CN116351307A - Intelligent production equipment for manufacturing low-carbon energy by compounding various wastes - Google Patents

Abstract

The invention discloses intelligent production equipment for manufacturing low-carbon energy by compounding various wastes, wherein a vertical stirring barrel is fixed at the upper part of a base, a top seat is fixed at the top end of the stirring barrel, a vertical supporting shaft is jointly fixed between the base and the top seat, a reciprocating screw rod is coaxially fixed at the bottom of the supporting shaft, an inner flower shaft is coaxially connected with the upper part of the supporting shaft in a rotating manner, a vertical speed regulating motor is fixed at the top end of the top seat, and a rotating shaft of the speed regulating motor is in transmission connection with the inner flower shaft through gear meshing. According to the invention, the rotation of the inner and outer flower shafts can be indirectly realized by controlling the rotation of the speed-regulating motor, the rotation of the outer flower shaft can cut and crush waste by using the outer hollow shaft and the crushing cutter, the rotation of the inner flower shaft can drive the inner sleeve to rotate, and the rotation of the inner sleeve can drive the push plate to move circumferentially by using the upper and lower support rods, so that the materials in the stirring barrel can be mixed and stirred.

Description

Intelligent production equipment for manufacturing low-carbon energy by compounding various wastes

Technical Field

The invention relates to the field of fuel production, in particular to intelligent production equipment for manufacturing low-carbon energy by compounding various wastes.

Background

The waste derived fuel is a fuel which is finally manufactured by processing the combustible part of the solid waste. In order to improve the combustion quality of the fuel, various wastes and other auxiliary fuels are crushed and mixed and then pressed to form the composite fuel. The existing production equipment is single in most functions, three functions of crushing, mixing and pressing cannot be realized by utilizing one power source, and a plurality of power sources are often required to be matched for production, so that the complexity of the matching is improved, inconvenience is brought to the working such as shutdown and maintenance, and meanwhile, the consumption of energy sources is improved, the early investment cost and the use cost are improved, and the defects of the equipment are highlighted.

Disclosure of Invention

The invention aims to provide intelligent production equipment for manufacturing low-carbon energy by compounding various wastes so as to solve the technical problems.

The invention adopts the following technical scheme for realizing the purposes:

the utility model provides an intelligent production facility of low carbon energy is made to multiple discarded object complex, includes base, agitator, footstock, back shaft, reciprocating lead screw, interior festive shaft, speed governing motor, driving gear, inner skleeve, go up bracing piece, lower bracing piece, push pedal, polished rod, sealed piston, supporting disk, transmission arm, slider, last unloading part, base upper portion is fixed with vertical agitator, the agitator top is fixed with the footstock, be fixed with vertical back shaft jointly between base and the footstock, the coaxial reciprocating lead screw that is fixed with in back shaft bottom, and upper portion coaxial rotation is connected with interior festive shaft, the footstock top is fixed with vertical speed governing motor, carry out transmission connection through gear engagement between speed governing motor's pivot and the interior festive shaft, interior festive shaft bottom coaxial fixed with driving gear, and coaxial sliding connection have the inner skleeve, a plurality of radial last bracing pieces are fixed with to inner skleeve circumference equiangle, go up bracing piece and lower bracing piece respectively, vertical sliding connection has a plurality of tops from top to bottom, seal arm and the same direction, seal arm and the same sliding connection have the slider to seal, seal the slider is fixed with the bottom mutually, seal the slider is connected with the bottom mutually, and the slider is fixed with the bottom.

On the basis of the technical scheme, the upper and lower material feeding parts comprise a crushing barrel, an input barrel, an output barrel, a discharge barrel, a forming barrel, a discharge hopper, a compression spring, an upper die, a lower die, a baffle, a swinging arm, a lifting arm, a tension spring, a supporting arm, a transmission gear, an external rack and a crushing part, wherein a plurality of vertical crushing barrels are fixed on the circumference of the bottom end of a footstock at equal angles, the upper part of each crushing barrel is respectively fixed with the input barrel, the bottom is respectively fixed with the output barrel, the input barrel and the output barrel are communicated with the inner cavity of the crushing barrel, a plurality of discharge barrels are fixed in the middle of the stirring barrel, the parts of the discharge barrels outside the stirring barrel are respectively fixed with the vertical forming barrel, the inner cavity of each forming barrel is communicated with the inner cavity of the discharge barrel, the bottom is respectively fixed with the discharge hopper, the top end of the inner wall of each forming barrel is fixed with the vertical compression spring, the bottom is respectively fixed with the vertical upper die, the lower die is respectively connected with the vertical lower die in an upper sliding manner, the top end of each lower die is respectively fixed with the vertical baffle, the bottom end is respectively fixed with the vertical swinging arm, the bottom end is respectively, the vertical swing arm is respectively fixed with the vertical support arm is respectively, the vertical swing arm is respectively, the upper end is connected with the vertical support arm is fixedly connected with the vertical support arm, the vertical support arm is respectively, the vertical support arm is fixedly connected with the lifting arm, the lifting arm is respectively, the lifting support arm is fixedly connected with the vertical support arm, the lifting arm and the vertical support arm is and the supporting arm is respectively.

On the basis of the technical scheme, the crushing part comprises an outer spline shaft, an outer hollow shaft, crushing cutters, outer sleeves, driven gears, supporting frames and inner racks, wherein a plurality of vertical outer spline shafts are connected with the top seat and the base in a rotating mode, the outer hollow shafts are coaxially fixed on the upper portions of the outer spline shafts respectively, the outer walls of the outer hollow shafts are fixedly provided with the plurality of radial crushing cutters respectively and are rotationally connected with the crushing barrel, the bottoms of the outer spline shafts are coaxially and slidably connected with the outer sleeves respectively and are coaxially fixed with the driven gears respectively, the driven gears are meshed with the driving gears, the outer walls of the supporting plates are rotationally connected with the supporting frames, the supporting frames are rotationally connected with the outer sleeves, a plurality of vertical inner racks are fixed on the circumference in equal angles, and the inner racks and the outer racks are in central symmetrical meshing with the transmission gears.

On the basis of the technical scheme, the push plate fixed on the upper support rod and the push plate fixed on the lower support rod are arranged in an inclined manner in the opposite direction compared with the inner sleeve, the part of the discharge cylinder in the stirring barrel is arranged in a downward inclined manner, the discharge hopper is arranged in an inclined manner in the downward direction, the baffle can be alternately inserted with the upper die, the speed regulating motor is externally connected with a power supply and a controller, the speed regulating motor can drive the inner sleeve and the driving gear to synchronously rotate through the gear when rotating, the inner sleeve and the driving gear can be driven to synchronously rotate when the driving gear rotates, the driving gear can drive the supporting disc and the sealing piston to synchronously rotate through the driven gear when rotating, the supporting disc can drive the sealing piston to move up and down along the stirring barrel through the transmission arm, the sliding block and the reciprocating screw rod when rotating, and the supporting disc can drive the sealing piston to move up and down along the stirring barrel through the transmission arm when moving up and down, and the bottom end of the discharge hopper can be contacted with the lower die when the supporting disc moves up and down through the supporting frame, the inner tooth bar, the transmission arm and the outer tooth bar and the lifting arm can move in the opposite direction when the driving arm moves up and down.

Compared with the prior art, the invention has the following advantages: the invention can indirectly realize the rotation of the inner and outer flower shafts by controlling the rotation of the speed-regulating motor, the rotation of the outer flower shaft can cut and crush the waste by using the outer hollow shaft and the crushing cutter, the rotation of the inner flower shaft can drive the inner sleeve to rotate, the rotation of the inner sleeve can drive the push plate to move circumferentially by using the upper and lower support rods, thus mixing and stirring the materials in the stirring barrel, the rotation of the inner flower shaft can indirectly drive the transmission arm to move circumferentially, and the transmission arm can move up and down by the reaction of the reciprocating sliding of the sliding block and the reciprocating screw rod when the transmission arm moves circumferentially, the sealing piston can intermittently push the mixed materials to be discharged from the discharge cylinder into the forming barrel when in up-down reciprocating movement, and then the mixed materials in the forming barrel are intermittently pressed and formed by the cooperation of the lower die and the upper die which reciprocate up-down and then discharged from the discharge hopper, namely, the crushing, mixing and pressing forming of wastes can be simultaneously realized by utilizing the rotation of one speed regulating motor, thereby realizing the production of composite fuel, reducing the consumption, the use cost and the input cost of energy sources, being simpler and more convenient, and being convenient for the control, shutdown, overhaul and other works.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic diagram of the cooperation of the driving gear and the polish rod according to the present invention.

Fig. 3 is a schematic diagram of the cooperation of the outer hub and the outer hollow shaft according to the present invention.

Fig. 4 is a schematic cross-sectional view of the forming drum and the discharge drum of the present invention.

Fig. 5 is a schematic diagram of the cooperation of the driving gear and the driven gear according to the present invention.

In the figure: 1. the device comprises a base, 2, a stirring barrel, 3, a top seat, 4, a supporting shaft, 5, a reciprocating screw rod, 6, an inner spline shaft, 7, a speed regulating motor, 8, a driving gear, 9, an inner sleeve, 10, an upper supporting rod, 11, a lower supporting rod, 12, a push plate, 13, a polished rod, 14, a sealing piston, 15, a disc, 16, a transmission arm, 17, a sliding block, 18, an upper discharging part, 19, a crushing barrel, 20, an input barrel, 21, an output barrel, 22, a discharging barrel, 23, a forming barrel, 24, a discharging bucket, 25, a compression spring, 26, an upper die, 27, a lower die, 28, a baffle plate, 29, a swinging arm, 30, a lifting arm, 31, a tension spring, 32, a supporting arm, 33, a transmission gear, 34, an outer rack, 35, a crushing part, 36, an outer spline shaft, 37, an outer hollow shaft, 38, a crushing cutter, 39, an outer sleeve, 40, a driven gear, 41, a supporting frame, 42 and an inner spline.

Description of the embodiments

The invention is described in further detail below with reference to the drawings and the specific examples.

As shown in figures 1-5, intelligent production equipment for manufacturing low-carbon energy sources by compounding various wastes comprises a base 1, a stirring barrel 2, a top seat 3, a supporting shaft 4, a reciprocating screw rod 5, an inner spline shaft 6, a speed regulating motor 7, a driving gear 8, an inner sleeve 9, an upper supporting rod 10, a lower supporting rod 11, a push plate 12, a polished rod 13, a sealing piston 14, a supporting disc 15, a transmission arm 16, a sliding block 17 and an upper blanking part 18, wherein the vertical stirring barrel 2 is fixed on the upper part of the base 1, the top end of the stirring barrel 2 is fixedly provided with the top seat 3, a vertical supporting shaft 4 is jointly fixed between the base 1 and the top seat 3, the bottom of the supporting shaft 4 is coaxially fixed with the reciprocating screw rod 5, the upper part is coaxially and rotatably connected with the inner spline shaft 6, the top end of the top seat 3 is fixedly provided with the vertical speed regulating motor 7, a rotating shaft of the speed regulating motor 7 is in transmission connection with the inner spline shaft 6 through gear engagement, the bottom of the inner spline shaft 6 is coaxially fixed with the driving gear 8, the inner sleeve 9 is coaxially and slidingly connected with the inner sleeve 9, a plurality of alternate upper circumferential supporting rods 10 are fixedly arranged at equal angles on the upper part of the inner sleeve 6, the inner spline shaft 6 is fixedly provided with the circumferential supporting rods 10, the bottom of the sealing piston 14 is fixedly connected with the inner spline shaft 16, the sealing piston 16 is fixedly arranged at the bottom end of the inner spline shaft 6 is fixedly connected with the inner spline shaft 6, the inner spline shaft 6 is rotatably is fixedly connected with the inner spline shaft 6, the inner spline shaft 6 is fixedly connected with the inner spline shaft 6 is rotatably, and the inner supporting rod is fixedly connected with the driving rod 8 through the driving rod through the transmission shaft 8, and the driving rod through the driving rod 8, the driving rod is at the driving rod, the upper base 3 and the stirring barrel 2 are jointly provided with an upper and lower material part 18.

The upper and lower material parts 18 comprise a crushing barrel 19, an input barrel 20, an output barrel 21, a discharge barrel 22, a forming barrel 23, a discharge hopper 24, a compression spring 25, an upper die 26, a lower die 27, a baffle 28, a swing arm 29, a lifting arm 30, a tension spring 31, a support arm 32, a transmission gear 33, an external gear 34 and a crushing part 35, wherein a plurality of vertical crushing barrels 19 are fixed on the circumference of the bottom end of the top seat 3 at equal angles, the upper part of each crushing barrel 19 is respectively fixed with the input barrel 20, the bottom part is respectively fixed with the output barrel 21, the input barrel 20 and the output barrel 21 are communicated with the inner cavity of the crushing barrel 19, a plurality of discharge barrels 22 are fixed in the middle part of the stirring barrel 2, the inner cavity of each forming barrel 23 is communicated with the inner cavity of the discharge barrel 22, the bottom end is respectively fixed with the discharge hopper 24, a vertical compression spring 25 is fixed at the top end of the inner wall of each forming barrel 23, a vertical upper die 26 is fixed at the bottom end of each compression spring 25, a vertical lower die 27 is connected to the bottom end of each compression spring in a sliding manner, a vertical baffle 28 is fixed at the top end of each lower die 27, a vertical swing arm 29 is fixed at the bottom end of each swing arm 29, a vertical lifting arm 30 is hinged to each swing arm 29, a vertical tension spring 31 is fixed at the bottom end of each tension spring 31, the bottom end of each tension spring 31 is fixed with the upper part of each lifting arm 30, the swing arm 29 always has a trend towards the vertical state by the elastic tension of the tension spring 31, the lower die 27 always has a trend towards the vertical state, the lower die 27 can be conveniently connected with the forming barrel 23 in a sliding manner after the lower die 27 is separated from the discharge hopper 24, then, the alternate carrying out of the compression molding processing and the discharging after the composite fuel molding is convenient, a plurality of vertical supporting arms 32 are fixed on the circumference of the base 1 at equal angles, the upper parts of the supporting arms 32 are respectively and rotatably connected with a transmission gear 33, the bottoms of the lifting arms 30 are respectively fixed with vertical external tooth bars 34 and are connected with the supporting arms 32 and the base 1 in a vertical sliding way, and the base 1 and the top seat 3 are also provided with a crushing part 35.

The crushing part 35 comprises an outer spline 36, an outer hollow shaft 37, crushing cutters 38, an outer sleeve 39, driven gears 40, a supporting frame 41 and an inner toothed bar 42, wherein a plurality of vertical outer spline 36 are connected with the top seat 3 and the base 1 in a rotating mode, the outer hollow shafts 37 are coaxially fixed on the outer spline 36 respectively, a plurality of radial crushing cutters 38 are fixedly arranged on the outer wall of each outer hollow shaft 37 respectively and are rotatably connected with the crushing barrel 19, the outer sleeves 39 are coaxially and slidably connected to the bottoms of the outer spline 36 respectively, the driven gears 40 are coaxially fixed respectively, the driven gears 40 are meshed with the driving gears 8, the supporting frame 41 is rotatably connected with the outer wall of the supporting disc 15, the supporting frame 41 is rotatably connected with the outer sleeves 39, a plurality of vertical inner racks 42 are fixed at equal angles on the circumference, and the inner racks 42 and the outer toothed bars 34 are symmetrically meshed with the transmission gears 33 in a central mode.

The push plate 12 fixed on the upper support rod 10 and the push plate 12 fixed on the lower support rod 11 are inclined in opposite directions compared with the inner sleeve 9, so that materials can flow in opposite directions when flowing through the push plate 12, and then materials can be mixed more fully, stirring mixing efficiency is improved, the part of the discharge barrel 22 in the stirring barrel 2 is inclined downwards, the downward inclined structure can ensure that the materials can not directly enter the discharge barrel 22 without stirring and mixing when entering the stirring barrel 2 from the output barrel 21, the sealing piston 14 can be conveniently discharged due to the blocking of the discharge barrel 22 when dragging the materials upwards, the discharge hopper 24 is inclined outwards and downwards, so that the lower die 27 can be inclined when contacting the discharge hopper 24 with the lower die 27, and the formed composite fuel can be conveniently discharged, each baffle 28 can be in spaced connection with the upper die 26, the speed regulating motor 7 is externally connected with a power supply and a controller, the speed regulating motor 7 can drive the inner spline shaft 6 to rotate through a gear when rotating, the inner spline shaft 6 can drive the inner sleeve 9 and the driving gear 8 to synchronously rotate when rotating, the driving gear 8 can drive the outer spline shaft 36 to synchronously rotate through the driven gear 40, the driving gear 8 can drive the supporting disc 15 and the sealing piston 14 to synchronously rotate through the polished rod 13 when rotating, the supporting disc 15 can enable the supporting disc 15 to move up and down through the transmission arm 16, the sliding block 17 and the reciprocating screw rod 5 when rotating, the supporting disc 15 can drive the sealing piston 14 to move up and down along the stirring barrel 2 through the polished rod 13 when moving up and down, and the supporting disc 15 can drive the sealing piston 14 to move up and down through the supporting frame 41, the inner spline 42 when moving up and down, the transmission gear 33 and the external gear 34 can enable the lifting arm 30 to move up and down in opposite directions, and when the lifting arm 30 moves down, the bottom end of the lower die 27 can be dragged to contact with the top end of the discharge hopper 24, so that the discharge hopper 24 tilts outwards.

The working principle of the invention is as follows: when in use, the speed-regulating motor 7 is controlled to rotate, different types of wastes or auxiliary fuels (hereinafter referred to as materials) are continuously input into each input cylinder 20, the speed-regulating motor 7 drives the inner spline shaft 6 to rotate through a gear, the inner spline shaft 6 can drive the inner sleeve 9 and the driving gear 8 to rotate when in rotation, the driving gear 8 can drive the outer spline shaft 36 to rotate through the driven gear 40, the materials in the crushing barrel 19 are cut and crushed through the outer hollow shaft 37 and the crushing cutter 38, the crushed materials can enter the stirring barrel 2 through the output cylinder 21, the rotating inner sleeve 9 drives the push plate 12 to move circumferentially through the upper support rod 10 and the lower support rod 11, so that the materials in the stirring barrel 2 can be stirred and mixed, the driving gear 8 can drive the support disc 15 and the sealing piston 14 to rotate synchronously through the polished rod 13 when in rotation, when the supporting disk 15 rotates, the supporting disk 15 can move up and down by the driving arm 16, the sliding block 17 and the reciprocating screw rod 5, the supporting disk 15 can drive the polish rod 13 and the sealing piston 14 to synchronously move up and down when rotating and moving up and down, the sealing piston 14 can drag the mixed materials to synchronously move up and down when moving up and down along with the sealing piston 14, the materials can be discharged from the discharge cylinder 22 into the forming cylinder 23 when moving up along with the sealing piston 14, at the moment, the supporting disk 15 drives the supporting frame 41 and the inner tooth bar 42 to move up, under the action of the driving gear 33 and the outer tooth bar 34, the lifting arm 30, the swinging arm 29 and the lower die 27 are far away from the upper die 26, the baffle 28 does not shield the discharge cylinder 22, so the materials can smoothly enter the forming cylinder 23, the material can stop being discharged from the discharge cylinder 22 when the sealing piston 14 moves downwards, the lifting arm 30, the swinging arm 29 and the lower die 27 are close to the upper die 26 by utilizing the supporting frame 41, the inner tooth bar 42, the transmission gear 33 and the outer tooth bar 34, the baffle 28 shields the discharge cylinder 22, the material can be prevented from flowing back into the stirring barrel 2 through the discharge cylinder 22, the upper die 26 and the lower die 27 are utilized to realize pressing forming of the mixed material, and when the lifting arm 30, the swinging arm 29 and the lower die 27 are far away from the upper die 26 again, the lower die 27 is enabled to incline downwards outwards by utilizing the contact of the discharge hopper 24 and the lower die 27, so that the composite fuel after the top end of the lower die 27 is formed can be discharged, and the reciprocating operation is realized, so that the crushing, mixing and forming of various wastes can be continuously realized.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art from this disclosure that changes, modifications, substitutions and alterations can be made without departing from the principles and spirit of the invention.

Claims (4)

1. The utility model provides an intelligent production equipment of low carbon energy is made in compound of multiple discarded object, includes base (1), agitator (2), footstock (3), back shaft (4), reciprocal lead screw (5), interior flower shaft (6), speed governing motor (7), driving gear (8), inner skleeve (9), go up bracing piece (10), lower bracing piece (11), push pedal (12), polished rod (13), sealed piston (14), supporting disk (15), drive arm (16), slider (17), go up unloading part (18), its characterized in that: the utility model discloses a grinding device, including base (1), inner spline (6), driving gear (8), inner spline (6), inner sleeve (9), a plurality of radial upper support rods (10) are fixed with in equal angle on the circumference of the upper portion of inner sleeve (9), a plurality of radial lower support rods (11) are fixed with reciprocating screw rod (5) on the bottom of support shaft (4), inner spline (6) are connected with coaxial rotation on the upper portion of base (1), vertical speed regulating motor (7) are fixed on the top of top sleeve (3), the rotating shaft of speed regulating motor (7) is connected with inner spline (6) in a transmission manner through gear engagement, driving gear (8) are fixed on the bottom of inner spline (6) coaxially, inner sleeve (9) are connected with inner sleeve (9) in a sliding manner, a plurality of radial upper support rods (10) are fixed with equal angle on the circumference of the upper portion of inner sleeve (9), a plurality of radial lower support rods (11) are fixed with equal angle on the circumference of the bottom, push plates (12) are respectively fixed with upper support rods (10) and lower support rods (11), a plurality of vertical polished rods (13) are connected with one another in a sliding manner, a plurality of top ends (13) are fixed with one another through gears, a piston (14) are fixed on the inner spline (14) and are connected with one another in a sealing disc (14) in a sliding manner, and the same sealing disc (14) is fixed on the inner sealing disc (14), the bottom of the supporting disc (15) is fixedly provided with a vertical transmission arm (16) which is in spaced connection with the supporting shaft (4), the bottom of the transmission arm (16) is rotationally connected with a sliding block (17), and the base (1), the top seat (3) and the stirring barrel (2) are jointly provided with an upper discharging part (18).

2. The intelligent production equipment for compositely manufacturing low-carbon energy by using multiple wastes according to claim 1, wherein the intelligent production equipment is characterized in that: the upper and lower material feeding part (18) comprises a crushing barrel (19), an input barrel (20), an output barrel (21), a discharge barrel (22), a forming barrel (23), a discharge hopper (24), a compression spring (25), an upper die (26), a lower die (27), a baffle (28), a swinging arm (29), a lifting arm (30), a tension spring (31), a supporting arm (32), a transmission gear (33), an external gear (34) and a crushing part (35), wherein a plurality of vertical crushing barrels (19) are fixed on the circumference of the bottom end of a top seat (3) at equal angles, the upper part of each crushing barrel (19) is respectively fixed with the input barrel (20), the bottom part of each crushing barrel is respectively fixed with the output barrel (21), the input barrel (20) and the output barrel (21) are communicated with the inner cavity of the crushing barrel (19), a plurality of discharge barrels (22) are fixed in the middle of a stirring barrel (2), the outer part of each discharge barrel (22) is respectively fixed with a vertical forming barrel (23), the inner cavity of each discharge barrel (22) is communicated with the inner cavity of the stirring barrel (2), the bottom end of each discharge barrel (24) is respectively fixed with the compression spring (25), the inner wall (25) is respectively fixed on the top end of each compression barrel (25), and sliding connection has vertical lower mould (27) about respectively, each lower mould (27) top is fixed with vertical baffle (28) respectively, and the bottom is fixed with vertical swing arm (29) respectively, and each swing arm (29) are articulated with vertical lift arm (30) respectively, and the bottom is fixed with vertical extension spring (31) respectively, each extension spring (31) bottom is fixed with each lift arm (30) upper portion mutually respectively, base (1) circumference equiangle is fixed with a plurality of vertical support arms (32), each support arm (32) upper portion is connected with drive gear (33) in the rotation respectively, and each lift arm (30) bottom is fixed with vertical outer rack (34) respectively, and sliding connection about with support arm (32) and base (1) mutually, smashing part (35) are still installed to base (1) and footstock (3).

3. The intelligent production equipment for compositely manufacturing low-carbon energy from multiple wastes according to claim 2, wherein the intelligent production equipment is characterized in that: the crushing part (35) comprises an outer spline (36), an outer hollow shaft (37), crushing cutters (38), outer sleeves (39), driven gears (40), supporting frames (41) and inner racks (42), wherein a plurality of vertical outer spline shafts (36) are connected with the top seat (3) and the base (1) in a rotating mode, the outer hollow shafts (37) are coaxially fixed on the outer spline shafts (36) respectively, a plurality of radial crushing cutters (38) are fixed on the outer walls of the outer hollow shafts (37) respectively, the outer spline shafts are connected with the crushing barrel (19) in a rotating mode, the outer sleeves (39) are coaxially and slidably connected to the bottoms of the outer spline shafts (36) respectively, the driven gears (40) are coaxially fixed on the outer sleeves respectively, the driven gears (40) are meshed with the driving gears (8), the supporting frames (41) are connected with the outer walls of the supporting plates (15) in a rotating mode, the outer racks (41) are connected with the outer sleeves (39) in a rotating mode, a plurality of vertical inner racks (42) are fixed on the circumference in equal angles, and the inner racks (42) and the outer racks (34) are symmetrically meshed with the transmission gears (33) in a central mode.

4. An intelligent production device for compositely producing low-carbon energy from multiple wastes according to claim 3, wherein: the push plate (12) fixed on the upper support rod (10) and the push plate (12) fixed on the lower support rod (11) are obliquely arranged in opposite directions compared with the inner sleeve (9), the part of the discharge cylinder (22) positioned in the stirring barrel (2) is obliquely arranged downwards, the discharge hopper (24) is obliquely arranged outwards and downwards, each baffle (28) can be alternately inserted with the upper die (26), the speed regulating motor (7) is externally connected with a power supply and a controller, the speed regulating motor (7) can drive the inner spline (6) to rotate through a gear, the inner spline (6) can drive the inner sleeve (9) and the driving gear (8) to synchronously rotate when rotating, the driving gear (8) can drive the outer spline (36) to rotate through the driven gear (40), the driving gear (8) can drive the supporting disc (15) and the sealing piston (14) to synchronously rotate through the polished rod (13) when rotating, the supporting disc (15) can drive the upper movable arm (17) and the lower movable rod (14) to move along the upper and lower movable rod (5) when the sliding block (15) rotates, when the supporting disc (15) moves up and down, the lifting arm (30) can move up and down in opposite directions through the supporting frame (41), the inner gear (42), the transmission gear (33) and the outer gear (34), and when the lifting arm (30) moves down, the bottom end of the lower die (27) can be dragged to be contacted with the top end of the discharge hopper (24) so that the discharge hopper (24) is inclined outwards.

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