CN106738429A - Plastic grain cooling device - Google Patents

Abstract

The invention belongs to technical field of plastic, plastic grain cooling device, including magnetism servo-electric motor water-cooling and air cooling mechanism are disclosed, magnetism servo-electric motor water-cooling includes the water storage passage that water pump and water pump are connected, turbine is provided with water storage passage, and turbine is connected with rotating shaft；Air cooling mechanism includes cooling tube, and rotating shaft is rotated with the side wall of cooling tube and is connected, and the bottom of rotating shaft is located in cooling tube, the bottom of rotating shaft is connected with bevel gear, rotating disk is connected with bevel gear, rotating disk includes trapezoidal round platform portion and hemisphere portion, and hemisphere portion is connected with the bigger diameter end in trapezoidal round platform portion；Multi-thread helical pipe is provided with rotating disk, and the direction that rotating disk is rotated is oppositely oriented with multi-thread helical pipe, the one end in cooling tube near multi-thread helical pipe import is provided with blower fan；Cooling tube is connected with the delivery pipe that side wall is double-decker away from one end of blower fan, and storing passage is connected with the side wall of delivery pipe.The present invention solves the problems, such as that prior art defect rate is high, production cost is high.

Description

Plastic grain cooling device

Technical field

The invention belongs to field of plastics processing, and in particular to plastic grain cooling device.

Background technology

Plastic grain, is, in extrusion moulding, finally to cut the particle for granulating after one kind is melted using polyethylene from high pressure process. The aspects such as clothing industry, construction material, agricultural, mechanical industry are widely used.Be mainly used in make basin, bucket, furniture, film, Woven bag, strap, bottle cap, bumper etc..Plastic grain is timely to it in order to prevent deformation from needing after extrusion moulding Cooled down, existing cooling device, including cooling storehouse, cooling storehouse is connected with cutting mouth, and the side of cooling storehouse is provided with blower fan.When Enter in cooling storehouse after the completion of plastic grain cutting, plastic grain is cooled down by blower fan.

But, aforesaid way there is problems：1st, the temperature of the plastic grain of extrusion moulding is very high, by blower fan without Method timely cools down plastic grain, and cooling effect is bad, so that plastic grain produces deformation, defect rate is high；2nd, it is above-mentioned Scheme needs connecting pipe to transport plastic grain, during transporting in order to making plastic grain cool down completely, it is necessary to Pipeline is set very long, it is necessary to factory building occupation of land it is big, the high cost of production.

The content of the invention

The invention is intended to provide plastic grain cooling device, to solve, prior art defect rate is high, production cost is high asks Topic.

To achieve the above object, the present invention provide following technical scheme, plastic grain cooling device, including magnetism servo-electric motor water-cooling and Air cooling mechanism, magnetism servo-electric motor water-cooling includes the water storage passage that water pump and water pump are connected, and turbine is provided with water storage passage, and turbine is connected with Rotating shaft；Air cooling mechanism includes cooling tube, and the side wall of cooling tube is provided with charging aperture, and rotating shaft is rotated with the side wall of cooling tube and is connected, And the bottom of rotating shaft is located in cooling tube, the bottom of rotating shaft is connected with bevel gear, and rotating disk, rotating disk and cooling are connected with bevel gear The inwall of pipe rotates connection, and rotating disk includes trapezoidal round platform portion and hemisphere portion, and hemisphere portion connects with the bigger diameter end in trapezoidal round platform portion Connect, and the diameter of hemisphere portion is identical with the diameter of the bigger diameter end in trapezoidal round platform portion, the periphery in trapezoidal round platform portion is provided with and cone tooth Take turns the cone tooth of engagement；Multi-thread helical pipe is provided with rotating disk, and the direction that rotating disk is rotated is oppositely oriented with multi-thread helical pipe, The import of multi-thread helical pipe is located at the outer of hemisphere portion, and outlet is close to many positioned at the miner diameter end of trapezoidal round platform in cooling tube One end of line helical pipe import is provided with blower fan, and blower fan is located at the both sides of charging aperture with rotating disk；The one end of cooling tube away from blower fan The delivery pipe that side wall is double-decker is connected with, and storing passage is connected with the side wall of delivery pipe, the side wall of delivery pipe is provided with out The mouth of a river.

The know-why of this programme is：Water pump and blower fan are opened first, water enters in water storage passage, drive turbine to turn It is dynamic, therefore rotated with dynamic bevel gear, bevel gear drives rotating disk to rotate again；The wind of blowout is by the plastic grain edge after cutting in blower fan The blowout of multi-thread helical pipe, can increase plastic grain residence time in rotating disk, thus plastic grain it is cooled when Between increase, so as to improve the effect of cooling；, when rotating, rotation direction is oppositely oriented with multi-thread helical pipe, can for rotating disk Increase residence time of the plastic grain in rotating disk, therefore improve cooling effect；And wind blows from the multi-thread helical pipe for rotating Go out, spiral helicine wind can be formed, therefore plastic grain compared with the pipeline of equal length, can increase with the rotation of the super helix of wind one The time for being cooled down is added, and space can have been saved, the import of multi-thread helical pipe has been located at the outer of hemisphere portion, works as modeling When material particle is contacted with hemisphere portion, entering for outer can be slipped into along the cambered surface of hemisphere portion intraoral；Plastic grain is entering sector-style After cold, into double-deck delivery pipe, the delivery pipe with storing channel connection can be cooled down to cooling tube, and the effect of cooling is more It is good.

What this programme can be produced has the technical effect that：1st, this programme is carried out cold to plastic grain simultaneously by air-cooled and water-cooled But, the efficiency high for cooling down compared with prior art, it is to avoid plastic grain deforms, reduces the defect rate of finished product；2nd, this programme is utilized Turbine band dynamic bevel gear is rotated, then drives rotating disk to rotate, while wind flows out from multi-thread helical pipe, can by plastic grain along Helical duct blows out, and can extend the time that plastic grain is cooled down in passage, and causes the modeling from the blowout of multi-thread spiral Material particle carries out helical rotation, and in identical spatial dimension, the time that plastic grain is cooled down is longer, reduces factory building Utilize, reduce the cost of production；3rd, this programme leads to overcooled water and wind drives the rotation of a series of device, has saved drive The power source that device is rotated；4th, the import of multi-thread helical pipe is arranged on the outer of the hemisphere portion of rotating disk, can make plastics Grain is slided in sphere, is blown finally along multi-thread helical duct, it is to avoid plastic grain is piled up in cooling tube.

The following is the preferred scheme based on such scheme：

Preferred scheme one：Rotary shaft is installed, one end of rotary shaft is located in cooling tube, and is connected with leaf in the charging aperture Piece, the other end is connected with cutter.The plastics after the completion of extrusion molding are carried out with pelletizing by the wind drive cutter in blower fan, is formed Plastic grain, has saved power source when driving cutter to work.

Preferred scheme two：Based on preferred scheme one, the delivery pipe is helix tube.Helical pipe plastic grain is carried out and When transport, by increasing capacitance it is possible to increase the utilization rate in space, save factory building use, it is cost-effective.

Preferred scheme three：Based on preferred scheme two, the inwall of the helical pipe is provided with spherical projection.Plastic grain exists Corner angle can be produced during cutting, people is easily scratched and is damaged wrapping paper, after plastic grain enters helical pipe, can be with helical pipe Inwall is contacted, and spherical projection can polish the corner angle of plastic grain so that plastic grain becomes mellow and full, it is to avoid its stroke Hurt sb.'s feelings.

Preferred scheme four：Based on preferred scheme three, a diameter of 4-6cm of the multi-thread helical pipe.Plastic grain it is straight Footpath is generally 2-4cm, using the teaching of the invention it is possible to provide enough spaces are passed through for plastic grain.

Preferred scheme five：Based on preferred scheme four, the delivery port lower section is provided with cistern.Water after is received Collection.

Preferred scheme six：Based on preferred scheme five, be provided with conduction pipe in the cistern, the movable end of conduction pipe with Water pump is connected, and the side wall of cistern is hollow, and liquid nitrogen is placed with hollow side wall.Liquid nitrogen will timely can be used Afterwards, temperature water higher is cooled down, and the utilization that can be circulated for water by water pump, saving water resource.

Brief description of the drawings

Fig. 1 is the structural representation of plastic grain cooling device of the present invention；

Fig. 2 is the top view of air cooling mechanism of the present invention.

Specific embodiment

Below by specific embodiment, the present invention is further detailed explanation：

Reference in Figure of description includes：Magnetism servo-electric motor water-cooling 1, water pump 11, water storage passage 12, rotating shaft 13, turbine 14, cone tooth Wheel 15, air cooling mechanism 2, cooling tube 21, rotating disk 22, multi-thread helical pipe 221, blower fan 23, helical pipe 24, charging aperture 25, turn Moving axis 3, blade 31, cutter 32, cistern 4, conduction pipe 41.

As shown in Figure 1 and Figure 2, plastic grain cooling device, including magnetism servo-electric motor water-cooling 1 and air cooling mechanism 2, magnetism servo-electric motor water-cooling 1 are located at air-cooled The top of mechanism 2, magnetism servo-electric motor water-cooling 1 includes water pump 11, and the right side of water pump 11 is connected with water storage passage 12, water storage passage 12 and is provided with Rotating shaft 13, is connected with turbine 14 in rotating shaft 13；Air cooling mechanism 2 includes cooling tube 21；The left side of cooling tube 21 is provided with blower fan 23, Rotating shaft 13 passes through cooling tube 21, and the bottom of rotating shaft 13 is provided with bevel gear 15, and rotating disk 22 is connected with bevel gear 15, rotating disk 22 Left part is hemisphere portion, and right part is conical round table portion, and the bigger diameter end in conical round table portion and the diameter of hemisphere portion are consistent, taper The periphery in round platform portion is provided with the cone tooth coordinated with bevel gear 15；Multi-thread helical pipe 221, and multi-thread helix tube are provided with rotating disk 22 The import in road 221 is located at the outer of hemisphere portion, miner diameter end of the outlet positioned at conical round table portion.The right-hand member of cooling tube 21 is connected with Side wall is to be provided with spherical projection, the side wall and water storage of helical pipe 24 in the helical pipe 24 of double-decker, helical pipe 24 Passage 12 is connected, and helical pipe 24 is provided with delivery port, cistern 4 is provided with below delivery port, during the side wall of cistern 4 is Liquid nitrogen is provided with sky, and hollow side wall, cistern 4 is connected with conduction pipe 41, and conduction pipe 41 is high-end to be connected with water pump 11 Connect；The side of cooling tube 21 is provided with and rotary shaft 3 is provided with charging aperture 25, charging aperture 25, and rotary shaft 3 is located in cooling tube 21 One end is connected with blade 31, and the other end is provided with cutter 32.

During using the present embodiment, start blower fan 23 and water pump 11, the wind of the blowout of blower fan 23 drives blade 31 to rotate, so that band Dynamic cutting tool 32 is rotated and the plastics of extrusion moulding is cut, and forms plastic grain, and plastic grain is entered by charging aperture In cooling tube 21；The water of outflow drives turbine 14 to rotate in water pump 11, so that band dynamic bevel gear 15 is rotated, bevel gear 15 drives and turns Disk 22 is rotated, and now wind drives the plastic grain after being cut to enter multi-thread helical pipe 221 along the cambered surface of hemisphere portion Import, in rotating disk 22, by the rotation of rotating disk 22, plastic grain and wind form rotation from after the outflow of multi-thread helical pipe 221, Now entering helical pipe 24, plastic grain is being cooled down by the water in the side wall of wind and the helical pipe 24 of bilayer； Plastic grain enter helical pipe 24 when, can with the inwall of helical pipe 24 on spherical projection contacts, by plastic grain Corner angle are polished.Water in double-deck helical pipe 24 is entered in cistern after being cooled down to plastic grain by delivery port 4, the liquid nitrogen in the side wall of cistern 4 is taken away water by water cooling, then by water pump 11, carries out utilization again.

For a person skilled in the art, on the premise of structure of the present invention is not departed from, some changes can also be made Shape and improvement, these should also be considered as protection scope of the present invention, these effects and patent for implementing all without the influence present invention Practicality.

Claims (7)

1. plastic grain cooling device, it is characterised in that：Including magnetism servo-electric motor water-cooling and air cooling mechanism, magnetism servo-electric motor water-cooling include water pump and The water storage passage of water pump connection, is provided with turbine in water storage passage, turbine is connected with rotating shaft；Air cooling mechanism includes cooling tube, cooling The side wall of pipe is provided with charging aperture, and rotating shaft is rotated with the side wall of cooling tube and is connected, and the bottom of rotating shaft is located in cooling tube, rotating shaft Bottom be connected with bevel gear, be connected with rotating disk on bevel gear, rotating disk is rotated with the inwall of cooling tube and be connected, and rotating disk is including trapezoidal Round platform portion and hemisphere portion, hemisphere portion are connected with the bigger diameter end in trapezoidal round platform portion, and the diameter of hemisphere portion and trapezoidal round platform The diameter of the bigger diameter end in portion is identical, and the periphery in trapezoidal round platform portion is provided with the cone tooth engaged with bevel gear；Multi-thread spiral shell is provided with rotating disk Coil road, and the direction that rotating disk is rotated is oppositely oriented with multi-thread helical pipe, the import of multi-thread helical pipe is located at hemispherical The outer in portion, outlet is located at the miner diameter end of trapezoidal round platform, and the one end in cooling tube near multi-thread helical pipe import is provided with blower fan, Blower fan is located at the both sides of charging aperture with rotating disk；Cooling tube is connected with the delivery pipe that side wall is double-decker away from one end of blower fan, And storing passage is connected with the side wall of delivery pipe, the side wall of delivery pipe is provided with delivery port.

2. plastic grain cooling device according to claim 1, it is characterised in that：Rotation is installed in the charging aperture Axle, one end of rotary shaft is located in cooling tube, and is connected with blade, and the other end is connected with cutter.

3. plastic grain cooling device according to claim 2, it is characterised in that：The delivery pipe is helix tube.

4. plastic grain cooling device according to claim 3, it is characterised in that：The inwall of the helical pipe is provided with ball The projection of shape.

5. plastic grain cooling device according to claim 4, it is characterised in that：The multi-thread helical pipe it is a diameter of 4-6cm。

6. plastic grain cooling device according to claim 5, it is characterised in that：The delivery port lower section is provided with retaining Pond.

7. plastic grain cooling device according to claim 6, it is characterised in that：Mozzle is provided with the cistern Road, the movable end of conduction pipe is connected with water pump, and the side wall of cistern is to be placed with liquid nitrogen in hollow and hollow side wall.