CN104527122A - Variable spiral type combined solid forming machine for banana stems - Google Patents

Variable spiral type combined solid forming machine for banana stems Download PDF

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Publication number
CN104527122A
CN104527122A CN201410726837.4A CN201410726837A CN104527122A CN 104527122 A CN104527122 A CN 104527122A CN 201410726837 A CN201410726837 A CN 201410726837A CN 104527122 A CN104527122 A CN 104527122A
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China
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belt wheel
forming machine
solid forming
spiral
water
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CN201410726837.4A
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CN104527122B (en
Inventor
张喜瑞
王超
梁栋
李粤
屈彦伯
王涛
陈致水
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Hainan University
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Hainan University
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Publication of CN104527122B publication Critical patent/CN104527122B/en
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Abstract

The invention belongs to the technical field of agricultural machinery, and relates to a spiral type combined solid forming machine for banana stems. The machine is characterized in that a forming device is fixedly connected to a rack; the upper end of one end of the forming device is opened and equipped with an agitating feeding device, and while the other end of the forming die is equipped with a discharging opening and provided with a guiding plate; a cutting and blanking device is arranged at the discharging opening of the forming device; a water extruding device is arranged at one side of an inlet of the agitating feeding device and used for extruding out most of water from materials, then the materials enter the forming device under the effect of the agitating feeding device and are continuously extruded and agitated extruded to be formed through an agitating spiral body in the forming die, and finally the extruded formed materials are cut through the cutting blanking device and blanked to the guide plate to slide out. With the adoption of the machine, gradient pressure is provided for extruding forming and water extruding; in addition, the replacement is easy, and the maintenance is convenient; the influence of high temperature on an extruding assembly is avoided, and the service life of the machine is prolonged; 80 to 90% of water can be pre-extruded from the material through the water extruding device; the machine is applicable to biomass solid forming of the banana stems.

Description

Become spiral banana stalk integrating solid forming machine
Technical field
The invention belongs to genus agricultural machinery technological field, particularly one becomes spiral banana stem integrating solid forming machine.
Background technology
Banana caulo is banana producing region principal by product.Within 2013, China's banana planting area reaches 42.7 ten thousand hm 2left and right, output reaches 1109.34 ten thousand t, produces banana stem accessory substance total amount per year and reaches 3,800 ten thousand t.For a long time, traditional method process banana stem is still continued to use in the banana plantation of large absolutely number, artificial felling is transported to vacant lot, field and naturally rots or burn after withered, a large amount of banana stems is discarded, not only cause the great wasting of resources, and easily cause air pollution, soil mineralization and transmission.
Banana stem height is between 2 ~ 5m, and diameter is generally 20 ~ 30cm, and general water content is up to 90%.Because fiber content in dry is 58.5% ~ 76.1%, hemicellulose level is 28.5% ~ 29.9%, content of lignin is 4.8% ~ 6.13, therefore when banana stem water content is 18%, banana stem can formed at normal temp, but tall and big sturdy stem stalk in current biomass forming machine, can not be processed, and usually in forming machine squeezing passage, be provided with heating element heater and cooling device, these structures can cause the compression assemblies of squeezing passage to damage, high temperature can accelerate the wearing and tearing of blending auger, affect service life, the solid forming of inapplicable banana stem.Therefore, develop a kind of agricultural machinery of banana stem solid forming machine, force to extrude bar-shaped molding materials from model hole by this forming machine, the calorific value processed is high, sufficient combustion, be convenient to transport and the low-carbon (LC) regenerative resource fuel of storage not only can reduce the wasting of resources and environmental pollution that banana stem causes, significant economic benefit can also be brought for peasant, have very important significance.
Summary of the invention
The present invention makes a low multiple use to solve banana stem, waste serious, contaminated environment, existing forming machine are unfavorable for the problems such as processing, provides the spiral banana stem integrating solid forming machine of a kind of change.
The technical solution used in the present invention is:
This equipment comprises motor, stirs drawing-in device, cuts dropping control device, stock guide, frame, shaped device and squeezing water:
Shaped device is fixed in frame, and its one end upper opening also installs stirring drawing-in device, and the other end is discharging opening and arranges stock guide; Arrange in the discharge outlet of shaped device and cut dropping control device; Squeezing water is arranged on the inlet side stirring drawing-in device;
Arrange blending auger in described shaped device, the port of export arranges extrusion molding mould; Described blending auger is variable-pitch auger body, is sleeved in polygon rotating shaft forms by the Brachyspira that three sections of pitch is different; The helix of three sections of Brachyspiras makes according to standard polar equation ρ (θ)=a+b (θ) principle of spiral of Archimedes that (θ is polar angle, a is the footpath, pole when θ=0 °, b is spiral of Archimedes coefficient), its pitch becomes multiple to increase along feed direction, and multiple span is 0.3 ~ 1.2; The diameter of axle of polygon rotating shaft evenly becomes large along feed direction; The inwall of shaped device diminishes gradually along feed direction, forms the conical surface that cone angle is 3 ° ~ 9 °; The large belt wheel of the affixed conveyor screw of feed end of blending auger and conveyor screw small pulley;
Arrange vertical with the blending auger in forming body Compulsory feeder used in the feed hopper of described stirring drawing-in device; Compulsory feeder used top is connected with the lower end output shaft of gearbox; The two ends of gearbox are connected with power input belt wheel and Power output belt wheel with power output shaft respectively by power input shaft; Wherein, power input belt wheel is double-deck belt wheel;
Described squeezing water comprises top squeeze roll cylinder and water squeezing lower roller, and is connected with two rollers respectively and meshed gears; A water squeezing belt wheel is also installed in one end of a roller wherein;
The described cutter cut dropping control device and comprise blank cutterhead and be arranged on blank cutterhead; Blank cutterhead is connected with blank belt wheel by blank rotating shaft;
The output of motor is connected by the large belt wheel of belt and conveyor screw, and conveyor screw small pulley is connected with one deck of power input belt wheel by belt, and another layer of power input belt wheel is connected with water squeezing belt wheel by belt; Power output belt wheel is connected with blank belt wheel by belt.
The value of described θ is not less than 1080 °, and the value of a is not less than 90mm, and the value of b is 15-75mm/ °
Described stirring drawing-in device also comprises T-shaped plate and U-board; U-board is fixed in the upper surface of feed hopper, and Т shape plate is fixed in U-board upper surface, and gearbox is fixed in Т shape plate upper surface; Compulsory feeder used axis overlaps with feed hopper center line; Power input shaft and power output shaft form to rotate with the bearing block be fixed in Т shape gripper shoe respectively by bearing and connect.
Described squeezing water also comprises feed baffle and rhone; Feed baffle tilts upward and is fixed in squeezing water foremost, and rhone is tilted to down the below being fixed in feed baffle; Feed baffle is provided with draining aperture.
Described shaped device also comprises draining pedestal; Draining pedestal is fixed in the feeding end of shaped device, and the inner face of draining pedestal is provided with many vertical or horizontal strip rhones.
The end of described extrusion die is uniformly distributed 6 ~ 12 for extruded circular counter-sunk.
The cross section of described polygon rotating shaft is regular hexagon.
The helical blade external diameter of described blending auger and the housing distance of forming body are 2mm ~ 3mm.
Described cutter vertically downward time, cutter bottom and extrusion molding mould excircle tangent.
The orifice throat length of described circular counter-sunk is 150mm ~ 200mm.
Motor provides rotational power for stirring drawing-in device, squeezing water, shaped device and cutting dropping control device, the most of moisture of squeezing water extruded material, then material enters shaped device under the effect of stirring drawing-in device, blending auger subsequently in shaped device constantly extrudes and stirs extrusion molding, the molding materials finally extruded is cut off by the cutter cut in dropping control device and is fallen on stock guide and skids off, and completes whole production process;
Beneficial effect of the present invention is:
The present invention adopts agitating auger feeding, syllogic blending auger stirs the extrusion molding of banana stem normal temperature, simplifies the structure of forming machine and avoids the impact of high temperature on compression assemblies, improving the service life of machine.The banana stem solid fuel processed is conducive to the further comprehensive utilization promoting China's banana main producing region banana stem, promotes increasing income of banana planting family, more obvious to the benefit at large area banana planting family especially.
Accompanying drawing explanation
Fig. 1 is the three-dimensional structure diagram becoming spiral banana stem integrating solid forming machine;
Fig. 2 is the frame three-dimensional structure diagram becoming spiral banana stem integrating solid forming machine;
Fig. 3 is the shaped device three-dimensional structure diagram becoming spiral banana stem integrating solid forming machine;
Fig. 4 (a) and Fig. 4 (b) is respectively front view and the sectional view of the extrusion molding mould becoming spiral banana stem integrating solid forming machine;
Fig. 5 is the three-dimensional structure diagram of the stirring drawing-in device becoming spiral banana stem integrating solid forming machine;
Fig. 6 is the three-dimensional structure diagram of the squeezing water becoming spiral banana stem integrating solid forming machine;
Fig. 7 is the three-dimensional structure diagram cutting dropping control device becoming spiral banana stem integrating solid forming machine;
Fig. 8 is the front view of the draining pedestal becoming spiral banana stem integrating solid forming machine;
Number in the figure:
1-motor, 101-electrical machine belt pulley, 102-first belt, 103-second belt II, 104-the 3rd belt, 105-the 4th belt, 2-stirs drawing-in device, 201-feed hopper, 202-power input belt wheel, 203-power input shaft, 204-bearing block, 205-gearbox, 206-power output shaft, 207-Power output belt wheel, 208-Т shape plate, 209-is Compulsory feeder used, 210-U shape plate, 3-cuts dropping control device, 301-cutter, 302-blank cutterhead, cutoff device bearing block before 303-, the rotating shaft of 304-blank, cutoff device bearing block after 305-, 306-blank belt wheel, 4-stock guide, 5-frame, 501-lower floor is long beam longitudinally, 502-lower floor grows crosswise support, 503-upper strata is long beam longitudinally, 504-first pillar, 505-second pillar, 506-grows crosswise on upper strata support, trapezoidal joint pin before 507-, trapezoidal joint pin after 508-, the longitudinal short beam of 509-lower floor, the horizontal short support of 510-lower floor, 6-shaped device, 601-extrusion molding mould, 602-forward flange forming shell, 603-supporting seat, flange forming shell in 604-, 605-rear flange forming shell, 606-draining pedestal, the large belt wheel of 607-conveyor screw, 608-conveyor screw small pulley, the rotating shaft of 609-polygon, 610-circular counter-sunk, conveyor screw before 611-, conveyor screw in 612-, 613-rear screw body, 7-squeezing water, 701-water squeezing belt wheel, 702-top squeeze roll cylinder, 703-connecting plate, 704-cogs, 705-lower gear, 706-T shape retaining wall, 707-feed baffle, 708-rhone, 709-water squeezing lower roller.
Detailed description of the invention
The invention provides the spiral banana stem integrating solid forming machine of a kind of change, below in conjunction with the drawings and specific embodiments, the present invention is described further.
Become spiral banana stem integrating solid forming machine to comprise motor 1, stir drawing-in device 2, cut dropping control device 3, stock guide 4, frame 5, shaped device 6 and squeezing water 7.
As shown in Figure 1, shaped device 6 is fixed in frame 5, and its one end upper opening also installs stirring drawing-in device 2, and the other end is discharging opening and arranges stock guide 4; Arrange in the discharge outlet of shaped device 6 and cut dropping control device 3; Squeezing water 7 is arranged on the inlet side stirring drawing-in device 2.
The structure of frame 5 as shown in Figure 2.2 lower floors in left and right longitudinally long beams 501 and 2, front and back lower floor support 502 of growing crosswise form the rectangular frame of frame lower floor, affixed 2 first pillars 504 in upper end of the rectangular frame of frame lower floor and 2 the second pillars 505, 2 upper stratas, left and right longitudinally long beams 503 and upper strata, 2, front and back support 506 of growing crosswise form the rectangular frame in frame upper strata, the rectangular frame in frame upper strata is fixed in the upper end of the first pillar 504 and the second pillar 505, 2 the front trapezoidal column 507 in left and right respectively with the first pillar 504 in the middle part of rear end and upper strata longitudinal beam 503 front lower ends affixed, left and right 2 after trapezoidal joint pin 508 respectively with the second pillar 505 in the middle part of front end and lower end, upper strata longitudinal beam 503 rear portion affixed, the lower floor horizontal short support 510 parallel with 3 of the longitudinal short beam 509 of 2 lower floors forms " day " font motor support frame, on the right side of motor support frame with frame lower floor rectangle frame on the left of rear end affixed.
The structure of shaped device 6 as shown in Figure 3.Shaped device 6 is made up of extrusion molding mould 601, forward flange forming shell 602, supporting seat 603, middle flange forming shell 604, rear flange forming shell 605, draining pedestal 606, the large belt wheel of conveyor screw 607, conveyor screw small pulley 608, polygon rotating shaft 609, front conveyor screw 611, middle conveyor screw 612 and rear screw body 613.The front-end and back-end of middle flange forming shell 604 respectively by 6 ~ 10 bolts and the rear end of forward flange forming shell 602 and the front end of rear flange forming shell 605 affixed, supporting seat 603 is fixed in immediately below the middle part of forward flange forming shell 602; Extrusion molding mould 601 rear end face is affixed by the front end of 6 ~ 10 bolts and forward flange forming shell 602, extrusion molding mould 601 end is uniformly distributed 6 ~ 12 circular counter-sunk 610, rear flange forming shell 605 by 6 ~ 10 bolts and draining pedestal 606 front end affixed, the orifice throat length of the circular counter-sunk 610 of extrusion die 601 is 150mm ~ 200mm, longer forming hole can improve density and the surface quality of molding materials, as shown in Figure 4; Polygon rotating shaft 609 is placed in forward flange forming shell 602, flange forming shell 604 and rear flange forming shell 605, consist of to rotate with extrusion die 601, draining pedestal 606 bearing and connect, front conveyor screw 611, middle conveyor screw 612 and rear screw body 613 are gone here and there successively in polygon rotating shaft 609; The large belt wheel 607 of conveyor screw is fixed in the rear axial end of polygon rotating shaft 609, and conveyor screw small pulley 608 is fixed in the dead ahead of the large belt wheel 607 of conveyor screw of the rear axial end of polygon rotating shaft 609.
The helix of front conveyor screw 611, middle conveyor screw 612 and rear screw body 613, make according to the principle of standard polar equation ρ (the θ)=a+b (θ) of spiral of Archimedes that (θ is polar angle, a is the footpath, pole when θ=0 °, and b is spiral of Archimedes coefficient); Front conveyor screw 611, middle conveyor screw 612 become multiple to increase with the pitch of rear screw body 613 successively, and multiple span is 0.3 ~ 1.2 times, can provide gradient pressure for extrusion molding and water squeezing, thus improve the quality of shaped article; The diameter of axle of front conveyor screw 611, middle conveyor screw 612 and rear screw body 613 becomes large successively, and the material be conducive in shaping area is forward pushed; The cross section of polygon rotating shaft 609 is regular hexagon, can better for front conveyor screw 611, middle conveyor screw 612 and rear screw body 613 provide rotational power; The front end face of draining pedestal 606 is shaped with horizontal and vertical strip rhone, is conducive to discharging with squeezing the water out on a small quantity in shaping area, as shown in Figure 8; The internal diameter radial gap width of the outer blade diameter of front conveyor screw 611, middle conveyor screw 612 and rear screw body 613 and forward flange forming shell 602, middle flange forming shell 604 and rear flange forming shell 605 is 2mm ~ 3mm; The inner cylinder of the forming shell that forward flange forming shell 602, middle flange forming shell 604 and rear flange forming shell 605 are formed is the conical surface, the tapering span of the conical surface is 3 ° ~ 9 °, tapering not only can for the extruded lateral pressure that provides be to improve Forming Quality and water squeezing effect, also can make shaping in the moisture extruded flow to rear flange forming shell 605 by forward flange forming shell 602, and flow out shaping area through the rhone of draining pedestal 606 front end face.
Stir the structure of drawing-in device 2 as shown in Figure 5.Stir drawing-in device 2 to be made up of feed hopper 201, power input belt wheel 202, power input shaft 203, bearing block 204, gearbox 205, power output shaft 206, Power output belt wheel 207, Т shape plate 208, Compulsory feeder used 209 and U-board 210.Feed hopper 201 is fixed in directly in the middle part of the shaping casing 605 of rear flange, and U-board 210 is fixed in the upper surface of feed hopper 201, and Т shape plate 208 is fixed in U-board 210 upper surface, and gearbox 205 is fixed in Т shape plate 208 upper surface; Power input shaft 203 and power output shaft 206 connect with the front end power shaft of gearbox 205 and rear end output shaft respectively, and Compulsory feeder used 209 to connect with the lower end output shaft of gearbox 205 and Compulsory feeder used 209 axis overlap with feed hopper 201 center line.Power input shaft 203 and power output shaft 206 form to rotate with the bearing block 204 be fixed on Т shape plate 208 respectively by bearing and connect, before power input belt wheel 202 and power input shaft 203, axle head is affixed, and after Power output belt wheel 207 and power output shaft 206, axle head is affixed.
The structure of squeezing water 7 as shown in Figure 6.Squeezing water 7 by water squeezing belt wheel 701, top squeeze roll cylinder 702, connecting plate 703, cog 704, lower gear 705, T-shaped retaining wall 706, feed baffle 707, rhone 708 and water squeezing lower roller 709 form.Connecting plate 703 simultaneously with U-board 210 and T-shaped retaining wall 706 affixed, feed baffle 707 tilts upward and is fixed on the inwall of T-shaped retaining wall 706, rhone 708 is tilted to down and is fixed in T-shaped retaining wall 706 inwall lower end, top squeeze roll cylinder 702 and upper water squeezing lower roller 709 form to rotate with T-shaped retaining wall 706 respectively by respective axle head and connect, water squeezing belt wheel 701 is fixed in the left axle head of water squeezing lower roller 709, lower gear 705 is fixed in the right axle head of water squeezing lower roller 709, cog and 704 be fixed in the right axle head of top squeeze roll cylinder 702, cog and 704 to intermesh formation gear drive with lower gear 705.
Cut dropping control device 3 as shown in Figure 7.Cut dropping control device 3 to be made up of cutter 301, blank cutterhead 302, front cutoff device bearing block 303, blank rotating shaft 304, rear cutoff device bearing block 305, blank belt wheel 306 and stock guide 4.Blank rotating shaft 304 and the front cutoff device bearing block 303 be fixed on extrusion molding mould 601, and the rear cutoff device bearing block 305 be fixed on middle flange forming shell 604 forms rotation connection; Blank cutterhead 302 is fixed in axle head before blank rotating shaft 304, the orthohexagonal section of blank cutterhead 302 is radially uniform-distribution with 6 row's bolts hole, cutter 301 is fixed on blank cutterhead 302 front end face by bolt, blank belt wheel 306 is fixed in axle head after blank rotating shaft 304, and the support 506 of growing crosswise of stock guide 4 and frame upper strata is affixed.Cutter 301 vertically downward time, the excircle of cutter 301 bottom and extrusion molding mould 601 is tangent.
In described power set, motor 1, electrical machine belt pulley 101, first belt 102 and the large belt wheel 607 of conveyor screw form belt gear, second belt 103, conveyor screw small pulley 608, power input belt wheel 202, the 4th belt 105 and water squeezing belt wheel 701 form belt gear, 3rd belt 104, Power output belt wheel 207 and blank belt wheel 306 form belt gear, cog 704 with lower gear 705 form gear drive.
During operation, the Power output axis drive motor belt wheel 101 of motor 1 rotates counterclockwise, electrical machine belt pulley 101 rotates counterclockwise and drives the large belt wheel 607 of conveyor screw, conveyor screw small pulley 608 and polygon rotating shaft 609 rotate counterclockwise, conveyor screw small pulley 608 drives power input belt wheel 202 to rotate counterclockwise, power input belt wheel 202 drives water squeezing belt wheel 701 to rotate, the power of water squeezing belt wheel 701 passes to top squeeze roll cylinder 702 by gear drive, realize top squeeze roll cylinder 702 and water squeezing lower roller 709 to rolling, power input belt wheel 202 by gearbox 205 drive Compulsory feeder used 209 and Power output belt wheel 207 rotate clockwise, Power output belt wheel 207 drives blank belt wheel 306 and blank cutterhead 302 to rotate.
The most of moisture of squeezing water 7 extruded material, then material enters shaped device 6 by feed hopper 201 under the effect of Compulsory feeder used 209, subsequently in shaped device 6 rear screw body 613, middle conveyor screw 612 and front conveyor screw 611 continuous extruding and stir extrusion molding, the molding materials finally extruded is cut off by the cutter 302 cut in dropping control device 3 and is fallen on stock guide 4 and skids off, and completes whole production process.
The present invention is applicable to the biomass solid forming of the banana stem of banana main producing region.
The above; be only the present invention's preferably detailed description of the invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; the change that can expect easily or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.

Claims (10)

1. become a spiral banana stem integrating solid forming machine, comprise motor (1), stir drawing-in device (2), cut dropping control device (3), stock guide (4), frame (5), shaped device (6) and squeezing water (7); It is characterized in that,
Shaped device (6) is fixed in frame (5), and its one end upper opening also installs stirring drawing-in device (2), and the other end is discharging opening and arranges stock guide (4); Arrange in the discharge outlet of shaped device (6) and cut dropping control device (3); Squeezing water (7) is arranged on the inlet side stirring drawing-in device (2);
Described shaped device arranges blending auger in (6), and the port of export arranges extrusion molding mould (601); Described blending auger is variable-pitch auger body, is sleeved in polygon rotating shaft (609) forms by the Brachyspira that three sections of pitch is different; The helix of three sections of Brachyspiras is made according to standard polar equation ρ (θ)=a+b (θ) principle of spiral of Archimedes, wherein, θ is polar angle, a is the footpath, pole when θ=0 °, b is spiral of Archimedes coefficient, its pitch becomes multiple to increase along feed direction, and multiple span is 0.3 ~ 1.2; The diameter of axle of polygon rotating shaft (609) evenly becomes large along feed direction; The inwall of shaped device (6) diminishes gradually along feed direction, forms the conical surface that cone angle is 3 ° ~ 9 °; The large belt wheel of the affixed conveyor screw of feed end (607) of blending auger and conveyor screw small pulley (608);
Arrange Compulsory feeder used (209) vertical with the blending auger in forming body (6) in the feed hopper (201) of described stirring drawing-in device (2); The top of Compulsory feeder used (209) is connected with the lower end output shaft of gearbox (205); The two ends of gearbox (205) are connected with power input belt wheel (202) and Power output belt wheel (207) with power output shaft (206) respectively by power input shaft (203); Wherein, power input belt wheel (202) is double-deck belt wheel;
Described squeezing water (7) comprises top squeeze roll cylinder (702) and water squeezing lower roller (709), and is connected with two rollers respectively and meshed gears; A water squeezing belt wheel (701) is also installed in one end of a roller wherein;
Described dropping control device (3) of cutting comprises blank cutterhead (302) and is arranged on the cutter (301) on blank cutterhead (302); Blank cutterhead (302) is connected with blank belt wheel (306) by blank rotating shaft (304);
The output of motor (1) is connected by the large belt wheel of belt and conveyor screw (607), conveyor screw small pulley (608) is connected by belt one deck with power input belt wheel (202), and another layer of power input belt wheel (202) is connected with water squeezing belt wheel (701) by belt; Power output belt wheel (207) is connected with blank belt wheel (306) by belt.
2. one according to claim 1 becomes spiral banana stem integrating solid forming machine, and it is characterized in that, described stirring drawing-in device (2) also comprises T-shaped plate (208) and U-board (210); U-board (210) is fixed in the upper surface of feed hopper (201), Т shape plate (208) is fixed in U-board (210) upper surface, and gearbox (205) is fixed in Т shape plate (208) upper surface; Compulsory feeder used (209) axis overlaps with feed hopper (201) center line; Power input shaft (203) and power output shaft (206) form to rotate with the bearing block (204) be fixed in Т shape gripper shoe (208) respectively by bearing and connect.
3. one according to claim 1 becomes spiral banana stem integrating solid forming machine, and it is characterized in that, described squeezing water (7) also comprises feed baffle (707) and rhone (708); Feed baffle (707) tilts upward and is fixed in squeezing water (7) foremost, and rhone (708) is tilted to down the below being fixed in feed baffle (707); Feed baffle (707) is provided with draining aperture.
4. one according to claim 1 becomes spiral banana stem integrating solid forming machine, and it is characterized in that, described shaped device (6) also comprises draining pedestal (606); Draining pedestal (606) is fixed in the feeding end of shaped device (6), and the inner face of draining pedestal (606) is provided with many vertical or horizontal strip rhones.
5. one according to claim 1 becomes spiral banana stem integrating solid forming machine, and it is characterized in that, the end of described extrusion die (601) is uniformly distributed 6 ~ 12 for extruded circular counter-sunk (610).
6. one according to claim 1 becomes spiral banana stem integrating solid forming machine, and it is characterized in that, the cross section of described polygon rotating shaft (609) is regular hexagon.
7. one according to claim 1 becomes spiral banana stem integrating solid forming machine, it is characterized in that, the housing distance of the helical blade external diameter of described blending auger and forming body (6) is 2mm ~ 3mm.
8. one according to claim 1 becomes spiral banana stem integrating solid forming machine, it is characterized in that, described cutter (301) vertically downward time, cutter (301) bottom and extrusion molding mould (601) excircle tangent.
9. one according to claim 1 becomes spiral banana stem integrating solid forming machine, and it is characterized in that, the value of described θ is not less than 1080 °, and the value of a is not less than 90mm, and the value of b is 15-75mm/ °.
10. one according to claim 5 becomes spiral banana stem integrating solid forming machine, and it is characterized in that, the orifice throat length of described circular counter-sunk (610) is 150mm ~ 200mm.
CN201410726837.4A 2014-12-03 2014-12-03 Become spiral banana stalk integrating solid forming machine Expired - Fee Related CN104527122B (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105372159A (en) * 2015-12-10 2016-03-02 翁廷 Method for detecting metal powder feedstock fluidity based on Archimedes spiral mold
CN108811801A (en) * 2018-05-28 2018-11-16 海南大学 A kind of banana stalk is ground into type all-in-one machine
CN109275549A (en) * 2018-09-30 2019-01-29 内蒙古恩微科技有限公司 A kind of water lock fertilizer conservation seedling growth base preparation facilities

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CN103753840A (en) * 2014-01-17 2014-04-30 海南大学 Automatically adjusted press roll type banana stalk presser
CN203766079U (en) * 2014-03-04 2014-08-13 曹毅杰 Combined biomass fuel rod-making machine
CN203866271U (en) * 2014-06-01 2014-10-08 海南大学 Banana cauloid dehydration and crushing fuel forming all-in-one machine

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US3937139A (en) * 1973-09-05 1976-02-10 Mageba S.A. Compressing refuse
JPH1190547A (en) * 1997-09-18 1999-04-06 Asahi Seiki Mfg Co Ltd Method for drawing with transfer press and transfer press
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Publication number Priority date Publication date Assignee Title
CN105372159A (en) * 2015-12-10 2016-03-02 翁廷 Method for detecting metal powder feedstock fluidity based on Archimedes spiral mold
CN108811801A (en) * 2018-05-28 2018-11-16 海南大学 A kind of banana stalk is ground into type all-in-one machine
CN109275549A (en) * 2018-09-30 2019-01-29 内蒙古恩微科技有限公司 A kind of water lock fertilizer conservation seedling growth base preparation facilities
CN109275549B (en) * 2018-09-30 2021-08-13 内蒙古恩微科技有限公司 Water-locking fertilizer-preserving seedling growth base preparation device

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