CN211868301U - Numerical control EPS granulating device - Google Patents

Abstract

The utility model discloses a grain device is cut to numerical control EPS, including churn, blevile of push, sieving mechanism and power device, the top of churn is passed through the bolt fastening and is had agitator motor, agitator motor's output welded fastening has the (mixing) shaft, the (mixing) shaft runs through the roof of churn to extend to in the churn, welded fastening has multiunit stirring rake on the outer wall of (mixing) shaft, the first one of churn right side outer wall has the air exhauster through the bolt fastening, the bottom of churn has blevile of push through connecting pipe welded fastening, blevile of push's bottom four corners welded fastening has the supporting leg, blevile of push's bottom welded fastening has sieving mechanism, welded fastening has power device on blevile of push's the right side outer wall. This grain device is cut to numerical control EPS not only can carry out effectual cooling to graphite alkene EPS, can also filter graphite alkene EPS, improves graphite alkene EPS's quality.

Description

Numerical control EPS granulating device

Technical Field

The utility model belongs to the technical field of the grain equipment is cut to graphite alkene EPS, grain device is cut to concretely relates to numerical control EPS.

Background

Polystyrene foam, EPS for short, is a light high-molecular polymer, and is a foamed plastic with a hard closed-cell structure formed by adding a foaming agent into polystyrene resin, heating for softening, and generating gas. The EPS has excellent and lasting heat preservation and insulation, unique buffering shock resistance, aging resistance and deionized water resistance, so that the EPS can be widely applied to various fields of daily life, agriculture, transportation industry, military industry and the like. At present, graphite alkene EPS material mainly is the index such as intensity and the thermal insulation performance that improves this kind of traditional material of EPS, and graphite alkene EPS is in production and processing process, need cut grain processing to extrusion moulding's material, cuts grain material after the shaping and need dry and filter, but current grain device of cutting only has a grain function of cutting, and stoving and screening need go on other equipment, and not only efficiency is lower, and the cost is higher moreover.

Therefore, in order to meet the current situation, the design and production of numerical control EPS particle cutting devices are urgently needed to meet the requirements of practical use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a grain device is cut to numerical control EPS to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the numerical control EPS grain cutting device comprises a mixing drum, a material pushing device, a screening device and a power device, the top of the mixing drum is fixed with a mixing motor through a bolt, the output end of the mixing motor is fixedly welded with a mixing shaft, the mixing shaft penetrates through the top plate of the mixing drum, and extends into the mixing drum, a plurality of groups of mixing paddles are welded and fixed on the outer wall of the mixing shaft, heating plates are fixed on the inner walls of the two sides of the mixing drum through bolts, an exhaust fan is fixed on the upper half part of the outer wall of the right side of the mixing drum through a bolt, a feed hopper is welded and fixed on the right half part of the surface of the mixing drum, the bottom of the mixing drum is fixedly welded with a material pushing device through a connecting pipe, four corners of the bottom of the material pushing device are fixedly welded with supporting legs, the screening device is fixedly welded at the bottom of the material pushing device, and the power device is fixedly welded on the outer wall of the right side of the material pushing device.

Preferably, blevile of push is including pushing away feed cylinder and rotating electrical machines, it has rotating electrical machines to push away through the bolt fastening on the left side outer wall of feed cylinder, rotating electrical machines's output welded fastening has the rotation axis, the rotation axis runs through the left side outer wall that pushes away the feed cylinder to extend to in pushing away the feed cylinder, welded fastening has helical blade on the outer wall of rotation axis, welded fastening has the extrusion head on pushing away the inner wall of feed cylinder, extrude overhead multiunit discharge opening of having seted up, the rotation axis runs through and extrudes the head to rotate through the bearing and extrude the head and be connected, welded fastening has multiunit cutting blade on the outer wall of rotation axis right side portion.

Preferably, the sieving mechanism includes mounting panel and buffering sleeve, welded fastening has two sets of buffering sleeves on the right side outer wall of mounting panel, welded fastening has buffer spring in the buffering sleeve, buffer spring's other end welded fastening has the buffering post, the other end of buffering post has the screening frame through the bolt fastening.

Preferably, power device includes motor case and driving motor, motor case welded fastening is at the right side outer wall of pushing away the feed cylinder, there is driving motor incasement through the bolt fastening, driving motor's output welded fastening has the drive shaft, and the bottom plate of motor case is run through to the drive shaft to outside extending to the motor case, the bottom welded fastening of drive shaft has the cam.

Preferably, the right half of the surface of the material pushing barrel is fixedly provided with a blower through a bolt, the surface of the material pushing barrel on the right side of the blower is provided with a plurality of groups of ventilation holes, and the bottom of the right half of the material pushing barrel is fixedly welded with a discharge pipe.

Preferably, a fixing plate is fixed on the outer wall of the right side of the screening frame through bolts.

The utility model discloses a technological effect and advantage: according to the numerical control EPS grain cutting device, the rotating shaft and the helical blade are driven to rotate through the rotation of the rotating motor, the material is pushed to advance, the material is extruded and molded through the discharge hole in the extrusion head, the rotating shaft drives the cutting blade to rotate, the molded material is subjected to grain cutting operation, and the structure is simpler; the blower on the surface of the material pushing barrel can quickly cool the granulated materials, so that the production efficiency is improved; rotate through driving motor and drive shaft and cam and rotate, contact through the fixed plate on cam and screening board right side, drive the screening frame and extrude the buffer post on the sieving mechanism, buffer post extrusion buffer spring realizes that the screening frame removes about to the material to on the screening frame is filtered, and this grain device is cut to numerical control EPS not only can carry out effectual cooling to graphite alkene EPS, can also filter graphite alkene EPS, improves graphite alkene EPS's quality.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a cross-sectional view of the present invention;

fig. 3 is a schematic structural diagram of the screening device of the present invention.

In the figure: 1 churn, 2 agitator motors, 3 (mixing) shaft, 4 stirring paddles, 5 hot plates, 6 air blowers, 7 feed hoppers, 8 bleviles of push, 9 supporting legs, 10 sieving mechanism, 11 power device, 12 feed pushing barrel, 13 rotating electrical machines, 14 rotating shafts, 15 helical blade, 16 extrusion heads, 17 cutting blade, 18 blower, 19 mounting panels, 20 buffer sleeves, 21 buffer spring, 22 buffer column, 23 screening frame, 24 motor boxes, 25 driving motors, 26 cams.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Unless the direction is defined separately, the directions of up, down, left, right, front, back, etc. referred to herein are the directions of up, down, left, right, front, back, etc. in the drawings of the present invention, and are herein incorporated by reference.

The utility model provides a grain device is cut to numerical control EPS as shown in fig. 1-3, including churn 1, blevile of push 8, sieving mechanism 10 and power device 11, the top of churn 1 is passed through the bolt fastening and is had agitator motor 2, agitator motor 2's model is: YZ-7124, agitator motor 2's output welded fastening has (mixing) shaft 3, (mixing) shaft 3 runs through the roof of churn 1 to extend to in the churn 1, welded fastening has multiunit stirring rake 4 on (mixing) shaft 3's the outer wall, there is hot plate 5 through the bolt fastening on churn 1's the both sides inner wall, the first one of 1 right side outer wall of churn has air exhauster 6 through the bolt fastening, the model of air exhauster 6 is: RB-73D-1, the intake pipe of air exhauster 6 extends to in the agitator 1, right half welded fastening on the surface of agitator 1 has feeder hopper 7, the bottom of agitator 1 is passed through connecting pipe welded fastening and is had blevile of push 8, is equipped with the control valve on the connecting pipe, the bottom four corners welded fastening of blevile of push 8 has supporting leg 9, the bottom welded fastening of blevile of push 8 has sieving mechanism 10, welded fastening has power device 11 on blevile of push 8's the right side outer wall.

Specifically, blevile of push 8 is including pushing away feed cylinder 12 and rotating electrical machines 13, be fixed with rotating electrical machines 13 through the bolt on the left side outer wall of pushing away feed cylinder 12, rotating electrical machines 13's model is: Y80M1-2, the output welded fastening of rotating electrical machines 13 has rotation axis 14, rotation axis 14 runs through the left side outer wall that pushes away feed cylinder 12 to extend to in pushing away the feed cylinder 12, welded fastening has helical blade 15 on the outer wall of rotation axis 14, welded fastening has extrusion head 16 on the inner wall of pushing away feed cylinder 12, extrusion head 16 is last to have seted up the multiunit discharge opening, rotation axis 14 runs through extrusion head 16 to rotate through the bearing and extrusion head 16 and be connected, welded fastening has multiunit cutting blade 17 on the outer wall of rotation axis 14 right side part.

Specifically, sieving mechanism 10 includes mounting panel 19 and buffering sleeve 20, welded fastening has two sets of buffering sleeves 20 on mounting panel 19's the right side outer wall, welded fastening has buffer spring 21 in the buffering sleeve 20, buffer spring 21's other end welded fastening has buffering post 22, buffering post 22 slides in buffering sleeve 20, the other end of buffering post 22 has screening frame 23 through the bolt fastening, screening frame 23's bottom is equipped with the screen cloth, top the screen cloth density of screening frame 23 bottom will be greater than the screen cloth density of below screening frame 23 bottom, can carry out the screening that becomes more meticulous to the material.

Specifically, power device 11 includes motor case 24 and driving motor 25, motor case 24 welded fastening is at the right side outer wall of pushing away feed cylinder 12, there is driving motor 25 motor 24 internal through the bolt fastening, driving motor 25's model is: 86BYG120, the output end welded fastening of driving motor 25 has the drive shaft, and the drive shaft runs through the bottom plate of motor case 24 to outside extending to motor case 24, the bottom welded fastening of drive shaft has cam 26, rotates through driving motor 25 and drives drive shaft and cam 26 and rotate, and cam 26 contacts with the fixed plate on screening frame 23 right side, realizes that screening frame 23 moves about.

Concretely, the right half on the surface of the charging barrel 12 is fixed with a blower 18 through a bolt, the blower 18 is a full-wind RB series fan, the air outlet pipe of the blower 18 extends into the charging barrel 12, a plurality of groups of vent holes are formed in the surface of the charging barrel 12 on the right side of the blower 18, the blower 18 can rapidly cool down the material which is granulated and finished, a discharging pipe is welded and fixed at the bottom of the right half of the charging barrel 12, and another group of control valves are arranged on the discharging pipe.

Specifically, there is the fixed plate through the bolt fastening on the right side outer wall of screening frame 23, the spout has been seted up to the bottom of the feed pushing cylinder 12, and the fixed plate passes through the slider and slides in the spout, and the fixed plate can be fixed two sets of screening frames 23, makes the operation of screening frame 23 more stable.

Specifically, the grain device is cut to this numerical control EPS, when using, pour the material into the agitator through feeder hopper 7 in, start hot plate 5, heat the material, start agitator motor 2, agitator motor 2 drives stirring rake 4 and rotates, stir the material in agitator 1, make the mixture that the material can be quick, air exhauster 6 discharges the moisture in agitator 1, inject into the feed pushing cylinder 12 through the connecting pipe after the material has been mixed, start rotating electrical machines 13, rotating electrical machines 13 rotates and drives rotation axis 14 and helical blade 15 to rotate, promote the material to advance, extrude the material shaping through the discharge opening on extrusion head 16, rotation axis 14 drives cutting blade 17 and rotates, cut the material after shaping into grains operation, start hair-dryer 18, cool down the material that the grain was accomplished fast, the material after the cooling falls in screening frame 23 through the discharging pipe, start driving motor 25, driving motor 25 rotates and drives drive shaft and cam 26 and rotate, and cam 26 contacts with the fixed plate on screening frame 23 right side, drives screening frame 23 and extrudes buffer column 22, and buffer column 22 extrudes buffer spring 21, realizes that screening frame 23 moves about to the material to on screening frame 23 screens, after the screening, closes all electrical equipment.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (5)

1. Grain device is cut to numerical control EPS, including churn (1), blevile of push (8), sieving mechanism (10) and power device (11), its characterized in that: the top of the mixing drum (1) is fixed with a mixing motor (2) through bolts, the output end of the mixing motor (2) is welded and fixed with a mixing shaft (3), the mixing shaft (3) penetrates through the top plate of the mixing drum (1) and extends into the mixing drum (1), the outer wall of the mixing shaft (3) is fixed with a plurality of groups of mixing paddles (4) through welding, the inner walls of the two sides of the mixing drum (1) are fixed with a heating plate (5) through bolts, the upper half part of the outer wall of the right side of the mixing drum (1) is fixed with an exhaust fan (6) through bolts, the right half part of the surface of the mixing drum (1) is fixed with a feed hopper (7) through welding, the bottom of the mixing drum (1) is fixed with a material pushing device (8) through welding of a connecting pipe, the four corners of the bottom of the material pushing device (8) are fixed with supporting legs (9) through welding, a power device (11) is welded and fixed on the outer wall of the right side of the material pushing device (8);

blevile of push (8) are including pushing away feed cylinder (12) and rotating electrical machines (13), be fixed with rotating electrical machines (13) through the bolt on the left side outer wall of pushing away feed cylinder (12), the output welded fastening of rotating electrical machines (13) has rotation axis (14), rotation axis (14) run through the left side outer wall of pushing away feed cylinder (12) to extend to in pushing away feed cylinder (12), welded fastening has helical blade (15) on the outer wall of rotation axis (14), welded fastening has extrusion head (16) on the inner wall of pushing away feed cylinder (12), extrude and seted up the multiunit discharge opening on head (16), rotation axis (14) run through extrusion head (16) to rotate through bearing and extrusion head (16) and be connected, welded fastening has multiunit cutting blade (17) on the outer wall of rotation axis (14) right side portion.

2. The numerical control EPS granulation device according to claim 1, characterized in that: sieving mechanism (10) are including mounting panel (19) and buffering sleeve (20), welded fastening has two sets of buffering sleeve (20) on the right side outer wall of mounting panel (19), welded fastening has buffer spring (21) in buffering sleeve (20), the other end welded fastening of buffer spring (21) has buffering post (22), the other end of buffering post (22) has screening frame (23) through the bolt fastening.

3. The numerical control EPS granulation device according to claim 1, characterized in that: power device (11) are including motor case (24) and driving motor (25), motor case (24) welded fastening is at the right side outer wall of pushing away feed cylinder (12), there are driving motor (25) through the bolt fastening in motor case (24), the output welded fastening of driving motor (25) has the drive shaft, and the bottom plate of motor case (24) is run through to the drive shaft to outside extending to motor case (24), the bottom welded fastening of drive shaft has cam (26).

4. The numerical control EPS granulation device according to claim 1, characterized in that: the right half on push away feed cylinder (12) surface is fixed with hair-dryer (18) through the bolt, multiunit ventilation hole has been seted up on push away feed cylinder (12) surface on hair-dryer (18) right side, the bottom welded fastening who pushes away feed cylinder (12) right half has the discharging pipe.

5. The numerical control EPS granulation device according to claim 2, characterized in that: and a fixing plate is fixed on the outer wall of the right side of the screening frame (23) through bolts.

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