CN116945313A

CN116945313A - Shutter blade forming device

Info

Publication number: CN116945313A
Application number: CN202310973428.3A
Authority: CN
Inventors: 方建平; 方万豪
Original assignee: Hangzhou Yaxinte Shading Technology Co ltd
Current assignee: Hangzhou Yaxinte Shading Technology Co ltd
Priority date: 2023-08-04
Filing date: 2023-08-04
Publication date: 2023-10-27

Abstract

The utility model provides a shutter blade forming device, including the transfer board, there is a carousel transfer board one side, transfer board opposite side fixed fit has two carousels, set up the groove five on the transfer board, five internal fixation of groove has five internal tooth bars, five internal sliding fit have motor slider one, motor slider one internal fixation is provided with the motor, fixed fit has the gear on the output main shaft of motor, five internal tooth bars and gear engagement cooperation, slot four has been seted up to the symmetry on the transfer board, sliding fit has sliding shaft one in the groove four, sliding shaft one both ends respectively fixed fit has the cylinder fixed block, left side cylinder fixed block fixed fit has a left cylinder, right side cylinder fixed block fixed fit has a right cylinder, a plurality of transfer holes have been seted up on two carousels, downthehole fixed fit has downthehole tooth. The arrangement of the workpiece clamping device capable of sliding in the groove can enable the workpiece to be machined to be clamped by the same clamp in different stations, so that the working efficiency is improved.

Description

Shutter blade forming device

Technical Field

The utility model belongs to the technical field of manufacturing of shutter blades, and particularly relates to a shutter blade forming device.

Background

Blinds are a style of window that originates in ancient China, and modern blinds are imported from the United states. The shutter blade is generally made of wood, glass, aluminum alloy and bamboo, and the shutter blades made of different materials can provide different using feelings.

Chinese patent application No. cn2015111663. X discloses a shutter blade forming device, including workbin, processing groove I, oven I, processing groove II, oven II, cooling shaping mechanism, winding mechanism, be equipped with between workbin and the processing groove I and store up the area mechanism, store up the side of area mechanism and be equipped with straining device, be equipped with leveling mechanism between oven II and the cooling shaping mechanism, shutter blade is connected with winding mechanism after storing up area mechanism, straining device, processing groove I, oven I, processing groove II, oven II, leveling mechanism, cooling shaping mechanism in proper order. The utility model has the beneficial effects of effectively eliminating the surface wrinkles of the shutter blades and improving the quality of the shutter blades.

The device can be used for flattening the edge of the blade by heating in the processing process, but cannot ensure that the edge of the blade can be completely treated in the processing process, and the yield of products is affected.

Disclosure of Invention

The utility model provides a shutter blade forming device for overcoming the defects of the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions: a shutter blade forming device comprises a plurality of transfer plates, wherein one turntable is fixedly matched on one side of each transfer plate, two turntables are fixedly matched on the other side of each transfer plate, a groove five is formed in each transfer plate, five internal racks are fixedly matched on each groove, a motor slider I is slidably matched in each groove, a motor is fixedly arranged in each motor slider I, gears are fixedly matched on output spindles of the motors, the five internal racks are meshed with the gears, a groove four is symmetrically formed in each transfer plate, a sliding shaft I is slidably matched in each groove, two ends of each sliding shaft I are respectively fixedly matched with a cylinder fixing block, a left cylinder fixing block is fixedly matched with a left cylinder, a left rotating block is arranged on a piston rod of each left cylinder, a plurality of guide blocks are fixedly matched on each left rotating block, a right cylinder is fixedly matched on each cylinder fixing block, a right rotating block is arranged on each right cylinder, a rear baffle is fixedly matched on each groove, a spring is fixedly matched on each rear cylinder, a small spring is fixedly matched on each spring other, a plurality of inner teeth are matched on one side of the inner cylinders, a plurality of inner pistons are matched with a plurality of inner teeth of inner cylinders are matched on one side of the rotating discs, a plurality of inner rotating discs are matched on one side of the inner cylinders, and a power disc is fixedly matched on one side of each piston rod.

Firstly, two carousel one side is provided with the shield plate, shield plate fixed fit has the cutting board, fixed fit has once cutting frame on the cutting board, set up the groove eight on the cutting frame, be provided with the lead screw in the groove eight, the sliding fit has motor slider two in the groove eight, motor slider two and lead screw thread fit, the symmetrical fixed fit has the restriction displacement piece on the cutting frame, groove seven has been seted up to the first cutting frame bilateral symmetry, sliding fit has the cutting fixed plate in the groove seven, fixed be provided with once cutting blade between cutting fixed plate and the motor slider two, fixed fit has a plurality of pulleys on the cutting board, sliding fit has the gear area on two pulleys of one side, fixed fit has the fixed plate rack on the cutting fixed plate rack meshes the cooperation with the gear area, fixed fit has the secondary cutting frame on one side, two pulleys) top fixed fit has the deflector, secondary cutting frame one end is provided with the secondary propulsion board, set up the groove nine on the secondary propulsion board, sliding fit has the propulsion board through groove nine sliding fit on the secondary cutting frame, secondary propulsion board one side fixed fit has the propulsion board, sliding fit has the gear area to shift the fixed block on the support block, fixed fit has the fixed block on the left side and the fixed block of support block on the fixed block of cutting fixed block of both sides, fixed block and the fixed block on the fixed block of cutting fixed block has the fixed block on the left side and the fixed block of fixed block on the fixed block of support piece.

Secondly, one side of the rotating disc is provided with a feeding box, the feeding box is provided with a first groove, the feeding box is symmetrically provided with a first hole, a first shaft is rotatably matched with the first hole, and a plurality of stirring sheets are fixedly matched with the first shaft.

Secondly, feeding case one side is provided with washs the case, washs case both sides fixed fit and has a plurality of water spray boards and brush board, has seted up a plurality of apopores on the water spray board, is provided with a plurality of brush heads on the brush board, brush board and water spray board crisscross setting in washs the case both sides, brush board and water spray board downside all are provided with the separation blade of fixing at wasing the incasement wall, washs the case lower extreme and has seted up groove two, and groove three has been seted up to groove two in the symmetry, has seted up the screw thread groove in the groove two, has seted up a plurality of hole two in the screw thread groove. The thread groove is matched with the guide block.

Secondly, cutting groove one side is provided with the steam chest, steam chest normal running fit has the board axle, fixed fit has the orifice plate on the board axle, groove ten has been seted up to steam chest one side, steam chest one side is provided with the turning shaft, turning shaft one end articulates the cooperation at the steam chest, waist type hole has been seted up on the turning shaft, orifice plate one side fixed fit has the connecting axle, the connecting axle runs through groove ten, connecting axle sliding fit is downthehole at waist type, turning shaft other end articulates the cooperation has the turning auxiliary shaft, turning auxiliary shaft other end fixed fit has sliding shaft two, groove ten first has been seted up to steam chest one side, sliding shaft two sliding fit is in groove ten first, sliding shaft two other end rotary fit has waist type axile board, waist type axile board other end rotary fit has the connection fixed axle, the connection fixed axle normal running fit has the motor shaft board, steam chest one side fixed fit has the motor that turns, motor shaft board fixed fit is on the output shaft of turning motor, the steam chest articulates the cooperation has the shut-off plate.

Secondly, one side of the steam box is provided with an inclined sliding block, a groove is formed in the inclined sliding block, and a plurality of carding blocks are fixedly matched with the bottom end of the groove.

Finally, two polishing tables are fixedly matched with one side of the inclined sliding block, polishing belts are arranged in the polishing tables, a plurality of polishing bars are fixedly matched between the polishing tables, a motor is arranged in each polishing bar, a plurality of propelling wheels are rotatably matched in each polishing bar, an upper polishing wheel is rotatably arranged in each polishing bar, and a lower polishing wheel is rotatably arranged in each polishing bar.

In summary, the beneficial effects are that;

1, the device is provided with the cleaning device, so that the materials can be put into the device for processing without cleaning in advance after the materials are selected, and the working efficiency is improved.

2, this device has set up the cooperation of screw groove and guide block and has realized the raw materials rotation, has reduced power consumption, offers the groove that the size is the same in each part and makes the movable shaft accessible single driving source can remove at belt cleaning device, transfer board and three stations of cutting board, has reduced the complexity of device structure and has reduced the consumption of the energy when improving efficiency.

And 3, the device is provided with a cutting system for cutting twice at the same time. The mutual cooperation between the gear belt and the fixed plate rack can enable the cutting fixed plate and the secondary pushing plate to perform relative movement, so that the function of simultaneous cutting is realized, and the cooperation between the processing flows is more coherent while the working efficiency is improved.

4, this device realizes increasing the effect of blade toughness through setting up the steam chest. Meanwhile, the pore plate capable of reciprocating can turn the blade stack when steaming the blades, so that the blades can be fully steamed, and the blades can fall into the next working procedure.

And 5, the upper and lower grinding wheels can enable the two ends of the blade to be processed no matter when the front surface or the back surface of the blade is upward after the blade enters the grinding table, so that the process flow of the process is optimized.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a schematic diagram of the first embodiment of the present utility model;

FIG. 3 is a second schematic diagram of the present utility model;

FIG. 4 is a third schematic illustration of the present utility model;

FIG. 5 is an enlarged view of the utility model at A;

FIG. 6 is an enlarged view of the utility model at B;

FIG. 7 is a fourth schematic illustration of the present utility model;

FIG. 8 is a fifth embodiment of the present utility model;

FIG. 9 is an enlarged view of the present utility model at C;

FIG. 10 is an enlarged view of the utility model at D;

FIG. 11 is an enlarged view of the utility model at E;

FIG. 12 is a diagram of a sixth embodiment of the present utility model;

FIG. 13 is a seventh embodiment of the present utility model;

FIG. 14 is an enlarged view of the utility model at F;

FIG. 15 is a schematic diagram eight of the present utility model;

FIG. 16 is a diagram nine of the present utility model;

FIG. 17 is an enlarged view of the present utility model at G;

fig. 18 is an enlarged view of the present utility model at H.

Detailed Description

In order to enable those skilled in the art to better understand the present utility model, the following description will make clear and complete descriptions of the technical solutions in the embodiments of the present utility model with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-6, a shutter blade forming device comprises a base, a plurality of transfer plates 3, wherein one side of the transfer plate 3 is fixedly matched with a turntable 302, the other side of the transfer plate 3 is fixedly matched with a second turntable 301, a groove five 309 is formed on the transfer plate 3, a five internal rack 319 is fixedly matched in the groove five 309, a first motor slider 320 is slidably matched in the groove five 309, a motor is fixedly arranged in the first motor slider 320, a gear is fixedly matched on an output main shaft of the motor, the five internal racks 319 are engaged with the gear, a groove four 308 is symmetrically formed on the transfer plate 3, a sliding shaft one 3081 is slidably matched in the groove four 308, two ends of the sliding shaft one 3081 are respectively fixedly matched with a cylinder fixing block 316, a left cylinder 315 is fixedly matched with the left cylinder 315, a left rotating block 321 is arranged on the right side of the left cylinder 315, the left rotating block 321 is rotatably matched on a piston rod of the left cylinder, a plurality of guide blocks 314 are fixedly matched on the left rotating block 321, a right cylinder 318 is fixedly matched on the cylinder fixing block 316, a right rotating block 322 is arranged on the left side of the right cylinder 318, the right rotating block 322 is rotatably matched on a piston rod of the right cylinder 318, a six groove 317 is formed on the transfer plate 3, a rear baffle 310 is fixedly matched on the six groove 317, a spring 311 is fixedly matched on the rear baffle 310, a small cylinder 312 is fixedly matched on the other end of the spring 311, a blade 313 is arranged on one side of the small cylinder 312, the blade 313 is fixedly matched on the piston rod of the small cylinder 312, the small cylinder 312 is slidingly matched in the six groove 317, a plurality of transfer holes 3011 are formed on the two rotary plates 301, a hole groove 3012 is formed in the transfer holes 3012, a plurality of holes three 304 are formed on the rotary plate 302, a plurality of on-plate gears 303 are fixedly matched on the rotary plate 302, a motor 305 is arranged on one side of the rotary plate 302, the output shaft of the first motor 305 is fixedly matched with a power gear 306, and the power gear 306 is meshed and matched with the on-disc gear 303. One side of a turntable 302 is provided with a feeding box 1, the feeding box 1 is provided with a first groove 101, the feeding box 1 is symmetrically provided with a first hole 104, a first shaft 103 is rotatably matched with the first hole 104, and a plurality of stirring sheets 102 are fixedly matched with the first shaft 103. Feeding case 1 one side is provided with washs case 2, washs case 2 both sides fixed fit and has a plurality of water spray board 205 and brush board 2222, has seted up a plurality of apopores 207 on the water spray board 205, is provided with a plurality of brush heads 206 on the brush board 2222, and brush board 2222 and water spray board 205 are crisscross to be set up in washs case 2 both sides, and brush board 2222 and water spray board 205 downside all are provided with the separation blade 208 of fixing at washs case 2 inner wall, washs case 2 lower extreme and has seted up groove two 201, and groove two 201 in the symmetry have seted up groove three 202, has seted up screw thread groove 204 in the groove two 201, has seted up a plurality of hole two 203 in the screw thread groove 204. The thread groove 204 and the guide block 314 are engaged. The cleaning box can be directly placed into the device for processing after material selection, so that the working efficiency is improved. The cooperation of thread groove and guide block realizes the raw materials rotation, has reduced power consumption, offers the groove that the size is the same in each part and makes sliding shaft accessible single driving source can remove at belt cleaning device, transfer board two stations, has reduced the complexity of device structure and has reduced the consumption of the energy when improving efficiency. The first motor 305 is started, the power gear 306 fixed with the main shaft starts to rotate, the power gear 306 is meshed with the gear 303 on the disc to drive the rotary disc 302 to rotate, the belt 307 on the rotary disc 302 drives the first shaft 103 to start to rotate, and the stirring sheet 102 on the first shaft 103 enables raw materials in the feeding box 1 to move, and the raw materials fall into the cleaning box 2. Under the action of the baffle 208, the raw material can slow down the descending speed, and the brush head 206 and the water outlet 207 are matched to perform full cleaning operation on the raw material, and finally fall into the second groove 201 at the bottom of the cleaning box 2. During the cleaning process, the rotating disc 302 rotates to the groove in the hole III 304 on the disc to align with the groove II 201 and the groove III 202, the motor in the motor sliding block I320 drives the gear fixed by the main shaft of the motor to mesh with the five internal racks 319 to move leftwards, the right air cylinder 318 fixed by the motor sliding block I320 moves leftwards, the motor sliding block I320 slides in the groove V309, the two sliding shafts I3081 fixed below the right air cylinder 318 and the left air cylinder 315 fixed on the left side of the sliding shaft I3081 move leftwards together, the sliding shaft I3081 slides in the groove IV 308, the sliding shaft I3081 enters the groove III 202 after passing through the hole III 304 to move leftwards until the end, and the raw materials fall off after each part moves unit. When the raw materials fall, the left and right air cylinders 318 drive the left and right rotating blocks 322 to prop against the raw materials to clamp the raw materials, the first motor sliding block 320 is turned over, and the whole clamping part moves rightwards. The guide block 314 on the left rotating block 321 and the thread groove 204 cooperate to rotate the raw material during the moving process, at this time, the small cylinder 312 is started, and the driving blade 313 is extended until contacting the outer surface of the raw material to start the outer surface processing. The spring 311 can enable the blade 313 to be processed with proper force in the processing process, so that the blade 313 is prevented from being damaged due to the outer surface of the raw material. When the first motor slider 320 moves to the right end of the fifth slot 309, the outer surface is machined, and the first motor 305 is driven to drop the next material into the cleaning tank 2. When the first raw material with the machined outer surface moves to the inlet of the next process along with the rotation of the rotating disc 302 by 180 degrees, the motor in the first motor sliding block 320 drives the raw material to the next process.

Referring to fig. 7-12, a shielding plate 4111 is disposed on one side of the second turntable 301, a cutting plate 4 is fixedly disposed on the shielding plate 4111, a primary cutting frame 4222 is fixedly disposed on the cutting plate 4, a slot eighth 414 is disposed on the primary cutting frame 4222, a screw rod 415 is disposed in the slot eighth 414, a second motor slider 413 is slidably disposed in the slot eighth 414, the second motor slider 413 is in threaded engagement with the screw rod 415, a limiting displacement block 409 is symmetrically disposed on the primary cutting frame 4222, a slot seventh 410 is symmetrically disposed on both sides of the primary cutting frame 4222, a cutting fixing plate 405 is slidably disposed in the slot seventh 410, a primary cutting blade 408 is fixedly disposed between the cutting fixing plate 405 and the second motor slider 413, a plurality of pulleys 411 are fixedly disposed on the cutting plate 4, a gear belt 412 is slidably disposed on the two pulleys 411 on one side, a fixing plate rack 416 is fixedly disposed on the cutting fixing plate 405, the fixing plate rack 416 is engaged with the gear belt 412, a secondary cutting frame 404 is symmetrically and fixedly matched with two sides of the primary cutting frame 4222, two pulleys 411 on one side) is fixedly matched with a guide plate 406, one end of the secondary cutting frame 404 is provided with a secondary pushing plate 4041, a groove nine 418 is formed on the secondary pushing plate 4041, the secondary pushing plate 4041 is slidably matched with the secondary cutting frame 404 through the groove nine 418, a pushing plate rack 417 is fixedly matched with one side of the secondary pushing plate 4041, the pushing plate rack 417 is meshed with a gear belt 412, the other end of the secondary cutting frame 404 is fixedly matched with a cutting frame 4333, a secondary cutting blade 407313 is fixedly arranged between the cutting frame 4333 and the secondary cutting frame 404, two sides of the secondary cutting frame 404 are respectively fixedly matched with a left supporting block 403 and a right supporting block 402, an upper transferring block 401 is fixedly matched with the upper supporting block 403 and the upper transferring block 401, an upper block hole 4444 is formed on the upper transferring block 401, an upper block rack 4001 is fixedly matched in the upper block hole 4444. Through advancing the board rack 417, the cooperation between gear area 412 and the fixed plate rack 416 can make cutting fixed plate 405 and secondary advance board 4041 carry out relative motion to realize the function of simultaneous cutting, make the cooperation between the processing flow more coherent when having accelerated work efficiency. When the material is turned to the upper side, the transfer holes 3011 on the two turntables 301 are aligned with the upper block holes 4444, the first motor slider 320 is engaged with the Kong Nachi 3013 in the hole slots 3012 formed in the transfer holes 3011 and continues to move rightward through the holes in the shield plate 4111, and after passing through the holes in the shield plate 4111, the first motor slider 320 continues to engage the upper block racks 4001 in the upper block holes 4444 and moves rightward until the ends of the upper block holes 4444. After the end is reached, the left and right cylinders 318 release the material to drop the material into the slots in the primary cutting frame 4222 and the first motor block 320 drives the clamping members back. The second motor slider 413 drives the engagement screw 415 to move leftwards to start cutting. The cutting fixing plate 405 fixed to the second motor slider 413 by the blade 313 slides in the groove seven 410 to move to the right, and the cutting fixing plate 405 sleeves the raw material therein to start the first cutting of the raw material. After the end of the first cutting is reached, since the protruding section at the rear side of the cutting fixing plate 405 is still in the empty slot of the cutting fixing plate 405 after the cutting of the raw material is completed, the second motor slider 413 is driven in a reverse direction, and the displacement limiting block 409 is used for limiting the raw material after the first cutting to be moved backward due to friction with the cutting fixing plate 405. After the second motor slider 413 moves back to the original position, the raw material after the first cutting is divided into two halves, and the two halves slide onto the secondary cutting frames 404 on the two sides respectively through the guide plates 406, and at this time, the next raw material waiting for cutting falls into the primary cutting frame 4222. When the second raw material is cut once, the fixed plate rack 416 on the cutting fixed plate 405 is meshed with the toothed belt, the toothed belt moves around the two pulleys 411, and at the moment, the pushing plate rack 417 on the secondary pushing plate 4041 is meshed with the toothed belt to drive the secondary pushing plate 4041 to move rightwards on the secondary cutting frame 404 through the groove nine 418, and the raw material is pushed rightwards by the secondary pushing plate 4041 in the secondary cutting frame 404 to start secondary cutting. When the secondary pushing plate 4041 is pushed to the end, all the first raw materials are cut and fall into the next process, at this time, the second raw materials are cut and fall into the secondary cutting frame 404 once, and the third raw materials fall into the primary cutting frame 4222.

Referring to fig. 13-14, a steam box 5 is provided on the side of a cutting groove 101, a plate shaft 502 is rotatably matched with the steam box 5, a hole plate 501 is fixedly matched on the plate shaft 502, a groove ten 504 is provided on one side of the steam box 5, a turning shaft 505 is provided on one side of the steam box 5, a 103 end of the turning shaft 505 is hinged and matched with the steam box 5, a waist-shaped hole is provided on the turning shaft 505, a connecting shaft 5111 is fixedly matched with one side of the hole plate 501, the connecting shaft 5111 penetrates through the groove ten 504, the connecting shaft 5111 is slidably matched in the waist-shaped hole, the other end of the turning shaft 505 is hinged and matched with a turning auxiliary shaft 506, a sliding shaft two 507 is fixedly matched with the other end of the turning auxiliary shaft 506, a groove ten one 5071 is provided on one side of the steam box 5, a sliding shaft two 507 other end is rotatably matched with a waist-shaped shaft plate 5072, the other end of the waist-shaped shaft plate 5072 is rotatably matched with a connecting fixed shaft 508, a motor shaft plate 509 is rotatably matched with the connecting shaft 508, one side of the steam box 5 is fixedly matched with a turning motor 510, the motor shaft plate 509 is fixedly matched with the output shaft motor 510 is fixedly matched with the shaft motor shaft 510, the other end is in the shaft plate 503 is hinged and matched with the steam box 5 is closed. The provision of the steam box enables the blade to be more flexible. The cut material falls into the steam box 5 and is cooked on the orifice plate 501. The turning motor 510 is started to drive the motor shaft plate 509 fixed with the main shaft thereof to rotate clockwise, the other end of the motor shaft plate 509 is fixedly matched with the connecting fixed shaft 508, the connecting fixed shaft 508 is rotatably matched with the waist-shaped shaft plate 5072, and the connecting fixed shaft 508 drives the waist-shaped shaft plate 5072 to move. The other end of the waist-shaped shaft plate 5072 is rotatably matched with a second sliding shaft 507, the other end of the second sliding shaft 507 is slidably matched in a groove ten 504A, a turning auxiliary shaft 506 is interactively matched on the second sliding shaft 507, the waist-shaped shaft plate 5072 is driven by a connecting fixed shaft 508 to move rightwards, the waist-shaped shaft plate 5072 drives the second sliding shaft 507 to slide rightwards in a groove ten A5071, the second sliding shaft 507 drives the turning auxiliary shaft 506 to move rightwards, the other end of the turning auxiliary shaft 506 is hinged and matched with a turning shaft 505, the other end of the turning shaft 505 is rotatably matched on the side wall of the steam box 5, a waist-shaped hole is formed in the turning shaft 505, and a connecting shaft 5111 fixed with the hole plate 501 slides in the waist-shaped hole. The turning auxiliary shaft 506 drives the turning shaft 505 to rotate around the other end of the turning shaft 505, and the connecting shaft 5111 is driven to slide in the slot ten 504, so that the orifice plate 501 rotates around the plate shaft 502, and the effect of turning the raw materials is realized. The closing plate 503 is opened and the material is shaken into the next process as the orifice plate 501 moves.

Referring to fig. 15-18, an inclined slide block 6 is arranged on one side of the steam box 5, a slot decade 601 is formed in the inclined slide block 6, and a plurality of carding blocks 602 are fixedly matched with the bottom end of the slot decade 601. An upper polishing table 701 and a lower polishing table 701 are fixedly matched on one side of the inclined sliding block 6, polishing belts 707 are arranged in the polishing tables 701, a plurality of polishing bars 703 are fixedly matched between the polishing tables 701, a motor is arranged in the polishing bars 703, a plurality of propelling wheels 702 are rotatably matched in the polishing bars 703, an upper polishing wheel 704 is rotatably arranged in the polishing bars 703, and a lower polishing wheel 705 is rotatably arranged in the polishing bars 703. The upper grinding wheel and the lower grinding wheel are arranged, so that the two ends of the blade can be processed no matter the front surface or the back surface is upward after the blade enters the grinding table, and the process flow of the process is optimized. The steamed raw materials are shaken out and slide down along the groove decade 601 on the inclined slide block 6, and the carding block 602 separates the raw materials and enters the next working procedure. The pushing wheel 702 clamps raw materials and pushes the raw materials to the right, the upper surface and the lower surface of the raw materials are polished by the upper polishing belt 707, the two sides of the raw materials facing upwards are polished when passing through the upper polishing wheel 704, the raw materials facing upwards are detected to be polished when passing through the lower polishing wheel 705, the polishing table 701 is pushed out by the pushing wheel 702 at the tail end and falls into the discharging table 7, and the motor 305, the shielding plate 4111 and the feeding box 1 are supported by the base.

Working principle:

the raw materials are poured into the raw material box, the motor I305 is started, the power gear 306 fixed with the main shaft starts to rotate, the power gear 306 is meshed with the gear 303 on the disc to drive the rotary table 302 to rotate, the belt 307 on the rotary table 302 drives the shaft I103 to start to rotate, the stirring sheet 102 on the shaft I103 enables the raw materials in the feeding box 1 to move, and the raw materials fall into the cleaning box 2. Under the action of the baffle 208, the raw material can slow down the descending speed, and the brush head 206 and the water outlet 207 are matched to perform full cleaning operation on the raw material, and finally fall into the second groove 201 at the bottom of the cleaning box 2. During the cleaning process, the rotating disc 302 rotates to the groove in the hole III 304 on the disc to align with the groove II 201 and the groove III 202, the motor in the motor sliding block I320 drives the gear fixed by the main shaft of the motor to mesh with the five internal racks 319 to move leftwards, the right air cylinder 318 fixed by the motor sliding block I320 moves leftwards, the motor sliding block I320 slides in the groove V309, the two sliding shafts I3081 fixed below the right air cylinder 318 and the left air cylinder 315 fixed on the left side of the sliding shaft I3081 move leftwards together, the sliding shaft I3081 slides in the groove IV 308, the sliding shaft I3081 enters the groove III 202 after passing through the hole III 304 to move leftwards until the end, and the raw materials fall off after each part moves unit. When the raw materials fall, the left and right air cylinders 318 drive the left and right rotating blocks 322 to prop against the raw materials to clamp the raw materials, the first motor sliding block 320 is turned over, and the whole clamping part moves rightwards. The guide block 314 on the left rotating block 321 and the thread groove 204 cooperate to rotate the raw material during the moving process, at this time, the small cylinder 312 is started, and the driving blade 313 is extended until contacting the outer surface of the raw material to start the outer surface processing. The spring 311 can enable the blade 313 to be processed with proper force in the processing process, so that the blade 313 is prevented from being damaged due to the outer surface of the raw material. When the first motor slider 320 moves to the right end of the fifth slot 309, the outer surface is machined, and the first motor 305 is driven to drop the next material into the cleaning tank 2. When the first raw material with the machined outer surface moves to the inlet of the next process along with the rotation of the rotating disc 302 by 180 degrees, the motor in the first motor sliding block 320 drives the raw material to the next process. When the material is turned to the upper side, the transfer holes 3011 on the two turntables 301 are aligned with the upper block holes 4444, the first motor slider 320 is engaged with the Kong Nachi 3013 in the hole slots 3012 formed in the transfer holes 3011 and continues to move rightward through the holes in the shield plate 4111, and after passing through the holes in the shield plate 4111, the first motor slider 320 continues to engage the upper block racks 4001 in the upper block holes 4444 and moves rightward until the ends of the upper block holes 4444. After the end is reached, the left and right cylinders 318 release the material to drop the material into the slots in the primary cutting frame 4222 and the first motor block 320 drives the clamping members back. The second motor slider 413 drives the engagement screw 415 to move leftwards to start cutting. The cutting fixing plate 405 fixed to the second motor slider 413 by the blade 313 slides in the groove seven 410 to move to the right, and the cutting fixing plate 405 sleeves the raw material therein to start the first cutting of the raw material. After the end of the first cutting is reached, since the protruding section at the rear side of the cutting fixing plate 405 is still in the empty slot of the cutting fixing plate 405 after the cutting of the raw material is completed, the second motor slider 413 is driven in a reverse direction, and the displacement limiting block 409 is used for limiting the raw material after the first cutting to be moved backward due to friction with the cutting fixing plate 405. After the second motor slider 413 moves back to the original position, the raw material after the first cutting is divided into two halves, and the two halves slide onto the secondary cutting frames 404 on the two sides respectively through the guide plates 406, and at this time, the next raw material waiting for cutting falls into the primary cutting frame 4222. When the second raw material is cut once, the fixed plate rack 416 on the cutting fixed plate 405 is meshed with the toothed belt, the toothed belt moves around the two pulleys 411, and at the moment, the pushing plate rack 417 on the secondary pushing plate 4041 is meshed with the toothed belt to drive the secondary pushing plate 4041 to move rightwards on the secondary cutting frame 404 through the groove nine 418, and the raw material is pushed rightwards by the secondary pushing plate 4041 in the secondary cutting frame 404 to start secondary cutting. When the secondary pushing plate 4041 is pushed to the end, all the first raw materials are cut and fall into the next process, at this time, the second raw materials are cut and fall into the secondary cutting frame 404 once, and the third raw materials fall into the primary cutting frame 4222. The cut material falls into the steam box 5 and is cooked on the orifice plate 501. The turning motor 510 is started to drive the motor shaft plate 509 fixed with the main shaft thereof to rotate clockwise, the other end of the motor shaft plate 509 is fixedly matched with the connecting fixed shaft 508, the connecting fixed shaft 508 is rotatably matched with the waist-shaped shaft plate 5072, and the connecting fixed shaft 508 drives the waist-shaped shaft plate 5072 to move. The other end of the waist-shaped shaft plate 5072 is rotatably matched with a second sliding shaft 507, the other end of the second sliding shaft 507 is slidably matched in a groove ten 504A, a turning auxiliary shaft 506 is interactively matched on the second sliding shaft 507, the waist-shaped shaft plate 5072 is driven by a connecting fixed shaft 508 to move rightwards, the waist-shaped shaft plate 5072 drives the second sliding shaft 507 to slide rightwards in a groove ten A5071, the second sliding shaft 507 drives the turning auxiliary shaft 506 to move rightwards, the other end of the turning auxiliary shaft 506 is hinged and matched with a turning shaft 505, the other end of the turning shaft 505 is rotatably matched on the side wall of the steam box 5, a waist-shaped hole is formed in the turning shaft 505, and a connecting shaft 5111 fixed with the hole plate 501 slides in the waist-shaped hole. The turning auxiliary shaft 506 drives the turning shaft 505 to rotate around the other end of the turning shaft 505, and the connecting shaft 5111 is driven to slide in the slot ten 504, so that the orifice plate 501 rotates around the plate shaft 502, and the effect of turning the raw materials is realized. The closing plate 503 is opened and the material is shaken into the next process as the orifice plate 501 moves. The steamed raw materials are shaken out and slide down along the groove decade 601 on the inclined slide block 6, and the carding block 602 separates the raw materials and enters the next working procedure. The pushing wheel 702 clamps the raw material and pushes the raw material to the right, the upper surface and the lower surface of the raw material are polished by the upper polishing belt 707, the raw material with the right side facing upwards passes through the upper polishing wheel 704 and is polished, the raw material with the back facing upwards passes through the lower polishing wheel 705 and is detected to be polished, and finally the polishing table 701 is pushed out by the pushing wheel 702 at the tail end and falls into the discharging table 7.

Certain terms are used throughout the description and claims to refer to particular components. Those of skill in the art will appreciate that a hardware manufacturer may refer to the same component by different names. The description and claims do not take the form of an element differentiated by name, but rather by functionality. As used throughout the specification and claims, the word "comprise" is an open-ended term, and thus should be interpreted to mean "include, but not limited to. By "substantially" is meant that within an acceptable error range, a person skilled in the art is able to solve the technical problem within a certain error range, substantially achieving the technical effect.

It should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a product or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such product or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a commodity or system comprising such elements.

While the foregoing description illustrates and describes the preferred embodiments of the present utility model, it is to be understood that the utility model is not limited to the forms disclosed herein, but is not to be construed as limited to other embodiments, and is capable of numerous other combinations, modifications and environments and is capable of changes or modifications within the scope of the inventive concept as expressed herein, either as a result of the foregoing teachings or as a result of the knowledge or technology of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the utility model are intended to be within the scope of the appended claims.

Claims

1. The utility model provides a shutter blade forming device, its characterized in that, includes a plurality of transfer boards (3), the fixed cooperation in transfer board (3) one side has a carousel (302), the fixed cooperation in transfer board (3) opposite side has two carousels (301), five (309) have been seted up on transfer board (3), five (309) internal fixation cooperation has five interior racks (319), sliding fit has motor slider one (320) in five (309), motor slider one (320) internal fixation is provided with the motor, fixed cooperation has the gear on the output main shaft of motor, five interior racks (319) and gear engagement cooperation, slot four (308) have been seted up to symmetry on transfer board (3), sliding fit has sliding shaft one (3081) in slot four (308), sliding shaft one (3081) both ends are fixed respectively and are fitted with cylinder fixed block (316).

2. The shutter blade forming device according to claim 1, wherein the left cylinder fixing block (316) is fixedly matched with a left cylinder (315), the right side of the left cylinder (315) is provided with a left rotating block (321), the left rotating block (321) is rotatably matched with a piston rod of the left cylinder (315), the left rotating block (321) is fixedly matched with a plurality of guide blocks (314), the right cylinder fixing block (316) is fixedly matched with a right cylinder (318), the left side of the right cylinder (318) is provided with a right rotating block (322), the right rotating block (322) is rotatably matched with a piston rod of the right cylinder (318), a groove six (317) is formed in the transfer plate (3), a rear baffle (310) is fixedly matched with a spring (311), the other end of the spring (311) is fixedly matched with a small cylinder (312), one side of the small cylinder (312) is provided with a blade (313), the blade (313) is fixedly matched with a small cylinder (312), a plurality of small cylinder (3011) is provided with a groove (3011) in the small cylinder (301), a groove (3011) is formed in the groove (3011), kong Nachi (3013) are fixedly matched in the inner grooves (3012), a plurality of holes III (304) are formed in the rotating disc (302), a plurality of disc upper gears (303) are fixedly matched on the rotating disc (302), a motor I (305) is arranged on one side of the rotating disc (302), a power gear (306) is fixedly matched on an output shaft of the motor I (305), and the power gear (306) is meshed and matched with the disc upper gears (303).

3. The shutter blade forming apparatus as claimed in claim 2, wherein a shielding plate (4111) is disposed on one side of the second turntable (301), a cutting plate (4) is fixedly disposed on the shielding plate (4111), a primary cutting frame (4222) is fixedly disposed on the cutting plate (4), a slot eight (414) is disposed on the primary cutting frame (4222), a screw rod (415) is disposed in the slot eight (414), a second motor slider (413) is slidably disposed in the slot eight (414), the second motor slider (413) is in threaded engagement with the screw rod (415), a limiting displacement block (409) is symmetrically disposed on the primary cutting frame (4222), a cutting fixing plate (405) is disposed on two sides of the primary cutting frame (4222), a primary cutting blade (408) is fixedly disposed between the cutting fixing plate (405) and the second motor slider (413), a pulley (411) is fixedly disposed on the cutting plate (4), a plurality of gears (416) are fixedly disposed on one side of the pulley (412), a plurality of gears (416) are fixedly disposed on the cutting fixing plate (405) and the gears (412) are fixedly disposed on the fixing plate (411), the utility model discloses a fixed hole on the fixed block (44) that has on the fixed block (44) on two band pulley (411) meshing cooperation, one side two band pulley (411) top fixed cooperation have deflector (406), two cutting frame (404) one end is provided with secondary propulsion board (4041), set up slot nine (418) on secondary propulsion board (4041), secondary propulsion board (4041) pass through slot nine (418) sliding fit on secondary cutting frame (404), secondary propulsion board (4041) one side fixed cooperation has propulsion board rack (417), propulsion board rack (417) and gear belt (412) meshing cooperation, secondary cutting frame (404) other end fixed cooperation has cutting frame (4333), fixed be provided with secondary cutting blade (407) between cutting frame (4333) and the secondary cutting frame (404), fixed block (403) and right supporting block (402) are gone up to secondary propulsion board (4041) both sides respectively, left supporting block (403) and right supporting block (402) upper side transfer block (401) are gone up fixed block (401), and are gone up fixed hole (44) on the fixed block (44).

4. The shutter blade forming device according to claim 2, wherein a feeding box (1) is arranged on one side of the rotating disc (302), a first groove (101) is formed in the feeding box (1), first holes (104) are symmetrically formed in the feeding box (1), first shafts (103) are rotatably matched with the first holes (104), and a plurality of stirring sheets (102) are fixedly matched with the first shafts (103).

5. The shutter blade forming device according to claim 4, wherein a cleaning box (2) is arranged on one side of the feeding box (1), a plurality of water spraying plates (205) and brush plates (2222) are fixedly matched on two sides of the cleaning box (2), a plurality of water outlet holes (207) are formed in the water spraying plates (205), a plurality of brush heads (206) are arranged on the brush plates (2222), the brush plates (2222) and the water spraying plates (205) are arranged on two sides of the cleaning box (2) in a staggered mode, baffle plates (208) fixed on the inner wall of the cleaning box (2) are arranged on the lower sides of the brush plates (2222) and the water spraying plates (205), a groove II (201) is formed in the lower end of the cleaning box (2), a groove III (202) is symmetrically formed in the groove II (201), a plurality of holes II (203) are formed in the thread groove II (204), and the thread groove II (204) and the guide block (314) are matched.

6. The shutter blade forming device as claimed in claim 3, wherein the first cutting groove (101) is provided with a steam box (5) on the side, the steam box (5) is rotatably matched with a plate shaft (502), the plate shaft (502) is fixedly matched with a hole plate (501), the tenth groove (507) is formed on one side of the steam box (5), the turning shaft (505) is provided on one side of the steam box (5), one end of the turning shaft (505) is hinged and matched with the steam box (5), a waist-shaped hole is formed in the turning shaft (505), a connecting shaft (5111) is fixedly matched on one side of the hole plate (501), the connecting shaft (5111) penetrates through the tenth groove (504), the connecting shaft (5111) is slidably matched in the waist-shaped hole, the other end of the turning shaft (505) is hinged and matched with a turning auxiliary shaft (506), the other end of the turning auxiliary shaft (506) is fixedly matched with a second sliding shaft (507), the tenth groove (5071) is formed on one side of the steam box (5), the second sliding shaft (508) is hinged and matched with the second sliding shaft (507), the other end of the sliding shaft (508) is rotatably matched with the second sliding shaft (72), the steam box (5) one side fixed fit has turn motor (510), motor shaft board (509) fixed fit is on the output shaft of turn motor (510), steam box (5) articulated fit has shut-off plate (503).

7. The shutter blade forming device according to claim 6, wherein an inclined sliding block (6) is arranged on one side of the steam box (5), a slot two (601) is formed in the inclined sliding block (6), and a plurality of carding blocks (602) are fixedly matched with the bottom end of the slot two (601).

8. The shutter blade forming device according to claim 7, wherein an upper polishing table (701) and a lower polishing table (701) are fixedly matched on one side of the inclined sliding block (6), polishing belts (707) are arranged in the polishing tables (701), a plurality of polishing strips (703) are fixedly matched between the polishing tables (701), a motor is arranged in each polishing strip (703), a plurality of pushing wheels (702) are rotatably matched in each polishing strip (703), an upper polishing wheel (704) is rotatably arranged in each polishing strip (703), and a lower polishing wheel (705) is rotatably arranged in each polishing strip (703).