Artificial quartz stone plate repairing device
Technical Field
The invention relates to an artificial quartz stone, in particular to an artificial quartz stone plate repairing device.
Background
The artificial quartz stone is composed of more than 90% of natural quartz, about 10% of pigment, resin and other additives for regulating bonding and curing. The artificial quartz stone plate is formed by negative pressure vacuum and high-frequency vibration, is heated and cured (the temperature is determined according to the type of curing agent), and is processed by a production method, wherein the plate is hard in texture (Mohs hardness is 5-7), compact in structure (the density is 2.3 g/cubic centimeter), and has the characteristics of wear resistance, pressure resistance, high temperature resistance, corrosion resistance, seepage prevention and the like which are incomparable to other decorative materials. The artificial quartz stone plate cracks, the crack plate cannot be timely treated, secondary utilization cannot be carried out after the crack is cooled, and the yield of the quartz stone plate is not high.
Disclosure of Invention
The invention aims to overcome the defects that the gelation time of resin is fast, a large amount of heat is discharged quickly, the temperature of a drying building is overhigh during curing to cause cracking, the resin and a filler cannot have certain cohesiveness in a short time, the heat release of the resin is overlarge, the shrinkage is large to cause products to be overhigh, a part of local material lumps are large, a part of local material lumps are small, the shrinkage is different from cracking, and the applied pressure is not uniform in the pressing process, so that the utilization rate of a plate is not high in the process of producing the artificial quartz stone plate, the artificial quartz stone plate is cracked, the crack plate cannot be processed in time, the crack cannot be reused after being cooled, and the yield of the quartz stone plate is not high.
The invention is achieved by the following specific technical means:
an artificial quartz stone slab repairing device comprises an edge frame body, a first inner supporting column, a bottom foot, a second inner supporting column, a control screen, a stone slab preheating gap softening mechanism, a gap chiseling mechanism, a gap secondary feeding and attaching mechanism, a gap polishing mechanism and a motor, wherein the edge frame body is provided with a first inner supporting column and a second inner supporting column; a first inner supporting column is arranged on the front left side of the bottom end of the edge frame body; a bottom foot is arranged at the bottom of the right end of the edge frame body; a second inner supporting column is arranged on the right side of the inner bottom end of the edge frame body; a control screen is arranged in the middle of the right end of the edge frame body; a stone plate preheating gap softening mechanism is arranged at the upper left part in the edge frame body; a gap chiseling mechanism is arranged at the middle upper part in the edge frame body, and the left end of the gap chiseling mechanism is connected with a stone plate preheating gap softening mechanism; a gap secondary feeding and attaching mechanism is arranged on the right side in the edge frame body, and the left end of the gap secondary feeding and attaching mechanism is connected with a gap chiseling mechanism; a gap polishing mechanism is arranged on the left side of the bottom end in the edge frame body, the right end of the gap polishing mechanism is connected with a gap secondary feeding and attaching mechanism, and the upper left side of the gap polishing mechanism is connected with a stone plate preheating gap softening mechanism; the top of the right end in the edge frame body is connected with a motor, and the middle of the bottom end of the motor is connected with a gap secondary feeding and laminating mechanism;
the stone slab preheating gap softening mechanism comprises a first driving roller, a first driving wheel, a conveying belt, a stone slab fixing seat, a preheating mechanism, a temperature control display screen, a heating plate, a second driving roller, a third driving roller, a fourth driving roller, a second driving wheel and a third driving wheel; the middle part of the front end of the first transmission roller is rotationally connected with the first transmission wheel; the left side of the outer surface of the first transmission roller is in transmission connection with the transmission belt; a stone plate fixing seat is arranged on the left side of the top end of the conveying belt; a preheating mechanism is arranged in the left middle of the conveyor belt; a second transmission roller is arranged in the right middle of the top end in the conveying belt; a third driving roller is arranged in the right middle of the top end in the conveying belt and is positioned on the right side of the second driving roller; the right end in the conveying belt is in transmission connection with a fourth transmission roller; a temperature control display screen is arranged on the right side of the bottom of the front end of the preheating mechanism; the top end of the preheating mechanism is provided with a heating disc; the middle part of the front end of the fourth transmission roller is rotationally connected with the second transmission wheel; the middle part of the front end of the second driving wheel is rotationally connected with the third driving wheel; the middle part of the rear end of the first driving roller is connected with the edge frame body; the right lower part of the first driving wheel is connected with the gap polishing mechanism; the middle part of the rear end of the preheating mechanism is connected with the edge frame body; the middle part of the rear end of the second transmission roller is connected with the edge frame body; the middle part of the rear end of the third driving roller is connected with the edge frame body; the middle part of the rear end of the fourth transmission roller is connected with the first inner support column; the right upper part of the second driving wheel is connected with a gap chiseling mechanism; the right lower part of the third driving wheel is connected with a gap chiseling mechanism;
the gap chiseling mechanism comprises a first electric push rod, a second electric push rod, a connecting frame, a first flat gear, a row wheel, a second flat gear, a first bevel gear, a second bevel gear, a fourth driving wheel, a third flat gear, a crank plate, an impact spring rod, an air cylinder, a conical cutter, a first long gear, a third bevel gear, a fourth bevel gear, a first ultrasonic detector, a fifth driving wheel and an impact plate; a second electric push rod is arranged at the right end of the first electric push rod; the bottom end of the first electric push rod is connected with the connecting frame, and the right side of the top end of the connecting frame is connected with the second electric push rod; a first flat gear is arranged in the left middle of the bottom end of the connecting frame; the right end of the first spur gear is rotationally connected with the row wheel; the right end of the row wheel is rotationally connected with the second flat gear, and the middle part of the right end of the second flat gear is connected with the connecting frame; a first bevel gear is arranged on the lower left of the bottom end of the connecting frame; the right side of the front end of the first bevel gear is meshed with the second bevel gear; the middle part of the right end of the second bevel gear is rotationally connected with a fourth transmission wheel; the middle part of the right end of the fourth driving wheel is rotationally connected with the third flat gear; the right side of the outer surface of the fourth driving wheel is connected with the crank plate; the right end of the turning plate is connected with the impact spring rod; the bottom end of the impact spring rod is connected with the cylinder; a first long gear is arranged on the right side of the impact spring rod; the bottom end of the air cylinder is connected with the conical cutter; an impact plate is arranged below the bottom end of the conical cutter; the middle part of the right end of the first long gear is rotationally connected with the third bevel gear; the rear side of the right end of the third bevel gear is meshed with the fourth bevel gear; the bottom of the front end of the impact plate is connected with a first ultrasonic detector; the middle part of the rear end of the first ultrasonic detector is rotationally connected with a fifth driving wheel; the upper left side of the fifth driving wheel is connected with a stone plate preheating gap softening mechanism; the bottom end of the impact plate is connected with the first inner support column; the left lower part of the outer surface of the first bevel gear is connected with a stone plate preheating gap softening mechanism; the top end of the first electric push rod is connected with the edge frame body; the top end of the second electric push rod is connected with the edge frame body; the right lower part of the outer surface of the fourth bevel gear is connected with a gap secondary feeding and fitting mechanism;
the gap secondary feeding and laminating mechanism comprises a raw material tank, a raw material inlet, a tower-shaped stirring blade, a sixth driving wheel, a seventh driving wheel, a discharging hose, a pipe head, a reciprocating frame, a chain, a first sprocket, a second sprocket, a nineteenth driving wheel, a feeding trough plate, a fan, an eighth driving wheel, a third electric push rod, a relative extrusion mechanism, a fourth electric push rod, a first clamping groove block, a connecting strip and a second clamping groove block; a raw material inlet is formed in the right side of the top end of the raw material tank; the middle part of the bottom end in the raw material tank is rotationally connected with the tower-shaped stirring blade; the left side of the bottom end of the raw material tank is connected with a discharge hose; the middle part of the bottom end of the tower-shaped stirring blade is rotationally connected with a sixth driving wheel; the right end of the sixth driving wheel is in transmission connection with the seventh driving wheel through a belt; the middle part of the bottom end of the seventh driving wheel is rotationally connected with the eighth driving wheel; the bottom end of the discharging hose is connected with the pipe head; the top of the front end of the tube head is connected with the reciprocating motion frame; a feeding trough plate is arranged below the bottom end of the pipe head; the inner side of the reciprocating frame is in transmission connection with the chain; the left side in the chain is in transmission connection with the first sprocket; the inner right side of the chain is in transmission connection with a second sprocket, and the middle part of the rear end of the second sprocket is connected with the first sprocket; the middle part of the rear end of the second sprocket is rotationally connected with a nineteenth driving wheel; a fan is arranged at the top of the right end of the feeding trough plate; the middle part of the bottom end of the eighth driving wheel is rotationally connected with a third electric push rod; the bottom end of the third electric push rod is connected with the opposite extrusion mechanism; the left side of the bottom end of the opposite extrusion mechanism is connected with a fourth electric push rod; the right end of the opposite extrusion mechanism is connected with the first clamping groove block; the inner side of the bottom end of the first clamping groove block is in sliding connection with the connecting strip; the right end of the connecting strip is connected with the second clamping groove block; the top end of the outer surface of the raw material tank is connected with the edge frame body; the middle part of the rear end of the second sprocket is connected with the edge frame body; the upper left side of the nineteenth transmission wheel is connected with a gap chiseling mechanism; the right end of the outer surface of the eighth transmission wheel is connected with the edge frame body; the middle left part of the bottom end of the feeding groove plate is connected with a second inner supporting column; the bottom end of the fan is connected with the second inner supporting column; the bottom end of the fourth electric push rod is connected with the edge frame body; the right side of the bottom end of the opposite extrusion mechanism is connected with the edge frame body; the bottom end of the second clamping groove block is connected with the edge frame body; the middle part of the top end of the seventh transmission wheel is connected with the motor;
the gap polishing mechanism comprises a first front-tooth gear, a fourth flat gear, a fifth flat gear, a second front-tooth gear, a fifth electric push rod, a ninth driving wheel, a fifth bevel gear, a sixth bevel gear, a tenth driving wheel, an eleventh driving wheel, a twelfth driving wheel, a thirteenth driving wheel, a motor, a first huge gear, a fourteenth driving wheel, a seventh bevel gear, an eighth bevel gear, a first screw rod, a first fixed slip ring, a second screw rod, a ninth bevel gear, a first rotating fixed bar, a tenth bevel gear, a polishing wheel, a fifteenth driving wheel, a cam, a punching plate, a sawtooth bar, a fixed rectangular frame, a fixed rotating bar, a sliding seat, a first electric sliding bar, a second huge gear, a sixteenth driving wheel, an eleventh bevel gear and a twelfth bevel gear; a fourth flat gear is arranged at the middle right part of the front end of the first front tooth gear; the middle part of the rear end of the first front gear is connected with the second front gear; the middle part of the bottom end of the first front gear is meshed with the first huge gear; the middle part of the right end of the fourth flat gear is rotationally connected with the fifth flat gear; the middle part of the right end of the fifth flat gear is rotationally connected with a fifth electric push rod; the bottom end of the second front gear is meshed with the second huge gear; the middle part of the right end of the fifth electric push rod is rotationally connected with a ninth driving wheel; the bottom end of the ninth transmission wheel is in transmission connection with a fifth bevel gear through a belt; the rear side of the left end of the fifth bevel gear is meshed with the sixth bevel gear; the rear side of the outer surface of the sixth bevel gear is in transmission connection with a tenth transmission wheel through a belt; the left end of the tenth driving wheel is in transmission connection with the eleventh driving wheel through a belt; the middle part of the rear end of the eleventh transmission wheel is rotationally connected with the twelfth transmission wheel; the middle part of the rear end of the twelfth driving wheel is rotationally connected with the thirteenth driving wheel; the bottom end of the twelfth driving wheel is in transmission connection with the fifteenth driving wheel through a belt; the middle part of the rear end of the thirteenth driving wheel is rotationally connected with the motor; the middle part of the front end of the first huge gear is rotationally connected with a fourteenth driving wheel; the left lower part of the fourteenth transmission wheel is in transmission connection with a seventh bevel gear through a belt; the bottom of the front end of the seventh bevel gear is meshed with the eighth bevel gear; the middle part of the bottom end of the eighth bevel gear is rotationally connected with the first screw rod through a telescopic rotating shaft rod; the middle part of the outer surface of the first screw rod is rotationally connected with the first fixed slip ring; the right end of the first fixed slip ring is connected with the second fixed slip ring; the middle part in the second fixed sliding ring is rotationally connected with a second screw rod; the bottom end of the second screw rod is rotationally connected with a ninth bevel gear; the top of the outer surface of the ninth bevel gear is connected with the first rotating fixing strip; the right side of the bottom end of the ninth bevel gear is connected with the left side of the bottom end of the fourth bevel gear; the inner side of the right end of the first rotating fixing strip is connected with a tenth bevel gear; the middle part of the right end of the tenth bevel gear is rotationally connected with the polishing wheel; the middle part of the front end of the fifteenth transmission wheel is rotationally connected with the cam; the right end of the cam is in transmission connection with the punching plate; the bottom of the right end of the punching plate is connected with the sawtooth strip, and the middle of the top end of the sawtooth strip is connected with the first screw rod; a fixed rectangular frame is arranged below the bottom end of the sawtooth strip; a fixed rotating strip is arranged on the left middle side of the front end of the fixed rectangular frame; the bottom end of the fixed rectangular frame is connected with the sliding seat; the middle part in the sliding seat is in sliding connection with the first electric sliding rod; the middle part of the front end of the second huge gear is rotationally connected with a sixteenth driving wheel; the left lower part of the sixteenth transmission wheel is in transmission connection with an eleventh bevel gear through a belt; the bottom of the front end of the eleventh bevel gear is meshed with the twelfth bevel gear; the left upper part of the thirteenth driving wheel is connected with a stone plate preheating gap softening mechanism; the middle part of the rear end of the first front-mounted gear is connected with the first inner support column; the middle part of the right end of the ninth driving wheel is connected with the edge frame body; the middle part of the right end of the fifth bevel gear is connected with the edge frame body; the middle part of the rear end of the tenth driving wheel is connected with the second inner supporting column; the bottom end of the motor is connected with the first inner support column; the middle part of the rear end of the cam is connected with the first inner supporting column; the left end of the punching plate is connected with the first inner support column; the left side and the right side of the bottom end of the first electric sliding rod are connected with the edge frame body; the right end of the second fixed slip ring is connected with the edge frame body; the middle part of the rear end of the first giant gear is connected with the first inner support column; the right side of the bottom end of the fifth electric push rod is connected with the second inner supporting column;
the preheating mechanism comprises a second electric slide bar, an electric slide block, a rectangular slide way, a slide column, a positioning heating plate, a second ultrasonic detector and a preheating cabin; the left side of the outer surface of the second electric sliding rod is in sliding connection with the electric sliding block; the left side of the rear end of the second electric slide bar is connected with the preheating cabin; the bottom end of the electric sliding block is connected with the rectangular slideway; a second ultrasonic detector is arranged at the front lower part of the bottom end of the electric sliding block; the inner side of the rectangular slideway is in sliding connection with the sliding column; the bottom end of the sliding column is connected with the positioning heating plate; the middle part of the top end of the preheating cabin is connected with the heating disc; a temperature control display screen is arranged on the right side of the bottom of the front end of the preheating cabin;
the relative extrusion mechanism comprises a seventeenth driving wheel, a second long gear, a first telescopic rod, a thirteenth bevel gear, a second rotary fixing strip, a fourteenth bevel gear, an eighteenth driving wheel, a sixth flat gear, a seventh flat gear, a third long gear, an eighth flat gear, a third screw rod, a second telescopic rod and a buffer spring rod; the middle part of the right end of the seventeenth driving wheel is rotationally connected with the second long gear; the bottom end of the seventeenth driving wheel is in transmission connection with the eighteenth driving wheel through a belt; the right end of the second long gear is rotatably connected with the first telescopic rod; the right end of the first telescopic rod is rotatably connected with a thirteenth bevel gear; the left side of the outer surface of the thirteenth bevel gear is connected with the second rotating fixing strip; the top of the right end of the thirteenth bevel gear is meshed with the fourteenth bevel gear, and the top of the outer surface of the fourteenth bevel gear is connected with the second rotating fixing strip; the middle part of the right end of the eighteenth transmission wheel is rotationally connected with the sixth flat gear; the top end of the sixth flat gear is meshed with the seventh flat gear; the middle part of the right end of the seventh flat gear is rotationally connected with the third long gear; the middle part of the top end of the third long gear is meshed with the eighth flat gear; the inner middle part of the eighth flat gear is rotationally connected with the third screw rod; the left end of the third screw rod is rotationally connected with the second telescopic rod; a buffer spring rod is arranged on the right side below the bottom end of the third screw rod; the left side of the bottom end of the buffer spring rod is connected with the edge frame body; the middle part of the top end of the fourteenth bevel gear is rotationally connected with the third electric push rod.
Further, tower type stirring leaf is provided with three flabellum altogether, is located the inside bottom of head tank, top and middle part respectively to flabellum external diameter diminishes gradually under to from the top.
Compared with the prior art, the invention has the following beneficial effects:
in order to solve the problems that in the prior art, the gelation time of resin is fast, a large amount of heat is emitted fast, the temperature of a drying building is too high during curing to cause cracking, the resin and a filler cannot have certain cohesiveness in a short time, the heat release of the resin is too large, the shrinkage is large to cause that a product is too hard, a part of material lumps are too much, a part of material lumps are less, the shrinkage is different from cracking, and the yield of a quartz stone plate is low due to the fact that the pressure applied in the pressing process is not uniform, further the utilization rate of the plate is not high in the process of producing the artificial quartz stone plate, the artificial quartz stone plate is cracked, the cracked plate cannot be processed in time, secondary utilization cannot be carried out after the crack is cooled, and the yield of the quartz stone plate is low, a stone plate preheating gap softening mechanism, a gap chiseling mechanism, a gap secondary feeding and attaching mechanism and a gap polishing mechanism are designed, when the stone plate preheating gap, then get rid of original fracture panel through gap chisel garrulous mechanism, accomplish secondary feeding and secondary curing burnishing and polishing through gap secondary feeding laminating mechanism cooperation gap polishing mechanism and handle, reached the high efficiency real-time processing remain the artificial quartzite panel of fracture of waste heat, the high-efficient raw material of getting rid of that splits is softened, integrality secondary raw materials is filled to the polishing gap secondary curing surface's effect.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural diagram of a stone slab preheating gap softening mechanism according to the present invention;
FIG. 3 is a schematic view of a gap breaking mechanism according to the present invention;
FIG. 4 is a schematic structural view of a gap secondary feeding and attaching mechanism according to the present invention;
FIG. 5 is a schematic view of the gap polishing mechanism of the present invention;
FIG. 6 is a schematic structural diagram of a preheating mechanism according to the present invention;
fig. 7 is a schematic structural diagram of a relative pressing mechanism of the present invention.
The labels in the figures are: 1-an edge frame body, 2-a first inner support column, 3-a foot, 4-a second inner support column, 5-a control screen, 6-a stone plate preheating gap softening mechanism, 7-a gap chiseling mechanism, 8-a gap secondary feeding and attaching mechanism, 9-a gap polishing mechanism, 10-a motor, 601-a first transmission roller, 602-a first transmission wheel, 603-a transmission belt, 604-a stone plate fixing seat, 605-a preheating mechanism, 606-a temperature control display screen, 607-a heating plate, 608-a second transmission roller, 609-a third transmission roller, 6010-a fourth transmission roller, 6011-a second transmission wheel, 6012-a third transmission wheel, 701-a first electric push rod, 702-a second electric push rod, 703-a connecting frame and 704-a first flat gear, 705-row wheel, 706-second flat gear, 707-first bevel gear, 708-second bevel gear, 709-fourth driving wheel, 7010-third flat gear, 7011-crank plate, 7012-impact spring rod, 7013-cylinder, 7014-conical knife, 7015-first long gear, 7016-third bevel gear, 7017-fourth bevel gear, 7018-first ultrasonic detector, 7019-fifth driving wheel, 7020-impact plate, 801-raw material tank, 802-raw material inlet, 803-tower type stirring blade, 804-sixth driving wheel, 805-seventh driving wheel, 806-discharging hose, 807-pipe head, 808-reciprocating motion frame, 809-chain, 8010-first chain gear, 8011-second chain gear, 8012-nineteenth, 8013-a feeding trough plate, 8014-a fan, 8015-an eighth driving wheel, 8016-a third electric push rod, 8017-a relative extrusion mechanism, 8018-a fourth electric push rod, 8019-a first clamping groove block, 8020-a connecting strip, 8021-a second clamping groove block, 901-a first front tooth gear, 902-a fourth flat gear, 903-a fifth flat gear, 904-a second front tooth gear, 905-a fifth electric push rod, 906-a ninth driving wheel, 907-a fifth bevel gear, 908-a sixth bevel gear, 909-a tenth driving wheel, 9010-an eleventh driving wheel, 9011-a twelfth driving wheel, 9012-a thirteenth driving wheel, 9013-a motor, 9014-a first huge gear, 9015-a fourteenth driving wheel, 9016-a seventh bevel gear, 9017-an eighth bevel gear, 9018-a first screw rod, 9019-a first fixed slip ring, 9020-a second fixed slip ring, 9021-a second screw rod, 9022-a ninth bevel gear, 9023-a first rotating fixed bar, 9024-a tenth bevel gear, 9025-a polishing wheel, 9026-a fifteenth driving wheel, 9027-a cam, 9028-a punch plate, 9029-a sawtooth bar, 9030-a fixed rectangular frame, 9031-a fixed rotating bar, 9032-a sliding seat, 9033-a first electric sliding bar, 9034-a second giant gear, 9035-a sixteenth driving wheel, 9036-an eleventh bevel gear, 9037-a twelfth bevel gear, 60501-a second electric sliding bar, 60502-an electric sliding block, 60503-a rectangular slideway, 60504-a sliding column, 60505-a positioning heating plate, 60506-a second ultrasonic detector, 60507-a preheating chamber, 801701-a seventeenth driving wheel, 801702-a second long gear, 801703-a first telescopic rod, 801704-a thirteenth bevel gear, 801705-a second rotating fixing bar, 801706-a fourteenth bevel gear, 801707-an eighteenth driving wheel, 801708-a sixth flat gear, 801709-a seventh flat gear, 801710-a third long gear, 801711-an eighth flat gear, 801712-a third screw rod, 801713-a second telescopic rod and 801714-a buffer spring rod.
Detailed Description
The invention is further described below with reference to the figures and examples.
Examples
When the artificial quartz stone plate repairing device is used, firstly, the device is stably fixed on a working plane, then, a power supply is externally connected, and the control screen 5 is manually opened; then open power unit through control panel 5, switch on the inner circuit, the device begins the operation, at first transport the artificial quartz slabstone that has the crack to slabstone and preheat inside gap softening mechanism 6, make its crack department heat and soften, then artificial quartz slabstone gets into inside gap chiseling mechanism 7, get rid of original fracture material breakage, then slabstone gets into gap secondary material loading laminating mechanism 8, open motor 10 drive mechanism operation through control panel 5, accomplish the secondary material loading, and extrude the laminating to it after the material loading is accomplished, slabstone gets into gap polishing mechanism 9 and accomplishes the burnishing and polishing of gap secondary filling department surface after the solidification of waiting to laminate is accomplished, the secondary production restoration of producing middle crack slabstone is handled.
The stone slab preheating gap softening mechanism 6 comprises a first transmission roller 601, a first transmission wheel 602, a transmission belt 603, a stone slab fixing seat 604, a preheating mechanism 605, a temperature control display screen 606, a heating plate 607, a second transmission roller 608, a third transmission roller 609, a fourth transmission roller 6010, a second transmission wheel 6011 and a third transmission wheel 6012; the middle part of the front end of the first transmission roller 601 is rotationally connected with the first transmission wheel 602; the left side of the outer surface of the first transmission roller 601 is in transmission connection with a transmission belt 603; a stone plate fixing seat 604 is arranged on the left side of the top end of the conveying belt 603; the left middle part of the conveyor belt 603 is provided with a preheating mechanism 605; a second driving roller 608 is arranged in the right middle of the top end in the conveying belt 603; a third driving roller 609 is arranged at the right middle part of the top end in the conveying belt 603, and the third driving roller 609 is positioned at the right side of the second driving roller 608; the right end in the conveying belt 603 is in transmission connection with a fourth transmission roller 6010; a temperature control display screen 606 is arranged on the right side of the bottom of the front end of the preheating mechanism 605; the top end of the preheating mechanism 605 is provided with a heating disc 607; the middle part of the front end of the fourth driving roller 6010 is rotatably connected with a second driving wheel 6011; the middle part of the front end of the second driving wheel 6011 is rotatably connected with a third driving wheel 6012; the middle part of the rear end of the first driving roller 601 is connected with the edge frame body 1; the lower right side of the first driving wheel 602 is connected with the gap polishing mechanism 9; the middle part of the rear end of the preheating mechanism 605 is connected with the edge frame body 1; the middle part of the rear end of the second transmission roller 608 is connected with the edge frame body 1; the middle part of the rear end of the third driving roller 609 is connected with the edge frame body 1; the middle part of the rear end of the fourth driving roller 6010 is connected with the first inner stay 2; the upper right side of the second transmission wheel 6011 is connected with a gap chiseling mechanism 7; the lower right side of the third driving wheel 6012 is connected to the gap chiseling mechanism 7.
After the power is switched on, the first driving wheel 602 is driven to rotate by the belt at the upper left of the thirteenth driving wheel 9012, then the first driving wheel 602 drives the first driving roller 601 at the middle of the rear end of the first driving wheel to rotate, then the first driving roller 601 drives the conveying belt 603 to move, the conveying belt 603 starts to operate on the top ends of the second driving roller 608 and the third driving roller 609 and the outer surface of the fourth driving roller 6010, the cracked stone plate is manually fixed inside the stone plate fixing seat 604, then the stone plate fixing seat 604 is conveyed to the inside of the preheating mechanism 605 to be preheated and softened, and is conveyed out from the opening at the right end of the preheating mechanism 605, and the softening operation of the gap of the cracked stone plate is.
The gap chiseling mechanism 7 comprises a first electric push rod 701, a second electric push rod 702, a connecting frame 703, a first flat gear 704, a row wheel 705, a second flat gear 706, a first bevel gear 707, a second bevel gear 708, a fourth driving wheel 709, a third flat gear 7010, a crank plate 7011, an impact spring rod 7012, an air cylinder 7013, a conical cutter 7014, a first long gear 7015, a third bevel gear 7016, a fourth bevel gear 7017, a first ultrasonic detector 7018, a fifth driving wheel 7019 and an impact plate 7020; a second electric push rod 702 is arranged at the right end of the first electric push rod 701; the bottom end of the first electric push rod 701 is connected with the connecting frame 703, and the right side of the top end of the connecting frame 703 is connected with the second electric push rod 702; a first flat gear 704 is arranged in the left middle of the bottom end of the connecting frame 703; the right end of the first spur gear 704 is rotatably connected with a row wheel 705; the right end of the row wheel 705 is rotatably connected with a second flat gear 706, and the middle part of the right end of the second flat gear 706 is connected with a connecting frame 703; a first bevel gear 707 is arranged at the lower left of the bottom end of the connecting frame 703; the right side of the front end of the first bevel gear 707 is meshed with the second bevel gear 708; the middle part of the right end of the second bevel gear 708 is rotationally connected with a fourth transmission wheel 709; the middle part of the right end of the fourth driving wheel 709 is rotationally connected with the third spur gear 7010; the right side of the outer surface of the fourth driving wheel 709 is connected with a crutch board 7011; the right end of the turning plate 7011 is connected with an impact spring bar 7012; the bottom end of the impact spring bar 7012 is connected with an air cylinder 7013; the right side of the impact spring bar 7012 is provided with a first long gear 7015; the bottom end of the cylinder 7013 is connected with a conical cutter 7014; an impact plate 7020 is arranged below the bottom end of the conical cutter 7014; the middle part of the right end of the first long gear 7015 is rotationally connected with a third bevel gear 7016; the rear side of the right end of the third bevel gear 7016 is meshed with a fourth bevel gear 7017; the bottom of the front end of the impact plate 7020 is connected with a first ultrasonic detector 7018; the middle part of the rear end of the first ultrasonic detector 7018 is rotationally connected with a fifth driving wheel 7019; the upper left side of the fifth driving wheel 7019 is connected with a stone plate preheating gap softening mechanism 6; the bottom end of the impact plate 7020 is connected with the first inner support column 2; the left lower part of the outer surface of the first bevel gear 707 is connected with a stone plate preheating gap softening mechanism 6; the top end of the first electric push rod 701 is connected with the edge frame body 1; the top end of the second electric push rod 702 is connected with the edge frame body 1; the right lower part of the outer surface of the fourth bevel gear 7017 is connected with a gap secondary feeding and fitting mechanism 8.
After the gap between the cracked quartz stone slabs is softened by the stone slab preheating gap softening mechanism 6, the quartz stone slabs are conveyed to the inside of the groove at the top end of the impact plate 7020, then the upper right of the second transmission wheel 6011 drives the first bevel gear 707 to rotate through a belt, then the first bevel gear 707 rotates to drive the second bevel gear 708 on the right side of the front end of the first bevel gear to rotate, then the second bevel gear 708 drives the fourth transmission wheel 709 on the middle part of the right end of the second transmission wheel 709 to rotate, then the fourth transmission wheel 709 rotates to drive the third gear 7010 on the middle part of the right end of the fourth transmission wheel to rotate, then the first electric push rod 701 and the second electric push rod 702 are controlled to push downwards through the control panel 5 to push the connecting frame 703 to move downwards, then the connecting frame 703 drives the first flat gear 704 and the second flat gear 706 to move to positions meshed with the third gear 7010 and the first long gear 7015 respectively, and then, then the right end of the first flat gear 704 drives the row wheel 705 to rotate, then the row wheel 705 drives the second flat gear 706 at the right end to rotate, then the second flat gear 706 drives the first long gear 7015 with the bottom end engaged with the second flat gear 706 to rotate, then the first long gear 7015 drives the third bevel gear 7016 at the right end to rotate, then the third bevel gear 7016 drives the fourth bevel gear 7017 with the rear side engaged with the rear side at the right end to rotate, meanwhile when the protruding part of the row wheel 705 moves to the bottom end impact spring bar 7012, the impact spring bar 7012 moves downwards due to inertia, then the impact spring bar 7012 drives the cylinder 7013 at the bottom end to move downwards, drives the bevel knife 7014 to move downwards, meanwhile, the piston of the cylinder 7013 pushes downwards, acceleration is superposed for the second time, so that the bevel knife 7014 reaches a very high speed to impact the artificial quartz crack, meanwhile, the first ultrasonic detector 7018 sends out ultrasonic waves to monitor the crack condition in real time, the fracture of the crack of the artificial quartz stone plate is completed.
The gap secondary feeding and attaching mechanism 8 comprises a raw material tank 801, a raw material inlet 802, a tower-shaped stirring blade 803, a sixth driving wheel 804, a seventh driving wheel 805, a discharging hose 806, a pipe head 807, a reciprocating motion frame 808, a chain 809, a first chain gear 8010, a second chain gear 8011, a nineteenth driving wheel 8012, a feeding trough plate 8013, a fan 8014, an eighth driving wheel 8015, a third electric push rod 8016, a relative extrusion mechanism 8017, a fourth electric push rod 8018, a first clamping groove block 8019, a connecting strip 8020 and a second clamping groove block 8021; a raw material inlet 802 is arranged at the right side of the top end of the raw material tank 801; the middle part of the bottom end of the raw material tank 801 is rotationally connected with the tower-shaped stirring blade 803; the left side of the bottom end of the raw material tank 801 is connected with a discharge hose 806; the middle part of the bottom end of the tower-shaped stirring blade 803 is rotationally connected with a sixth driving wheel 804; the right end of the sixth driving wheel 804 is in driving connection with a seventh driving wheel 805 through a belt; the middle part of the bottom end of the seventh driving wheel 805 is rotatably connected with an eighth driving wheel 8015; the bottom end of the discharging hose 806 is connected with the pipe head 807; the top of the front end of the pipe head 807 is connected with a reciprocating frame 808; a feeding trough plate 8013 is arranged below the bottom end of the pipe head 807; the inner side of the reciprocating frame 808 is in transmission connection with a chain 809; the left side in chain 809 is in driving connection with first sprocket 8010; the inner right side of chain 809 is in transmission connection with second sprocket 8011, and the middle of the rear end of second sprocket 8011 is connected with first sprocket 8010; the middle part of the rear end of the second sprocket 8011 is rotatably connected with a nineteenth driving wheel 8012; a fan 8014 is arranged at the top of the right end of the feeding trough plate 8013; the middle part of the bottom end of the eighth driving wheel 8015 is rotatably connected with a third electric push rod 8016; the bottom end of the third electric push rod 8016 is connected with the opposite extrusion mechanism 8017; the left side of the bottom end of the opposite extrusion mechanism 8017 is connected with a fourth electric push rod 8018; the right end of the opposite extrusion mechanism 8017 is connected with the first clamping groove block 8019; the inner side of the bottom end of the first clamping groove block 8019 is in sliding connection with the connecting strip 8020; the right end of the connecting strip 8020 is connected with a second slot block 8021; the top end of the outer surface of the raw material tank 801 is connected with the edge frame body 1; the middle of the rear end of the second sprocket 8011 is connected with the edge frame 1; the upper left side of the nineteenth driving wheel 8012 is connected with the gap chiseling mechanism 7; the right end of the outer surface of the eighth driving wheel 8015 is connected with the edge frame body 1; the middle left part of the bottom end of the upper trough plate 8013 is connected with the second inner supporting column 4; the bottom end of the fan 8014 is connected with the second inner supporting column 4; the bottom end of the fourth electric push rod 8018 is connected with the edge frame body 1; the right side of the bottom end of the opposite extrusion mechanism 8017 is connected with the edge frame body 1; the bottom end of the second slot block 8021 is connected with the edge frame 1; the middle of the top end of the seventh driving wheel 805 is connected with the motor 10.
After the crack is broken, the artificial quartz stone plate is conveyed into the groove at the top end of the upper trough plate 8013 through the control screen 5, the motor 10 is started through the control screen 5, then the rear end of the outer surface of the fourth bevel gear 7017 drives the nineteenth driving wheel 8012 to rotate through a belt, then the nineteenth driving wheel 8012 drives the second sprocket 8011 at the middle part of the front end to rotate, then the second sprocket 8011 drives the first sprocket 8010 to rotate through a chain 809, then the reciprocating frame 808 realizes left-right reciprocating motion on the chain 809, simultaneously the motor 10 drives the seventh driving wheel 805 to rotate, further the seventh driving wheel 805 drives the sixth driving wheel 804 at the left end to rotate through a belt, then the sixth driving wheel 804 drives the tower-shaped stirring blade 803 at the middle part of the top end to fully stir the raw material added from the raw material inlet 802, and then the raw material is conveyed to the pipe head 807 from the discharging hose 806, then the raw materials are sprayed to the gap of the quartz stone, the filling is completed, meanwhile, the seventh driving wheel 805 rotates to drive the eighth driving wheel 8015 at the bottom end of the seventh driving wheel to rotate, the eighth driving wheel 8015 drives the third electric push rod 8016 at the bottom end of the eighth driving wheel to rotate, then the third electric push rod 8016 is matched with the fourth electric push rod 8018 to push the corresponding extrusion mechanism 8017 to move downwards, the corresponding extrusion mechanism 8017 is driven, the stone plate is further placed between the first clamping groove block 8019 and the second clamping groove block 8021, the first clamping groove block 8019 is driven by the corresponding extrusion mechanism 8017 to move rightwards, the stone plate between the first clamping groove block 8019 and the second clamping groove block 8021 is extruded and solidified, and then the secondary feeding and solidification of the gap of the artificial quartz stone plate are completed.
The gap polishing mechanism 9 comprises a first front-tooth gear 901, a fourth flat gear 902, a fifth flat gear 903, a second front-tooth gear 904, a fifth electric push rod 905, a ninth driving wheel 906, a fifth bevel gear 907, a sixth bevel gear 908, a tenth driving wheel 909, an eleventh driving wheel 9010, a twelfth driving wheel 9011, a thirteenth driving wheel 9012, a motor 9013, a first large gear 9014, a fourteenth driving wheel 9015, a seventh bevel gear 9016, an eighth bevel gear 9017, a first screw rod 9018, a first fixed slip ring 9019, a second fixed slip ring 9020, a second screw rod 9021, a ninth bevel gear 9022, a first rotating fixed bar 9023, a tenth bevel gear 9024, a polishing wheel 9025, a fifteenth driving wheel 9026, a cam 9027, a punching plate 9028, a sawtooth bar 29, a fixed rectangular frame 9030, a fixed rotating bar 9031, a sliding slide bar seat 9032, a first electric slide bar 9033, a second large gear 9034, a sixteenth driving wheel 9035, an eleventh bevel gear 9036 and a twelfth bevel gear 9037; a fourth flat gear 902 is arranged at the middle right part of the front end of the first front tooth gear 901; the middle part of the rear end of the first front tooth gear 901 is connected with a second front tooth gear 904; the middle part of the bottom end of the first front-gear 901 is meshed with the first large gear 9014; the middle part of the right end of the fourth spur gear 902 is rotatably connected with a fifth spur gear 903; the middle part of the right end of the fifth flat gear 903 is rotatably connected with a fifth electric push rod 905; the bottom end of the second front tooth gear 904 is meshed with the second large gear 9034; the middle part of the right end of a fifth electric push rod 905 is rotationally connected with a ninth driving wheel 906; the bottom end of a ninth driving wheel 906 is in driving connection with a fifth bevel gear 907 through a belt; the rear side of the left end of a fifth bevel gear 907 is engaged with a sixth bevel gear 908; the rear side of the outer surface of the sixth bevel gear 908 is in transmission connection with a tenth transmission wheel 909 through a belt; the left end of the tenth driving wheel 909 is in driving connection with an eleventh driving wheel 9010 through a belt; the middle part of the rear end of the eleventh driving wheel 9010 is rotatably connected with the twelfth driving wheel 9011; the middle part of the rear end of the twelfth driving wheel 9011 is rotatably connected with a thirteenth driving wheel 9012; the bottom end of the twelfth driving wheel 9011 is in transmission connection with a fifteenth driving wheel 9026 through a belt; the middle part of the rear end of the thirteenth driving wheel 9012 is rotatably connected with the motor 9013; the middle part of the front end of the first large gear 9014 is rotatably connected with a fourteenth driving wheel 9015; the lower left of the fourteenth driving wheel 9015 is in driving connection with a seventh bevel gear 9016 through a belt; the bottom of the front end of the seventh bevel gear 9016 is meshed with the eighth bevel gear 9017; the middle part of the bottom end of the eighth bevel gear 9017 is rotatably connected with the first screw rod 9018 through a telescopic rotating shaft rod; the middle part of the outer surface of the first screw rod 9018 is rotatably connected with a first fixed slip ring 9019; the right end of the first fixed slip ring 9019 is connected with a second fixed slip ring 9020; the inner middle part of the second fixed slip ring 9020 is rotatably connected with a second screw rod 9021; the bottom end of the second screw rod 9021 is rotatably connected with a ninth bevel gear 9022; the top of the outer surface of the ninth bevel gear 9022 is connected with a first rotating fixing bar 9023; the right side of the bottom end of the ninth bevel gear 9022 is connected with the left side of the bottom end of the fourth bevel gear 9022; the inner side of the right end of the first rotating fixing bar 9023 is connected with a tenth bevel gear 9024; the middle part of the right end of the tenth bevel gear 9024 is rotatably connected with a polishing wheel 9025; the middle part of the front end of the fifteenth transmission wheel 9026 is rotatably connected with the cam 9027; the right end of the cam 9027 is in transmission connection with the punching plate 9028; the bottom of the right end of the punch plate 9028 is connected with a sawtooth strip 9029, and the middle of the top end of the sawtooth strip 9029 is connected with a first screw rod 9018; a fixed rectangular frame 9030 is arranged below the bottom end of the sawtooth strip 9029; a fixed rotating strip 9031 is arranged on the left middle side of the front end of the fixed rectangular frame 9030; the bottom end of the fixed rectangular frame 9030 is connected with the sliding seat 9032; the middle part in the sliding seat 9032 is in sliding connection with a first electric sliding rod 9033; the middle part of the front end of the second large gear 9034 is rotatably connected with a sixteenth driving wheel 9035; the left lower part of the sixteenth driving wheel 9035 is in driving connection with an eleventh bevel gear 9036 through a belt; the bottom of the front end of the eleventh bevel gear 9036 is meshed with the twelfth bevel gear 9037; the left upper part of a thirteenth driving wheel 9012 is connected with the stone plate preheating gap softening mechanism 6; the middle part of the rear end of the first front-mounted gear 901 is connected with the first inner supporting column 2; the middle part of the right end of a ninth driving wheel 906 is connected with the edge frame body 1; the middle part of the right end of a fifth bevel gear 907 is connected with the edge frame body 1; the middle part of the rear end of the tenth transmission wheel 909 is connected with the second inner supporting column 4; the bottom end of the motor 9013 is connected with the first inner supporting column 2; the middle part of the rear end of the cam 9027 is connected with the first inner supporting column 2; the left end of the punching plate 9028 is connected with the first inner supporting column 2; the left side and the right side of the bottom end of the first electric slide bar 9033 are connected with the edge frame body 1; the right end of the second fixed slip ring 9020 is connected with the edge frame body 1; the middle part of the rear end of the first giant gear 9014 is connected with the first inner supporting column 2; the right side of the bottom end of the fifth electric push rod 905 is connected with the second inner supporting column 4.
After the curing is completed, firstly, the motor 9013 rotates to drive the eleventh driving wheel 9010 at the front end, the twelfth driving wheel 9011 and the thirteenth driving wheel 9012 rotate, then the right end of the eleventh driving wheel 9010 drives the tenth driving wheel 909 at the right end to rotate through a belt, further the tenth driving wheel 909 drives the sixth bevel gear 908 to rotate, the sixth bevel gear 908 drives the fifth bevel gear 907 at the right end to rotate, then the rear end of the outer surface of the fifth bevel gear 907 drives the ninth driving wheel 906 at the top end to rotate through a belt, then the ninth driving wheel 906 drives the fifth electric push rod 905 at the left end to rotate, then the fifth electric push rod 905 simultaneously drives the fourth flat gear 902 and the fifth flat gear 903 to move, then the fifth electric push rod 905 is controlled by the control screen 5 to push the fourth flat gear 902 to be engaged with the first front tooth gear 901 at the rear end, then the first front tooth 901 gear 901 drives the first huge gear 9014 at the bottom end to be engaged with the first huge gear 9014 to rotate, then, the front end of the first macro gear 9014 rotates through a fourteenth transmission wheel 9015 to drive a seventh bevel gear 9016 to rotate, then the seventh bevel gear 9016 drives an eighth bevel gear 9017, the bottom of the front end of the seventh macro gear 9016 is meshed with the bottom of the seventh macro gear 9017, the eighth bevel gear 9017 drives a first screw rod 9018 at the bottom of the eighth macro gear 9018 to rotate, then the first screw rod 9018 drives a sawtooth strip 9029, the bottom of the first macro gear 9029 is connected with the bottom of the first macro gear 9018 to move downwards, simultaneously, the bottom of the twelfth transmission wheel 9011 drives a fifteenth transmission wheel 9026 to rotate through a belt, then the fifteenth transmission wheel 9026 drives a cam 9027 at the front end of the fifteenth transmission wheel to rotate, then the cam 9027 impacts a punch plate 9028 at the right end of the punch plate to move rightwards, then drives the sawtooth strip 9029 to move leftwards and rightwards in a reciprocating mode, bulges fixed on the surface of a slab cracks at the front end of the fixed rectangular frame 30 are ground, then a fifth electric push rod 905 is controlled by a control screen 5 In the position of (3), the fifth flat gear 903 drives the second front-tooth gear 904 to rotate, the second front-tooth gear 904 drives the second large gear 9034 engaged with the second front-tooth gear 904 to rotate, then the second large gear 9034 drives the eleventh bevel gear 9036 to rotate through a sixteenth driving wheel 9035 and a belt at the front end of the second large gear 9034, and then the eleventh bevel gear 9036 drives the twelfth bevel gear 9037 engaged with the bottom at the front end of the eleventh bevel gear 9036 to rotate; the twelfth bevel gear 9037 drives the second screw rod 9021 at the bottom end of the twelfth bevel gear 9037 to rotate, under the cooperation of the second fixed sliding ring 9020, the second screw rod 9021 drives the ninth bevel gear 9022 at the bottom end of the ninth bevel gear 9022 to drive the tenth bevel gear 9024 at the right end of the ninth bevel gear 9022 to rotate, the tenth bevel gear 9024 drives the polishing wheel 9025 at the right end of the tenth bevel gear 9024 to rotate, meanwhile, the control screen 5 controls the first electric slide bar 9033 to drive the slide seat 9032 to drive the fixed rectangular frame 9030 to move rightwards and slide to the rear end of the polishing wheel 9025, polishing and grinding are conducted on the filled and cured surface, and polishing treatment of the outer surface of the cured artificial quartz stone slab crack is.
The preheating mechanism 605 comprises a second electric slide bar 60501, an electric slide block 60502, a rectangular slide 60503, a slide column 60504, a positioning heating plate 60505, a second ultrasonic detector 60506 and a preheating chamber 60507; the left side of the outer surface of the second electric slide bar 60501 is connected with an electric slide block 60502 in a sliding way; the left side of the rear end of the second electric sliding rod 60501 is connected with a preheating cabin 60507; the bottom end of the electric slide block 60502 is connected with the rectangular slide 60503; a second ultrasonic detector 60506 is arranged at the front lower part of the bottom end of the electric sliding block 60502; the inner side of the rectangular slide 60503 is connected with the sliding column 60504 in a sliding way; the bottom end of the sliding column 60504 is connected with a positioning heating plate 60505; the middle part of the top end of the preheating cabin 60507 is connected with the heating disc 607; the bottom right side of the front end of the preheating chamber 60507 is provided with a temperature control display screen 606.
Waiting to carry area 603 and driving slabstone fixing base 604 and transport artificial quartz slabstone to preheating cabin 60507 inside back, then at first second ultrasonic detector 60506 sends the fissured position of ultrasonic detection, then drive electronic slider 60502 through second electronic slide bar 60501 and realize the side-to-side motion, and then drive the position heating board 60505 motion to the position that the crack exists through slip post 60504, and then slip post 60504 is inside to realize sliding from beginning to end at rectangle slide 60503, the position control, then the position heating board 60505 carries out closed heating to gap department, the heating that has accomplished artificial quartz slabstone gap department is softened.
The counter pressing mechanism 8017 comprises a seventeenth driving wheel 801701, a second long gear 801702, a first telescopic rod 801703, a thirteenth bevel gear 801704, a second rotary fixing bar 801705, a fourteenth bevel gear 801706, an eighteenth driving wheel 801707, a sixth flat gear 801708, a seventh flat gear 801709, a third long gear 801710, an eighth flat gear 801711, a third screw rod 801712, a second telescopic rod 801713 and a buffer spring rod 801714; the middle part of the right end of the seventeenth driving wheel 801701 is rotationally connected with the second long gear 801702; the bottom end of the seventeenth driving wheel 801701 is in transmission connection with an eighteenth driving wheel 801707 through a belt; the right end of the second long gear 801702 is rotatably connected with the first telescopic rod 801703; the right end of the first telescopic rod 801703 is rotatably connected with a thirteenth bevel gear 801704; the left side of the outer surface of the thirteenth bevel gear 801704 is connected with a second rotary fixing bar 801705; the top of the right end of the thirteenth bevel gear 801704 is engaged with a fourteenth bevel gear 801706, and the top of the outer surface of the fourteenth bevel gear 801706 is connected with a second rotating fixing bar 801705; the middle part of the right end of the eighteenth driving wheel 801707 is rotationally connected with a sixth flat gear 801708; the top end of the sixth flat gear 801708 is meshed with the seventh flat gear 801709; the middle part of the right end of the seventh flat gear 801709 is rotationally connected with the third long gear 801710; the middle of the top end of the third long gear 801710 is meshed with the eighth flat gear 801711; the inner middle part of the eighth flat gear 801711 is rotationally connected with a third screw rod 801712; the left end of the third lead screw 801712 is rotatably connected with a second telescopic rod 801713; a buffer spring rod 801714 is arranged on the right side below the bottom end of the third screw rod 801712; the left side of the bottom end of the buffer spring rod 801714 is connected with the edge frame 1; the fourteenth bevel gear 801706 is rotatably connected to the third electric putter 8016 at its middle top end.
First, the third electric push rod 8016 drives the fourteenth bevel gear 801706 to rotate in a rotating state, then the fourteenth bevel gear 801706 drives the thirteenth bevel gear 801704 engaged with the left side of the bottom end of the fourteenth bevel gear to rotate, and then the thirteenth bevel gear 801704 drives the first telescopic rod 801703 at the left end of the thirteenth bevel gear to rotate, and drives the second long gear 801702 to move downwards to a position engaged with the eighth flat gear 801711, then the eighth flat gear 801711 rotates, due to the fact that threads exist on the inner side of the eighth flat gear 801711, and then the third lead screw 801712 moves rightwards, and drives the first slot block 8019 to move rightwards, so as to extrude and attach the filled quartz stone plate, then after extrusion and solidification are completed, the control panel 5 controls the third electric push rod 8016 and the fourth electric push rod 8018 to jointly push and move upwards relative to the extrusion mechanism 8017, and then the third long gear 801710 moves to a position engaged with the eighth flat gear 801711, and then the eighth flat gear 801711, that is, the third screw 801712 drives the first slot block 8019 at the right end to move leftwards, and then the buffer spring rod 801714 plays a role in buffering, so that the extrusion curing of the secondary filling quartz stone plate is completed.
Tower type stirring leaf 803 is provided with three flabellum altogether, is located the inside bottom of head tank 801, top and middle part respectively to by upper to lower flabellum external diameter diminish gradually, so that when adding the raw materials from raw materials import 802, can carry out a layering to it and mix, reached the effect of raw materials intensive mixing.
The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.