A kind of suction-type rim charge online recycling device
Technical field
The utility model relates to cast film machine equipment technical field, particularly relates to a kind of suction-type rim charge online recycling device.
Background technology
Growing along with packaging industry, increasing to the use amount of film, more and more higher to the quality requirement of film, due to cast film machine, to have speed of production fast, good, the thickness of thin-film transparent produced evenly, anti-piercing through property and the advantage such as draftability is good, become the main production equipments of film at present.
But, cast film causes both sides injustice and uneven thickness for eliminating necking down aborning, inevitably need trimming, and the rim charge of cutting account for certain ratio, necessary online recycling, traditional rim charge online recycling device adopts torque-motor traction to retracting device, but because rim charge is irregular, the dynamics of motor and speed can not adjust automatically along with rim charge is irregular, when speed of production causes product rejection more than limit of easily breaking during 100m/min, rim charge online recycling is made to become the bottleneck improving cast film machine speed of production.
Utility model content
For above-mentioned cast film machine rim charge online recycling device Problems existing, the utility model provides a kind of and sucks in conveyance conduit by pull of vacuum by the rim charge of cutting, and through rim charge shearing device section have no progeny deliver to reducing mechanism pulverize, be sent to extruder crushed material blanking device through centrifugal blower again, thus realize the object of edge recycling recycling.
The concrete technical scheme of the utility model is as follows:
A kind of suction-type rim charge online recycling device, comprises rim charge suction line, vacuum plant, centrifugal high pressure fan, rim charge shearing device and reducing mechanism; Described rim charge suction line is connected with described rim charge shearing device by described vacuum plant, and described rim charge shearing device is connected with described reducing mechanism, and described vacuum plant is connected with described centrifugal high pressure fan by connecting hose.
Further, be provided with isolated tube in described vacuum plant, uniform pore on described isolated tube, described isolated tube can only pass through air, and its Main Function prevents rim charge from sucking centrifugal high pressure fan.
Further, described isolated tube left side port is connected with rim charge suction line is concentric, and the right port is connected with described rim charge shearing device.
Further, described suction-type rim charge online recycling device also comprises crushed material conveying fan, and described crushed material conveying fan connects described reducing mechanism.
Further, described centrifugal high pressure fan is provided with centrifugal blower inlet scoop and centrifugal fan air outlet.
Further, described vacuum plant also comprises vacuum plant first inlet scoop and vacuum plant second inlet scoop, and described vacuum plant first inlet scoop and vacuum plant second inlet scoop are connected with described centrifugal blower inlet scoop by connecting hose.
Further, described rim charge suction line comprises rim charge suction manifold and rim charge sucks supervisor, described rim charge suction manifold is two and sucks to be responsible for described rim charge to be connected, rim charge suction inlet is positioned at described rim charge suction manifold and sucks supervisor one end away from described rim charge, and described rim charge sucks supervisor and is connected with described vacuum plant.
Further, described rim charge shearing device comprises motor, fracture shaft assembly, box assembly and valve plate assembly, described fracture shaft assembly is movably installed in described box assembly, and described motor is connected with described fracture shaft assembly, and described valve plate assembly is connected with box assembly.
Further, described fracture shaft assembly comprises blade, fracture axle and conveying axis dividing plate, uniform hole on described conveying axis dividing plate, is provided with one piece of described conveying axis dividing plate between every two blades of fracture axle.
Further, described box assembly comprises shell, and described shell is provided with rim charge entrance and rim charge outlet, described rim charge entrance is connected with port on the right of isolated tube, and described rim charge outlet is connected with reducing mechanism; Described valve plate assembly comprises port plate, the air draught mouth of pipe and mouth of blast pipe; The described air draught mouth of pipe and described mouth of blast pipe are fixedly mounted on described port plate respectively, and the described air draught mouth of pipe is positioned at described rim charge inlet side, and described mouth of blast pipe is positioned at described rim charge outlet side.
The beneficial effects of the utility model:
1. adopt vacuum suction to reclaim, do not limit by speed of production;
2. stability is high, and whole piece rim charge bears pull of vacuum, and rim charge and machine components do not produce contact-type frictional, and uniform force is disperseed, and does not affect, do not exist rim charge tensile phenomenon by rim charge is irregularly shaped;
3. handling safety is simple, need not as traditional mechanical type leftover material recycling device, and through many delivery wheels, only rim charge need be pulled to air intake device suction inlet, rim charge is by the automatic recovery;
4. this device each several part power demand is less, low energy consumption, energy-conserving and environment-protective.
Accompanying drawing explanation
Fig. 1 is the utility model suction-type rim charge online recycling device overall structure schematic diagram;
Fig. 2 is the utility model rim charge shearing device structural representation;
Fig. 3 is the utility model rim charge shearing device structure top view;
Fig. 4 is the utility model rim charge shearing device structure right view.
Detailed description of the invention
For the ease of the understanding of those skilled in the art, be described further technical solutions of the utility model below in conjunction with embodiment and accompanying drawing, the content that embodiment is mentioned is not to restriction of the present utility model.
With reference to Fig. 1, a kind of suction-type rim charge online recycling device, comprises rim charge suction line, vacuum plant 10, centrifugal high pressure fan 6, rim charge shearing device 12 and reducing mechanism 14; Described rim charge suction line is connected with described rim charge shearing device 12 by described vacuum plant 10, and described rim charge shearing device 12 is connected with described reducing mechanism 14, and described vacuum plant 10 is connected with described centrifugal high pressure fan 6 by connecting hose.
Particularly, it is middle with reducing mechanism 14 that described rim charge shearing device 12 is arranged on vacuum plant 10, mainly the continuous rim charge in vacuum plant 10 cut off and be sent to reducing mechanism 14, and preventing the air blow back of the rim charge shearing device 12 rim charge port of export in vacuum plant 10.
Particularly, be provided with isolated tube 11 in described vacuum plant 10, uniform pore on described isolated tube 11, described isolated tube 11 can only pass through air, and its Main Function prevents rim charge from sucking centrifugal high pressure fan 6.
Particularly, described isolated tube 11 left side port is connected with rim charge suction line is concentric, and the right port and described rim charge cut off and fill 12 and put and be connected.
Particularly, described suction-type rim charge online recycling device also comprises crushed material conveying fan 15, and described crushed material conveying fan 15 is connected with described reducing mechanism 14.
Particularly, described centrifugal high pressure fan is provided with centrifugal blower inlet scoop 9 and centrifugal fan air outlet 7.
Particularly, described vacuum plant also comprises vacuum plant first inlet scoop 16 and vacuum plant second inlet scoop 17, and described vacuum plant first inlet scoop 16 and vacuum plant second inlet scoop 17 are connected with described centrifugal blower inlet scoop 9 by connecting hose.
Particularly, described suction-type rim charge online recycling device also comprises centrifugal fan muffler 8, and described centrifugal fan muffler 8 is connected with centrifugal fan air outlet 7.
Particularly, described suction-type rim charge online recycling device also comprises sound proof box 13, and described vacuum plant 10, centrifugal high pressure fan 6, rim charge shearing device 12, reducing mechanism 14 and crushed material conveying fan 15 are all positioned at described sound proof box 13.
Particularly, described rim charge suction line comprises rim charge suction manifold 4 and rim charge sucks supervisor 5, described rim charge suction manifold 4 is two and sucks supervisor 5 with described rim charge to be connected, rim charge suction inlet 3 is positioned at described rim charge suction manifold 4 and sucks supervisor 5 one end away from described rim charge, and described rim charge sucks supervisor 5 and is connected with described vacuum plant 10.
Particularly, with reference to Fig. 2-Fig. 4, described rim charge shearing device 12 comprises motor 20, fracture shaft assembly, box assembly and valve plate assembly, and described fracture shaft assembly is movably installed in described box assembly, described motor 20 is connected with fracture shaft assembly, and described valve plate assembly is connected with box assembly.
Particularly, described fracture shaft assembly comprises blade 21, fracture axle 22 and conveying axis dividing plate 24, uniform hole on described conveying axis dividing plate 24, is provided with one piece of described conveying axis dividing plate 24 between every two blades of fracture axle 22; Described fracture axle 22 is uniform blade 221 axially, and described blade 221 is provided with described blade 21, and described blade 21 is installed on described blade by set screw 23.
Particularly, described box assembly comprises shell 25, and described shell 25 is provided with rim charge entrance and rim charge outlet, described rim charge entrance is connected with port on the right of isolated tube 11, and described rim charge outlet is connected with reducing mechanism 14; Described valve plate assembly comprises port plate 26, the air draught mouth of pipe 18 and mouth of blast pipe 19; The described air draught mouth of pipe 18 and described mouth of blast pipe 19 are fixedly installed on described port plate 26 respectively, and the described air draught mouth of pipe 18 is positioned at described rim charge inlet side, and described mouth of blast pipe 19 is positioned at described rim charge outlet side.
Below suction-type rim charge online recycling device operation principle is described: the film 1 of online production is eliminate the uneven and uneven thickness in both sides that necking down causes, rim charge 2 after cutting is drawn into rim charge suction supervisor 5 by the rim charge suction inlet 3 of rim charge suction line, described rim charge suction supervisor 5 other end is cut off by described vacuum plant 10 and described rim charge and send device 12 to be connected, the air draught mouth of pipe 18 of rim charge shearing device 12 is connected with the centrifugal blower inlet scoop 9 of centrifugal high pressure fan 6 by flexible pipe, the mouth of blast pipe 19 of rim charge shearing device 12 is connected by flexible pipe with centrifugal high pressure fan air outlet 7, continuous rim charge in vacuum plant 10 is drawn in the die cavity of rim charge shearing device 12 by the suction produced by centrifugal high pressure fan 6, rim charge to be cut off by the shearing force of its blade 21 and ledger-plate and brings to discharging opening by rim charge shearing device 12, it is transported to the pulverizer of reducing mechanism 14 by the wind sent by mouth of blast pipe 19 again, rim charge after pulverizing is transported to extruder crushed material blanking device by crushed material conveying fan 15.
The beneficial effects of the utility model:
1. adopt vacuum suction to reclaim, do not limit by speed of production;
2. stability is high, and whole piece rim charge bears pull of vacuum, and rim charge and machine components do not produce contact-type frictional, and uniform force is disperseed, and does not affect, do not exist rim charge tensile phenomenon by rim charge is irregularly shaped;
3. handling safety is simple, need not as traditional mechanical type leftover material recycling device, and through many delivery wheels, only rim charge need be pulled to inlet scoop, rim charge is by the automatic recovery;
4. this device each several part power demand is less, low energy consumption, energy-conserving and environment-protective.
Be more than better embodiment of the present utility model, but embodiment is not for limiting the utility model.Not departing from the spirit and scope of the utility model, any equivalence change done or retouching, belong to the protection domain of the utility model equally.Therefore the content that protection domain of the present utility model should define with the claim of the application is standard.