CN112643500A

CN112643500A - Batch cutter edging and polishing waxing integrated device

Info

Publication number: CN112643500A
Application number: CN202110006532.6A
Authority: CN
Inventors: 蔡东勇
Original assignee: Ganzhou Ruziniu Culture Communication Co ltd
Current assignee: Yangjiang anjiayuan Hardware Products Co.,Ltd.
Priority date: 2021-01-05
Filing date: 2021-01-05
Publication date: 2021-04-13
Anticipated expiration: 2041-01-05
Also published as: CN112643500B

Abstract

The invention relates to the field of cutter processing, in particular to a batch cutter edging, polishing and waxing integrated device. The technical problem is as follows: provides an integrated device for sharpening, polishing and waxing a batch cutter. The technical scheme is as follows: a batch cutter edging and polishing waxing integrated device comprises a conveying assembly, a clamping assembly, an edging assembly, a waxing assembly, a support table and a control table; the conveying assembly is connected with the clamping assembly; the conveying assembly is connected with the bracket platform; the edging component is connected with the support platform; the waxing component is connected with the bracket platform; the console is connected with the support table. The invention realizes synchronous edging or polishing waxing treatment on the batched cutters, reduces the risk of injury when the cutters are edged manually, can improve the production efficiency of a small-sized cutter generation workshop through the batched treatment, and has simple operation, safety and reliability.

Description

Batch cutter edging and polishing waxing integrated device

Technical Field

The invention relates to the field of cutter processing, in particular to a batch cutter edging, polishing and waxing integrated device.

Background

When the knife is calcined, the iron or steel on the surface is oxidized or has high carbon content and becomes brittle. In colloquial terms, sharpening is to sharpen the steel by abrading away these at the point of the edge, leaving the steel partially exposed.

Small-size cutter produces the workshop when the edging is handled to the cutter, generally beat the cutter to one side and reciprocate to polish on the pivoted stone dish of whetting a knife by the handheld handle of a knife of workman, later wax the processing, but there are a large amount of burrs on the cutting edge surface that has polished, the existence of these burrs can influence the pleasing to the eye of cutting edge, and influence the sharpness of cutter, the manual work is in the edging during operation in addition, there is the hand risk of being rubbed and wounded by the stone dish of whetting a knife, and the manual work can only be polished a cutter once, influence the edging of cutter and the treatment effeciency of waxing.

In summary, there is a need in the market for an automated device that can perform edging and waxing of bulk knives and can perform deburring of the edges of the knives to solve the above-mentioned problems.

Disclosure of Invention

Exist a large amount of burrs unprocessed in order to overcome the cutter after polishing to there is the risk of being rubbed and hurt by the stone disc of whetting a knife in the manual work edging during operation, the lower shortcoming of the treatment effeciency of manual work edging and waxing in addition, technical problem: provides an integrated device for sharpening, polishing and waxing a batch cutter.

The technical scheme is as follows: a batch cutter edging and polishing waxing integrated device comprises a conveying assembly, a clamping assembly, an edging assembly, a waxing assembly, a support table and a control table; the conveying assembly is connected with the clamping assembly; the conveying assembly is connected with the bracket platform; the edging component is connected with the support platform; the waxing component is connected with the bracket platform; the console is connected with the support table.

Preferably, the conveying assembly comprises a first slide rail frame, a second slide rail frame, a first conveying unit, a second conveying unit, an auxiliary motor, a fixed turntable, a first push rod, a second push rod and a connecting rod; the first slide rail frame and the second slide rail frame are fixedly connected with the upper part of the bracket platform respectively; the auxiliary motor is fixedly connected with the top end of the second slide rail frame above the waxing assembly; the fixed turntable is fixedly connected with one side of the auxiliary motor close to the first slide rail frame through a rotating shaft; the first push rod is fixedly connected with the edge of the fixed turntable; the first push rod is in transmission connection with the second push rod through a rotating shaft; the first conveying unit and the second conveying unit are respectively connected with the first sliding rail frame and the second sliding rail frame; the second push rod is rotatably connected with the connecting rod between the first conveying unit and the second conveying unit; two ends of the connecting rod are respectively and rotatably connected with the first conveying unit and the second conveying unit; the first conveying unit and the second conveying unit are respectively connected with the clamping assembly.

Preferably, the first transmission unit comprises a first sliding rod, a second sliding rod, an adapter plate, a bottom plate and a double-spring buckle; the first sliding rod and the second sliding rod are respectively inserted into the first sliding rail frame in a penetrating manner, and are respectively in sliding connection with the first sliding rail frame; a group of adapter plates are fixedly connected to two sides of the first sliding rod respectively; a group of adapter plates is fixedly connected to two sides of the second slide bar respectively; the bottom plate is respectively connected with the adapter plates on two sides of the first slide bar in a rotating manner through a rotating shaft below the first slide rail frame; the bottom plate is respectively connected with the adapter plates on two sides of the second slide bar in a rotating manner through a rotating shaft below the first slide rail frame; each double-spring buckle is respectively connected with the two ends of the bottom plate in a sliding way; the springs on the two sides of the double-spring buckle are fixedly connected with the bottom plate respectively; the double-spring buckles at the two ends of the bottom plate are respectively connected with the clamping assembly.

Preferably, the clamping assembly comprises a first top plate, a second top plate, a cutter clamping plate, a side baffle, an anti-slip pad and a return spring; the inner surfaces of the two sides of the first top plate and the second top plate are respectively provided with a slot; the grooves on the two sides of the first top plate and the second top plate are respectively contacted with the surfaces of the double-spring buckles; three groups of cutter clamping plates are respectively arranged below the first top plate and the second top plate at equal intervals, and the cutter clamping plates are rotatably connected with the first top plate or the second top plate through rotating shafts; a group of side baffles is arranged above the clamping grooves at the two ends of each group of cutter clamping plates; a group of anti-slip pads are respectively arranged on the surfaces of the clamping grooves of each group of cutter clamping plates; four groups of reset springs are arranged at the top end of each group of cutter clamping plates in an array manner; each group of reset springs is fixedly connected with the bottom end of the first top plate or the bottom end of the second top plate respectively.

Preferably, the sharpening assembly comprises a main motor, a first rotating shaft, a first straight gear, a first driving wheel, a second straight gear, a second rotating shaft, a third rotating shaft, a second driving wheel, a shaft sleeve, a knife sharpening stone disc, a limiting plate, a front burr processing unit, a rear burr processing unit, a third driving wheel, a first bevel gear, a fourth rotating shaft and a second bevel gear; the main motor is fixedly connected with the support platform below the waxing assembly; the first rotating shaft is rotatably connected with the support platform on one side of the main motor close to the first slide rail frame; the first rotating shaft is fixedly connected with the main motor; the first straight gear and the first driving wheel are fixedly connected with the first rotating shaft respectively; the second rotating shaft support table is rotatably connected to one side, far away from the control table, of the first rotating shaft; the second straight gear is fixedly connected with the second rotating shaft; the first straight gear is meshed with the second straight gear; the third rotating shaft is fixedly connected with one end of the second rotating shaft, which is far away from the first slide rail frame; the second rotating shaft is rotatably connected with the support table; the second driving wheel is fixedly connected with the second rotating shaft; the second driving wheel is connected with the waxing component; the shaft sleeve is fixedly connected with one side of the second rotating shaft, which is close to the first slide rail frame; four groups of knife sharpening stone discs are fixedly connected on the shaft sleeve at equal intervals; a group of limiting plates are respectively arranged in three gaps of the four groups of knife sharpening stone disks above the shaft sleeve, and each group of limiting plates is respectively and fixedly connected with the support platform; one end, close to the first conveying unit, of each group of limiting plates is designed to be a single inclined plane far away from the main motor; one end, far away from the first transmission unit, of each group of limiting plates is designed to be a single inclined plane close to the main motor; the front burr processing unit is connected with the support platform at one end of the knife sharpening stone disc close to the first conveying unit; the rear burr processing unit is connected with the support platform at one end of the knife sharpening stone disc, which is far away from the first conveying unit; a third driving wheel and a first bevel gear are fixedly connected with the same rotating shaft above the first rotating shaft, and the third driving wheel and the first bevel gear are respectively in rotating connection with the support platform through the rotating shaft; the fourth rotating shaft is rotatably connected with the support table; the second bevel gear is fixedly connected with the fourth rotating shaft; the first bevel gear is meshed with the second bevel gear; and two ends of the fourth rotating shaft are respectively connected with the front burr processing unit and the rear burr processing unit.

Preferably, the front burr processing unit comprises a fifth rotating shaft, a sixth rotating shaft, a seventh rotating shaft, an eighth rotating shaft, a ninth rotating shaft, a tenth rotating shaft, an eleventh rotating shaft, a twelfth rotating shaft, a thirteenth rotating shaft, a fourteenth rotating shaft, a fifteenth rotating shaft and a polishing conveying belt; on two sides of the four groups of knife sharpening stone disks, a fifth rotating shaft and a sixth rotating shaft are respectively in rotating connection with the support platform; the sixth rotating shaft is fixedly connected with the fourth rotating shaft; the seventh rotating shaft and the eighth rotating shaft, the ninth rotating shaft and the tenth rotating shaft, and the eleventh rotating shaft and the twelfth rotating shaft are respectively in rotating connection with the support platform at the non-inclined side of the three groups of limiting plates; the thirteenth rotating shaft is rotatably connected with the support platform above the position between the seventh rotating shaft and the eighth rotating shaft; the fourteenth rotating shaft is rotatably connected with the support platform above the position between the ninth rotating shaft and the tenth rotating shaft; a fifteenth rotating shaft is rotatably connected with the support platform above the position between the eleventh rotating shaft and the twelfth rotating shaft; the fifth rotating shaft, the sixth rotating shaft, the thirteenth rotating shaft, the fourteenth rotating shaft and the fifteenth rotating shaft are respectively in transmission connection with the inner surface of the polishing conveying belt; the seventh rotating shaft, the eighth rotating shaft, the ninth rotating shaft, the tenth rotating shaft, the eleventh rotating shaft and the twelfth rotating shaft are respectively in transmission connection with the outer surface of the polishing conveying belt.

Preferably, the outer surface of the sanding conveyor belt is a sanded surface design.

Preferably, the waxing component comprises a sixteenth rotating shaft, a fourth driving wheel, a first rotating disc, a second rotating disc, a third rotating disc, a fourth rotating disc, a polishing silk disc, a ring-mounted sponge wiper and a waxing machine; a sixteenth rotating shaft is rotatably connected with the support platform above the third rotating shaft; the fourth driving wheel is fixedly connected with the sixteenth rotating shaft; the first rotating disc, the second rotating disc, the third rotating disc and the fourth rotating disc are fixedly connected with the sixteenth rotating shaft in sequence; a group of polishing wire discs are arranged on one side of the first rotary disc, which is close to the second rotary disc; a group of ring-mounted sponge wipers are arranged on one side of the first rotating disc, which is close to the second rotating disc, around the outer side of the polishing wire disc on the first rotating disc; a group of polishing wire discs are respectively arranged on two sides of the second turntable; a group of annularly-arranged sponge wipers are respectively arranged around the polishing wire discs on the two sides of the second turntable; a group of polishing wire discs are respectively arranged on two sides of the third turntable; a group of annularly-arranged sponge wipers are respectively arranged around the polishing wire discs on the two sides of the third turntable; a group of polishing wire discs are arranged on one side of the fourth rotary disc, which is close to the third rotary disc; a group of annularly-arranged sponge wipers is arranged on one side of the fourth rotary table close to the third rotary table and surrounds the outer side of the polishing wire disc on the fourth rotary table; and a group of waxing machines are respectively arranged on one sides of the second turntable, the third turntable and the fourth turntable, which are close to the console, and the waxing spray head of each group of waxing machine faces the direction of the fourth driving wheel.

The invention has the beneficial effects that: firstly, in order to overcome the defects that a large amount of burrs are left untreated after the cutter is ground, the risk of being scratched by a grinding stone disc exists during manual sharpening, and in addition, the processing efficiency of manual sharpening and waxing is low;

the device of the invention is provided with: when in use, the device is firstly placed and kept stable, the power supply is externally connected, the device is debugged through the control console, then hanging three cutters to be processed in an edging unit of the clamping assembly, driving the cutters in the clamping assembly to the edging assembly by the conveying assembly for edging, then hanging the three cutters edged in the edging unit in a waxing unit of the clamping assembly, hanging the other three cutters to be edged in the edging unit, respectively carrying the cutters in the clamping assembly to the edging assembly and the waxing assembly by the conveying assembly for edging or polishing and waxing, finally taking down the three cutters which are waxed in the waxing unit, hanging three cutters after edging in the edging unit into a clamping component waxing unit, hanging the other three cutters to be edged into the edging unit, and repeatedly edging and polishing the batch of cutters;

the method and the device realize synchronous edging or polishing and waxing treatment on the batch of cutters, reduce the risk of injury when the cutters are edged manually, improve the production efficiency of a small-sized cutter generation workshop through batch treatment, and have the advantages of simple operation, safety and reliability.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

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

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a perspective view of the transfer assembly of the present invention;

FIG. 5 is a perspective view of a transfer unit according to the present invention;

FIG. 6 is a schematic view of a dual spring buckle according to the present invention;

FIG. 7 is a schematic perspective view of a first embodiment of the clamping assembly of the present invention;

FIG. 8 is a second structural view of the clamping assembly of the present invention;

FIG. 9 is a partial perspective view of the clamping assembly of the present invention;

figure 10 is a schematic view of a first perspective view of the sharpening assembly of the invention;

figure 11 is a schematic view of a second perspective view of the sharpening assembly of the invention;

FIG. 12 is a schematic perspective view of a burr processing unit according to the present invention;

FIG. 13 is a perspective view of the waxing assembly of the present invention;

fig. 14 is a partial perspective view of the waxing assembly of the present invention.

Description of reference numerals: 1_ conveying assembly, 2_ clamping assembly, 3_ sharpening assembly, 4_ waxing assembly, 5_ holder table, 6_ console table, 101_ first slide rail frame, 102_ second slide rail frame, 103_ first conveying unit, 104_ second conveying unit, 105_ secondary motor, 106_ fixed turntable, 107_ first push rod, 108_ second push rod, 109_ connecting rod, 10301_ first slide rod, 10302_ second slide rod, 10303_ adapter plate, 10304_ bottom plate, 10305_ double spring catch, 201_ first top plate, 202_ second top plate, 203_ cutter catch plate, 204_ side shield, 205_ anti-slip pad, 206_ return spring, 301_ main motor, 302_ first rotating shaft, 303_ first straight gear, 304_ first driving wheel, 305_ second straight gear, 306_ second rotating shaft, 307_ third rotating shaft, 308_ second driving wheel, 309_ shaft sleeve, 310_ sharpening stone plate, 310_ limit plate, 312_ front burr processing unit, 313_ rear burr processing unit, 314_ third transmission wheel, 315_ first bevel gear, 316_ fourth rotating shaft, 317_ second bevel gear, 31201_ fifth rotating shaft, 31202_ sixth rotating shaft, 31203_ seventh rotating shaft, 31204_ eighth rotating shaft, 31205_ ninth rotating shaft, 31206_ tenth rotating shaft, 31207_ eleventh rotating shaft, 31208_ twelfth rotating shaft, 31209_ thirteenth rotating shaft, 31210_ fourteenth rotating shaft, 31211_ fifteenth rotating shaft, 31212_ sanding belt, 401_ sixteenth rotating shaft, 402_ fourth transmission wheel, 403_ first rotating disc, 404_ second rotating disc, 405_ third rotating disc, 406_ fourth rotating disc, 407_ polishing wire disc, 408_ ring-mounted sponge, 409_ waxing machine.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

An integrated device for sharpening, polishing and waxing of a batch cutter is shown in figures 1-14 and comprises a conveying assembly 1, a clamping assembly 2, a sharpening assembly 3, a waxing assembly 4, a support table 5 and a control table 6; the conveying component 1 is connected with the clamping component 2; the conveying assembly 1 is connected with the bracket table 5; the sharpening component 3 is connected with the support stand 5; the waxing component 4 is connected with the bracket platform 5; the console 6 is connected with the stand table 5.

The working principle is as follows: when the device is used, the device is placed and kept stable on a support table 5, a power supply is connected externally, the device is debugged through a control console 6, then three cutters to be processed are hung in an edging unit of a clamping component 2, the cutters in the clamping component 2 are driven to the edging component 3 by a conveying component 1 for edging, then the three cutters after edging in the edging unit are hung in a waxing unit of the clamping component 2, the other three cutters to be edged are hung in the edging unit, the cutters in the clamping component 2 are respectively driven to the edging unit 3 and the waxing unit 4 by the conveying component 1 for edging or polishing waxing, finally the three cutters after waxing in the waxing unit are taken down, the three cutters after edging in the edging unit are hung in the waxing unit of the clamping component 2, and the other three cutters to be edged are hung in the edging unit, thus, the batch of cutters are repeatedly subjected to edging, polishing and waxing treatment; the invention realizes synchronous edging or polishing waxing treatment on the batched cutters, reduces the risk of injury when the cutters are edged manually, can improve the production efficiency of a small-sized cutter generation workshop through the batched treatment, and has simple operation, safety and reliability.

The conveying assembly 1 comprises a first slide rail frame 101, a second slide rail frame 102, a first conveying unit 103, a second conveying unit 104, an auxiliary motor 105, a fixed turntable 106, a first push rod 107, a second push rod 108 and a connecting rod 109; the first slide rail frame 101 and the second slide rail frame 102 are fixedly connected with the upper part of the support platform 5 respectively; above the waxing component 4, the auxiliary motor 105 is fixedly connected with the top end of the second slide rail frame 102; the fixed turntable 106 is fixedly connected with one side of the auxiliary motor 105 close to the first slide rail frame 101 through a rotating shaft; the first push rod 107 is fixedly connected with the edge of the fixed turntable 106; the first push rod 107 is in transmission connection with the second push rod 108 through a rotating shaft; the first transfer unit 103 and the second transfer unit 104 are connected to the first carriage 101 and the second carriage 102, respectively; between the first transfer unit 103 and the second transfer unit 104, the second push rod 108 is rotatably connected to the connecting rod 109; two ends of the connecting rod 109 are respectively connected with the first conveying unit 103 and the second conveying unit 104 in a rotating way; the first transfer unit 103 and the second transfer unit 104 are connected to the gripper assembly 2, respectively.

Firstly, the auxiliary motor 105 drives the fixed turntable 106 to rotate through the rotating shaft, and the fixed turntable 106 drives the first push rod 107 to rotate around the axis of the fixed turntable 106; the first push rod 107 drives the second push rod 108 to reciprocate through the rotating shaft, the second push rod 108 respectively drives the first transmission unit 103 and the second transmission unit 104 to reciprocate along the slide rails in the first slide rail frame 101 and the second slide rail frame 102 through the connecting rod 109, and the first transmission unit 103 and the second transmission unit 104 respectively drive the cutter in the clamping assembly 2 to the edging assembly 3 and the waxing assembly 4 to carry out edging or polishing waxing treatment; the assembly completes the sharpening or polishing and waxing process of the cutter conveyed to the sharpening assembly 3 and the waxing assembly 4 respectively.

The first transmission unit 103 comprises a first slide bar 10301, a second slide bar 10302, an adapter plate 10303, a bottom plate 10304 and a double-spring buckle 10305; the first slide bar 10301 and the second slide bar 10302 are respectively inserted into the first slide rail frame 101, and the first slide bar 10301 and the second slide bar 10302 are respectively connected with the first slide rail frame 101 in a sliding manner; a group of adapter plates 10303 are fixedly connected to two sides of the first slide bar 10301; a group of adapter plates 10303 are fixedly connected to two sides of the second slide bar 10302; below the first slide rail frame 101, the bottom plate 10304 is respectively connected with the adapter plates 10303 on both sides of the first slide bar 10301 through a rotating shaft in a rotating manner; under the first slide rail frame 101, the bottom plate 10304 is respectively connected with the adapter plates 10303 on two sides of the second slide bar 10302 through rotating shafts in a rotating way; each group of double-spring buckles 10305 is respectively connected with the two ends of the bottom plate 10304 in a sliding way; the springs on the two sides of the double-spring buckle 10305 are fixedly connected with the bottom plate 10304 respectively; the double-spring buckles 10305 at the two ends of the bottom plate 10304 are respectively connected with the clamping component 2.

The first conveying unit 103 and the second conveying unit 104 convey the clamping assembly 2 in the same manner, first, the clamping assembly 2 with the tool is manually pushed up along two sides of the bottom plate 10304, then the double-spring buckles 10305 on two sides of the bottom plate 10304 are buckled into the grooves in the clamping assembly 2, so that the bottom plate 10304 firmly fixes the clamping assembly 2, then the auxiliary motor 105 starts to work, and the second push rod 108 drives the bottom plate 10304 and the parts connected with the bottom plate 10304 to reciprocate through the connecting rod 109, so that the tool in the clamping assembly 2 enters the sharpening assembly 3 to perform sharpening.

The clamping assembly 2 comprises a first top plate 201, a second top plate 202, a cutter clamping plate 203, a side baffle 204, a non-slip mat 205 and a return spring 206; the inner surfaces of the two sides of the first top plate 201 and the second top plate 202 are respectively provided with a slot; the grooves on the two sides of the first top plate 201 and the second top plate 202 are respectively contacted with the surface of the double-spring fastener 10305; three groups of cutter clamping plates 203 are respectively arranged below the first top plate 201 and the second top plate 202 at equal intervals, and the cutter clamping plates 203 are rotatably connected with the first top plate 201 or the second top plate 202 through rotating shafts; a group of side baffles 204 are respectively arranged above the clamping grooves at the two ends of each group of cutter clamping plates 203; a group of anti-slip pads 205 are arranged on the surface of each clamping groove of each group of cutter clamping plates 203; four groups of reset springs 206 are arranged at the top end of each group of cutter clamping plates 203 in an array manner; each group of return springs 206 is fixedly connected with the bottom end of the first top plate 201 or the second top plate 202.

Firstly, respectively and manually buckling the tool shanks of three tools to be edged into anti-slip pads 205 of three groups of tool clamping plates 203 below a first top plate 201, wherein side baffle plates 204 at two sides of the tool clamping plates 203 can limit the tools to slide forwards and backwards, then respectively buckling the tool shanks of the three tools to be edged into anti-slip pads 205 of three groups of tool clamping plates 203 below a second top plate 202, then manually buckling the first top plate 201 and the second top plate 202 into bottom plates 10304 in a first conveying unit 103 and a second conveying unit 104, then conveying the three tools below the first top plate 201 to polishing and waxing work by a conveying assembly 1, then manually taking the second top plate 202 out of the second conveying unit 104, taking the three tools which are waxed below the second top plate 202 out, then taking the first top plate 201 out of the first conveying unit 103 and buckling the first top plate into the second conveying unit 104, finally, the tool shanks of the other three tools to be edged are buckled in the anti-slip pads 205 in the three groups of tool clamping plates 203 below the second top plate 202, and the next group of tool edging or polishing waxing treatment is repeatedly carried out according to the steps; the assembly completes the fastening of the tool.

The sharpening assembly 3 comprises a main motor 301, a first rotating shaft 302, a first straight gear 303, a first driving wheel 304, a second straight gear 305, a second rotating shaft 306, a third rotating shaft 307, a second driving wheel 308, a shaft sleeve 309, a knife sharpening stone disk 310, a limiting plate 311, a front burr processing unit 312, a rear burr processing unit 313, a third driving wheel 314, a first bevel gear 315, a fourth rotating shaft 316 and a second bevel gear 317; under the waxing component 4, a main motor 301 is fixedly connected with a support platform 5; on one side of the main motor 301 close to the first slide rail frame 101, a first rotating shaft 302 is rotatably connected with the support stand 5; the first rotating shaft 302 is fixedly connected with the main motor 301; the first straight gear 303 and the first driving wheel 304 are fixedly connected with the first rotating shaft 302 respectively; the second rotating shaft 306 is rotatably connected with the support table 5 at the side of the first rotating shaft 302 far away from the control table 6; the second spur gear 305 is fixedly connected with the second rotating shaft 306; the first spur gear 303 is meshed with the second spur gear 305; the third rotating shaft 307 is fixedly connected with one end of the second rotating shaft 306 far away from the first slide rail frame 101; the second rotating shaft 306 is rotatably connected with the support table 5; the second driving wheel 308 is fixedly connected with the second rotating shaft 306; the second driving wheel 308 is connected with the waxing component 4; the shaft sleeve 309 is fixedly connected with one side of the second rotating shaft 306 close to the first slide rail frame 101; four groups of knife sharpening stone discs 310 are fixedly connected on the shaft sleeve 309 at equal intervals; a group of limiting plates 311 are respectively arranged in three gaps of the four groups of knife sharpening stone discs 310 above the shaft sleeve 309, and each group of limiting plates 311 are respectively and fixedly connected with the support table 5; one end of each group of limiting plates 311 close to the first conveying unit 103 is designed to be a single inclined plane far away from the main motor 301; one end of each group of limiting plates 311 far away from the first conveying unit 103 is designed to be a single inclined plane close to the main motor 301; the front burr processing unit 312 is connected with the support table 5 at one end of the knife sharpening stone disc 310 close to the first conveying unit 103; the rear burr processing unit 313 is connected with the support table 5 at one end of the whetstone disk 310 away from the first conveying unit 103; above the first rotating shaft 302, a third driving wheel 314 and a first bevel gear 315 are fixedly connected with the same rotating shaft, and the third driving wheel 314 and the first bevel gear 315 are respectively in rotating connection with the support table 5 through the rotating shaft; the fourth rotating shaft 316 is rotatably connected with the support table 5; the second bevel gear 317 is fixedly connected with the fourth rotating shaft 316; the first bevel gear 315 is meshed with the second bevel gear 317; both ends of the fourth rotating shaft 316 are connected to the front burr processing unit 312 and the rear burr processing unit 313, respectively.

Firstly, the main motor 301 drives the first spur gear 303 and the first driving wheel 304 to rotate respectively through the first rotating shaft 302, the first spur gear 303 engages with the second spur gear 305 to drive the second rotating shaft 306 to rotate, the second rotating shaft 306 drives the third rotating shaft 307 and the shaft sleeve 309 to rotate respectively, the third rotating shaft 307 drives the second driving wheel 308 to rotate, simultaneously the shaft sleeve 309 drives four groups of whetstone discs 310 to rotate, simultaneously the first driving wheel 304 drives the third driving wheel 314 to rotate through a belt, the third driving wheel 314 drives the first bevel gear 315 to rotate through a rotating shaft, the first bevel gear 315 engages with the second bevel gear 317 to drive the fourth rotating shaft 316 to rotate, the fourth rotating shaft 316 drives the front burr processing unit 312 and the rear burr processing unit 313 to carry out transmission work respectively, then the first transmission unit 103 transmits the cutter to carry out edging processing, when the cutter head of the cutter contacts with the inclined plane of the limiting plate 311 close to one end of, the inclined plane of the limiting plate 311 pushes the cutter to drive the cutter clamping plate 203 to rotate around the rotating shaft at the top end of the cutter clamping plate 203 in a small range, meanwhile, two groups of reset springs 206 at the top end of the cutter clamping plate 203 far away from the waxing component 4 are compressed, meanwhile, two groups of reset springs 206 at the top end of the cutter clamping plate 203 near one side of the waxing component 4 are stretched, so that the cutting edge of the cutter is contacted with the sharpening stone disk 310 in a vertical inclined state, the sharpening treatment of the cutting edge of the cutter far away from the waxing component 4 by the sharpening stone disk 310 is realized, then, the cutter is transmitted to the rear burr treatment unit 313 by the first transmission unit 103, the cutting edge of the cutter far away from the waxing component 4 is processed by the rear burr treatment unit 313, then, the cutter is transmitted to the limiting plate 311 by the first transmission unit 103, meanwhile, the four groups of reset springs 206 at two sides of the top end of the cutter, when the tool bit of the tool contacts the inclined plane at one end of the limiting plate 311, which is far away from the first conveying unit 103, the inclined plane of the limiting plate 311 pushes the tool to drive the tool clamping plate 203 to rotate around the rotating shaft at the top end of the tool clamping plate 203 by a small amplitude, meanwhile, two groups of reset springs 206 at one side, which is near to the waxing component 4, of the top end of the tool clamping plate 203 are compressed, meanwhile, two groups of reset springs 206 at one side, which are far away from the waxing component 4, of the top end of the tool clamping plate 203 are stretched, so that the cutting edge of the tool is in contact with the whetstone disk 310 in a vertically inclined state, the whetstone disk 310 performs edging treatment on the cutting edge, which is near to the waxing component 4, then the first conveying unit 103 conveys the tool to the front burr treatment unit; the assembly completes the sharpening and burr treatment of the cutting edge of the cutter.

The front burr processing unit 312 includes a fifth rotating shaft 31201, a sixth rotating shaft 31202, a seventh rotating shaft 31203, an eighth rotating shaft 31204, a ninth rotating shaft 31205, a tenth rotating shaft 31206, an eleventh rotating shaft 31207, a twelfth rotating shaft 31208, a thirteenth rotating shaft 31209, a fourteenth rotating shaft 31210, a fifteenth rotating shaft 31211, and a sanding belt 31212; on two sides of the four groups of knife sharpening stone discs 310, a fifth rotating shaft 31201 and a sixth rotating shaft 31202 are respectively in rotating connection with the support table 5; the sixth rotating shaft 31202 is fixedly connected with the fourth rotating shaft 316; the seventh rotating shaft 31203 and the eighth rotating shaft 31204, the ninth rotating shaft 31205 and the tenth rotating shaft 31206, the eleventh rotating shaft 31207 and the twelfth rotating shaft 31208 are respectively rotatably connected with the rack table 5 at the non-inclined side of the three groups of limiting plates 311; above between the seventh rotating shaft 31203 and the eighth rotating shaft 31204, the thirteenth rotating shaft 31209 is rotatably connected to the support table 5; above between the ninth rotating shaft 31205 and the tenth rotating shaft 31206, the fourteenth rotating shaft 31210 is rotatably connected with the support table 5; above between the eleventh rotating shaft 31207 and the twelfth rotating shaft 31208, the fifteenth rotating shaft 31211 is rotatably connected with the support stand 5; the fifth rotating shaft 31201, the sixth rotating shaft 31202, the thirteenth rotating shaft 31209, the fourteenth rotating shaft 31210 and the fifteenth rotating shaft 31211 are respectively in transmission connection with the inner surface of the grinding conveyor 31212; the seventh rotating shaft 31203, the eighth rotating shaft 31204, the ninth rotating shaft 31205, the tenth rotating shaft 31206, the eleventh rotating shaft 31207 and the twelfth rotating shaft 31208 are respectively in transmission connection with the outer surface of the grinding conveyor 31212.

Firstly, the fourth rotating shaft 316 drives the sixth rotating shaft 31202 to rotate, the sixth rotating shaft 31202 drives the fifth rotating shaft 31201, the seventh rotating shaft 31203, the eighth rotating shaft 31204, the ninth rotating shaft 31205, the tenth rotating shaft 31206, the eleventh rotating shaft 31207, the twelfth rotating shaft 31208, the thirteenth rotating shaft 31209, the fourteenth rotating shaft 31210 and the fifteenth rotating shaft 31211 to rotate through the grinding conveyor 31212, so that the front burr processing unit 312 and the rear burr processing unit 313 perform burr processing on both sides of the blade respectively according to the same operation principle.

The outer surface of the sanding belt 31212 is a sanded surface design.

The burr on the blade can be scraped off by the sanding transfer.

The waxing component 4 comprises a sixteenth rotating shaft 401, a fourth driving wheel 402, a first rotating disc 403, a second rotating disc 404, a third rotating disc 405, a fourth rotating disc 406, a polishing silk disc 407, a ring-mounted sponge eraser 408 and a waxing machine 409; above the third rotating shaft 307, the sixteenth rotating shaft 401 is rotatably connected with the support stand 5; the fourth driving wheel 402 is fixedly connected with the sixteenth rotating shaft 401; the first turntable 403, the second turntable 404, the third turntable 405 and the fourth turntable 406 are fixedly connected with the sixteenth rotating shaft 401 in sequence; a group of polishing wire discs 407 are arranged on one side of the first rotary disc 403 close to the second rotary disc 404; a group of annular sponge wipers 408 are arranged on one side of the first rotary disc 403 close to the second rotary disc 404 around the outer side of the polishing wire disc 407 on the first rotary disc 403; a group of polishing wire discs 407 are respectively arranged on two sides of the second turntable 404; a group of annularly-arranged sponge wipers 408 are respectively arranged around the polishing wire discs 407 on the two sides of the second turntable 404; a group of polishing wire discs 407 are respectively arranged on two sides of the third turntable 405; a group of annularly-arranged sponge wipers 408 are respectively arranged around the polishing wire discs 407 on the two sides of the third turntable 405; a group of polishing wire discs 407 are arranged on one side of the fourth turntable 406 close to the third turntable 405; a group of annular sponge wipers 408 are arranged on one side of the fourth rotating disc 406 close to the third rotating disc 405 around the outer side of the polishing wire disc 407 on the fourth rotating disc 406; a group of waxing machines 409 are respectively arranged on one sides of the second turntable 404, the third turntable 405 and the fourth turntable 406 close to the console 6, and a waxing nozzle of each group of waxing machines 409 faces the direction of the fourth driving wheel 402.

Firstly, the second driving wheel 308 drives the sixteenth rotating shaft 401 to respectively drive the first rotating disc 403, the second rotating disc 404, the third rotating disc 405 and the fourth rotating disc 406 to rotate through a belt, then the second conveying unit 104 conveys the cutter to carry out polishing and waxing treatment, when the cutter passes through the waxing machine 409, a waxing sprayer of the waxing machine 409 sprays a piece of wax glue on the surface of the cutter, then the second conveying unit 104 conveys the cutter to be in contact with the rotary polishing silk disc 407 and the ring-mounted sponge eraser 408, the ring-mounted sponge eraser 408 evenly smears the wax glue on the surface of the cutter, and meanwhile, the polishing silk disc 407 carries out wax glue polishing treatment on the cutter; this subassembly has accomplished to wax the processing work to the cutter.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. A batch cutter edging and polishing waxing integrated device comprises a support table (5) and a control table (6), and is characterized by comprising a conveying assembly (1), a clamping assembly (2), an edging assembly (3) and a waxing assembly (4); the conveying assembly (1) is connected with the clamping assembly (2); the conveying assembly (1) is connected with the support table (5); the edging component (3) is connected with the support platform (5); the waxing component (4) is connected with the support table (5); the console (6) is connected with the support table (5).

2. The integrated device for batch cutter edging and polishing waxing according to claim 1, wherein the transmission assembly (1) comprises a first slide rail frame (101), a second slide rail frame (102), a first transmission unit (103), a second transmission unit (104), a secondary motor (105), a fixed turntable (106), a first push rod (107), a second push rod (108) and a connecting rod (109); the first slide rail frame (101) and the second slide rail frame (102) are fixedly connected with the upper part of the support platform (5) respectively; an auxiliary motor (105) is fixedly connected with the top end of the second slide rail frame (102) above the waxing assembly (4); the fixed turntable (106) is fixedly connected with one side of the auxiliary motor (105) close to the first slide rail frame (101) through a rotating shaft; the first push rod (107) is fixedly connected with the edge of the fixed turntable (106); the first push rod (107) is in transmission connection with the second push rod (108) through a rotating shaft; the first conveying unit (103) and the second conveying unit (104) are respectively connected with the first slide rail frame (101) and the second slide rail frame (102); between the first transfer unit (103) and the second transfer unit (104), a second push rod (108) is rotatably connected with a connecting rod (109); two ends of the connecting rod (109) are respectively connected with the first conveying unit (103) and the second conveying unit (104) in a rotating manner; the first conveying unit (103) and the second conveying unit (104) are respectively connected with the clamping assembly (2).

3. The integrated device for batch cutter edging and polishing waxing according to claim 2, wherein the first transmission unit (103) comprises a first slide bar (10301), a second slide bar (10302), an adapter plate (10303), a bottom plate (10304) and a double-spring buckle (10305); a first slide bar (10301) and a second slide bar (10302) are respectively inserted into the first slide rail frame (101), and the first slide bar (10301) and the second slide bar (10302) are respectively in sliding connection with the first slide rail frame (101); a group of adapter plates (10303) are fixedly connected to two sides of the first slide bar (10301); a group of adapter plates (10303) are fixedly connected to two sides of the second slide bar (10302); under the first slide rail frame (101), a bottom plate (10304) is respectively connected with adapter plates (10303) at two sides of a first slide bar (10301) in a rotating way through a rotating shaft; under the first slide rail frame (101), a bottom plate (10304) is respectively connected with adapter plates (10303) on two sides of a second slide bar (10302) in a rotating way through a rotating shaft; each double-spring buckle (10305) is respectively connected with the two ends of the bottom plate (10304) in a sliding way; the springs on the two sides of the double-spring buckle (10305) are fixedly connected with the bottom plate (10304) respectively; the double-spring buckles (10305) at the two ends of the bottom plate (10304) are respectively connected with the clamping component (2).

4. The integrated device for batch cutter edging and polishing waxing according to claim 3, wherein the clamping assembly (2) comprises a first top plate (201), a second top plate (202), a cutter clamping plate (203), a side baffle plate (204), a non-slip pad (205) and a return spring (206); the inner surfaces of two sides of the first top plate (201) and the second top plate (202) are respectively provided with a slot; the grooves on the two sides of the first top plate (201) and the second top plate (202) are respectively contacted with the surfaces of the double-spring buckles (10305); three groups of cutter clamping plates (203) are respectively arranged below the first top plate (201) and the second top plate (202) at equal intervals, and the cutter clamping plates (203) are rotatably connected with the first top plate (201) or the second top plate (202) through rotating shafts; a group of side baffles (204) are respectively arranged above the clamping grooves at the two ends of each group of cutter clamping plates (203); a group of anti-slip pads (205) are respectively arranged on the surface of the clamping groove of each group of cutter clamping plates (203); four groups of reset springs (206) are arranged at the top end of each group of cutter clamping plates (203) in an array manner; each group of return springs (206) is fixedly connected with the bottom end of the first top plate (201) or the second top plate (202) respectively.

5. The integrated device for batch cutter edging and polishing waxing according to claim 4, characterized in that the edging assembly (3) comprises a main motor (301), a first rotating shaft (302), a first straight gear (303), a first driving wheel (304), a second straight gear (305), a second rotating shaft (306), a third rotating shaft (307), a second driving wheel (308), a shaft sleeve (309), a sharpening stone disc (310), a limiting plate (311), a front burr processing unit (312), a rear burr processing unit (313), a third driving wheel (314), a first bevel gear (315), a fourth rotating shaft (316) and a second bevel gear (317); under the waxing component (4), a main motor (301) is fixedly connected with a support platform (5); the first rotating shaft (302) is rotatably connected with the support table (5) on one side of the main motor (301) close to the first slide rail frame (101); the first rotating shaft (302) is fixedly connected with the main motor (301); the first straight gear (303) and the first driving wheel (304) are fixedly connected with the first rotating shaft (302) respectively; the side, far away from the control console (6), of the first rotating shaft (302) is rotatably connected with the support platform (5) of the second rotating shaft (306); the second straight gear (305) is fixedly connected with the second rotating shaft (306); the first straight gear (303) is meshed with the second straight gear (305); the third rotating shaft (307) is fixedly connected with one end of the second rotating shaft (306) far away from the first slide rail frame (101); the second rotating shaft (306) is rotatably connected with the support table (5); the second driving wheel (308) is fixedly connected with the second rotating shaft (306); the second driving wheel (308) is connected with the waxing component (4); the shaft sleeve (309) is fixedly connected with one side of the second rotating shaft (306) close to the first slide rail frame (101); four groups of knife sharpening stone discs (310) are fixedly connected with the shaft sleeve (309) at equal intervals; a group of limiting plates (311) are respectively arranged in three gaps of the four groups of knife sharpening stone disks (310) above the shaft sleeve (309), and each group of limiting plates (311) is respectively and fixedly connected with the support platform (5); one end of each group of limiting plates (311) close to the first conveying unit (103) is designed to be a single inclined plane far away from the main motor (301); one end of each group of limiting plates (311) far away from the first conveying unit (103) is designed to be a single inclined plane close to the main motor (301); the front burr processing unit (312) is connected with the support platform (5) at one end of the knife sharpening stone disc (310) close to the first conveying unit (103); the rear burr processing unit (313) is connected with the support table (5) at one end, far away from the first conveying unit (103), of the knife sharpening stone disc (310); above the first rotating shaft (302), a third driving wheel (314) and a first bevel gear (315) are fixedly connected with the same rotating shaft, and the third driving wheel (314) and the first bevel gear (315) are respectively in rotating connection with the support table (5) through the rotating shaft; the fourth rotating shaft (316) is rotatably connected with the support table (5); the second bevel gear (317) is fixedly connected with the fourth rotating shaft (316); the first bevel gear (315) is meshed with the second bevel gear (317); two ends of the fourth rotating shaft (316) are respectively connected with the front burr processing unit (312) and the rear burr processing unit (313).

6. The integrated batch cutter edging and polishing waxing device according to claim 5, wherein the front burr treatment unit (312) comprises a fifth rotating shaft (31201), a sixth rotating shaft (31202), a seventh rotating shaft (31203), an eighth rotating shaft (31204), a ninth rotating shaft (31205), a tenth rotating shaft (31206), an eleventh rotating shaft (31207), a twelfth rotating shaft (31208), a thirteenth rotating shaft (31209), a fourteenth rotating shaft (31210), a fifteenth rotating shaft (31211) and a sanding conveyor belt (31212); on two sides of the four groups of knife sharpening stone disks (310), a fifth rotating shaft (31201) and a sixth rotating shaft (31202) are respectively in rotating connection with the support table (5); the sixth rotating shaft (31202) is fixedly connected with the fourth rotating shaft (316); the seventh rotating shaft (31203), the eighth rotating shaft (31204), the ninth rotating shaft (31205), the tenth rotating shaft (31206), the eleventh rotating shaft (31207) and the twelfth rotating shaft (31208) are respectively in rotating connection with the support table (5) at the non-inclined side of the three groups of limiting plates (311); the thirteenth rotating shaft (31209) is rotatably connected with the support table (5) above between the seventh rotating shaft (31203) and the eighth rotating shaft (31204); the fourteenth rotating shaft (31210) is rotatably connected with the support table (5) above between the ninth rotating shaft (31205) and the tenth rotating shaft (31206); a fifteenth rotating shaft (31211) is rotatably connected with the support table (5) above the eleventh rotating shaft (31207) and the twelfth rotating shaft (31208); the fifth rotating shaft (31201), the sixth rotating shaft (31202), the thirteenth rotating shaft (31209), the fourteenth rotating shaft (31210) and the fifteenth rotating shaft (31211) are respectively in transmission connection with the inner surface of the grinding conveyor belt (31212); the seventh rotating shaft (31203), the eighth rotating shaft (31204), the ninth rotating shaft (31205), the tenth rotating shaft (31206), the eleventh rotating shaft (31207) and the twelfth rotating shaft (31208) are respectively in transmission connection with the outer surface of the grinding conveyor belt (31212).

7. The integrated batch knife sharpening and polishing waxing device according to claim 6, characterized in that the outer surface of the sanding conveyor belt (31212) is of a frosted surface design.

8. The integrated device for batch cutter sharpening and polishing and waxing as claimed in claim 7, wherein the waxing assembly (4) comprises a sixteenth rotating shaft (401), a fourth driving wheel (402), a first rotating disc (403), a second rotating disc (404), a third rotating disc (405), a fourth rotating disc (406), a polishing silk disc (407), a ring-mounted sponge wiper (408) and a waxing machine (409); a sixteenth rotating shaft (401) is rotatably connected with the support table (5) above the third rotating shaft (307); the fourth driving wheel (402) is fixedly connected with the sixteenth rotating shaft (401); the first rotating disc (403), the second rotating disc (404), the third rotating disc (405) and the fourth rotating disc (406) are fixedly connected with the sixteenth rotating shaft (401) in sequence; a group of polishing wire discs (407) are arranged on one side of the first rotary disc (403) close to the second rotary disc (404); a group of annularly-arranged sponge wipers (408) is arranged on one side of the first rotary disc (403) close to the second rotary disc (404) around the outer side of the polishing wire disc (407) on the first rotary disc (403); a group of polishing wire discs (407) are respectively arranged on two sides of the second turntable (404); polishing wire discs (407) surrounding the two sides of the second turntable (404) are respectively provided with a group of ring-mounted sponge wipers (408); a group of polishing wire discs (407) are respectively arranged on two sides of the third turntable (405); polishing silk discs (407) surrounding the two sides of the third rotating disc (405) are respectively provided with a group of ring-mounted sponge wipers (408); a group of polishing wire discs (407) are arranged on one side of the fourth turntable (406) close to the third turntable (405); a group of annularly-arranged sponge wipers (408) is arranged on one side of the fourth rotary table (406) close to the third rotary table (405) around the outer side of the polishing wire disc (407) on the fourth rotary table (406); one side of the second turntable (404), one side of the third turntable (405) and one side of the fourth turntable (406) close to the console (6) are respectively provided with a group of waxing machines (409), and the waxing spray heads of each group of waxing machines (409) face to the direction of the fourth driving wheel (402).