CN110757286A - Processing and polishing equipment for graphene copper sleeve - Google Patents

Abstract

The invention discloses a graphene copper sleeve processing and polishing device, which relates to the technical field of polishing devices and comprises a workbench, a clamping and conveying mechanism, a polishing mechanism and a spraying and cooling mechanism, wherein the workbench is arranged on the ground, a chute is formed in the middle of the workbench, a rack seat is arranged on the workbench and positioned beside the chute, and the clamping and conveying mechanism, the polishing mechanism and the spraying and cooling mechanism are sequentially arranged on the workbench from left to right. The next operation can be carried out after long-time cooling, which wastes a lot of time.

Description

Processing and polishing equipment for graphene copper sleeve

Technical Field

The invention relates to the technical field of polishing equipment, in particular to graphene copper sleeve processing and polishing equipment.

Background

Graphite alkene copper sheathing processing equipment of polishing is a device that is used for graphite alkene copper sheathing to polish, and people polish the outward appearance of the graphite alkene copper sheathing that production was accomplished and handle, handles burr, deburring etc. belongs to essential equipment in graphite alkene copper sheathing processing, has better result of use.

Patent number is CN209062862U discloses a high wear-resisting graphite alkene copper sheathing processing equipment of polishing, which comprises a housin, one side of casing is close to lower extreme position movable mounting and has the access door, the front end of casing is close to lower extreme position and is equipped with the collection dirt drawer, the position placed in the middle of the casing is equipped with fence formula workstation. High wear-resisting graphite alkene copper sheathing processing equipment of polishing, be equipped with collection dirt drawer and lamp shade, at first can play better collection dirt effect, conveniently collect the dirt bits that fall on the workstation, and can provide better light filling effect when people operate and polish, increase the quality of polishing, in addition adopted just to tear the structure open, bolt that the diameter is less than pivot itself is seted up through the one end with the pivot, then the diameter of polishing the dish is greater than the bolt and is less than the pivot, secondly fixing the another of bolt with the nut, can make things convenient for people to change the polishing dish of different precisions when using, bring better use prospect.

However, the above patents have the following problems: one, graphite alkene copper sheathing needs the manual work to grab graphite alkene copper sheathing in the hand turn-over of polishing at the in-process of polishing, and neither safe also inconvenient, two, the polisher is the unable removal regulation of fixed setting in the above-mentioned patent, leads to the effect of polishing of the limited influence in scope of polishing, and three, graphite alkene copper sheathing is higher polishing completion rear surface temperature, need carry out long-time cooling back and just can carry out operation on next step, can waste a large amount of time.

Disclosure of Invention

The invention aims to provide graphene copper bush processing and polishing equipment to solve the technical problems in the background art.

A graphene copper sleeve processing and polishing device comprises a workbench, a clamping and conveying mechanism, a polishing mechanism and a spraying and cooling mechanism, wherein the workbench is arranged on the ground, a chute is formed in the middle of the workbench, a rack seat is arranged on the workbench and beside the chute, the clamping and conveying mechanism, the polishing mechanism and the spraying and cooling mechanism are sequentially arranged on the workbench from left to right, the clamping and conveying mechanism comprises a first conveying assembly, a turnover assembly and a clamping cylinder, the first conveying assembly is arranged in the chute on the workbench, the turnover assembly is arranged on the first conveying assembly, the clamping cylinder is arranged on the turnover assembly, the polishing mechanism comprises a portal frame, a moving assembly, a lifting assembly, an adjusting assembly and a polishing machine, two ends of the portal frame are fixedly arranged on two sides of the workbench, the movable assembly sets up on the portal frame, lifting unit sets up on the movable assembly, adjusting part sets up lifting unit is last, the polisher is fixed to be set up adjusting part is last, it includes second conveyor components, spray assembly and recovery subassembly to spray cooling mechanism, second conveyor components sets up in the spout on the workstation, spray assembly is fixed to be set up on the workstation, one side of workstation top is equipped with the mouth that leaks, it just is located on the workstation to retrieve the subassembly the below of leaking the mouth, retrieve the subassembly with sliding fit between the workstation.

Further, the first conveying assembly comprises a first sliding seat, a first conveying motor and a first conveying gear, the first sliding seat is arranged in a sliding groove in the workbench, the first sliding seat is in sliding fit with the sliding groove, the first conveying motor is fixedly arranged on the first sliding seat, the first conveying gear is fixedly arranged on an output shaft of the first conveying motor, and the first conveying gear is meshed with a rack seat in the workbench.

The turnover assembly comprises a supporting plate, a turnover motor, a turnover belt, a turnover shaft and a turnover plate, the supporting plate is vertically and fixedly arranged on the first sliding seat, the turnover motor is fixedly arranged on the first sliding seat and is located on the rear side of the supporting plate, the turnover shaft is rotatably arranged above the supporting plate, the turnover belt is sleeved on an output shaft of the turnover motor and one end of the turnover shaft, the turnover plate is fixedly arranged on the other end of the turnover shaft, and the bottom of the clamping cylinder is fixedly arranged on the turnover plate.

Further, the removal subassembly includes moving motor, removal lead screw, supplementary carriage release lever and removal slip table, the fixed setting of moving motor is in on one side of portal frame, it installs to remove the lead screw rotation both sides on the portal frame, moving motor's output with the one end fixed connection who removes the lead screw, supplementary carriage release lever is equipped with two, two supplementary carriage release lever all sets up on the portal frame, and two supplementary carriage release lever is located respectively remove the both sides of lead screw, remove slip table slidable mounting in remove on lead screw and the two supplementary carriage release levers.

Further, lifting unit includes lift cylinder, lifter plate, guide holder and guide bar, the lift cylinder is fixed to be set up remove on the slip table, the output of lift cylinder sets up down, the guide holder with the guide bar all is equipped with two, two the guide holder is all fixed to be set up remove on the slip table and be located respectively die clamping cylinder's both sides, two the guide bar sets up respectively two on the guide holder, two the guide bar respectively with one sliding fit between the guide holder, the one side of lifter plate is fixed to be set up the output and two of lift cylinder one end of guide bar is served.

Further, the adjusting part is including adjusting seat, accommodate motor, regulating spindle, adjusting belt and regulating plate, it is equipped with two, two to adjust the seat symmetry and sets up both sides on the lifter plate another side, accommodate motor is fixed to be set up on the lifter plate, the regulating spindle rotates to be installed two adjust on the seat, the regulating plate is fixed to be set up the epaxial middle section position of regulating spindle, the adjusting belt cover is established adjust motor's output shaft with on one end of regulating spindle, the polisher is fixed to be set up adjust on the seat, the end of polishing of polisher sets up down.

Furthermore, the second conveying assembly comprises a second sliding seat, a second conveying motor, a second conveying gear and a containing box, the second sliding seat is arranged in a sliding groove in the workbench, the second sliding seat is in sliding fit with the sliding groove, the second conveying motor is fixedly arranged on one side of the second sliding seat, the second conveying gear is fixedly arranged on an output shaft of the second conveying motor, the second conveying gear is meshed with a rack seat on the workbench, the containing box is fixedly arranged on the other side of the second sliding seat, the containing box can be adjusted to a water leakage port on the workbench, and a plurality of water leakage holes are formed in the bottom surface of the containing box.

Further, the spray assembly comprises a water containing tank, a delivery pump, a first spray pipe, a second spray pipe, a third spray pipe, a fourth spray pipe and a spray head, the water containing tank is fixedly arranged on the workbench, a water filling port is arranged on one side of the water containing tank, the delivery pump is fixedly arranged at the top of the water containing tank, one end of the first spray pipe is communicated with the interior of the water containing tank, the other end of the first spray pipe is connected with the input end of the conveying pump, one end of the second spray pipe is connected with the output end of the conveying pump, the third spray pipe is transversely arranged at the other end of the second spray pipe, the fourth spray pipe and the spray heads are respectively provided with a plurality of spray heads, and the fourth spray pipes are arranged on the third spray pipe at intervals, and each of the fourth spray pipes is provided with a plurality of spray heads.

Furthermore, the recycling assembly comprises two groups of adjusting slide rails and a recycling box, the two groups of adjusting slide rails are symmetrically arranged on two sides of a water leaking port below the workbench, the recycling box is arranged on the two groups of adjusting slide rails, the recycling box is in sliding fit with the two groups of adjusting slide rails, the recycling box is communicated with the water leaking port on the workbench, and a handle is fixedly arranged outside the recycling box.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when the graphene copper sleeve needs to be polished, the graphene copper sleeve is manually placed into a clamping and conveying mechanism on a workbench, a clamping cylinder in the clamping and conveying mechanism clamps and fixes the graphene copper sleeve, then a first conveying assembly works to convey the graphene copper sleeve into a polishing mechanism for polishing operation, a turn-over assembly is arranged to rotationally turn over the graphene copper sleeve during polishing, when the first conveying assembly conveys the graphene copper sleeve to the position of the polishing mechanism, a polisher in the polishing mechanism polishes the graphene copper sleeve, a moving assembly in the polishing mechanism is used for adjusting the position of the polisher, a lifting assembly is arranged to adjust the height of the polisher, an adjusting assembly is arranged to adjust the angle position of the polisher, and the adjustment of the polisher can be realized through the cooperation of the three components, the polishing effect is better, after the polishing machine finishes polishing the graphene copper sleeve, the spraying and cooling mechanism is used for spraying water for cooling, the polished graphene copper sleeve is manually placed into the second conveying assembly, when the graphene copper sleeve contained in the second conveying assembly reaches a certain amount, the second conveying assembly works for conveying the graphene copper sleeve to a water leakage port on a workbench, the spraying assembly works for spraying water for cooling the graphene copper sleeve, the sprayed water flows into the recovery assembly through the water leakage port for recovery treatment, and the graphene copper sleeve is taken out for the next link after being cooled, so that the problem that the conventional graphene copper sleeve needs to be manually grasped in the hand for polishing and turning during polishing is solved through the matching work among the assemblies, the polishing machine is safe and inconvenient, and the polishing machine cannot be moved and adjusted, the polishing effect is limited due to the polishing range, the surface temperature of the polished graphene copper sleeve is higher after polishing, the next operation can be carried out after long-time cooling is needed, and a large amount of time can be wasted.

The graphene copper sleeve is clamped and fixed through the clamping cylinder, then the graphene copper sleeve is conveyed to the polishing mechanism to be polished through the operation of the first conveying assembly, the turnover assembly is arranged to rotate and turn over the graphene copper sleeve during polishing, when the first conveying assembly works, the first conveying motor on the first sliding seat works to drive the first conveying gear to rotate, the first conveying gear moves on the rack seat meshed with the first conveying gear to complete the operation of moving and conveying, when the turnover assembly works, the turnover motor works to drive the turnover belt to rotate, the turnover belt drives the turnover shaft to rotate and adjust on the supporting plate, the turnover shaft drives the turnover plate to rotate, and the clamping cylinder on the turnover plate synchronously rotates to complete the turnover operation.

Thirdly, the invention adjusts the position of the sander through the moving component, the lifting component is arranged to adjust the height of the sander, the adjusting component is arranged to adjust the angle position of the sander, the adjustment of the sander can be realized through the cooperation of the three components, the sanding effect is better, when the moving component works, the moving motor on the portal frame works to drive the moving lead screw to rotate, the moving lead screw drives the moving sliding table to move and adjust, the auxiliary moving rod is used to move the moving sliding table in an auxiliary way, when the lifting component works, the lifting cylinder works to drive the lifting plate to carry out lifting adjustment, the guide seat and the guide rod play a role in auxiliary lifting, when the adjusting component works, the adjusting motor on the lifting plate works to drive the adjusting belt to rotate, the adjusting belt drives the adjusting shaft to rotate on the two adjusting seats, and the adjusting shaft drives the adjusting plate fixedly connected with the adjusting shaft to adjust, the sander on the adjusting plate is adjusted accordingly.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic perspective view of the gripping and conveying mechanism of the present invention;

FIG. 5 is a schematic perspective view of a grinding mechanism according to the present invention;

FIG. 6 is an enlarged view taken at A in FIG. 5;

fig. 7 is a schematic perspective view of the spray assembly of the present invention.

Reference numerals:

the working table 1, the chute 11, the rack holder 12, the clamping and conveying mechanism 2, the first conveying assembly 21, the first sliding holder 211, the first conveying motor 212, the first conveying gear 213, the turnover assembly 22, the support plate 221, the turnover motor 222, the turnover belt 223, the turnover shaft 224, the turnover plate 225, the clamping and clamping cylinder 23, the grinding mechanism 3, the portal frame 31, the moving assembly 32, the moving motor 321, the moving screw rod 322, the auxiliary moving rod 323, the moving sliding table 324, the lifting assembly 33, the lifting cylinder 331, the lifting plate 332, the guide holder 333, the guide rod 334, the adjusting assembly 34, the adjusting holder 341, the adjusting motor 342, the adjusting shaft 343, the adjusting belt 344, the adjusting plate 345, the grinding machine 35, the spray cooling mechanism 4, the second conveying assembly 41, the second sliding holder 411, the second conveying motor 412, the second conveying gear 413, the containing box 414, the spray assembly 42, the containing box 421, the conveying pump 422, the spray head comprises a first spray pipe 423, a second spray pipe 424, a third spray pipe 425, a fourth spray pipe 426, a spray head 427, a water filling opening 428, a recovery assembly 43, an adjusting slide rail 431, a recovery box 432 and a handle 433.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 7, an embodiment of the present invention provides a graphene copper sleeve processing and polishing apparatus, including a workbench 1, a clamping and conveying mechanism 2, a polishing mechanism 3, and a spraying and cooling mechanism 4, where the workbench 1 is disposed on the ground, a chute 11 is disposed in a middle position of the workbench 1, a rack seat 12 is disposed on the workbench 1 and beside the chute 11, the clamping and conveying mechanism 2, the polishing mechanism 3, and the spraying and cooling mechanism 4 are sequentially disposed on the workbench 1 from left to right, the clamping and conveying mechanism 2 includes a first conveying assembly 21, a turnover assembly 22, and a clamping and holding cylinder 23, the first conveying assembly 21 is disposed in the chute 11 on the workbench 1, the turnover assembly 22 is disposed on the first conveying assembly 21, the clamping and holding cylinder 23 is disposed on the turnover assembly 22, and the polishing mechanism 3 includes a portal frame 31, A moving component 32, a lifting component 33, an adjusting component 34 and a grinding machine 35, wherein two ends of the portal frame 31 are fixedly arranged on two sides of the worktable 1, the moving assembly 32 is disposed on the gantry 31, the lifting assembly 33 is disposed on the moving assembly 32, the adjusting assembly 34 is arranged on the lifting assembly 33, the grinding machine 35 is fixedly arranged on the adjusting assembly 34, the spray cooling mechanism 4 comprises a second conveying assembly 41, a spray assembly 42 and a recovery assembly 43, the second conveying assembly 41 is arranged in the chute 11 on the workbench 1, the spraying assembly 42 is fixedly arranged on the workbench 1, one side of workstation 1 top is equipped with the mouth that leaks, retrieve subassembly 43 and set up on workstation 1 and be located the below of leaking the mouth, retrieve subassembly 43 with sliding fit between the workstation 1.

When the graphene copper sleeve needs to be polished, the graphene copper sleeve is manually placed into a clamping and conveying mechanism 2 on a workbench 1, a clamping cylinder 23 in the clamping and conveying mechanism 2 clamps and fixes the graphene copper sleeve, then a first conveying assembly 21 works to convey the graphene copper sleeve to a polishing mechanism 3 for polishing operation, a turn-over assembly 22 is arranged to rotate and turn over the graphene copper sleeve during polishing, when the first conveying assembly 21 conveys the graphene copper sleeve to the position of the polishing mechanism 3, a polishing machine 35 in the polishing mechanism 3 performs polishing operation on the graphene copper sleeve, a moving assembly 32 in the polishing mechanism 3 is used for adjusting the position of the polishing machine 35, a lifting assembly 33 is arranged for adjusting the height of the polishing machine 35, an adjusting assembly 34 is arranged for adjusting the angle position of the polishing machine 35, and the adjustment of the polishing machine 35 can be realized through the cooperation of the three components, the polishing effect is better, after the polishing machine 35 finishes polishing the graphene copper sleeve, the spraying and cooling mechanism 4 is used for spraying water for cooling, the polished graphene copper sleeve is manually placed into the second conveying assembly 41, when the graphene copper sleeve contained in the second conveying assembly 41 reaches a certain amount, the second conveying assembly 41 is operated to convey the graphene copper sleeve to a water leakage port on the workbench 1, the spraying assembly 42 is operated to spray water for cooling, the sprayed water flows into the recovery assembly 43 through the water leakage port for recovery treatment, and the graphene copper sleeve is taken out for the next link operation after being cooled, so that the problem that the conventional graphene copper sleeve needs to be manually gripped in the hand for polishing and turn-over in the polishing process is solved through the matching work among the assemblies, and the polishing machine is neither safe nor convenient, and polisher 35 is the unable removal regulation of fixed setting, and the effect and the graphite alkene copper sheathing that lead to the limited influence of the scope of polishing is polished after the completion surface temperature higher, just can carry out operation on next step after long-time cooling, can waste the problem of a large amount of time.

The first conveying assembly 21 includes a first sliding seat 211, a first conveying motor 212 and a first conveying gear 213, the first sliding seat 211 is disposed in the chute 11 of the workbench 1, the first sliding seat 211 is in sliding fit with the chute 11, the first conveying motor 212 is fixedly disposed on the first sliding seat 211, the first conveying gear 213 is fixedly disposed on an output shaft of the first conveying motor 212, the first conveying gear 213 is engaged with the rack seat 12 of the workbench 1, when the first conveying assembly 21 works, the first conveying motor 212 on the first sliding seat 211 works to drive the first conveying gear 213 to rotate, and the first conveying gear 213 moves on the rack seat 12 engaged therewith to complete the operation of moving and conveying.

The turn-over assembly 22 comprises a support plate 221, a turn-over motor 222, a turn-over belt 223, a turn-over shaft 224 and a turn-over plate 225, the support plate 221 is vertically and fixedly arranged on the first sliding seat 211, the turn-over motor 222 is fixedly arranged on the first sliding seat 211 and is located at the rear side of the support plate 221, the turn-over shaft 224 is rotatably arranged above the support plate 221, the turn-over belt 223 is sleeved on an output shaft of the turn-over motor 222 and one end of the turn-over shaft 224, the turn-over plate 225 is fixedly arranged at the other end of the turn-over shaft 224, the bottom of the clamping cylinder 23 is fixedly arranged on the turn-over plate 225, when the turn-over assembly 22 works, the turn-over motor 222 drives the turn-over belt 223 to rotate, the turn-over belt 223 drives the turn-over shaft 224 to rotate and adjust on the support plate 221, the turn-over shaft 224 drives the turn-over plate 225 to rotate, the clamping cylinder 23 on the overturning plate 225 also synchronously rotates to complete overturning operation.

The moving assembly 32 includes a moving motor 321, a moving screw 322, an auxiliary moving rod 323 and a moving slide 324, the moving motor 321 is fixedly arranged on one side of the gantry 31, the moving screw rod 322 is rotatably arranged on two sides of the gantry 31, the output end of the moving motor 321 is fixedly connected with one end of the moving screw rod 322, two auxiliary moving rods 323 are arranged, the two auxiliary moving rods 323 are both arranged on the portal frame 31, and two auxiliary moving bars 323 are respectively positioned at both sides of the moving screw 322, the moving slide table 324 is slidably mounted on the moving screw rod 322 and two auxiliary moving rods 323, when the moving assembly 32 works, the moving motor 321 on the gantry 31 works to drive the moving screw rod 322 to rotate, the moving screw rod 322 drives the moving sliding table 324 to move and adjust, and the auxiliary moving rod 323 is used for assisting the moving sliding table 324 to move.

The lifting assembly 33 comprises a lifting cylinder 331, a lifting plate 332, a guide seat 333 and a guide rod 334, the lifting cylinder 331 is fixedly arranged on the movable sliding table 324, the output end of the lifting cylinder 331 is arranged downwards, two guide seats 333 and two guide rods 334 are provided, two guide seats 333 are fixedly arranged on the movable sliding table 324 and are respectively positioned at two sides of the clamping cylinder, two guide rods 334 are respectively arranged on two guide seats 333, two guide rods 334 are respectively in sliding fit with one guide seat 333, one surface of the lifting plate 332 is fixedly disposed on the output end of the lifting cylinder 331 and one end of the two guide rods 334, when the lifting assembly 33 works, the lifting cylinder 331 works to drive the lifting plate 332 to perform lifting adjustment, and the guide seat 333 and the guide rod 334 play a role in assisting lifting.

The adjusting assembly 34 comprises two adjusting bases 341, two adjusting motors 342, an adjusting shaft 343, an adjusting belt 344 and an adjusting plate 345, the two adjusting bases 341 are symmetrically disposed on two sides of the other side of the lifting plate 332, the adjusting motors 342 are fixedly disposed on the lifting plate 332, the adjusting shaft 343 is rotatably mounted on the two adjusting bases 341, the adjusting plate 345 is fixedly disposed at the middle position of the adjusting shaft 343, the adjusting belt 344 is sleeved on the output shaft of the adjusting motors 342 and one end of the adjusting shaft 343, the sander 35 is fixedly disposed on the adjusting bases 341, the sanding end of the sander 35 is disposed downward, when the adjusting assembly 34 works, the adjusting motors 342 on the lifting plate 332 work to drive the adjusting belt 344 to rotate, and the adjusting belt 344 drives the adjusting shaft 343 to rotate on the two adjusting bases 341, the adjusting shaft 343 drives the adjusting plate 345 fixedly connected therewith to be adjusted, and the sander 35 on the adjusting plate 345 is adjusted accordingly.

The second conveying assembly 41 includes a second sliding seat 411, a second conveying motor 412, a second conveying gear 413, and a container 414, the second sliding seat 411 is disposed in the chute 11 of the workbench 1, the second sliding seat 411 is in sliding fit with the chute 11, the second conveying motor 412 is fixedly disposed at one side of the second sliding seat 411, the second conveying gear 413 is fixedly disposed on an output shaft of the second conveying motor 412, the second conveying gear 413 is engaged with the rack seat 12 of the workbench 1, the container 414 is fixedly disposed at the other side of the second sliding seat 411, the container 414 is adjustable to the water leakage port of the workbench 1, a plurality of water leakage holes are disposed on a bottom surface of the container 414, when the second conveying assembly 41 works, the second conveying motor 412 on the second sliding seat 411 works to drive the second conveying gear 413 to rotate, the second conveying gear 413 moves on the rack seat 12 engaged with the second conveying gear, and simultaneously drives the containing box 414 to move to the position above the water leakage port, so that the secondary moving conveying operation is completed.

The spraying assembly 42 comprises a water containing tank 421, a delivery pump 422, a first spraying pipe 423, a second spraying pipe 424, a third spraying pipe 425, a fourth spraying pipe 426 and a spraying head 427, the water containing tank 421 is fixedly arranged on the workbench 1, a water feeding port 428 is arranged on one side of the water containing tank 421, the delivery pump 422 is fixedly arranged at the top of the water containing tank 421, one end of the first spraying pipe 423 is communicated with the inside of the water containing tank 421, the other end of the first spraying pipe 423 is connected with an input end of the delivery pump 422, one end of the second spraying pipe 424 is connected with an output end of the delivery pump 422, the third spraying pipe 425 is transversely arranged at the other end of the second spraying pipe 424, a plurality of fourth spraying pipes 426 and the spraying heads 427 are arranged, the plurality of fourth spraying pipes 426 are arranged on the third spraying pipe 425 at intervals, each fourth spraying pipe 426 is provided with a plurality of spraying heads 427, when the spraying assembly 42 works, the conveying pump 422 works to pump out water in the water containing tank 421 through the first spraying pipe 423, then the water is conveyed into the third spraying pipe 425 through the second spraying pipe 424, then the water is conveyed into the plurality of fourth spraying pipes 426 from the third spraying pipe 425, and finally the water is sprayed out from the plurality of spraying heads 427 on the fourth spraying pipe 426.

Retrieve subassembly 43 including adjusting slide rail 431 and collection box 432, it is equipped with two sets ofly, two sets ofly to adjust slide rail 431 symmetry and set up the both sides at workstation 1 below mouth of a river that leaks, collection box 432 sets up two sets ofly on adjusting slide rail 431, collection box 432 and two sets ofly adjust sliding fit between the slide rail 431, collection box 432 with mouth of a river that leaks on the workstation 1 is linked together, collection box 432's external fixation is provided with handle 433, and collection box 432 will spray the water of cooling and carry out the splendid attire and retrieve, and the setting of handle 433 can be more convenient take out collection box 432.

The working principle of the invention is as follows: when the graphene copper sleeve needs to be polished, the graphene copper sleeve is manually placed into a clamping and conveying mechanism 2 on a workbench 1, a clamping cylinder 23 in the clamping and conveying mechanism 2 clamps and fixes the graphene copper sleeve, then a first conveying assembly 21 works to convey the graphene copper sleeve to a polishing mechanism 3 for polishing operation, a turn-over assembly 22 is arranged to rotate and turn over the graphene copper sleeve during polishing, when the first conveying assembly 21 conveys the graphene copper sleeve to the position of the polishing mechanism 3, a polishing machine 35 in the polishing mechanism 3 performs polishing operation on the graphene copper sleeve, a moving assembly 32 in the polishing mechanism 3 is used for adjusting the position of the polishing machine 35, a lifting assembly 33 is arranged for adjusting the height of the polishing machine 35, an adjusting assembly 34 is arranged for adjusting the angle position of the polishing machine 35, and the adjustment of the polishing machine 35 can be realized through the cooperation of the three components, the polishing effect is better, after the polishing machine 35 finishes polishing the graphene copper sleeve, the spraying and cooling mechanism 4 is used for spraying water for cooling, the polished graphene copper sleeve is manually placed into the second conveying assembly 41, when the graphene copper sleeve contained in the second conveying assembly 41 reaches a certain amount, the second conveying assembly 41 is operated to convey the graphene copper sleeve to a water leakage port on the workbench 1, the spraying assembly 42 is operated to spray water for cooling, the sprayed water flows into the recovery assembly 43 through the water leakage port for recovery treatment, and the graphene copper sleeve is taken out for the next link operation after being cooled, so that the problem that the conventional graphene copper sleeve needs to be manually gripped in the hand for polishing and turn-over in the polishing process is solved through the matching work among the assemblies, and the polishing machine is neither safe nor convenient, and polisher 35 is the unable removal regulation of fixed setting, and the effect and the graphite alkene copper sheathing that lead to the limited influence of the scope of polishing is polished after the completion surface temperature higher, just can carry out operation on next step after long-time cooling, can waste the problem of a large amount of time.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a graphite alkene copper sheathing processing equipment of polishing which characterized in that: comprises a workbench (1), a clamping conveying mechanism (2), a polishing mechanism (3) and a spraying cooling mechanism (4), wherein the workbench (1) is arranged on the ground, a chute (11) is arranged at the middle position of the workbench (1), a rack seat (12) is arranged on the workbench (1) and beside the chute (11), the clamping conveying mechanism (2), the polishing mechanism (3) and the spraying cooling mechanism (4) are sequentially arranged on the workbench (1) from left to right, the clamping conveying mechanism (2) comprises a first conveying assembly (21), a turn-over assembly (22) and a clamping cylinder (23), the first conveying assembly (21) is arranged in the chute (11) on the workbench (1), the turn-over assembly (22) is arranged on the first conveying assembly (21), and the clamping cylinder (23) is arranged on the turn-over assembly (22), grinding machanism (3) includes portal frame (31), removal subassembly (32), lifting unit (33), adjusting part (34) and polisher (35), the both ends of portal frame (31) are fixed to be set up the both sides on workstation (1), removal subassembly (32) set up on portal frame (31), lifting unit (33) set up on removal subassembly (32), adjusting part (34) set up on lifting unit (33), polisher (35) are fixed to be set up on adjusting part (34), spray cooling mechanism (4) include second conveying assembly (41), spray assembly (42) and retrieve subassembly (43), second conveying assembly (41) set up in spout (11) on workstation (1), spray assembly (42) are fixed to be set up on workstation (1), one side of workstation (1) top is equipped with the mouth that leaks, retrieve subassembly (43) and set up on workstation (1) and be located the below of leaking the mouth, retrieve subassembly (43) with sliding fit between workstation (1).

2. The graphene copper bush machining and polishing device according to claim 1, characterized in that: first conveying component (21) includes first sliding seat (211), first conveying motor (212) and first conveying gear (213), first sliding seat (211) set up in spout (11) on workstation (1), sliding fit between first sliding seat (211) and spout (11), first conveying motor (212) are fixed to be set up on first sliding seat (211), first conveying gear (213) are fixed to be set up on the output shaft of first conveying motor (212), first conveying gear (213) with rack seat (12) on workstation (1) mesh mutually.

3. The graphene copper bush machining and polishing device according to claim 2, characterized in that: turn-over subassembly (22) includes backup pad (221), turn-over motor (222), turn-over belt (223), turn-over axle (224) and turn-over board (225), backup pad (221) are vertical fixed setting and are in on first sliding seat (211), turn-over motor (222) is fixed to be set up on first sliding seat (211) and be located the rear side of backup pad (221), turn-over axle (224) rotates to be installed backup pad (221) top, turn-over belt (223) cover is established the output shaft of turn-over motor (222) with on the one end of turn-over axle (224), turn-over board (225) is fixed to be set up on the other end of turn-over axle (224), the bottom of pressing from both sides and getting cylinder (23) is fixed to be set up on turn-over board (225).

4. The graphene copper bush machining and polishing device according to claim 1, characterized in that: remove subassembly (32) including moving motor (321), removal lead screw (322), supplementary carriage release lever (323) and removal slip table (324), moving motor (321) is fixed to be set up on one side of portal frame (31), it installs to move lead screw (322) and rotate both sides on portal frame (31), the output of moving motor (321) with the one end fixed connection who moves lead screw (322), supplementary carriage release lever (323) is equipped with two, two supplementary carriage release lever (323) all sets up on portal frame (31), and two supplementary carriage release lever (323) are located respectively the both sides of moving lead screw (322), remove slip table (324) slidable mounting move on lead screw (322) and two supplementary carriage release levers (323).

5. The graphene copper bush machining and polishing device according to claim 4, characterized in that: lifting unit (33) includes lift cylinder (331), lifter plate (332), guide holder (333) and guide bar (334), lift cylinder (331) is fixed to be set up remove on slip table (324), the output of lift cylinder (331) sets up down, guide holder (333) with guide bar (334) all is equipped with two, two guide holder (333) is all fixed to be set up remove on slip table (324) and be located respectively die clamping cylinder's both sides, two guide bar (334) set up respectively two on guide holder (333), two guide bar (334) respectively with one sliding fit between guide holder (333), the one side of lifter plate (332) is fixed to be set up the output and two of lift cylinder (331) one of guide bar (334) is served.

6. The graphene copper bush machining and polishing device according to claim 5, characterized in that: the adjusting assembly (34) comprises an adjusting seat (341), an adjusting motor (342), an adjusting shaft (343), an adjusting belt (344) and an adjusting plate (345), wherein the adjusting seat (341) is provided with two sides, the adjusting seat (341) is symmetrically arranged on the other side of the lifting plate (332), the adjusting motor (342) is fixedly arranged on the lifting plate (332), the adjusting shaft (343) is rotatably arranged on the two adjusting seats (341), the adjusting plate (345) is fixedly arranged at the middle position on the adjusting shaft (343), the adjusting belt (344) is sleeved on the output shaft of the adjusting motor (342) and one end of the adjusting shaft (343), the grinding machine (35) is fixedly arranged on the adjusting seat (341), and the grinding end of the grinding machine (35) is arranged downwards.

7. The graphene copper bush machining and polishing device according to claim 1, characterized in that: the second conveying assembly (41) comprises a second sliding seat (411), a second conveying motor (412), a second conveying gear (413) and a containing box (414), the second sliding seat (411) is arranged in a sliding groove (11) on the workbench (1), the second sliding seat (411) is in sliding fit with the sliding chute (11), the second conveying motor (412) is fixedly arranged on one side of the second sliding seat (411), the second conveying gear (413) is fixedly arranged on an output shaft of the second conveying motor (412), the second conveying gear (413) is meshed with a rack seat (12) on the workbench (1), the containing box (414) is fixedly arranged at the other side of the second sliding seat (411), the containing box (414) can be adjusted to a water leakage port on the workbench (1), and a plurality of water leakage holes are formed in the bottom surface of the containing box (414).

8. The graphene copper bush machining and polishing device according to claim 7, characterized in that: the spraying assembly (42) comprises a water containing tank (421), a delivery pump (422), a first spraying pipe (423), a second spraying pipe (424), a third spraying pipe (425), a fourth spraying pipe (426) and a spraying head (427), wherein the water containing tank (421) is fixedly arranged on the workbench (1), a water adding port (428) is arranged on one side of the water containing tank (421), the delivery pump (422) is fixedly arranged at the top of the water containing tank (421), one end of the first spraying pipe (423) is communicated with the inside of the water containing tank (421), the other end of the first spraying pipe (423) is connected with the input end of the delivery pump (422), one end of the second spraying pipe (424) is connected with the output end of the delivery pump (422), the third spraying pipe (425) is transversely arranged at the other end of the second spraying pipe (424), and the fourth spraying pipe (426) and the spraying head (427) are respectively provided with a plurality of spraying heads, the plurality of fourth spray pipes (426) are arranged on the third spray pipe (425) at intervals, and each fourth spray pipe (426) is provided with a plurality of spray heads (427).

9. The graphene copper bush machining and polishing device according to claim 8, characterized in that: retrieve subassembly (43) including adjusting slide rail (431) and collection box (432), it is equipped with two sets ofly to adjust slide rail (431), and is two sets of adjust slide rail (431) symmetry setting in the both sides of workstation (1) below mouth of leaking, collection box (432) set up two sets ofly adjust on slide rail (431), collection box (432) and two sets ofly sliding fit between adjusting slide rail (431), collection box (432) with the mouth of leaking on workstation (1) is linked together, the external fixation of collection box (432) is provided with handle (433).

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