CN210233264U

CN210233264U - Cutting line for thermosetting plate

Info

Publication number: CN210233264U
Application number: CN201920832425.7U
Authority: CN
Inventors: Mingjian Li; 李明建; Cheng Xu; 徐成; Yuan Li; 李渊
Original assignee: Jiangsu Lize Energy Saving Technology Co ltd
Current assignee: Jiangsu Lize Energy Saving Technology Co ltd
Priority date: 2019-06-04
Filing date: 2019-06-04
Publication date: 2020-04-03
Anticipated expiration: 2029-06-04

Abstract

The utility model provides a thermosetting board line of cut, the line of cut includes along the X direction from left to right the layering device, blocking device, conveyor, loading attachment, open slicer, vertical slicer, garrulous end clearance system, unloader that distribute. The conveying device is used for conveying the thermosetting plate blank blocks to be cut by the layering device, the blocking device, the feeding device, the open type slicing machine and the vertical type slicing machine in sequence, and the feeding device is used for feeding materials after the powder is removed by the powder cleaning system. The utility model discloses specially to the thermosetting board, degree of automation is high, and cutting efficiency is high with cutting accuracy.

Description

Cutting line for thermosetting plate

Technical Field

The utility model relates to a thermosetting board cutting technical field, concretely relates to thermosetting board line of cut.

Background

At present, the external wall heat insulation system in China is widely applied to external heat insulation, and the external wall heat insulation system is used as an important building structure of a building and has multiple functions of building appearance decoration, building envelope heat insulation and the like. The external heat insulation technology has the advantages of wider application range, better heat insulation effect, protection of a main body structure, increase of the effective use area of a building and the like compared with other technologies under the condition that heat insulation materials with the same specification, performance and size are reused.

The thermosetting plate is one of important materials for external thermal insulation of an external wall, is also called a thermosetting insulation board and is made of polystyrene particles through pre-foaming, curing, forming, drying, cutting and the like, a special cutting line for cutting the thermosetting plate is not arranged in the existing market, a common cutting device is adopted for cutting, the automation degree is low, the cutting process needs manual reversing for multiple times, and the cutting efficiency and the cutting precision are low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the prior art, the utility model provides a hot setting board line of cut has degree of automation height, cutting efficiency and the high characteristics of cutting accuracy.

The utility model provides a technical scheme of above-mentioned problem does: a cutting line for a thermosetting plate comprises a layering device, a blocking device, a conveying device, a feeding device, an open type slicing machine, a vertical type slicing machine, a broken powder cleaning system and a discharging device which are distributed from left to right along the X direction;

the conveying device is used for conveying the thermosetting plate embryo blocks to be cut by the layering device, the blocking device, the loading device, the open type slicing machine and the vertical type slicing machine in sequence, and the chopped pieces are removed by the chopped piece cleaning system and then are discharged by the discharging device.

Furthermore, the layering device comprises a layering frame, a plurality of layering cutting devices are arranged in the layering frame, and the layering cutting devices are positioned in the layering frame and distributed along the Z direction;

each layered cutting device corresponds to one spiral lifter, the spiral lifters are connected with the layered cutting devices, and the spiral lifters are fixed on the layered frame;

and the front side and the rear side of each layered cutting device are respectively provided with a guide rail, the guide rails penetrate through the layered cutting devices, and the guide rails are connected with the layered cutting devices in a sliding manner.

Further, the feeding device comprises a vertical frame, a conveying device, a spiral lifter and a clamping device;

a spiral lifter is arranged in the vertical frame, the spiral lifter is fixed on the vertical frame, the spiral lifter passes through the vertical frame and is connected with a clamping device, and the clamping device is positioned in the vertical frame; a conveying device is arranged in the vertical frame and below the conveying device clamping device;

the clamping device comprises a guide rail, a clamping cylinder, a movable frame, a fixed frame and a clamping plate;

the fixed frame is positioned above the movable frame, the lower end of the fixed frame is connected with the movable frame, and the upper end of the fixed frame is connected with the spiral lifter;

the movable frame is positioned in the vertical frame, four corners of the movable frame are provided with guide rails, the guide rails penetrate through the movable frame, and the guide rails are connected with the movable frame in a sliding manner; the guide rail is fixed on the vertical frame;

the front side and the rear side of the movable frame are respectively provided with a group of clamping cylinders, the clamping cylinders are hinged to the movable frame, push rods of the clamping cylinders are hinged to the connecting pieces, one ends, far away from the clamping cylinders, of the connecting pieces are bent upwards and hinged to the movable frame, and the connecting pieces are hinged to the clamping plates.

Furthermore, the blocking device comprises a blocking frame, and a plurality of blocking cutting devices distributed along the Y direction are arranged in the blocking frame.

Further, the open type slicing machine comprises a rack, a beam and an open type cutting device;

a plurality of cross beams are arranged at the upper end of the rack, the cross beams are uniformly distributed along the X direction, and two ends of each cross beam are connected with the rack;

each cross beam is provided with a spiral lifter, the spiral lifters penetrate through the cross beams and are connected with an open type cutting device, the open type cutting device is positioned below the cross beams, and the open type cutting device is connected with the cross beams;

the front side and the rear side of each open type cutting device are respectively provided with a guide rail, the guide rails penetrate through the open type cutting devices, and the guide rails are connected with the open type cutting devices in a sliding mode.

Furthermore, the open type cutting device has the same structure as the block cutting device, and comprises a main beam, a first motor, a first belt wheel, a second belt wheel, a circular saw blade, a driving belt wheel and a driven belt wheel;

the lower part of the main beam is provided with a first belt wheel and a second belt wheel, the first belt wheel and the second belt wheel are respectively positioned on the front side and the rear side of the main beam, the first belt wheel is fixed on a first transmission shaft, the first transmission shaft is rotatably connected with a first mounting seat, the first mounting seat is fixed on the main beam, and one end of the first transmission shaft, which is far away from the first belt wheel, is connected with a driven belt wheel;

the second belt wheel is fixed on a second transmission shaft, the second transmission shaft is rotatably connected with a second mounting seat, and the second mounting seat is fixed on the main beam; the first belt wheel is connected with the second belt wheel through an annular saw blade; first motor is fixed on the girder, even has driving pulley on the first motor shaft, and driving pulley passes through the belt and is connected with the driven pulley.

Further, the vertical slicing machine comprises an outer frame, a knife rest, a vertical cutting device, a spiral lifter, a first clamping device and a second clamping device;

a spiral lifter is fixed at the upper end of the outer frame and penetrates through the outer frame to be connected with the tool rest;

the tool rest is positioned in the outer frame, a plurality of vertical cutting devices are arranged on the tool rest, and the vertical cutting devices are uniformly distributed along the X direction;

the conveying device is positioned below the tool rest; the first clamping device is positioned below the tool rest; and the front side and the rear side of the tool rest are respectively provided with a second clamping device.

Furthermore, vertical cutting device is the same with the layering cutting device structure, and vertical cutting device includes drive motor, first driving pulley, second driving pulley, annular saw blade, connecting seat, and first driving pulley is fixed on the drive motor axle, and first driving pulley passes through annular saw blade and is connected with second driving pulley, and second driving pulley is fixed on the installation axle, and the installation axle rotates with the connecting seat to be connected.

Further, the first clamping device comprises an upper top frame and an upper top cylinder; the upper jacking cylinders are positioned at four corners of the upper jacking frame, and push rods of the upper jacking cylinders are connected with the upper jacking frame;

the upper top frame comprises a plurality of frame bodies, the frame bodies are distributed along the Y direction, two adjacent frame bodies are connected into a whole, and each frame body corresponds to one transmission piece;

the frame body is connected with a plurality of groups of first U-shaped frames, the first U-shaped frames are uniformly distributed along the X direction, and the first U-shaped frames correspond to the vertical cutting assemblies one by one; a second U-shaped frame is arranged between every two adjacent first U-shaped frames and connected with the frame body.

Furthermore, the second clamping device comprises a side pressing plate, a side pressing cylinder and a guide rail, wherein the side pressing cylinder is fixed on the outer frame, and a push rod of the side pressing cylinder is connected with the side pressing plate; the side pressure plates are connected with the guide rails in a sliding mode, and the guide rails are fixed on the outer frame.

Furthermore, the crushed powder cleaning system comprises a cleaning device, a fine strip crusher, a fan, a first conveying pipeline and a second conveying pipeline;

the sliver crushers are respectively positioned at the front side and the rear side of the cleaning device and are fixed on the cleaning device; the bottom of the sliver crusher is provided with a discharge port, and the discharge port is connected with a fan through a first conveying pipeline; the fan is connected with the storage bin through a second conveying pipeline;

further, the sliver crusher comprises a shell, a crushing assembly and a conveying assembly, wherein the crushing assembly and the conveying assembly are both positioned in the shell, and the crushing assembly is positioned above the conveying assembly;

the crushing assembly comprises a transmission shaft, a first motor and crushing blades, the transmission shaft is rotatably connected with the shell, one end of the transmission shaft extends out of the shell and is connected with the first motor shaft, and one end of the transmission shaft extending out of the shell is connected with a driving belt wheel;

a plurality of crushing blades are arranged on the transmission shaft and are uniformly distributed along the central axis direction of the transmission shaft; the crushing blade comprises a plurality of crushing movable teeth which are annularly arrayed around the central axis of the transmission shaft;

the transmission assembly comprises a main shaft and a packing auger, the main shaft is rotatably connected with the shell, one end of the main shaft extends out of the shell and is connected with a driven belt wheel, and the driving belt wheel is connected with the driven belt wheel through a belt; the main shaft is connected with a spiral auger.

The casing is equipped with a plurality of broken fixed teeth in, and broken fixed tooth is located the casing front side, and broken fixed tooth is along transmission shaft central axis direction evenly distributed, and broken fixed tooth and broken leaf staggered distribution are equipped with a broken fixed tooth between two adjacent broken leaves.

Further, the cleaning device comprises a base, a first overturning component and a second overturning component;

a first overturning assembly and a second overturning assembly are arranged above the base, the first overturning assembly and the second overturning assembly are respectively positioned on the front side and the rear side of the base, and the first overturning assembly and the second overturning assembly are symmetrical in the front and the rear direction relative to the base; a first jacking cylinder is arranged in the base, and a push rod of the first jacking cylinder is connected with the first overturning assembly;

a second jacking cylinder is arranged in the base, and a push rod of the second jacking cylinder is connected with the second overturning assembly.

Furthermore, the two first jacking cylinders are respectively positioned at the left side and the right side of the base; the two second jacking cylinders are located between the two first jacking cylinders.

Furthermore, the first overturning assembly comprises a bracket, a conveying piece, a pressing plate, a clamping cylinder, a guide rail, a sliding block, a fixing plate and a fixing seat;

the bracket is of an L-shaped structure and is hinged with the base; the upper part of the bracket is provided with guide rails, the two guide rails are respectively positioned at the left side and the right side of the bracket, and the guide rails are fixed on the bracket; the upper part of the bracket is provided with a pressing plate which is connected with the guide rail in a sliding way through a sliding block; and a clamping cylinder is arranged on one side of the guide rail, the clamping cylinder is fixed on the support, and a push rod of the clamping cylinder is connected with the pressing plate.

Further, the blanking device comprises an upper supporting table, a lower supporting table, a transmission piece, a push-pull cylinder and a transportation platform;

the upper support table is positioned on the left side of the lower support table, the upper end of the upper support table is provided with transmission pieces, the transmission pieces are positioned on the front side and the rear side of the upper support table, and the transmission pieces are symmetrical in the front and the rear direction relative to the upper support table; the transmission piece and the conveying piece have the same structure;

the transportation platform is positioned on the lower supporting platform, the lower end of the transportation platform is provided with guide rails, the guide rails are positioned on the left side and the right side of the transportation platform, and the guide rails are connected with the transportation platform in a sliding manner; the push-pull air cylinder is fixed on the lower support platform, and a push rod of the push-pull air cylinder is connected with the transportation platform; the conveying platform is provided with a conveyor.

Further, the conveying part comprises a first driving shaft, a second driving shaft, a first chain wheel, a second chain wheel, a third chain wheel, a fourth chain wheel, a front annular chain, a rear annular chain, a second motor, a first belt pulley and a second belt pulley;

the first driving shaft and the second driving shaft are respectively positioned at the left side and the right side of the bracket, the second driving shaft is fixed on the bracket through a second mounting plate, the second driving shaft is rotatably connected with the second mounting plate, and one end of the second driving shaft is connected with a second motor shaft; the second motor is fixed on the bracket;

a first chain wheel and a second chain wheel are fixed on the second driving shaft and are respectively positioned at two ends of the second driving shaft; first sprocket passes through preceding annular chain with the third sprocket and is connected, and the second sprocket passes through back annular chain with the fourth sprocket and is connected, and third sprocket, fourth sprocket are all fixed on first drive shaft, and first drive shaft passes through first mounting panel to be fixed on the support, and first drive shaft rotates with first mounting panel to be connected.

Further, the conveying device is a double-chain roller conveyor or a belt conveyor.

The utility model discloses beneficial effect has: the utility model discloses degree of automation is high, and cutting efficiency is high with cutting accuracy, and to the cutting of hot setting board specially, the problem of the special line of cut that does not have the cutting of hot setting board on the current market has been solved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the layered device structure of the present invention.

Fig. 3 is a perspective view of the feeding device of the present invention.

Fig. 4 is a front view of the feeding device of the present invention.

Fig. 5 is a schematic structural view of the blocking device of the present invention.

Fig. 6 is a schematic structural diagram of the open-type slicer of the present invention (1).

Fig. 7 is a schematic view of the open-type slicer of the present invention (2).

Fig. 8 is a schematic structural diagram of the open-type slicer of the present invention (3).

Fig. 9 is an enlarged view of a portion a of fig. 8.

Fig. 10 is a schematic structural diagram (1) of the vertical slicer of the present invention.

Fig. 11 is a schematic structural diagram of the vertical slicer of the present invention (2).

Fig. 12 is a schematic structural view of the vertical cutting device of the present invention.

Fig. 13 is a distribution diagram of the first clamping device and the second clamping device of the present invention.

Fig. 14 is a schematic view of the structure of the upper top frame of the present invention.

Fig. 15 is the structural schematic diagram of the scrap end cleaning system of the present invention.

Fig. 16 is a schematic structural diagram (1) of the cleaning device of the present invention.

Fig. 17 is a schematic structural diagram (2) of the cleaning device of the present invention.

Fig. 18 is a schematic structural diagram (3) of the cleaning device of the present invention.

Fig. 19 is a perspective view of the sliver breaker of the present invention.

Fig. 20 is a top view of the sliver breaker of the present invention.

Fig. 21 is a main view direction cross-sectional view of the sliver crusher of the present invention.

Fig. 22 is a schematic structural view of the crushing assembly of the present invention.

Fig. 23 is a schematic structural view of the conveying assembly of the present invention.

In the figure: 100-scrap cleaning system, 200-open type slicing machine, 300-vertical type slicing machine, 400-feeding device, 500-discharging device, 600-layering device, 700-partitioning device, 800-conveying device, 900-spiral lifter, 1000-guide rail, 2000-thermosetting slab block

101-base, 102-first turning assembly, 103-second turning assembly, 104-first jacking cylinder, 105-second jacking cylinder, 106-bracket, 108-fixing seat, 109-pressing plate, 110-sliding block, 111-clamping cylinder, 112-fixing plate, 113-conveying member, 114-first driving shaft, 115-second driving shaft, 116-first chain wheel, 117-second chain wheel, 118-third chain wheel, 119-fourth chain wheel, 120-front annular chain, 121-rear annular chain, 122-second motor, 123-first mounting plate, 124-second mounting plate, 125-cleaning device, 126-sliver crusher, 127-discharge outlet, 128-first conveying pipeline, 129-second conveying pipeline, 130-fan, 131-bin, 132-shell, 133-crushing component, 134-transmission shaft, 135-first motor, 136-driving pulley, 137-crushing leaf, 138-crushing movable tooth, 139-crushing fixed tooth, 140-transmission component, 141-main shaft, 142-auger and 143-driven pulley.

201-frame, 202-beam, 204-cutting device, 207-main beam, 208-first pulley, 209-second pulley, 210-first transmission shaft, 216-first motor, 217-driving pulley, 218-driven pulley.

301-outer frame, 303-tool post, 304-vertical cutting device, 306-first clamping device, 307-second clamping device, 308-first driving belt wheel, 309-driving motor, 310-second driving belt wheel, 325-upper top frame, 326-upper top cylinder, 327-frame body, 328-first U-shaped frame, 329-second U-shaped frame, 330-side pressure plate and 331-side pressure cylinder.

401-vertical frame, 404-clamping device, 405-guide rail, 406-fixed frame, 407-movable frame, 408-clamping cylinder, 409-connecting piece and 411-clamping plate.

501-upper supporting table, 502-lower supporting table, 503-transmission piece, 504-transportation platform, 505-push-pull air cylinder and 506-conveyor.

601-layered frame, 602-layered cutting device.

701-a block frame, 702-a block cutting device.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description.

A cutting line for a thermosetting plate comprises a layering device 600, a blocking device 700, a conveying device 800, a feeding device 400, an open type slicing machine 200, a vertical type slicing machine 300, a broken powder cleaning system 100 and a blanking device 500 which are distributed from left to right along the X direction; protective covers are sleeved outside the layering device 600, the partitioning device 700, the feeding device 400, the open type slicing machine 200, the vertical type slicing machine 300, the broken powder cleaning system 100 and the discharging device 500;

the conveying device 800 is used for conveying the thermosetting plate blank blocks 2000 to be cut by the layering device 600, the blocking device 700, the feeding device 400, the open type slicing machine 200 and the vertical type slicing machine 300 in sequence, and then to be discharged by the discharging device 500 after being cleared of the broken powder by the broken powder clearing system 100.

The conveying device 800 is a double-chain roller conveyor, the double-chain roller conveyor uses a double-chain wheel roller, and a motor drives a chain to pull the roller to rotate, so as to drive an object on the roller to operate, the double-chain roller conveyor is the prior art, and is well known to those skilled in the art, and details are not repeated in the application;

the layering device 600 comprises a layering frame 601, wherein three layering cutting devices 602 distributed along the Z direction are arranged in the layering frame 601;

each layered cutting device 602 corresponds to one spiral lifter 900, the spiral lifters 900 are connected with the layered cutting devices 602, and the spiral lifters 900 are fixed on the layered frame 601;

the front side and the rear side of each layered cutting device 602 are respectively provided with a guide rail 1000, the guide rails 1000 penetrate through the layered cutting devices 602, and the guide rails 1000 are connected with the layered cutting devices 602 in a sliding manner.

The distance between two adjacent layered cutting devices 602 can be adjusted by the spiral lifter 900, so that the thickness of the thermosetting slab block 2000 cut by the layered cutting devices 602 can be adjusted; the whole thermosetting slab block 2000 is sent into a layering device 600, the layering device 600 cuts the thermosetting slab block 2000 into three layers, and the layering cutting devices 602 positioned at the top and the bottom cut off the edges of the upper end face and the lower end face of the thermosetting slab block 2000; when the device is used, a user can select the number of the layered cutting devices 602 according to the cutting layer number of the user, and select a semi-annular saw blade or an annular saw blade to be used on each layered cutting device 602, wherein the layered cutting device 602 in the middle position in the embodiment selects the semi-annular saw blade to finish three-layer cutting and flaw-piece cutting of the thermosetting slab block 2000;

the feeding device 400 comprises a vertical frame 401, a conveying device 800403, a spiral lifter 900 and a clamping device 404;

a spiral lifter 900 is arranged in the vertical frame 401, the spiral lifter 900 is fixed on the vertical frame 401, and the clamping device 404 is positioned in the vertical frame 401;

the clamping device 404 comprises a guide rail 1000, a clamping cylinder 408, a moving frame 407, a fixed frame 406 and a clamping plate 411;

the fixed frame 406 is positioned above the movable frame 407, and the fixed frame 406 is connected with the movable frame 407; the spiral lifter 900 extends into the vertical frame 401 and is connected with the fixed frame 406;

the height of the clamping device 404 is adjusted through the spiral lifter 900, so that the clamping device 404 can clamp various thermosetting slab blocks 2000 with different height sizes, and the practicability is greatly enhanced;

the movable frame 407 is positioned in the vertical frame 401, four corners of the movable frame 407 are respectively provided with a guide rail 1000, the guide rails 1000 penetrate through the movable frame 407, and the guide rails 1000 are slidably connected with the movable frame 407; the guide rail 1000 is fixed on the vertical frame 401;

a group of clamping cylinders 408 is respectively arranged on the front side and the rear side of the movable frame 407, the number of the group of clamping cylinders 408 is two, the clamping cylinders 408 are hinged with the movable frame 407, a push rod of the clamping cylinder 408 is hinged with a connecting piece 409, one end of the connecting piece 409, which is far away from the clamping cylinder 408, is bent upwards to be hinged with the movable frame 407, and the connecting piece 409 is hinged with a clamping plate 411;

through the centre gripping cylinder 408, form link mechanism between connecting piece 409 and the splint 411, utilize the push rod extension and the shortening of centre gripping cylinder 408, make the angle change of splint 411, the splint 411 of front and back both sides presss from both sides tightly thermosetting slab piece 2000, thereby lift thermosetting slab piece 2000, separate thermosetting slab piece 2000 of lower floor and thermosetting slab piece 2000 of top, thermosetting slab piece 2000 of lower floor moves right under conveyor 800 effect, accomplish the material loading, get into the piecemeal process, realize the material loading in proper order from the bottom up.

The block device 700 comprises a block frame 701, two block cutting devices 702 distributed along the Y direction are arranged in the block frame 701, and the block cutting devices 702 are distributed along the Y direction.

Dividing the thermosetting slab block 2000 into two rows by a block dividing device 700, and cutting off the boundary skin of the front end surface and the rear end surface of the thermosetting slab block 2000 by a block dividing cutting device 702; during the use, the user can select the number of piecemeal cutting device 702 according to the cutting piece number of oneself and size needs to and choose for use half-ring shape saw blade or annular saw blade on every piecemeal cutting device, and the distance between two adjacent piecemeal cutting device 702, the size of every piecemeal cutting device 702, and one of them piecemeal cutting device 702 adopts half-ring shape saw blade in this embodiment, accomplishes two divisions and the boundary leather cutting of thermosetting slab piece 2000.

The open slicer 200 comprises a frame 201, a beam 202, an open cutting device 204;

a plurality of cross beams 202 are arranged at the upper end of the rack 201, the cross beams 202 are uniformly distributed along the X direction, and two ends of each cross beam 202 are connected with the rack 201;

each cross beam 202 is provided with a spiral lifter 900, the spiral lifter 900 penetrates through the cross beam 202 to be connected with the open type cutting device 204, the open type cutting device 204 is positioned below the cross beam 202, and the open type cutting device 204 is connected with the cross beam 202; the conveying device 800 is located below the open cutting device 204;

the front side and the rear side of each open type cutting device 204 are respectively provided with a guide rail 1000, the guide rails 1000 penetrate through the open type cutting devices 204, and the guide rails 1000 are connected with the open type cutting devices 204 in a sliding manner;

the open type cutting machine works once to finish the multi-layer cutting of the thermosetting slab block 2000, and the thermosetting slab block 2000 subjected to the layered cutting is divided into a plurality of layers again, so that the cutting efficiency is high; each open type cutting device 204 corresponds to one spiral lifter 900, the height of each open type cutting device 204 can be adjusted respectively, the open type cutting devices are not interfered with each other, the independence is strong, and the height difference between two adjacent open type cutting devices 204 is the thickness of one of the cut thermosetting slab blocks 2000;

the open cutting device 204 has the same structure as the block cutting device 204, and the open cutting device 204 comprises a main beam 207, a first motor 216, a first belt wheel 208, a second belt wheel 209, a circular saw blade, a driving belt wheel 217 and a driven belt wheel 218;

a first belt pulley 208 and a second belt pulley 209 are arranged at the lower part of the main beam 207, the first belt pulley 208 and the second belt pulley 209 are respectively positioned at the front side and the rear side of the main beam 207, the first belt pulley 208 is fixed on a first transmission shaft 210, the first transmission shaft 210 is rotatably connected with a first mounting seat, the first mounting seat is fixed on the main beam 207, and one end of the first transmission shaft 210, which is far away from the first belt pulley 208, is connected with a driven belt pulley 218;

the second belt pulley 209 is fixed on a second transmission shaft, the second transmission shaft is rotatably connected with a second mounting seat, and the second mounting seat is fixed on the main beam 207; the first belt pulley 208 is connected with the second belt pulley 209 through an annular saw blade; a first motor 216 is fixed on the main beam 207, a driving belt wheel 217 is connected to the shaft of the first motor 216, and the driving belt wheel 217 is connected with a driven belt wheel 218 through a belt;

the driving belt wheel 217 is driven to rotate by the first motor 216, the driven belt wheel 218 rotates, the first belt wheel 208 and the second belt wheel 209 rotate, the annular saw blade rotates, the thermosetting slab blocks 2000 move along the X direction under the action of the first conveying platform, and the annular saw blade is matched with the first conveying platform to complete cutting of the thermosetting slab blocks 2000;

the vertical slicer 300 includes an outer frame 301, a knife holder 303, a vertical cutting device 304, a screw lifter 900, a first clamping device 306, a second clamping device 307;

a spiral lifter 900 is fixed at the upper end of the outer frame 301, and the spiral lifter 900 penetrates through the outer frame 301 to be connected with the tool rest 303; the spiral lifter 900 drives the tool rest 303 and the vertical cutting device 304 to move in the Z direction, and the thermosetting slab block 2000 is cut from top to bottom;

the tool rest 303 is positioned in the outer frame 301, and a plurality of vertical cutting devices 304 distributed along the X direction are arranged on the tool rest 303;

the conveying device 800 is positioned below the tool post 303; the first clamping device 306 is located below the tool holder 303; the front side and the rear side of the tool rest 303 are respectively provided with a second clamping device 307;

vertical cutting device 304 is the same with layering cutting device structure, and vertical cutting device 304 includes driving motor 309, first driving pulley 308, second driving pulley 310, annular saw blade, connecting seat, and first driving pulley 308 is fixed at driving motor 309 epaxially, and first driving pulley 308 passes through annular saw blade to be connected with second driving pulley 310, and second driving pulley 310 is fixed on the installation axle, and the installation axle rotates with the connecting seat to be connected.

The first driving belt wheel 308 is driven to rotate through the driving motor 309, the second driving belt wheel 310 rotates, the ring-shaped saw blade moves to cut the thermosetting slab block 2000, and the spiral lifter 900 is matched to drive the tool rest 303 and the vertical cutting device 304 to move linearly from top to bottom to finish cutting; the distance between two adjacent vertical cutting devices 304, that is, the width of the cut thermosetting slab block 2000, is located at the end-to-end vertical cutting devices 304, and cuts the edge skin at the left and right ends of the thermosetting slab block 2000 while cutting the thermosetting slab block 2000.

The first clamping device 306 comprises an upper top frame 325, an upper top cylinder 326; the upper top air cylinders 326 are positioned at four corners of the upper top frame 325, and push rods of the upper top air cylinders 326 are connected with the upper top frame 325;

the upper top frame 325 includes a plurality of frame bodies 327, the frame bodies 327 are distributed along the Y direction, and two adjacent frame bodies 327 are connected into a whole;

a plurality of groups of first U-shaped frames 328 are connected to the frame body 327, the first U-shaped frames 328 are uniformly distributed along the X direction, and the first U-shaped frames 328 correspond to the vertical cutting assemblies one by one; a second U-shaped frame 329 is arranged between every two adjacent first U-shaped frames 328, and the second U-shaped frame 329 is connected with the frame body 327;

the second clamping device 307 comprises a side pressure plate 330, a side pressure cylinder 331 and a guide rail 1000, wherein the side pressure cylinder 331 is fixed on the outer frame 301, and a push rod of the side pressure cylinder 331 is connected with the side pressure plate 330; the side plates 330 are slidably connected to the guide rails 1000, and the guide rails 1000 are fixed to the outer frame 301.

The thermosetting slab block 2000 is clamped through the first clamping device 306 and the second clamping device 307, so that the situation that the size of the thermosetting slab block 2000 after cutting is influenced due to deviation of cutting force in the cutting process is avoided; the upper top frame 325 is driven by the upper top cylinder 326 to move upwards to be abutted against the thermosetting slab block 2000, the side pressure cylinder 331 pushes the side pressure plate 330 to move, and the side pressure plates 330 on two sides clamp the thermosetting slab block 2000.

The first U-shaped frame 328 and the second U-shaped frame 329 ensure the smooth completion of the vertical cutting device 304 and avoid the influence on the operation of the vertical cutting device 304 due to interference.

The fine powder cleaning system 100 comprises a cleaning device 125, a fine strip crusher 126, a fan 130, a first conveying pipeline 128 and a second conveying pipeline 129;

the sliver crushers 126 are respectively positioned at the front side and the rear side of the cleaning device 125, and the sliver crushers 126 are fixed on the cleaning device 125; the bottom of the sliver crusher 126 is provided with a discharge port 127, and the discharge port 127 is connected with a fan 130 through a first conveying pipeline 128; the fan 130 is connected with the bin 131 through a second conveying pipeline 129;

the sliver crusher 126 comprises a shell 132, a crushing assembly 133 and a conveying assembly 140, wherein the crushing assembly 133 and the conveying assembly 140 are both positioned in the shell 132, and the crushing assembly 133 is positioned above the conveying assembly 140;

the crushing assembly 133 comprises a transmission shaft 134, a first motor 135 and crushing blades 137, the transmission shaft 134 is rotatably connected with the shell 132, one end of the transmission shaft 134 extends out of the shell 132 and is connected with the first motor 135 through a shaft, and one end of the transmission shaft 134 extending out of the shell 132 is connected with a driving pulley 136;

a plurality of crushing blades 137 are arranged on the transmission shaft 134, and the crushing blades 137 are uniformly distributed along the central axis direction of the transmission shaft 134; the crushing lobes 137 include a plurality of crushing moving teeth 138, the crushing moving teeth 138 being annularly arrayed about the central axis of the drive shaft 134;

a plurality of crushing fixed teeth 139 are arranged in the shell 132, the crushing fixed teeth 139 are positioned on the front side of the shell 132, the crushing fixed teeth 139 are uniformly distributed along the central axis direction of the transmission shaft 134, the crushing fixed teeth 139 and the crushing leaves 137 are distributed in a staggered manner, and one crushing fixed tooth 139 is arranged between every two adjacent crushing leaves 137.

The crushing component 133 crushes the crushed powder, so that the conveying is convenient; the first motor 135 drives the transmission shaft 134 to rotate, the crushing blades 137 rotate, and the crushing blades 137 are matched with the crushing movable teeth 138, so that the crushing effect is improved;

the transmission assembly 140 comprises a main shaft 141 and an auger 142, the main shaft 141 is rotatably connected with the shell 132, one end of the main shaft 141 extends out of the shell 132 and is connected with a driven belt pulley 143, and the driving belt pulley 136 is connected with the driven belt pulley 143 through a belt; the main shaft 141 is connected with a spiral packing auger 142;

the conveying assembly 140 conveys the crushed powder crushed by the crushing assembly 133 to the discharge port 127, and the crushed powder is conveyed into the storage bin 131 through the first conveying pipeline 128, the second conveying pipeline 129 and the fan 130, so that the crushed powder is cleaned and recovered;

the cleaning device 125 comprises a base 101, a first overturning component 102 and a second overturning component 103;

a first overturning component 102 and a second overturning component 103 are arranged above the base 101, the first overturning component 102 and the second overturning component 103 are respectively positioned at the front side and the rear side of the base 101, and the first overturning component 102 and the second overturning component 103 are symmetrical in front and rear directions relative to the base 101; a first jacking cylinder 104 is arranged in the base 101, and a push rod of the first jacking cylinder 104 is connected with the first overturning assembly 102; two overturning ash removal lines are formed by the first overturning assembly 102 and the second overturning assembly 103, so that overturning ash removal work is completed, and cleaning speed and efficiency are improved;

a first jacking cylinder 104 is arranged in the base 101, and the two first jacking cylinders 104 are respectively positioned at the left side and the right side of the base 101; the first jacking cylinder 104 is connected with the base 101, and a push rod of the first jacking cylinder 104 is connected with the first overturning component 102;

a second jacking cylinder 105 is arranged in the base 101, and the two second jacking cylinders 105 are positioned between the two first jacking cylinders 104; a second jacking cylinder 105 is connected with the base 101, and a push rod of the second jacking cylinder 105 is connected with the second overturning component 103; the first overturning component 102 and the second overturning component 103 are respectively driven to overturn by a first jacking cylinder 104 and a second jacking cylinder 105;

the first turnover assembly 102 comprises a bracket 106, a conveying piece 113, a pressing plate 109, a clamping cylinder 111, a guide rail, a sliding block 110, a fixing plate 112 and a fixing seat 108;

the bracket 106 is of an L-shaped structure, and the bracket 106 is hinged with the base 101; guide rails are arranged at the upper part of the bracket 106, the two guide rails are respectively positioned at the left side and the right side of the bracket 106, and the guide rails are fixed on the bracket 106; the upper part of the bracket 106 is provided with a pressure plate 109, and the pressure plate 109 is connected with the guide rail in a sliding way through a slide block 110; a clamping cylinder 111 is arranged on one side of the guide rail, the clamping cylinder 111 is fixed on the support 106, and a push rod of the clamping cylinder 111 is connected with the pressure plate 109;

the clamping cylinder 111 drives the pressing plate 109 to move downwards, so that the thermosetting slab block 2000 to be cleaned is pressed and clamped, and the thermosetting slab block 2000 is prevented from falling off in the overturning process;

the blanking device 500 comprises an upper supporting platform 501, a lower supporting platform 502, a transmission part 503, a push-pull air cylinder 505 and a transportation platform 504;

the upper support platform 501 is positioned at the left side of the lower support platform 502, the upper end of the upper support platform 501 is provided with a transmission piece 503, the transmission piece 503 is positioned at the front side and the rear side of the upper support platform 501, and the transmission piece 503 is symmetrical front and back with respect to the upper support platform 501; the conveying member 503 has the same structure as the conveying member;

the transportation platform 504 is positioned on the lower support platform 502, guide rails are arranged at the lower end of the transportation platform 504, the guide rails are positioned at the left side and the right side of the transportation platform 504, and the guide rails are connected with the transportation platform 504 in a sliding manner; a push-pull air cylinder 505 is fixed on the lower support platform 502, and a push rod of the push-pull air cylinder 505 is connected with the transportation platform 504; a conveyor 506 is arranged on the transportation platform 504; the conveyor 506 is a belt conveyor 506, a chain is driven by a motor to pull a roller to rotate, friction between the roller and a belt drives the belt to move, and accordingly an object on the belt is driven to move, the belt conveyor 506 is prior art and well known to those skilled in the art, and details are not repeated in the application;

the cut thermosetting slab blocks 2000 are sent to the next process by the blanking device 500, the packaging machine is used for packaging, the push-pull air cylinder 505 pushes the transportation platform 504 to move in the Y direction, the two rows of the transported thermosetting slab blocks 2000 are transported, the thermosetting slab blocks 2000 sent by one of the transporting pieces 503 are transported to the packaging machine by the conveyor 506, the transportation platform 504 is aligned with the end point of the other transporting piece 503 by the push-pull air cylinder 505 and then transported, after the transportation is finished, the push-pull air cylinder 505 pulls the transportation platform 504 back to the original position, and the steps are repeated;

the conveying member 113 comprises a first driving shaft 114, a second driving shaft 115, a first chain wheel 116, a second chain wheel 117, a third chain wheel 118, a fourth chain wheel 119, a front annular chain 120, a rear annular chain 121, a second motor 122, a first belt pulley and a second belt pulley;

the first driving shaft 114 and the second driving shaft 115 are respectively positioned at the left side and the right side of the bracket, the second driving shaft 115 is fixed on the bracket through a second mounting plate 124, the second driving shaft 115 is rotatably connected with the second mounting plate 124, and one end of the second driving shaft 115 is connected with a second motor 122 shaft; the second motor 122 is fixed on the bracket;

a first chain wheel 116 and a second chain wheel 117 are fixed on the second driving shaft 115, and the first chain wheel 116 and the second chain wheel 117 are respectively positioned at two ends of the second driving shaft 115; first sprocket 116 is connected through preceding endless chain 120 with third sprocket 118, and second sprocket 117 is connected through back endless chain 121 with fourth sprocket 119, and third sprocket 118, fourth sprocket 119 are all fixed on first drive shaft 114, and first drive shaft 114 is fixed on the support through first mounting panel 123, and first drive shaft 114 and first mounting panel 123 rotate and be connected.

The spiral elevator 900 of the present invention is a shopping item.

The utility model discloses the working process: a whole block of thermosetting slab blank block passes through a layering device, the layering device cuts the whole block of thermosetting slab blank block into three layers of thermosetting slab blank blocks, and the upper end and the lower end edge skin are removed; conveying the three-layer thermosetting slab blocks to a feeding device by the conveying device, conveying the single-layer thermosetting slab blocks to a partitioning device layer by layer from bottom to top by the feeding device, cutting the single-layer thermosetting slab blocks into two rows by the partitioning device, and removing the end skins of the front end and the rear end; the conveying device conveys the two rows of thermosetting slab blanks to an open type cutting machine, and the open type cutting machine cuts the two rows of thermosetting slab blanks into two rows of multilayer thermosetting slab blanks; the conveying device conveys the two rows of multilayer thermosetting slab blanks to a vertical cutting machine, and the vertical cutting machine cuts the two rows of multilayer thermosetting slab blanks into thermosetting slab blanks with four rows, unchanged row number and unchanged layer number; the two rows of the four columns of the multilayer thermosetting slab blank blocks are conveyed to a broken powder removing device, the broken powder on the cut thermosetting slab blank blocks is shaken off by the broken powder removing device, and the cleaned thermosetting slab blank blocks are conveyed to a packaging machine through a conveyor in a separating manner to be packaged in blocks.

Many other changes and modifications can be made without departing from the spirit and scope of the invention. It is to be understood that the invention is not to be limited to the specific embodiments, and that the scope of the invention is defined by the appended claims.

Claims

1. A cutting line for thermosetting plates is characterized by comprising a layering device, a partitioning device, a conveying device, a feeding device, an open type slicing machine, a vertical type slicing machine, a broken powder cleaning system and a discharging device which are distributed from left to right along the X direction;

2. The thermal curing sheet cutting line as claimed in claim 1, wherein said layering means comprises a layering frame having a plurality of layering cutting means disposed therein, said layering cutting means being disposed within said layering frame and distributed in the Z-direction;

3. The line of claim 1 wherein the means for feeding comprises a vertical stand, a conveyor, a screw elevator, a gripper;

4. The thermal curing sheet cutting line as set forth in claim 1, wherein said block dividing means includes a block dividing frame having a plurality of block dividing cutting means disposed therein in a Y-direction.

5. The heat set sheet cutting line of claim 2 wherein the open microtome includes a frame, a beam, an open cutting device; the open type cutting device has the same structure as the block cutting device,

6. The thermal curing sheet cutting line as set forth in claim 5, wherein said open cutting means comprises a main beam, a first motor, a first pulley, a second pulley, an endless saw blade, a driving pulley, a driven pulley;

7. The hot set sheet cutting line of claim 4 wherein said vertical slicer includes an outer frame, a knife holder, a vertical cutting device, a screw elevator, a first clamping device, a second clamping device; the vertical cutting device has the same structure as the layered cutting device;

the conveying device is positioned below the tool rest; the first clamping device is positioned below the tool rest; the front side and the rear side of the tool rest are respectively provided with a second clamping device;

vertical cutting device includes drive motor, first driving pulley, second driving pulley, annular saw blade, connecting seat, and first driving pulley is fixed on the drive motor shaft, and first driving pulley passes through annular saw blade to be connected with second driving pulley, and second driving pulley is fixed on the installation axle, and the installation axle rotates with the connecting seat to be connected.

8. The thermal curing sheet cutting line as claimed in claim 7, wherein said first clamping means comprises an upper frame, an upper cylinder; the upper jacking cylinders are positioned at four corners of the upper jacking frame, and push rods of the upper jacking cylinders are connected with the upper jacking frame;

the frame body is connected with a plurality of groups of first U-shaped frames, the first U-shaped frames are uniformly distributed along the X direction, and the first U-shaped frames correspond to the vertical cutting assemblies one by one; a second U-shaped frame is arranged between every two adjacent first U-shaped frames and connected with the frame body;

the second clamping device comprises a side pressing plate, a side pressing cylinder and a guide rail, the side pressing cylinder is fixed on the outer frame, and a push rod of the side pressing cylinder is connected with the side pressing plate; the side pressure plates are connected with the guide rails in a sliding mode, and the guide rails are fixed on the outer frame.

9. The thermal setting board cutting line as claimed in claim 1, wherein said scrap cleaning system comprises a cleaning device, a strip breaker, a blower, a first conveying pipe, a second conveying pipe;

the sliver crusher comprises a shell, a crushing assembly and a conveying assembly, wherein the crushing assembly and the conveying assembly are both positioned in the shell, and the crushing assembly is positioned above the conveying assembly;

the transmission assembly comprises a main shaft and a packing auger, the main shaft is rotatably connected with the shell, one end of the main shaft extends out of the shell and is connected with a driven belt wheel, and the driving belt wheel is connected with the driven belt wheel through a belt; the main shaft is connected with a spiral auger;

a plurality of crushing fixed teeth are arranged in the shell and positioned on the front side of the shell, the crushing fixed teeth are uniformly distributed along the central axis direction of the transmission shaft, the crushing fixed teeth and the crushing blades are distributed in a staggered manner, and one crushing fixed tooth is arranged between every two adjacent crushing blades;

the cleaning device comprises a base, a first overturning component and a second overturning component;

a second jacking cylinder is arranged in the base, and a push rod of the second jacking cylinder is connected with the second overturning assembly;

the two first jacking cylinders are respectively positioned at the left side and the right side of the base; the two second jacking cylinders are positioned between the two first jacking cylinders;

the first overturning assembly comprises a bracket, a conveying piece, a pressing plate, a clamping cylinder, a guide rail, a sliding block, a fixing plate and a fixing seat;

10. The thermosetting sheet cutting line as claimed in claim 9, wherein the blanking means comprises an upper supporting table, a lower supporting table, a transfer member, a push-pull cylinder, a transportation platform;

the transportation platform is positioned on the lower supporting platform, the lower end of the transportation platform is provided with guide rails, the guide rails are positioned on the left side and the right side of the transportation platform, and the guide rails are connected with the transportation platform in a sliding manner; the push-pull air cylinder is fixed on the lower support platform, and a push rod of the push-pull air cylinder is connected with the transportation platform; a conveyor is arranged on the transportation platform;

the conveying part comprises a first driving shaft, a second driving shaft, a first chain wheel, a second chain wheel, a third chain wheel, a fourth chain wheel, a front annular chain, a rear annular chain, a second motor, a first belt pulley and a second belt pulley;