CN210173254U

CN210173254U - DC plug cladding material equipment of polishing

Info

Publication number: CN210173254U
Application number: CN201920804504.7U
Authority: CN
Inventors: Hongsheng Wang; 王红生; Deliang He; 何德良
Original assignee: Shenzhen Youji Intelligent Technology Co ltd
Current assignee: Shenzhen Youji Intelligent Technology Co ltd
Priority date: 2019-05-30
Filing date: 2019-05-30
Publication date: 2020-03-24
Anticipated expiration: 2029-05-30

Abstract

The utility model discloses a DC plug cladding material equipment of polishing, be provided with material loading vibration dish in the vibration dish frame, be provided with feeding mechanism on the main frame, the feed end and the material loading vibration dish of feeding mechanism are connected, the discharge end outside of feeding mechanism is provided with presss from both sides material translation mechanism, the top of pressing from both sides material translation mechanism is provided with grinding machanism; the spindle motor is in transmission connection with the cutter bar, the polishing tungsten steel blade is arranged on the cutter bar, and the head-dividing fixing plate is arranged on one side of the sliding support plate, which is far away from the spindle motor; be provided with the dust absorption fixed plate on the motor fixed plate, the position that the dust absorption fixed plate corresponds the tungsten steel blade of polishing is provided with the suction hood, is connected with the suction hood closing cap on the suction hood, and the tungsten steel blade cover of will polishing is established to the suction hood closing cap, and the suction hood closing cap is seted up jaggedly, and the suction hood is connected with the industry dust catcher. The utility model discloses technical scheme aims at realizing the full automatization of polishing, makes the in-process of polishing in time clear up the relic, avoids influencing the follow-up cladding material of product.

Description

DC plug cladding material equipment of polishing

Technical Field

The utility model relates to a technical field that polishes, in particular to DC plug cladding material equipment of polishing.

Background

DC PLUG (PLUG) is because of the surface plating has the cladding material of being difficult for going up the tin, so need polish the cladding material of welding position to guarantee soldering tin reliability, current technology is mostly to use the abrasive machine to carry out the manual work and polish, and is inefficient like this, the security is poor, the area size of polishing and position are difficult for the empty system, have copper bits pollution residue on DC PLUG, and can produce sweat on the hand of operation personnel and be stained with DC PLUG department of polishing and make its easy oxidation, easily produce badly when causing follow-up soldering tin. The existing equipment has inaccurate positioning of the grinding position, and meanwhile, the control is also inaccurate, so that defective products are easy to appear.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a DC plug plating layer polishing device, aiming at realizing full automation of polishing, so that the residues can be cleaned in time in the polishing process, and the subsequent plating layer of the product is prevented from being influenced; the polishing machine can accurately position a workpiece to control the polishing position and the size of the area of the region, and can improve the operation efficiency and the product quality.

In order to achieve the above object, the utility model provides a DC plug cladding material equipment of polishing, include: the main frame and the vibration disc frame are arranged side by side; a feeding vibration disc is arranged on the vibration disc rack, a feeding mechanism is arranged on the main rack, the feeding end of the feeding mechanism is connected with the feeding vibration disc, a clamping translation mechanism is arranged outside the discharging end of the feeding mechanism, and a polishing mechanism is arranged above the clamping translation mechanism; the grinding mechanism includes: the device comprises a spindle motor, a cutter mounting rod, a polished tungsten steel blade, a sliding support plate, two support vertical plates, a linear guide rail fixing plate, a linear guide rail, a differential adjusting head, a head fixing plate and an extension spring; the two supporting vertical plates are arranged on the main rack in parallel, the linear guide rail fixing plate is horizontally arranged at the top ends of the two supporting vertical plates, the linear guide rail is arranged on the linear guide rail fixing plate, the sliding supporting plate is connected to the linear guide rail in a sliding mode, the spindle motor is arranged at one end of the sliding supporting plate in the moving direction through the motor fixing plate, the spindle motor is in transmission connection with the cutter rod, the polishing tungsten steel blade is arranged on the cutter rod, the head dividing fixing plate is arranged on one side, away from the spindle motor, of the sliding supporting plate, one end of the adjusting small head penetrates through the head dividing fixing plate and is in threaded connection with the sliding supporting plate, one end of the extension spring is connected with the sliding supporting plate, and the other end of the extension spring is connected with the head dividing fixing plate; the polishing device is characterized in that a dust collection fixing plate is arranged on the motor fixing plate, a dust collection cover is arranged at a position, corresponding to the polishing tungsten steel blade, of the dust collection fixing plate, a dust collection cover sealing cover is connected to the dust collection cover, the polishing tungsten steel blade is covered by the dust collection cover sealing cover, a notch is formed in the dust collection cover sealing cover, and the dust collection cover is connected with an industrial dust collector.

Preferably, the clamping and translating mechanism comprises a linear cylinder, a cylinder fixing seat, a sliding guide rail, a rotating support plate, a stepping motor, a coupler, a bearing, a rotating shaft, a cylinder fixing plate, a clamp cylinder, a plug clamp and a copper clamping head; the linear air cylinder is arranged on the main rack through the air cylinder fixing seat, the sliding guide rail is arranged on the main rack, and the moving directions of the sliding guide rail and the linear air cylinder are parallel; the utility model discloses a portable electronic device, including rotatory backup pad, linear cylinder, bearing, clamp cylinder, slide guide, linear cylinder, bearing, pivot fixed disk, rotatory backup pad passes through the slider and slides and set up on the sliding guide, the sharp cylinder pass through the floating joint with rotatory backup pad connects, step motor sets up the below of rotatory backup pad, step motor pass through the shaft coupling with the rotation axis is connected, the rotation axis is kept away from step motor's one end is passed rotatory backup pad and with the bearing is connected, the bearing with the cylinder fixed disk is connected, the clamp cylinder sets up on the cylinder fixed disk, the top of clamp cylinder is connected the plug clip, the exposed core of plug clip is provided with detachable copper chuck, be provided with the.

Preferably, the feeding mechanism comprises: the device comprises a supporting seat, a feeding straight rail, a direction selecting sheet, a sweeping motor, a sweeping fixing sheet and a sweeping wire binding belt; the supporting seat is arranged on the main rack, the feeding straight rail is arranged on the supporting seat, the direction selecting piece is arranged on one side of the feeding straight rail along the length direction, the sweeping motor is arranged on one side of the feeding straight rail, which is far away from the direction selecting piece, through the sweeping fixing piece, one end of the sweeping binding belt is connected with a moving shaft of the sweeping motor, and the other end of the sweeping binding belt is positioned above the feeding straight rail; the feeding end of the feeding straight rail is connected with the feeding vibration disc, and the discharging end of the feeding straight rail is provided with a blanking separation blade and an in-place sensor.

Preferably, the material sweeping device further comprises a man-machine control device, and the man-machine control device is respectively connected with the material sweeping motor, the clamp cylinder, the spindle motor, the linear cylinder, the in-place sensor and the stepping motor.

Preferably, one end of the sliding guide rail, which is far away from the linear cylinder, is provided with a limiting fixing plate, and the limiting fixing plate is provided with an oil buffer and a limiting screw.

Preferably, a photoelectric sensing switch is arranged on the rotary supporting plate, a limit sensing piece matched with the photoelectric sensing switch is arranged on the clamp cylinder, and the photoelectric sensing switch is connected with the man-machine control device.

Compared with the prior art, the beneficial effects of the utility model are that: the automatic degree is high, avoid the manual contact DC plug to cause the pollution, in time clear up the residue of polishing and avoid influencing follow-up soldering tin.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a polishing mechanism of the present invention;

fig. 3 is a schematic structural view of the material clamping and translating mechanism of the present invention;

fig. 4 is another view structure diagram of the material clamping and translating mechanism of the present invention;

fig. 5 is a schematic structural view of the feeding mechanism of the present invention;

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The utility model provides a DC plug cladding material equipment of polishing, as shown in figure 1 and figure 2, include: a main chassis 100 and a vibration disk chassis 200 arranged side by side; a feeding vibrating disc 300 is arranged on the vibrating disc rack 200, a feeding mechanism 400 is arranged on the main rack 100, the feeding end of the feeding mechanism 400 is connected with the feeding vibrating disc 300, a clamping and translating mechanism 500 is arranged outside the discharging end of the feeding mechanism 400, and a polishing mechanism 600 is arranged above the clamping and translating mechanism 500; the grinding mechanism 600 includes: a spindle motor 610, a tool mounting rod 620, a grinding wolfram steel blade (not shown), a sliding support plate 640, two support risers 650, a linear guide fixing plate 660, a linear guide 670, an adjusting differential head 680, a head fixing plate 690 and a tension spring 691 shown in FIG. 2; two supporting vertical plates 650 are arranged on the main frame 100 in parallel, a linear guide 670 fixing plate 660 is horizontally arranged at the top ends of the two supporting vertical plates 650, a linear guide 670 is arranged on the linear guide 670 fixing plate 660, a sliding supporting plate 640 is connected on the linear guide 670 in a sliding manner, a spindle motor 610 is arranged at one end of the sliding supporting plate 640 in the moving direction through a motor fixing plate 611, the spindle motor 610 is in transmission connection with a tool mounting rod 620, a tungsten steel grinding blade is arranged on the tool mounting rod 620, a head dividing fixing plate 690 is arranged at one side of the sliding supporting plate 640 far away from the spindle motor 610, one end of an adjusting micro-dividing head 680 penetrates through the head dividing fixing plate 690 to be in threaded connection with the sliding supporting plate 640, one end of a tension spring 691 is connected with the sliding; a dust collection fixing plate 613 is arranged on the motor fixing plate 611, a dust collection cover 614 is arranged at a position, corresponding to the polishing tungsten steel blade, of the dust collection fixing plate 613, a dust collection cover sealing cap 615 is connected to the dust collection cover 614, the polishing tungsten steel blade is covered by the dust collection cover sealing cap 615, a notch 616 is formed in the dust collection cover sealing cap 615, and the dust collection cover 614 is connected with an industrial dust collector. The grinding depth of the grinding tungsten steel blade to the DC PLUG can be adjusted by adjusting the differential head 680; the dust hood 614 and the dust hood sealing cover 615 completely wrap the polishing tungsten steel blade, only a gap 616 for DC PLUG movement is reserved, and the dust hood 614 is connected with an industrial dust collector, so that a polishing area forms suction, copper scraps generated during polishing can be sucked away, and the devices and the DCPLUG are not scattered to cause that a lot of copper scraps are stained on the DCPLUG to generate abnormal device operation faults and DC PLUG pollution; the fixed height of the spindle motor 610 is adjusted to adjust the axial position of the sharpening tungsten steel blade to the DC PLUG sharpening region. The spindle motor 610 is fixed to the motor fixing plate 611 by a motor clamp 612, and the height of the spindle motor 610 can be controlled by adjusting the motor clamp 612.

The utility model provides a DC PLUG cladding material automatic operation mode of polishing, its can be automatic respectively DC PLUG's direction, will appoint regional cladding material to polish, and its regional area size and position of polishing, direction are unified, will have dust extraction to suck away the copper fillings and avoid polluting DC PLUG, whole journey by the utility model discloses automatic accomplishing does not need personnel to contact DC PLUG, also should not have sweat to pollute DC PLUG, can liberate personnel from repetitive mechanical operation, can promote operating efficiency and product quality again.

In an embodiment of the present invention, as shown in fig. 3 and 4, the clamping and translating mechanism 500 includes a linear cylinder 510, a cylinder fixing seat 511, a sliding guide 520, a rotating support plate 530, a stepping motor 540, a shaft coupling 550, a bearing 560, a rotating shaft 570, a cylinder fixing plate 581, a clamp cylinder 582, a plug clamp 583, and a copper clamp 584; the linear cylinder 510 is arranged on the main frame 100 through a cylinder fixing seat 511, the sliding guide 520 is arranged on the main frame 100, and the moving directions of the sliding guide 520 and the linear cylinder 510 are parallel; the rotary supporting plate 530 is arranged on the sliding guide rail 520 in a sliding mode through a sliding block 590, the linear air cylinder 510 is connected with the rotary supporting plate 530 through a floating joint 512, the stepping motor 540 is arranged below the rotary supporting plate 530, the stepping motor 540 is connected with a rotary shaft 570 through a coupler 550, one end, far away from the stepping motor 540, of the rotary shaft 570 penetrates through the rotary supporting plate 530 and is connected with a bearing 560, the bearing 560 is connected with an air cylinder fixing plate 581, a clamp air cylinder 582 is arranged on the air cylinder fixing plate 581, the top of the clamp air cylinder 582 is connected with a plug clamp 583, a detachable copper clamp 584 is arranged at the clamping end of the plug clamp 583, and a blanking collecting pipe 700 is arranged right below. Moving the rotating support plate 530 on the sliding track with the linear cylinder 510 as power translates the plug clamp 583 to a desired position; the DC PLUG is clamped or loosened by opening and closing the PLUG clamp 583 by taking the clamp cylinder 582 as power; selecting a corresponding copper clamping head 584 according to the specification of the DC PLUG clamping position to ensure that the DC PLUG is not scratched by the clamping force; when in polishing, the PLUG clamp 583 is rotated by taking the stepping motor 540 as power to enable the DC PLUG to rotate left and right by a set angle so as to realize polishing on the arc-shaped surface of the DC PLUG, and the arc length of the polishing area of the DC PLUG is controlled by adjusting the rotating angle of the stepping motor 540.

In an embodiment of the present invention, as shown in fig. 5, the feeding mechanism 400 includes: the device comprises a supporting seat 410, a feeding straight rail 420, a direction selecting sheet 430, a sweeping motor 440, a sweeping fixing sheet 450 and a sweeping binding belt 460; the supporting seat 410 is arranged on the main frame 100, the feeding straight rail 420 is arranged on the supporting seat 410, the direction selecting piece 430 is arranged on one side of the feeding straight rail 420 along the length direction, the sweeping motor 440 is arranged on one side of the feeding straight rail 420 departing from the direction selecting piece 430 through the sweeping fixing piece 450, one end of the sweeping binding belt 460 is connected with a moving shaft of the sweeping motor 440, and the other end of the sweeping binding belt is positioned above the feeding straight rail 420; wherein, the feeding end of the feeding straight rail 420 is connected with the feeding vibration disc 300, and the discharging end of the feeding straight rail 420 is provided with a blanking blocking sheet 470 and an in-place sensor 480. When the DC PLUG is not clamped at the feeding end of the direction selection piece 430 due to the direction, the 5 sweeping motors 440 drive the sweeping beam belts 460 to sweep the clamped DC PLUG, so that the clamped DC PLUG rotates, and when the DC PLUG is in the correct direction, the DC PLUG can be fed forwards along the direction selection piece 430.

In an embodiment of the present invention, as shown in fig. 1, the present invention further includes a human-machine control device 800, and the human-machine control device 800 is respectively connected to the sweeping motor 440, the clamp cylinder 582, the spindle motor 610, the linear cylinder 510, the in-place sensor 480 and the stepping motor 540.

In an embodiment of the present invention, as shown in fig. 4, one end of the sliding guide 520 away from the linear cylinder 510 is provided with a limit fixing plate 521, and the limit fixing plate 521 is provided with a hydraulic buffer 522 and a limit screw 523.

In an embodiment of the present invention, as shown in fig. 3, a photoelectric sensing switch 531 is disposed on the rotating support plate 530, a limit sensing piece 532 adapted to the photoelectric sensing switch 531 is disposed on the clip cylinder 582, and the photoelectric sensing switch 531 is connected to the human-machine control device 800. The DC PLUG is prevented from being damaged by over-rotation, when the limit position is reached, the photoelectric sensing switch 531 automatically sends a signal to the human machine control device 800, and the stepping motor 540 is immediately stopped to rotate.

The utility model discloses operation action flow: the DC PLUG (PLUG) is conveyed to a designated position through the feeding vibration disc 300 and the feeding mechanism 400, the in-place sensor 480 is triggered, the material clamping translation mechanism 500 translates to move the DC PLUG to the discharging end, and the PLUG clamp 583 and the copper clamp 584 clamp the DC PLUG and translate the DC PLUG to the polishing position; the spindle motor 610 drives the polishing tungsten steel blade to rotate to polish the DC PLUG coating, the stepping motor 540 drives the PLUG clamp 583 to enable the DC PLUG to rotate by a set angle left and right, the polishing tungsten steel blade polishes the coating with the required arc length on the arc surface of the DC PLUG, the industrial dust collector cleans the chips through the dust hood 614 during operation, the clamping material translation mechanism 500 translates the DC PLUG to the middle area position of the discharging end and the polishing position, then the PLUG clamp 583 opens, and the DC PLUG slides down and is guided into the material box through the blanking collecting pipe 700 (a silicone tube is connected to the outlet).

The above is only the preferred embodiment of the present invention, and not the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings or the direct or indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims

1. A DC plug plating layer polishing apparatus, comprising: the main frame and the vibration disc frame are arranged side by side; a feeding vibration disc is arranged on the vibration disc rack, a feeding mechanism is arranged on the main rack, the feeding end of the feeding mechanism is connected with the feeding vibration disc, a clamping translation mechanism is arranged outside the discharging end of the feeding mechanism, and a polishing mechanism is arranged above the clamping translation mechanism; the grinding mechanism includes: the device comprises a spindle motor, a cutter mounting rod, a polished tungsten steel blade, a sliding support plate, two support vertical plates, a linear guide rail fixing plate, a linear guide rail, a differential adjusting head, a head fixing plate and an extension spring; the two supporting vertical plates are arranged on the main rack in parallel, the linear guide rail fixing plate is horizontally arranged at the top ends of the two supporting vertical plates, the linear guide rail is arranged on the linear guide rail fixing plate, the sliding supporting plate is connected to the linear guide rail in a sliding mode, the spindle motor is arranged at one end of the sliding supporting plate in the moving direction through the motor fixing plate, the spindle motor is in transmission connection with the cutter rod, the polishing tungsten steel blade is arranged on the cutter rod, the head dividing fixing plate is arranged on one side, away from the spindle motor, of the sliding supporting plate, one end of the adjusting small head penetrates through the head dividing fixing plate and is in threaded connection with the sliding supporting plate, one end of the extension spring is connected with the sliding supporting plate, and the other end of the extension spring is connected with the head dividing fixing plate; the polishing device is characterized in that a dust collection fixing plate is arranged on the motor fixing plate, a dust collection cover is arranged at a position, corresponding to the polishing tungsten steel blade, of the dust collection fixing plate, a dust collection cover sealing cover is connected to the dust collection cover, the polishing tungsten steel blade is covered by the dust collection cover sealing cover, a notch is formed in the dust collection cover sealing cover, and the dust collection cover is connected with an industrial dust collector.

2. The DC plug coating polishing device of claim 1, wherein the clamping translation mechanism comprises a linear cylinder, a cylinder fixing seat, a sliding guide rail, a rotating support plate, a stepping motor, a coupler, a bearing, a rotating shaft, a cylinder fixing plate, a clamp cylinder, a plug clamp and a copper clamp head; the linear air cylinder is arranged on the main rack through the air cylinder fixing seat, the sliding guide rail is arranged on the main rack, and the moving directions of the sliding guide rail and the linear air cylinder are parallel; the utility model discloses a portable electronic device, including rotatory backup pad, linear cylinder, bearing, clamp cylinder, slide guide, linear cylinder, bearing, pivot fixed disk, rotatory backup pad passes through the slider and slides and set up on the sliding guide, the sharp cylinder pass through the floating joint with rotatory backup pad connects, step motor sets up the below of rotatory backup pad, step motor pass through the shaft coupling with the rotation axis is connected, the rotation axis is kept away from step motor's one end is passed rotatory backup pad and with the bearing is connected, the bearing with the cylinder fixed disk is connected, the clamp cylinder sets up on the cylinder fixed disk, the top of clamp cylinder is connected the plug clip, the exposed core of plug clip is provided with detachable copper chuck, be provided with the.

3. The DC plug plating buffing apparatus of claim 2 wherein the feed mechanism comprises: the device comprises a supporting seat, a feeding straight rail, a direction selecting sheet, a sweeping motor, a sweeping fixing sheet and a sweeping wire binding belt; the supporting seat is arranged on the main rack, the feeding straight rail is arranged on the supporting seat, the direction selecting piece is arranged on one side of the feeding straight rail along the length direction, the sweeping motor is arranged on one side of the feeding straight rail, which is far away from the direction selecting piece, through the sweeping fixing piece, one end of the sweeping binding belt is connected with a moving shaft of the sweeping motor, and the other end of the sweeping binding belt is positioned above the feeding straight rail; the feeding end of the feeding straight rail is connected with the feeding vibration disc, and the discharging end of the feeding straight rail is provided with a blanking separation blade and an in-place sensor.

4. The DC plug plating polishing apparatus of claim 3, further comprising a human-machine control device connected to the material sweeping motor, the clamp cylinder, the spindle motor, the linear cylinder, the in-position sensor, and the stepper motor, respectively.

5. The DC plug plating polishing apparatus of claim 3, wherein an end of the sliding guide away from the linear cylinder is provided with a limit fixing plate, and the limit fixing plate is provided with a hydraulic buffer and a limit screw.

6. The DC plug plating grinding device of claim 4, wherein a photoelectric sensing switch is arranged on the rotary supporting plate, a limit sensing piece matched with the photoelectric sensing switch is arranged on the clamp cylinder, and the photoelectric sensing switch is connected with the man-machine control device.