阅读说明：本技术 一种集成电路板生产加工设备 (Integrated circuit board production and processing equipment ) 是由 彭佳洲 于 2021-07-16 设计创作，主要内容包括：本发明涉及一种工程领域,更具体的说是一种集成电路板生产加工设备,可以改变推出原料板的速度,进而改变下料的速度；可以改变打磨板的高度,进而改变了对原料版表面打磨的程度,包括圆角装置、下料装置、打磨及冲洗装置、皮带以,推动电机二,电机二在电机底座上滑动,带动转轮五与转轮六接触位置改变,进而改变转轮六的转速,改变皮带二转速,进而改变了滑块一的转速,进而改变了推出原料板的速度；当转动扳手带动转轮十一转动,带动皮带十转动,进而带动两个螺杆转动,带动限位支架升高或者降低,带动打磨板升高或者降低,进而改变了对原料版表面打磨的程度。(The invention relates to the field of engineering, in particular to integrated circuit board production and processing equipment, which can change the speed of pushing out a raw material plate so as to change the blanking speed; the height of the grinding plate can be changed, so that the grinding degree of the surface of the raw material plate is changed, the grinding device comprises a fillet device, a blanking device, a grinding and flushing device and a belt, a second pushing motor is arranged on a base of the second motor, and the second motor slides on the base of the second motor to drive the contact position of a fifth rotating wheel and a sixth rotating wheel to be changed, so that the rotating speed of the sixth rotating wheel is changed, the rotating speed of the second belt is changed, the rotating speed of a first sliding block is changed, and the speed of pushing out the raw material plate is changed; when the rotary wrench drives the runner eleven to rotate, the belt is driven to rotate ten, and then the two screws are driven to rotate, the limiting support is driven to ascend or descend, the polishing plate is driven to ascend or descend, and then the polishing degree of the surface of the raw material plate is changed.)

1. The utility model provides an integrated circuit board production and processing equipment, includes fillet device (1), unloader (2), polishes and washing unit (3), belt with (4), its characterized in that: fillet device (1) is connected with unloader (2), and unloader (2) are connected with polishing and washing unit (3), and unloader (2) are connected with (4) with the belt, polish and washing unit (3) are connected with (4) with the belt.

2. The integrated circuit board production and processing device according to claim 1, wherein: the fillet device (1) comprises a motor I (1-1), a motor support I (1-2), a rotating wheel I (1-3), a rotating wheel II (1-4), a rotating wheel support I (1-5), a leg frame I (1-6), a connecting rod I (1-7), a gear I (1-8), a gear connecting rod I (1-9), a gear II (1-10), a connecting rod II (1-11), a rotating rod I (1-12), a spring I (1-13), a rotating rod II (1-14), a small motor (1-15), a cylindrical grinding stone (1-16), an arc groove (1-17), a baffle plate (1-18), a rotating rod III (1-19), a gear III (1-20), a gear IV (1-21), a gear V (1-22), A gear six (1-23), a long rod I (1-24), an underframe (1-25), a bearing plate I (1-26), a bearing plate II (1-27) and a long rod II (1-28), wherein a motor I (1-1) and a motor support I (1-2) are fixedly connected, the motor I (1-1) is fixedly connected with a rotating wheel I (1-3), the rotating wheel I (1-3) is matched and connected with the rotating wheel II (1-4), two leg supports (1-6) are fixedly connected with the rotating wheel support I (1-5), the rotating wheel II (1-4) is fixedly connected with a connecting rod I (1-7), the rotating wheel support I (1-5) is rotatably connected with the connecting rod I (1-7), the connecting rod I (1-7) is fixedly connected with the gear I (1-8), the gear connecting rods (1-9) are fixedly connected with the gear II (1-10), the four gear II (1-10) are in meshing transmission with the gear I (1-8), the four gear connecting rods (1-9) are in rotating connection with the rotating wheel brackets (1-5), the gear II (1-10) is fixedly connected with the connecting rod II (1-11), the connecting rod II (1-11) is fixedly connected with the rotating rod I (1-12), the two spring I (1-13) are fixedly connected with the rotating rod II (1-14), the rotating rod I (1-12) is in sliding connection with the rotating rod II (1-14), the rotating rod II (1-14) is fixedly connected with the small motor (1-15), the small motor (1-15) is fixedly connected with the cylindrical grinding stone (1-16), the cylindrical grindstone (1-16) is matched and connected with the arc groove (1-17), the arc groove (1-17) is fixedly connected with the baffle plate (1-18), the rotating rod three (1-19) is fixedly connected with the gear three (1-20), the gear three (1-20) is in meshing transmission with the gear four (1-21), the gear four (1-21) is in meshing transmission with the gear five (1-22), the gear five (1-22) is in meshing transmission with the gear six (1-23), the gear three (1-20) is fixedly connected with the long rod one (1-24), the long rod one (1-24) is rotatably connected with the bottom frame (1-25), the long rod one (1-24) is fixedly connected with the bearing plate one (1-26), and the four baffle plates (1-18) are all fixedly connected with the bottom frame (1-25), the gear six (1-23) is fixedly connected with the long rod two (1-28), the base frame (1-25) is rotatably connected with the long rod two (1-28), and the bearing plate two (1-27) is fixedly connected with the long rod two (1-28).

3. The integrated circuit board production and processing device according to claim 1, wherein: the blanking device (2) comprises a motor II (2-1), a rotating wheel V (2-2), a motor base (2-3), a rotating wheel VI (2-4), a belt II (2-5), a slide block I (2-6), a rotating wheel VII (2-7), a connecting rod VII (2-8), a rotating wheel VIII (2-9), a belt III (2-10), a rotating wheel nine (2-11), a support V (2-12), a connecting rod VIII (2-13), a roller I (2-14), a roller II (2-15), a connecting rod IX (2-16), a slide block II (2-17), a spring V (2-18), a support VI (2-19), a roller support (2-20) and a support (2-21), wherein the motor II (2-1) is fixedly connected with the rotating wheel V (2-2), the motor II (2-1) is connected with the motor base (2-3) in a sliding manner, the runner five (2-2) is connected with the runner six (2-4) in a matching manner, the runner six (2-4) is connected with the belt II (2-5) in a matching manner, the belt II (2-5) is fixedly connected with the slider I (2-6), the belt II (2-5) is connected with the runner seven (2-7) in a matching manner, the runner seven (2-7) is fixedly connected with the connecting rod seven (2-8), the two runner eight (2-9) are fixedly connected with the connecting rod seven (2-8), the two supports five (2-12) are rotatably connected with the connecting rod seven (2-8), the runner eight (2-9) is connected with the belt III (2-10) in a matching manner, the belt III (2-10) is connected with the runner nine (2-11) in a matching manner, the rotating wheel nine (2-11) is fixedly connected with the connecting rod eight (2-13), the connecting rod eight (2-13) is fixedly connected with the roller I (2-14), the roller II (2-15) is fixedly connected with the connecting rod nine (2-16), the two sliding blocks II (2-17) are rotatably connected with the connecting rod nine (2-16), the two springs five (2-18) are fixedly connected with the sliding blocks II (2-17), the four springs five (2-18) are fixedly connected with the roller supports (2-20), the two sliding blocks II (2-17) are fixedly connected with the roller supports (2-20) in a sliding manner, the roller supports (2-20) are fixedly connected with the supporting columns (2-21), the sliding blocks I (2-6) are slidably connected with the supporting supports six (2-19), the bottom frames (1-25) are fixedly connected with the supporting supports six (2-19), the rotating wheel nine (2-11) is connected with the belt I (4) in a matching way.

4. The integrated circuit board production and processing device according to claim 1, wherein: the polishing and flushing device (3) comprises a baffle II (3-1), a long rod transmission shaft (3-2), a rotating wheel ten (3-3), a belt IV (3-4), a motor III (3-5), a motor support II (3-6), a rotating rod seven (3-7), a rotating rod eight (3-8), a long notch (3-9), a polishing plate (3-10), a limiting support (3-11), a screw rod (3-12), a disc (3-13), a rotating wheel eleven (3-14), a belt ten (3-15), a connecting plate (3-16), a wrench (3-17), a belt eleven (3-18), a rotating wheel twelve (3-19), a rolling brush (3-20), a spray pipe support (3-21), a spray pipe (3-22), A divergent panel turnover machine (3-23), a panel collecting box (3-24), a clapboard (3-25), a spring fifteen (3-26), a half gear (3-27), a gear twenty (3-28) and a hot air blower (3-29), a plurality of long rod transmission shafts (3-2) are rotatably connected with a baffle II (3-1), the long rod transmission shafts (3-2) are fixedly connected with rotating wheel tens (3-3), a plurality of rotating wheel tens (3-3) are matched and connected with a belt IV (3-4), a motor III (3-5) is fixedly connected with a motor bracket II (3-6), the motor bracket II (3-6) is fixedly connected with a rotating rod VII (3-7), the rotating rod VII (3-7) is fixedly connected with a rotating rod VIII (3-8), the rotating rod VIII (3-8) is matched and connected with a long notch (3-9), the long notch (3-9) is fixedly connected with a polishing plate (3-10), the polishing plate (3-10) is connected with a limiting bracket (3-11) in a sliding manner, the baffle plate II (3-1) is connected with the limiting bracket (3-11) in a matching manner, two screw rods (3-12) are both rotatably connected with the limiting bracket (3-11), the screw rods (3-12) are fixedly connected with a disc (3-13), the screw rods (3-12) are fixedly connected with a runner eleven (3-14), the runner eleven (3-14) is fixedly connected with a wrench (3-17), the two runner eleven (3-14) are both connected with a belt eleven (3-15) in a matching manner, the two screw rods (3-12) are both connected with a connecting plate (3-16) in a threaded manner, the baffle plate II (3-1) is fixedly connected with the connecting plate (3-16), two rotating wheels twelve (3-19) are matched and connected with a belt eleven (3-18), a long rod transmission shaft (3-2) is matched and connected with the belt eleven (3-18), the rotating wheels twelve (3-19) are fixedly connected with rolling brushes (3-20), three water spray pipe supports (3-21) are fixedly connected with connecting plates (3-16), three water spray pipes (3-22) are fixedly connected with the water spray pipe supports (3-21), a divergent panel turnover machine (3-23) is fixedly connected with a gear twenty (3-28), a panel collecting box (3-24) is slidably connected with partition plates (3-25), four springs fifteen (3-26) are fixedly connected with the partition plates (3-25), and four springs fifteen (3-26) are fixedly connected with the panel collecting box (3-24), the belt IV (3-4) is connected with the half gear (3-27) in a matching mode, the half gear (3-27) is connected with the gear twenty (3-28) in a matching mode, the three air heaters (3-29) are fixedly connected with the baffle II (3-1), the two roller supports (2-20) are fixedly connected with the baffle II (3-1), and the rotating wheel IV (3-3) is connected with the belt I (4) in a matching mode.

Technical Field

The invention relates to the field of engineering, in particular to integrated circuit board production and processing equipment.

Background

The integrated circuit board production and processing equipment is a common engineering machine, for example, a mask assembly with patent number CN201510163074.1, a method for preparing an integrated circuit board, and an integrated circuit board, wherein the mask assembly comprises: the first mask is provided with a first light-transmitting pattern and a first light-tight pattern and is used for the first photoetching process treatment in the preparation process of the integrated circuit board, wherein the first light-transmitting pattern comprises a graph of a graphical mask layer above the first resistivity structure layer to be prepared; and the second mask is provided with a second light-transmitting pattern and a second light-tight pattern and used for the second photoetching process treatment in the preparation process of the integrated circuit board, wherein the second light-transmitting pattern comprises a graph of the second resistivity grid to be prepared. But the device can not automatically process the fillet, can not polish the raw materials and change the effect of polishing.

Disclosure of Invention

The invention aims to provide integrated circuit board production and processing equipment, which can change the speed of pushing out raw material plates and further change the blanking speed; the height of the grinding plate can be changed, and the grinding degree of the surface of the raw material plate is further changed.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an integrated circuit board production and processing equipment, includes fillet device, unloader, polishes and washing unit, belt with, the fillet device is connected with unloader, and unloader is connected with polishing and washing unit, and unloader is in order being connected with the belt, polishes and washing unit and in order being connected with the belt.

As a further optimization of the technical scheme, the invention relates to integrated circuit board production and processing equipment, wherein a fillet device comprises a motor I, a motor support I, a rotating wheel II, a rotating wheel support, leg frames, a connecting rod I, a gear connecting rod, a gear II, a connecting rod II, a rotating rod I, a spring I, a rotating rod II, a small motor, a cylindrical grinding stone, an arc groove, a baffle plate, a rotating rod III, a gear IV, a gear V, a gear VI, a long rod I, a bottom frame, a bearing plate I, a bearing plate II and a long rod II, the motor I is fixedly connected with the motor support I, the motor I is fixedly connected with the rotating wheel I, the rotating wheel I is connected with the rotating wheel II in a matching manner, the two leg frames are fixedly connected with the rotating wheel support, the rotating wheel support is connected with the connecting rod I in a rotating manner, the gear connecting rod is fixedly connected with the gear II, four second gears are all in meshed transmission with the first gear, four gear connecting rods are all in rotary connection with the rotating wheel bracket, the second gears are fixedly connected with the second connecting rods, the second connecting rods are fixedly connected with the first rotating rod, the first springs are all in fixed connection with the first rotating rod, the first rotating rod is in sliding connection with the second rotating rod, the second rotating rod is fixedly connected with a small motor, the small motor is fixedly connected with a cylindrical grinding stone, the cylindrical grinding stone is matched and connected with an arc groove, the arc groove is fixedly connected with a baffle, the third rotating rod is fixedly connected with the third gear, the third gear is in meshed transmission with the fourth gear, the fourth gear is in meshed transmission with the fifth gear, the fifth gear is in meshed transmission with the sixth gear, the third gear is fixedly connected with the first long rod, the first long rod is in rotary connection with the bottom frame, the first long rod is fixedly connected with the bearing plate, the four baffles are all in fixed connection with the bottom frame, and the sixth gear is fixedly connected with the second long rod, the base frame is rotatably connected with the second long rod, and the second bearing plate is fixedly connected with the second long rod.

As a further optimization of the technical scheme, the invention relates to integrated circuit board production and processing equipment, which comprises a second motor, a fifth rotating wheel, a base of the motor, a sixth rotating wheel, a second belt, a first sliding block, a seventh rotating wheel, a seventh connecting rod, an eighth rotating wheel, a third belt, a ninth rotating wheel, a fifth support, an eighth connecting rod, a first roller, a second roller, a ninth connecting rod, a second sliding block, a fifth spring, a sixth support, a first roller support and a support, wherein the second motor is fixedly connected with the fifth rotating wheel, the second motor is slidably connected with the base of the motor, the fifth rotating wheel is in matched connection with the sixth rotating wheel, the sixth rotating wheel is in matched connection with the second belt, the second belt is fixedly connected with the first sliding block, the second belt is in matched connection with the seventh rotating wheel, the seventh rotating wheel is fixedly connected with the seventh connecting rod, the eighth rotating wheel is in rotated connection with the seventh connecting rod, and the eighth wheel is in matched connection with the third belt, the belt III is connected with the rotating wheel III in a matched mode, the rotating wheel III is fixedly connected with the connecting rod VIII, the connecting rod VIII is fixedly connected with the roller I, the roller II is fixedly connected with the connecting rod IX, the two sliding blocks II are rotatably connected with the connecting rod IX, the two springs V are fixedly connected with the sliding blocks II, the four springs V are fixedly connected with the roller support, the two sliding blocks II are fixedly connected with the roller support in a sliding mode, the roller support is fixedly connected with the supporting column, the sliding blocks I are connected with the support in a sliding mode, the bottom frame is fixedly connected with the support in a sliding mode, and the rotating wheel III is connected with the belt I in a matched mode.

As a further optimization of the technical scheme, the polishing and washing device comprises a second baffle plate, a long rod conveying shaft, a tenth rotating wheel, a fourth belt, a third motor, a second motor support, a seventh rotating rod, an eighth rotating rod, a long notch, a polishing plate, a limiting support, a screw rod, a disc, an eleventh rotating wheel, a tenth belt, a connecting plate, a wrench, an eleventh belt, a twelfth rotating wheel, a rolling brush, a water spray pipe support, a water spray pipe, a divergent panel turnover machine, a panel collecting box, a partition plate, a fifteenth spring, a half gear, a twenty gear and a hot air blower, wherein the long rod conveying shafts are rotatably connected with the second baffle plate, the long rod conveying shafts are fixedly connected with the tenth rotating wheel, the tenth rotating wheels are cooperatively connected with the fourth belt, the third motor is fixedly connected with the second motor support, the second motor support is fixedly connected with the seventh rotating rod, the seventh rotating rod is fixedly connected with the eighth rotating rod, and the long notch are cooperatively connected, the long notch is fixedly connected with the polishing plate, the polishing plate is connected with the limiting support in a sliding manner, the baffle plate II is connected with the limiting support in a matching manner, the two screw rods are both rotatably connected with the limiting support, the screw rods are fixedly connected with the disc, the screw rods are fixedly connected with the eleventh rotating wheels, the eleventh rotating wheels are fixedly connected with the wrench, the eleventh rotating wheels are both connected with the tenth belt in a matching manner, the two screw rods are both connected with the connecting plate in a threaded manner, the baffle plate II is fixedly connected with the connecting plate, the twelfth rotating wheels are both connected with the eleventh belt in a matching manner, the long rod conveying shaft is connected with the eleventh belt in a matching manner, the twelfth rotating wheels are fixedly connected with the rolling brush, the three water spray pipe supports are all fixedly connected with the connecting plate, the three water spray pipes are all fixedly connected with the water spray pipe supports, the divergent type panel turnover machine is fixedly connected with the gear twenty, the panel collection box is connected with the partition plate in a sliding manner, the four springs fifteen are all fixedly connected with the panel collection box, the fourth belt is connected with the half gear in a matched mode, the half gear is connected with the twenty gear in a matched mode, the three air heaters are fixedly connected with the second baffle, the two roller supports are fixedly connected with the second baffle, and the rotating wheel is connected with the first belt in a matched mode.

The integrated circuit board production and processing equipment has the beneficial effects that:

according to the integrated circuit board production and processing equipment, the second motor is pushed and slides on the base of the second motor to drive the contact position of the fifth rotating wheel and the sixth rotating wheel to change, so that the rotating speed of the sixth rotating wheel is changed, the rotating speed of the second belt is changed, the rotating speed of the first sliding block is changed, and the speed of pushing out a raw material plate is changed; when the rotary wrench drives the runner eleven to rotate, the belt is driven to rotate ten, and then the two screws are driven to rotate, the limiting support is driven to ascend or descend, the polishing plate is driven to ascend or descend, and then the polishing degree of the surface of the raw material plate is changed.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of the radius device of the present invention;

FIG. 4 is a second schematic view of the radius device of the present invention;

FIG. 5 is a third schematic view of the radius device of the present invention;

figure 6 is a fourth schematic view of the radius device of the present invention;

FIG. 7 is a fifth schematic view of the radius device of the present invention;

FIG. 8 is a first schematic structural diagram of a blanking device according to the present invention;

FIG. 9 is a second schematic structural view of the blanking apparatus of the present invention;

FIG. 10 is a third schematic structural view of a blanking device according to the present invention;

FIG. 11 is a first schematic view of the polishing and rinsing apparatus of the present invention;

FIG. 12 is a schematic structural view of a second polishing and rinsing apparatus according to the present invention;

FIG. 13 is a third schematic structural view of a polishing and rinsing apparatus according to the present invention;

fig. 14 is a fourth schematic structural view of the polishing and rinsing device of the present invention.

In the figure: a fillet device 1; 1-1 of a motor I; 1-2 parts of a motor bracket I; 1-3 of a first rotating wheel; 1-4 of a second rotating wheel; 1-5 of a rotating wheel bracket; 1-6 of a leg frame; 1-7 of a first connecting rod; 1-8 of a first gear; gear connecting rods 1-9; 1-10 parts of a second gear; connecting rods II 1-11; 1-12 of a rotating rod I; 1-13 parts of a first spring; a second rotating rod 1-14; 1-15 of a small motor; 1-16 parts of cylindrical grindstone; 1-17 of arc groove; baffles 1-18; rotating rods three 1-19; 1-20 parts of gear III; gears four 1-21; gears five 1-22; six gears 1-23; the long rod I is 1-24; a chassis 1-25; 1-26 parts of a bearing plate I; a second bearing plate 1-27; a second long rod 1-28; a blanking device 2; a second motor 2-1; 2-2 parts of a rotating wheel; 2-3 of a motor base; 2-4 parts of a rotating wheel; 2-5 parts of a second belt; 2-6 parts of a first sliding block; 2-7 parts of a rotating wheel seven; 2-8 parts of a connecting rod seven; eight 2-9 rotating wheels; 2-10 parts of a third belt; nine 2-11 rotating wheels; 2-12 parts of a bracket; eight 2-13 connecting rods; 2-14 parts of rollers; 2-15 parts of a second roller; nine 2-16 connecting rods; 2-17 parts of a second sliding block; five springs 2-18; six supports 2-19; 2-20 parts of roller bracket; struts 2-21; a polishing and washing device 3; a second baffle plate 3-1; a long rod transmission shaft 3-2; ten 3-3 parts of rotating wheel; a fourth belt 3-4; 3-5 of a motor III; 3-6 parts of a motor bracket II; 3-7 of a rotating rod seven; eight rotating rods 3-8; 3-9 of a long notch; grinding the plate 3-10; 3-11 parts of a limiting bracket; 3-12 parts of screw; 3-13 of a disc; eleven rotating wheels 3-14; ten 3-15 parts of a belt; connecting plates 3-16; 3-17 parts of a wrench; eleven belts 3-18; twelve rotating wheels 3-19; 3-20 parts of rolling brush; 3-21 parts of a spray pipe bracket; 3-22 parts of a spray pipe; a divergent panel turnover machine 3-23; 3-24 of a plate collecting box; 3-25 of a clapboard; fifteen springs 3-26; 3-27 parts of half gear; twenty 3-28 of gears; 3-29 of a hot air blower; a first belt 4.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 14, and an integrated circuit board production and processing apparatus includes a fillet device 1, a blanking device 2, a polishing and flushing device 3, and a belt 4, where the fillet device 1 is connected to the blanking device 2, the blanking device 2 is connected to the polishing and flushing device 3, the blanking device 2 is connected to the belt 4, and the polishing and flushing device 3 is connected to the belt 4.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 14, and the present embodiment further describes the first embodiment, where the fillet device 1 includes a first motor 1-1, a first motor bracket 1-2, a first wheel 1-3, a second wheel 1-4, a first wheel bracket 1-5, a leg frame 1-6, a first connecting rod 1-7, a first gear 1-8, a gear connecting rod 1-9, a second gear 1-10, a second connecting rod 1-11, a first rotating rod 1-12, a first spring 1-13, a second rotating rod 1-14, a small motor 1-15, a cylindrical grinding stone 1-16, an arc groove 1-17, a baffle 1-18, a third rotating rod 1-19, a third gear 1-20, a fourth gear 1-21, a fifth gear 1-22, a sixth gear 1-23, a third gear 1-9, a fourth gear 1-21, a fifth gear 1-22, a sixth gear 1-23, a fourth gear 1-6, a third gear, a fourth gear, a, A first long rod 1-24, a first underframe 1-25, a first bearing plate 1-26, a second bearing plate 1-27, a second long rod 1-28, a first motor 1-1, a first motor support 1-2, a first motor 1-1, a first rotating wheel 1-3, a second rotating wheel 1-4, two leg supports 1-6, a first rotating wheel support 1-5, a second rotating wheel 1-4, a first connecting rod 1-7, a first rotating wheel support 1-5, a first connecting rod 1-7, a first gear 1-8, a second gear 1-9, a first gear 1-10, four second gears 1-10, a first gear 1-8, four gear connecting rods 1-9 and a second rotating wheel support 1-5, a gear II 1-10 is fixedly connected with a connecting rod II 1-11, the connecting rod II 1-11 is fixedly connected with a rotating rod I1-12, two springs I1-13 are fixedly connected with the rotating rod II 1-14, the rotating rod I1-12 is slidably connected with the rotating rod II 1-14, the rotating rod II 1-14 is fixedly connected with a small motor 1-15, the small motor 1-15 is fixedly connected with a cylindrical grinding stone 1-16, the cylindrical grinding stone 1-16 is matched and connected with an arc groove 1-17, the arc groove 1-17 is fixedly connected with a baffle plate 1-18, the rotating rod III 1-19 is fixedly connected with a gear III 1-20, the gear III 1-20 is engaged and driven with a gear IV 1-21, the gear IV 1-21 is engaged and driven with a gear IV 1-22, the five gears 1-22 are in meshed transmission with the six gears 1-23, the three gears 1-20 are fixedly connected with the first long rods 1-24, the first long rods 1-24 are rotatably connected with the underframe 1-25, the first long rods 1-24 are fixedly connected with the first bearing plates 1-26, the four baffle plates 1-18 are fixedly connected with the underframe 1-25, the six gears 1-23 are fixedly connected with the second long rods 1-28, the underframe 1-25 is rotatably connected with the second long rods 1-28, and the second bearing plates 1-27 are fixedly connected with the second long rods 1-28;

placing the raw material plate in the middle of the four baffle plates 1-18, starting the motor I1-1 to drive the rotating wheel I1-3 to rotate, driving the rotating wheel II 1-4 to rotate, driving the connecting rod I1-7 to rotate, driving the gear I1-8 to rotate, driving the four gear II 1-10 to rotate, further driving the four connecting rod II 1-11 to rotate, driving the rotating rod I1-12 to rotate, driving the rotating rod II 1-14 to rotate, driving the small motor 1-15 to move, driving the cylindrical grinding stones 1-16 to slide in the arc grooves 1-17, simultaneously starting the small motor 1-15, driving the four cylindrical grinding stones 1-16 to rotate at high speed, further grinding the four corners of the raw material plate by the four cylindrical grinding stones 1-16, rotating the rotating rod III 1-19 to drive the gear III 1-20 to rotate, and driving the long rod I1-24 to rotate, the bearing plates I1-26 are driven to downwards turn by taking the long rods I1-24 as the axial direction, meanwhile, the gears III 1-20 rotate to drive the gears IV 1-21 to rotate to drive the gears V1-22 to rotate to drive the gears VI 1-23 to rotate to drive the long rods II 1-28 to rotate, further, the bearing plates II 1-27 are driven to downwards turn by taking the long rods II 1-28 as the axial direction, and further, raw material plates with round corners ground fall into the blanking device 2.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-14, the blanking device 2 includes a second motor 2-1, a fifth rotating wheel 2-2, a base 2-3, a sixth rotating wheel 2-4, a second belt 2-5, a first slider 2-6, a seventh rotating wheel 2-7, a seventh connecting rod 2-8, an eighth rotating wheel 2-9, a third belt 2-10, a ninth rotating wheel 2-11, a fifth support 2-12, an eighth connecting rod 2-13, a first roller 2-14, a second roller 2-15, a ninth connecting rod 2-16, a second slider 2-17, a fifth spring 2-18, a sixth support 2-19, a fifth roller support 2-20, and a second support column 2-21, the second motor 2-1 is fixedly connected with the fifth rotating wheel 2-2, the motor II 2-1 is in sliding connection with the motor base 2-3, the rotating wheel V2-2 is in matching connection with the rotating wheel VI 2-4, the rotating wheel VI 2-4 is in matching connection with the belt II 2-5, the belt II 2-5 is fixedly connected with the sliding block I2-6, the belt II 2-5 is in matching connection with the rotating wheel VII 2-7, the rotating wheel VII 2-7 is fixedly connected with the connecting rod VII 2-8, the two rotating wheels VIII 2-9 are both fixedly connected with the connecting rod VII 2-8, the two supports V2-12 are both rotatably connected with the connecting rod VII 2-8, the rotating wheel VIII 2-9 is in matching connection with the belt III 2-10, the belt III 2-10 is in matching connection with the rotating wheel IX 2-11, the rotating wheel IX 2-11 is fixedly connected with the connecting rod VIII 2-13, the connecting rod VIII 2-13 is fixedly connected with the roller I2-14, the roller II 2-15 is fixedly connected with the connecting rod nine 2-16, the two sliding blocks II 2-17 are rotatably connected with the connecting rod nine 2-16, the two spring V2-18 are fixedly connected with the sliding block II 2-17, the four spring V2-18 are fixedly connected with the roller bracket 2-20, the two sliding block II 2-17 are fixedly connected with the roller bracket 2-20 in a sliding manner, the roller bracket 2-20 is fixedly connected with the supporting column 2-21, the sliding block I2-6 is slidably connected with the bracket VI 2-19, the bottom frame 1-25 is fixedly connected with the bracket VI 2-19, and the rotating wheel nine 2-11 is connected with the belt I4 in a matching manner;

starting a second motor 2-1 to drive a fifth rotating wheel 2-2 to rotate, driving a sixth rotating wheel 2-4 to rotate, driving a second belt 2-5 to rotate, driving a first sliding block 2-6 to rotate around the second belt 2-5, further driving the first sliding block 2-6 to push out the lowest raw material plate in a bracket six 2-19, driving a second belt 2-5 to rotate, driving a seventh rotating wheel 2-7 to rotate, driving a seventh connecting rod 2-8 to rotate, driving two eighth rotating wheels 2-9 to rotate, driving two third belts 2-10 to rotate, driving a ninth rotating wheel 2-11 to rotate, driving a eighth connecting rod 2-13 to rotate, driving a first roller 2-14 to rotate, enabling the pushed-out raw material plate to enter between a first roller 2-14 and a second roller 2-15, and conveying the raw material plate to the polishing and washing device 3 along with the rotation of the first roller 2-14, when a raw material plate with uneven thickness is encountered, the two sliding blocks II 2-17 and the four springs V2-18 play a buffering role, the two support columns 2-2 limit the minimum distance between the roller I2-14 and the roller II 2-15, when the motor II 2-1 is pushed, the motor II 2-1 slides on the motor base 2-3 to drive the contact position of the rotating wheel V2-2 and the rotating wheel V2-4 to change, further change the rotating speed of the rotating wheel V2-4, change the rotating speed of the belt II 2-5, further change the rotating speed of the sliding blocks I2-6, and further change the speed of pushing the raw material plate.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment will be further described, wherein the polishing and rinsing device 3 comprises a baffle plate II 3-1, a long rod transmission shaft 3-2, a rotating wheel III 3-3, a belt IV 3-4, a motor III 3-5, a motor support II 3-6, a rotating rod VII 3-7, a rotating rod VIII 3-8, a long notch 3-9, a polishing plate 3-10, a limit support 3-11, a screw rod 3-12, a circular disc 3-13, a rotating wheel IV 3-14, a belt IV 3-15, a connecting plate 3-16, a wrench 3-17, a belt IV 3-18, a rotating wheel IV 3-19, a rolling brush 3-20, a spray pipe support 3-21, a spray pipe 3-22, a divergent plate turnover machine 3-23, a water spray pipe support 3-21, a spray pipe support 3-22, a divergent plate turnover machine 3-23, a divergent plate turnover machine 3-15, a water spray pipe support 3-9, a rotary pipe, a, 3-24 parts of a plate collecting box, 3-25 parts of a partition plate, 3-26 parts of a spring, 3-27 parts of a half gear, 3-28 parts of a gear, 3-29 parts of a hot air blower, 3-2 parts of a plurality of long rod transmission shafts, 3-1 parts of a baffle plate, 3-2 parts of the long rod transmission shafts, 3-3 parts of rotating wheels, 3-3 parts of a plurality of rotating wheels, 3-4 parts of a belt, 3-5 parts of a motor, 3-6 parts of a motor bracket, 3-6 parts of the motor bracket, 3-7 parts of a rotating rod, 3-7 parts of the rotating rod, eight 3-8 parts of the rotating rod, eight 3-9 parts of the rotating rod, 3-9 parts of a long notch, 3-10 parts of a polishing plate, 3-10 parts of the polishing plate and 3-11 parts of a limiting bracket, the baffle II 3-1 is matched and connected with the limiting bracket 3-11, the two screws 3-12 are both rotationally connected with the limiting bracket 3-11, the screws 3-12 are fixedly connected with the disc 3-13, the screws 3-12 are fixedly connected with the runner eleven 3-14, the runner eleven 3-14 is fixedly connected with the wrench 3-17, the two runner eleven 3-14 is both matched and connected with the belt eleven 3-15, the two screws 3-12 are both in threaded connection with the connecting plate 3-16, the baffle II 3-1 is fixedly connected with the connecting plate 3-16, the two runner twelve 3-19 is both matched and connected with the belt eleven 3-18, the long rod transmission shaft 3-2 is matched and connected with the belt eleven 3-18, and the runner twelve 3-19 is fixedly connected with the rolling brush 3-20, three water spray pipe supports 3-21 are fixedly connected with connecting plates 3-16, three water spray pipes 3-22 are fixedly connected with the water spray pipe supports 3-21, a divergent panel turnover machine 3-23 is fixedly connected with gears twenty 3-28, a panel collection box 3-24 is slidably connected with partition plates 3-25, four springs fifteen 3-26 are fixedly connected with the panel collection box 3-24, a belt four 3-4 is in fit connection with a half gear 3-27, the half gear 3-27 is in fit connection with the gears twenty 3-28, three air heaters 3-29 are fixedly connected with a baffle plate two 3-1, two roller supports 2-20 are fixedly connected with a baffle plate two 3-1, and a rotating wheel ten 3-3 is in fit connection with the belt one 4;

raw material plates enter the long rod conveying shaft 3-2, the rotating wheel nine 2-11 rotates to drive the belt to rotate by 4, the rotating wheel ten 3-3 is driven to rotate, the long rod conveying shaft 3-2 is driven to rotate, the long rod conveying shafts 3-2 are driven to rotate by the belt four 3-4, the raw material plates are further conveyed forwards, the starting motor three 3-5 drives the rotating rod seven 3-7 to rotate, the rotating rod eight 3-8 is driven to rotate, the long notch 3-9 is driven to reciprocate leftwards and rightwards, the polishing plate 3-10 polishes the raw material plates, the polished raw material plates move below the two groups of rolling brushes 3-20, the two rotating wheels twelve 3-19 are driven to rotate by the belt eleven 3-18, the two rolling brushes 3-20 are driven to rotate, and nine groups of water spraying pipes 3-22 simultaneously discharge water, then, raw material plates are scrubbed, the scrubbed raw material plates enter between two sets of fan blades of a divergent plate turnover machine 3-23, a belt four 3-4 rotates to drive a half gear 3-27 to rotate, a gear twenty 3-28 intermittently rotates to drive the divergent plate turnover machine 3-23 intermittently rotates, three sets of air heaters 3-29 dry the raw material plates on the divergent plate turnover machine 3-23, the dried raw material plates slide into a plate receiving box 3-24, four springs fifteen 3-26 are compressed, a partition plate 3-25 descends to facilitate the recovery of raw materials, when a rotary wrench 3-17 drives a rotary wheel eleven 3-14 to rotate, a belt ten 3-15 is driven to rotate, two screw rods 3-12 are driven to rotate, a limiting support 3-11 is driven to rise or fall, and a grinding plate 3-10 is driven to rise or fall, thereby changing the degree of polishing the surface of the raw material plate.

The invention relates to integrated circuit board production and processing equipment, which has the working principle that: placing the raw material plate in the middle of the four baffle plates 1-18, starting the motor I1-1 to drive the rotating wheel I1-3 to rotate, driving the rotating wheel II 1-4 to rotate, driving the connecting rod I1-7 to rotate, driving the gear I1-8 to rotate, driving the four gear II 1-10 to rotate, further driving the four connecting rod II 1-11 to rotate, driving the rotating rod I1-12 to rotate, driving the rotating rod II 1-14 to rotate, driving the small motor 1-15 to move, driving the cylindrical grinding stones 1-16 to slide in the arc grooves 1-17, simultaneously starting the small motor 1-15, driving the four cylindrical grinding stones 1-16 to rotate at high speed, further grinding the four corners of the raw material plate by the four cylindrical grinding stones 1-16, rotating the rotating rod III 1-19 to drive the gear III 1-20 to rotate, and driving the long rod I1-24 to rotate, further driving the bearing plates I1-26 to turn downwards by taking the long rods I1-24 as an axial direction, simultaneously driving the gears III 1-20 to rotate to drive the gears IV 1-21 to rotate, driving the gears V1-22 to rotate, driving the gears VI 1-23 to rotate, driving the long rods II 1-28 to rotate, further driving the bearing plates II 1-27 to turn downwards by taking the long rods II 1-28 as an axial direction, and further leading the raw material plates with ground round corners to fall into the blanking device 2; starting a second motor 2-1 to drive a fifth rotating wheel 2-2 to rotate, driving a sixth rotating wheel 2-4 to rotate, driving a second belt 2-5 to rotate, driving a first sliding block 2-6 to rotate around the second belt 2-5, further driving the first sliding block 2-6 to push out the lowest raw material plate in a bracket six 2-19, driving a second belt 2-5 to rotate, driving a seventh rotating wheel 2-7 to rotate, driving a seventh connecting rod 2-8 to rotate, driving two eighth rotating wheels 2-9 to rotate, driving two third belts 2-10 to rotate, driving a ninth rotating wheel 2-11 to rotate, driving a eighth connecting rod 2-13 to rotate, driving a first roller 2-14 to rotate, enabling the pushed-out raw material plate to enter between a first roller 2-14 and a second roller 2-15, and conveying the raw material plate to the polishing and washing device 3 along with the rotation of the first roller 2-14, when a raw material plate with uneven thickness is encountered, the two sliding blocks II 2-17 and the four springs V2-18 play a role in buffering, the two support columns 2-2 limit the minimum distance between the roller I2-14 and the roller II 2-15, when the motor II 2-1 is pushed, the motor II 2-1 slides on the motor base 2-3 to drive the contact position of the rotating wheel V2-2 and the rotating wheel VI 2-4 to change, further change the rotating speed of the rotating wheel VI 2-4, change the rotating speed of the belt II 2-5, further change the rotating speed of the sliding blocks I2-6, and further change the speed of pushing the raw material plate; raw material plates enter the long rod conveying shaft 3-2, the rotating wheel nine 2-11 rotates to drive the belt to rotate by 4, the rotating wheel ten 3-3 is driven to rotate, the long rod conveying shaft 3-2 is driven to rotate, the long rod conveying shafts 3-2 are driven to rotate by the belt four 3-4, the raw material plates are further conveyed forwards, the starting motor three 3-5 drives the rotating rod seven 3-7 to rotate, the rotating rod eight 3-8 is driven to rotate, the long notch 3-9 is driven to reciprocate leftwards and rightwards, the polishing plate 3-10 polishes the raw material plates, the polished raw material plates move below the two groups of rolling brushes 3-20, the two rotating wheels twelve 3-19 are driven to rotate by the belt eleven 3-18, the two rolling brushes 3-20 are driven to rotate, and nine groups of water spraying pipes 3-22 simultaneously discharge water, then, raw material plates are scrubbed, the scrubbed raw material plates enter between two sets of fan blades of a divergent plate turnover machine 3-23, a belt four 3-4 rotates to drive a half gear 3-27 to rotate, a gear twenty 3-28 intermittently rotates to drive the divergent plate turnover machine 3-23 intermittently rotates, three sets of air heaters 3-29 dry the raw material plates on the divergent plate turnover machine 3-23, the dried raw material plates slide into a plate receiving box 3-24, four springs fifteen 3-26 are compressed, a partition plate 3-25 descends to facilitate the recovery of raw materials, when a rotary wrench 3-17 drives a rotary wheel eleven 3-14 to rotate, a belt ten 3-15 is driven to rotate, two screw rods 3-12 are driven to rotate, a limiting support 3-11 is driven to rise or fall, and a grinding plate 3-10 is driven to rise or fall, thereby changing the degree of polishing the surface of the raw material plate.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.