CN219540888U - Residue collection assembly for biomass combustion particle splitting machine - Google Patents

Abstract

The utility model discloses a residue collecting assembly for a biomass combustion particle splitting machine, which comprises a machine shell, wherein a first section of filter plate assembly capable of primarily filtering out finer residues is arranged in the machine shell, a second section of filter plate assembly capable of separating and collecting larger residues from finished products is arranged on one side of the first section of filter plate assembly, a cam mechanism is arranged at the bottom of the second section of filter plate assembly, the cam mechanism is hinged with a rotating mechanism, and an elastic linkage assembly is arranged between the first section of filter plate assembly and the second section of filter plate assembly. The biomass pellet fuel sorting device has the advantages that the biomass pellet fuel sorting device is additionally arranged on the original equipment, sorting and collecting are carried out according to the shape and the size of the biomass pellet fuel after the biomass pellet fuel is separated from the equipment, the further sorting is not needed, the working procedure is simplified, the working efficiency is improved, the cost input is reduced, and the structure is time-saving, labor-saving, simple and convenient.

Description

Residue collection assembly for biomass combustion particle splitting machine

Technical Field

The utility model relates to the field of biomass pellet fuel splitting machines, in particular to a traditional biomass pellet fuel annular die splitting machine.

Background

The traditional biomass particle splitting machine carries out synchronous splitting after biomass particles are extruded and formed, when biomass is extruded into solid cylindrical particles which extend out of a die, the solid cylindrical particles are broken in the form of hard force of the splitting machine, so that different breaking degrees are caused, various forms such as chips, semi-finished products and finished products can be formed after the biomass falls off and are directly separated from the splitting machine, and the biomass is classified and processed according to the shape and the size, so that the workload and the working strength are increased, the resource investment is increased, the time and the energy are consumed, and the aim of enterprises is violated. Therefore, the biomass pellet fuel is required to be classified and collected according to the shape and the size of the biomass pellet fuel after falling off, so that the biomass pellet fuel does not need to be further classified after falling off from the equipment, the working procedure is simplified, the working efficiency is improved, the cost input is reduced, and the structure is time-saving, labor-saving, simple and convenient.

Accordingly, there is a need for further improvements in existing biomass pellet fuel splitting machines.

Disclosure of Invention

The utility model aims to provide a residue collection assembly for a biomass combustion particle splitting machine, which is a structure capable of classifying and collecting biomass according to the shape and the size of the biomass after the biomass is separated from the device, so that biomass particle fuel does not need to be further classified after being separated from the device, the working procedure is simplified, the working efficiency is improved, the cost input is reduced, and the biomass combustion particle splitting machine is time-saving, labor-saving, simple and convenient.

In order to achieve the above purpose, the present utility model adopts the following scheme:

the utility model provides a subassembly is collected with residue to living beings burning granule cutting machine, includes the casing, be provided with the one section filter subassembly that can preliminary filter thinner residue in the casing, one section filter subassembly one side is provided with the two sections filter subassemblies that can collect great residue and finished product separation, two sections filter subassembly bottoms are provided with cam mechanism, cam mechanism articulates there is rotary mechanism, one section filter subassembly with set up to elasticity linkage subassembly between the two sections filter subassemblies.

Further, the casing is including the feed inlet, the feed inlet below is provided with the slant baffle box, both sides symmetry is provided with two sets of activity round holes around the slant baffle box, and the bottom is provided with the motor fixed plate.

Further, the one-section filter plate assembly is in including setting up two sets of arc fixed stations in slant baffle box left side, every group be provided with the round hole on the arc fixed station, the round hole alternates there is the pivot, it has the filtration short plate to articulate in the pivot, be provided with the little filtration hole of multiunit on the filtration short plate, it is provided with the inclined discharge gate to filter short plate bottom.

Further, the two-section filter plate assembly comprises a filter long plate arranged in the inclined guide groove, blind holes are formed in two sides of the filter long plate, a plurality of groups of large filter holes are formed in the surface of the filter long plate, an inclined sliding feeding plate is arranged below the filter long plate, and a separation plate is arranged between the discharge end of the filter long plate and the discharge end of the inclined sliding feeding plate.

Further, the cam mechanism comprises two groups of long rotating shafts inserted in the blind holes, driving arms are hinged to two ends of each group of long rotating shafts, a bolt is arranged between each group of driving arms and the long rotating shafts, cams are hinged to the other ends of the driving arms, and a linkage rod is arranged between the left group of cams and the right group of cams.

Further, the rotating mechanism comprises a left rotating shaft and a right rotating shaft which are arranged between the front cam and the rear cam, wherein a driven wheel is arranged in the middle of the left rotating shaft, the rotating mechanism further comprises a motor arranged on the motor fixing plate, a power wheel is arranged on the motor, and the power wheel is hinged with the driven wheel.

Further, the elastic linkage assembly comprises a first spring fixing table arranged on one side of the filtering short plate and a second spring fixing table arranged on one side of the filtering long plate, and three groups of springs are arranged between the first spring fixing table and the second spring fixing table.

In summary, compared with the prior art, the utility model has the following beneficial effects:

the biomass combustion particle splitting machine solves the defects of the existing biomass combustion particle splitting machine, and has the advantages that the structure is added on the original equipment, and the biomass combustion particle splitting machine is classified and collected according to the shape and the size of the biomass after being separated, so that biomass particle fuel does not need to be further classified after being separated from the equipment, the working procedure is simplified, the working efficiency is improved, the cost input is reduced, and the structure is time-saving, labor-saving, simple and convenient.

Drawings

FIG. 1 is a perspective partial cross-sectional view I of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a right side view of the present utility model;

FIG. 4 is a top view of the present utility model;

fig. 5 is a perspective partial sectional view of the second embodiment of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, a residue collecting assembly for biomass combustion particle splitting machine comprises a machine shell 1, wherein a first section of filter plate assembly 2 capable of primarily filtering out finer residues is arranged in the machine shell 1, a second section of filter plate assembly 3 capable of separating and collecting larger residues and finished products is arranged on one side of the first section of filter plate assembly 2, a cam mechanism 4 is arranged at the bottom of the second section of filter plate assembly 3, a rotating mechanism 5 is hinged to the cam mechanism 4, and an elastic linkage assembly 6 is arranged between the first section of filter plate assembly 2 and the second section of filter plate assembly 3.

The working flow is as follows:

during operation, the rotating mechanism 5 is in a rotating state, materials fall to the first-section filter plate assembly 2 through the inlet of the shell 1, biomass particles with smaller volumes are directly discharged outside the device to be collected after being filtered by the first-section filter plate assembly 2, semi-finished products and finished products with larger volumes slide to the second-section filter plate assembly 3 along the inclination of the first-section filter plate assembly 2, and the rotating mechanism 5 drives the cam mechanism 4 to eccentrically rotate, so that the second-section filter plate assembly 3 performs a vibration front polishing action, the semi-finished products are filtered and fall to the lower layer of the second-section filter plate assembly 3, the finished products are transmitted to a discharge port to realize residue classification collection, and in order to prevent the materials from being accumulated on the first-section filter plate assembly 2 after entering the shell 1, the second-section filter plate assembly 3 and the first-section filter plate assembly 2 adopt an elastic linkage assembly 6, so that the second-section filter plate assembly 3 effectively drives the first-section filter plate assembly 2 to vibrate before the action, and the filtration is more uniform and the blockage is prevented.

Three sides of the discharge hole 205 are inclined planes, biomass particles with smaller volume are filtered out and fall down to the discharge hole 205, then the biomass particles are discharged along the inclined planes, and after the biomass particles semi-finished product and the finished product are separated, the finished product is separated from the device from the upper surface of the isolation plate 303, and the semi-finished product is separated from the device from the lower surface of the isolation plate 303.

The long rotating shaft 401 and the driving arm 402 of the movable round hole 1021 are provided with bolts 403, so that the long rotating shaft 401 and the driving arm 402 cannot rotate mutually.

The machine shell 1 comprises a feed inlet 101, an inclined guide groove 102 is arranged below the feed inlet 101, two groups of movable round holes 1021 are symmetrically arranged on the front side and the rear side of the inclined guide groove 102, and a motor fixing plate 103 is arranged at the bottom of the inclined guide groove.

The section of filter plate assembly 2 comprises two groups of arc-shaped fixing tables 201 arranged on the left side of the inclined guide chute 102, each group of arc-shaped fixing tables 201 is provided with a round hole 202, each round hole 202 is penetrated with a rotary shaft 203, the rotary shafts 203 are hinged with a filter short plate 204, the filter short plate 204 is provided with a plurality of groups of small filter holes 2041, and the bottom of the filter short plate 204 is provided with an inclined discharge hole 205.

The two-section filter plate assembly 3 comprises a filter long plate 301 arranged in an inclined guide groove 102, blind holes 3011 are formed in two sides of the filter long plate 301, a plurality of groups of large filter holes 3012 are formed in the surface of the filter long plate 301, an inclined slide feeding plate 302 is arranged below the filter long plate 301, and a separation plate 303 is arranged between the discharge end of the filter long plate 301 and the discharge end of the inclined slide feeding plate 302.

The cam mechanism 4 comprises two groups of long rotating shafts 401 inserted in the blind holes 3011, wherein driving arms 402 are hinged to two ends of each group of long rotating shafts 401, a bolt 403 is arranged between each group of driving arms 402 and the long rotating shafts 401, a cam 404 is hinged to the other end of each driving arm 402, and a linkage rod 405 is arranged between the left group of cams 404 and the right group of cams 404.

The rotating mechanism 5 of the utility model comprises a left rotating shaft 501 and a right rotating shaft 501 which are arranged between the front cam 404 and the rear cam 404, wherein a driven wheel 502 is arranged in the middle of the left rotating shaft 501, the rotating mechanism 5 also comprises a motor 503 arranged on the motor fixing plate 103, a power wheel 504 is arranged on the motor 503, and the power wheel 504 is hinged with the driven wheel 502.

The elastic linkage assembly 6 of the present utility model comprises a first spring fixing platform 601 disposed on one side of the filter short plate 204 and a second spring fixing platform 602 disposed on one side of the filter long plate 301, and three groups of springs 603 are disposed between the first spring fixing platform 601 and the second spring fixing platform 602.

While there has been shown and described what is at present considered to be the fundamental principles and the main features of the utility model and the advantages thereof, it will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, but is described in the foregoing description merely illustrates the principles of the utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a biomass combustion granule residue collection subassembly for cutting machine, includes casing (1), its characterized in that: be provided with one section filter subassembly (2) that can preliminary filter finer residue in casing (1), one section filter subassembly (2) one side is provided with two sections filter subassemblies (3) that can collect great residue and finished product separation, two sections filter subassemblies (3) bottom is provided with cam mechanism (4), cam mechanism (4) are articulated have rotary mechanism (5), one section filter subassembly (2) with set up to elasticity linkage subassembly (6) between two sections filter subassemblies (3).

2. The residue collection assembly for a biomass burning particle splitting machine according to claim 1, wherein: the machine shell (1) comprises a feeding hole (101), an inclined guide groove (102) is arranged below the feeding hole (101), two groups of movable round holes (1021) are symmetrically formed in the front side and the rear side of the inclined guide groove (102), and a motor fixing plate (103) is arranged at the bottom of the inclined guide groove.

3. The residue collection assembly for a biomass burning particle splitting machine according to claim 2, wherein: the one-section filter plate assembly (2) comprises two groups of arc-shaped fixing tables (201) arranged on the left side of the inclined guide chute (102), round holes (202) are formed in each group of arc-shaped fixing tables (201), rotating shafts (203) are inserted in the round holes (202), short filter plates (204) are hinged to the rotating shafts (203), multiple groups of small filter holes (2041) are formed in the short filter plates (204), and inclined discharge holes (205) are formed in the bottoms of the short filter plates (204).

4. A residue collection assembly for a biomass burning particle splitting machine as claimed in claim 3, wherein: the two-section filter plate assembly (3) comprises a filter long plate (301) arranged in an inclined guide groove (102), blind holes (3011) are formed in two sides of the filter long plate (301), a plurality of groups of large filter holes (3012) are formed in the surface of the filter long plate, an inclined sliding feeding plate (302) is arranged below the filter long plate (301), and a separation plate (303) is arranged between the discharge end of the filter long plate (301) and the discharge end of the inclined sliding feeding plate (302).

5. The residue collection assembly for a biomass burning particle splitting machine of claim 4, wherein: the cam mechanism (4) comprises two groups of long rotating shafts (401) which are inserted into the blind holes (3011), each group of long rotating shafts (401) is hinged with driving arms (402), a bolt (403) is arranged between each group of driving arms (402) and the long rotating shafts (401), a cam (404) is hinged with the other end of each driving arm (402), and a linkage rod (405) is arranged between the left group of cams (404) and the right group of cams (404).

6. The residue collection assembly for a biomass burning particle splitting machine of claim 5, wherein: the rotary mechanism (5) comprises a left rotary shaft (501) and a right rotary shaft (501) which are arranged between the front cam (404) and the rear cam (404), wherein a driven wheel (502) is arranged in the middle of the left rotary shaft (501), the rotary mechanism (5) further comprises a motor (503) arranged on the motor fixing plate (103), a power wheel (504) is arranged on the motor (503), and the power wheel (504) is hinged with the driven wheel (502).

7. The residue collection assembly for a biomass burning particle splitting machine of claim 6, wherein: the elastic linkage assembly (6) comprises a first spring fixing table (601) arranged on one side of the filtering short plate (204) and a second spring fixing table (602) arranged on one side of the filtering long plate (301), and three groups of springs (603) are arranged between the first spring fixing table (601) and the second spring fixing table (602).