CN114906384A - Automatic clamping and positioning tool for production and processing of new energy automobile hubs - Google Patents

Abstract

The invention provides an automatic clamping and positioning tool for production and processing of a new energy automobile hub, and relates to the field of automobile hub production. This new energy automobile wheel hub production and processing is with automatic clamping location frock, including the transmission band, the transmission band top is provided with a plurality of wheel hub, the inside both sides of transmission band all are provided with the U-shaped board, two the equal fixedly connected with swash plate of U-shaped board one end, one of them U-shaped board one side is provided with the removal shell, removal shell one side fixedly connected with location hydraulic telescoping rod. This new energy automobile wheel hub production and processing is with automatic clamping location frock reaches and makes wheel hub and electromagnet central line be in the purpose on the same water flat line, can be fast and automatic with the willingly align with the electromagnet, accomplish the location between electromagnet and the willingly, guarantee that the electromagnet is quick with willingly transporting to the packing position, reduce the staff and carry the physical input that willingly needs and the danger that exists, guarantee to willingly the efficiency of packing.

Description

Automatic clamping and positioning tool for production and processing of new energy automobile hubs

Technical Field

The invention relates to a clamping and positioning tool, in particular to an automatic clamping and positioning tool for production and processing of new energy automobile hubs, and belongs to the technical field of automobile hub production.

Background

Along with the development of economy, the automobile is rapidly popularized, the automobile brings convenience and brings environmental pollution, in order to solve pollution brought by the automobile, the new energy automobile is popularized, the new energy automobile uses electric power without pollution in work as energy, the convenience is guaranteed, and meanwhile, pollution brought by the automobile is avoided, so that the new energy automobile is rapidly popularized.

With the popularization of new energy automobiles, the development of new energy automobile industry is brought along, wherein the manufacture of new energy automobiles is one of main industries in the development process of new energy automobiles, and in order to reduce the production cost of new energy automobiles, all parts of new energy automobiles are separately produced, for example, tires with rubber as raw materials are processed in a rubber production place, steel fittings are produced in a steel production place, control elements are produced in an advanced industrial science and technology area, and all parts of new energy automobiles are finally transported to a labor force concentration area for assembly.

Wheel hub is the position of wheel center installation axletree, be important part on the new energy automobile, wheel hub also can adopt the mode of concentrated production, in wheel hub production process, need process through raw materials processing, the shaping, the coating film of polishing, processes such as packing, at the end of wheel hub production, need the staff with wheel hub from the transmission band transport to the packing box inside, need a large amount of labours to drop into, and along with the consumption of staff's physical power, the efficiency of wheel hub packing is inevitable to be declined, and when placing wheel hub inside the packing box of matching, the operating space who leaves the staff and point is less, lead to the staff easily to receive the injury.

Disclosure of Invention

Technical problem to be solved

The invention aims to provide an automatic clamping and positioning tool for production and processing of new energy automobile hubs to solve the problems that in the prior art, a large amount of labor force is needed to input when a worker transports the hubs from a transmission belt to the interior of a packing box, the efficiency of hub packing is inevitably reduced along with the physical consumption of the worker, and when the hubs are placed in the matched packing box, the operation space reserved for fingers of the worker is small, so that the worker is easily injured.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the automatic clamping and positioning tool for the production and processing of the new energy automobile hub comprises a transmission belt, wherein a plurality of wheel hubs are arranged at the top of the transmission belt, U-shaped plates are arranged on two sides inside the transmission belt, inclined plates are fixedly connected to one ends of the two U-shaped plates, a movable shell is arranged on one side of one U-shaped plate, the transverse plates push the wheel hubs to move through buffer plates, the wheel hubs move to one side of the movable shell, a positioning hydraulic telescopic rod is fixedly connected to one side of the movable shell, a transverse plate is arranged on one side inside the transmission belt, a pushing hydraulic telescopic rod is arranged on one side of the transverse plate, a I-shaped plate is fixedly connected to one end of the pushing hydraulic telescopic rod, buttons are arranged on two sides of the pushing hydraulic telescopic rod, a water pump is arranged on one side of the transmission belt, a three-way electromagnetic valve is fixedly connected to the output end of the water pump, a vertical box and a bent pipe are fixedly connected to two output ends of the three-way electromagnetic valve respectively, erect and be provided with solenoid valve and aqueduct between case and the hydraulic telescoping rod of location, solenoid valve electric connection has first time delay controller, three way solenoid valve electric connection has second time delay controller, erect and be provided with the liquid pipe between case and the promotion hydraulic telescoping rod, return bend one end fixedly connected with pushes away material hydraulic telescoping rod, it is provided with electric putter to push away material hydraulic telescoping rod one end, electric putter bottom fixedly connected with electro-magnet makes location hydraulic telescoping rod work promote the removal of removal shell, makes the removal shell promote the wheel and win and remove the electro-magnet bottom, reaches and makes wheel hub and electro-magnet central line be in the purpose on same water flat line.

Preferably, two U-shaped board, two swash plates and the inside all rotation of removal shell are connected with a plurality of rotation axes, location hydraulic telescoping rod fixed connection is between removal shell and transmission band, diaphragm one side fixedly connected with buffer board, the buffer board sets up between two U-shaped boards, infuses hydraulic oil to location hydraulic telescoping rod inside through solenoid valve and aqueduct, makes location hydraulic telescoping rod topping extend, makes location hydraulic telescoping rod work promote to remove the shell, makes removal shell promotion wheel remove to the electro-magnet bottom, and wheel hub and electro-magnet central line are in on same water flat line this moment, one of them wheel hub sets up between two U-shaped boards, one of them the dead slot has been seted up to U-shaped board one side, it sets up inside the dead slot to remove the shell.

Preferably, one side of the transverse plate is fixedly connected with two limiting sliding plates, one ends of the two limiting sliding plates penetrate through the I-shaped plate and are in contact with the I-shaped plate, one end of the limiting slide plate is fixedly connected with a weight increasing block, a limiting slide plate is arranged between the transverse plate and the I-shaped plate, and the limiting slide plate is fixedly connected with a weight increasing block for increasing weight, so that the friction between the transverse plate and the conveying belt is reduced while the transverse plate is ensured to move to push the hub, the service life of the transverse plate and the conveying belt is ensured, the outer side of the limiting sliding plate is sleeved with a return spring, two ends of the return spring are respectively fixedly connected with the transverse plate and the I-shaped plate, promote hydraulic telescoping rod other end fixedly connected with catch plate, make and promote hydraulic telescoping rod and pass through catch plate promotion diaphragm, make the diaphragm pass through the buffer board and push away wheel hub and remove, make wheel hub remove to remove shell one side, the catch plate sets up between two spacing slides.

Preferably, the outer side of each of the two buttons is sleeved with an outer pipe, one side of the inner part of the outer pipe is provided with a movable round rod, a plurality of small springs are fixedly connected between the movable round rod and the I-shaped plate, one side of the movable round rod is provided with a rubber rod which is fixedly connected with a transverse plate, the rubber rod is matched with the movable round rod to press the buttons, the press of the buttons and the movement of the wheel resolvers are ensured to be matched, the participation of workers in the positioning process of the wheel resolvers is reduced, the positioning accuracy of the wheel resolvers and electromagnets is ensured, the outer side of the rubber rod is sleeved with a support sleeve ring which is fixedly connected with a transmission belt, the two buttons are respectively electrically connected with a first delay controller and a second delay controller, the button electrically connected with the first delay controller is electrically connected with a water pump, the transverse plate pushes the movable round rod in the outer pipe, so that the movable round rod moves to complete the work of pressing the two buttons, the second time delay controller is electrically connected with the water pump, and the button is electrically connected with the transmission belt.

Preferably, the input pipe of the pushing hydraulic telescopic rod and the outer side of the input pipe are sleeved with mounting sleeves in a threaded manner, the mounting sleeves are rotated to enable the mounting sleeves to be separated from the outer side of the liquid pipe, the liquid pipe and the pushing hydraulic telescopic rod can be fixedly removed, one end of the outer side of the mounting sleeve is sleeved outside the liquid pipe through a thread, one end of the liquid pipe is fixedly connected with the top of the vertical box, the electromagnetic valve is fixedly connected with the other side of the vertical box, the water guide pipe is fixedly connected between the electromagnetic valve and the positioning hydraulic telescopic rod, the hydraulic oil tank is fixedly sleeved outside the water pump, the suction pipe fixed by the water pump extends to the bottom of the inner cavity of the hydraulic oil tank, so that when the water pump is controlled to work, hydraulic oil in the hydraulic oil tank can be extracted through the suction pipe, and threaded connection has the installation cover between liquid pipe and promotion hydraulic telescoping rod, water pump water inlet outside fixedly connected with straw, the straw sets up inside hydraulic tank.

Preferably, the transmission band top is provided with the guide box, guide box top one side fixedly connected with control box, the guide box both sides all with between the transmission band fixedly connected with bracing piece and L shaped plate, push away material hydraulic telescoping rod fixed connection inside the guide box, make that the return bend is connected push away the inside instillation hydraulic oil of material hydraulic telescoping rod and extend, make and push away the shell that material hydraulic telescoping rod extends and promotes fixed electric putter and remove at the guide box is inside, make the shell remove under the spacing of round bar, put down behind the packing position with the transportation of wheel peaceful, control box and first time delay controller and second time delay controller electric connection.

Preferably, direction case one end fixedly connected with ghost, electric putter fixed connection is in the ghost bottom, and the electric putter that work was extended promotes the electro-magnet and removes, and the electro-magnet of work produces magnetic force and adsorbs fixedly with what you want, and the electric putter of work shrink drives the electro-magnet afterwards and is waited to remove, makes what you want remove inside the transmission band, the equal fixedly connected with round bar in inside both sides of direction case, the ghost both sides all are seted up flutedly, two the round bar sets up respectively inside two recesses.

Preferably, vacant shell bottom fixedly connected with inductor, the inductor top is provided with control button, and after the vacant shell returned the normal position, can press control button, make control button control transmission band carry out work and three solenoid valve resume initial operating condition, can repeat the transportation of wanting and the location of electro-magnet and wanting, control button and guide box fixed connection and with transmission band electric connection, can cooperate through control box and inductor, to pushing away the work of parts such as material hydraulic telescoping rod, electro-magnet, electric putter, location hydraulic telescoping rod, three solenoid valve, water pump, promotion hydraulic telescoping rod, transmission band and control, the electro-magnet sets up in two U shaped plate tops, adapts to the higher needs of automation requirement.

Preferably, the transmission band top has been seted up and has been erected the groove, the I-shaped board sets up in erecting inslot portion, the equal fixedly connected with in I-shaped board bottom both sides increases heavy board, two it all overlaps in the heavy board outside is equipped with the magnet cover, only needs the power of disconnection magnet cover, can make the I-shaped board lose fixedly to dismantle, can be quick take out the I-shaped board from erecting inslot portion, guarantee to the speed that parts such as promotion hydraulic telescoping rod, the button of I-shaped board installation maintain and change, magnet cover and transmission band fixed connection.

Preferably, transmission band one side fixedly connected with workstation, the standing groove has been seted up at the workstation top, the inside packing box that is provided with of standing groove, the inside packing box that can lay of standing groove that the workstation was seted up makes the packing box lay in the position that corresponds with the electro-magnet, the packing box sets up in the guide box bottom and keeps away from one side that pushes away material hydraulic telescoping rod, avoids the staff to persevere the physical demands and danger of placing the inside existence of packing box with the hand, guarantees staff's work efficiency.

The invention provides an automatic clamping and positioning tool for production and processing of a new energy automobile hub, which has the following beneficial effects:

1. this automatic clamping location frock is used in new energy automobile wheel hub production and processing, make the diaphragm pass through the buffer board and push wheel hub and remove, make wheel hub remove to remove shell one side, make location hydraulic telescoping rod work and promote to remove the shell, make the removal shell promote the wheel and wai and remove the electro-magnet bottom, reach and make wheel hub and electro-magnet central line be in the purpose on same water flat line, can be fast and automatic persevere and align with the electro-magnet, accomplish the location between electro-magnet and the wheel resolute, guarantee that the electro-magnet is quick with wai resolute the transportation to the packing position, reduce the staff and carry the physical input that wheel resolute needs and the danger that exists, guarantee the efficiency of packing to the wheel.

2. This new energy automobile wheel hub production and processing is with automatic clamping location frock, spacing slide fixedly connected with is used for the weight increase piece of increase weight, when guaranteeing that the diaphragm removes to promote the wheel and persevere, reduce the friction between diaphragm and the transmission band, guarantee the life of diaphragm and transmission band, and press the button through the cooperation of rubber pole and removal pole, guarantee pressing of button and wheel and persevere to remove the cooperation, reduce the participation of the staff of wheel and persevere the location in-process, guarantee the accuracy of wheel and persevere with the electro-magnet location.

3. This automatic clamping location frock is used in new forms of energy automobile wheel hub production and processing, through the cooperation of parts such as water pump, three-way solenoid valve, return bend, material pushing hydraulic telescoping rod, vacant shell, electric putter, electro-magnet, at the very first time that electro-magnet and persevered the completion location alignment, under the condition of not changing persevered left and right sides front and back position, make the electro-magnet persevered the centre gripping fixed and transport, guarantee that persevered of electro-magnet transportation can accurate place the packing position, reduce the packing and persevered the degree that in-process staff participated in, guarantee to persevere the automation of location centre gripping, improve the transmission band top and persevere the efficiency of transporting the packing.

4. This new energy automobile wheel hub production and processing is with automatic clamping location frock, the standing groove that the workstation was seted up is inside can lay the packing box, makes the packing box lay in the position that corresponds with the electro-magnet, guarantees that the wheel of electro-magnet transportation can be accurate place the packing box inside and pack, avoids the staff with the hand with the wheel willingly place the inside physical demands and the danger that exists of packing box, guarantees staff's work efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a hydraulic oil tank of the present invention;

FIG. 3 is a schematic view of a fluid tube according to the present invention;

FIG. 4 is a schematic structural view of an I-shaped plate according to the present invention;

FIG. 5 is a schematic view of a rotary shaft according to the present invention;

FIG. 6 is a schematic view of the structure of the guide box of the present invention;

FIG. 7 is a schematic structural view of the empty shell of the present invention;

FIG. 8 is a schematic view of the structure of the pushing plate of the present invention;

FIG. 9 is a schematic structural view of an outer tube according to the present invention;

FIG. 10 is a schematic view of the structure of the water guide duct of the present invention;

FIG. 11 is a schematic view of the structure of part A of FIG. 2 according to the present invention.

In the figure: 1. a conveyor belt; 2. a work table; 3. packing cases; 4. i-shaped plates; 5. a weight increasing plate; 6. a magnet sleeve; 7. a vertical slot; 8. pushing the hydraulic telescopic rod; 9. a push plate; 10. a transverse plate; 11. a return spring; 12. a limiting sliding plate; 13. a rubber rod; 14. a weight increasing block; 15. a support collar; 16. an outer tube; 17. a button; 18. moving the round bar; 19. a small spring; 20. installing a sleeve; 21. a liquid pipe; 22. a water pump; 23. a three-way electromagnetic valve; 24. erecting the box; 25. an electromagnetic valve; 26. a first delay controller; 27. a second delay controller; 28. a straw; 29. a hydraulic oil tank; 30. a water conduit; 31. positioning the hydraulic telescopic rod; 32. a U-shaped plate; 33. a sloping plate; 34. an empty groove; 35. moving the shell; 36. a rotating shaft; 37. bending the pipe; 38. a guide box; 39. a control box; 40. empty shell; 41. a round bar; 42. an electric push rod; 43. an electromagnet; 44. pushing a material hydraulic telescopic rod; 45. a control button; 46. an inductor; 47. a buffer plate.

Detailed Description

The embodiment of the invention provides an automatic clamping and positioning tool for production and processing of new energy automobile hubs.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 11, the present invention includes a transmission belt 1, a plurality of hubs are disposed on the top of the transmission belt 1, U-shaped plates 32 are disposed on both sides of the transmission belt 1, inclined plates 33 are fixedly connected to one ends of the two U-shaped plates 32, a movable housing 35 is disposed on one side of one of the U-shaped plates 32, a positioning hydraulic telescopic rod 31 is fixedly connected to one side of the movable housing 35, a plurality of rotating shafts 36 are rotatably connected to the inside of the two U-shaped plates 32, the two inclined plates 33 and the movable housing 35, the positioning hydraulic telescopic rod 31 is fixedly connected between the movable housing 35 and the transmission belt 1, a buffer plate 47 is fixedly connected to one side of a transverse plate 10, two limiting slide plates 12 are fixedly connected to one side of the transverse plate 10, one ends of the two limiting slide plates 12 both penetrate through the i-shaped plate 4 and contact the i-shaped plate 4, and one end of the limiting slide plate 12 is fixedly connected to a weight increasing block 14, the outer side of the limiting slide plate 12 is sleeved with a reset spring 11, two ends of the reset spring 11 are respectively fixedly connected with a transverse plate 10 and an I-shaped plate 4, the other end of the pushing hydraulic telescopic rod 8 is fixedly connected with a pushing plate 9, the pushing plate 9 is arranged between the two limiting slide plates 12, a buffer plate 47 is arranged between the two U-shaped plates 32, one wheel hub is arranged between the two U-shaped plates 32, one side of one U-shaped plate 32 is provided with a hollow groove 34, a moving shell 35 is arranged in the hollow groove 34, one side of the inner part of the transmission belt 1 is provided with the transverse plate 10, one side of the transverse plate 10 is provided with the pushing hydraulic telescopic rod 8, one end of the pushing hydraulic telescopic rod 8 is fixedly connected with the I-shaped plate 4, two sides of the pushing hydraulic telescopic rod 8 are both provided with buttons 17, one side of the transmission belt 1 is provided with a water pump 22, the output end of the water pump 22 is fixedly connected with a three-way electromagnetic valve 23, two output ends of the three way electromagnetic valve 23 are respectively fixedly connected with a vertical box 24 and a bent pipe 37, an electromagnetic valve 25 and a water guide pipe 30 are arranged between the vertical box 24 and the positioning hydraulic telescopic rod 31, the electromagnetic valve 25 is electrically connected with a first delay controller 26, the three-way electromagnetic valve 23 is electrically connected with a second delay controller 27, a liquid pipe 21 is arranged between the vertical box 24 and the pushing hydraulic telescopic rod 8, one end of the bent pipe 37 is fixedly connected with a pushing hydraulic telescopic rod 44, one end of the pushing hydraulic telescopic rod 44 is provided with an electric push rod 42, and the bottom of the electric push rod 42 is fixedly connected with an electromagnet 43.

Specifically, a plurality of hubs are placed inside the conveyor belt 1, and in the process of conveying the hubs by the conveyor belt 1, the hubs are limited by two inclined plates 33 to guide the movement track, so that the hubs are guided between two U-shaped plates 32, the inclined plates 33 and the U-shaped plates 32 provided with a plurality of rotating shafts 36 guide the hubs, and friction is reduced through the rotating shafts 36 to enable the hubs to move to preset positions;

the moving wheel hub pushes the transverse plate 10 through the buffer plate 47 to press two buttons 17, the pressed button 17 controls the transmission belt 1 to stop working, meanwhile, the button 17 enables the water pump 22 and the second delay controller 27 to work, the water pump 22 pumps hydraulic oil into the hydraulic telescopic rod 8 through the cooperation of the three-way electromagnetic valve 23, the vertical box 24 and the liquid pipe 21 to push the hydraulic telescopic rod 8 to extend the liquid filled in the hydraulic telescopic rod 8, the hydraulic telescopic rod 8 pushes the transverse plate 10 through the push plate 9, the transverse plate 10 pushes the wheel hub to move through the buffer plate 47 to move the wheel hub to one side of the moving shell 35, at the moment, the electromagnetic valve 25 controlled by the first delay controller 26 works to enable the water pump 22 to pump hydraulic oil into the positioning hydraulic telescopic rod 31 through the electromagnetic valve 25 and the water guide pipe 30 to extend the positioning hydraulic telescopic rod 31 to fill liquid, and the positioning hydraulic telescopic rod 31 works to push the moving shell 35 to move, the movable shell 35 pushes the hub to move to the bottom of the electromagnet 43, the central lines of the hub and the electromagnet 43 are on the same horizontal line, then the hydraulic oil is pumped back to the original position by the water pump 22 controlled by the first delay controller 26, the electromagnetic valve 25 is controlled to be closed, and the transverse plate 10 and the movable shell 35 return to the original position;

at the moment, the second time delay controller 27 controlled by the other button 17 works to enable parts such as the water pump 22, the three-way electromagnetic valve 23, the electric push rod 42, the electromagnet 43, the material pushing hydraulic telescopic rod 44 and the like to cooperate to clamp and transport the hub to the packaging position, enable the water pump 22 and the three-way electromagnetic valve 23 to return to the initial position and enable the transmission belt 1 to work to continue to transport the hub, and repeat the working process to complete clamping and transporting of a plurality of hubs at the top of the transmission belt 1 to the packaging position;

in conclusion, in the implementation process of the technical scheme, the transverse plate 10 pushes the hub to move through the buffer plate 47, so that the hub moves to one side of the movable shell 35, the positioning hydraulic telescopic rod 31 works to push the movable shell 35 to move, the movable shell 35 pushes the hub to move to the bottom of the electromagnet 43, the purpose that the center lines of the hub and the electromagnet 43 are located on the same horizontal line is achieved, the hub and the electromagnet 43 can be quickly and automatically aligned, positioning between the electromagnet 43 and the hub driver is completed, the fact that the electromagnet 43 quickly transports the hub to a packaging position is guaranteed, physical input and danger required by workers for carrying the hub are reduced, and efficiency of packaging the hub is guaranteed.

Referring to fig. 1, 3, 8, 9 and 10 again, an outer tube 16 is sleeved outside each of two buttons 17, a moving round bar 18 is disposed on one side inside the outer tube 16, a plurality of small springs 19 are fixedly connected between the moving round bar 18 and the i-shaped plate 4, a rubber bar 13 is disposed on one side of the moving round bar 18, the rubber bar 13 is fixedly connected with the transverse plate 10, a supporting ring 15 is sleeved outside the rubber bar 13, the supporting ring 15 is fixedly connected with the transmission belt 1, the two buttons 17 are respectively electrically connected with a first delay controller 26 and a second delay controller 27, the button 17 electrically connected with the first delay controller 26 is electrically connected with a water pump 22, the second delay controller 27 is electrically connected with the water pump 22, the button 17 is electrically connected with the transmission belt 1, an input tube of the hydraulic telescopic rod 8 is pushed and an outer thread mounting sleeve 20 is sleeved outside the mounting sleeve 20, one end of the outer side of the mounting sleeve 20 is sleeved outside the liquid tube 21, liquid pipe 21 one end fixed connection is in erecting 24 tops of case, and solenoid valve 25 fixed connection is in erecting 24 opposite sides of case, and aqueduct 30 fixed connection is between solenoid valve 25 and location hydraulic telescoping rod 31, and the fixed cover in the water pump 22 outside is equipped with hydraulic tank 29, and the water pump 22 water inlet outside fixedly connected with straw 28, straw 28 set up inside hydraulic tank 29.

Specifically, when the wheel store is transported by the transport belt 1 to push the transverse plate 10 to move, the transverse plate 10 can push the rubber rod 13 to move towards the I-shaped plate 4, so that the transverse plate 10 pushes the moving round rod 18 in the outer pipe 16, the moving round rod 18 moves to complete the work of pressing the two buttons 17, the work of positioning the wheel store and the electromagnet 43 and transporting the wheel store is started, because the limiting sliding plate 12 is arranged between the transverse plate 10 and the I-shaped plate 4, and the limiting sliding plate 12 is fixedly connected with the weight increasing block 14 for increasing the weight, when the transverse plate 10 is moved to push the wheel holder, the friction between the transverse plate 10 and the transmission belt 1 is reduced, the service life of the transverse plate 10 and the transmission belt 1 is ensured, and the rubber rod 13 is matched with the movable round rod 18 to press the button 17, so that the pressing of the button 17 is ensured to be matched with the movement of the hub, the participation of workers in the positioning process of the hub is reduced, and the positioning accuracy of the hub and the electromagnet 43 is ensured.

When the hydraulic telescopic rod 8 is pushed to move and then drives the push plate 9 to return to the original position, the return spring 11 sleeved on the outer side of the limiting sliding plate 12 rebounds to push the return spring 11 to return, so that the transverse plate 10 and the buffer plate 47 wait for the next round of collision.

And the suction pipe 28 that the water pump 22 is fixed extends to the bottom of the inner cavity of the hydraulic oil tank 29, so that when the water pump 22 is controlled to work, hydraulic oil in the hydraulic oil tank 29 can be extracted through the suction pipe 28, the mounting sleeve 20 is in threaded connection between the liquid pipe 21 and the push hydraulic telescopic rod 8, the mounting sleeve 20 is rotated to enable the mounting sleeve 20 to be separated from the outer side of the liquid pipe 21, and the liquid pipe 21 and the push hydraulic telescopic rod 8 can be fixedly removed.

Referring again to fig. 1 and fig. 6, fig. 7 and 10, transmission band 1 top is provided with guide box 38, guide box 38 top one side fixedly connected with control box 39, guide box 38 both sides all with between transmission band 1 fixedly connected with bracing piece and the L shaped plate, push away material hydraulic telescoping rod 44 fixed connection inside guide box 38, guide box 38 one end fixedly connected with ghost 40, electric putter 42 fixed connection is in ghost 40 bottom, the equal fixedly connected with round bar 41 in guide box 38 inside both sides, ghost 40 both sides are all seted up flutedly, ghost 40 bottom fixedly connected with inductor 46, inductor 46 top is provided with control button 45, control button 45 and guide box 38 fixed connection and with transmission band 1 electric connection, electro-magnet 43 sets up in two U shaped plate 32 tops, two round bar 41 set up respectively inside two recesses, control box 39 and first time delay controller 26 and second time delay controller 27 electric connection.

Specifically, after the wheel hub is aligned with the electromagnet 43, the electric push rod 42 and the electromagnet 43 controlled by the second delay controller 27 work, the electric push rod 42 which is expanded in work pushes the electromagnet 43 to move, the electromagnet 43 which is worked generates magnetic force to adsorb and fix the wheel hub, the electric push rod 42 which is contracted in work drives the electromagnet 43 and the wheel hub to move, so that the wheel hub moves out of the conveying belt 1, the three-way electromagnetic valve 23 controlled by the second delay controller 27 works at the moment, a channel which is connected with the three-way electromagnetic valve 23 and the bent pipe 37 is opened, a channel which is connected with the vertical box 24 is closed, the water pump 22 is controlled by the second delay controller 27 to pump hydraulic oil in the hydraulic oil tank 29, hydraulic oil in the material pushing hydraulic telescopic rod 44 connected with the bent pipe 37 is infused for extending, so that the material pushing hydraulic telescopic rod 44 extends to push the hollow shell 40 which fixes the electric push rod 42 to move in the guide box 38, the shell 40 is moved under the limit of the round rod 41, and the perseveration is transported to a packaging position and then put down;

when the vacant shell 40 returns to the original position, the control button 45 is pressed, so that the control button 45 controls the transmission belt 1 to work and the three-way electromagnetic valve 23 returns to the original working state, and positioning of the perseveration and the electromagnet 43 and transportation of the perseveration can be repeatedly carried out; in addition, a control box 39 is fixedly connected to the top of the guide box 38, a buffer board 47 is fixedly connected to the bottom of the shell 40, and the work of parts such as a material pushing hydraulic telescopic rod 44, an electromagnet 43, an electric push rod 42, a positioning hydraulic telescopic rod 31, a three-way electromagnetic valve 23, a water pump 22, a pushing hydraulic telescopic rod 8, a transmission belt 1 and the like can be controlled through the cooperation of the control box 39 and an inductor 46, so that the positioning of the wheel and the electromagnet 43 and the clamping and fixing transportation of the electromagnet 43 to the wheel hub are realized, the method is suitable for the requirements with higher automation requirements, the control box 39 and the inductor 46 are matched to control each part to be mature prior art, and modes such as PLC control, numerical control program control, computer parameter control and the like can be selected according to the needs of workers;

through the cooperation of parts such as the water pump 22, the three-way electromagnetic valve 23, the elbow pipe 37, the material pushing hydraulic telescopic rod 44, the vacant shell 40, the electric push rod 42 and the electromagnet 43, at the first time when the electromagnet 43 and the agent complete positioning and alignment, under the condition of not changing the left, right, front and rear positions of the agent, the electromagnet 43 can clamp and fix the agent for transportation, the agent for transportation of the electromagnet 43 can be accurately placed at a packaging position, the participation degree of workers in the process of the agent for packaging is reduced, the automation of positioning and clamping for the agent for transportation is ensured, and the efficiency of the agent for transportation and packaging at the top of the transmission belt 1 is improved.

Please refer to fig. 1 and 4 again, a vertical groove 7 has been seted up at the top of the transmission band 1, the i-shaped plate 4 is arranged inside the vertical groove 7, the equal fixedly connected with weight increasing plates 5 on both sides of the bottom of the i-shaped plate 4, the magnet sleeve 6 is sleeved on both outer sides of the two weight increasing plates 5, the magnet sleeve 6 is fixedly connected with the transmission band 1, the workbench 2 is fixedly connected with one side of the transmission band 1, a placing groove has been seted up at the top of the workbench 2, a packing box 3 is arranged inside the placing groove, and the packing box 3 is arranged on one side of the bottom of the guide box 38 away from the pushing hydraulic telescopic rod 44.

Concretely, at 1 one side fixedly connected with workstation 2 of transmission band, and inside packing box 3 of can laying of standing groove that workstation 2 was seted up, make packing box 3 lay in the position that corresponds with electro-magnet 43, guarantee that the wheel of electro-magnet 43 transportation can be accurate place packing box 3 inside and pack, avoid the staff to use the hand and steal the physical demands and danger of placing the inside existence of packing box 3, guarantee staff's work efficiency, and 5 outside covers at I-shaped board 4 fixed connection's weight increasing board are equipped with magnet cover 6, only need break away the power of magnet cover 6, can make I-shaped board 4 lose fixed dismantlement, can be quick take out I-shaped board 4 from erecting inslot 7 inside, guarantee the promotion hydraulic telescoping rod 8 of installing I-shaped board 4, the speed of part maintenance such as button 17 changes.

Claims (10)

1. New energy automobile wheel hub production and processing is with automatic clamping location frock, including transmission band (1), transmission band (1) top is provided with a plurality of wheel hub, its characterized in that: the device is characterized in that U-shaped plates (32) are arranged on two sides inside the transmission belt (1), one ends of the two U-shaped plates (32) are fixedly connected with inclined plates (33), one side of one U-shaped plate (32) is provided with a movable shell (35), one side of the movable shell (35) is fixedly connected with a positioning hydraulic telescopic rod (31), one side inside the transmission belt (1) is provided with a transverse plate (10), one side of the transverse plate (10) is provided with a pushing hydraulic telescopic rod (8), one end of the pushing hydraulic telescopic rod (8) is fixedly connected with an I-shaped plate (4), two sides of the pushing hydraulic telescopic rod (8) are both provided with buttons (17), one side of the transmission belt (1) is provided with a water pump (22), the output end of the water pump (22) is fixedly connected with a three-way electromagnetic valve (23), two output ends of the three-way electromagnetic valve (23) are respectively and fixedly connected with a vertical box (24) and a bent pipe (37), erect and be provided with solenoid valve (25) and aqueduct (30) between case (24) and location hydraulic telescoping rod (31), solenoid valve (25) electric connection has first time delay controller (26), three-way solenoid valve (23) electric connection has second time delay controller (27), it is provided with liquid pipe (21) to erect between case (24) and promotion hydraulic telescoping rod (8), return bend (37) one end fixedly connected with pushes away material hydraulic telescoping rod (44), it is provided with electric putter (42) to push away material hydraulic telescoping rod (44) one end, electric putter (42) bottom fixedly connected with electro-magnet (43).

2. The automatic clamping and positioning tool for the production and processing of the new energy automobile hub is characterized in that: two U-shaped plate (32), two swash plates (33) and removal shell (35) are inside all to rotate and to be connected with a plurality of rotation axes (36), location hydraulic telescoping rod (31) fixed connection is between removal shell (35) and transmission band (1), diaphragm (10) one side fixedly connected with buffer board (47), buffer board (47) set up between two U-shaped plate (32), one of them wheel hub sets up between two U-shaped plate (32), one of them empty groove (34) have been seted up to U-shaped plate (32) one side, removal shell (35) set up inside empty groove (34).

3. The automatic clamping and positioning tool for production and processing of new energy automobile hubs as claimed in claim 1, is characterized in that: diaphragm (10) one side two spacing slide (12) of fixedly connected with, two spacing slide (12) one end all runs through worker's word board (4) and contacts with worker's word board (4), spacing slide (12) one end fixedly connected with weight increasing piece (14), spacing slide (12) outside cover is equipped with reset spring (11), reset spring (11) both ends respectively with diaphragm (10) and I-shaped board (4) fixed connection, promote hydraulic telescoping rod (8) other end fixedly connected with slurcam (9), slurcam (9) set up between two spacing slide (12).

4. The automatic clamping and positioning tool for the production and processing of the new energy automobile hub is characterized in that: outer tubes (16) are sleeved on the outer sides of the two buttons (17), a movable round rod (18) is arranged on one side inside each outer tube (16), a plurality of small springs (19) are fixedly connected between the movable round rod (18) and the I-shaped plate (4), a rubber rod (13) is arranged on one side of the movable round rod (18), the rubber rod (13) is fixedly connected with the transverse plate (10), a supporting lantern ring (15) is sleeved on the outer side of the rubber rod (13), the supporting lantern ring (15) is fixedly connected with the transmission belt (1), the two buttons (17) are respectively and electrically connected with a first delay controller (26) and a second delay controller (27), the button (17) which is electrically connected with the first time delay controller (26) is electrically connected with the water pump (22), the second time delay controller (27) is electrically connected with the water pump (22), and the button (17) is electrically connected with the transmission belt (1).

5. The automatic clamping and positioning tool for production and processing of new energy automobile hubs as claimed in claim 1, is characterized in that: promote hydraulic telescoping rod (8) input tube and outside threaded sleeve and be equipped with installation cover (20), liquid pipe (21) outside is located to installation cover (20) outside one end threaded sleeve, liquid pipe (21) one end fixed connection erects case (24) top, solenoid valve (25) fixed connection erects case (24) opposite side, aqueduct (30) fixed connection is between solenoid valve (25) and location hydraulic telescoping rod (31), the fixed cover in water pump (22) outside is equipped with hydraulic tank (29), water pump (22) water inlet outside fixedly connected with straw (28), straw (28) set up inside hydraulic tank (29).

6. The automatic clamping and positioning tool for the production and processing of the new energy automobile hub is characterized in that: the utility model discloses a material pushing device, including transmission band (1), transmission band (1) top is provided with guide box (38), guide box (38) top one side fixedly connected with control box (39), all with transmission band (1) between fixedly connected with bracing piece and the L shaped plate guide box (38) both sides, push away material hydraulic telescoping rod (44) fixed connection inside guide box (38), control box (39) and first time delay controller (26) and second time delay controller (27) electric connection.

7. The automatic clamping and positioning tool for the production and processing of the new energy automobile hub is characterized in that: the guide box (38) one end fixedly connected with ghost (40), electric putter (42) fixed connection is in ghost (40) bottom, the equal fixedly connected with round bar (41) of guide box (38) inside both sides, ghost (40) both sides are all seted up flutedly, two round bar (41) set up respectively in two recesses inside.

8. The automatic clamping and positioning tool for the production and processing of the new energy automobile hub is characterized in that: vacant shell (40) bottom fixedly connected with inductor (46), inductor (46) top is provided with control button (45), control button (45) and guide box (38) fixed connection and with transmission band (1) electric connection, electro-magnet (43) set up in two U-shaped plate (32) tops.

9. The automatic clamping and positioning tool for the production and processing of the new energy automobile hub is characterized in that: transmission band (1) top has been seted up and has been erected groove (7), worker's board (4) set up inside erecting groove (7), worker's board (4) bottom both sides equal fixedly connected with increases heavy board (5), two it is equipped with magnet cover (6) all to increase heavy board (5) outside, magnet cover (6) and transmission band (1) fixed connection.

10. The automatic clamping and positioning tool for the production and processing of the new energy automobile hub is characterized in that: conveyer belt (1) one side fixedly connected with workstation (2), the standing groove has been seted up at workstation (2) top, inside packing box (3) of being provided with of standing groove, packing box (3) set up in leading case (38) bottom and keep away from one side that pushes away material hydraulic telescoping rod (44).

Images