Disclosure of Invention
The present invention is directed to a substrate processing apparatus for overcoming the above-mentioned disadvantages of the prior art.
According to the substrate processing device of the embodiment of the invention, the substrate processing device comprises a box body, a first meshing cavity is arranged in the box body, a first motor for providing power is fixedly arranged in the inner wall of the rear side of the first meshing cavity, a second meshing cavity is arranged on the front side of the first meshing cavity, a transmission rod penetrating through the inner wall of the rear side of the second meshing cavity is fixedly arranged on the front end face of a forward output shaft of the first motor, a first gear is fixedly arranged on the transmission rod, a glass cloth cavity is arranged on the front side of the first meshing cavity, a first transmission cavity is arranged on the rear side of the first meshing cavity, a first rotating rod penetrating through the front side of the first transmission cavity is rotatably arranged on the inner wall of the front side of the glass cloth cavity in a matched manner, a second gear is fixedly arranged in the first meshing cavity on the first rotating rod, and the second gear is meshed with the first gear, the second meshing cavity rear side is provided with a copper foil cavity, the second meshing cavity front side is provided with a second transmission cavity, the inner wall of the copper foil cavity rear side is internally and rotatably matched with a second rotating rod which is arranged on the inner wall of the second transmission cavity rear side in a rotating way and penetrates through the inner wall of the second transmission cavity rear side, the second rotating rod is fixedly arranged in the second meshing cavity and is meshed with the sector gear, when the first motor is started, the first motor drives the transmission rod to rotate, the transmission rod rotates to drive the first gear and the sector gear to rotate, so that the first rotating rod and the second rotating rod rotate, the sector gear and the first gear structure are different, the second rotating rod and the first rotating rod are different in rotating number, and the glass cloth cavity and the right side of the copper foil cavity are provided with a cutting mechanism with a cutting function, the cutting mechanism is provided with an auxiliary mechanism for conveying and pressing, the auxiliary mechanism comprises a fixed box fixedly mounted on the right end face of the box body, a hydraulic pump is fixedly mounted in the fixed box, a hydraulic rod is fixedly mounted on the bottom end face of the hydraulic pump, and a pressed block for pressing is fixedly mounted on the bottom end face of the hydraulic rod.
According to a further technical scheme, the cutting mechanism further comprises a glass cloth fixedly mounted on the first rotating rod, a copper foil is fixedly mounted on the second rotating rod, a cutting cavity is formed in the glass cloth cavity and is communicated with the right side of the copper foil cavity, a knife rest is mounted in the cutting cavity in a sliding fit mode, a first spring is fixedly mounted between the top end face of the knife rest and the top wall of the cutting cavity, a blade is fixedly mounted on the bottom end face of the knife rest, a fourth gear is fixedly mounted on the rear end face of the first rotating rod, a first cutting rod is rotatably mounted between the first transmission cavity and the cutting cavity on the upper side in a matching mode, a fifth gear is fixedly mounted on the rear end face of the first cutting rod, a first chain is rotatably mounted between the fifth gear and the fourth gear in a matching mode, a sixth gear is fixedly mounted on the front end face of the second rotating rod, and a second cutting rod is rotatably mounted between the second transmission cavity and the cutting cavity on the lower side in a matching mode, the utility model discloses a cutting device, including first cutting pole, first chain, second cutting pole front end face fixed mounting seventh gear, seventh gear with transmission cooperation installation second chain between the sixth gear, second cutting pole rear end face with first cutting pole front end face fixed mounting eccentric wheel, cutting chamber right side intercommunication is equipped with the chamber of stacking, symmetrical fixed mounting fixed block around the chamber right side inner wall stacks, around the fixed block normal running fit installation dead lever between the fixed block, fixed mounting spring plate on the dead lever, spring plate bottom end with stack fixed mounting second spring between the chamber right side inner wall.
According to a further technical scheme, the auxiliary mechanism further comprises a conveying cavity communicated with and arranged below the stacking cavity, a second motor is fixedly installed in the inner wall of the rear side of the conveying cavity, a conveying rod is fixedly installed on the end face of the front side of a forward output shaft of the second motor, auxiliary plates are symmetrically and fixedly installed on the front side and the rear side of the end face of the right side of the box body, the auxiliary plates are installed in a rotating and matching mode, conveying wheels are fixedly installed on the conveying rod and the auxiliary plates, a belt is installed between the left conveying wheel and the right conveying wheel in a transmission and matching mode, and a connecting block is fixedly installed between the front auxiliary plate and the rear auxiliary plate.
The using method comprises the following steps: when the cutting knife is used, when the first motor is started, the first motor drives the transmission rod to rotate, the transmission rod rotates to drive the first gear and the sector gear to rotate, so that the first transmission rod and the second transmission rod rotate, the second transmission rod and the first transmission rod rotate in different numbers of turns through the difference of the sector gear and the first gear structure, when the blade cuts, the first transmission rod rotates to drive the fourth gear to rotate, the fourth gear drives the fifth gear to rotate through the first chain transmission, the fifth gear drives the first cutting rod to rotate, the second transmission rod rotates to drive the sixth gear to rotate, the sixth gear drives the seventh gear to rotate through the second chain transmission, the seventh gear rotates to drive the second cutting rod to rotate, so that the eccentric wheel rotates to push the knife rest to move downwards, and the blade cuts copper foil and glass cloth, the blade of downside is once the back to the copper foil cutting, the blade of upside is to glass cloth cutting quartic, then through the spring board whereabouts, the blade of downside cuts once more, after cutting mechanism's coincidence is accomplished, the second motor starts to drive the transfer line and rotates, the transfer line rotates and drives the transfer gear and rotate, the transfer gear drives the auxiliary rod through belt transmission and rotates, the belt is carried glass cloth and copper foil after the cutting, then the hydraulic pump starts to drive the hydraulic stem flexible, the briquetting compresses glass cloth and copper foil.
Detailed Description
The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
Referring to fig. 1 to 6, a substrate processing apparatus according to an embodiment of the present invention uses a substrate processing apparatus, the substrate processing apparatus includes a housing 11, a first engagement cavity 43 is provided in the housing 11, a first motor 41 for providing power is fixedly installed in a rear inner wall of the first engagement cavity 43, a second engagement cavity 45 is provided in a front side of the first engagement cavity 43, a transmission rod 44 penetrating through a rear inner wall of the second engagement cavity 45 is fixedly installed on a front side end surface of a forward output shaft of the first motor 41, a first gear 42 is fixedly installed on the transmission rod 44, a glass cloth cavity 12 is provided in a front side of the first engagement cavity 43, a first transmission cavity 51 is provided in a rear side of the first engagement cavity 43, a first rotation rod 14 penetrating through a front side of the first transmission cavity 51 is rotatably installed in a matching manner in a front inner wall of the glass cloth cavity 12, a second gear 57 is fixedly installed on the first rotation rod 14 in the first engagement cavity 43, second gear 57 with first gear 42 meshes, second meshing chamber 45 rear side is equipped with copper foil chamber 18, second meshing chamber 45 front side is equipped with second transmission chamber 48, copper foil chamber 18 rear side inner wall internal rotation cooperation installation runs through the second dwang 17 of second transmission chamber 48 rear side inner wall, lie in on the second dwang 17 fixed mounting third gear 47 in second meshing chamber 45, third gear 47 with sector gear 46 meshes, works as when first motor 41 starts, first motor 41 drives transfer line 44 rotates, transfer line 44 rotates and drives first gear 42 with sector gear 46 rotates, makes first dwang 14 with second dwang 17 rotates, through sector gear 46 with the difference of first gear 42 structure makes second dwang 17 with first dwang 14 pivoted number of turns is different, the glass cloth cavity 12 with the copper foil cavity 18 right side is equipped with cutting mechanism 80 that has the cutting function, cutting mechanism 80 below is equipped with the complementary unit 90 that is used for carrying and suppresses, complementary unit 90 is including fixed mounting in the fixed case 28 of box 11 right side terminal surface, fixed mounting hydraulic pump 29 in the fixed case 28, hydraulic pump 29 bottom terminal surface fixed mounting hydraulic stem 27, hydraulic stem 27 bottom terminal surface fixed mounting is used for the briquetting 26 of suppression.
Cutting mechanism 80 still includes fixed mounting glass cloth 13 on first dwang 14, fixed mounting copper foil 16 on the second dwang 17, glass cloth chamber 12 with copper foil chamber 18 right side intercommunication is equipped with cutting chamber 39, sliding fit installation knife rest 40 in cutting chamber 39, knife rest 40 top end with the first spring of fixed mounting 58 between the cutting chamber 39 roof, knife rest 40 bottom end fixed mounting blade 36, first dwang 14 rear end fixed mounting fourth gear 52, first dwang 51 with the upside the first cutting pole 37 of running fit installation between the cutting chamber 39, first cutting pole 37 rear end fixed mounting fifth gear 54, fifth gear 54 with the first chain 53 of running fit installation between the fourth gear 52, second dwang 17 front end fixed mounting sixth gear 49, the second transmission cavity 48 and the cutting cavity 39 on the lower side are rotatably matched and provided with a second cutting rod 30, the front side end face of the second cutting rod 30 is fixedly provided with a seventh gear 55, a second chain 50 is arranged between the seventh gear 55 and the sixth gear 49 in a transmission matching manner, the rear side end face of the second cutting rod 30 and the front side end face of the first cutting rod 37 are fixedly provided with an eccentric wheel 38, the right side of the cutting cavity 39 is communicated with a stacking cavity 35, the inner wall of the right side of the stacking cavity 35 is symmetrically and fixedly provided with fixed blocks 33, a fixed rod 32 is rotatably matched and provided between the front fixed block 33 and the rear fixed block 33, a spring plate 34 is fixedly provided on the fixed rod 32, a second spring 31 is fixedly provided between the bottom end face of the spring plate 34 and the inner wall of the right side of the stacking cavity 35, so that when the blade 36 is used for cutting, the first cutting rod 14 drives the first cutting rod 37 to rotate through transmission, the second rotating rod 17 drives the second cutting rod 30 to rotate through transmission, so that the eccentric wheel 38 rotates to push the tool rest 40 to move downwards, the blade 36 cuts the copper foil 16 and the glass cloth 13, after the blade 36 on the lower side cuts the copper foil 16 once, the blade 36 on the upper side cuts the glass cloth 13 four times, and then the glass cloth falls through the spring plate 34, and the blade 36 on the lower side cuts again.
The auxiliary mechanism 90 further comprises a conveying cavity 19 communicated with and arranged below the stacking cavity 35, a second motor 56 is fixedly arranged in the inner wall of the rear side of the conveying cavity 19, a conveying rod 20 is fixedly arranged on the front side end face of a forward output shaft of the second motor 56, auxiliary plates 24 are symmetrically and fixedly arranged in the front and rear of the right side end face of the box body 11, an auxiliary rod 25 is rotatably and cooperatively arranged between the front auxiliary plate and the rear auxiliary plate 24, a conveying wheel 21 is fixedly arranged on the conveying rod 20 and the auxiliary rod 25, a belt 22 is arranged between the left conveying wheel 21 and the right conveying wheel 21 in a transmission and cooperative manner, a connecting block 23 is fixedly arranged between the front auxiliary plate and the rear auxiliary plate 24, so that after the cutting mechanism 80 is completely cut, the second motor 56 is started to drive the conveying rod 20 to rotate, the conveying rod 20 is rotated to drive the conveying wheel 21 to rotate, the belt 22 is used for conveying the cut glass cloth 13 and the copper foil 16, and then the hydraulic pump 29 is started to drive the hydraulic rod 27 to stretch, the press block 26 compresses the glass cloth 13 and the copper foil 16.
When in use, when the first motor 41 is started, the first motor 41 drives the transmission rod 44 to rotate, the transmission rod 44 rotates to drive the first gear 42 and the sector gear 46 to rotate, so that the first rotating rod 14 and the second rotating rod 17 rotate, the sector gear 46 and the first gear 42 have different structures, so that the second rotating rod 17 and the first rotating rod 14 have different rotating circles, when the blade 36 cuts, the first rotating rod 14 rotates to drive the fourth gear 52 to rotate, the fourth gear 52 drives the fifth gear 54 to rotate through the transmission of the first chain 53, the fifth gear 54 rotates to drive the first cutting rod 37 to rotate, the second rotating rod 17 rotates to drive the sixth gear 49 to rotate, the sixth gear 49 drives the seventh gear 55 to rotate through the transmission of the second chain 50, the seventh gear 55 rotates to drive the second cutting rod 30 to rotate, so that the eccentric wheel 38 rotates to push the tool rest 40 to move downwards, the blade 36 cuts the copper foil 16 and the glass cloth 13, the blade 36 on the lower side cuts the copper foil 16 once, the blade 36 on the upper side cuts the glass cloth 13 four times, then the glass cloth 13 falls through the spring plate 34, the blade 36 on the lower side cuts again, after the cutting mechanism 80 is completely closed, the second motor 56 is started to drive the conveying rod 20 to rotate, the conveying rod 20 rotates to drive the conveying wheel 21 to rotate, the conveying wheel 21 drives the auxiliary rod 25 to rotate through the transmission of the belt 22, the belt 22 conveys the cut glass cloth 13 and the cut copper foil 16, then the hydraulic pump 29 is started to drive the hydraulic rod 27 to stretch, and the pressing block 26 compresses the glass cloth 13 and the copper foil 16.
The invention has the beneficial effects that: the cutting mechanism provided by the invention can be used for cutting the glass cloth and the copper foil, the correctness of the cutting quantity is ensured, the glass cloth and the copper foil are automatically stacked together after the cutting is finished, the occurrence of the condition that the quantity of the glass cloth and the copper foil is incorrect is avoided, the rejection rate of substrate production is reduced, and the cutting mechanism is worthy of popularization.
It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.