CN215703151U - TPE micelle material production pelleter - Google Patents

Abstract

The utility model discloses a TPE (thermoplastic elastomer) colloidal particle production granulator in the technical field of TPE materials, which comprises: a support mechanism; cut grain room, cut grain room and install supporting mechanism's top one end, cut grain room and include: a cryogenic cylinder; the gas guide mechanism is arranged at the top of the low-temperature cylinder, and the inner cavity of the gas guide mechanism is communicated with the inner cavity of the low-temperature cylinder; the flange connector is arranged at one end of the low-temperature cylinder; the die head is arranged at one end, close to the flange connector, of the inner cavity of the low-temperature cylinder; the high-temperature-melting-point-cutting device comprises a low-temperature cylinder, and is characterized in that the lower end of the low-temperature cylinder is provided with a cutting-point-cutting chamber mounting seat, and the cutting-point-cutting chamber mounting seat is arranged on the outer wall of the low-temperature cylinder and is far away from one end of the air guide mechanism.

Description

TPE micelle material production pelleter

Technical Field

The utility model relates to the technical field of TPE materials, in particular to a TPE colloidal particle production granulator.

Background

TPE material, also known as thermoplastic elastomer, is a high molecular material (without vulcanization) which has the characteristics of both plastics and rubber, shows the high elasticity of rubber at normal temperature and can be plasticized and molded at high temperature. The thermoplastic elastomer has the structural characteristics that different resin segments and rubber segments are formed by chemical bonds, the resin segments form physical cross-linking points by virtue of inter-chain acting force, and the rubber segments are high-elasticity segments and contribute to elasticity.

Traditional TPE granule raw material mixture is under screw extruder extrusion pressure's effect, and the TPE granule raw material mixture is extruded into rectangular form when the discharge opening ejection of compact of die head, and the rethread cutting device cuts the granulation to it.

When the existing TPE rubber material is used for cutting, the temperature of the TPE rubber material is high, the viscosity of the TPE rubber material is high, a cutter is easy to adhere to the cutter during cutting, and the cutting quality of the TPE rubber particles is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a TPE (thermoplastic elastomer) colloidal particle production granulator, which aims to solve the problem that when the existing TPE rubber provided by the background art is cut, the temperature of the TPE rubber is high, the viscosity of the TPE rubber is high, a cutter is easy to adhere to the cutter when cutting, and the cutting quality of TPE colloidal particles is seriously influenced.

In order to achieve the purpose, the utility model provides the following technical scheme: a TPE micelle material production pelleter includes:

a support mechanism;

cut grain room, cut grain room and install supporting mechanism's top one end, cut grain room and include:

a cryogenic cylinder;

the gas guide mechanism is arranged at the top of the low-temperature cylinder, and the inner cavity of the gas guide mechanism is communicated with the inner cavity of the low-temperature cylinder;

the flange connector is arranged at one end of the low-temperature cylinder;

the die head is arranged at one end, close to the flange connector, of the inner cavity of the low-temperature cylinder;

and the grain cutting chamber mounting seat is mounted at one end, far away from the air guide mechanism, of the outer wall of the low-temperature cylinder.

Preferably, the support mechanism includes:

a base;

the two first sliding grooves are symmetrically formed in the front side and the rear side of the top of the base and penetrate through the left side wall of the base;

the material leakage hole is formed in the right side of the top of the base and penetrates through the bottom of the base;

the two second sliding grooves are symmetrically arranged at the front end and the rear end of the right side of the bottom of the base.

Preferably, the cryogenic cylinder comprises:

a barrel;

the first threaded holes are uniformly formed in the cylinder body in an annular shape at one end far away from the flange connector;

the discharge hole is formed in the side wall, away from the air guide mechanism, of the inner cavity of the barrel, and penetrates through the bottom of the grain cutting chamber mounting seat.

Preferably, the air guide mechanism includes:

an inner conduit;

an outer pipe disposed on an outer wall of the inner pipe;

a vacuum layer disposed between the inner and outer conduits.

Preferably, the die comprises:

a die head body;

the die head comprises a die head body, a plurality of die head discharge holes and a plurality of connecting rods, wherein the die head discharge holes are uniformly arranged at the edge of the front surface of the die head body in an annular shape, and the die head discharge holes penetrate through the rear surface of the die head body.

Preferably, a power mechanism is movably mounted at the top of the base, and the power mechanism comprises:

a motor mounting seat;

the two first sliding blocks are symmetrically arranged at the front end and the rear end of the bottom of the motor mounting seat;

the two second threaded holes are correspondingly formed in the end face of the first sliding block one by one, and penetrate through the other end of the first sliding block;

the first motor is installed in a groove in the top of the motor installation seat.

Preferably, keep away from on the base the translation actuating mechanism is installed to the one end of second spout, translation actuating mechanism includes:

a second motor;

and the lead screw is arranged on an output shaft of the second motor.

Preferably, install grain cutting mechanism on the output shaft of first motor, grain cutting mechanism includes:

a rotating shaft;

the coupler is arranged at one end of the outer wall of the rotating shaft;

a mounting disc, the mounting disc is installed keep away from on the rotation axis the one end of shaft coupling, the mounting disc includes:

a tray body;

the cutter mounting grooves are uniformly arranged on the edge of one side, far away from the rotating shaft, of the disc body in an annular shape;

a cutter mounted inside the cutter mounting groove;

a plurality of range finding sensor, it is a plurality of range finding sensor is the annular and evenly installs keep away from on the disk body one side of rotation axis, it is a plurality of range finding sensor and a plurality of the cutter mounting groove is crisscross each other.

Preferably, keep away from on the barrel sealed lid is installed to the one end of flange joint head, sealed lid includes:

a cover body;

the first mounting holes are uniformly formed in the edge of the front surface of the cover body in an annular shape and penetrate through the rear surface of the cover body;

the second mounting hole is formed in the center of the front surface of the cover body and penetrates through the rear surface of the cover body.

Preferably, a collecting box is movably mounted between the two second sliding grooves, and the collecting box includes:

a box body;

the two second sliding blocks are symmetrically arranged on the two long side walls of the box body;

a handle mounted on a short sidewall of the case.

Compared with the prior art, the utility model has the beneficial effects that: the high-temperature melting material cooling device can cool the high-temperature melting material, prevents the high-temperature melting material from being adhered to a cutter due to overlarge viscosity of the high-temperature melting material and influencing the cutting quality of TPE colloidal particles, the air pump is arranged at one end, far away from the barrel, of the air guide mechanism, cold air is pumped into the inner cavity of the barrel through the air guide mechanism by the air pump, the inner cavity of the barrel is cooled, the high-temperature melting material enters the inner cavity of the barrel and becomes hard after entering the cold air, the viscosity of the high-temperature melting material is reduced, and the high-temperature melting material cannot be adhered to the cutter during cutting.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a support mechanism according to the present invention;

FIG. 3 is a schematic view of a dicing chamber according to the present invention;

FIG. 4 is a schematic view of the gas directing mechanism of the present invention;

FIG. 5 is a schematic view of a power mechanism according to the present invention;

FIG. 6 is a schematic view of the translational driving mechanism of the present invention;

FIG. 7 is a schematic view of a dicing mechanism according to the present invention;

FIG. 8 is a schematic view of the sealing cap of the present invention;

FIG. 9 is a schematic view of the structure of the collecting box of the present invention.

In the figure: 100 supporting mechanisms, 110 bases, 120 first chutes, 130 leaking holes, 140 second chutes, 200 granulating chambers, 210 low-temperature drums, 211 cylinder bodies, 212 first threaded holes, 213 discharging holes, 220 air guide mechanisms, 221 inner pipelines, 222 outer pipelines, 223 vacuum layers, 230 flange connectors, 240 die heads, 241 die head bodies, 242 die head discharging holes, 250 granulating chamber installation seats, 300 power mechanisms, 310 motor installation seats, 320 first sliding blocks, 330 second threaded holes, 340 first motors, 400 translation driving mechanisms, 410 second motors, 420 lead screws, 500 granulating mechanisms, 510 rotating shafts, 520 couplers, 530 installation discs, 531 disc bodies, 532 cutter installation grooves, 533 cutters, 534 distance measuring sensors, 600 sealing covers, 610 cover bodies, 620 first installation holes, 630 second installation holes, 700 collecting boxes, 710 box bodies, 720 second sliding blocks and 730 handles.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a granulator for producing TPE (thermoplastic elastomer) colloidal particles, which can cool high-temperature molten materials and prevent the high-temperature molten materials from being adhered to a cutter due to overlarge viscosity of the high-temperature molten materials to influence the cutting quality of the TPE colloidal particles, and referring to a graph 1, the granulator comprises: the device comprises a supporting mechanism 100, a pelletizing chamber 200, a power mechanism 300, a translation driving mechanism 400, a pelletizing mechanism 500, a sealing cover 600 and a collecting box 700;

referring to fig. 1-2, the supporting mechanism 100 includes:

the base 110 is installed on the top of the machine platform;

the two first sliding chutes 120 are symmetrically arranged on the front side and the rear side of the top of the base 110, and the first sliding chutes 120 penetrate through the left side wall of the base 110;

the material leakage hole 130 is formed in the right side of the top of the base 110, and the material leakage hole 130 penetrates through the bottom of the base 110;

the two second sliding chutes 140 are symmetrically arranged at the front end and the rear end of the right side of the bottom of the base 110, the second sliding chutes 140 and the base 110 are integrally processed, and the second sliding chutes 140 are parallel to the first sliding chutes 120;

referring to fig. 1 to 4, a cutting chamber 200 is mounted on one end of the top of the supporting mechanism 100 by bolts, and the cutting chamber 200 includes:

the cryocanister 210 is located at the upper end of the base 110, and the cryocanister 210 includes:

the cylinder 211 is arranged at the upper end of the base 110;

the first threaded holes 212 are uniformly formed in the cylinder 211 in an annular shape at one end far away from the flange connector 230;

the discharge hole 213 is formed in the side wall of the inner cavity of the cylinder body 211, which is far away from the air guide mechanism 220, and the discharge hole 213 penetrates through the bottom of the pelletizing chamber mounting seat 250;

air guide mechanism 220 installs the top at low temperature section of thick bamboo 210, the inner chamber of air guide mechanism 220 link up with low temperature section of thick bamboo 210's inner chamber mutually, the air pump is installed to the one end of keeping away from barrel 211 on the air guide mechanism 220, through the air pump with air conditioning through air guide mechanism 220 pump to the inner chamber of barrel 211, lower the temperature to the inner chamber of barrel 211, harden behind the inner chamber that high temperature melting material entered into barrel 211 and air conditioning, reduce the viscidity of high temperature melting material, can not adhere on the cutter when the cutting, air guide mechanism 220 includes:

the inner cavity of the inner pipeline 221 is communicated with the inner cavity of the cylinder body 211;

the outer pipeline 222 is arranged on the outer wall of the inner pipeline 221, and the outer pipeline 222 and the inner pipeline 221 are integrally processed;

the vacuum layer 223 is arranged between the inner pipe 221 and the outer pipe 222, and the vacuum layer 223 is arranged between the inner pipe 221 and the outer pipe 222, so that the temperature can be effectively prevented from passing;

the flange connector 230 is arranged at one end of the low-temperature cylinder 210, the flange connector 230 and the low-temperature cylinder 210 are integrally processed, the flange connector 230 is connected with the feeding mechanism, and the high-temperature molten material is discharged into the inner cavity of the cylinder body 211 through the feeding mechanism;

a die 240 is mounted in the interior cavity of cryocanister 210 adjacent to the end of flange connector 230, die 240 comprising:

the die head body 241 is detachably arranged in the inner cavity of the cylinder body 211, and the inner cavity of the cylinder body 211 is divided into two parts through the die head body 241, wherein one part is a feeding cavity, and the other part is a cutting cavity;

the die head discharging holes 242 are uniformly formed in the edge of the front surface of the die head body 241 in an annular shape, the die head discharging holes 242 penetrate through the rear surface of the die head body 241, and high-temperature molten materials enter the cutting cavity through the die head discharging holes 242;

the pelletizing chamber mounting seat 250 is mounted at one end, far away from the air guide mechanism 220, of the outer wall of the low temperature cylinder 210, the pelletizing chamber mounting seat 250 is fixedly mounted at one side, close to the second chute 140, of the top of the base 110 through bolts, the discharge hole 213 corresponds to the material leakage hole 130, and the cut TPE colloidal particles are discharged through the discharge hole 213 and the material leakage hole 130;

referring to fig. 1, 2 and 5, a power mechanism 300 is movably mounted at the top of the base 110, and the power mechanism 300 includes:

the motor mounting seat 310 is movably mounted at one end of the top of the base 110 far away from the cylinder 211;

the two first sliders 320 are symmetrically arranged at the front end and the rear end of the bottom of the motor mounting seat 310, the first sliders 320 and the motor mounting seat 310 are integrally processed, the first sliders 320 are matched with the first sliding grooves 120, the first sliders 320 are inserted into the inner sides of the first sliding grooves 120, the motor mounting seat 310 is movably mounted at the top of the base 110 through the matching of the first sliders 320 and the first sliding grooves 120, and the motor mounting seat 310 can move along the track of the first sliding grooves 120 on the inner sides of the first sliding grooves 120 through the first sliders 320;

the two second threaded holes 330 are correspondingly formed in the end surface of the first slider 320, and the second threaded holes 330 penetrate through the other end of the first slider 320;

the first motor 340 is installed in a groove at the top of the motor installation seat 310, and the first motor 340 is movably installed at the top of the base 110 through the motor installation seat 310;

referring to fig. 1, fig. 2, fig. 5 and fig. 6, a translation driving mechanism 400 is installed at an end of the base 110 away from the second chute 140, and the translation driving mechanism 400 includes:

the second motor 410 is installed on one end of the base 110 far away from the cylinder 211 through a bolt, and the second motor 410 corresponds to the first chute 120;

the screw rod 420 is installed on an output shaft of the second motor 410, the screw rod 420 is installed in an inner cavity of the first sliding chute 120 through a bearing, the screw rod 420 is matched with the second threaded hole 330, the first sliding block 320 is installed on an outer wall of the screw rod 420 through the second threaded hole 330, the screw rod 420 is driven to rotate through the second motor 410, the motor installation seat 310 is driven to move along the track of the first sliding chute 120 at the top of the base 110 through the screw rod 420, and the first motor 340 is driven to move through the motor installation seat 310;

referring to fig. 1 to 3 and 5 to 7, a dicing mechanism 500 is mounted on the output shaft of the first motor 340, and the dicing mechanism 500 includes:

a rotation shaft 510;

the coupling 520 is installed at one end of the outer wall of the rotating shaft 510, the rotating shaft 510 is installed on the output shaft of the first motor 340 through the coupling 520, and the first motor 340 drives the rotating shaft 510 to rotate through the coupling 520;

a mounting plate 530 is mounted on the rotating shaft 510 at an end remote from the coupling 520, the mounting plate 530 including:

the disc body 531 is mounted on one end of the rotating shaft 510 away from the coupler 520, and the rotating shaft 510 drives the disc body 531 to rotate;

a plurality of cutter mounting grooves 532 are uniformly arranged on the edge of one side of the disc body 531 away from the rotating shaft 510 in a ring shape;

the cutter 533 is arranged on the inner side of the cutter mounting groove 532, the upper blade part of the cutter 533 is in contact with the die head body 241, the cutter 533 is driven to rotate through the disc body 531 to cut the TPE adhesive tape, and the number of the cutters 533 can be determined as required;

the plurality of distance measuring sensors 534 are uniformly arranged on the disc body 531 at one side far away from the rotating shaft 510 in an annular shape, the plurality of distance measuring sensors 534 are mutually staggered with the plurality of cutter mounting grooves 532, the distance between the disc body 531 and the die head body 241 is measured through the distance measuring sensors 534, the distance measuring sensors 534 are connected with a PLC (programmable logic controller) through leads, the PLC is connected with a relay through leads, the relay is electrically connected with the second motor 410, the friction between the cutter 533 and the die head body 241 can generate loss, when the loss between the cutter 533 and the die head body 241 is large, the cutter 533 cannot be contacted with the die head body 241, the distance measuring sensors 534 send signals to the PLC, the relay is controlled by the PLC to start the second motor 410, and the second motor 410 drives the cutter 533 to move until the cutter is contacted with the die head body 241;

keep away from flange joint 230's one end on barrel 211 and install sealed lid 600, sealed lid 600 includes:

the cover 610 is arranged at one end of the cylinder body 211 far away from the flange connector 230;

the plurality of first mounting holes 620 are uniformly formed in the edge of the front surface of the cover body 610 in an annular shape, the first mounting holes 620 penetrate through the rear surface of the cover body 610, the number of the plurality of first mounting holes 620 is the same as that of the plurality of first threaded holes 212, the positions of the plurality of first mounting holes 620 correspond to those of the plurality of first threaded holes 212, and the cover body 610 is fixedly mounted on one end, far away from the flange connector 230, of the cylinder body 211 through bolts;

the second mounting hole 630 is formed in the center of the front surface of the cover 610, the second mounting hole 630 penetrates through the rear surface of the cover 610, the second mounting hole 630 is matched with the rotating shaft 510, and the rotating shaft 510 is mounted inside the second mounting hole 630 through a bearing;

referring to fig. 1, 2 and 9, a collecting box 700 is movably installed between the two second chutes 140, and the collecting box 700 includes:

the box body 710 is movably arranged at the bottom of the base 110;

the two second sliding blocks 720 are symmetrically arranged on two long side walls of the box body 710, the second sliding blocks 720 and the box body 710 are integrally processed, the second sliding blocks 720 are matched with the second sliding chute 140, the box body 710 is arranged at the bottom of the base 110 through the matching of the second sliding blocks 720 and the second sliding chute 140, the box body 710 corresponds to the material leakage hole 130, and the cut aggregate enters the inner cavity of the box body 710 through the material leakage hole 130;

the handle 730 is installed on the short sidewall of the case 710, and the case 710 is conveniently disassembled and assembled by the handle 730.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a TPE micelle material production pelleter which characterized in that: the method comprises the following steps:

a support mechanism (100);

a dicing chamber (200), the dicing chamber (200) being mounted at a top end of the support mechanism (100), the dicing chamber (200) comprising:

a cryogenic cylinder (210);

the gas guide mechanism (220) is installed at the top of the low-temperature cylinder (210), and the inner cavity of the gas guide mechanism (220) is communicated with the inner cavity of the low-temperature cylinder (210);

the flange connector (230), the flange connector (230) is arranged at one end of the low temperature cylinder (210);

a die head (240), wherein the die head (240) is arranged at one end of the inner cavity of the low-temperature cylinder (210) adjacent to the flange connector (230);

and the dicing chamber mounting seat (250) is mounted at one end, far away from the air guide mechanism (220), of the outer wall of the low-temperature cylinder (210).

2. The TPE billet producing cutter as claimed in claim 1, wherein: the support mechanism (100) includes:

a base (110);

the two first sliding chutes (120) are symmetrically arranged on the front side and the rear side of the top of the base (110), and the first sliding chutes (120) penetrate through the left side wall of the base (110);

the material leakage hole (130) is formed in the right side of the top of the base (110), and the material leakage hole (130) penetrates through the bottom of the base (110);

the two second sliding grooves (140) are symmetrically arranged at the front end and the rear end of the right side of the bottom of the base (110).

3. The TPE billet producing cutter as claimed in claim 2, wherein: the cryogenic drum (210) comprises:

a cylinder (211);

the first threaded holes (212) are uniformly formed in the cylinder body (211) in an annular shape and are far away from one end of the flange connector (230);

the discharge hole (213), the discharge hole (213) is seted up the inner chamber of barrel (211) is kept away from on the lateral wall of air guide mechanism (220), discharge hole (213) run through the bottom of cutting grain room mount pad (250).

4. The TPE billet producing cutter as claimed in claim 3, wherein: the air guide mechanism (220) includes:

an inner conduit (221);

an outer pipe (222), the outer pipe (222) being disposed on an outer wall of the inner pipe (221);

a vacuum layer (223), the vacuum layer (223) disposed between the inner conduit (221) and the outer conduit (222).

5. The TPE billet producing cutter as claimed in claim 4, wherein: the die head (240) comprises:

a die body (241);

the die head structure comprises a plurality of die head discharge holes (242), the plurality of die head discharge holes (242) are uniformly arranged at the edge of the front surface of a die head body (241) in an annular mode, and the die head discharge holes (242) penetrate through the rear surface of the die head body (241).

6. The TPE billet producing cutter as claimed in claim 5, wherein: the top movable mounting of base (110) has power unit (300), power unit (300) includes:

a motor mount (310);

the two first sliding blocks (320) are symmetrically arranged at the front end and the rear end of the bottom of the motor mounting seat (310);

the two second threaded holes (330) are correspondingly formed in the end face of the first sliding block (320), and the second threaded holes (330) penetrate through the other end of the first sliding block (320);

a first motor (340), the first motor (340) being mounted within a top recess of the motor mount (310).

7. The TPE billet producing cutter as claimed in claim 6, wherein: a translation driving mechanism (400) is installed at one end, far away from the second sliding chute (140), of the base (110), and the translation driving mechanism (400) comprises:

a second motor (410);

a lead screw (420), the lead screw (420) being mounted on an output shaft of the second motor (410).

8. The TPE billet producing cutter as claimed in claim 7, wherein: install grain cutting mechanism (500) on the output shaft of first motor (340), grain cutting mechanism (500) includes:

a rotating shaft (510);

the coupling (520) is installed at one end of the outer wall of the rotating shaft (510);

a mounting plate (530), said mounting plate (530) being mounted on said rotatable shaft (510) at an end remote from said coupling (520), said mounting plate (530) comprising:

a tray body (531);

the cutter mounting grooves (532) are uniformly arranged on the edge of one side, far away from the rotating shaft (510), of the disc body (531) in an annular mode;

a cutter (533), the cutter (533) being mounted inside the cutter-mounting groove (532);

the distance measuring sensors (534) are uniformly arranged on the disc body (531) at one side far away from the rotating shaft (510) in an annular mode, and the distance measuring sensors (534) are mutually staggered with the cutter mounting grooves (532).

9. The TPE billet producing cutter as claimed in claim 8, wherein: keep away from on barrel (211) sealed lid (600) are installed to the one end of flange joint head (230), sealed lid (600) include:

a cover (610);

the first mounting holes (620) are uniformly formed in the edge of the front surface of the cover body (610) in an annular shape, and the first mounting holes (620) penetrate through the rear surface of the cover body (610);

the second mounting hole (630) is formed in the center of the front surface of the cover body (610), and the second mounting hole (630) penetrates through the rear surface of the cover body (610).

10. The TPE billet producing cutter as claimed in claim 9, wherein: a collection box (700) is movably mounted between the two second chutes (140), and the collection box (700) comprises:

a cartridge body (710);

the two second sliding blocks (720), the two second sliding blocks (720) are symmetrically arranged on the two long side walls of the box body (710);

a handle (730), the handle (730) being mounted on a short sidewall of the case (710).

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