CN213731816U - Novel full-size multifunctional extrusion type mechanical arm - Google Patents

Abstract

The utility model discloses a novel full-size multifunctional extrusion type manipulator, which comprises a claw box body, an express box positioning component and a similar clutch component, wherein a three-star gear reversing component, a transverse propelling component and a longitudinal claw head propelling component are arranged in the claw box body; the three-star gear reversing assembly is used for changing the torque rotating direction transmitted to the transverse propelling assembly by the similar clutch assembly and cutting off the torque transmission between the similar clutch assembly and the transverse propelling assembly; the transverse propelling component is used for converting the output torque of the three-star gear reversing component into a transverse propelling force and driving the claw head to approach and leave the express box; the longitudinal claw head pushing assembly is used for clamping and loosening the claw head to the block-shaped express box; the similar clutch assembly is used for driving the claw box body to integrally rotate and transmitting the output torque of the external motor to the three-star gear reversing assembly; the express box positioning assembly is used for determining the placing position, the shape and the size of express on the conveyor belt and the distance between the express box positioning assembly and the claw head.

Description

Novel full-size multifunctional extrusion type mechanical arm

Technical Field

The utility model relates to a machinery tongs technical field, concretely relates to novel multi-functional extrusion formula manipulator of full-scale.

Background

The manipulator enables an automatic operating device which imitates some action functions of human hands and is used for grabbing and transferring objects according to a fixed program. It is characterized by that it can implement various desired operations by means of programming.

The intensity of labour of express delivery letter sorting trade is very big, often needs continuous work day and night, so can replace the express delivery sorting machine of a large amount of artifical labours just in time to deliver to life, but how fast and stable snatch express delivery box just becomes a problem that needs a urgent need to be solved.

At present, the express sorting machine on the market generally does not have a gripper to automatically grab an express box, a large amount of manpower is still needed to complete grabbing and transferring of express, and the working mode is time-consuming and labor-consuming.

Therefore, the size that an urgent need has certain intelligent degree discernment express delivery article in society today to distance between the claw is adjusted to the article of equidimension not, can save labour cost, promote work efficiency's automatic clamp and get the hand claw of express delivery.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to some problems of express delivery trade mechanical gripper, provide an express delivery that mechanical gripper can the fast and stable clamp get various materials, size and shape, cover all present expressages basically, enough fine the defect of the manipulator of remedying on the market now has improved the work efficiency that the express delivery shifted greatly.

A novel full-size multifunctional extrusion type manipulator comprises a claw box body, an express box positioning assembly and a similar clutch assembly, wherein a three-star gear reversing assembly, a transverse propelling assembly and a longitudinal claw head propelling assembly are mounted in the claw box body;

the three-star gear reversing assembly changes the torque rotating direction transmitted to the transverse propelling assembly by the similar clutch assembly and cuts off the torque transmission between the similar clutch assembly and the transverse propelling assembly by switching different numbers of gear engagement;

the transverse propelling component is used for converting the output torque of the three-star gear reversing component into a transverse propelling force and driving the claw head to approach and leave the express box;

the longitudinal claw head propelling assembly is used for clamping and loosening the claw head to the block-shaped express box;

the air path negative pressure suction assembly sucks air from the suction port to suck the bag-shaped express box;

the similar clutch assembly is used for driving the claw box body to integrally rotate and transmitting the output torque of the external motor to the three-star gear reversing assembly;

the express box positioning assembly is used for determining the placement position, the shape and the size of the express on the conveyor belt and the distance between the express box positioning assembly and the claw head.

The claw hand box body comprises an end cover and a box body shell, the end cover and the box body shell are connected together through bolts, a circular groove is formed in the middle of the end cover, a planetary gear reducer is arranged in the circular groove, and the similar clutch assembly outputs torque to the three-star gear reversing assembly through the planetary gear reducer. Through setting up star gear reducer, can be so that class clutch assembly's output is more steady.

A further scheme is, class clutch module includes main shaft, electric telescopic handle, lug, stopper, axle sleeve and spout, main shaft upper end and electric telescopic handle's output fixed connection, electric telescopic handle and external motor's output fixed connection, the lug is installed at main shaft outward flange interval, gear visor upper end interval is seted up flutedly, lug and recess looks adaptation, the main shaft bottom is through pin fixedly connected with axle sleeve, the spout has been seted up on the axle sleeve inner wall both ends, the upper end outward flange sliding connection of axle sleeve lower part inner wall and sun gear axle, the last stopper that is provided with of sun gear axle, the stopper again with spout sliding connection.

According to the technical scheme, when the electric telescopic rod drives the main shaft to move downwards, the convex block is embedded into the groove, and the external motor drives the claw box body to integrally rotate; when the main shaft moves upwards, the lug is separated from the groove, the external motor cannot drive the claw box body to rotate, and the output torque of the external motor is only transmitted to the sun gear shaft.

The three-star gear reversing assembly comprises a small transmission wheel, a large transmission wheel, a second straight gear, a reversing tie rod and a second motor, wherein the large transmission wheel is respectively meshed with the small transmission wheel and the second straight gear, the reversing tie rod is a connecting rod with more than three vertexes, the three vertexes of one end face of the reversing tie rod are in rolling connection with the small transmission wheel, the large transmission wheel and the second straight gear through pins, and the reversing tie rod is driven by the second motor to rotate around the circle center of the second straight gear.

According to the technical scheme, when the second motor drives the reversing tie rod to rotate, the reversing tie rod drives the small driving wheel and the large driving wheel to revolve around the second straight gear, so that the small driving wheel and the large driving wheel are respectively in meshed connection with the first straight gear, and the small driving wheel and the large driving wheel are not in meshed connection with the first straight gear; the small driving wheel and the large driving wheel are respectively meshed with the first straight gear, so that the number of gears participating in meshing is different, the output torque rotating direction of the external motor is changed by the three-star gear reversing assembly, and after the small driving wheel and the large driving wheel are not meshed with the first straight gear, the output torque of the external motor cannot be transmitted to a rear part through the three-star gear reversing assembly.

The further scheme is that the transverse propelling component comprises a transverse propelling screw rod, a sliding rod, a connecting plate, a third bevel gear and a fourth bevel gear, the three-star gear reversing component drives the third bevel gear to rotate, the third bevel gear is meshed with the fourth bevel gear, the transverse propelling screw rod is inserted in the middle of the fourth bevel gear, one end, far away from the fourth bevel gear, of the transverse propelling screw rod penetrates through the connecting plate and is in rolling connection with a connecting plate threaded connection rear box body shell, the sliding rod is connected inside one end, far away from the transverse propelling screw rod, of the connecting plate in a sliding mode, and the sliding rod is fixed on the box body shell.

According to the technical scheme, after the three-star gear reversing assembly drives the third conical gear to rotate, the third conical gear drives the fourth conical gear to rotate, the fourth conical gear drives the transverse propelling screw rod to rotate, the connecting plate cannot rotate under the limiting action of the sliding rod, the connecting plate can only move back and forth along the central axis of the transverse propelling screw rod, the three-star gear reversing assembly can enable the third conical gear to rotate differently by switching the number of gears participating in meshing, the connecting plate is driven to move inwards and outwards, when the three-star gear reversing assembly switches the number of the gears participating in meshing, output torque is not transmitted to the third conical gear, the third conical gear cannot rotate, and the connecting plate cannot be fixed.

A further scheme is, vertical claw head impels the subassembly and includes first motor, vertical propulsion lead screw, elevator, connecting block, bracing piece and claw head, and vertical propulsion lead screw runs through the elevator and threaded connection with it, elevator and bracing piece sliding connection, and the bracing piece is installed on the connecting plate, and the bracing piece bottom is connected with the connecting block through the rotation of pin, the second motor drive vertically impels the lead screw rotatory, drives the elevator and slides from top to bottom, and the elevator slides and drives the connecting block and rotate around the pin, and the claw head is installed to the one end that the elevator was kept away from to the connecting block.

The gas circuit negative pressure absorbing assembly is arranged in the claw hand box body and comprises two gas pumps, absorbing suction ports, gas circuit guide pipes and three-way pipe joints, the two gas pumps are symmetrically arranged on the lower surface of the end cover, gas outlet pipes of the two gas pumps are connected with the three-way pipe joints, the three-way pipe joints are connected with the gas circuit guide pipes, and one ends, far away from the three-way pipe joints, of the gas circuit guide pipes penetrate through the bottom surface of the box body shell and then are connected with the absorbing suction ports.

It is visible from above-mentioned technical scheme, the air pump bleeds for absorb the suction inlet and produce suction, the suction that absorbs the suction inlet production can firmly adsorb the bag form express delivery, accomplishes the work of snatching of bag form express delivery box.

Express delivery box locating component is provided with infrared scanner and radar sensor, and infrared scanner is used for scanning the infrared image of express delivery box, and radar sensor is used for surveying the distance between dog head and the express delivery box, and infrared scanner and radar sensor communication are connected to microprocessor's input, and microprocessor's output communication is connected with the driving motor that three star gear switching-over subassembly and vertical dog head impel the subassembly and the external motor of being connected with class clutch module, infrared scanner's quantity has two, and the symmetry is installed in box shell bottom, and radar sensor's quantity has four groups, installs respectively the one end of box shell lateral wall is kept away from to the bracing piece. The infrared scanner is used for scanning infrared images of the express delivery boxes transported on the conveyor belt, and the number of the radar sensors corresponds to the number of the claw heads one by one and is used for measuring the distance between the claw heads and the express delivery boxes.

A further scheme is that a small round rod is installed on the lifting block, a small through groove is formed in the connecting block, the lifting block slides up and down along the supporting rod to drive the small round rod to slide in the small through groove, so that the connecting block is driven to rotate, and the clamping and loosening of the claw head on the express box are realized.

The technical scheme is that through grooves are formed in the bottom surfaces of the end cover and the box shell, the number of the through grooves corresponds to the number of the longitudinal pushing screws, sliding plates are connected in the through grooves of the end cover in a sliding mode, the first motor is installed on the lower surface of each sliding plate, the longitudinal pushing screws penetrate through the connecting plates from top to bottom, the bottoms of the longitudinal pushing screws extend out of the claw box body from the through grooves formed in the box shell, and first bearing seats are arranged at the contact positions of the longitudinal pushing screws and the connecting plates. The bearing in the first bearing seat can be in rolling connection with the longitudinal propelling screw rod and drives the longitudinal propelling screw rod to move, the through groove in the end cover is convenient for the sliding plate to move left and right, and the through groove in the box body shell cannot block the longitudinal propelling screw rod from moving left and right.

Drawings

FIG. 1 is an external structural view of the claw box (excluding an external motor for driving the claw box to rotate integrally);

FIG. 2 is a structural diagram of a three-star gear reversing assembly and a planetary gear reducer inside the box body of the claw hand of the present invention;

FIG. 3 is an external structural view of the claw box of the present invention (including an external motor for driving the claw box to rotate integrally);

fig. 4 is a partially enlarged schematic view of a portion a of fig. 3 according to the present invention;

FIG. 5 is a schematic cross-sectional view of a clutch assembly of the present invention;

FIG. 6 is a view showing the internal structure of the claw-like case of the present invention;

FIG. 7 is a schematic view of the end cap structure of the claw-like case of the present invention;

reference numerals: the claw hand box body 1, the through groove 2, the claw head 3, the infrared scanner 4, the radar sensor 5, the longitudinal propelling screw rod 6, the transverse propelling screw rod 7, the circular groove 8, the gear protection cover 9, the sun gear 10, the planet gear 11, the planet carrier 12, the gear circumferential track 13, the main shaft 14, the electric telescopic rod 15, the bump 16, the limit block 17, the slide groove 18, the groove 19, the sun gear shaft 20, the first bevel gear 21, the second bevel gear 22, the slide block 23, the first rotating shaft 24, the first straight gear 25, the small transmission wheel 26, the large transmission wheel 27, the reversing tie rod 28, the second straight gear 29, the second bearing seat 30, the connecting rod 31, the rotating rod 32, the third bevel gear 33, the fourth bevel gear 34, the second rotating shaft 35, the second motor 36, the motor fixing plate 37, the air outlet pipe 38, the connecting plate 39, the sliding rod 40, the third motor 41, the first motor 42, the third motor 42, The device comprises a lifting block 43, a support rod 44, a connecting block 45, a small round rod 46, a small through groove 47, a sliding plate 48, an air pump 49, a suction inlet 50, an air path conduit 51, a three-way pipe joint 52, an external motor 53, a frame 54, a shaft sleeve 55, a first bearing seat 56, a large bearing 57, gear teeth 58, a gear 59, a rotating shaft 60, a clamping block 61, a fixed block 62, a lead screw 63, an end cover 64 and a box body shell 65.

Detailed Description

The present invention will be described in further detail with reference to fig. 1 to 7.

A novel full-size multifunctional extrusion type manipulator, which comprises a claw box body 1 and an air path negative pressure suction assembly, the express box comprises an express box positioning assembly and a similar clutch assembly, wherein a transverse propelling assembly, a three-star gear reversing assembly and a longitudinal claw head propelling assembly are installed in a claw box body 1, the claw box body 1 comprises a box body shell 65 and an end cover 64, the box body shell 65 and the end cover 64 are fixedly connected together through bolts, the similar clutch assembly is used for transmitting the output torque of an external motor 53 to the claw box body 1 and the three-star gear reversing assembly, the three-star gear reversing assembly is engaged by switching gears with different numbers, the torque rotating direction transmitted to the transverse propelling assembly by the similar clutch assembly is changed, the transverse propelling assembly is used for converting the output torque of the three-star gear reversing assembly into a transverse driving force to drive a claw head 3 to approach and keep away from the express box, and the longitudinal claw head propelling assembly is used for clamping and loosening a block-shaped express box by the claw head 3; the air circuit negative pressure suction assembly sucks the bag-shaped express box by sucking air from the suction inlet 50; express delivery box locating component is provided with infrared scanner 4 and radar sensor 5, infrared scanner 4 is used for scanning the infrared image of express delivery box, and will scan infrared image and send for microprocessor, it suits to drive the rotatory and express delivery box locating position of dog head 3, radar sensor 5 is used for surveying the distance between dog head 3 and the express delivery box, and give microprocessor with the data transmission who obtains of measuring, then microprocessor control vertically advances lead screw 6 and transversely advances the lead screw 7 and rotates, realize that dog head 3 is close and press from both sides the purpose of tight express delivery box.

Further, referring to fig. 5 and 7, a circular groove 8 is formed in the middle of the end cover 64, a planetary gear reducer is installed in the circular groove 8, a gear protection cover 9 is installed in the middle of the end cover 64 through a bolt, and the gear protection cover 9 is used for covering the planetary gear reducer to prevent dust from entering and affecting gear engagement of the planetary gear reducer. The clutch-like assembly penetrates through the middle part of the gear protection cover 9 and is connected with the planetary gear reducer. The planetary gear reducer comprises a sun gear 10, a planetary gear 11, a planet carrier 12 and a gear circumferential track 13; the clutch assembly comprises a main shaft 14, an electric telescopic rod 15, a bump 16, a limiting block 17, a shaft sleeve 55 and a sliding groove 18, wherein the upper end of the main shaft 14 is fixedly connected with the output end of the electric telescopic rod 15, the bump 16 is installed at the outer edge of the main shaft 14 at intervals, a groove 19 is formed at the upper end of a gear protection cover 9 at intervals, the bump 16 is matched with the groove 19, the bottom end of the main shaft 14 is fixedly connected with the shaft sleeve 55 through a pin, the sliding groove 18 is formed at two ends of the inner wall of the shaft sleeve 55, the inner wall of the lower part of the shaft sleeve 55 is in sliding connection with the outer edge of the upper end of a sun gear shaft 20, the limiting block 17 is arranged on the sun gear shaft 20, and the limiting block 17 is in sliding connection with the sliding groove 18, so that the electric telescopic rod 15 can drive the main shaft 14 to move up and down along the central axis of the sun gear shaft 20 without affecting the rotation of the sun gear shaft 20, and simultaneously realize the meshing and the separation of the bump 16 and the groove 19; the sun gear 10 is connected with the planetary gears 11 in a meshing manner, one end, away from the sun gear 10, of each planetary gear 11 is connected with the gear circumferential track 13 in a meshing manner, the planetary gears 11 are multiple in number and are uniformly distributed along the circumferential direction of the gear circumferential track 13, in the embodiment, the planetary gears 11 are three in number, the planet carrier 12 is arranged between the sun gear 10 and the planetary gears 11, one end of the planet carrier 12 is fixedly connected with the sun gear shaft 20, the other end of the planet carrier 12 is connected with the planetary gears 11 in a rolling manner through pins, after the main shaft 14 drives the sun gear 10 to rotate, the planetary gears 11 are driven to roll along the gear circumferential track 13 and rotate at the same time, and the planetary gear reducer enables the output of the main shaft 14 to be more stable.

Further, referring to fig. 2, a first bevel gear 21 is mounted at the bottom end of the sun gear shaft 20, a second bevel gear 22 is engaged and connected to the first bevel gear 21, a first rotating shaft 24 is inserted in the middle of the second bevel gear 22, first straight gears 25 are mounted at two ends of the first rotating shaft 24, and a three-star gear reversing assembly is engaged and connected to the first straight gears 25 at two ends.

Further, referring to fig. 2, the three-star gear reversing assembly includes a small driving wheel 26, a large driving wheel 27, a reversing tie bar 28, a second spur gear 29 and a second motor 36, the reversing tie bar 28 is a connecting rod with more than three vertexes, in this embodiment, the shape of the reversing tie bar 28 is in an angle shape, the three vertexes of one end surface of the reversing tie bar 28 are respectively connected with the small driving wheel 26, the large driving wheel 27 and the second spur gear 29 in a rolling manner through pins, the reversing tie bar 28 is driven to rotate by the second motor 36, the second motor 36 is mounted on a box housing 65 through a motor fixing plate 37, a connection position of the reversing tie bar 28 and an output end of the second motor 36 is located on the back of a connection position of the second spur gear 29 and the reversing tie bar 28, and the large driving wheel 27 is respectively connected with the small driving wheel 26 and the second spur gear 29 in a meshing manner. The second motor 36 drives the reversing tie rod 28 to rotate, so as to drive the small driving wheel 26 and the large driving wheel 27 to revolve around the second straight gear 29, so that the small driving wheel 26 and the large driving wheel 27 are respectively meshed with the first straight gear 25 and are not meshed with the small driving wheel 26 and the large driving wheel 27, when the small driving wheel 26 is meshed with the first straight gear 25, the small driving wheel 26 is meshed with the large driving wheel 27, the large driving wheel 27 is meshed with the second straight gear 29, and the number of gears participating in meshing is four; when the large transmission wheel 27 is meshed with the first straight gear 25, the large transmission wheel 27 is meshed with the second straight gear 29, the small transmission wheel 26 does not participate in the meshing connection, and the number of the gears participating in the meshing is three; the different numbers of the gears engaged with each other will lead to different rotation directions of the second spur gear 29, that is, different rotation directions of the torque output by the three-star gear reversing assembly, and when the small driving wheel 26 and the large driving wheel 27 are not engaged with the second spur gear 29, the output torque of the external motor 53 will not be transmitted to the second spur gear 29.

Further, referring to fig. 6, a second rotating shaft 35 is fixedly connected to an end of the second spur gear 29 away from the reversing tie bar 28, a third bevel gear 33 is fixedly connected to an end of the second rotating shaft 35 away from the second spur gear 29, the third bevel gear 33 is engaged with a fourth bevel gear 34, a transverse propelling screw rod 7 is inserted in the middle of the fourth conical gear 34, a connecting plate 39 penetrates through the middle of the transverse propelling screw rod 7 and is in threaded connection with the transverse propelling screw rod 7, one end, far away from the fourth conical gear 34, of the transverse propelling screw rod 7 is in rolling connection with the box body shell 65, a sliding rod 40 penetrates through the middle of one end, far away from the transverse propelling screw rod 7, of the connecting plate 39, the sliding rod 40 is in sliding connection with the connecting plate 39, one end of the sliding rod 40 penetrates through the connecting plate 39 and then extends to the third conical gear 33 but is not in contact with the third conical gear 33, and the other end of the sliding rod 40 penetrates through the connecting plate 39 and then extends to the box body shell 65 and is fixedly connected with the box body shell 65. After the transverse propelling screw rod 7 rotates, under the limiting action of the sliding rod 40, the connecting plate 39 cannot rotate and can only move back and forth along the central axis of the transverse propelling screw rod 7, the small driving wheel 26 and the large driving wheel 27 are respectively meshed with the first straight gear 25 through switching, the number of gears participating in meshing connection is different, the rotating directions of the second straight gear 29 are further different, the rotating directions of the transverse propelling screw rod 7 are different, finally, the connecting plate 39 can be different along the central axis moving directions of the transverse propelling screw rod 7 under the condition that the rotating direction of the external motor 53 is not changed, the connecting plate 39 can drive the longitudinal claw head propelling assembly to be different along the central axis moving directions of the transverse propelling screw rod 7, and the claw head 3 is far away from and close to the central line of the claw box body 1.

Further, referring to fig. 1, 3 and 6, the longitudinal claw head propelling assembly includes a longitudinal propelling screw rod 6, a first motor 42, a lifting block 43, a support rod 44, a connection block 45, a small round rod 46, a small through groove 47, a claw head 3 and a sliding plate 48, wherein two longitudinal propelling screw rods 6 are mounted on each connection plate 39, the longitudinal propelling screw rods 6 penetrate through the connection plates 39 from top to bottom, a first bearing seat 56 is arranged at the contact position of the longitudinal propelling screw rods 6 and the connection plates 39, the longitudinal propelling screw rods 6 are in rolling connection with the connection plates through bearings in the first bearing seats 56, the first motor 42 is fixed at the upper end of the longitudinal propelling screw rods 6, the first motor 42 is mounted at the lower surface of the sliding plate 48, the sliding plate 48 is mounted in the through groove 2 formed in the end cover 64, through grooves 2 are formed in the end cover 64 and the bottom surface of the box body case 65, the bottom end of the longitudinal propelling screw rods 6 extends out of the box body 1 from the through groove 2 formed in the bottom surface of the box body case body 65, the bottom threaded connection who vertically impels lead screw 6 has elevator 43, install little round bar 46 on elevator 43, elevator 43 keeps away from the one end and the bracing piece 44 sliding connection of box shell 65 lateral wall, the lower fixed surface of bracing piece 44 top and connecting plate 39 is connected, install two spinal branch vaulting poles 44 on every connecting plate 39, the mounted position of bracing piece 44 on connecting plate 39 is corresponding with vertical propulsion lead screw 6, the bottom of bracing piece 44 is connected with connecting block 45 through the pin rotation, dog head 3 is installed to connecting block 45 one end, little logical groove 47 has been seted up on the connecting block 45 other end, the little round bar 46 and the little logical groove 47 sliding connection of elevator 43. Two connecting plates 39 move along the central axis of a transverse propelling screw rod 7 to drive a claw head 3 to move inwards and outwards simultaneously, after the claw head 3 approaches an express box, a first motor 42 drives a longitudinal propelling screw rod 6 to rotate to drive a lifting block 43 to move downwards along a supporting rod 44, so that a small round rod 46 slides from one end of a small through groove 47 to the other end, one end of the connecting block 45 provided with the claw head 3 is driven to rotate inwards, the claw head 3 grabs the express box tightly, after the express box is transported to a designated place by a manipulator, the first motor 42 drives the longitudinal propelling screw rod 6 to rotate again to drive the lifting block 43 to move upwards along the supporting rod 44, the small round rod 46 slides from one end of the small through groove 47 to the other end, one end of the connecting block 45 provided with the claw head 3 is driven to rotate outwards, and the claw head 3 loosens the express box.

Further, referring to fig. 6, the air path negative pressure suction assembly includes an air pump 49, a suction port 50, an air path conduit 51 and a tee joint 52. The number of the air pumps 49 is two, the two air pumps 49 are symmetrically arranged on the lower surface of the end cover 64, the air outlet pipes 38 of the two air pumps 49 are connected with a three-way pipe joint 52, the three-way pipe joint 52 is further connected with an air path conduit 51, and one end of the air path conduit 51, which is far away from the three-way pipe joint 52, penetrates through the bottom surface of the box body shell 65 and is connected with the suction inlet 50. When the transport was the bag form express delivery on the conveyer belt, air pump 49 bleeds for absorb suction inlet 50 and produce suction, and rely on the suction that absorbs suction inlet 50 and produce to firmly adsorb the bag form express delivery, compensatied the claw head 3 and got the not enough of bag form express delivery when pressing from both sides.

Further, referring to fig. 1, 3, 4, 5 and 6, the express delivery positioning device includes two radar sensors 5 and two infrared scanners 4, the two infrared scanners 4 are symmetrically installed on the bottom surface of the box casing 65, the infrared scanners 4 are used for scanning the moving express delivery on the conveyor belt into infrared images and sending the obtained infrared images to the microprocessor, in this embodiment, the microprocessor is an STM32 series microprocessor, the model is STM32F407, not shown in the figure, the microprocessor determines the express delivery shape, size and placement direction according to the infrared images, then controls the electric telescopic rod 15 to drive the main shaft 14 to move up and down, so that the projection 16 installed on the main shaft 14 is embedded into the groove 19 on the gear protection cover 9, and the second motor 36 drives the reversing tie rod 28 to rotate, so that the small drive wheel 26 and the large drive wheel 27 are not meshed with the first straight gear 25, the external motor 53 drives the gripper box body 1 to integrally rotate without changing the relative angle between the gripper head 3 and the gripper box body 1, so that the angle of the gripper head 3 is consistent with the placing direction of the express box; the number of the radar sensors 5 is 4, the radar sensors correspond to the number of the claw heads 3, the radar sensors are respectively arranged at the middle parts of the supporting rods 44, the radar sensors 5 determine the distance between the claw heads 3 and the express box by emitting ultrasonic waves and receiving the ultrasonic waves, measured data are sent to the microprocessor, then the microprocessor controls the longitudinal propelling screw rod 6 and the transverse propelling screw rod 7 to rotate, and the purposes of approaching and clamping the express box are achieved. In addition, the external motor 53 is installed on the frame 54, the frame 54 can be moved by a mechanical arm, the frame 54 is fixedly connected with the outer edge of the large bearing 57 through the connecting rod 31, the inner edge of the large bearing 57 is fixedly connected with the upper surface of the end cover 64 through the connecting rod 31, the large bearing 57 plays a role in supporting the weight of the gripper box body 1, and meanwhile, the rotation of the whole gripper box body 1 is not hindered. The inner edge of the large bearing 57 is provided with gear teeth 58, the large bearing 57 is connected with a gear 59 through the gear teeth 58 in a meshing manner, a plurality of gears 59 can be arranged, in this embodiment, two gears are arranged, the inner edge of the gear 59 is in interference fit with a rotating shaft 60, the middle part of the rotating shaft 60 penetrates through the rack 54 and then is in rolling connection with the inner edge of the second bearing block 30, the second bearing block 30 is installed on the upper surface of the rack 54, the left side and the right side of the upper end of the rotating shaft 60 are provided with clamping blocks 61, one end, far away from the rotating shaft 60, of each clamping block 61 is provided with a fixing block 62, a lead screw 63 is arranged above the rotating shaft 60 and is driven to rotate by a third motor 41, two sliding blocks 23 penetrate through the lead screw 63 and are in threaded connection with the lead screw 63, the sliding blocks 23 are symmetrically installed on the central axis of the rotating shaft 60, two sliding blocks 23 are respectively hinged with rotating rods 32, and the other ends of the rotating rods 32 are hinged with the fixing blocks 62 at the far ends of the rotating shaft 60, connect through the pin rotation between two dwang 32 middle parts, after the cleft hand box 1 is whole rotatory, 3 angles of claw head are unanimous with the express delivery box position of putting, microprocessor starts third motor 41 this moment, third motor 41 drives lead screw 63 rotatory, lead screw 63 drives two slider 23 back-to-back motion, make and press from both sides tight piece 61 and move in opposite directions, press from both sides tight piece 61 and press from both sides tight rotation axis 60, rotation axis 60 can not rotate, gear 59 of rotation axis 60 bottom installation will restrict big bearing 57 and can not rotate, thereby the cleft hand box 1 is whole to keep motionless, outside motor 53 drive cleft hand box 1 inside part rotates and can not make cleft hand box 1 rotate.

The utility model discloses a theory of operation: when the conveying belt transports the express delivery box to reach the position below the claw-hand box body 1, the infrared scanner 4 is used for scanning the moving express delivery on the conveying belt into infrared images and sending the obtained infrared images to the microprocessor, the mechanical arm drives the whole claw-hand box body 1, when the bag-shaped express delivery box is formed, the air pump 49 is moved downwards to suck air, the suction port 50 generates suction force, the bag-shaped express delivery is firmly adsorbed by the suction force generated by the suction port 50, and the grabbing work of the bag-shaped express delivery box is completed; when a box-shaped express box is transported on the conveyor belt, the microprocessor determines the shape, size and placement direction of the express according to the infrared image, then controls the electric telescopic rod 15 to drive the main shaft 14 to move downwards, so that the lug 16 arranged on the main shaft 14 is embedded into the groove 19 on the gear protection cover 9, meanwhile, the second motor 36 drives the reversing tie bar 28 to rotate, so that the small driving wheel 26 and the large driving wheel 27 are not meshed with the first straight gear 25, the external motor 53 drives the gripper box body 1 to rotate integrally without changing the relative angle between the gripper head 3 and the gripper box body 1, so that the angle between the gripper head 3 and the placement direction of the express box is consistent, then the third motor 41 drives the lead screw 63 to rotate, the lead screw 63 drives the two sliding blocks 23 to move back and back, so that the clamping blocks 61 move oppositely, the clamping blocks 61 clamp the rotating shaft 60, the rotating shaft 60 cannot rotate, the gear 59 arranged at the bottom end of the rotating shaft, so that the entire claw box body 1 is kept still; then the radar sensor 5 determines the distance between the claw head 3 and the express box by transmitting ultrasonic waves and receiving the ultrasonic waves, measured data is sent to the microprocessor, the microprocessor controls the second motor 36 to drive the reversing tie bar 28 to rotate, the small driving wheel 26 and the large driving wheel 27 are driven to revolve around the second straight gear 29, when the large driving wheel 27 is meshed with the first straight gear 25, the large driving wheel 27 is meshed with the second straight gear 29, the small driving wheel 26 does not participate in the meshed connection, the number of the gears participating in the meshed connection is three, the output torque of the external motor 53 drives the transverse propelling screw rod 7 to rotate, the transverse propelling screw rod 7 drives the claw head 3 to approach the express box, when the radar sensor 5 detects that the claw head 3 approaches the express box, the microprocessor starts the first motor 42 again, the first motor 42 drives the longitudinal propelling screw rod 6 to rotate, the longitudinal propelling screw rod 6 drives the lifting block 43 to move downwards, the lifting block 43 enables the small round rod 46 to slide from one end of the small through groove 47 to the other end, one end, provided with the claw head 3, of the connecting block 45 is driven to rotate inwards, the claw head 3 tightly grasps the express box, after the express box is transported to a specified place by the manipulator, the first motor 42 drives the longitudinal pushing screw rod 6 to rotate to drive the lifting block 43 to move upwards along the supporting rod 44, the small round rod 46 slides from one end of the small through groove 47 to the other end, one end, provided with the claw head 3, of the connecting block 45 is driven to rotate outwards, and the claw head 3 loosens the express box.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a novel multi-functional extrusion formula manipulator of full-scale, its characterized in that: the express delivery box comprises a claw box body (1), an express delivery box positioning assembly and a similar clutch assembly, wherein a three-star gear reversing assembly, a transverse propelling assembly and a longitudinal claw head propelling assembly are arranged in the claw box body (1);

the three-star gear reversing assembly changes the torque rotating direction transmitted to the transverse propelling assembly by the similar clutch assembly and cuts off the torque transmission between the similar clutch assembly and the transverse propelling assembly by switching different numbers of gear engagement;

the transverse propelling component is used for converting the output torque of the three-star gear reversing component into a transverse propelling force and driving the claw head (3) to approach and leave the express box;

the longitudinal claw head propelling assembly is used for clamping and loosening the blocky express delivery box by the claw head (3);

the similar clutch assembly is used for driving the claw box body (1) to integrally rotate and transmitting the output torque of the external motor (53) to the three-star gear reversing assembly;

the express box positioning assembly is used for determining the placing position, the shape and the size of express on the conveyor belt and the distance between the express box positioning assembly and the claw head (3).

2. The novel full-size multifunctional extrusion type mechanical arm of claim 1, characterized in that: the claw hand box body (1) comprises an end cover (64) and a box body shell (65), the end cover (64) and the box body shell (65) are connected together through bolts, a circular groove (8) is formed in the middle of the end cover (64), a planetary gear reducer is arranged in the circular groove (8), and the similar clutch assembly outputs torque to the three-star gear reversing assembly through the planetary gear reducer.

3. The novel full-size multifunctional extrusion type mechanical arm of claim 1, characterized in that: the clutch assembly comprises a main shaft (14), an electric telescopic rod (15), a convex block (16), a limiting block (17), a shaft sleeve (55) and a sliding groove (18), wherein the upper end of the main shaft (14) is fixedly connected with the output end of the electric telescopic rod (15), the electric telescopic rod (15) is fixedly connected with the output end of an external motor (53), the convex block (16) is installed at the outer edge of the main shaft (14) at intervals, a groove (19) is formed at the upper end of a gear protective cover (9) at intervals, the convex block (16) is matched with the groove (19), the shaft sleeve (55) is fixedly connected with the bottom end of the main shaft (14) through a pin, the sliding groove (18) is formed in the two ends of the inner wall of the shaft sleeve (55), the inner wall of the lower part of the shaft sleeve (55) is in sliding connection with the outer edge of the upper end of a sun gear shaft (20), a limiting block (17) is arranged on the sun gear shaft (20), and the limiting block (17) is connected with the sliding groove (18) in a sliding mode.

4. The novel full-size multifunctional extrusion type mechanical arm of claim 1, characterized in that: the three-star gear reversing assembly comprises a small transmission wheel (26), a large transmission wheel (27), a second straight gear (29), a reversing tie rod (28) and a second motor (36), wherein the large transmission wheel (27) is respectively meshed with the small transmission wheel (26) and the second straight gear (29) to be connected, the reversing tie rod (28) is a connecting rod with more than three vertexes, the three vertexes of one end face of the reversing tie rod (28) are in rolling connection with the small transmission wheel (26), the large transmission wheel (27) and the second straight gear (29) through pins, and the reversing tie rod (28) is driven by the second motor (36) to rotate around the circle center of the second straight gear (29).

5. The novel full-size multifunctional extrusion type mechanical arm of claim 1, characterized in that: horizontal propulsion subassembly is including horizontal propulsion lead screw (7), slide bar (40), connecting plate (39), third bevel gear (33) and fourth bevel gear (34), and the reversing subassembly of three star gears drives third bevel gear (33) rotatory, and third bevel gear (33) are connected with fourth bevel gear (34) meshing, and the middle of fourth bevel gear (34) is inserted and is equipped with horizontal propulsion lead screw (7), the one end that fourth bevel gear (34) were kept away from in horizontal propulsion lead screw (7) runs through connecting plate (39) and with connecting plate (39) threaded connection back box shell (65) roll connection, and the one end internal sliding connection that horizontal propulsion lead screw (7) were kept away from in connecting plate (39) has slide bar (40), and slide bar (40) are fixed on box shell (65).

6. The novel full-size multifunctional extrusion type mechanical arm of claim 2 is characterized in that: vertical claw advances subassembly includes first motor (42), vertically advances lead screw (6), elevator (43), connecting block (45), bracing piece (44) and claw (3), vertically advances lead screw (6) and runs through elevator (43) and threaded connection with it, elevator (43) and bracing piece (44) sliding connection, and bracing piece (44) are installed on connecting plate (39), and bracing piece (44) bottom is connected with connecting block (45) through the pin rotation, first motor (42) drive vertically advances lead screw (6) rotatory, drives elevator (43) and slides from top to bottom, and elevator (43) drive connecting block (45) rotate around the pin, and claw (3) are installed to the one end that elevator was kept away from in connecting block (45).

7. The novel full-size multifunctional extrusion type mechanical arm of claim 1, characterized in that: the novel gripper box is characterized in that a gas circuit negative pressure suction assembly is arranged in the gripper box body (1), the gas circuit negative pressure suction assembly comprises two gas pumps (49), two gas outlet pipes (38), a suction port (50), gas circuit pipes (51) and three-way pipe joints (52), the gas pumps (49) are symmetrically arranged on the lower surface of an end cover (64), the gas outlet pipes (38) of the two gas pumps (49) are connected with the three-way pipe joints (52), the three-way pipe joints (52) are connected with the gas circuit pipes (51), and one end, far away from the three-way pipe joints (52), of the gas circuit pipes (51) penetrates through the bottom surface of a box body shell (65) and then is connected with the suction port (50).

8. The novel full-size multifunctional extrusion type mechanical arm of claim 6, characterized in that: express delivery box locating component is provided with infrared scanner (4) and radar sensor (5), and infrared scanner (4) are used for scanning the infrared image of express delivery box, and radar sensor (5) are used for surveying the distance between dog (3) and the express delivery box, and infrared scanner (4) and radar sensor (5) communication are connected to microprocessor's input, and microprocessor's output communication is connected with driving motor that samsung gear switching-over subassembly and vertical dog impeld the subassembly and outside motor (53) be connected with class clutch assembly, the quantity of infrared scanner (4) has two, and the symmetry is installed in box shell (65) bottom, and the quantity of radar sensor (5) has four groups, installs respectively the one end of box shell (65) lateral wall is kept away from in bracing piece (44).

9. The novel full-size multifunctional extrusion type mechanical arm of claim 6, characterized in that: install little round bar (46) on elevator (43), seted up little logical groove (47) on connecting block (45), elevator (43) slide from top to bottom along bracing piece (44) will drive little round bar (46) and slide in little logical groove (47) to drive connecting block (45) and rotate, realize claw head (3) to the clamp of express delivery box tightly with loosen.

10. The novel full-size multifunctional extrusion type mechanical arm of claim 6, characterized in that: all seted up logical groove (2) on end cover (64) and box shell (65) bottom surface, the quantity that leads to groove (2) is corresponding with the quantity of vertical propulsion lead screw (6), and sliding connection has slide (48) in logical groove (2) of end cover (64), the lower surface at slide (48) is installed in first motor (42), and vertical propulsion lead screw (6) from the top down runs through connecting plate (39), and the claw hand box (1) is stretched out in logical groove (2) of seting up on box shell (65) from vertical propulsion lead screw (6) bottom, and vertical propulsion lead screw (6) are provided with first bearing frame (56) with connecting plate (39) contact department.

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