CN109294684B - Environment-friendly biomass fuel preprocessing processingequipment - Google Patents

Abstract

The invention relates to the technical field of production of environment-friendly biomass particles, in particular to an environment-friendly biomass fuel pretreatment processing device. The fuel processing box and the material collecting box are fixedly connected to the base, the inclined plate is fixedly connected between the fuel processing box and the material collecting box, the material pushing plate is connected to the fuel processing box in a sliding mode and is connected with the fuel processing box in a transmission mode, the two ends of the driving wheel are connected with the material pushing plate and the base in a transmission mode respectively, the driving wheel is fixedly connected to the base, the linkage plate is connected to the material collecting box in a sliding mode, and the linkage plate is in clearance fit with the middle end of the driving wheel. The biomass fuel feeding device can perform intermittent feeding, prevent the machine from overloading and jamming, equally distribute the biomass fuel, and simultaneously process the output biomass fuel into sections, so that the subsequent processing or split charging is facilitated, the working efficiency is improved, the labor intensity of operators is reduced, the production cost is reduced, and the service life of the machine is prolonged.

Description

Environment-friendly biomass fuel preprocessing processingequipment

Technical Field

The invention relates to the technical field of production of environment-friendly biomass particles, in particular to an environment-friendly biomass fuel pretreatment processing device.

Background

The invention discloses biomass fuel manufacturing equipment with the prior patent number of CN201710689934.4, which comprises a device main body, wherein the upper end of the device main body is provided with a feed inlet, the feed inlet is embedded in the device main body, an observation port is arranged above the front end of the device main body, the lower end of the observation port is provided with a speed reducer, the speed reducer is embedded in the device main body, the right side of the device main body is provided with a feed inlet and a discharge outlet, the fire condition is observed by poking an original button opening on the observation port with naked eyes in a long distance, the defects of scorching and immature lack fire raw materials of the over-fire raw materials are avoided, the conditioner is connected with the feed inlet, the conditioning among the equipment can be conveniently carried out on different raw materials through a conditioning device, and the usability of the equipment is effectively improved, meanwhile, the granulating chamber is used for conveying the raw materials into the chamber to be made into granules, so that the reliability of the granulating chamber is effectively improved. But the invention has the defect that the biomass fuel cannot be automatically distributed according to equal weight.

Disclosure of Invention

The invention aims to provide an environment-friendly biomass fuel pretreatment processing device which has the advantages that intermittent feeding can be carried out, the phenomenon that a machine is overloaded and jammed is prevented, biomass fuel is equally distributed, and the output biomass fuel is processed into sections, so that subsequent processing or split charging is facilitated, the working efficiency is improved, the labor intensity of operators is reduced, the production cost is reduced, and the service life of the machine is prolonged.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an environment-friendly biomass fuel preliminary treatment processingequipment, includes base, drive wheel, fuel processing case, scraping wings, swash plate, the case and linkage plate that gather materials, fuel processing case and the equal fixed connection of case that gathers materials on the base, swash plate fixed connection is between fuel processing case and the case that gathers materials, scraping wings sliding connection is on fuel processing case, the scraping wings is connected with fuel processing case transmission, the both ends of drive wheel are connected with scraping wings and base transmission respectively, drive wheel fixed connection is on the base, linkage plate sliding connection is in the case that gathers materials, the middle-end clearance fit of linkage plate and drive wheel.

The base comprises a bottom plate, a supporting plate, a motor and a power transmission wheel I; two backup pads are all fixed connection at the right-hand member of bottom plate, and the motor passes through motor frame fixed connection on the bottom plate, and power drive wheel I fixed connection is on the output shaft of motor, and power drive wheel I is connected with the drive wheel transmission.

The driving wheel comprises a power driving wheel II, a telescopic shaft, a grooved wheel, a compression spring I, a shaft sleeve, a driving bevel gear and a telescopic shaft frame; power drive wheel II is connected with I transmission of power drive wheel, power drive wheel II and sheave difference fixed connection are at the lower extreme and the middle-end of telescopic shaft, sheave and gangplate clearance fit, axle sleeve sliding connection is in the upper end of telescopic shaft, the upper end of telescopic shaft is provided with the bead groove, fixedly connected with sand grip on the axle sleeve, sand grip clearance fit is at the sand grip inslot, fixedly connected with compression spring I between axle sleeve and the telescopic shaft, compression spring I is located the telescopic shaft, the axle sleeve rotates through the tape seat bearing and connects on the telescopic shaft frame, telescopic shaft frame fixed connection is on the fuel processing case, drive bevel gear fixed connection is on the top of axle sleeve, the drive bevel gear is connected with the scraping wings transmission.

The fuel processing box comprises a processing box body, a feeding seat, a chute frame, a cutting knife, a rack, a limiting plate, a short shaft frame, a short shaft, a driving gear, a driving belt wheel, a driven belt wheel, a worm I, a worm wheel I, a driving shaft, a driving belt wheel, a transmission belt wheel, a belt wheel rotating shaft, a driven gear, a driving shaft frame and a striker plate chute; the processing box body is fixedly connected to the upper ends of the two supporting plates, the right end of the processing box body is hollow, a striker plate sliding groove is formed in the right end of the processing box body, a plurality of circular through holes are formed in the left end of the processing box body, a feeding seat is fixedly connected to the right end of the upper end of the processing box body and is communicated with the interior of the processing box body, a telescopic shaft bracket is fixedly connected to the front end face of the processing box body, a sliding groove frame is fixedly connected to the left end of the processing box body, the two cutting knives are symmetrically and slidably connected into the sliding groove frame, racks are fixedly connected to the outer ends of the two cutting knives, the lower end faces of the two racks are respectively attached to the upper end face of the processing box body, the two racks are oppositely arranged, the inner end faces of the two cutting; the limiting plate is fixedly connected to the front end face of the processing box body, the short shaft frame is fixedly connected to the limiting plate, the middle end of the short shaft is rotatably connected to the short shaft frame through a belt seat bearing, the driving gear and the driving pulley are respectively and fixedly connected to two ends of the short shaft, the driving pulley and the driven pulley are in belt transmission connection, the driven pulley is fixedly connected to the middle end of the worm I, one end of the worm I is rotatably connected to the front end face of the processing box body through the belt seat bearing, the other end of the worm I is in meshing transmission with the worm wheel I, the worm wheel I and the driving pulley are respectively and fixedly connected to two ends of the driving shaft, the middle end of the driving shaft is rotatably connected to the driving shaft frame through the belt seat bearing, the driving shaft frame is fixedly connected to the front end face of the processing box body, the driving pulley is in belt transmission, the belt wheel rotating shaft is rotatably connected to the upper end surface of the processing box body through a belt seat bearing, and the two racks are respectively in meshed transmission with the left side and the right side of the driven gear; the driving gear is in transmission connection with a material pushing plate, and the material pushing plate is connected in the processing box body in a sliding manner; the upper end of the inclined plate is fixedly connected with the lower end of the left end face of the chute frame.

The material pushing plate comprises a material pushing plate body, a material blocking plate, an L-shaped connecting rod, a bilateral rack, a limiting plate sliding groove, a spring seat, a spring sleeve rod, a baffle disc, a compression spring II, an incomplete gear, a worm gear rotating shaft, a worm gear II, a worm seat and a driven bevel gear; the pushing plate body is connected in the processing box body in a sliding manner, the upper end of the pushing plate body is fixedly connected with a material baffle plate, the material baffle plate is connected in a material baffle plate sliding groove in a sliding manner, the material baffle plate is positioned at the right end of a feeding seat, one end of an L-shaped connecting rod is fixedly connected on the pushing plate body, the other end of the L-shaped connecting rod is fixedly connected at one end of a bilateral rack, a limiting plate sliding groove is arranged on the bilateral rack, two ends of a spring sleeve rod are respectively and fixedly connected with a spring seat and a baffle plate, the spring seat is fixedly connected on the front end face of the processing box body, two ends of the bilateral rack are both connected on the spring sleeve rod in a sliding manner, the spring sleeve rod is connected on a limiting plate in a sliding manner, the limiting plate is connected in the limiting plate sliding groove in a sliding manner, incomplete gear and II equal fixed connection of worm wheel are in the worm wheel pivot, the worm wheel pivot is rotated through taking the seat bearing and is connected on the preceding terminal surface of processing case body, worm wheel II meshes the transmission with the one end of worm II, the middle-end of worm II is rotated through taking the seat bearing and is connected on the worm seat, the worm seat rotates through taking the seat bearing and connects on the preceding terminal surface of processing case body, driven bevel gear fixed connection is at the other end of worm II, driven bevel gear and drive bevel gear meshing transmission.

The material collecting box is provided with a vertical plate and a transverse plate; the material collecting box is fixedly connected to the bottom plate through two vertical plates, a transverse plate is fixedly connected to the lower end of the material collecting box, a feeding hole is formed in the right end of the material collecting box, the lower end of the inclined plate is fixedly connected to the inner side of the feeding hole, and the linkage plate is connected to the material collecting box in a sliding mode.

The linkage plate comprises a material receiving plate, a compression spring III, a folding rod, a shifting fork, a guide rod, a connecting rod, a vertical rod frame, a round rod, a chute rod, a shifting rod chute and a sliding rod; the material receiving plate is connected in the material collecting box in a sliding mode, the upper end and the lower end of the compression spring III are fixedly connected to the material receiving plate and the transverse plate respectively, one end of the sliding rod is fixedly connected to the lower end face of the material receiving plate, the other end of the sliding rod is fixedly connected to one end of the folding rod, and the other end of the folding rod is fixedly connected with a shifting rod; one end clearance fit of shift fork is in the sheave, the middle-end sliding connection of shift fork is on the guide arm, the both ends of guide arm are respectively through connecting rod fixed connection between two vertical pole framves, the upper end fixed connection of two vertical pole framves is on the bottom surface of processing case body, fixedly connected with round bar between two vertical pole framves, the round bar is located between two connecting rods, the one end of spout pole is passed through the articulated shaft and is rotated the other end of connecting at the shift fork, be provided with the driving lever spout on the spout pole, the equal clearance fit of driving lever and round bar is in the driving lever spout, the round bar is located between driving lever and the.

The power driving wheel I is provided with two convex edges with gradually reduced height, the power driving wheel II and the power driving wheel I are same in structure, the power driving wheel II and the power driving wheel I are arranged oppositely, and the convex edges on the power driving wheel II and the power driving wheel I are mutually blocked.

The environment-friendly biomass fuel pretreatment processing device has the beneficial effects that:

the invention relates to an environment-friendly biomass fuel pretreatment processing device, which can perform intermittent feeding, prevent the machine from overloading and jamming, equally distribute biomass fuel, and simultaneously process the output biomass fuel into sections, thereby facilitating subsequent processing or split charging, improving the working efficiency, reducing the labor intensity of operators, reducing the production cost and prolonging the service life of the machine.

Drawings

FIG. 1 is a first schematic structural diagram of an environment-friendly biomass fuel pretreatment processing device according to the present invention;

FIG. 2 is a schematic structural diagram of an environment-friendly biomass fuel pretreatment processing device according to the present invention;

FIG. 3 is a schematic structural diagram III of an environment-friendly biomass fuel pretreatment processing device according to the present invention;

FIG. 4 is a schematic structural view of a base;

FIG. 5 is a schematic view of the driving wheel;

FIG. 6 is a first schematic structural view of a fuel processing tank;

FIG. 7 is a second schematic structural view of a fuel processing tank;

FIG. 8 is a schematic structural view of a bezel;

FIG. 9 is a schematic view of the structure of the processing tank body and the feed block;

FIG. 10 is a schematic structural view of a stripper plate;

FIG. 11 is a schematic structural view of the sloping plate and the material collecting box;

FIG. 12 is a schematic view of the structure of the material collecting box;

FIG. 13 is a schematic structural view of a linkage plate;

FIG. 14 is a schematic view of the structure of the chute bar;

FIG. 15 is a schematic view of a part of the linkage plate.

In the figure: a base 1; a bottom plate 1-1; a support plate 1-2; 1-3 of a motor; power transmission wheels I1-4; a transmission wheel 2; a power transmission wheel II 2-1; a telescopic shaft 2-2; 2-3 grooved wheels; 2-4 of a compression spring; 2-5 of a shaft sleeve; 2-6 parts of a driving bevel gear; 2-7 of a telescopic shaft bracket; a fuel processing tank 3; 3-1 part of a processing box body; a feeding seat 3-2; 3-3 of a chute frame; 3-4 of a cutting knife; 3-5 of a rack; 3-6 parts of a limiting plate; 3-7 parts of a short shaft bracket; 3-8 of a short shaft; 3-9 parts of a driving gear; 3-10 parts of a driving belt wheel; 3-11 parts of a driven belt wheel; 3-12 parts of worm I; 3-13 parts of worm wheel; a drive shaft 3-14; 3-15 of a driving belt wheel; driving pulleys 3-16; 3-17 of a belt wheel rotating shaft; 3-18 parts of driven gear; 3-19 of a drive shaft bracket; 3-20 parts of striker plate sliding groove; a material pushing plate 4; a material pushing plate body 4-1; a striker plate 4-2; 4-3 of an L-shaped connecting rod; 4-4 of a bilateral rack; a limiting plate chute 4-5; spring seats 4-6; 4-7 parts of a spring sleeve rod; 4-8 of a baffle disc; 4-9 of a compression spring; 4-10 parts of incomplete gear; 4-11 of worm wheel rotating shaft; 4-12 of worm gears; 4-13 of a worm; 4-14 of worm seat; driven bevel gears 4-15; a sloping plate 5; a material collecting box 6; a vertical plate 6-1; a transverse plate 6-2; a linkage plate 7; a material receiving plate 7-1; a compression spring III 7-2; 7-3 of folding rods; 7-4 of a deflector rod; 7-5 of a shifting fork; 7-6 of a guide rod; 7-7 of a connecting rod; 7-8 of a vertical rod frame; 7-9 parts of round rod; 7-10 parts of a chute rod; deflector rod chute 7-11; and 7-12 slide bars.

Detailed Description

The invention is described in further detail below with reference to figures 1-15 and the specific implementation.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 15, and an environment-friendly biomass fuel pretreatment processing device includes a base 1, a driving wheel 2, a fuel processing box 3, a material pushing plate 4, an inclined plate 5, a material collecting box 6 and a linkage plate 7, wherein the fuel processing box 3 and the material collecting box 6 are both fixedly connected to the base 1, the inclined plate 5 is fixedly connected between the fuel processing box 3 and the material collecting box 6, the material pushing plate 4 is slidably connected to the fuel processing box 3, the material pushing plate 4 is in transmission connection with the fuel processing box 3, two ends of the driving wheel 2 are in transmission connection with the material pushing plate 4 and the base 1 respectively, the driving wheel 2 is fixedly connected to the base 1, the linkage plate 7 is slidably connected to the material collecting box 6, and the linkage plate 7 is in clearance fit with the middle. The base 1 drives the material pushing plate 4 to move back and forth through the transmission of the transmission wheel 2, the material pushing plate 4 pushes the biomass fuel in the fuel processing box 3 to the left when moving to the left, the output biomass fuel is processed into a segment shape, the segment biomass fuel falls into the material collecting box 6 through the inclined plate 5, when the biomass fuel reaches a certain weight, the linkage plate 7 is driven to move downwards, the linkage plate 7 drives the lower end of the transmission wheel 2 to move upwards to be separated from the base 1 and lose power, and simultaneously the material pushing plate 4 also loses power to stop working, thereby stopping discharging, when the biomass fuel in the material collecting box 6 is taken out, the linkage plate 7 is reset to drive the transmission wheel 2 to be in transmission connection with the base 1 again, so that the whole device operates from new operation and works circularly in sequence, the biomass fuel output each time is quantitative, the subsequent processing or subpackaging is convenient, and the working efficiency is improved, the labor intensity of operators is reduced, the intermittent feeding is carried out, the phenomenon that the machine is overloaded and blocked by a card is prevented, the production cost is reduced, and the service life of the machine is prolonged.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1-15, wherein the base 1 includes a bottom plate 1-1, a supporting plate 1-2, a motor 1-3 and a power transmission wheel i 1-4; two supporting plates 1-2 are fixedly connected to the right end of the bottom plate 1-1, the motor 1-3 is fixedly connected to the bottom plate 1-1 through a motor frame, the power transmission wheel I1-4 is fixedly connected to an output shaft of the motor 1-3, and the power transmission wheel I1-4 is in transmission connection with the transmission wheel 2. When the base 1 is used, the motors 1-3 are connected with a power supply and a control switch through leads and are started, the motors 1-3 drive the power transmission wheels I1-4 to rotate anticlockwise around the axes of the motors, and the power transmission wheels I1-4 drive the transmission wheels 2 to work.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, wherein the driving wheel 2 comprises a power driving wheel ii 2-1, a telescopic shaft 2-2, a sheave 2-3, a compression spring i 2-4, a shaft sleeve 2-5, a driving bevel gear 2-6 and a telescopic shaft bracket 2-7; the power transmission wheel II 2-1 is in transmission connection with the power transmission wheel I1-4, the power transmission wheel II 2-1 and the grooved pulley 2-3 are respectively and fixedly connected with the lower end and the middle end of the telescopic shaft 2-2, the grooved pulley 2-3 is in clearance fit with the linkage plate 7, the shaft sleeve 2-5 is in sliding connection with the upper end of the telescopic shaft 2-2, the upper end of the telescopic shaft 2-2 is provided with a convex strip groove, a convex strip is fixedly connected on the shaft sleeve 2-5 and is in clearance fit with the convex strip groove, a compression spring I2-4 is fixedly connected between the shaft sleeve 2-5 and the telescopic shaft 2-2, the compression spring I2-4 is positioned in the telescopic shaft 2-2, the shaft sleeve 2-5 is rotatably connected on a telescopic shaft bracket 2-7 through a bearing with a base, and the telescopic shaft bracket 2-7, the driving bevel gears 2-6 are fixedly connected to the top ends of the shaft sleeves 2-5, and the driving bevel gears 2-6 are in transmission connection with the material pushing plate 4. When the transmission wheel 2 is used, the power transmission wheel I1-4 drives the power transmission wheel II 2-1 to rotate anticlockwise around the axis of the power transmission wheel, the power transmission wheel II 2-1 drives the telescopic shaft 2-2 and the grooved pulley 2-3 to rotate anticlockwise around the axis of the power transmission wheel, the telescopic shaft 2-2 drives the shaft sleeve 2-5 to rotate anticlockwise around the axis of the power transmission wheel through the matching of the raised strip and the raised strip groove, the shaft sleeve 2-5 drives the driving bevel gear 2-6 to rotate around the shaft of the power transmission wheel in a counterclockwise manner, and the driving bevel gear 2-6 drives the material pushing plate 4 to work.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 15, and the fuel processing box 3 includes a processing box body 3-1, a feeding seat 3-2, a chute frame 3-3, a cutting knife 3-4, a rack 3-5, a limit plate 3-6, a short shaft frame 3-7, a short shaft 3-8, a driving gear 3-9, a driving pulley 3-10, a driven pulley 3-11, a worm i 3-12, a worm gear i 3-13, a driving shaft 3-14, a driving pulley 3-15, a driving pulley 3-16, a pulley rotating shaft 3-17, a driven gear 3-18, a driving shaft frame 3-19 and a striker plate chute 3-20; the processing box body 3-1 is fixedly connected to the upper ends of the two supporting plates 1-2, the right end of the processing box body 3-1 is hollow, the right end of the processing box body 3-1 is provided with a striker plate sliding groove 3-20, the left end of the processing box body 3-1 is provided with a plurality of circular through holes, the right end of the upper end of the processing box body 3-1 is fixedly connected with a feeding seat 3-2, the feeding seat 3-2 is communicated with the inside of the processing box body 3-1, a telescopic shaft frame 2-7 is fixedly connected to the front end face of the processing box body 3-1, a sliding groove frame 3-3 is fixedly connected to the left end of the processing box body 3-1, two cutting knives 3-4 are symmetrically and slidably connected in the sliding groove frame 3-3, the outer ends of the two cutting knives 3-4 are fixedly connected with racks 3, the lower end surfaces of the two racks 3-5 are both attached to the upper end surface of the processing box body 3-1, the two racks 3-5 are oppositely arranged, the inner end surfaces of the two cutting-off tools 3-4 are attached, and the inner ends of the two cutting-off tools 3-4 are both fixedly connected with a stop block; the limiting plate 3-6 is fixedly connected to the front end face of the processing box body 3-1, the short shaft frame 3-7 is fixedly connected to the limiting plate 3-6, the middle end of the short shaft 3-8 is rotatably connected to the short shaft frame 3-7 through a bearing with a seat, the driving gear 3-9 and the driving pulley 3-10 are respectively fixedly connected to two ends of the short shaft 3-8, the driving pulley 3-10 is in transmission connection with the driven pulley 3-11 through a belt, the driven pulley 3-11 is fixedly connected to the middle end of the worm I3-12, one end of the worm I3-12 is rotatably connected to the front end face of the processing box body 3-1 through a bearing with a seat, the other end of the worm I3-12 is in meshing transmission with the worm wheel I3-13, the worm wheel I3-13 and the driving pulley 3-15 are respectively fixedly connected to two ends of, the middle end of a driving shaft 3-14 is rotatably connected to a driving shaft frame 3-19 through a belt seat bearing, the driving shaft frame 3-19 is fixedly connected to the front end face of the processing box body 3-1, a driving belt wheel 3-15 is in transmission connection with a driving belt wheel 3-16 through a belt, the driving belt wheel 3-16 and a driven gear 3-18 are both fixedly connected to a belt wheel rotating shaft 3-17, the belt wheel rotating shaft 3-17 is rotatably connected to the upper end face of the processing box body 3-1 through the belt seat bearing, and two racks 3-5 are respectively in meshing transmission with the left side and the right side of the driven gear 3-18; the driving gear 3-9 is in transmission connection with a material pushing plate 4, and the material pushing plate 4 is connected in the processing box body 3-1 in a sliding manner; the upper end of the sloping plate 5 is fixedly connected with the lower end of the left end face of the chute frame 3-3. When the fuel processing box 3 is used, biomass fuel falls into a processing box body 3-1 through a feeding seat 3-2, a flitch 4 drives a driving gear 3-9 to rotate clockwise around the axis of the driving gear, the driving gear 3-9 drives a driving pulley 3-10 to rotate around the axis of the driving gear through a short shaft 3-8, the driving pulley 3-10 drives a driven pulley 3-11 to rotate around the axis of the driving gear through a belt, the driven pulley 3-11 drives a worm I3-12 to rotate around the axis of the driving gear, the worm I3-12 drives a worm wheel I3-13 to rotate around the axis of the driving gear, the worm wheel I3-13 drives a driving shaft 3-14 and a driving pulley 3-15 to rotate around the axis of the driving gear, and the driving pulley 3-15 drives a driving pulley 3-16 to rotate around the axis of the, the driving belt wheels 3-16 drive the driven gears 3-18 to rotate anticlockwise around the axes of the driven gears through belt wheel rotating shafts 3-17, the driven gears 3-18 drive the two cutting-off cutters 3-4 to simultaneously slide away and open through meshing transmission with the two racks 3-5, the flitch 4 intermittently pushes the biomass fuel leftwards when in work, the biomass fuel pushed leftwards is output in a columnar shape after passing through a plurality of circular through holes at the left end of the processing box body 3-1, and the two cutting-off cutters 3-4 simultaneously slide in opposite directions when the flitch 4 drives the driving gear 3-9 to rotate anticlockwise when in work to cut off the columnar biomass fuel; the stop block prevents the cutting knife 3-4 from separating from the chute frame 3-3 when sliding to the outer end.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, wherein the stripper plate 4 comprises a stripper plate body 4-1, a stripper plate 4-2, an L-shaped connecting rod 4-3, a double-sided rack 4-4, a limiting plate chute 4-5, a spring seat 4-6, a spring loop rod 4-7, a baffle disc 4-8, a compression spring II 4-9, an incomplete gear 4-10, a worm gear rotating shaft 4-11, a worm gear II 4-12, a worm II 4-13, a worm seat 4-14 and a driven bevel gear 4-15; the material pushing plate body 4-1 is connected in the processing box body 3-1 in a sliding manner, the upper end of the material pushing plate body 4-1 is fixedly connected with a material baffle plate 4-2, the material baffle plate 4-2 is connected in a material baffle plate sliding groove 3-20 in a sliding manner, the material baffle plate 4-2 is positioned at the right end of a feeding seat 3-2, one end of an L-shaped connecting rod 4-3 is fixedly connected on the material pushing plate body 4-1, the other end of the L-shaped connecting rod 4-3 is fixedly connected at one end of a bilateral rack 4-4, a limiting plate sliding groove 4-5 is arranged on the bilateral rack 4-4, two ends of a spring loop rod 4-7 are respectively and fixedly connected with a spring seat 4-6 and a baffle disc 4-8, the spring seat 4-6 is fixedly connected on the front end face of the processing box body 3-1, two ends of the bilateral, a spring loop bar 4-7 is connected on a limiting plate 3-6 in a sliding way, the limiting plate 3-6 is connected in a limiting plate sliding groove 4-5 in a sliding way, a spring loop bar 4-7 between a spring seat 4-6 and a double-sided rack 4-4 is sleeved with a compression spring II 4-9, a driving gear 3-9 is in meshing transmission with the upper end of the double-sided rack 4-4, an incomplete gear 4-10 is in meshing transmission with the lower end of the double-sided rack 4-4, the incomplete gear 4-10 and a worm gear II 4-12 are both fixedly connected on a worm gear rotating shaft 4-11, the worm gear rotating shaft 4-11 is rotatably connected on the front end surface of a processing box body 3-1 through a bearing with a seat, the worm gear II 4-12 is in meshing transmission with one end of a worm II 4-13, the middle end of the worm II 4-13 is rotatably, the worm seat 4-14 is rotatably connected to the front end face of the processing box body 3-1 through a bearing with a seat, the driven bevel gear 4-15 is fixedly connected to the other end of the worm II 4-13, and the driven bevel gear 4-15 is in meshing transmission with the driving bevel gear 2-6. When the material pushing plate 4 is used, the driving bevel gear 2-6 drives the driven bevel gear 4-15 to rotate clockwise around the axis of the material pushing plate, the driven bevel gear 4-15 drives the worm II 4-13 to rotate around the axis of the material pushing plate, the worm II 4-13 drives the worm gear II 4-12 to rotate around the axis of the material pushing plate, the worm gear II 4-12 drives the incomplete gear 4-10 to rotate anticlockwise around the axis of the material pushing plate through the worm gear rotating shaft 4-11, when the incomplete gear 4-10 is in meshing transmission with the bilateral rack 4-4, the bilateral rack 4-4 is driven to move leftwards, the compression spring II 4-9 is compressed, the bilateral rack 4-4 drives the material pushing plate body 4-1 to move leftwards through the L-shaped connecting rod 4-3 to push biomass fuel, and the material feeding seat 3-2 is, the biomass fuel is prevented from falling on the right end of the material pushing plate body 4-1, meanwhile, the double-sided rack 4-4 drives the driving gear 3-9 to rotate clockwise around the axis of the double-sided rack, the two cutting-off cutters 3-4 are opened, when the incomplete gear 4-10 is disengaged from the double-sided rack 4-4 for transmission, the double-sided rack 4-4 moves rightwards under the action of the elastic force of the compression spring II 4-9, the material pushing plate body 4-1 moves rightwards to be prepared for pushing the next biomass fuel, and meanwhile, the two cutting-off cutters 3-4 move towards each other and are closed.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-15, wherein a vertical plate 6-1 and a horizontal plate 6-2 are arranged on the material collecting box 6; the material collecting box 6 is fixedly connected to the bottom plate 1-1 through two vertical plates 6-1, the lower end of the material collecting box 6 is fixedly connected with a transverse plate 6-2, a feeding hole is formed in the right end of the material collecting box 6, the lower end of the inclined plate 5 is fixedly connected to the inner side of the feeding hole, and the linkage plate 7 is connected in the material collecting box 6 in a sliding mode. When the material collecting box 6 is used, cut-off and segmented biomass fuel falls into the material collecting box 6 through the inclined plate 5 under the action of gravity, and the biomass fuel in the material collecting box 6 falls on the linkage plate 7.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-15, wherein the linkage plate 7 comprises a material receiving plate 7-1, a compression spring iii 7-2, a folding rod 7-3, a shift lever 7-4, a shift fork 7-5, a guide rod 7-6, a connecting rod 7-7, a vertical rod frame 7-8, a round rod 7-9, a chute rod 7-10, a shift lever chute 7-11 and a slide rod 7-12; the material receiving plate 7-1 is connected in the material collecting box 6 in a sliding mode, the upper end and the lower end of the compression spring III 7-2 are fixedly connected to the material receiving plate 7-1 and the transverse plate 6-2 respectively, one end of the sliding rod 7-12 is fixedly connected to the lower end face of the material receiving plate 7-1, the other end of the sliding rod 7-12 is fixedly connected to one end of the folding rod 7-3, and the other end of the folding rod 7-3 is fixedly connected with a driving lever 7-4; one end of a shifting fork 7-5 is in clearance fit in the grooved pulley 2-3, the middle end of the shifting fork 7-5 is connected to a guide rod 7-6 in a sliding mode, two ends of the guide rod 7-6 are fixedly connected between two vertical rod frames 7-8 through connecting rods 7-7 respectively, the upper ends of the two vertical rod frames 7-8 are fixedly connected to the bottom surface of the processing box body 3-1, a round rod 7-9 is fixedly connected between the two vertical rod frames 7-8, the round rod 7-9 is located between the two connecting rods 7-7, one end of a sliding groove rod 7-10 is rotatably connected to the other end of the shifting fork 7-5 through a hinge shaft, a shifting rod chute 7-11 is arranged on the sliding groove rod 7-10, the shifting rod 7-4 and the round rod 7-9 are in clearance fit in the shifting rod chute 7-11, and the round rod 7-9 is located between the shifting rod 7-4. When the linkage plate 7 is used, biomass fuel in the material collecting box 6 falls on the material receiving plate 7-1, when the biomass fuel reaches a certain weight, the material receiving plate 7-1 moves downwards, the compression spring III 7-2 is compressed, the material receiving plate 7-1 drives the deflector rod 7-4 to move downwards through the slide rod 7-12 and the folding rod 7-3, the deflector rod 7-4 presses the chute rod 7-10 downwards, the chute rod 7-10 rotates around the round rod 7-9, the other end of the chute rod 7-10 moves upwards, the chute rod 7-10 drives the shift fork 7-5 to move upwards, the shift fork 7-5 drives the sheave 2-3 to move upwards, the sheave 2-3 drives the chute rod 7-10 and the power transmission wheel II 2-1 to move upwards, and the compression spring I2-4 is compressed, the power transmission wheel II 2-1 and the power transmission wheel I1-4 are separated to lose power to stop rotating, so that discharging is stopped, after materials on the material receiving plate 7-1 are taken out, the material receiving plate 7-1 is reset under the action of the compression spring III 7-2, the power transmission wheel II 2-1 and the power transmission wheel I1-4 are in transmission connection again to continue discharging, and the sequential cycle work is realized.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1-15, wherein two convex edges with gradually decreasing heights are arranged on the power transmission wheel i 1-4, the power transmission wheel ii 2-1 and the power transmission wheel i 1-4 have the same structure, the power transmission wheel ii 2-1 is arranged opposite to the power transmission wheel i 1-4, and the convex edges on the power transmission wheel ii 2-1 and the power transmission wheel i 1-4 are mutually blocked. When the power transmission wheel I1-4 rotates anticlockwise, the two convex edges on the power transmission wheel I1-4 are mutually blocked with the two convex edges on the power transmission wheel II 2-1 to drive the power transmission wheel II 2-1 to rotate anticlockwise; when the power transmission wheel II 2-1 and the power transmission wheel I1-4 are switched from a separation state to a transmission connection state, the height of the convex edge is gradually reduced, and in the rotating process of the power transmission wheel I1-4, the convex edge on the power transmission wheel II 2-1 can be gradually blocked into the convex edge on the power transmission wheel I1-4, so that the transmission connection of the power transmission wheel I1-4 and the static power transmission wheel II 2-1 in the rotating process is realized.

The invention relates to a working principle of an environment-friendly biomass fuel pretreatment processing device, which comprises the following steps:

when the device is used, the base 1 drives the material pushing plate 4 to reciprocate through the transmission of the driving wheel 2, the material pushing plate 4 pushes the biomass fuel in the fuel processing box 3 leftwards when moving leftwards, the output biomass fuel is processed into a segment shape, the segment biomass fuel falls into the material collecting box 6 through the inclined plate 5, the linkage plate 7 is driven to move downwards when the biomass fuel reaches a certain weight, the linkage plate 7 drives the lower end of the driving wheel 2 to move upwards to be separated from the base 1 and lose power, the material pushing plate 4 also loses power to stop working, so that the discharging is stopped, after the biomass fuel in the material collecting box 6 is taken out, the linkage plate 7 is reset to drive the driving wheel 2 to be in transmission connection with the base 1 again, the whole device is enabled to work circularly in sequence from new operation, the biomass fuel output every time is quantitative, and the subsequent processing or subpackaging is facilitated, the work efficiency is improved, the labor intensity of operators is reduced, the intermittent feeding is carried out, the phenomenon that the machine is overloaded and blocked by a card is avoided, the production cost is reduced, and the service life of the machine is prolonged. When the base 1 is used, the motors 1-3 are connected with a power supply and a control switch through leads and are started, the motors 1-3 drive the power transmission wheels I1-4 to rotate anticlockwise around the axes of the motors, and the power transmission wheels I1-4 drive the transmission wheels 2 to work. When the transmission wheel 2 is used, the power transmission wheel I1-4 drives the power transmission wheel II 2-1 to rotate anticlockwise around the axis of the power transmission wheel, the power transmission wheel II 2-1 drives the telescopic shaft 2-2 and the grooved pulley 2-3 to rotate anticlockwise around the axis of the power transmission wheel, the telescopic shaft 2-2 drives the shaft sleeve 2-5 to rotate anticlockwise around the axis of the power transmission wheel through the matching of the raised strip and the raised strip groove, the shaft sleeve 2-5 drives the driving bevel gear 2-6 to rotate around the shaft of the power transmission wheel in a counterclockwise manner, and the driving bevel gear 2-6 drives the material pushing plate 4 to work. When the fuel processing box 3 is used, biomass fuel falls into a processing box body 3-1 through a feeding seat 3-2, a flitch 4 drives a driving gear 3-9 to clockwise rotate around a self axis through a short shaft 3-8 to drive a driving belt wheel 3-10 to rotate around the self axis when working, the driving belt wheel 3-10 drives a driven belt wheel 3-11 to rotate around the self axis through a belt, the driven belt wheel 3-11 drives a worm I3-12 to rotate around the self axis, the worm I3-12 drives a worm wheel I3-13 to rotate around the self axis, the worm wheel I3-13 drives a driving shaft 3-14 and a driving belt wheel 3-15 to rotate around the self axis, the driving belt wheel 3-15 drives a driving belt wheel 3-16 to rotate around the self axis through the belt, the driving belt wheel 3-16 drives the driven gear 3-18 to anticlockwise rotate around the self axis through a belt wheel rotating shaft 3- The axis rotates, the driven gear 3-18 drives the two cutting-off cutters 3-4 to simultaneously deviate from the sliding direction and open through meshing transmission with the two racks 3-5, the material plate 4 intermittently pushes the biomass fuel leftwards when working, the biomass fuel pushed leftwards is output in a columnar shape after passing through the plurality of circular through holes at the left end of the processing box body 3-1, and the two cutting-off cutters 3-4 simultaneously slide in opposite directions when the material plate 4 drives the driving gear 3-9 to rotate anticlockwise when working, so that the columnar biomass fuel is cut off. When the material pushing plate 4 is used, the driving bevel gear 2-6 drives the driven bevel gear 4-15 to rotate clockwise around the axis of the material pushing plate, the driven bevel gear 4-15 drives the worm II 4-13 to rotate around the axis of the material pushing plate, the worm II 4-13 drives the worm gear II 4-12 to rotate around the axis of the material pushing plate, the worm gear II 4-12 drives the incomplete gear 4-10 to rotate anticlockwise around the axis of the material pushing plate through the worm gear rotating shaft 4-11, when the incomplete gear 4-10 is in meshing transmission with the bilateral rack 4-4, the bilateral rack 4-4 is driven to move leftwards, the compression spring II 4-9 is compressed, the bilateral rack 4-4 drives the material pushing plate body 4-1 to move leftwards to push biomass fuel through the L-shaped connecting rod 4-3, and the material feeding seat 3-, the biomass fuel is prevented from falling on the right end of the material pushing plate body 4-1, meanwhile, the double-sided rack 4-4 drives the driving gear 3-9 to rotate clockwise around the axis of the double-sided rack, the two cutting-off cutters 3-4 are opened, when the incomplete gear 4-10 is disengaged from the double-sided rack 4-4 for transmission, the double-sided rack 4-4 moves rightwards under the action of the elastic force of the compression spring II 4-9, the material pushing plate body 4-1 moves rightwards to be prepared for pushing the next biomass fuel, and meanwhile, the two cutting-off cutters 3-4 move towards each other and are closed. When the material collecting box 6 is used, cut-off and segmented biomass fuel falls into the material collecting box 6 through the inclined plate 5 under the action of gravity, and the biomass fuel in the material collecting box 6 falls on the linkage plate 7. When the linkage plate 7 is used, biomass fuel in the material collecting box 6 falls on the material receiving plate 7-1, when the biomass fuel reaches a certain weight, the material receiving plate 7-1 moves downwards, the material receiving plate 7-1 drives the deflector rod 7-4 to move downwards through the slide rod 7-12 and the folding rod 7-3, the deflector rod 7-4 presses the chute rod 7-10 downwards, the chute rod 7-10 rotates around the round rod 7-9, the other end of the chute rod 7-10 moves upwards, the chute rod 7-10 drives the shift fork 7-5 to move upwards, the shift fork 7-5 drives the sheave 2-3 to move upwards, the sheave 2-3 drives the chute rod 7-10 and the power transmission wheel II 2-1 to move upwards, the compression spring I2-4 is compressed, the power transmission wheel II 2-1 and the power transmission wheel I1-4 are separated and lose power to stop rotating, therefore, discharging is stopped, after materials on the material receiving plate 7-1 are taken out, the material receiving plate 7-1 is reset, the power driving wheel II 2-1 is in transmission connection with the power driving wheel I1-4 again to continue discharging, and the sequential cycle work is realized, so that the quality of the segment biomass fuel output at each time is equal, the subsequent processing or split charging is convenient, the work efficiency is improved, the labor intensity of operators is reduced, meanwhile, the intermittent feeding is carried out, the overload of the machine and the phenomenon of card jamming are prevented, the production cost is reduced, and the service life of the machine is prolonged.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides an environment-friendly biomass fuel preliminary treatment processingequipment, includes base (1), drive wheel (2), fuel processing case (3), scraping wings (4), swash plate (5), case (6) and linkage board (7), its characterized in that gather materials: the fuel processing box (3) and the fuel collecting box (6) are fixedly connected to the base (1), the inclined plate (5) is fixedly connected between the fuel processing box (3) and the fuel collecting box (6), the material pushing plate (4) is connected to the fuel processing box (3) in a sliding mode, the material pushing plate (4) is connected with the fuel processing box (3) in a transmission mode, two ends of the driving wheel (2) are respectively connected with the material pushing plate (4) and the base (1) in a transmission mode, the driving wheel (2) is fixedly connected to the base (1), the linkage plate (7) is connected into the fuel collecting box (6) in a sliding mode, and the linkage plate (7) is in clearance fit with the middle end of the driving wheel (2);

the base (1) comprises a bottom plate (1-1), a supporting plate (1-2), a motor (1-3) and a power transmission wheel I (1-4); the two supporting plates (1-2) are fixedly connected to the right end of the bottom plate (1-1), the motor (1-3) is fixedly connected to the bottom plate (1-1) through a motor frame, the power transmission wheel I (1-4) is fixedly connected to an output shaft of the motor (1-3), and the power transmission wheel I (1-4) is in transmission connection with the transmission wheel (2);

the transmission wheel (2) comprises a power transmission wheel II (2-1), a telescopic shaft (2-2), a grooved pulley (2-3), a compression spring I (2-4), a shaft sleeve (2-5), a driving bevel gear (2-6) and a telescopic shaft frame (2-7); the power transmission wheel II (2-1) is in transmission connection with the power transmission wheel I (1-4), the power transmission wheel II (2-1) and the grooved pulley (2-3) are respectively and fixedly connected to the lower end and the middle end of the telescopic shaft (2-2), the grooved pulley (2-3) is in clearance fit with the linkage plate (7), the shaft sleeve (2-5) is in sliding connection with the upper end of the telescopic shaft (2-2), the upper end of the telescopic shaft (2-2) is provided with a raised strip groove, the shaft sleeve (2-5) is fixedly connected with a raised strip, the raised strip is in clearance fit with the raised strip groove, a compression spring I (2-4) is fixedly connected between the shaft sleeve (2-5) and the telescopic shaft (2-2), the compression spring I (2-4) is located in the telescopic shaft (2-2), and the shaft sleeve (2-5) is rotatably connected to a telescopic shaft bracket (2-7) through a bearing, the telescopic shaft bracket (2-7) is fixedly connected to the fuel processing box (3), the driving bevel gear (2-6) is fixedly connected to the top end of the shaft sleeve (2-5), and the driving bevel gear (2-6) is in transmission connection with the material pushing plate (4).

2. The environment-friendly biomass fuel pretreatment processing device according to claim 1, characterized in that: the fuel processing box (3) comprises a processing box body (3-1), a feeding seat (3-2), a chute frame (3-3), a cutting knife (3-4), a rack (3-5), a limiting plate (3-6), a short shaft bracket (3-7), a short shaft (3-8), a driving gear (3-9), a driving pulley (3-10), a driven pulley (3-11), a worm I (3-12), a worm wheel I (3-13), a driving shaft (3-14), a driving pulley (3-15), a transmission pulley (3-16), a pulley rotating shaft (3-17), a driven gear (3-18), a driving shaft bracket (3-19) and a striker plate chute (3-20); the processing box body (3-1) is fixedly connected to the upper ends of the two supporting plates (1-2), the right end of the processing box body (3-1) is hollow, the right end of the processing box body (3-1) is provided with a striker plate sliding chute (3-20), the left end of the processing box body (3-1) is provided with a plurality of circular through holes, the right end of the upper end of the processing box body (3-1) is fixedly connected with a feeding seat (3-2), the feeding seat (3-2) is communicated with the interior of the processing box body (3-1), a telescopic shaft bracket (2-7) is fixedly connected to the front end face of the processing box body (3-1), a sliding chute frame (3-3) is fixedly connected to the left end of the processing box body (3-1), and the two cutting knives (3-4) are symmetrically and slidably connected in the sliding chute frame (3-3), the outer ends of the two cutting-off knives (3-4) are fixedly connected with racks (3-5), the lower end surfaces of the two racks (3-5) are attached to the upper end surface of the processing box body (3-1), the two racks (3-5) are arranged oppositely, the inner end surfaces of the two cutting-off knives (3-4) are attached, and the inner ends of the two cutting-off knives (3-4) are fixedly connected with stop blocks; the limiting plate (3-6) is fixedly connected to the front end face of the processing box body (3-1), the short shaft bracket (3-7) is fixedly connected to the limiting plate (3-6), the middle end of the short shaft (3-8) is rotatably connected to the short shaft bracket (3-7) through a bearing with a seat, the driving gear (3-9) and the driving pulley (3-10) are respectively and fixedly connected to two ends of the short shaft (3-8), the driving pulley (3-10) is in transmission connection with the driven pulley (3-11) through a belt, the driven pulley (3-11) is fixedly connected to the middle end of the worm I (3-12), one end of the worm I (3-12) is rotatably connected to the front end face of the processing box body (3-1) through the bearing with a seat, the other end of the worm I (3-12) is in meshing transmission with the worm wheel I (3-13), the worm wheel I (3-13) and the driving belt wheel (3-15) are fixedly connected to two ends of the driving shaft (3-14) respectively, the middle end of the driving shaft (3-14) is rotatably connected to the driving shaft frame (3-19) through a belt seat bearing, the driving shaft frame (3-19) is fixedly connected to the front end face of the processing box body (3-1), the driving belt wheel (3-15) is in transmission connection with the driving belt wheel (3-16) through a belt, the driving belt wheel (3-16) and the driven gear (3-18) are both fixedly connected to a belt wheel rotating shaft (3-17), the belt wheel rotating shaft (3-17) is rotatably connected to the upper end face of the processing box body (3-1) through a belt seat bearing, and the two racks (3-5) are in meshing transmission with the left side and the right side of the driven gear (3-18) respectively; the driving gear (3-9) is in transmission connection with the material pushing plate (4), and the material pushing plate (4) is connected in the processing box body (3-1) in a sliding manner; the upper end of the sloping plate (5) is fixedly connected with the lower end of the left end face of the chute frame (3-3).

3. The environment-friendly biomass fuel pretreatment processing device according to claim 2, characterized in that: the material pushing plate (4) comprises a material pushing plate body (4-1), a material blocking plate (4-2), an L-shaped connecting rod (4-3), a bilateral rack (4-4), a limiting plate sliding groove (4-5), a spring seat (4-6), a spring loop bar (4-7), a baffle disc (4-8), a compression spring II (4-9), an incomplete gear (4-10), a worm gear rotating shaft (4-11), a worm gear II (4-12), a worm II (4-13), a worm seat (4-14) and a driven bevel gear (4-15); the material pushing plate body (4-1) is connected in the processing box body (3-1) in a sliding manner, the upper end of the material pushing plate body (4-1) is fixedly connected with a material baffle plate (4-2), the material baffle plate (4-2) is connected in a material baffle plate sliding groove (3-20) in a sliding manner, the material baffle plate (4-2) is positioned at the right end of the feeding seat (3-2), one end of an L-shaped connecting rod (4-3) is fixedly connected on the material pushing plate body (4-1), the other end of the L-shaped connecting rod (4-3) is fixedly connected at one end of a bilateral rack (4-4), a limiting plate sliding groove (4-5) is arranged on the bilateral rack (4-4), two ends of a spring sleeve rod (4-7) are respectively and fixedly connected with a spring seat (4-6) and a baffle plate (4-8), the spring seat (4-6) is fixedly connected on the front end face, both ends of a bilateral rack (4-4) are connected to a spring loop bar (4-7) in a sliding manner, the spring loop bar (4-7) is connected to a limiting plate (3-6) in a sliding way (4-5) of the limiting plate, a compression spring II (4-9) is sleeved on the spring loop bar (4-7) between a spring seat (4-6) and the bilateral rack (4-4), a driving gear (3-9) is in meshing transmission with the upper end of the bilateral rack (4-4), an incomplete gear (4-10) is in meshing transmission with the lower end of the bilateral rack (4-4), the incomplete gear (4-10) and a worm gear II (4-12) are fixedly connected to a worm gear rotating shaft (4-11), the worm gear rotating shaft (4-11) is rotatably connected to the front end face of a processing box body (3-1) through a bearing with a base, the worm gear II (4-12) is in meshing transmission with one end of the worm II (4-13), the middle end of the worm II (4-13) is rotatably connected to a worm seat (4-14) through a bearing with a seat, the worm seat (4-14) is rotatably connected to the front end face of the processing box body (3-1) through a bearing with a seat, the driven bevel gear (4-15) is fixedly connected to the other end of the worm II (4-13), and the driven bevel gear (4-15) is in meshing transmission with the driving bevel gear (2-6).

4. The environment-friendly biomass fuel pretreatment processing device according to claim 3, characterized in that: the material collecting box (6) is provided with a vertical plate (6-1) and a transverse plate (6-2); the material collecting box (6) is fixedly connected to the bottom plate (1-1) through two vertical plates (6-1), the lower end of the material collecting box (6) is fixedly connected with a transverse plate (6-2), a feeding hole is formed in the upper end of the right end of the material collecting box (6), the lower end of the inclined plate (5) is fixedly connected to the inner side of the feeding hole, and the linkage plate (7) is connected to the material collecting box (6) in a sliding mode.

5. The environment-friendly biomass fuel pretreatment processing device according to claim 4, characterized in that: the linkage plate (7) comprises a material receiving plate (7-1), a compression spring III (7-2), a folding rod (7-3), a shifting rod (7-4), a shifting fork (7-5), a guide rod (7-6), a connecting rod (7-7), a vertical rod frame (7-8), a round rod (7-9), a sliding groove rod (7-10), a shifting rod sliding groove (7-11) and a sliding rod (7-12); the material receiving plate (7-1) is connected in the material collecting box (6) in a sliding mode, the upper end and the lower end of the compression spring III (7-2) are fixedly connected to the material receiving plate (7-1) and the transverse plate (6-2) respectively, one end of the sliding rod (7-12) is fixedly connected to the lower end face of the material receiving plate (7-1), the other end of the sliding rod (7-12) is fixedly connected to one end of the folding rod (7-3), and the other end of the folding rod (7-3) is fixedly connected with a shifting rod (7-4); one end of a shifting fork (7-5) is in clearance fit in the grooved wheel (2-3), the middle end of the shifting fork (7-5) is connected on a guide rod (7-6) in a sliding way, two ends of the guide rod (7-6) are respectively fixedly connected between two vertical rod frames (7-8) through connecting rods (7-7), the upper ends of the two vertical rod frames (7-8) are fixedly connected on the bottom surface of the processing box body (3-1), a round rod (7-9) is fixedly connected between the two vertical rod frames (7-8), the round rod (7-9) is positioned between the two connecting rods (7-7), one end of a sliding groove rod (7-10) is rotatably connected at the other end of the shifting fork (7-5) through a hinge shaft, a shifting lever chute (7-11) is arranged on the sliding groove rod (7-10), the deflector rod (7-4) and the round rod (7-9) are in clearance fit in the deflector rod sliding groove (7-11), and the round rod (7-9) is positioned between the deflector rod (7-4) and the deflector rod (7-5).

6. The environment-friendly biomass fuel pretreatment processing device according to claim 5, characterized in that: the power transmission wheel I (1-4) is provided with two convex edges with gradually reduced height, the power transmission wheel II (2-1) and the power transmission wheel I (1-4) are identical in structure, the power transmission wheel II (2-1) and the power transmission wheel I (1-4) are arranged oppositely, and the convex edges on the power transmission wheel II (2-1) and the power transmission wheel I (1-4) are mutually blocked.

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