CN106190407A - For manufacturing the intelligent hydraulic extrusion press of environment friendly biological fuel - Google Patents

Abstract

For manufacturing the intelligent hydraulic extrusion press of environment friendly biological fuel, control device, feeding mechanism and pressing mechanism including extruding frame, PLC；Described pressing mechanism includes that the extruded tube communicated with described feeding mechanism, matched in clearance are plugged on the extrusion piston in described extruded tube, the pressure ram being fixed on described extrusion piston one end and for the extrusion oil cylinder driving described extrusion piston to move back and forth in described extruded tube, and described extruded tube includes straight length and tapered squeezing section.Its squeezing effect of the present invention is good, and work efficiency is high.

Description

For manufacturing the intelligent hydraulic extrusion press of environment friendly biological fuel

Technical field

The present invention relates to machine-building device technique field, use the raw materials such as wood flour, bamboo bits, straw particularly to one, Manufacture the intelligent extruder of environment-protection boiler bio-fuel.

Background technology

In the today in energy-conserving and environment-protective deeply each corner of society, the discharge how controlling pollutant is always whole society's concern Problem, and the existing boiler used in the factory, the most all uses coal as fuel, it produces in a large number in the tail gas of burning Pollutant including sulfide, to this end, the most a lot of factory all uses biomass fuel boiler, Application No. instead 201210436902.0, the Chinese invention patent of filing date 2012-11-05 discloses a kind of biomass boiler, the end of including Dish, a upper boiler, two lower boilers and a controller, two described lower boiler head and the tail arrangements are also connected by pipeline. The Novel structure of the present invention, causes furnace wall accumulation of heat less, so, when mounted, can avoid building thick furnace wall, meanwhile, Saving maybe can be less with arranging without refractory material.Reduce cost, reduce installation cost, reduce installation complexity.

The biomass fuel that biological boiler operation just has, is to utilize reproducible bio-fuel as fuel, biology Fuel is considered to be worth doing by wood flour and/or bamboo and/or straw etc. is made, and turns waste into wealth and environmental pollution is little, manufacturing when, by upper After stating composition mixing, putting into and carry out extruded in extruder, existing extrusion equipment squeezing effect is the best, and efficiency is inadequate High.

Summary of the invention

In place of the invention aims to overcome the deficiencies in the prior art, it is provided that one is used for manufacturing environment friendly biological fuel Intelligent hydraulic extrusion press, its squeezing effect is good, and work efficiency is high.

The above-mentioned technical purpose of the present invention has the technical scheme that for manufacturing environment friendly biological fuel Intelligent hydraulic extrusion press, control device, feeding mechanism and pressing mechanism including extruding frame, PLC；Described pressing mechanism It is plugged on the extrusion piston in described extruded tube including the extruded tube communicated with described feeding mechanism, matched in clearance, is fixed on institute State the pressure ram of extrusion piston one end and for the extruding oil driving described extrusion piston to move back and forth in described extruded tube Cylinder, described extruded tube includes straight length and tapered squeezing section.

As the preferred technical solution of the present invention, uniform multiple aperture slots in described tapered squeezing section, open for adjacent two Mouth is pressing rib between gap, is provided with secure component outside described tapered squeezing section.

As the preferred technical solution of the present invention, described secure component includes rigidity outer shroud, the internal elasticity being full of fluid Intermediate layer and the multiple extruding copper billets being located on described resilient middle layer, described extruding copper billet position and described pressing rib phase Should, each described extruding copper billet is made up of multiple points of extruding copper billets.

As the preferred technical solution of the present invention, described pressure ram is laid with four and extends extruding soon, also include using In the rotating mechanism driving described extrusion piston to rotate.

As the preferred technical solution of the present invention, described rotating mechanism includes the short straight-tooth being located on described extrusion piston The long spur gear that wheel and described short spur gear engage, the servomotor driving described long spur gear to rotate and rotation-preventing mechanism.

As the preferred technical solution of the present invention, described rotation-preventing mechanism includes that what expansion plate and described expansion plate connected stretches Contracting cylinder, the elastic ball being located on described expansion plate end and be located on described expansion plate end two and be positioned at described elastic ball The long spur gear surface laminating block of both sides.

As the preferred technical solution of the present invention, described extrusion piston end is provided with connecting hole and described connecting hole communicates Connect chamber and and described connecting hole and connect the lateral openings that communicates of chamber, the piston rod of described extrusion oil cylinder is fixed with It is positioned at the connection ring in described connection chamber, described connection ring and described connection chamber between the side of described connecting hole, forms punching Hit chamber.

As the preferred technical solution of the present invention, described feeding mechanism includes the charging material with charging aperture and discharging opening Bucket, installing rack, the first reducing motor and described first reducing motor output shaft are fixed the cam of connection, are located at described installing rack On rotary driving part and be arranged on described installing rack and moved up and down by described actuated by cams and driven by described rotation The logical material portion that dynamic portion is rotated.

Logical material portion is used feed hopper to carry out logical material, by the first reducing motor band moving cam, it is achieved to lead to the upper of material portion The logical material of lower movement, drives logical material portion to carry out rotary material by rotary driving part.

As the preferred technical solution of the present invention, described logical material portion includes the rotary shaft being located on described installing rack, is located at Splined shaft that axial cavity in described rotary shaft, the splined hole being located in described axial cavity and described splined hole coordinate, it is fixed on Described spend on strong axle lower material-passing rod, be fixed on described spend on strong axle upper ejector pin, be located at described axial cavity bottom surface and described flower Elastic reset part between key axle and be fixed on the driven pulley in described rotary shaft.

As the preferred technical solution of the present invention, described rotary driving part includes the second reducing motor and for driving State the drivewheel that driven pulley rotates.

As the preferred technical solution of the present invention, described elastic reset part is spring.

As the preferred technical solution of the present invention, described driven pulley and described drivewheel are all gears.

As the preferred technical solution of the present invention, described lower material-passing rod lower end is provided with multiple lower hang plate and is positioned at described Multiple upper hang plate above lower hang plate.

As the preferred technical solution of the present invention, described lower hang plate be lower end and described lower material-passing rod connect and upwards with Time outward extending hang plate, and described lower hang plate becomes 8-10 ° of angle with described lower material-passing rod；Described upper hang plate is upper end Connect with described lower material-passing rod and the most outward extending downward hang plate, and described upper hang plate becomes 8-with described lower material-passing rod 10 ° of angles.

As the preferred technical solution of the present invention, described lower hang plate and described lower material-passing rod are hinged, described upper hang plate Hinged with described lower material-passing rod, and it is provided with support spring between described lower hang plate upper end and described lower material-passing rod；Described updip It is provided with extension spring between swash plate lower end and described lower material-passing rod.

As the preferred technical solution of the present invention, described lower material-passing rod bottom surface is provided with rolling steel balls.

As the preferred technical solution of the present invention, described lower material-passing rod is provided with annulus, and described annulus lower surface is provided with circle Cone, has eccentric throw between described annulus and described lower material-passing rod.

As the preferred technical solution of the present invention, described lower material-passing rod is provided with annulus, and described annulus passes through oscillating bearing Connect with described lower material-passing rod.

As the preferred technical solution of the present invention, described lower hang plate upper end is downwards and bending plate is gone up in the formation that curves inwardly, Described lower material-passing rod lower end is fixed with stirring pipe, and described stirring pipe lower end is provided with cone-shaped inner hole, is provided with and props up in described cone-shaped inner hole Hold round platform, described support round platform is fixed with the connecting rod being plugged in described stirring pipe, described connecting rod is set with reset bullet Spring, the uniform multiple open slots in described stirring pipe lower end, formed between adjacent two open slots and expand gusset.

As preferably, described straight length is provided with striking mechanism.

As preferably, described striking mechanism include rotating bent axle, the bent axle servomotor driving described rotation bent axle to rotate, The movable rod hinged with described bent axle, the sliding plunger being hinged on described movable rod lower end, for installing described slip The guide cylinder of piston, the collar being located on described straight length, the percussion piston being located on the described collar and for striking described Hit the back-moving spring that piston carries out resetting.

As preferably, the described collar is sleeved on described straight length, and the described collar is provided with driven gear and described rotation The driving gear of gear engagement and drive the rotation servomotor that described driving gear rotates, is located on the described rotation collar Tapping piston is six, and the diameter tapping piston becomes larger clockwise.

In sum, the method have the advantages that

Squeezing effect is good, and work efficiency is high, uses PLC to control device and is controlled, and automaticity is high, and, in charging Time, by the flexible of logical material portion and rotation, the mixture of the wood flour in feed hopper, bamboo bits, straw etc. is loosened, keeps away Exempt from the blocking of feed hopper, it is ensured that the normal work of extruder.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention 1；

Fig. 2 is secure component structure chart in the present invention；

Fig. 3 is long spur gear and short spur gear mesh schematic representation in the present invention；

Fig. 4 is the structural representation of the embodiment of the present invention 2, is shown that feeding mechanism structure chart in figure；

Fig. 5 is the perspective view in logical material portion in Fig. 4；

Fig. 6 is the structural representation of the embodiment of the present invention 3；

Fig. 7 is the structural representation of the embodiment of the present invention 4；

Fig. 8 is the structural representation of the embodiment of the present invention 5；

Fig. 9 is driving gear and driven gear engagement figure in Fig. 8.

Detailed description of the invention

Below in conjunction with accompanying drawing, the invention will be further described.

Embodiment 1: as shown in Figure 1, 2, 3, for manufacturing the intelligent hydraulic extrusion press of environment friendly biological fuel, including extruding Frame 3, PLC control device, feeding mechanism 1 and pressing mechanism 2；Described pressing mechanism 2 includes communicating with described feeding mechanism 1 Extruded tube 201, matched in clearance is plugged on the extrusion piston 202 in described extruded tube 201, is fixed on described extrusion piston 202 The pressure ram 203 of one end and for the extrusion oil cylinder driving described extrusion piston 202 to move back and forth in described extruded tube 201 204, described extruded tube 201 includes straight length 201a and tapered squeezing section 201b；PLC controls device and extrusion piston sensing in situ Device, extrusion piston end point sensor connect, when extrusion piston is extruding when, the when of reaching home, and extrusion piston End point sensor sends signal, and PLC controls device and makes extrusion oil cylinder stopping action, and returns, when extrusion piston arrives in situ When, extrusion piston home position sensing valve signal controls device to PLC so that extrusion oil cylinder stopping action；Extrusion oil cylinder is solid Being scheduled in extruding frame, extruded tube and feeding mechanism communicate, and are extruded in the pressing material entrance extruded tube that feeding mechanism is come in, Line through straight length subsequently into tapered squeezing section.

Uniform multiple aperture slots 201c in described tapered squeezing section 201b, are crowded between adjacent two aperture slots 201c Swaged plate 201d, is provided with secure component 205 outside described tapered squeezing section 201b, and aperture slots is 3-8, and width is 1-2mm

Described secure component 205 includes rigidity outer shroud 205a, the internal resilient middle layer 205b being full of fluid and is located at described Multiple extruding copper billet 205c on resilient middle layer 205b, described extruding copper billet 205c position and described pressing rib 201d phase Should, each described extruding copper billet 205c is made up of multiple points of extruding copper billets；Resilient middle layer uses the structure of hydraulic pressure consistent lubricant pipe, The internal hydraulic oil that is full of, extruding copper billet contacts with pressing rib, extrudes pressing rib.

It is laid with four on described pressure ram 203 and extends extruding fast 206, also include for driving described extrusion piston 202 rotating mechanisms 4 rotated；Adjacent two extend fast 206 angles in 90 ° of extruding；In order to improve squeezing effect, described whirler Structure 4 include being located at the short spur gear 401 on described extrusion piston 202 and the long spur gear 402 of described short spur gear 401 engagement, Drive servomotor 403 and rotation-preventing mechanism 404 that described long spur gear 402 rotates；Servomotor drives described extrusion piston The angle every time rotated, less than 90 °, wherein, is preferably 30 ° or 45 °, the 3-5 of a length of short spur gear length of long spur gear Times.

Described rotation-preventing mechanism 404 includes the telescopic cylinder 404b of expansion plate 404a and described expansion plate 404a connection, is located at Elastic ball 404c on described expansion plate 404a end and be located on described expansion plate 404a end two and be positioned at described elasticity The long spur gear surface laminating block 404d of ball 404c both sides；Described extrusion piston 202 end is provided with connecting hole 5 and described connection What hole 5 communicated connects chamber 6 and the lateral openings communicated with described connecting hole and connection chamber, the work of described extrusion oil cylinder 204 The connection ring 7 being positioned in described connection chamber, the formation of lateral openings it is fixed with, it is simple to connect ring and enter connection chamber, institute on stopper rod State connection ring 7 and described connection chamber 6 forms impact chamber 8 between the side of described connecting hole, say, that near connecting hole Bottom surface, connection chamber and connect between ring, have gap, this gap is the formation of impacting chamber, the structure in impact chamber, it is possible to Extrusion piston is return smoothly.

Embodiment 2, is shown in accompanying drawing 4,5, and embodiment 1 difference is, in the present embodiment, described feeding mechanism includes tool There are the feed hopper 101 of charging aperture and discharging opening, installing rack the 102, first reducing motor 103 and described first reducing motor 103 Output shaft is fixed the cam 104 of connection, the rotary driving part 106 being located on described installing rack 102 and is arranged on described installation Driven the logical material portion 105 moving up and down and being rotated by described rotary driving part 106 by described cam 104 on frame 102； Described logical material portion 105 include the rotary shaft 10501 being located on described installing rack 102, be located in described rotary shaft 10501 axial The splined shaft that chamber 10502, the splined hole 10503 being located in described axial cavity 10502 and described splined hole 10504 coordinate 10505, be fixed on described spend on strong axle 10505 lower material-passing rod 10506, be fixed on the described upper ejector pin spent on strong axle 10505 10507, it is located at the elastic reset part 10508 between described axial cavity 10502 bottom surface and described splined shaft 10505 and is fixed on Driven pulley 10509 in described rotary shaft 10501；Work when, the first reducing motor 103 rotates, and then band moving cam 104 rotate, cam 105 impact upper ejector pin 10507 so that splined shaft does vertically movable in splined hole, under utilization Material-passing rod carries out logical material, and meanwhile, rotary driving part is rotated axle and rotates, because splined shaft and the connected mode of splined hole, rotation Rotating shaft can drive lower material-passing rod to rotate, and so, lower material-passing rod is carrying out logical material when, it becomes possible to vertically movable with And the mode rotated carries out logical material simultaneously, logical material is effective, described rotary driving part 106 include the second reducing motor and for Drive the drivewheel that described driven pulley 10509 rotates；Described elastic reset part 10508 is spring；Described driven pulley and described master Driving wheel is all gear, engages each other.

Described lower material-passing rod 10506 lower end is provided with multiple lower hang plate 108 and is positioned at above described lower hang plate 108 Multiple upper hang plates 107；Described lower hang plate 108 is for lower end and described lower material-passing rod 10506 connects and upwards simultaneously to extension The hang plate stretched, and described lower hang plate 108 becomes 8-10 ° of angle with described lower material-passing rod 10506, generally 9 °；Described updip Swash plate 107 is for upper end and described lower material-passing rod 10506 connects and the most outward extending downward hang plate, and described upper hang plate 107 become 8-10 ° of angle with described lower material-passing rod 10506, generally 9 °.

Described lower hang plate 108 and described lower material-passing rod 10506 are hinged, described upper hang plate 107 and described lower material-passing rod 10506 is hinged, and is provided with support spring between described lower hang plate 108 upper end and described lower material-passing rod 10506, supports spring and is Lower hang plate stretch out extension；It is equipped with extension spring between described upper hang plate 107 lower end and described lower material-passing rod 10506, Extension spring makes hang plate inwardly shrink.

Described lower material-passing rod 10506 bottom surface is provided with rolling steel balls 111.

Described lower material-passing rod 10506 is provided with annulus 112, and annulus is arranged on lower material-passing rod by oscillating bearing；Described Annulus 112 lower surface is provided with cone 113, has eccentric throw between described annulus 112 and described lower material-passing rod 10506.

Embodiment 3, is shown in accompanying drawing 6, and in the present embodiment, and the different place of embodiment 1 is, described lower material-passing rod 10506 lower ends are not provided with rolling steel balls 111, and are provided with stirring pipe 115, and described stirring pipe 115 lower end is provided with in taper Hole, is provided with support round platform 116 in described cone-shaped inner hole, support round platform and can move in bellmouth, on described support round platform 116 Be fixed with the connecting rod 117 being plugged in described stirring pipe 115, in described connecting rod 117 be set with back-moving spring 118, described in stir Mix the uniform multiple open slots 119 in pipe 115 lower end, formed between adjacent two open slots and expand gusset 120, open slot width 1- 2mm；Further, described lower hang plate 108 upper end is downwards and bending plate (not shown) is gone up in the formation that curves inwardly.

Embodiment 4, is shown in accompanying drawing 7, and in the present embodiment, and the different place of embodiment 1 is, in order to improve logical material effect Really；Being provided with impact bar 109 between described lower material-passing rod 10506 and stirring pipe 115, lower material-passing rod 10506 is plugged on impact bar 109 In, impact bar is provided with and lower material-passing rod 10506 coordinates spliced eye and diameter are more than the spacing hole of described spliced eye, impact bar Lower end is stretched in spacing hole and is fixed with stop nut or limited block, is provided with multiple axial groove at lower material-passing rod 10506 outer circumference surface 110, described impact bar is fixed with the spacer pin 114 stretched in circumferential groove, between spacer pin and axial groove, has impact space a.

Embodiment 5, is shown in accompanying drawing 8,9；Described straight length 201a is provided with striking mechanism 9, and described striking mechanism 9 includes rotating Bent axle 901, drive bent axle servomotor 902 that described rotation bent axle 901 rotates and the hinged movable rod 903 of described bent axle, Be hinged on the sliding plunger 904 on described movable rod 903 lower end, for install described sliding plunger 904 guide cylinder 905, It is located at the collar 906 on described straight length 201a, the percussion piston 907 being located on the described collar 906 and for striking to described Hit the back-moving spring 908 that piston 907 carries out resetting, rotate crankshaft installed on crankshaft base, by bent axle servomotor 902 drive into Row rotate, and then drive sliding plunger carry out in guide cylinder slide lifting, it is achieved to tap piston percussion, and then realize right The percussion of straight length；Further, the described collar 906 is sleeved on described straight length 201a, and the described collar 906 is provided with driven Gear 909 and the driving gear 910 of described swing pinion 909 engagement and the rotation that drives described driving gear 910 to rotate are watched Taking motor, the percussion piston 907 being located on the described rotation collar 906 is six, and taps the diameter of piston 907 along clockwise Direction becomes larger, general, becomes larger with the multiple of 1.1；Rotating servomotor drives driving gear to rotate, and then drives Driven gear so that the collar rotates on straight length, it is achieved straight length is tapped by the most different percussion pistons.

Claims (10)

1. for manufacturing the intelligent hydraulic extrusion press of environment friendly biological fuel, including extruding frame (3), feeding mechanism (1), PLC Control device and pressing mechanism (2)；It is characterized in that: described pressing mechanism (2) includes communicating with described feeding mechanism (1) Extruded tube (201), matched in clearance be plugged in described extruded tube (201) extrusion piston (202), be fixed on described extruding live Fill in the pressure ram (203) of (202) one end and be used for driving described extrusion piston (202) reciprocal in described extruded tube (201) The extrusion oil cylinder (204) of movement, described extruded tube (201) includes straight length (201a) and tapered squeezing section (201b).

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 1, it is characterised in that: institute State the upper uniform multiple aperture slots (201c) of tapered squeezing section (201b), for extruding muscle between adjacent two aperture slots (201c) Plate (201d), described tapered squeezing section (201b) is outside is provided with secure component (205).

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 2, it is characterised in that: institute State secure component (205) include rigidity outer shroud (205a), the internal resilient middle layer (205b) being full of fluid and be located at described Multiple extruding copper billets (205c) on resilient middle layer (205b), described extruding copper billet (205c) position and described pressing rib (201d) corresponding, each described extruding copper billet (205c) is made up of multiple points of extruding copper billets.

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 1, it is characterised in that: institute State and be laid with four extension extruding on pressure ram (203) soon (206), also include for driving described extrusion piston (202) to revolve The rotating mechanism (4) turned.

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 4, it is characterised in that: institute State rotating mechanism (4) and include that the short spur gear (401) being located on described extrusion piston (202) and described short spur gear (401) are nibbled The long spur gear (402) closed, the servomotor (403) driving described long spur gear (402) to rotate and rotation-preventing mechanism (404).

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 5, it is characterised in that: institute State telescopic cylinder (404b) that rotation-preventing mechanism (404) includes that expansion plate (404a) and described expansion plate (404a) connect, be located at institute State the elastic ball (404c) on expansion plate (404a) end and be located on described expansion plate (404a) end two and be positioned at described Long spur gear surface laminating block (404d) of elastic ball (404c) both sides.

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 5, it is characterised in that: institute State extrusion piston (202) end is provided with connecting hole (5) and described connecting hole (5) communicates connection chamber (6) and and described connection The lateral openings that hole and connection chamber communicate, the piston rod of described extrusion oil cylinder (204) is fixed with and is positioned in described connection chamber Connection ring (7), described connection ring (7) and described connection chamber (6) form impact chamber between the side of described connecting hole (8).

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 5, it is characterised in that: institute State straight length (201a) and be provided with striking mechanism (9).

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 8, it is characterised in that: institute State striking mechanism (9) include rotate bent axle (901), drive described rotation bent axle (901) to rotate bent axle servomotor (902), The movable rod (903) hinged with described bent axle, the sliding plunger (904) being hinged on described movable rod (903) lower end, use In installing guide cylinder (905), the collar (906) being located on described straight length (201a) of described sliding plunger (904), being located at institute State the percussion piston (907) on the collar (906) and for the back-moving spring that described percussion piston (907) is resetted (908).

Intelligent hydraulic extrusion press for manufacturing environment friendly biological fuel the most according to claim 9, it is characterised in that: The described collar (906) is sleeved on described straight length (201a), and the described collar (906) is provided with driven gear (909) and described Driving gear (910) that swing pinion (909) engages and drive the rotation servomotor that described driving gear (910) rotates, The percussion piston (907) being located on the described rotation collar (906) is six, and taps the diameter of piston (907) along clockwise Direction becomes larger.