CN115414850A

CN115414850A - Biomass energy particle production is with even compounding dust collecting equipment

Info

Publication number: CN115414850A
Application number: CN202211006926.2A
Authority: CN
Inventors: 杨秦军
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-22
Filing date: 2022-08-22
Publication date: 2022-12-02

Abstract

The invention discloses uniform mixing and dedusting equipment for biomass energy particle production, which is structurally provided with a handle, a dedusting device, a control button and a radiating port, wherein the handle is arranged at the rear side end of the dedusting device and is matched with the rear side end of the dedusting device, the control button is arranged on the handle, the radiating port and the dedusting device are of an integrated structure and are arranged in a penetrating way, the lateral changing position of a fixed block is driven by the displacement power generated by a plate frame, the length of the whole connecting frame is changed due to the flexibility of a telescopic plate, a collision rod transversely penetrates and moves, the side end of the collision rod pushes and presses an elastic block, the length extension of the whole connecting frame is further assisted, when a vertical plate is reciprocated and penetrated and displaced by the rebound force of the elastic block, the connecting frame is convenient to change continuously, the distance between the oppositely arranged plate frames is changed continuously, the effect of screening dust materials is enhanced, the dust materials are subjected to flow friction with the rotary balls twice, the dust materials are convenient to increase the cutting effect, and the dust materials entering a dust collecting groove are enough.

Description

Biomass energy particle production is with even compounding dust collecting equipment

Technical Field

The invention belongs to the field of biomass energy, and particularly relates to uniform mixing and dust removing equipment for biomass energy particle production.

Background

The biomass energy particles are used as novel clean fuel energy, the production and the application of the biomass energy particles are gradually wide and common, the biomass energy particles are prepared into particles on the basis of raw materials through the processes of drying, crushing, extruding, drying and the like, and the particles are uniformly mixed in a mixing cylinder, so that the biomass energy particles can be more uniformly combusted as fuel at the later stage.

Based on the inventor discovers that the existing uniform mixing and dedusting equipment for biomass energy particle production has the following defects:

dust collecting equipment when removing dust to the compounding section of thick bamboo after the operation of biomass energy granule mixture, because the biomass energy granule receives the stirring effect at the compounding in-process, the partial straw grass leaf raw materials that are extruded the blocking can come out in the particulate state, remain in a section of thick bamboo, get into the dust collecting tank after being adsorbed by equipment, be bulky matter jam easily in ventilative cotton front side, lead to the fan to see through the adsorption affinity that ventilative cotton produced and weaken, make dust collection efficiency reduce.

Therefore, a uniform mixing and dedusting device for biomass energy particle production is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide uniform mixing and dust removing equipment for biomass energy particle production, so as to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a production of biomass energy granule is with even compounding dust collecting equipment, its structure is equipped with handle, dust collector, control button, thermovent, the handle is installed at dust collector back side and is mutually supported, control the button and settle on the handle, the thermovent just link up the setting with dust collector for integral structure.

The dust removal device is provided with a dust suction end, a dust collection groove, breathable cotton, a fan and a circuit board, the circuit board is connected with the inside of the handle and matched with the control button, the heat dissipation port is located on the outer side of the dust collection groove, the dust collection groove is arranged behind the dust suction end in a penetrating mode, the breathable cotton and the dust collection groove are of an integrated structure and located at the tail end of the breathable cotton and the dust collection groove, the fan is movably matched behind the periphery of the dust collection groove, and the circuit board is connected with and matched with the rear side of the fan.

As a further improvement of the invention, the dust collection end is provided with a dust collection port, a buffer cavity and a movable frame, the movable frame is movably arranged at the front side of the dust collection groove and is arranged in a penetrating way, the buffer cavity and the dust collection port are of an integrated structure and are positioned at the side end of the buffer cavity in a penetrating way, the movable frame is embedded in the buffer cavity and is in sliding fit with the position of the rear side of the buffer cavity, the diameter of the dust collection port is smaller than the diameter of the buffer cavity, and the movable frame can move within a certain limit.

As a further improvement of the invention, the movable frame is provided with a plate frame, a through hole, a connecting frame and a rotating ball, the upper end and the lower end of the plate frame are embedded into and slide on the edge end of the inner side of the buffer cavity, the through hole and the plate frame are of an integrated structure, the connecting frame is connected to the side end of the plate frame, the rotating ball moves on the inner side of the through hole, the two plate frames are symmetrically distributed, and the distance between the two plate frames changes along with the connecting frame.

As a further improvement of the invention, the connecting frame is provided with a fixed block, a telescopic plate, a collision pressure rod, a vertical plate and an elastic block, one side end of the fixed block is fixedly connected with the plate frame, the telescopic plate is connected between the fixed blocks and movably matched, the collision pressure rod penetrates through the middle end of the vertical plate, the elastic block is positioned on the inner side of the fixed block and movably matched with the elastic block, the telescopic plate has transverse flexibility, a spring is wound outside the collision pressure rod, and the elastic block is a block made of rubber and has certain toughness.

As a further improvement of the invention, the rotary ball is provided with an elastic band and a cutting device, the upper end and the lower end of the elastic band are fixedly connected with the upper end and the lower end of the inner side of the through hole, the cutting device is movably arranged in the through hole, the cutting device is connected with the elastic band in a penetrating way and is movably matched with the elastic band, the elastic band is made of butadiene rubber, the elastic band has better traction degree and elasticity, and the cutting device is of a ring-ball structure.

As a further improvement of the invention, the cutting device is provided with a fixing ring, a tough ring, a matching frame and cutting blocks, the elastic band penetrates through the fixing ring and the tough ring, the fixing ring is positioned on the inner side of the tough ring, the matching frame is connected between the outer side of the fixing ring and the inner side of the tough ring in a movable matching mode, the cutting blocks are hinged to the outer peripheral end of the tough ring, the tough ring is made of rubber and has certain toughness, the matching frame is provided with six cutting blocks which are uniformly arranged in an annular mode, and the six cutting blocks are uniformly arranged outside the tough ring in an annular mode.

As a further improvement of the invention, the matching frame is provided with a folding rod, an auxiliary rod and a top rod, the upper end and the lower end of the folding rod are respectively connected with a fixed ring and a tough ring, the two side ends of the auxiliary rod are connected with the middle end of the folding rod and are movably matched, the top rod penetrates through the middle end of the auxiliary rod, the upper end of the top rod is movably matched with the inner side of the tough ring, the folding rods can perform angular folding movement and are provided with two symmetrical structures which are in a rhombic shape integrally, the auxiliary rod has flexibility, the top rod can perform vertical displacement, and springs are wound at the middle-lower positions of the peripheries of the auxiliary rod.

As a further improvement of the invention, the cutting block is provided with a bearing, an angle plate, an air port and a movable groove, the bearing is hinged on the tough ring, the angle plate is movable at the outer side end of the tough ring, the lower end of the angle plate is hinged with the bearing, the air port and the angle plate are of an integrated structure, the movable groove is positioned at the inner side of the angle plate, the elastic ball moves in the movable groove, the angle plate is of a triangular shape, the inner part of the angle plate is a plate object in a hollow groove state, the elastic ball is of a spherical structure, the outer ring of the elastic ball is made of an elastic plastic body material, the elastic ball has better elastic force, and the inner part of the elastic ball is wrapped with a ball block with certain weight.

Compared with the prior art, the invention has the following beneficial effects:

1. produce displacement power through the grillage, drive fixed block side direction change position, the flexibility of expansion plate makes linking up the whole length change that has of frame, it does transversely to run through the activity to hit the depression bar, its side produces the bullet piece and bulldozes, further supplementary linking up the holistic length of frame and extends, the bounce of bullet piece makes the riser during reciprocal displacement that runs through, be convenient for link up the continuous change of frame, and make the interval between the grillage of relative setting constantly change, play the effect of strengthening the screening to the dirt material, and the dirt material need change the ball through twice, rather than the flow friction that produces, the effect that cuts of being convenient for the dirt material increase, thereby make the enough fine crushing of dirt material that gets into in the dust collecting tank.

2. Folding the reciprocal book of pole by the flexible cooperation of auxiliary rod and moving, and drive and take the ejector pin to produce the top collision force to tough ring, enable the continuous deformation of tough ring, bring power for the bearing, do benefit to the scute and do the small-amplitude and roll over and move, by the weight that the inside ball piece of elastic ball has, the whole displacement in the activity groove of supplementary elastic ball, receive the extrusion and deform in its displacement, and then be convenient for with gas outwards extrude and convert via the gas port, produce the air-blowing effect outside the scute, thereby do the scuttle that does the dirt material of doing the horn shape and cut, and be difficult for with dirt material attached to on its outer terminal surface, strengthen the fine crushing degree of dirt material, and avoid the material to adhere to and reduce cutting device's the effort of cutting.

Drawings

FIG. 1 is a schematic structural diagram of uniform mixing and dust removing equipment for biomass energy particle production.

Fig. 2 is a schematic view of the internal cross-sectional structure of a dust removing device according to the present invention.

Fig. 3 is a schematic view of the internal cross-sectional structure of a dust suction end according to the present invention.

Fig. 4 is a schematic view of an internal cross-sectional structure of a movable frame according to the present invention.

FIG. 5 is a schematic view of an internal cross-sectional structure of a linking frame according to the present invention.

Fig. 6 is a schematic view of the internal cross-sectional structure of a rotary ball according to the present invention.

FIG. 7 is a schematic cross-sectional view of the cutting device of the present invention.

Fig. 8 is a schematic view of the internal cross-sectional structure of a fitting frame according to the present invention.

FIG. 9 is a schematic view of the internal cross-section of a cutting block according to the present invention.

In the figure: the dust collector comprises a handle-1, a dust collector-2, a control button-3, a heat dissipation port-4, a dust collection end-21, a dust collection groove-22, breathable cotton-23, a fan-24, a circuit board-25, a dust collection port-211, a buffer cavity-212, a movable frame-213, a plate frame-a 1, a through port-a 2, a connecting frame-a 3, a rotating ball-a 4, a fixed block-a 31, a telescopic plate-a 32, a collision rod-a 33, a vertical plate-a 34, an elastic block-a 35, an elastic belt-a 41, a cutting device-a 42, a fixed ring-q 1, a tough ring-q 2, a matching frame-q 3, a cutting block-q 4, a folding rod-q 31, an auxiliary rod-q 32, a top rod-q 33, a bearing-q 41, an angle plate-q 42, an air port-q 43, an elastic ball-q 44 and a movable groove-q 45.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides uniform mixing and dedusting equipment for biomass energy particle production, which is structurally provided with a handle 1, a dedusting device 2, an operation button 3 and a heat dissipation port 4, wherein the handle 1 is arranged at the rear side end of the dedusting device 2 and is mutually matched, the operation button 3 is arranged on the handle 1, and the heat dissipation port 4 and the dedusting device 2 are of an integrated structure and are arranged in a penetrating way.

The dust removal device 2 is provided with a dust suction end 21, a dust collection groove 22, breathable cotton 23, a fan 24 and a circuit board 25, the circuit board 25 is connected with the inside of the handle 1 and matched with the operation button 3, the heat dissipation port 4 is positioned on the outer side of the dust collection groove 22, the dust collection groove 22 is arranged behind the dust suction end 21 in a penetrating mode, the breathable cotton 23 and the dust collection groove 22 are of an integrated structure and positioned at the tail end of the breathable cotton, the fan 24 is movably matched on the rear portion of the periphery of the dust collection groove 22, and the circuit board 25 is connected with and matched with the rear side of the fan 24.

Wherein, dust absorption end 21 is equipped with dust absorption mouth 211, buffer chamber 212, adjustable shelf 213 activity is in dust collecting tank 22 front side and link up the setting, buffer chamber 212 and dust absorption mouth 211 are integrated structure and link up and are located its side, adjustable shelf 213 imbeds in buffer chamber 212 and sliding fit its side position department to the back side partially, dust absorption mouth 211 footpath mouth is less than buffer chamber 212 footpath width, adjustable shelf 213 can certain limit displacement activity, the footpath mouth of dust absorption mouth 211 is less makes the adsorption affinity stronger, and buffer chamber 212 provides the buffer memory space for adsorbing the biomass energy particulate matter dirt thing that gets into, and further finely cut and is filtered then get into in dust collecting tank 22 under the effect of adjustable shelf 213.

Wherein, adjustable shelf 213 is equipped with grillage a1, through opening a2, links up a3, changes ball a4, grillage a1 upper and lower end embedding slides in the inboard edge end of cushion chamber 212, through opening a2 and grillage a1 are the integrated structure, it connects at grillage a1 side to link up a3, it is inboard in through opening a2 to change ball a4 activity, grillage a1 is equipped with two, and is the symmetric distribution, and the interval between the two changes along with linking frame a3, grillage a1 changes the interval along with linking frame a3, can cushion the interior absorption speed of dirt material and filter it, changes ball a4 and rotates in through opening a2, further plays cutting effect for the dirt material that flows through in through opening a 2.

The connecting frame a3 is provided with a fixed block a31, a telescopic plate a32, a collision pressure rod a33, a vertical plate a34 and an elastic block a35, one side end of the fixed block a31 is fixedly connected with the plate frame a1, the telescopic plate a32 is connected between the fixed blocks a31 and movably matched, the collision pressure rod a33 penetrates through the middle end of the vertical plate a34, the elastic block a35 is located on the inner side of the fixed block a31, the collision pressure rod a33 is movably matched with the elastic block a35, the telescopic plate a32 has transverse flexibility, a spring is wound outside the collision pressure rod a33, the elastic block a35 is a rubber block and has certain toughness, the telescopic change of the telescopic plate a32 assists the whole length change of the connecting frame a3, the collision pressure rod a33 is displaced to generate pushing pressure on the elastic block a35, and the collision pressure rod a33 runs through left and right under the cooperation of the rebounding acting force of the elastic block a35, so that the telescopic plate a32 can be flexibly changed to generate displacement force.

The specific use mode and function of the embodiment are as follows: a person holds the handle 1 by hand, starts a switch to adjust the control button 3, controls the circuit board 25 to control the rotating speed of the fan 24, controls the dust absorption acting force during the dust removal operation of the whole equipment, removes dust of a mixing barrel for producing biomass energy particles by the handheld equipment, ensures that the dust absorption force is stronger due to the small caliber of the dust absorption opening 211, and after absorbing biomass energy dust into the buffer cavity 212, the movable frame 213 stops the biomass energy dust to a certain extent so that the dust can have the buffer speed and slowly enter the dust collection groove 22 through the through opening a2, and has certain interception power to the dust when the dust flows through the through opening a2 through the spherical structure of the rotary ball a4, so that the plate frame a1 is impacted by the dust to generate displacement power to drive the lateral changing position of the fixed block a31, and under the matching of the telescopic property of the telescopic plate a32, the whole of the connecting frame a3 can have length change, the position of the vertical plate a34 is changed, and further the impact pressure rod a33 with a spring around the periphery is transversely penetrated, the side end of the impact pressure rod pushes and presses the elastic block a35, the integral length extension of the connecting frame a3 is further assisted, when the rebound force of the elastic block a35 enables the vertical plate a34 to reciprocate to penetrate and displace, the expansion plate a32 has reset compression tension, the connecting frame a3 is convenient to change continuously, the distance between the oppositely arranged plate frames a1 is changed continuously, the effect of strengthening screening is achieved for dust materials, and the dust materials need to be subjected to flowing friction with the expansion plate a4 twice, the effect of cutting is convenient for increasing the dust materials, so that the dust materials entering the dust collecting groove 22 are sufficiently crushed, and the phenomenon that the inner side of the breathable cotton 23 is blocked when the size of the material is larger is avoided, and the adsorption acting force is reduced.

Example 2:

as shown in figures 6 to 9:

the rotary ball a4 is provided with an elastic belt a41 and a cutting device a42, the upper end and the lower end of the elastic belt a41 are fixedly connected with the upper end and the lower end of the inner side of the through hole a2, the cutting device a42 is movably arranged in the through hole a2, the cutting device a42 is connected to the elastic belt a41 in a penetrating mode and is movably matched with the elastic belt a41, the elastic belt a41 is made of butadiene rubber and has good dragging degree and elasticity, the cutting device a42 is of a ring-ball structure, the elastic force of the elastic belt a41 assists the cutting device a42 to move up and down and constantly rotates, and therefore dust materials passing through convection can be intercepted and cut.

Wherein, cutting device a42 is equipped with solid fixed ring q1, tough ring q2, cooperation frame q3, cuts piece q4, elastic band a41 runs through in solid fixed ring q1 and tough ring q2, solid fixed ring q1 is located tough ring q2 inboard, cooperation frame q3 links up and locates and the clearance fit between solid fixed ring q1 outside and tough ring q2 inboard, it connects in tough ring q2 peripheral end to cut piece q4 articulated, tough ring q2 is the rubber material, has certain toughness, cooperation frame q3 is equipped with six, and is cyclic annular evenly arranged, it is equipped with six outside tough ring q2 to cut piece q4, is cyclic annular evenly distributed, tough ring q 2's toughness makes it can carry out cyclic annular deformation when cooperation frame q3 changes, makes the turning force better, and makes and cuts piece q4 atress and produces bigger power, makes the effect of cutting better.

The matching frame q3 is provided with a folding rod q31, an auxiliary rod q32 and a top rod q33, the upper end and the lower end of the folding rod q31 are respectively connected with a fixed ring q1 and a tough ring q2, the two side ends of the auxiliary rod q32 are connected with and movably matched with the middle end of the folding rod q31, the top rod q33 penetrates through the middle end of the auxiliary rod q32, the upper end of the top rod q33 is movably matched with the inner side of the tough ring q2, the folding rod q31 can be folded at an angle and is provided with two symmetrical structures, the whole structure is in a diamond shape, the auxiliary rod q32 has elasticity, the top rod q33 can move up and down, a spring is wound at the middle lower position of the periphery of the top rod q33, the angle of the folding rod q31 in the telescopic matching of the auxiliary rod q32 changes and provides a resetting pulling force for the folding rod q31, the top rod q33 changes along with the position of the auxiliary rod q32, and then changes the top force of the tough ring q2, so that the auxiliary rod q32 is matched with the auxiliary rod q32, and provides an angle changing force for the folding rod q 31.

The cutting block q4 is provided with a bearing q41, an angle plate q42, an air port q43 and a movable groove q45, the bearing q41 is hinged on the tough ring q2, the angle plate q42 moves at the outer side end of the tough ring q2, the lower end of the angle plate q42 is hinged and connected with the bearing q41, the air port q43 and the angle plate q42 are of an integrated structure, the movable groove q45 is located on the inner side of the angle plate q42, the elastic ball q44 moves in the movable groove q45, the angle plate q42 is of a triangular shape and is a plate object with an inner part in a hollow groove state, the elastic ball q44 is of a spherical structure, the outer ring of the elastic ball q is made of an elastic plastic body material, the elastic ball q44 has good elastic force, the ball block wrapped with a certain weight is contained in the inner part, the elastic ball q44 moves in the movable groove q45, deformation is generated under extrusion force, gas is extruded outwards through the air port q43, the angle plate q42 is favorably driven to hinge the bearing q41 to rotate and swing, and air blowing force is easily generated outside the angle plate q42, so that the cutting material is prevented from being attached to the end face of the cutting block.

The specific use mode and function of the embodiment are as follows: through the good elasticity of the elastic belt a41, when the cutting device a42 and dust materials are mutually rubbed, the elastic belt a41 rotates and is moved, so that the displacement power is conveniently brought to the cutting device, the fixed ring q1 rotates more flexibly, the contact end face of the tough ring q2 and the dust materials is continuously changed, the extrusion force applied to the folding rod q31 is different, the folding rod q31 is conveniently folded at an angle, the folding rod q31 is folded in a reciprocating way by the telescopic matching of the auxiliary rod q32, the belt ejection rod q33 is driven to generate a top collision force to the tough ring q2, the tough ring q2 can be continuously deformed, the bearing q41 is powered, the small-amplitude folding of the angle plate q42 is facilitated, the angular plate q42 is favorably folded at a small amplitude by the weight of a ball block in the elastic ball q44, the whole auxiliary elastic ball q44 is displaced in the movable groove q45, the deformation is extruded in the displacement process, so that the gas is conveniently extruded outwards through the air port q43, the air blowing effect is generated outside the angle plate q42, the angular plate q42 is favorably used for cutting the dust materials, the dust materials are not easy to be attached to the end face of the cutting device, the fine dust materials are not easy to be attached to the cutting device, and the fine dust materials are not easy to be attached to reduce the attachment degree of the cutting device, and the cutting device is prevented from reducing the attachment of the fine dust materials.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a production of biomass energy granule is with even compounding dust collecting equipment, its structure is equipped with handle (1), dust collector (2), controls button (3), thermovent (4), side and mutually supporting behind dust collector (2) are installed in handle (1), it settles on handle (1) to control button (3), thermovent (4) and dust collector (2) are the integrated structure and link up the setting, its characterized in that:

the dust removal device (2) is provided with a dust suction end (21), a dust collection groove (22), breathable cotton (23), a fan (24) and a circuit board (25), the circuit board (25) is connected with the inside of the handle (1) and matched with the operation control button (3), the heat dissipation port (4) is located on the outer side of the dust collection groove (22), the dust collection groove (22) is arranged behind the dust suction end (21) in a penetrating mode, the breathable cotton (23) and the dust collection groove (22) are of an integrated structure and located at the tail end position of the structure, the fan (24) is movably matched with the rear portion of the periphery of the dust collection groove (22), and the circuit board (25) is connected with and matched with the rear portion of the fan (24).

2. The uniform mixing and dedusting equipment for biomass energy particle production as claimed in claim 1, is characterized in that: the dust collection device is characterized in that the dust collection end (21) is provided with a dust collection port (211), a buffer cavity (212) and a movable frame (213), the movable frame (213) is movably arranged on the front side of the dust collection groove (22) in a penetrating mode, the buffer cavity (212) and the dust collection port (211) are of an integrated structure and are positioned on the side end in a penetrating mode, and the movable frame (213) is embedded into the buffer cavity (212) and is in sliding fit with the position, close to the rear side, of the buffer cavity.

3. The uniform mixing and dedusting equipment for biomass energy particle production as claimed in claim 2, characterized in that: the adjustable shelf (213) is provided with a plate frame (a 1), a through hole (a 2), a connecting frame (a 3) and a rotating ball (a 4), the lower end of the plate frame (a 1) is embedded into the edge end inside the buffer cavity (212), the through hole (a 2) and the plate frame (a 1) are of an integrated structure, the connecting frame (a 3) is connected to the side end of the plate frame (a 1), and the rotating ball (a 4) moves inside the through hole (a 2).

4. The uniform mixing and dedusting equipment for biomass energy particle production as claimed in claim 3, characterized in that: link up frame (a 3) and be equipped with fixed block (a 31), expansion plate (a 32), hit depression bar (a 33), riser (a 34), bullet piece (a 35), a fixed block (a 31) side and grillage (a 1) fixed connection, expansion plate (a 32) links up between fixed block (a 31) and clearance fit, hit depression bar (a 33) and pass riser (a 34) middle end, bullet piece (a 35) is located fixed block (a 31) inboardly, hit depression bar (a 33) and bullet piece (a 35) clearance fit.

5. The uniform mixing and dedusting equipment for biomass energy particle production according to claim 3, characterized in that: the rotary ball (a 4) is provided with an elastic belt (a 41) and a cutting device (a 42), the upper end and the lower end of the elastic belt (a 41) are fixedly connected with the upper end and the lower end of the inner side of the through hole (a 2), the cutting device (a 42) is movably arranged in the through hole (a 2), and the cutting device (a 42) is connected with the elastic belt (a 41) in a penetrating mode and is movably matched with the elastic belt (a 41).

6. The uniform mixing and dedusting equipment for biomass energy particle production according to claim 5, is characterized in that: cutting device (a 42) is equipped with solid fixed ring (q 1), tough ring (q 2), cooperation frame (q 3), cuts piece (q 4), elastic band (a 41) is run through in solid fixed ring (q 1) and tough ring (q 2), gu fixed ring (q 1) is located tough ring (q 2) inboard side, cooperation frame (q 3) link up and locate and the clearance fit between solid fixed ring (q 1) outside and tough ring (q 2) inboard, cut piece (q 4) articulated connection at tough ring (q 2) outer peripheral end.

7. The uniform mixing and dedusting equipment for biomass energy particle production according to claim 6, characterized in that: the matching frame (q 3) is provided with a folding rod (q 31), an auxiliary rod (q 32) and an ejector rod (q 33), the upper end and the lower end of the folding rod (q 31) are respectively connected with a fixing ring (q 1) and a tough ring (q 2), the two side ends of the auxiliary rod (q 32) are connected with the middle end of the folding rod (q 31) and movably matched with the middle end of the folding rod, the ejector rod (q 33) penetrates through the middle end of the auxiliary rod (q 32), and the upper end of the ejector rod (q 33) is movably matched with the inner side of the tough ring (q 2).

8. The uniform mixing and dedusting equipment for biomass energy particle production according to claim 6, characterized in that: the cutting block (q 4) is provided with a bearing (q 41), an angle plate (q 42), an air port (q 43) and a movable groove (q 45), the bearing (q 41) is hinged to the tough ring (q 2), the angle plate (q 42) moves at the outer side end of the tough ring (q 2), the lower end of the angle plate (q 42) is hinged to the bearing (q 41), the air port (q 43) and the angle plate (q 42) are of an integrated structure, the movable groove (q 45) is located on the inner side of the angle plate (q 42), and the elastic ball (q 44) moves in the movable groove (q 45).