wherein during the running process of the table tennis ball picking robot, table tennis balls scattered on the ground are collected together by two ball collecting plates arranged below a chassis, and then the table tennis balls between the two ball collecting plates are picked into a temporary storage ball bin by the rotation of a first rotary impeller. Because the table tennis is lighter and easy to roll, the table tennis can not be ensured to accurately and unmistakably enter between the two blades of the first rotating impeller. Therefore, in the process of rotating the first rotary impeller, only a few table tennis balls enter between two blades of the first rotary impeller, even no table tennis ball enters between two blades of the first rotary impeller, the energy waste can be caused by the idling of the first rotary impeller, the problems of long table tennis ball picking time, low picking success rate and the like exist, if the table tennis balls are to be picked up to the temporary storage ball bin completely, the first rotary impeller needs to rotate ceaselessly, or the position of the rotary impeller is changed by adjusting the position of the robot ceaselessly, so that the table tennis balls are located in the rotating range of the first rotary impeller, the adjusting process is very complicated, and the picking success rate and the picking efficiency are greatly reduced.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a ball pushing mechanism for picking up ball robot, should pick up the ball robot and can solve exist among the prior art not enough, have simple structure, easy operation, pick up the success rate and pick up characteristics such as efficient.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a ball pushing mechanism for a ball picking robot comprises a ball pushing assembly I, a volleyball channel arranged on the rear side of the ball pushing assembly I, a pushing assembly arranged at one end of the volleyball channel, a rotary volleyball assembly arranged at the other end of the volleyball channel and a ball pushing assembly II arranged on the rear side of the volleyball channel.
The first ball pushing assembly comprises a first screw rod, a first motor and a first push plate, wherein the first motor is used for driving the first screw rod to rotate, and the first push plate is sleeved on the first screw rod and is in threaded fit with the first screw rod.
The pushing assembly comprises a rack, a pushing plate arranged at the inner end of the rack and a motor III used for driving the rack to move.
The rotary volleyball assembly comprises a bidirectional motor and a rotary impeller connected with an output shaft I of the bidirectional motor through a belt assembly.
The second ball pushing assembly comprises a second screw rod, a second motor for driving the second screw rod to rotate and a second push plate which is sleeved on the second screw rod and is in threaded fit with the second screw rod.
Furthermore, a second gear is mounted on a second output shaft of the bidirectional motor. The middle of the rotating impeller is provided with a rotating impeller rotating shaft in a penetrating way, and two ends of the rotating impeller rotating shaft are respectively arranged on the first gantry frame and the second gantry frame and are respectively in running fit with the first gantry frame and the second gantry frame through a bearing. The belt component comprises a first belt pulley connected with a first output shaft of the bidirectional motor, a second belt pulley sleeved on the outer side of the outer end of the rotating shaft of the rotating impeller, and a belt used for driving the first belt pulley to be linked with the second belt pulley.
Furthermore, a gear nine is installed on an output shaft of the motor I, and a gear ten meshed with the gear nine is installed at the rear end of the screw rod I.
Furthermore, an output shaft of the second motor is provided with an eleventh gear, and the front end and the rear end of the second screw rod are respectively provided with a twelfth gear and a thirteenth gear. And the eleven gear is meshed with the twelve gear.
Further, a gear fourteen meshed with the rack is mounted on an output shaft of the motor III. The rack is arranged on the rack table.
According to the technical scheme, the ball pushing assembly I is arranged, so that the picked balls can be pushed into the volleyball channel, and the ball picking efficiency is improved; the pushing assembly is arranged, so that balls in the volleyball channel can be pushed to the position below the rotary volleyball assembly; through rotatory volleyball subassembly, can make the spheroid move backward and enter into the ball mechanism that deposits that is used for saving the spheroid through pivoted rotatory impeller when the spheroid enters into the space between the adjacent leaf of rotatory impeller.
Drawings
Fig. 1 is a first schematic structural diagram of the present invention;
FIG. 2 is a second schematic structural diagram of the present invention;
fig. 3 is a first schematic view of the assembly structure of the present invention;
FIG. 4 is a second schematic view of the assembly structure of the present invention;
fig. 5 is a third schematic view of the assembly structure of the present invention;
fig. 6 is a fourth schematic view of the assembly structure of the present invention;
fig. 7 is a schematic view of an assembly structure of the present invention;
fig. 8 is a sixth schematic view of the assembly structure of the present invention;
fig. 9 is an enlarged view of a portion a in fig. 8.
Wherein:
101. the device comprises a frame, 102, an outer frame, 103, an auxiliary part, 104, wheels, 105, wheel shafts, 106, five gears, 107, wheel shaft brackets, 108, a stepping motor, 109, six gears, 110, a transmission shaft, 111, seven gears, 112, eight gears, 113, transmission shaft brackets, 114 and a stepping motor bracket; 201. the device comprises a ball picking basket, 202, a ball picking basket frame, 203, an air cylinder, 204, an air storage tank, 205, an electromagnetic valve, 206, a micro air pump, 207, a first gear, 208, an air cylinder connecting piece, 209, a longitudinal beam, 210, a cross beam, 211, an air cylinder fixing groove, 212, a transverse support plate, 213, a limiting plate, 214, a guide rail, 215, a hanging plate, 216, a shell, 217, a rack, 218 and a guide support; 301. the device comprises a bidirectional motor 302, a belt component 303, a rotary impeller 304, a gear II, 305, a gear III, 306, a gear transmission shaft 307, a gear IV, 308, a volleyball channel 309, a screw I, 310, a motor I, 311, a push plate I, 312, a gear nine, 313, a gear Ten, 315, a bidirectional motor fixing support 316, a gantry frame I, 317, a gantry frame II, 318, a rotary impeller rotating shaft 319, an arc support, 320, a screw II, 321, a motor II, 322, a push plate II, 324, a gear twelve, 325, a gear thirteen, 327, a rack 328 and a push plate; 401. ball storage cavity, 402, bottom plate, 403, left baffle, 404, right baffle, 405, gear twenty-two, 406, support beam, 407, door body, 408, connecting piece one, 409, connecting piece two, 410, gear fifteen, 411, gear sixteen, 412, gear seventeen, 413, gear eighteen, 414, gear nineteen, 415, gear shaft one, 416, gear shaft support one, 417, gear shaft two, 418, gear twenty, 419, gear twenty-one, 420, gear shaft support two, 421 and gear shaft three.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings:
as shown in fig. 1 and 2, the ball pushing mechanism for the ball picking robot comprises a first ball pushing assembly, a volleyball channel arranged at the rear side of the first ball pushing assembly, a pushing assembly arranged at one end of the volleyball channel, a rotary volleyball assembly arranged at the other end of the volleyball channel, and a second ball pushing assembly arranged at the rear side of the volleyball channel. The ball pushing assembly comprises a first screw rod 309, a first motor 310 for driving the first screw rod to rotate, and a first push plate 311 which is sleeved on the first screw rod 309 and is in threaded fit with the first screw rod 309. The pushing assembly comprises a rack 327, a pushing plate 328 arranged at the inner end of the rack 327, and a motor 329 for driving the rack to move. The rotary volleyball assembly comprises a bidirectional motor 301 and a rotary impeller 303 connected with an output shaft I of the bidirectional motor 301 through a belt assembly 302. The second ball pushing assembly comprises a second screw rod 320, a second motor 321 for driving the second screw rod to rotate, and a second push plate 322 which is sleeved on the second screw rod 320 and is in threaded fit with the second screw rod 320. The ball pushing mechanism for the ball picking robot is applied to the ball picking robot shown in figures 3-8. The ball picking robot comprises a walking mechanism, and a ball picking mechanism, a ball pushing mechanism and a ball storing mechanism which are arranged on the walking mechanism. And the traveling mechanism is used for moving the ball picking mechanism, the ball pushing mechanism and the ball storage mechanism to positions needing to pick balls. The ball picking mechanism is used for picking up the ball on the ground. And the ball pushing mechanism is used for pushing the balls picked up by the ball picking mechanism into the ball storage mechanism.
Specifically, the traveling mechanism comprises a frame 101, a plurality of wheel assemblies mounted on the frame 101, and a second transmission assembly for driving the wheel assemblies to rotate. The frame 101 includes an outer frame 102 and an auxiliary member 102 disposed in the outer frame 101. Frame 101 adopt steel, improved structural strength, play firm supporting role to other mechanisms. The wheel assembly comprises a wheel 104, a wheel shaft 105 and a gear five 106 sleeved on the wheel shaft 105. The two ends of the wheel shaft 105 are respectively fixed on the frame 101 through a wheel shaft bracket 107, and the wheel shaft 105 is rotatably matched with the wheel shaft bracket 107 through a bearing. The transmission assembly II comprises a stepping motor 108 arranged on the frame 101, a gear six 109 arranged on an output shaft of the stepping motor 108, a transmission shaft 110 arranged on the frame 101, and a gear seven 111 and a gear eight 112 respectively arranged at two ends of the transmission shaft 110. The gear five 106 is meshed with the gear seven 111, and the gear six 109 is meshed with the gear eight 112. The transmission shaft 110 is mounted on the frame 101 through a transmission shaft bracket 113, and the transmission shaft 110 is rotatably matched with the transmission shaft bracket 113 through a bearing. The stepping motor 108 is mounted on the frame 101 through a stepping motor bracket 114.
As shown in fig. 7, the number of the stepping motors 108 is two symmetrically arranged for controlling the two wheels 104 on the left side and the two wheels 104 on the right side, respectively. The number of the transmission shafts 110 is four, and the transmission shafts are respectively arranged corresponding to the four wheels 104 one by one. The stepping motor 108 works to drive the gear six 109 to rotate, the gear eight 112 meshed with the gear six 109 rotates, the transmission shaft 110 fixedly connected with the gear eight 112 rotates, the gear seven 111 arranged at the other end of the transmission shaft 110 rotates along with the transmission shaft 110, so that the gear five 106 meshed with the gear seven 111 rotates, the gear five 106 rotates to enable the wheel axle 105 fixedly connected with the gear five 106 to rotate, the wheel 104 fixedly connected with the wheel axle 105 is driven to rotate, and finally the walking motion of the robot is achieved. By arranging the travelling mechanism, the robot can automatically move along a set route, so that the ball picking efficiency is improved, and the labor intensity is reduced; the rotation and the rotation speed of the two groups of stepping motors are adjusted, so that the robot can move along all directions, a turning function is realized, the flexibility of the robot is improved, and the robot can move to all corners to pick up balls. The front, rear, left, and right in the present embodiment are explained based on fig. 1.
Further, the ball picking mechanism comprises a ball picking basket 201, an air cylinder 203 for driving the ball picking basket to move up and down, an air storage tank 204 for providing an air source for the air cylinder, an electromagnetic valve 205 arranged at the air outlet of the air storage tank 204, a miniature air pump 206 connected with the air storage tank, and a shielding component arranged at the opening at the rear end of the ball picking basket 201. The input end of the micro air pump 206 is provided with a first gear 207.
The micro air pump 206 includes an air inlet pipe, an air outlet pipe, a cylinder and a high pressure chamber, and the cylinder includes a compression chamber and a piston. The piston is connected with the piston connecting rod. The air inlet pipeline is arranged on the piston. And a compression chamber air inlet valve is arranged at the top of the piston. And a high-pressure chamber air inlet valve is arranged between the compression chamber and the high-pressure chamber, and the high-pressure chamber is also connected with an air outlet pipeline. The piston connecting rod is the input end of the micro air pump, and the first gear 207 is installed on the first piston connecting rod. The micro air pump 206 adopts a small micro air pump or FNY series air pump, FKY series and D50 series micro air pump disclosed in Chinese patent CN 204493111U. In order to reduce the number of motors, reduce the weight of the robot and improve the running reliability of the robot, the motor for driving a piston connecting rod in the miniature air pump to move and the motor for driving a rotary impeller to move are combined into a whole, the same two-way motor is adopted, the movement of the piston connecting rod and the rotation of the rotary impeller in the miniature air pump are realized through the meshing of a plurality of gears and the matching of a belt component, and then the air inlet and outlet functions of the miniature air pump are realized.
The ball-picking basket 201 comprises a ball-picking basket frame 202 and a plurality of elastic ropes which are arranged in the ball-picking basket frame 202 in a staggered mode at intervals. The rear end of the ball-picking basket frame 202 is provided with a gap. The front end of the ball-picking basket frame 202 is provided with a cylinder connecting piece 208 and a sliding block. The elastic rope is made of elastic materials such as rubber bands. As shown in FIG. 7, the elastic ropes arranged alternately at intervals form gaps, and when the ball-picking basket 201 moves downwards, the ball enters the ball-picking basket 201 from the gaps and can not fall off from the gaps again due to the elasticity of the elastic ropes.
The cylinder 203 is mounted on the frame 101 through a support frame. The support frame include a pair of parallel arrangement's longeron 209, set up the crossbeam 210 between two longeron 209 tops, the embedding sets up the cylinder fixed slot 211 of crossbeam 210 middle section, set up the horizontal extension board 212 between two longeron 209 middle sections and set up the limiting plate 213 between two longeron 209 lower extremes. And guide rails 214 are arranged on the rear side walls of the longitudinal beams 209. The guide 214 is slidably engaged with the slider. When the cylinder rod of the cylinder 203 moves up and down, the ball picking basket 201 is driven to move up and down together. The limit plate 213 limits the movement stroke of the air cylinder 203. The guide rail 214 and the sliding block are used for limiting the movement direction of the ball picking basket 201, so that the ball picking basket 201 can be vertically arranged, the ball picking basket is prevented from shaking, and the accuracy rate and the ball picking efficiency of balls are ensured.
The cylinder 203 is installed in the cylinder fixing groove 211 in a penetrating manner, the bottom of the cylinder 203 is placed on the transverse support plate 212, and a cylinder rod of the cylinder 203 penetrates through the transverse support plate 212 and then is connected with the cylinder connecting piece 208. Through with cylinder 203 fixed mounting in cylinder fixed slot 211 to set up horizontal extension board 212 in the below of cylinder 203 and support cylinder 203, can ensure the stability of cylinder, and then guarantee the motion stability of picking up the ball basket.
The air storage tank 204 and the electromagnetic valve 205 are both arranged on a hanging plate 215, and the hanging plate 215 is arranged on the frame 101. The air inlet of the air storage tank 204 is connected with the air outlet of the micro air pump 206.
The air inlet and the air outlet of the micro air pump 206 are respectively connected with the air inlet and the air overflow port of the air storage tank 204 through pipelines. When the air pressure in the air storage tank 204 is too high, the air pressure is released through an overload valve, and the other air outlet of the air storage tank 204 is a used compressed air outlet which is connected with an air inlet of an electromagnetic valve through a pipeline. The electromagnetic valve 205 is a three-way electromagnetic valve, an air inlet of the three-way electromagnetic valve is connected with an air outlet of the air storage tank 204, an air outlet I of the three-way electromagnetic valve is connected with an air inlet of an air chamber I of the air cylinder 203, and an air outlet II of the three-way electromagnetic valve is connected with an air inlet of an air chamber II of the air cylinder 203. The cylinder rod of the cylinder 203 moves to different directions by controlling the opening of different air outlets of the electromagnetic valve 205, so that the ball picking basket moves up and down quickly.
As shown in FIG. 9, the screen assembly is of a tape measure construction and includes a housing 216 mounted to the bottom of the frame 101, a self-retracting spring rotor mounted within the housing 216, and a blade 217 wound around the spring rotor. The output end of the ruler strip 217 is connected with the ball-picking basket frame 202 through a guide pillar 218. The guide strut 218 is mounted at the bottom of the frame 101. When the ball picking basket carries out ball picking operation, namely the ball picking basket moves downwards, the output end of the ruler strip 217 moves downwards along with the ball picking basket, so that a part of the ruler strip 217 is pulled outwards. The guiding support column 218 has a guiding function, so that the pulled-out ruler strips 217 are attached to the notch of the ball-picking basket frame 202, the notch of the ball-picking basket frame 202 is shielded, and the ball entering the ball-picking basket 201 is prevented from falling off from the notch. After the ball picking operation is completed, the ball picking basket 201 moves upwards, the ruler strip 217 can be automatically retracted into the shell 216 under the action of the spring turntable, and the gap of the ball picking basket frame 202 is not shielded by the ruler strip 217 any more. When a certain number of balls in the ball collecting basket 201 is reached, the ball passes through the gap and moves into the ball discharging channel 308.
The ball-picking basket is made of a plurality of elastic ropes (such as rubber bands) and the ball-picking basket frame 202, so that when the ball-picking basket 201 is pressed above a ball, the ball can enter the ball-picking basket from a gap surrounded by the adjacent elastic ropes. Considering that the elasticity rope (like the rubber band) in long-term use, the circumstances that the elasticity descends can appear, after the elasticity rope elasticity descends, press and can produce corresponding deformation on the spheroid, can't embolia the spheroid successfully in the ball basket 201 that the elasticity rope constitutes, cause the decline of picking up the ball efficiency, pick up the ball robot structure complicacy simultaneously from this, it is not very convenient again to change ball basket 201, consequently, the utility model discloses a cylinder 203 drive is picked up ball basket 201 downstream, can give a decurrent instantaneous effort of ball basket 201 like this, makes ball basket 201 can be fast, accurately pick up the spheroid, can reduce the wearing and tearing to the elasticity rope simultaneously, delays the elastic slew velocity of elasticity rope, prolongs the life of ball basket 201. In addition, the bidirectional motor 301 is adopted to simultaneously drive the rotary impeller 303 and the miniature air pump 206 to operate, so that the use number of the motors in the whole robot and the weight of the whole robot are reduced, and the operation reliability and stability are improved. In chinese patent CN 11015226 a, it is necessary to mutually cooperate a plurality of components such as the first rotary impeller, the ball collecting plate, and the traveling mechanism, and to continuously adjust the position of the first rotary impeller, so that all balls can enter the ball storage bin. The area of the ball picking basket is large, and in the process of downward movement, a plurality of balls can simultaneously penetrate through gaps between the elastic ropes to enter the ball picking basket, so that the picking efficiency is greatly improved. And the spheroid just can be located the below of picking up the ball basket very easily, need not to carry out the mutual cooperation between each part, has avoided the waste of the energy, has simplified spheroidal pickup process, has improved and has picked up the success rate. The air inlet of the air cylinder 203 is controlled by the three-way electromagnetic valve 205, so that air inlet of different air chambers of the air cylinder 203 can be realized by only arranging one air storage tank 204, and the up-and-down movement of the air cylinder 203 is realized; through the shielding component adopting the tape structure, on one hand, the opening of the ball picking basket 201 can be shielded by the tape 217 in the ball picking process to prevent the ball from falling off from the ball picking basket 201, and on the other hand, the tape 217 can be retracted after the ball picking is finished, so that the opening of the ball picking basket 217 is exposed, and the ball can enter the volleyball channel 308.
Further, the ball pushing mechanism comprises a rotary volleyball assembly. The rotary volleyball assembly comprises a bidirectional motor 301, a rotary impeller 303 connected with a first output shaft of the bidirectional motor 301 through a belt assembly 302, a second gear 304 mounted on a second output shaft of the bidirectional motor, a gear transmission shaft 306 meshed and connected with the second gear 304 through a third gear 305 mounted at one end of the gear transmission shaft, and a fourth gear 307 mounted at the other end of the gear transmission shaft 306 and meshed and connected with a first gear 207. When the bidirectional motor 301 works, the output shaft two of the bidirectional motor 301 rotates to drive the gear two 304 to transmit, so that the gear three 305 engaged with the gear two 304 rotates, and the gear transmission shaft 306 fixedly connected with the gear three 305 rotates. The gear transmission shaft 306 rotates, the gear four 307 fixedly connected with the gear transmission shaft 306 rotates, and then the gear one 207 connected with the gear four 304 in a meshed mode is driven to rotate, so that the piston connecting rod of the micro air pump 206 moves, the micro air pump 206 works, and air in the air storage tank 204 is driven to be discharged outwards to enter the air cylinder 203.
The ball pushing mechanism further comprises a volleyball channel 308 arranged at the rear side of the ball picking basket 201, a first ball pushing assembly used for driving balls on the ball picking basket 201 to move backwards into the volleyball channel 308, a pushing assembly arranged at one end of the volleyball channel 308 and used for driving the balls in the volleyball channel to move to the rotary volleyball assembly, and a second ball pushing assembly used for driving the balls in the ball storing mechanism to move backwards. The rotary volleyball assembly is arranged at the other end of the volleyball channel 308 and used for driving the balls to move into the ball storage mechanism.
The ball pushing assembly comprises a first screw rod 309, a first motor 310 for driving the first screw rod 309 to rotate, and a first push plate 311 which is sleeved on the first screw rod 309 and is in threaded fit with the first screw rod 309. The first push plate 311 is positioned above the ball picking basket 201. The output shaft of the first motor 310 is provided with a gear nine 312, and the rear end of the first screw 309 is provided with a gear ten 313 meshed with the gear nine 312. The first motor 310 is mounted on the frame 101 through the first motor fixing bracket.
The bidirectional motor 301 is mounted on the frame 101 through a bidirectional motor fixing bracket. The rotating impeller 303 is mounted on the frame 101 through a gantry frame I316 and a gantry frame II 317. The middle of the rotating impeller 303 is provided with a rotating impeller rotating shaft 318 in a penetrating way, and two ends of the rotating impeller rotating shaft 318 are respectively arranged on the first gantry frame 316 and the second gantry frame 317 and are respectively in rotating fit with the first gantry frame 316 and the second gantry frame 317 through a bearing. The belt assembly 302 comprises a first belt pulley connected with a first output shaft of the bidirectional motor 301, a second belt pulley sleeved outside the outer end of the rotating impeller rotating shaft 318 and a belt for driving the first belt pulley to be linked with the second belt pulley. The gear transmission shaft 306 is mounted on the frame 101 through an arc-shaped bracket 319. The rotary impeller 303 comprises a fixed seat and a plurality of uniformly distributed blades arranged along the periphery of the fixed seat. The rotating shaft 318 of the rotating impeller passes through the middle of the fixed seat and is in rotating fit with the fixed seat.
The pushing assembly comprises a rack 327, a pushing plate 328 arranged at the inner end of the rack 327, and a motor 329 for driving the rack 327 to move. And a gear fourteen 330 meshed with the rack 327 is arranged on an output shaft of the motor III 329. The rack 330 is mounted on the rack table 331, and the rack table 331 is mounted on the frame 101.
The second ball pushing assembly comprises a second screw rod 320, a second motor 321 for driving the second screw rod 320 to rotate, and a second push plate 322 which is sleeved on the second screw rod 320 and is in threaded fit with the second screw rod 320. The second push plate 322 is positioned above the ball storage mechanism. An output shaft of the second motor 321 is provided with an eleventh gear, and the front end and the rear end of the second screw 320 are respectively provided with a twelfth gear 324 and a thirteenth gear 325. The eleven gears are meshed with the twelve gears 324. The second motor 321 is mounted on the frame 101 through a second motor fixing bracket.
The front side and the rear side of the motor I310, the motor II 321 and the motor III 329 are respectively provided with a front baffle 332 and a rear baffle 333. The front end of the first screw 309 is installed on the support frame, and the rear end of the first screw passes through the front baffle 332 and then is connected with the first motor 310. The front end of the second screw 320 passes through the rear baffle 333 and is connected with the second motor 321. The front baffle 332 is located on the rear side of the ball discharge passage 308. The front baffle 332 and the rear baffle 333 protect the first motor 310, the second motor 321 and the third motor 329, and the rear baffle also serves as a front shield of the ball storage cavity 401. The end of the back plate 333 at the rotating impeller 303 is provided with an opening that serves as an inlet for the ball storage chamber 401.
After the ball picking is finished, the ball picking basket 201 moves upwards to the original position. The first motor 310 works to drive the nine gear 312 to rotate, the ten gear 313 meshed with the nine gear 312 rotates, and the first screw 309 fixedly connected with the ten gear 313 rotates, so that the first push plate 311 in threaded fit with the first screw 309 is driven to push the ball in the ball picking basket 201 backwards until the ball enters the volleyball channel 308. At this time, the first push plate 311 and the front baffle 332 shield the front side and the rear side of the volleyball channel 308, so as to play a role in limiting. When the motor III 329 works, the gear fourteen 330 rotates, the rack 327 engaged with the gear fourteen 330 moves, and the pushing plate 328 pushes the ball in the volleyball channel 308 to move towards the rotating impeller 303 until the rotating impeller 303 is reached in turn. Meanwhile, the bidirectional motor 301 operates to drive the first belt pulley to move, and the second belt pulley is driven by the belt to move, so that the rotating impeller shaft 318 connected with the second belt pulley rotates together with the second belt pulley. The rotary impeller shaft 318 rotates to drive the rotary impeller 303 to rotate. When the ball of the rotary impeller 303 enters between two adjacent blades of the rotary impeller 303 under the pushing of the pushing assembly, the rotating impeller 303 rotating drives the ball to the inlet of the ball storage cavity 401, so that the ball enters the ball storage cavity 401. The rotary impeller is provided with a sensor which can count the number of the balls. When all the balls in the ball discharging channel 308 enter the ball storage cavity 401, the motor one 310 rotates reversely, so that the push plate one 311 returns to the front side of the ball picking basket 201. Motor three 329 is reversed to return the push plate 328 to the initial position. When the second motor 321 is started, the eleventh gear rotates, and the twelfth gear 324 engaged with the eleventh gear rotates to drive the second screw 320 fixedly connected with the twelfth gear 324 to rotate, so that the second push plate 322 in threaded fit with the second screw 320 moves backwards, and the sphere in the sphere storage cavity 401 is pushed to move backwards. By arranging the first ball pushing assembly, balls picked up in the ball picking basket 201 can be pushed into the volleyball channel 308, the ball picking basket 201 can be cleaned in time, and the ball picking efficiency is improved; by arranging the pushing assembly, the balls in the volleyball channel 308 can be pushed to the lower part of the rotary volleyball assembly; by rotating the volleyball assembly, the ball can be moved backwards into the ball storage mechanism by the rotating impeller 303 when entering the gap between adjacent blades of the rotating impeller 303.
Further, the ball storage mechanism comprises a ball storage cavity 401 and a cavity door assembly arranged at an opening at the rear end of the ball storage cavity 401. The ball storage cavity comprises a bottom plate 402 arranged above the frame 101, a left baffle 403 and a right baffle 404 respectively arranged above the left end and the right end of the bottom plate 402, a support beam 406 arranged above the rear ends of the left baffle 403 and the right baffle 404, a first gear transmission assembly arranged on the rear side of the support beam 406, a second gear transmission assembly arranged above the support beam 406, a third gear transmission assembly arranged on the right baffle 404 and a fourth gear transmission assembly arranged on the right baffle 404. The top of the bottom plate 402 is high in front and low in back. The cavity door assembly comprises a door body 407, a first connecting piece 408 movably connected between the left end of the door body 407 and the left baffle 403, and a second connecting piece 409 movably connected between the right end of the door body 407 and the right baffle 404. The gear transmission assembly comprises a gear fifteen 410, a gear sixteen 411 and a gear seventeen 412 which are meshed and connected in sequence. The fifteen gear 410 is meshed with the thirteen gear 325. The rear end of the second screw 320 is mounted on the support beam 406 in a penetrating manner. The gear seventeen 412 is a cylindrical conical wheel, and the periphery and the inner wall of the gear seventeen are provided with a plurality of teeth; the second gear transmission assembly comprises a first gear shaft 415 transversely installed above the support beam 406, and eighteen gears 413 and nineteen gears 414 respectively installed at the left end and the right end of the first gear shaft 415. The first gear shaft 415 is mounted on the support beam 406 by a first gear shaft bracket 416. The gear eighteen 413 is meshed with the inner wall of the gear seventeen 412. The third gear transmission assembly comprises a second gear shaft 417 longitudinally mounted on the right baffle 404, and a twenty-first gear 418 and a twenty-first gear 419 respectively mounted at the upper end and the lower end of the second gear shaft 417. The second gear shaft 417 is mounted on the right baffle 404 through the second gear shaft bracket 420, and the twenty gear 418 is meshed with the nineteen gear 414. The gear transmission assembly four comprises a gear shaft three 421 transversely penetrating and mounted on the right baffle 404 and a gear twenty-two 405 mounted on the gear shaft three 421. The inner end of the gear shaft III 421 is connected with the connecting piece II 409; the twenty-two gear 405 is meshed with the twenty-one gear 419.
During the rotation of the second screw 320, the thirteen gear 325 rotates together with the second screw 320. Fifteen gear 410 engaged with thirteen gear 325 rotates, sixteen gear 411 engaged with fifteen gear 410 rotates, seventeen gear 412 engaged with sixteen gear 411 rotates, eighteen gear 413 engaged with seventeen gear 412 rotates, first gear shaft 415 fixedly connected with eighteen gear 413 rotates, nineteen gear 414 fixedly connected with first gear shaft 415 rotates, twenty 418 engaged with nineteen gear 414 rotates, second gear shaft 417 fixedly connected with twenty 418 rotates, twenty-first gear 419 fixedly connected with second gear shaft 417 rotates, twenty-second gear 405 engaged with twenty-first 419 rotates, third gear 421 fixedly connected with twenty-second gear 405 rotates, third gear shaft 421 is fixedly connected with second connecting member 409 to drive second connecting member 409 to move, because second connecting member 409 is connected with door body 407, when second connecting member moves, the door 407 is opened, so that the balls in the ball storage cavity 401 are discharged outwards and collected by the staff. When all the spheres in the sphere storage cavity are discharged, the second motor 321 rotates reversely, the second push plate 322 returns to the front side of the sphere storage cavity 401, and the door 407 is closed. The top of the bottom plate 402 of the ball storage mechanism is arranged to be high in front and low in back, so that the ball can move backwards along the bottom plate 402 with the slope after entering the ball storage mechanism, and the ball is prevented from flowing back to the rotary ball arranging assembly; by arranging the first gear transmission assembly, the second gear transmission assembly, the third gear transmission assembly and the fourth gear transmission assembly, the door body 407 can be opened in the process that the second push plate 322 pushes the ball in the ball storage mechanism backwards; through adopting a plurality of gears that have drive ratio to constitute gear drive assembly one, can adjust the opening speed of door body 407, when push pedal second 322 backward moved to the end of depositing the ball mechanism, made door body 322 just in time open completely, can play certain guard action to push away ball assembly second and door body 322 like this, avoid taking place to interfere between each part impaired. After the four gear transmission assemblies are disassembled, the door body can be manually opened, and the door is simpler and easier to operate.
The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.
Claims (5)
1. The utility model provides a ball pushing mechanism for picking up ball robot which characterized in that: the device comprises a first ball pushing assembly, a volleyball channel arranged at the rear side of the first ball pushing assembly, a pushing assembly arranged at one end of the volleyball channel, a rotary volleyball assembly arranged at the other end of the volleyball channel and a second ball pushing assembly arranged at the rear side of the volleyball channel;
the first ball pushing assembly comprises a first screw rod (309), a first motor (310) for driving the first screw rod to rotate, and a first push plate (311) which is sleeved on the first screw rod (309) and is in threaded fit with the first screw rod (309);
the pushing assembly comprises a rack (327), a pushing plate (328) arranged at the inner end of the rack (327) and a motor III (329) for driving the rack to move;
the rotary volleyball assembly comprises a bidirectional motor (301) and a rotary impeller (303) connected with a first output shaft of the bidirectional motor (301) through a belt assembly (302);
the second ball pushing assembly comprises a second screw rod (320), a second motor (321) for driving the second screw rod to rotate and a second push plate (322) which is sleeved on the second screw rod (320) and is in threaded fit with the second screw rod (320).
2. The ball pushing mechanism for a ball picking robot according to claim 1, wherein: a second gear (304) is mounted on a second output shaft of the bidirectional motor (301); a rotating impeller rotating shaft (318) penetrates through the middle of the rotating impeller (303), and two ends of the rotating impeller rotating shaft (318) are respectively installed on the first gantry frame (316) and the second gantry frame (317) and are respectively in rotating fit with the first gantry frame (316) and the second gantry frame (317) through a bearing; the belt component (302) comprises a first belt pulley connected with a first output shaft of the bidirectional motor (301), a second belt pulley sleeved on the outer side of the outer end of the rotating impeller rotating shaft (318) and a belt used for driving the first belt pulley to be linked with the second belt pulley.
3. The ball pushing mechanism for a ball picking robot according to claim 1, wherein: and a gear nine (312) is installed on an output shaft of the motor I (310), and a gear ten (313) meshed with the gear nine (312) is installed at the rear end of the screw rod I (309).
4. The ball pushing mechanism for a ball picking robot according to claim 1, wherein: an output shaft of the second motor (321) is provided with an eleventh gear, and the front end and the rear end of the second screw (320) are respectively provided with a twelfth gear (324) and a thirteenth gear (325); and the eleven gear is meshed with the twelve (324) gear.
5. The ball pushing mechanism for a ball picking robot according to claim 1, wherein: a gear fourteen (330) meshed with the rack (327) is arranged on an output shaft of the motor three (329); the rack (327) is arranged on the rack table (331).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021372202.6U CN213165402U (en) | 2020-07-14 | 2020-07-14 | Ball pushing mechanism for ball picking robot |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021372202.6U CN213165402U (en) | 2020-07-14 | 2020-07-14 | Ball pushing mechanism for ball picking robot |
Publications (1)
Publication Number | Publication Date |
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CN213165402U true CN213165402U (en) | 2021-05-11 |
Family
ID=75792535
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202021372202.6U Expired - Fee Related CN213165402U (en) | 2020-07-14 | 2020-07-14 | Ball pushing mechanism for ball picking robot |
Country Status (1)
Country | Link |
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CN (1) | CN213165402U (en) |
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2020
- 2020-07-14 CN CN202021372202.6U patent/CN213165402U/en not_active Expired - Fee Related
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CF01 | Termination of patent right due to non-payment of annual fee |
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