CN104147981B - A kind of energy-conservation granulator of novel bicyclic mould - Google Patents
A kind of energy-conservation granulator of novel bicyclic mould Download PDFInfo
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- CN104147981B CN104147981B CN201410425015.2A CN201410425015A CN104147981B CN 104147981 B CN104147981 B CN 104147981B CN 201410425015 A CN201410425015 A CN 201410425015A CN 104147981 B CN104147981 B CN 104147981B
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Abstract
The invention belongs to ring mould granulator technical field, in particular to a kind of energy-conservation granulator of novel bicyclic mould. This energy-conservation granulator of novel bicyclic mould; comprise pinch roller, pinch roller fixed mechanism, pinch roller adjustment mechanism and pinch roller transmission rig; described pinch roller fixed mechanism is fixed with two pinch rollers; pinch roller is regulated by pinch roller adjustment mechanism through pinch roller fixed mechanism by wheel pressing shaft, and described pinch roller adjustment mechanism and pinch roller are by pinch roller transmission rig transmission power. Its useful effect is: simple and reliable for structure, it is made up of the worm gear on wheel pressing shaft and the worm screw and the adjusting seat that are meshed with it, after rotary worm adjusts gap, self-locking performance by worm gear worm screw ensures that gap is stablized, and its cost is low, simple to operate, it is convenient to processing, being easier to adjustment, the maintenance in gap is more reliable and more stable than original device, ensure that the steady running of equipment.
Description
Technical field
The invention belongs to ring mould granulator technical field, in particular to a kind of energy-conservation granulator of novel bicyclic mould.
Background technology
Traditional granulator is generally ring mould granulator or flat-die granulator, and ring mould granulator is divided into again vertical or horizontal two kinds, and structure formation is: otherwise mould is static, and pressure roller moves; Pressure roller is static, mold movement, pressure roller and mould are separate, material is extruded by the relative movement of pressured roller and mould from the nib of mould, band bearing in pressure roller, by the restriction of structure and working conditions, 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 is in order to make up the defect of prior art, it provides a kind of solve the higher energy-conservation granulator of novel bicyclic mould of conventional particles machine complex structure, equipment cost and maintenance cost.
The present invention is achieved through the following technical solutions:
A kind of energy-conservation granulator 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 connected with the extrusion chamber of internal body; described extrusion chamber is built with grain forming mechanism; described grain forming mechanism is connected the grain forming mechanism transmission power for internal body by shaft coupling with the power mechanism of engine body exterior, and described body side is provided with fines outlet, and side is provided with particle outlet in addition.
Further, described feeding mechanism is the feeding mouth of body, and 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, and the chamber wall in particle blanking chamber has particle blanking port, and particle blanking port wall mouth periphery is provided with Sealing shield ring, it is provided with material extruding chamber on the upside of grain forming mechanism, it is fines blanking chamber on the downside of it.
Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism to operate, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber by transmission shaft and driven axle respectively, transmission shaft extends outside extrusion chamber, and be connected with transmission rig by shaft coupling, transmission shaping mechanism and passive shaping mechanism are made up of gear ring mould and common ring mould respectively, all having multiple nib on gear ring mould and common ring mould, the upper mould hole of extruding is staggered mutually.
Further, described transmission shaping mechanism and passive shaping mechanism are formed by singly organizing gear ring mould respectively, gear ring mould is connected with transmission shaft and driven axle by ring die holder respectively, ring die holder is welded on transmission shaft and driven axle respectively, gear ring mould and ring die holder are bolted, 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 are formed with single group common ring mould by singly organizing gear ring mould respectively, gear ring mould and common ring mould are connected with transmission shaft and driven axle by ring die holder respectively, ring die holder is welded on transmission shaft and driven axle respectively, gear ring mould and common ring mould and ring die holder are bolted, 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 are formed by singly organizing gear ring mould and organize common ring mould more respectively, gear ring mould and common ring mould are connected with transmission shaft and driven axle by ring die holder respectively, ring die holder is welded on transmission shaft and driven axle respectively, gear ring mould and common ring mould and ring die holder are bolted, 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 supports seat by transmitting gear and ring mould and forms, ring mould supports, on seat, transmitting gear is housed, transmitting gear has multiple nib, ring mould supports position, seat center and is provided with ring die holder, transmitting gear has back-up ring groove near particle blanking port side, the mutual Butt Assembling of Sealing shield ring of back-up ring groove and particle blanking port wall mouth periphery.
Further, described common ring mould side is provided with back-up ring groove, and the side that common ring mould is provided with back-up ring groove is provided with particle blanking chamber, the mutual Butt Assembling of Sealing shield ring at the back-up ring groove on common ring mould and the particle blanking port place on particle blanking chamber.
Further, described particle blanking chamber is connected with particle outlet with the fines outlet on body respectively with fines blanking chamber.
Further, described power mechanism comprises electric motor and step-down gear, and electric motor is positioned on base, and electric motor is connected for power is transmitted in grain forming mechanism with the step-down gear on body by pulley belt.
The invention has the beneficial effects as follows: structure formation all adopts two ring mould fashion of extrusion, change traditional pressure roller, the mode that die assembly is granulated, when two ring mould extrudes, the often pair of ring mould hole when that contacts is all have hole relative with other ring mould atresia place when extruding on staggered every part ring mould, pellet density extruded like this can not be influenced, also reduce the extrusion abrasion of mould simultaneously, mould is connected with ring die holder by bolt, it is convenient for changing ring mould, ring mould discharge end processing back-up ring groove, insert in back-up ring groove the particle realizing falling not mix with raw material at particle blanking port place welded seal back-up ring.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the present invention is further illustrated.
Accompanying drawing 1 is the front view of the present invention;
Accompanying drawing 2 is the left view of the present invention;
Accompanying drawing 3 is the vertical view of the present invention;
Accompanying drawing 4 is the section of structure of extrusion chamber of the present invention;
Accompanying drawing 5 is the structural representation of gear ring mould of the present invention;
Accompanying drawing 6 is the structural representation of embodiment 2 ring mould;
Accompanying drawing 7 is the structural representation of embodiment 3 ring mould.
In figure, 1 electric motor, 2 pulley belts, 3 feeding mouths, 4 fines outlets, 5 bodies, 6 particle outlets, 7 bases, 8 step-down gears, 9 gear ring moulds, 10 common ring moulds, 11 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 back-up ring grooves, 21 ring die holders, 22 transmitting gears, 23 nibs, 24 ring moulds support seat.
Embodiment
Hereinafter providing specific embodiments of the invention, being used for the formation to the present invention is further described.
Embodiment 1
Accompanying drawing 1,2,4,5 is a kind of specific embodiment of the present invention. A kind of energy-conservation granulator 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 end is provided with feeding mechanism; body 5 inside is provided with extrusion chamber 19; feeding mechanism is connected with the extrusion chamber 19 of body 5 inside; described extrusion chamber 19 is built with grain forming mechanism; described grain forming mechanism is connected the grain forming mechanism transmission power for body 5 inside by shaft coupling 18 with the power mechanism of body 5 outside; described body 5 side is provided with fines outlet 4, and side is provided with particle outlet 6 in addition.
Further, described feeding mechanism is the feeding mouth 3 of body 5, and feeding mouth 3 one-tenth cone is upside down in body 5 upper end.
Further, grain forming mechanism both sides in described extrusion chamber 19 are provided with particle blanking chamber 15, the chamber wall in particle blanking chamber 15 has particle blanking port 14, particle blanking port 14 wall mouth periphery is provided with Sealing shield ring 16, it is provided with material extruding chamber 13 on the upside of grain forming mechanism, it is fines blanking chamber 17 on the downside of it.
Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism to operate, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber 19 by transmission shaft 11 and driven axle 12 respectively, transmission shaft 11 extends outside extrusion chamber 19, and be connected with transmission rig 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, gear ring mould 9 and common ring mould 10 all have multiple nib 23, the upper mould hole 23 of extruding is staggered mutually.
Further, described transmission shaping mechanism and passive shaping mechanism are formed by singly organizing gear ring mould 9 respectively, gear ring mould 9 is connected with transmission shaft 11 and driven axle 12 by ring die holder 21 respectively, ring die holder 21 is welded on transmission shaft 11 and driven axle 12 respectively, gear ring mould 9 and ring die holder 21 are bolted, and the gear ring mould 9 on passive shaping mechanism is oppositely meshing with the gear ring mould 9 one-tenth on transmission shaping mechanism.
Further, described gear ring mould 9 supports seat 24 by transmitting gear 22 and ring mould and forms, ring mould supports, on seat 24, transmitting gear 22 is housed, transmitting gear 22 has multiple nib 23, ring mould supports position, seat 24 center and is provided with ring die holder 21, transmitting gear 22 has back-up ring groove 20 near particle blanking port 14 side, back-up ring groove 20 Butt Assembling mutual to the Sealing shield ring 16 of particle blanking port 14 wall mouth periphery.
Further, described common ring mould 10 side is provided with back-up ring groove 20, the side that common ring mould 10 is provided with back-up ring groove 20 is provided with particle blanking chamber 15, the Butt Assembling mutual to the Sealing shield ring 16 at particle blanking port 14 place on particle blanking chamber 15 of the back-up ring groove 20 on common ring mould 10.
Further, described particle blanking chamber 15 is connected with particle outlet 6 with the fines outlet 4 on body 5 respectively with fines blanking chamber 17.
Further, described power mechanism comprises electric motor 1 and step-down gear 8, and electric motor 1 is positioned on base 7, and electric motor 1 is connected with the step-down gear 8 on body 5 for power is transmitted in grain forming mechanism by pulley belt 2.
Embodiment 2
Accompanying drawing 1,2,3,5,6 is a kind of specific embodiment of the present invention. A kind of energy-conservation granulator 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 end is provided with feeding mechanism; body 5 inside is provided with extrusion chamber 19; feeding mechanism is connected with the extrusion chamber 19 of body 5 inside; described extrusion chamber 19 is built with grain forming mechanism; described grain forming mechanism is connected the grain forming mechanism transmission power for body 5 inside by shaft coupling 18 with the power mechanism of body 5 outside; described body 5 side is provided with fines outlet 4, and side is provided with particle outlet 6 in addition.
Further, described feeding mechanism is the feeding mouth 3 of body 5, and feeding mouth 3 one-tenth cone is upside down in body 5 upper end.
Further, grain forming mechanism both sides in described extrusion chamber 19 are provided with particle blanking chamber 15, the chamber wall in particle blanking chamber 15 has particle blanking port 14, particle blanking port 14 wall mouth periphery is provided with Sealing shield ring 16, it is provided with material extruding chamber 13 on the upside of grain forming mechanism, it is fines blanking chamber 17 on the downside of it.
Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism to operate, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber 19 by transmission shaft 11 and driven axle 12 respectively, transmission shaft 11 extends outside extrusion chamber 19, and be connected with transmission rig 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, gear ring mould 9 and common ring mould 10 all have multiple nib 23, the upper mould hole 23 of extruding is staggered mutually.
Further, described transmission shaping mechanism and passive shaping mechanism are formed with single group common ring mould 10 by singly organizing gear ring mould 9 respectively, gear ring mould 9 and common ring mould 10 are connected with transmission shaft 11 and driven axle 12 by ring die holder 21 respectively, ring die holder 21 is welded on transmission shaft 11 and driven axle 12 respectively, 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 the gear ring mould 9 one-tenth 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 supports seat 24 by transmitting gear 22 and ring mould and forms, ring mould supports, on seat 24, transmitting gear 22 is housed, transmitting gear 22 has multiple nib 23, ring mould supports position, seat 24 center and is provided with ring die holder 21, transmitting gear 22 has back-up ring groove 20 near particle blanking port 14 side, back-up ring groove 20 Butt Assembling mutual to the Sealing shield ring 16 of particle blanking port 14 wall mouth periphery.
Further, described common ring mould 10 side is provided with back-up ring groove 20, the side that common ring mould 10 is provided with back-up ring groove 20 is provided with particle blanking chamber 15, the Butt Assembling mutual to the Sealing shield ring 16 at particle blanking port 14 place on particle blanking chamber 15 of the back-up ring groove 20 on common ring mould 10.
Further, described particle blanking chamber 15 is connected with particle outlet 6 with the fines outlet 4 on body 5 respectively with fines blanking chamber 17.
Further, described power mechanism comprises electric motor 1 and step-down gear 8, and electric motor 1 is positioned on base 7, and electric motor 1 is connected with the step-down gear 8 on body 5 for power is transmitted in grain forming mechanism by pulley belt 2.
Embodiment 3
Accompanying drawing 1,2,5,7 is a kind of specific embodiment of the present invention. A kind of energy-conservation granulator 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 end is provided with feeding mechanism; body 5 inside is provided with extrusion chamber 19; feeding mechanism is connected with the extrusion chamber 19 of body 5 inside; described extrusion chamber 19 is built with grain forming mechanism; described grain forming mechanism is connected the grain forming mechanism transmission power for body 5 inside by shaft coupling 18 with the power mechanism of body 5 outside; described body 5 side is provided with fines outlet 4, and side is provided with particle outlet 6 in addition.
Further, described feeding mechanism is the feeding mouth 3 of body 5, and feeding mouth 3 one-tenth cone is upside down in body 5 upper end.
Further, grain forming mechanism both sides in described extrusion chamber 19 are provided with particle blanking chamber 15, the chamber wall in particle blanking chamber 15 has particle blanking port 14, particle blanking port 14 wall mouth periphery is provided with Sealing shield ring 16, it is provided with material extruding chamber 13 on the upside of grain forming mechanism, it is fines blanking chamber 17 on the downside of it.
Further, described grain forming mechanism is made up of transmission shaping mechanism and passive shaping mechanism, transmission shaping mechanism drives passive shaping mechanism to operate, transmission shaping mechanism and passive shaping mechanism are fixed in extrusion chamber 19 by transmission shaft 11 and driven axle 12 respectively, transmission shaft 11 extends outside extrusion chamber 19, and be connected with transmission rig 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, gear ring mould 9 and common ring mould 10 all have multiple nib 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 are formed, gear ring mould 9 and common ring mould 10 are connected with transmission shaft 11 and driven axle 12 by ring die holder 21 respectively, ring die holder 21 is welded on transmission shaft 11 and driven axle 12 respectively, 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 the gear ring mould 9 one-tenth 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 supports seat 24 by transmitting gear 22 and ring mould and forms, ring mould supports, on seat 24, transmitting gear 22 is housed, transmitting gear 22 has multiple nib 23, ring mould supports position, seat 24 center and is provided with ring die holder 21, transmitting gear 22 has back-up ring groove 20 near particle blanking port 14 side, back-up ring groove 20 Butt Assembling mutual to the Sealing shield ring 16 of particle blanking port 14 wall mouth periphery.
Further, described common ring mould 10 side is provided with back-up ring groove 20, the side that common ring mould 10 is provided with back-up ring groove 20 is provided with particle blanking chamber 15, the Butt Assembling mutual to the Sealing shield ring 16 at particle blanking port 14 place on particle blanking chamber 15 of the back-up ring groove 20 on common ring mould 10.
Further, described particle blanking chamber 15 is connected with particle outlet 6 with the fines outlet 4 on body 5 respectively with fines blanking chamber 17.
Further, described power mechanism comprises electric motor 1 and step-down gear 8, and electric motor 1 is positioned on base 7, and electric motor 1 is connected with the step-down gear 8 on body 5 for power is transmitted in grain forming mechanism by pulley belt 2.
A kind of energy-conservation granulator of novel bicyclic mould of this invention, the gear ring mould 9 that during work, two cooperatively interact, counter rotating is done by transmission shaft 11 driven gear ring mould 9 and the gear ring mould 9 on driven axle 12, by engaging each other of gear on two ring moulds, material is crushed to particle from the nib 23 of self and relative nib 23, when equipment two main shaft has two to or during multipair common die, gears meshing is utilized to drive one or more pairs of common ring mould 10 to work, many row's nibs 23 arrange along ring mould radial circumference, by mutual extruding, material is extruded from ring mould nib 23, gear ring mould 9 can also compressed granulate simultaneously.
The present invention is not limited to above-mentioned enforcement mode, anyone should learn make under the enlightenment of the present invention with the present invention, there is identical or close technical scheme, all fall within protection scope of the present invention.
Technology that the present invention does not describe in detail, shape, structure part are known technology.
Claims (7)
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 connected with the extrusion chamber of internal body, described extrusion chamber is built with grain forming mechanism, described grain forming mechanism is connected the grain forming mechanism for internal body by shaft coupling with the power mechanism of engine body exterior and transmits power, described body side is provided with fines outlet, side is provided with particle outlet in addition, 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 transmission shaft and driven axle respectively, transmission shaft extends outside extrusion chamber, and be connected with transmission rig by shaft coupling, transmission shaping mechanism and passive shaping mechanism are made up of gear ring mould and common ring mould respectively, gear ring mould and common ring mould all have multiple nib, described transmission shaping mechanism and passive shaping mechanism are formed by singly organizing gear ring mould respectively, gear ring mould is connected with transmission shaft and driven axle by ring die holder respectively, ring die holder is welded on transmission shaft and driven axle respectively, gear ring mould and ring die holder are bolted, gear ring mould on passive shaping mechanism becomes oppositely meshing with the gear ring mould on transmission shaping mechanism, described transmission shaping mechanism and passive shaping mechanism are formed by singly organizing gear ring mould and organize common ring mould more respectively, gear ring mould and common ring mould are connected with transmission shaft and driven axle by ring die holder respectively, ring die holder is welded on transmission shaft and driven axle respectively, gear ring mould and common ring mould and ring die holder are bolted, 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.
2. a kind of energy-conservation granulator of novel bicyclic mould according to claim 1, it is characterised in that: described feeding mechanism is the feeding mouth of body, and feeding mouth becomes cone to be upside down in body upper end.
3. a kind of energy-conservation granulator 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; the chamber wall in particle blanking chamber has particle blanking port; particle blanking port wall mouth periphery is provided with Sealing shield ring; it is provided with material extruding chamber on the upside of grain forming mechanism, it is fines blanking chamber on the downside of it.
4. a kind of energy-conservation granulator of novel bicyclic mould according to claim 1; it is characterized in that: described gear ring mould supports seat by transmitting gear and ring mould and forms; ring mould supports, on seat, transmitting gear is housed; transmitting gear has multiple nib; ring mould supports position, seat center and is provided with ring die holder; transmitting gear has back-up ring groove near particle blanking port side, the mutual Butt Assembling of Sealing shield ring of back-up ring groove and particle blanking port wall mouth periphery.
5. a kind of energy-conservation granulator of novel bicyclic mould according to claim 1; it is characterized in that: described common ring mould side is provided with back-up ring groove; the side that common ring mould is provided with back-up ring groove is provided with particle blanking chamber, the mutual Butt Assembling of Sealing shield ring at the back-up ring groove on common ring mould and the particle blanking port place on particle blanking chamber.
6. a kind of energy-conservation granulator of novel bicyclic mould according to claim 3, it is characterised in that: described particle blanking chamber is connected with particle outlet with the fines outlet on body respectively with fines blanking chamber.
7. a kind of energy-conservation granulator of novel bicyclic mould according to claim 1; it is characterized in that: described power mechanism comprises electric motor and step-down gear; electric motor is positioned on base, and electric motor is connected for power is transmitted in grain forming mechanism with the step-down gear on body by pulley belt.
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CN201410425015.2A CN104147981B (en) | 2014-08-27 | 2014-08-27 | A kind of energy-conservation granulator of novel bicyclic mould |
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CN104147981B true CN104147981B (en) | 2016-06-01 |
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CN105903406B (en) * | 2016-06-23 | 2018-08-31 | 罗炳英 | Parallel orbit driven type double end granulator |
CN110882660A (en) * | 2019-12-19 | 2020-03-17 | 山东大业联合新能源设备有限公司 | Biomass integrated intelligent granulation machine and working method |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2173770Y (en) * | 1993-08-05 | 1994-08-10 | 陈铁强 | Double twin-roll squeezing granulator |
JP2007262144A (en) * | 2006-03-27 | 2007-10-11 | Mitsui Eng & Shipbuild Co Ltd | Gas hydrate pellet production apparatus |
CN202191882U (en) * | 2011-08-24 | 2012-04-18 | 上海优泰装饰材料有限公司 | Intelligent control device |
CN203043944U (en) * | 2013-01-21 | 2013-07-10 | 阜新吉科生物能源设备有限公司 | Dual-mold particle pressing machine |
CN203990526U (en) * | 2014-08-27 | 2014-12-10 | 山东昶升建设工程机械有限公司 | The energy-conservation granulator of a kind of novel bicyclic mould |
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Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2173770Y (en) * | 1993-08-05 | 1994-08-10 | 陈铁强 | Double twin-roll squeezing granulator |
JP2007262144A (en) * | 2006-03-27 | 2007-10-11 | Mitsui Eng & Shipbuild Co Ltd | Gas hydrate pellet production apparatus |
CN202191882U (en) * | 2011-08-24 | 2012-04-18 | 上海优泰装饰材料有限公司 | Intelligent control device |
CN203043944U (en) * | 2013-01-21 | 2013-07-10 | 阜新吉科生物能源设备有限公司 | Dual-mold particle pressing machine |
CN203990526U (en) * | 2014-08-27 | 2014-12-10 | 山东昶升建设工程机械有限公司 | The energy-conservation granulator of a kind of novel bicyclic mould |
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