CN111958380A

CN111958380A - Ultra-thin strap burring device

Info

Publication number: CN111958380A
Application number: CN202010992070.5A
Authority: CN
Inventors: 乔欣荣; 王军
Original assignee: Huizhou Siyang Technology Co ltd
Current assignee: Huizhou Siyang Technology Co ltd
Priority date: 2020-09-21
Filing date: 2020-09-21
Publication date: 2020-11-20

Abstract

The utility model provides an ultra-thin strap burring device, belongs to the technical field of automation equipment, the device includes: frame, blowing subassembly, first transmission subassembly, detection subassembly, dust removal subassembly, first direction subassembly, blank pressing subassembly, second direction subassembly, second transmission subassembly, receipts material subassembly, control assembly and power. According to the deburring device for the ultrathin metal belt, the tension of the metal belt when the metal belt is pulled at a high speed is controlled through the magnetic powder brake, so that the tension is controlled within a set range, and the metal belt is prevented from deforming; the edge pressing and roller aligning module made of high-precision tungsten steel is used for pressing edges on two sides of a metal belt to remove burrs, and meanwhile, the module also compresses the upper surface and the lower surface of the metal belt to correct deformation of the metal belt.

Description

Ultra-thin strap burring device

Technical Field

The invention relates to the technical field of automation equipment, in particular to a deburring device for an ultrathin metal strip.

Background

In manufacturing, it is often necessary to use metal strips. The metal belt edge grinding machine is one metal belt edge grinding machine, and the metal belt edge grinding machine has one or two sets of high speed rotating grinding wheels for processing metal belt and two sides of the metal belt passing through the grinding wheels to eliminate edge burr.

However, the metal belt edge grinding machine has the following disadvantages:

(1) when processing an ultrathin metal strip (with the thickness of 0.05-0.08mm), the ultrathin metal strip is easy to stretch and deform;

(2) when the cloth grinding wheel is used for extruding and grinding the two sides of the metal belt, the metal belt is easy to be extruded and deformed;

(3) in the operation process of the equipment, a large amount of dust can be generated due to the continuous abrasion of the cloth grinding wheel, and the production and operation of a clean workshop are not facilitated.

It can be seen that the prior art has at least the following disadvantages: when a metal strip is processed using a metal strip edge grinding machine, the metal strip is easily deformed, and a large amount of dust is easily generated.

Therefore, it is necessary to provide a technical means to solve the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide an ultrathin metal strip deburring device to solve the problems that a metal strip is easy to deform and generate a large amount of dust when the metal strip is processed by using a metal strip edge grinding machine in the prior art.

The invention is realized in this way, an ultra-thin metal strip deburring apparatus, comprising:

the frame is used for mounting each part;

the discharging assembly is used for placing the ultrathin metal strip; the discharging assembly is arranged on the rack;

the first conveying assembly is used for conveying the ultrathin metal strip at the discharging assembly to the detection assembly; the first transmission assembly is arranged on the rack;

the detection assembly is used for detecting the ultrathin metal strip; the detection assembly is arranged on the rack;

the dust removal assembly is used for removing floating dust on the surface of the ultrathin metal strip; the dust removal assembly is arranged on the rack;

the first guide assembly is used for conveying the ultrathin metal strip at the dust removal assembly to the edge pressing assembly; the first guide assembly is arranged on the rack;

the edge pressing assembly is used for pressing burrs on the edge of the ultrathin metal strip; the edge pressing assembly is arranged on the rack;

the second guide assembly is used for conveying the ultrathin metal strip at the edge pressing assembly to the second conveying assembly; the second guide assembly is arranged on the rack;

the second conveying assembly is used for conveying the ultrathin metal strip at the second guide assembly to the receiving assembly; the second transmission assembly is arranged on the rack;

the material receiving assembly is used for rolling the ultrathin metal belt transmitted by the second transmission assembly; the receiving assembly is arranged on the rack;

the control assembly is used for controlling each part; the control assembly is arranged on the rack and is respectively connected with the feeding assembly, the detection assembly, the edge pressing assembly and the material receiving assembly;

the power supply is used for supplying power to all parts; the power supply is arranged on the rack and is respectively connected with the discharging assembly, the detection assembly, the edge pressing assembly, the material receiving assembly and the control assembly.

Preferably, the emptying assembly comprises: the device comprises a first mounting barrel, a first bearing, a magnetic powder brake, a first material tray, a first adjusting spring, a first clamping baffle, a first discharging ring, a first adjusting nut, a first mounting frame, a rotary disc and a photoelectric sensor, wherein the first mounting barrel is arranged on the rack, the first bearing penetrates through the first mounting barrel, the magnetic powder brake is sleeved at the first end of the first bearing, the first material tray is sleeved on the first bearing, the first adjusting spring is sleeved on the first bearing and supports the first material tray, the first clamping baffle is fastened on the first adjusting spring and is abutted against the first material tray, the first discharging ring is sleeved at the second end of the first bearing, two ends of the first adjusting spring are respectively abutted against the first mounting barrel and the first discharging ring, and the first adjusting nut is fastened at the second end of the first bearing, and with first blowing ring supports tightly, first mounting bracket set up in the frame, and with magnetic powder brake connects, the carousel with the first end hub connection of first bearing, photoelectric sensing ware set up in on the first mounting bracket, and with the carousel is adjacent.

Preferably, the first transmission assembly comprises: the first mounting column is arranged on the rack, the first transmission ring is sleeved on the first mounting column, and the first pressing rod is arranged on the rack and opposite to the detection assembly.

Preferably, the detection assembly comprises: the support is arranged on the rack, and the sensor is arranged on the support.

Preferably, the dust removing assembly includes: the base, screw rod, adjustable bottom plate, adjusting bolt, go up filter cloth layer board, lower filter cloth layer board, clamp plate and pressure spring, wherein, the base set up in the frame, the screw rod is followed supreme passing in proper order down the base adjustable bottom plate filter cloth layer board down go up filter cloth layer board with the clamp plate, adjusting bolt passes the base just supports adjustable bottom plate, the pressure spring cover is located the screw rod top, and support tightly go up filter cloth layer board, go up filter cloth layer board with lower filter cloth layer board is relative to form the seam between the two, go up filter cloth layer board surface winding and set up the filter cloth, lower filter cloth layer board surface winding sets up filter cloth down, link up on the clamp plate and set up alcohol filling hole, alcohol filling hole is located directly over the filter cloth.

Preferably, the first guide assembly comprises: first mount, first guide rail, first slider, first guide block, first adjusting screw and first supporting wheel, wherein, first mount set up in the frame, first guide rail set up in on the first mount, first slider support in on the first guide rail and along its motion, first guide block set up in on the first slider, first adjusting screw first end screw in on the first guide block, first supporting wheel set up in first adjusting screw second end.

Preferably, the binder assembly comprises: support frame, concave type spout, fixed slider, gland nut, last edging roller, lower edging roller, shaft coupling and step motor, wherein, the support frame set up in the frame, concave type spout set up in on the support frame, fixed slider set up in the concave type spout, gland nut screw in the concave type spout and with fixed slider connects, go up the edging roller with the edging roller sets up relatively in the concave type spout, go up the edging roller set up in on the fixed slider, step motor set up in the frame, and pass through the shaft coupling with the edging roller is connected down.

Preferably, the second guide assembly comprises: the second fixing frame, the second guide rail, the second sliding block, the second guide block, the second adjusting screw and the second supporting wheel, wherein the second fixing frame is arranged on the rack, the second guide rail is arranged on the second fixing frame, the second sliding block is supported on the second guide rail and moves along the second guide rail, the second guide block is arranged on the second sliding block, the first end of the second adjusting screw is screwed on the second guide block, and the second supporting wheel is arranged at the second end of the second adjusting screw.

Preferably, the second transmission assembly includes: the second installation column is arranged on the rack, the second transmission ring is sleeved on the second installation column, and the second pressing rod is arranged on the rack and is opposite to the second guide assembly.

Preferably, the receipts material subassembly includes: the double-shaft magnetic powder brake comprises a second mounting barrel, a second bearing, a double-shaft magnetic powder brake, a second material tray, a second adjusting spring, a second clamping baffle, a second discharging ring, a second adjusting nut, a second mounting frame, a driving ring, a winding motor and a synchronous belt, wherein the second mounting barrel is arranged on the frame, the second bearing penetrates through the second mounting barrel, the double-shaft magnetic powder brake is sleeved at the first end of the second bearing, the second material tray is sleeved on the second bearing, the second adjusting spring is sleeved on the second bearing and supports the second material tray, the second clamping baffle is fastened on the second adjusting spring and is abutted against the second material tray, the second discharging ring is sleeved at the second end of the second bearing, and two ends of the second adjusting spring are abutted against the second mounting barrel and the second discharging ring respectively, the second adjusting nut is fastened at the second end of the second bearing and tightly abutted to the second discharging ring, the second mounting frame is arranged on the rack and connected with the winding motor, and the driving ring is sleeved on the second bearing and connected with the winding motor through the synchronous belt.

According to the deburring device for the ultrathin metal belt, the tension of the metal belt when the metal belt is pulled at a high speed is controlled through the magnetic powder brake, so that the tension is controlled within a set range, and the metal belt is prevented from deforming; the edge pressing and roller aligning module made of high-precision tungsten steel is used for pressing edges on two sides of a metal belt to remove burrs, and meanwhile, the module also compresses the upper surface and the lower surface of the metal belt to correct deformation of the metal belt.

Drawings

FIG. 1 is a schematic view of the overall structure of an ultra-thin metal strip deburring device according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a feeding assembly in the deburring device for ultra-thin metal strips according to the embodiment of the invention;

FIG. 3 is a schematic structural diagram of a feeding assembly in the deburring device for ultra-thin metal strips according to the embodiment of the invention;

FIG. 4 is a schematic structural diagram of a detection assembly in the ultra-thin metal strip deburring device according to the embodiment of the invention;

FIG. 5 is a schematic structural diagram of a dust removing assembly in the ultra-thin metal strip deburring device according to the embodiment of the invention;

FIG. 6 is a schematic structural diagram of a dust removing assembly in the ultra-thin metal strip deburring device according to the embodiment of the invention;

FIG. 7 is a schematic structural view of a first guide assembly in an ultra-thin metal strip deburring apparatus according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a blank holder assembly in the ultra-thin metal strip deburring device according to the embodiment of the invention;

FIG. 9 is a schematic structural view of a second guide assembly in the deburring device for ultra-thin metal strips according to the embodiment of the present invention;

fig. 10 is a schematic structural view of a material receiving assembly in the ultra-thin metal strip deburring device according to the embodiment of the present invention.

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.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

Referring to fig. 1 to 10, in an embodiment of the present application, there is provided an ultra-thin metal strip deburring apparatus, including: the automatic feeding and collecting device comprises a rack 100, a feeding assembly 200, a first conveying assembly 300, a detecting assembly 400, a dust removing assembly 500, a first guide assembly 600, a blank pressing assembly 700, a second guide assembly 800, a second conveying assembly 900, a collecting assembly 1000, a control assembly 1100 and a power supply (not shown), and the details of the parts are described below.

Referring to fig. 1 to 10, in an embodiment of the present application, an ultra-thin metal strip deburring apparatus provided by the present application includes:

a frame 100 for mounting various parts;

the discharging assembly 200 is used for placing the ultrathin metal strip; the emptying assembly 200 is arranged on the rack 100;

the first transmission assembly 300 is used for transmitting the ultrathin metal strip at the discharging assembly 200 to the detection assembly 400; the first transmission assembly 300 is disposed on the rack 100;

a detection assembly 400 for detecting the ultra-thin metal strip; the detection assembly 400 is disposed on the rack 100;

the dust removal assembly 500 is used for removing floating dust on the surface of the ultrathin metal strip; the dust removing assembly 500 is arranged on the frame 100;

a first guide assembly 600 for transferring the ultra-thin metal strip at the dust removing assembly 500 to a blank holder assembly 700; the first guide assembly 600 is disposed on the frame 100;

the edge pressing assembly 700 is used for pressing burrs on the edge of the ultrathin metal strip; the blank holder assembly 700 is arranged on the frame 100;

a second guide assembly 800 for transferring the ultra-thin metal strip at the blank holder assembly 700 to a second transfer assembly 900; the second guiding assembly 800 is disposed on the frame 100;

a second conveying assembly 900 for conveying the ultra-thin metal strip at the second guiding assembly 800 to a receiving assembly 1000; the second transmission assembly 900 is disposed on the rack 100;

the material receiving assembly 1000 is used for winding the ultrathin metal strip transmitted by the second transmission assembly 900; the receiving assembly 1000 is arranged on the rack 100;

a control assembly 1100 for controlling the various parts; the control assembly 1100 is arranged on the rack 100 and is respectively connected with the discharging assembly 200, the detecting assembly 400, the edge pressing assembly 700 and the receiving assembly 1000;

the power supply is used for supplying power to all parts; the power supply is arranged on the rack 100 and is respectively connected with the discharging component 200, the detecting component 400, the edge pressing component 700, the receiving component 1000 and the control component 1100.

When the ultra-thin metal strip deburring device is used for carrying out edge pressing deburring treatment on the ultra-thin metal strip, the ultra-thin metal strip is placed on the discharging assembly 200 in advance, then the ultra-thin metal strip is conveyed to the material receiving assembly 1000 through the first conveying assembly 300, the detection assembly 400, the dust removing assembly 500, the first guide assembly 600, the edge pressing assembly 700, the second guide assembly 800 and the second conveying assembly 900 in sequence, then, the device is started, the detection assembly 400 can detect the ultrathin metal strip, the dust removal assembly 500 can remove floating dust on the surface of the metal strip, the ultrathin metal strip at the dust removal assembly 500 is guided to the edge pressing assembly 700 by the first guide assembly 600, the edge pressing assembly 700 performs edge pressing and deburring on the ultrathin metal strip, the processed ultrathin metal strip is guided to the second transmission assembly 900 by the second guide assembly 800, and the metal strip is conveyed to the material receiving assembly 1000 by the second transmission assembly 900 to be received for later use.

Referring to fig. 1 to 10, in the embodiment of the present application, the discharging assembly 200 includes: the magnetic particle brake device comprises a first mounting cylinder 201, a first bearing 202, a magnetic particle brake 203, a first tray 204, a first adjusting spring 205, a first clamping baffle 206, a first discharging ring 207, a first adjusting nut 208, a first mounting frame 209, a turntable 210 and a photoelectric sensor 211, wherein the first mounting cylinder 201 is arranged on the rack 100, the first bearing 202 penetrates through the first mounting cylinder 201, the magnetic particle brake 203 is sleeved on a first end of the first bearing 202, the first tray 204 is sleeved on the first bearing 202, the first adjusting spring 205 is sleeved on the first bearing 202 and supports the first tray 204, the first clamping baffle 206 is fastened on the first adjusting spring 205 and tightly abuts against the first tray 204, the first discharging ring 207 is sleeved on a second end of the first bearing 202, two ends of the first adjusting spring 205 respectively tightly abut against the first mounting cylinder 201 and the first discharging ring 207, the first adjusting nut 208 is fastened to the second end of the first bearing 202 and abuts against the first material discharging ring 207, the first mounting bracket 209 is disposed on the rack 100 and connected to the magnetic powder brake 203, the turntable 210 is connected to the first end shaft of the first bearing 202, and the photoelectric sensor 211 is disposed on the first mounting bracket 209 and adjacent to the turntable 210.

The work flow of the discharging assembly 200 is as follows: the unprocessed ultra-thin metal strip is wound on the first feeding ring 207 in a coiled manner and abuts against the side wall of the first feeding tray 204, and the ultra-thin metal strip is conveyed to the first conveying assembly 300. When the ultra-thin metal strip moves, the first bearing 202 is driven to rotate, the rotating disc 210 rotates, and the photoelectric sensor 211 detects the rotating speed of the rotating disc 210, so as to determine the moving speed of the ultra-thin metal strip. The magnetic powder brake 203 can control the rotating speed of the first bearing 202 according to the detection result of the photoelectric sensor 211, and further control the tension of the ultrathin metal strip.

Referring to fig. 1-10, in the embodiment of the present application, the first transmission assembly 300 includes: the detecting device comprises a first mounting column 301, a first transmission ring 302 and a first pressing rod 303, wherein the first mounting column 301 is arranged on the rack 100, the first transmission ring 302 is sleeved on the first mounting column 301, and the first pressing rod 303 is arranged on the rack 100 and is opposite to the detecting component 400.

The workflow of the first transmission assembly 300 is as follows: the ultra-thin metal strip is transported from the first feeding ring 207 to the first transport ring 302, and is closely attached to the first transport ring 302 and the first pressing rod 303 and then transported to the detecting assembly 400.

Referring to fig. 1-10, in the embodiment of the present application, the detecting assembly 400 includes: a support 401 and a sensor 402, wherein the support 401 is disposed on the rack 100, and the sensor 402 is disposed on the support 401.

The workflow of the detection component 400 is: the ultra-thin metal strip is conveyed to the sensor 402 from the first pressing rod 303, and the sensor 402 can detect the ultra-thin metal strip in place, so that whether the ultra-thin metal strip reaches a preset position or not is judged.

Referring to fig. 1-10, in the embodiment of the present application, the dust removing assembly 500 includes: a base 501, a screw 502, an adjustable bottom plate 503, an adjusting bolt 504, an upper filter cloth supporting plate 505, a lower filter cloth supporting plate 506, a pressure plate 507 and a pressure spring 508, wherein the base 501 is arranged on the frame 100, the screw 502 sequentially penetrates through the base 501, the adjustable bottom plate 503, the lower filter cloth supporting plate 506, the upper filter cloth supporting plate 505 and the pressing plate 507 from bottom to top, the adjusting bolt 504 passes through the base 501 and supports the adjustable bottom plate 503, the pressure spring 508 is sleeved on the top end of the screw 502, and tightly abuts against the upper filter cloth supporting plate 505, the upper filter cloth supporting plate 505 is opposite to the lower filter cloth supporting plate 506, a gap 509 is formed between the upper filter cloth and the lower filter cloth, an upper filter cloth 510 is wound on the surface of the upper filter cloth supporting plate 505, the surface of the lower filter cloth supporting plate 506 is wound with lower filter cloth 511, the pressing plate 507 is provided with alcohol filling holes 512 in a penetrating manner, and the alcohol filling holes 512 are positioned right above the upper filter cloth 510.

The work flow of the dust removing assembly 500 is as follows: the ultra-thin metal strip is transported from the sensor 402 between the gap 509 between the upper and lower

filter cloth plates

505, 506 and the upper and lower surfaces are in contact with the upper and

lower filter cloths

510, 511, respectively. The upper filter cloth 510 and the lower filter cloth 511 clean the upper surface and the lower surface of the ultrathin metal strip respectively, alcohol can be filled into the upper filter cloth 510 and the lower filter cloth 511 through the alcohol filling holes 512, and the alcohol can clean the surface of the ultrathin metal strip. The distance between the slits 509 can be adjusted according to the thickness of the ultra-thin metal strip, specifically, the length of the top end of the adjusting bolt 504 extending out of the base 501 can be adjusted, at this time, the adjusting bolt 504 supports the adjustable bottom plate 503 to ascend or descend, the adjustable bottom plate 503 supports the lower filter cloth supporting plate 506 to ascend or descend, and the distance between the slits 509 between the lower filter cloth supporting plate 506 and the upper filter cloth supporting plate 505 can be changed.

Referring to fig. 1-10, in the embodiment of the present application, the first guiding assembly 600 includes: the first fixing frame 601, the first guide rail 602, the first sliding block 603, the first guide block 604, the first adjusting screw 605 and the first support wheel 606, wherein the first fixing frame 601 is disposed on the rack 100, the first guide rail 602 is disposed on the first fixing frame 601, the first sliding block 603 is supported on the first guide rail 602 and moves along the first guide rail, the first guide block 604 is disposed on the first sliding block 603, the first end of the first adjusting screw 605 is screwed on the first guide block 604, and the first support wheel 606 is disposed at the second end of the first adjusting screw 605.

The workflow of the first guiding assembly 600 is as follows: the ultra-thin metal strip is transported from the over-slit 509 to the first guide block 604 and is transported against the first guide block 604 to the binder assembly 700. In order to better support the ultra-thin metal strip, it is necessary to ensure that the first guide block 604 supports the middle position of the ultra-thin metal strip in the width direction as much as possible, and at this time, the position of the first guide block 604 on the first fixing frame 601 needs to be adjusted according to the width of the ultra-thin metal strip. Specifically, the position of the first slider 603 on the first rail 602 is adjusted so as to ensure that the first guide block 604 supports the intermediate position in the width direction of the ultra-thin metal strip. Meanwhile, the number of the first guide blocks 604 may be increased or decreased according to the width of the ultra-thin metal strip. The first support wheel 606 may support an ultra-thin metal strip.

Referring to fig. 1-10, in the present embodiment, the binder assembly 700 includes: the device comprises a support frame 701, a concave chute 702, a fixed sliding block 703, a compaction adjusting nut 704, an upper edge pressing roller 705, a lower edge pressing roller 706, a coupler 707 and a stepping motor 708, wherein the support frame 701 is arranged on the support frame 100, the concave chute 702 is arranged on the support frame 701, the fixed sliding block 703 is arranged in the concave chute 702, the compaction adjusting nut 704 is screwed in the concave chute 702 and connected with the fixed sliding block 703, the upper edge pressing roller 705 and the lower edge pressing roller 706 are oppositely arranged in the concave chute 702, the upper edge pressing roller 705 is arranged on the fixed sliding block 703, and the stepping motor 708 is arranged on the support frame 100 and connected with the lower edge pressing roller 706 through the coupler 707.

The operation of the blank holder assembly 700 is as follows: the ultra-thin metal strip is fed from the first guide block 604 between upper and

lower edge rollers

705 and 706, and the upper and

lower edge rollers

705 and 706 perform edge pressing and deburring processes on the ultra-thin metal strip. Specifically, the stepping motor 708 is turned on, the stepping motor 708 drives the coupling 707 to rotate, and then drives the lower edge pressing roller 706 to rotate, the lower edge pressing roller 706 drives the ultra-thin metal strip to move, meanwhile, the ultra-thin metal strip also drives the upper edge pressing roller 705 to rotate, and the upper edge pressing roller 705 and the lower edge pressing roller 706 jointly press the ultra-thin metal strip to complete edge pressing operation. The distance between the upper edge pressing roller 705 and the lower edge pressing roller 706 can be adjusted according to the thickness of the ultrathin metal strip, specifically, the position of the compaction adjusting nut 704 on the concave chute 702 is adjusted, and then the position of the fixed slider 703 in the concave chute 702 is changed, at this time, the position of the upper edge pressing roller 705 in the concave chute 702 is changed, and the distance between the upper edge pressing roller 705 and the lower edge pressing roller 706 is changed. Upper and

lower edge rollers

705 and 706 may be made of high precision tungsten steel.

Referring to fig. 1-10, in the present embodiment, the second guiding assembly 800 includes: the second fixing frame 801, the second guide rail 802, the second sliding block 803, the second guide block 804, the second adjusting screw 805 and the second support wheel 806, wherein the second fixing frame 801 is disposed on the rack 100, the second guide rail 802 is disposed on the second fixing frame 801, the second sliding block 803 is supported on the second guide rail 802 and moves along the second guide rail 802, the second guide block 804 is disposed on the second sliding block 803, the first end of the second adjusting screw 805 is screwed to the second guide block 804, and the second support wheel 806 is disposed at the second end of the second adjusting screw 805.

The workflow of the second guiding assembly 800 is: the ultra-thin metal strip is transported from upper edge roller 705 and lower edge roller 706 to second guide block 804 and is transported against second guide block 804 to second transport assembly 900. In order to better support the ultra-thin metal strip, it is necessary to ensure that the second guide block 804 supports the middle position of the ultra-thin metal strip in the width direction as much as possible, and at this time, the position of the second guide block 804 on the second fixing frame 801 needs to be adjusted according to the width of the ultra-thin metal strip. Specifically, the position of the second slider 803 on the second guide rail 802 is adjusted, thereby ensuring that the second guide block 804 supports the middle position in the width direction of the ultra-thin metal strip. Meanwhile, the number of the second guide blocks 804 may also be increased or decreased according to the width of the ultra-thin metal strip. The second support wheel 806 may support an ultra-thin metal strip.

Referring to fig. 1-10, in the embodiment of the present application, the second transmission assembly 900 includes: the second guide assembly 800 is disposed on the frame 100, and the second mounting column 901, the second transmission ring 902, and the second pressing rod 903 are disposed on the frame 100, where the second mounting column 901 is disposed on the frame 100, the second transmission ring 902 is sleeved on the second mounting column 901, and the second pressing rod 903 is disposed on the frame 100 and opposite to the second guide assembly 901.

The work flow of the second transmission assembly 900 is as follows: the ultra-thin metal strip is conveyed from the second guide block 804 to the second press rod 903, tightly attached to the second press rod 903 and the second transmission ring 902, and then conveyed to the material collecting assembly 1000.

Referring to fig. 1-10, in the embodiment of the present application, the material receiving assembly 1000 includes: a second mounting tube 1001, a second bearing 1002, a biaxial magnetic powder brake 1003, a second tray 1004, a second adjusting spring 1005, a second clamping baffle 1006, a second discharging ring 1007, a second adjusting nut 1008, a second mounting frame 1009, a driving ring 1010, a winding motor 1011 and a synchronous belt 1012, wherein the second mounting tube 1001 is arranged on the rack 100, the second bearing 1002 passes through the second mounting tube 1001, the biaxial magnetic powder brake 1003 is sleeved on the first end of the second bearing 1002, the second tray 1004 is sleeved on the second bearing 1002, the second adjusting spring 1005 is sleeved on the second bearing 1002 and supports the second tray 1004, the second clamping baffle 1006 is fastened on the second adjusting spring 1006 and abuts against the second tray 1004, the second discharging ring 1007 is sleeved on the second end of the second bearing 1002, two ends of the second adjusting spring 1005 abut against the second mounting tube 1001 and the second discharging ring 1007 respectively, the second adjusting nut 1008 is fastened at the second end of the second bearing 1002 and tightly abuts against the second discharging ring 1007, the second mounting frame 1009 is disposed on the frame 100 and connected to the winding motor 1011, and the driving ring 1010 is sleeved on the second bearing 1002 and connected to the winding motor 1011 through the synchronous belt 1012.

The work flow of the material receiving assembly 1000 is as follows: the ultra-thin metal strip after edge pressing is wound on the second discharging ring 1007 in a coiled manner and abuts against the side wall of the second tray 1004. When the winding motor 1011 is started, the winding motor 1011 drives the synchronous belt 1012 to move, so as to drive the driving ring 1010 to rotate, the driving ring 1010 drives the second bearing 1002 to rotate, the second bearing 1002 drives the second discharging ring 1007 to rotate, so that the ultra-thin metal strip is driven to be wound on the second discharging ring 1007 in a coiled manner, the unprocessed ultra-thin metal strip on the discharging assembly 200 is driven to be subjected to edge pressing deburring treatment according to a preset path, and the processed ultra-thin metal strip is wound on the second discharging ring 1007 in a coiled manner after being treated. The biaxial magnetic powder brake 1003 can control the rotating speed of the second bearing 1002 according to the detection result of the photoelectric sensor 211, and further controls the tension of the ultrathin metal strip together with the magnetic powder brake 203, so that the ultrathin metal strip is kept in a tensioned state, and the deformation of the ultrathin metal strip is prevented.

In this embodiment, the control component 1100 may be a PLC controller, and the power source may be a built-in power source or an external power source.

The above description is only exemplary of the present invention, and the structure is not limited to the above-mentioned shapes, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An ultra-thin metal strip deburring apparatus comprising:

the frame is used for mounting each part;

2. The ultra-thin metal strip deburring apparatus of claim 1, wherein said discharge assembly comprises: the device comprises a first mounting barrel, a first bearing, a magnetic powder brake, a first material tray, a first adjusting spring, a first clamping baffle, a first discharging ring, a first adjusting nut, a first mounting frame, a rotary disc and a photoelectric sensor, wherein the first mounting barrel is arranged on the rack, the first bearing penetrates through the first mounting barrel, the magnetic powder brake is sleeved at the first end of the first bearing, the first material tray is sleeved on the first bearing, the first adjusting spring is sleeved on the first bearing and supports the first material tray, the first clamping baffle is fastened on the first adjusting spring and is abutted against the first material tray, the first discharging ring is sleeved at the second end of the first bearing, two ends of the first adjusting spring are respectively abutted against the first mounting barrel and the first discharging ring, and the first adjusting nut is fastened at the second end of the first bearing, and with first blowing ring supports tightly, first mounting bracket set up in the frame, and with magnetic powder brake connects, the carousel with the first end hub connection of first bearing, photoelectric sensing ware set up in on the first mounting bracket, and with the carousel is adjacent.

3. The ultra-thin metal strip deburring apparatus of claim 1, wherein said first transfer assembly comprises: the first mounting column is arranged on the rack, the first transmission ring is sleeved on the first mounting column, and the first pressing rod is arranged on the rack and opposite to the detection assembly.

4. The ultra-thin metal strip deburring apparatus of claim 1, wherein said detection assembly comprises: the support is arranged on the rack, and the sensor is arranged on the support.

5. The ultra-thin metal strip deburring apparatus of claim 1, wherein said dust removal assembly comprises: the base, screw rod, adjustable bottom plate, adjusting bolt, go up filter cloth layer board, lower filter cloth layer board, clamp plate and pressure spring, wherein, the base set up in the frame, the screw rod is followed supreme passing in proper order down the base adjustable bottom plate filter cloth layer board down go up filter cloth layer board with the clamp plate, adjusting bolt passes the base just supports adjustable bottom plate, the pressure spring cover is located the screw rod top, and support tightly go up filter cloth layer board, go up filter cloth layer board with lower filter cloth layer board is relative to form the seam between the two, go up filter cloth layer board surface winding and set up the filter cloth, lower filter cloth layer board surface winding sets up filter cloth down, link up on the clamp plate and set up alcohol filling hole, alcohol filling hole is located directly over the filter cloth.

6. The ultra-thin metal strip deburring apparatus of claim 1, wherein said first guide assembly comprises: first mount, first guide rail, first slider, first guide block, first adjusting screw and first supporting wheel, wherein, first mount set up in the frame, first guide rail set up in on the first mount, first slider support in on the first guide rail and along its motion, first guide block set up in on the first slider, first adjusting screw first end screw in on the first guide block, first supporting wheel set up in first adjusting screw second end.

7. The ultra-thin metal strip deburring apparatus of claim 1, wherein said hold-down assembly comprises: support frame, concave type spout, fixed slider, gland nut, last edging roller, lower edging roller, shaft coupling and step motor, wherein, the support frame set up in the frame, concave type spout set up in on the support frame, fixed slider set up in the concave type spout, gland nut screw in the concave type spout and with fixed slider connects, go up the edging roller with the edging roller sets up relatively in the concave type spout, go up the edging roller set up in on the fixed slider, step motor set up in the frame, and pass through the shaft coupling with the edging roller is connected down.

8. The ultra-thin metal strip deburring apparatus of claim 1, wherein said second guide assembly comprises: the second fixing frame, the second guide rail, the second sliding block, the second guide block, the second adjusting screw and the second supporting wheel, wherein the second fixing frame is arranged on the rack, the second guide rail is arranged on the second fixing frame, the second sliding block is supported on the second guide rail and moves along the second guide rail, the second guide block is arranged on the second sliding block, the first end of the second adjusting screw is screwed on the second guide block, and the second supporting wheel is arranged at the second end of the second adjusting screw.

9. The ultra-thin metal strip deburring apparatus of claim 1, wherein said second transfer assembly comprises: the second installation column is arranged on the rack, the second transmission ring is sleeved on the second installation column, and the second pressing rod is arranged on the rack and is opposite to the second guide assembly.

10. The ultra-thin metal strip deburring apparatus of claim 1 wherein said collection assembly comprises: the double-shaft magnetic powder brake comprises a second mounting barrel, a second bearing, a double-shaft magnetic powder brake, a second material tray, a second adjusting spring, a second clamping baffle, a second discharging ring, a second adjusting nut, a second mounting frame, a driving ring, a winding motor and a synchronous belt, wherein the second mounting barrel is arranged on the frame, the second bearing penetrates through the second mounting barrel, the double-shaft magnetic powder brake is sleeved at the first end of the second bearing, the second material tray is sleeved on the second bearing, the second adjusting spring is sleeved on the second bearing and supports the second material tray, the second clamping baffle is fastened on the second adjusting spring and is abutted against the second material tray, the second discharging ring is sleeved at the second end of the second bearing, and two ends of the second adjusting spring are abutted against the second mounting barrel and the second discharging ring respectively, the second adjusting nut is fastened at the second end of the second bearing and tightly abutted to the second discharging ring, the second mounting frame is arranged on the rack and connected with the winding motor, and the driving ring is sleeved on the second bearing and connected with the winding motor through the synchronous belt.