CN104147981A - Novel double ring die energy-saving granulator - Google Patents

Abstract

The invention belongs to the technical field of ring die granulator and especially relates to a novel double ring die energy-saving granulator which includes two pressing wheels, a pressing wheel fixing mechanism, a pressing wheel adjusting mechanism and a pressing wheel transmission mechanism. The two pressing wheels are fixed on the pressing wheel fixing mechanism, pass through the pressing wheel fixing mechanism through a pressing wheel shaft and are adjusted through the pressing wheel adjusting mechanism. Power is transmitted between the pressing wheel adjusting mechanism and the pressing wheel through the pressing wheel transmission mechanism. The double ring die energy-saving granulator is simple and reliable in structure and is composed of a worm wheel on the pressing wheel shaft, a worm which is engaged with the worm wheel and an adjusting base. A clearance is ensured to be stable by means of a self-locking performance of the worm wheel and the worm after the clearance being adjusted by rotating the worm. The novel double ring die energy-saving granulator is low in cost, is easy to operate, allows processing to be convenient, is more easy to adjust and is more stable and reliable in maintenance of the clearance so that can stable operation of the device is ensured.

Description

The energy-conservation granulator of a kind of novel bicyclic mould

 

Technical field

The invention belongs to ring mould granulator technical field, the particularly energy-conservation granulator of a kind of novel bicyclic mould.

Background technology

Traditional granulator is generally ring mould granulator or Flat die granulating machine, and ring mould granulator is divided into again vertical or horizontal two kinds, and version is: otherwise mould is static, pressure roller motion; Pressure roller is static, mould motion, pressure roller and mould are separate, the relative motion of pressured roller and mould is extruded material from the nib of mould, and in pressure roller, band bearing, is subject to the restriction of structure and condition of work, the life-span of pressure roller and bearing is shorter, and complex structure, equipment failure rate is higher, and equipment cost and maintenance cost are higher.

Summary of the invention

The present invention, in order to make up the defect of prior art, provides a kind of higher energy-conservation granulator of novel bicyclic mould of conventional particles machine complex structure, equipment cost and maintenance cost that solved.

The present invention is achieved through the following technical solutions:

The energy-conservation granulator of a kind of novel bicyclic mould; comprise base and body; described base is provided with body; described body upper end is provided with feeding mechanism, and internal body is provided with extrusion chamber, and feeding mechanism is communicated with the extrusion chamber of internal body; granule-forming machine structure is housed in described extrusion chamber; described grain forming mechanism is connected to the grain forming mechanism transmission power of internal body by the actuating unit of shaft coupling and engine body exterior, described body one side is provided with fines outlet, and an other side is provided with particle outlet.

Further, the feeding mouth that described feeding mechanism is body, feeding mouth becomes cone to be upside down in body upper end.

Further, grain forming mechanism both sides in described extrusion chamber are provided with particle blanking chamber, on the chamber wall in particle blanking chamber, have particle blanking port, and particle blanking port wall mouth periphery is provided with Sealing shield ring, grain forming mechanism upside is provided with material extruding chamber, and its downside is fines blanking chamber.

Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism running, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber by power transmission shaft and driven axle respectively, power transmission shaft extends outside extrusion chamber, and be connected with transmission mechanism by shaft coupling, transmission shaping mechanism and passive shaping mechanism are made up of gear ring mould and common ring mould respectively, on gear ring mould and common ring mould, all have multiple nibs, the upper mould hole of extruding is staggered mutually.

Further, described transmission shaping mechanism and passive shaping mechanism form by singly organizing gear ring mould respectively, gear ring mould is connected with power transmission shaft and driven axle by ring die holder respectively, ring die holder is welded on respectively on power transmission shaft and driven axle, gear ring mould is bolted with ring die holder, and the gear ring mould on passive shaping mechanism becomes oppositely meshing with the gear ring mould on transmission shaping mechanism.

Further, described transmission shaping mechanism and passive shaping mechanism form with single group common ring mould by singly organizing gear ring mould respectively, gear ring mould is connected with power transmission shaft and driven axle by ring die holder respectively with common ring mould, ring die holder is welded on respectively on power transmission shaft and driven axle, gear ring mould and common ring mould are bolted with ring die holder, gear ring mould on passive shaping mechanism becomes oppositely meshing with the gear ring mould on transmission shaping mechanism, and the common ring mould on passive shaping mechanism and transmission shaping mechanism is mutually corresponding.

Further, described transmission shaping mechanism and passive shaping mechanism form by singly organizing gear ring mould and organizing common ring mould more respectively, gear ring mould is connected with power transmission shaft and driven axle by ring die holder respectively with common ring mould, ring die holder is welded on respectively on power transmission shaft and driven axle, gear ring mould and common ring mould are bolted with ring die holder, gear ring mould on passive shaping mechanism becomes oppositely meshing with the gear ring mould on transmission shaping mechanism, and the common ring mould on passive shaping mechanism and transmission shaping mechanism is mutually corresponding.

Further, described gear ring mould is made up of travelling gear and ring mould supporting seat, on ring mould supporting seat, travelling gear is housed, on travelling gear, have multiple nibs, ring mould supporting seat centre is provided with ring die holder, travelling gear has circlip groove near particle blanking port one side, and circlip groove docks assembling mutually with the Sealing shield ring of particle blanking port wall mouth periphery.

Further, described common ring mould one side is provided with circlip groove, and the side that common ring mould is provided with circlip groove is provided with particle blanking chamber, and the circlip groove on common ring mould docks assembling mutually with the Sealing shield ring at the particle blanking port place on particle blanking chamber.

Further, described particle blanking chamber and fines blanking chamber are communicated with fines outlet and particle outlet on body respectively.

Further, described actuating unit comprises motor and reductor, and motor is positioned on base, and motor is connected to grain forming mechanism transmission power by the reductor on driving belt and body.

The invention has the beneficial effects as follows: version all adopts dicyclo mould fashion of extrusion, change traditional pressure roller, the mode that die assembly is granulated, dicyclo mould when when extruding in,, every pair of ring mould contacted hole be all on staggered every ring mould porose in the time of extruding with to encircle in addition mould atresia place relative, the grain density of extrusion modling can be not influenced like this, also reduced the extrusion abrasion of mould simultaneously, mould is connected with ring die holder by bolt, be convenient for changing ring mould, ring mould discharge end processing circlip groove, in particle blanking port place welded seal back-up ring inserts circlip groove, realizing the particle falling does not mix with raw material.

Brief description of the drawings

Below in conjunction with accompanying drawing, the present invention is further illustrated.

Accompanying drawing 1 is front view of the present invention;

Accompanying drawing 2 is left view of the present invention;

Accompanying drawing 3 is top view of the present invention;

The section of structure that accompanying drawing 4 is extrusion chamber of the present invention;

The structural representation that accompanying drawing 5 is gear ring mould of the present invention;

Accompanying drawing 6 is the structural representation that embodiment 2 encircles mould;

Accompanying drawing 7 is the structural representation that embodiment 3 encircles mould.

In figure, 1 motor, 2 driving belts, 3 feeding mouths, 4 fines outlets, 5 bodies, 6 particle outlets, 7 bases, 8 reductors, 9 gear ring moulds, 10 common ring moulds, 11 power transmission shafts, 12 driven axles, 13 material extruding chambeies, 14 particle blanking ports, 15 particle blanking chambeies, 16 Sealing shield rings, 17 fines blanking chambeies, 18 shaft couplings, 19 extrusion chamber, 20 circlip grooves, 21 ring die holders, 22 travelling gears, 23 nibs, 24 ring mould supporting seats.

Detailed description of the invention

Below provide specific embodiments of the invention, be used for formation of the present invention to be further described.

Embodiment 1

Accompanying drawing 1,2,4,5 is a kind of specific embodiment of the present invention.The energy-conservation granulator of a kind of novel bicyclic mould of this invention; comprise base 7 and body 5; described base 7 is provided with body 5; described body 5 upper ends are provided with feeding mechanism; body 5 inside are provided with extrusion chamber 19; feeding mechanism is communicated with the extrusion chamber 19 of body 5 inside; in described extrusion chamber 19, granule-forming machine structure is housed; described grain forming mechanism is connected to the grain forming mechanism transmission power of body 5 inside by shaft coupling 18 and the actuating unit of body 5 outsides; described body 5 one sides are provided with fines outlet 4, and an other side is provided with particle outlet 6.

Further, described feeding mechanism is the feeding mouth 3 of body 5, and 3 one-tenth cones of feeding mouth are upside down in body 5 upper ends.

Further, grain forming mechanism both sides in described extrusion chamber 19 are provided with particle blanking chamber 15, on the chamber wall in particle blanking chamber 15, have particle blanking port 14, particle blanking port 14 wall mouth peripheries are provided with Sealing shield ring 16, grain forming mechanism upside is provided with material extruding chamber 13, and its downside is fines blanking chamber 17.

Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism running, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber 19 by power transmission shaft 11 and driven axle 12 respectively, power transmission shaft 11 extends outside extrusion chamber 19, and be connected with transmission mechanism by shaft coupling 18, transmission shaping mechanism and passive shaping mechanism are made up of gear ring mould 9 and common ring mould 10 respectively, on gear ring mould 9 and common ring mould 10, all have multiple nibs 23, the upper mould hole 23 of extruding is staggered mutually.

Further, described transmission shaping mechanism and passive shaping mechanism form by singly organizing gear ring mould 9 respectively, gear ring mould 9 is connected with power transmission shaft 11 and driven axle 12 by ring die holder 21 respectively, ring die holder 21 is welded on respectively on power transmission shaft 11 and driven axle 12, gear ring mould 9 is bolted with ring die holder 21, and the gear ring mould 9 on passive shaping mechanism is oppositely meshing with 9 one-tenth of gear ring moulds on transmission shaping mechanism.

Further, described gear ring mould 9 is made up of travelling gear 22 and ring mould supporting seat 24, on ring mould supporting seat 24, travelling gear 22 is housed, on travelling gear 22, have multiple nibs 23, ring mould supporting seat 24 centres are provided with ring die holder 21, travelling gear 22 has circlip groove 20 near particle blanking port 14 1 sides, and circlip groove 20 docks assembling mutually with the Sealing shield ring 16 of particle blanking port 14 wall mouth peripheries.

Further, described common ring mould 10 1 sides are provided with circlip groove 20, the side that common ring mould 10 is provided with circlip groove 20 is provided with particle blanking chamber 15, and the circlip groove 20 on common ring mould 10 docks assembling mutually with the Sealing shield ring 16 at particle blanking port 14 places on particle blanking chamber 15.

Further, described particle blanking chamber 15 and fines blanking chamber 17 are communicated with fines outlet 4 and particle outlet 6 on body 5 respectively.

Further, described actuating unit comprises motor 1 and reductor 8, and motor 1 is positioned on base 7, and motor 1 is connected to grain forming mechanism transmission power by driving belt 2 and the reductor 8 on body 5.

Embodiment 2

Accompanying drawing 1,2,3,5,6 is a kind of specific embodiment of the present invention.The energy-conservation granulator of a kind of novel bicyclic mould of this invention; comprise base 7 and body 5; described base 7 is provided with body 5; described body 5 upper ends are provided with feeding mechanism; body 5 inside are provided with extrusion chamber 19; feeding mechanism is communicated with the extrusion chamber 19 of body 5 inside; in described extrusion chamber 19, granule-forming machine structure is housed; described grain forming mechanism is connected to the grain forming mechanism transmission power of body 5 inside by shaft coupling 18 and the actuating unit of body 5 outsides; described body 5 one sides are provided with fines outlet 4, and an other side is provided with particle outlet 6.

Further, described feeding mechanism is the feeding mouth 3 of body 5, and 3 one-tenth cones of feeding mouth are upside down in body 5 upper ends.

Further, grain forming mechanism both sides in described extrusion chamber 19 are provided with particle blanking chamber 15, on the chamber wall in particle blanking chamber 15, have particle blanking port 14, particle blanking port 14 wall mouth peripheries are provided with Sealing shield ring 16, grain forming mechanism upside is provided with material extruding chamber 13, and its downside is fines blanking chamber 17.

Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism running, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber 19 by power transmission shaft 11 and driven axle 12 respectively, power transmission shaft 11 extends outside extrusion chamber 19, and be connected with transmission mechanism by shaft coupling 18, transmission shaping mechanism and passive shaping mechanism are made up of gear ring mould 9 and common ring mould 10 respectively, on gear ring mould 9 and common ring mould 10, all have multiple nibs 23, the upper mould hole 23 of extruding is staggered mutually.

Further, described transmission shaping mechanism and passive shaping mechanism form with single group common ring mould 10 by singly organizing gear ring mould 9 respectively, gear ring mould 9 is connected with power transmission shaft 11 and driven axle 12 by ring die holder 21 respectively with common ring mould 10, ring die holder 21 is welded on respectively on power transmission shaft 11 and driven axle 12, gear ring mould 9 and common ring mould 10 are bolted with ring die holder 21, gear ring mould 9 on passive shaping mechanism is oppositely meshing with 9 one-tenth of gear ring moulds on transmission shaping mechanism, and the common ring mould 10 on passive shaping mechanism and transmission shaping mechanism is mutually corresponding.

Further, described gear ring mould 9 is made up of travelling gear 22 and ring mould supporting seat 24, on ring mould supporting seat 24, travelling gear 22 is housed, on travelling gear 22, have multiple nibs 23, ring mould supporting seat 24 centres are provided with ring die holder 21, travelling gear 22 has circlip groove 20 near particle blanking port 14 1 sides, and circlip groove 20 docks assembling mutually with the Sealing shield ring 16 of particle blanking port 14 wall mouth peripheries.

Further, described common ring mould 10 1 sides are provided with circlip groove 20, the side that common ring mould 10 is provided with circlip groove 20 is provided with particle blanking chamber 15, and the circlip groove 20 on common ring mould 10 docks assembling mutually with the Sealing shield ring 16 at particle blanking port 14 places on particle blanking chamber 15.

Further, described particle blanking chamber 15 and fines blanking chamber 17 are communicated with fines outlet 4 and particle outlet 6 on body 5 respectively.

Further, described actuating unit comprises motor 1 and reductor 8, and motor 1 is positioned on base 7, and motor 1 is connected to grain forming mechanism transmission power by driving belt 2 and the reductor 8 on body 5.

Embodiment 3

Accompanying drawing 1,2,5,7 is a kind of specific embodiment of the present invention.The energy-conservation granulator of a kind of novel bicyclic mould of this invention; comprise base 7 and body 5; described base 7 is provided with body 5; described body 5 upper ends are provided with feeding mechanism; body 5 inside are provided with extrusion chamber 19; feeding mechanism is communicated with the extrusion chamber 19 of body 5 inside; in described extrusion chamber 19, granule-forming machine structure is housed; described grain forming mechanism is connected to the grain forming mechanism transmission power of body 5 inside by shaft coupling 18 and the actuating unit of body 5 outsides; described body 5 one sides are provided with fines outlet 4, and an other side is provided with particle outlet 6.

Further, described feeding mechanism is the feeding mouth 3 of body 5, and 3 one-tenth cones of feeding mouth are upside down in body 5 upper ends.

Further, grain forming mechanism both sides in described extrusion chamber 19 are provided with particle blanking chamber 15, on the chamber wall in particle blanking chamber 15, have particle blanking port 14, particle blanking port 14 wall mouth peripheries are provided with Sealing shield ring 16, grain forming mechanism upside is provided with material extruding chamber 13, and its downside is fines blanking chamber 17.

Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism running, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber 19 by power transmission shaft 11 and driven axle 12 respectively, power transmission shaft 11 extends outside extrusion chamber 19, and be connected with transmission mechanism by shaft coupling 18, transmission shaping mechanism and passive shaping mechanism are made up of gear ring mould 9 and common ring mould 10 respectively, on gear ring mould 9 and common ring mould 10, all have multiple nibs 23, the upper mould hole 23 of extruding is staggered mutually.

Further, described transmission shaping mechanism and passive shaping mechanism are respectively by singly organizing gear ring mould 9 and two groups of common ring moulds 10 form, gear ring mould 9 is connected with power transmission shaft 11 and driven axle 12 by ring die holder 21 respectively with common ring mould 10, ring die holder 21 is welded on respectively on power transmission shaft 11 and driven axle 12, gear ring mould 9 and common ring mould 10 are bolted with ring die holder 21, gear ring mould 9 on passive shaping mechanism is oppositely meshing with 9 one-tenth of gear ring moulds on transmission shaping mechanism, and the common ring mould 10 on passive shaping mechanism and transmission shaping mechanism is mutually corresponding.

Further, described gear ring mould 9 is made up of travelling gear 22 and ring mould supporting seat 24, on ring mould supporting seat 24, travelling gear 22 is housed, on travelling gear 22, have multiple nibs 23, ring mould supporting seat 24 centres are provided with ring die holder 21, travelling gear 22 has circlip groove 20 near particle blanking port 14 1 sides, and circlip groove 20 docks assembling mutually with the Sealing shield ring 16 of particle blanking port 14 wall mouth peripheries.

Further, described common ring mould 10 1 sides are provided with circlip groove 20, the side that common ring mould 10 is provided with circlip groove 20 is provided with particle blanking chamber 15, and the circlip groove 20 on common ring mould 10 docks assembling mutually with the Sealing shield ring 16 at particle blanking port 14 places on particle blanking chamber 15.

Further, described particle blanking chamber 15 and fines blanking chamber 17 are communicated with fines outlet 4 and particle outlet 6 on body 5 respectively.

Further, described actuating unit comprises motor 1 and reductor 8, and motor 1 is positioned on base 7, and motor 1 is connected to grain forming mechanism transmission power by driving belt 2 and the reductor 8 on body 5.

The energy-conservation granulator of a kind of novel bicyclic mould of this invention, the gear ring mould 9 that when work, two cooperatively interact, do counter rotating by power transmission shaft 11 driven gear ring moulds 9 with the gear ring mould 9 on driven axle 12, cog by two ring moulds intermeshing by material from self nib 23 and relative nib 23 be crushed to particle, in the time having two pairs or multipair common die on equipment two main shafts, utilize gear engagement to drive one or more pairs of common ring moulds 10 to work, many row's nibs 23 are arranged along ring mould radial circumference, by mutual extruding, material is extruded from ring mould nib 23, gear ring mould 9 also can compressed granulate simultaneously.

The present invention is not limited to above-mentioned embodiment, anyone should learn under enlightenment of the present invention, make there is identical or close technical scheme with the present invention, within all falling into protection scope of the present invention.

Technology, shape, structure part that the present invention does not describe in detail are known technology.

Claims (10)

1. the energy-conservation granulator of novel bicyclic mould; it is characterized in that; comprise base and body; described base is provided with body; described body upper end is provided with feeding mechanism; internal body is provided with extrusion chamber; feeding mechanism is communicated with the extrusion chamber of internal body; granule-forming machine structure is housed in described extrusion chamber; described grain forming mechanism is connected to the grain forming mechanism transmission power of internal body by the actuating unit of shaft coupling and engine body exterior; described body one side is provided with fines outlet, and an other side is provided with particle outlet.

2. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 1, is characterized in that: the feeding mouth that described feeding mechanism is body, feeding mouth becomes cone to be upside down in body upper end.

3. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 1; it is characterized in that: the grain forming mechanism both sides in described extrusion chamber are provided with particle blanking chamber; on the chamber wall in particle blanking chamber, have particle blanking port; particle blanking port wall mouth periphery is provided with Sealing shield ring; grain forming mechanism upside is provided with material extruding chamber, and its downside is fines blanking chamber.

4. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 1; it is characterized in that: described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism; transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber by power transmission shaft and driven axle respectively; power transmission shaft extends outside extrusion chamber; and be connected with transmission mechanism by shaft coupling; transmission shaping mechanism and passive shaping mechanism are made up of gear ring mould and common ring mould respectively, on gear ring mould and common ring mould, all have multiple nibs.

5. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 4; it is characterized in that: described transmission shaping mechanism and passive shaping mechanism form by singly organizing gear ring mould respectively; gear ring mould is connected with power transmission shaft and driven axle by ring die holder respectively; ring die holder is welded on respectively on power transmission shaft and driven axle; gear ring mould is bolted with ring die holder, and the gear ring mould on passive shaping mechanism becomes oppositely meshing with the gear ring mould on transmission shaping mechanism.

6. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 4, it is characterized in that: described transmission shaping mechanism and passive shaping mechanism form by singly organizing gear ring mould and organizing common ring mould more respectively, gear ring mould is connected with power transmission shaft and driven axle by ring die holder respectively with common ring mould, ring die holder is welded on respectively on power transmission shaft and driven axle, gear ring mould and common ring mould are bolted with ring die holder, gear ring mould on passive shaping mechanism becomes oppositely meshing with the gear ring mould on transmission shaping mechanism, common ring mould on passive shaping mechanism and transmission shaping mechanism is mutually corresponding.

7. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 4; it is characterized in that: described gear ring mould is made up of travelling gear and ring mould supporting seat; on ring mould supporting seat, travelling gear is housed; on travelling gear, have multiple nibs; ring mould supporting seat centre is provided with ring die holder; travelling gear has circlip groove near particle blanking port one side, and circlip groove docks assembling mutually with the Sealing shield ring of particle blanking port wall mouth periphery.

8. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 4; it is characterized in that: described common ring mould one side is provided with circlip groove; the side that common ring mould is provided with circlip groove is provided with particle blanking chamber, and the circlip groove on common ring mould docks assembling mutually with the Sealing shield ring at the particle blanking port place on particle blanking chamber.

9. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 3, is characterized in that: described particle blanking chamber and fines blanking chamber are communicated with fines outlet and particle outlet on body respectively.

10. the energy-conservation granulator of a kind of novel bicyclic mould according to claim 1; it is characterized in that: described actuating unit comprises motor and reductor; motor is positioned on base, and motor is connected to grain forming mechanism transmission power by the reductor on driving belt and body.