CN216704047U - Biomass particle mixing device - Google Patents

Abstract

The utility model is suitable for the auxiliary field of biomass particle production, and provides a biomass particle mixing device.A rotary column platform is arranged in the middle position in a mixing base, a conical stirring bin is arranged on the lower end surface of the mixing base, a discharge control valve is arranged on the lower end surface of the conical stirring bin, an electric stirring push rod is positioned in the rotary column platform and the conical stirring bin, a feeding bin is arranged on the outer edge position of the mixing base, and the rotary column platform, the electric stirring push rod and the discharge control valve are all connected with an external power supply and an external control device; and the back of the feeding bin is provided with the electric guide rail and the double-cone-head sliding block, so that the problem that the material is likely to be blocked when entering the conical stirring bin is solved.

Description

Biomass particle mixing device

Technical Field

The utility model belongs to the field of biomass particle production assistance, and particularly relates to a biomass particle mixing device.

Background

The biomass particles are formed by performing cold compact molding on crushed biomass straws, forestry wastes and other raw materials by using a compression roller and a ring die at normal temperature. The density of the raw material is generally 0.1-0.13 t/m3, the density of the formed particles is 1.1-1.3 t/m3, the storage and the transportation are convenient, and the combustion performance of the biomass is greatly improved. Biomass particle use: the feed for livestock in large farms is convenient to store and transport; the household heating and living energy utilization is clean and pollution-free, and is convenient to store and transport; industrial boilers and kiln fuels replace coal and gas, so that the environmental pollution is solved; can be used as fuel for gasification power generation and thermal power generation, and solves the problem of shutdown of small thermal power plants.

Along with the progress of science and technology in the present society, and people are concerned about environmental problems, people begin to produce biomass particle materials widely used in life, the existing biomass particle technology is relatively mature, but partial defects still exist in practical use, for example, because biomass particles are mixed with rice husks, straws, sawdust, straws, wheat straws, cotton stalks, peanut shells, corncobs, branches, leaves, sawdust and other crops, the diameters of the materials are different, the materials need to be fully stirred before compression manufacturing, the existing stirrer is difficult to stir, cover and block the mixing bin for the materials with different sizes, and a biomass particle mixing device is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a biomass particle mixing device, and aims to solve the problems in the background technology.

The utility model is realized in such a way that a biomass particle mixing device comprises a mixing base, a rotary column base, an electric stirring push rod, a conical stirring bin, a discharge control valve and a feeding bin, and is characterized in that the rotary column base is arranged in the middle of the inside of the mixing base, the conical stirring bin is arranged on the lower end face of the mixing base, the discharge control valve is arranged on the lower end face of the conical stirring bin, the electric stirring push rod is positioned in the rotary column base and the conical stirring bin, the feeding bin is arranged on the outer edge of the mixing base, and the rotary column base, the electric stirring push rod and the discharge control valve are all connected with an external power supply and an external control device and are controlled by the external control device.

Further, mix the base and include base main part, central shaft hole, feeding storehouse installing port and toper stirring storehouse connector, the inside central point of base main part puts and is equipped with central shaft hole, central shaft hole with rotatory pylon mutually supports, there are six outer edge evenly distributed of base main part feeding storehouse installing port, feeding storehouse installing port with the feeding storehouse is mutually supported, the terminal surface is close to outer edge position evenly distributed has six under the base main part the toper stirring storehouse connector.

Furthermore, rotatory pylon includes pylon main part, electric putter mounting hole and electric putter connecting plate, the inside intermediate position of pylon main part is equipped with the electric putter mounting hole, the electric putter mounting hole with stirring electric putter mutually supports, pylon main part up end just is located the outer position of following of electric putter mounting hole is equipped with the electric putter connecting plate.

Furthermore, the stirring electric push rod comprises a push rod motor, a stirring push rod, a right-angle stirring sheet and a triangular stirring sheet, wherein the stirring push rod is arranged on the left side of the lower end face of the push rod motor, and the right-angle stirring sheet and the triangular stirring sheet are sequentially arranged on the outer side of the stirring push rod from top to bottom along the positions.

Furthermore, toper stirring storehouse is including stirring storehouse casing, stirring storehouse upper cover, spliced pole, stirring storehouse centre bore and pan feeding window, stirring storehouse casing up end is equipped with the stirring storehouse upper cover, stirring storehouse upper cover intermediate position is equipped with stirring storehouse centre bore, the stirring storehouse centre bore is peripheral and be in stirring storehouse upper cover up end position evenly distributed has six the spliced pole, stirring storehouse upper cover outside edge position evenly distributed has six the pan feeding window, the pan feeding window with the feed storehouse is mutually supported.

Furthermore, the feeding bin comprises a feeding bin shell, a feeding bin inner cavity, electric guide rails, an extension back plate and double-cone-head sliding blocks, the feeding bin inner cavity is formed in the feeding bin shell, the extension back plate is arranged above the feeding bin shell rear side back plate, the two electric guide rails are symmetrically distributed on the feeding bin shell rear side back plate and the extension back plate along a longitudinal symmetry axis, and the double-cone-head sliding blocks are arranged in the electric guide rails.

Furthermore, the central shaft hole, the electric push rod mounting hole, the stirring push rod and the stirring bin central shaft hole are located on the same central axis.

Furthermore, the mixing base is connected with the conical stirring bin in a bolt connection mode.

Further, the rotary stage is operable to rotate independently of the mixing base.

The beneficial technical effects related to the implementation of the utility model are as follows: firstly, as the stirring device is provided with the rotary column base and the stirring electric push rod, the stirring and overturning of materials and the dredging of the materials in the conical stirring bin can be realized, the stirring speed and the stirring effect are greatly improved, and the problem that the inlet and the outlet are blocked due to the high viscosity of the materials is better solved; and the back of the feeding bin is provided with an electric guide rail and a double-cone-head sliding block, so that the problem that the material is likely to be blocked when entering the conical stirring bin is solved.

Drawings

FIG. 1 is an installation schematic of the present invention;

FIG. 2 is a schematic view of a rotary spar of the present invention;

FIG. 3 is a first perspective view of the mixing base and conical blending hopper of the present invention;

FIG. 4 is a second perspective view of the mixing base and conical blending hopper of the present invention

FIG. 5 is a schematic view of the stirring power push rod of the present invention;

FIG. 6 is a schematic view of a feed bin of the present invention;

fig. 7 is a partially enlarged view of a portion a in fig. 6.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

It should be noted that the rotating column 2 and the stirring electric push rod 3 are the prior art features and belong to the common general knowledge of those skilled in the art, and therefore, the detailed description thereof is omitted.

Referring to fig. 1-7, the utility model relates to a biomass particle mixing device, which comprises a mixing base 1, a rotary column base 2, an electric stirring push rod 3, a conical stirring bin 4, a discharge control valve 5 and a feeding bin 6, and is characterized in that the rotary column base 2 is arranged in the middle of the inside of the mixing base 1, the conical stirring bin 4 is arranged on the lower end face of the mixing base 1, the discharge control valve 5 is arranged on the lower end face of the conical stirring bin 4, the electric stirring push rod 3 is positioned inside the rotary column base 2 and the conical stirring bin 4, the feeding bin 6 is arranged on the outer edge of the mixing base 1, and the rotary column base 2, the electric stirring push rod 3 and the discharge control valve 5 are all connected with an external power supply and an external control device and are controlled by the external control device.

Mix base 1 and include base main part 101, central shaft hole 102, feeding storehouse installing port 103 and toper stirring storehouse connector 104, the inside central point of base main part 101 puts and is equipped with central shaft hole 102, central shaft hole 102 mutually supports with rotatory pylon 2, base main part 101 is outer along evenly distributed has six feeding storehouse installing ports 103, feeding storehouse installing ports 103 mutually supports with feeding storehouse 6, terminal surface is close to outer edge position evenly distributed has six toper stirring storehouse connectors 104 under the base main part 101.

Rotating column base 2 includes pylon main part 201, electric putter mounting hole 202 and electric putter connecting plate 203, and the inside intermediate position of pylon main part 201 is equipped with electric putter mounting hole 202, and electric putter mounting hole 202 and stirring electric putter 3 mutually support, and the position is equipped with electric putter connecting plate 203 along the position outside just being located electric putter mounting hole 202 in pylon main part 201 up end.

Stirring electric putter 3 includes push rod motor 301, stirring push rod 302, right angle stirring piece 303 and triangle stirring piece 304, and the terminal surface left side is equipped with stirring push rod 302 under push rod motor 301, and stirring push rod 302 outside is followed the position down and is equipped with right angle stirring piece 303 and triangle stirring piece 304 from top to bottom in proper order.

Conical stirring storehouse 4 is including stirring storehouse casing 401, stirring storehouse upper cover 402, spliced pole 403, stirring storehouse centre bore 404 and pan feeding window 405, stirring storehouse casing 401 up end is equipped with stirring storehouse upper cover 402, stirring storehouse upper cover 402 intermediate position is equipped with stirring storehouse centre bore 404, stirring storehouse centre bore 404 is peripheral and has six spliced poles 403 at stirring storehouse upper cover 402 up end position evenly distributed, stirring storehouse upper cover 402 outside edge position evenly distributed has six pan feeding windows 405, pan feeding window 405 and 6 mutually supporting in the feed bin.

The feeding bin 6 comprises a feeding bin shell 601, a feeding bin inner cavity 602, electric guide rails 603, an extension back plate 604 and a double-cone-head sliding block 605, the feeding bin inner cavity 602 is arranged inside the feeding bin shell 601, the extension back plate 604 is arranged above the back plate on the rear side of the feeding bin shell 601, the two electric guide rails 603 are symmetrically distributed on the back plate on the rear side of the feeding bin shell 601 and the extension back plate 604 along a longitudinal symmetry axis, and the double-cone-head sliding block 605 is arranged inside the electric guide rails 603.

The central shaft hole 102, the electric push rod mounting hole 202, the stirring push rod 302 and the stirring bin central shaft hole 404 are positioned on the same central axis.

The mixing base 1 is connected with the conical stirring bin 4 by bolts.

The rotary turret table 2 is able to rotate independently of the mixing base 1 during operation.

The working principle of the utility model is as follows: firstly, after the equipment is installed, an external power supply is connected and connected with an external control device, then the operation can be started, a plurality of materials to be mixed are poured into the feeding bin 6 from the upper part of the feeding bin 6 through the opening, then the materials fall into the conical stirring bin 4 from the feeding bin 6 under the action of gravity, if the poured materials are too much or the viscosity of the materials is great, the external control device can be operated to enable the double-cone-head slide block 605 to work, the materials in the bin in the feeding bin 6 are driven to smoothly fall into the conical stirring bin 4, after the materials fall into the conical stirring bin 4 according to the proportion, the external control device is operated to control the rotary column 2 to work, the stirring electric push rod 3 starts to rotate under the drive of the rotary column 2, then the materials in the conical stirring bin 4 are gradually stirred uniformly under the stirring of the right-angle stirring sheet 303 and the triangular stirring sheet 304 on the stirring electric push rod 3, if more materials are difficult to stir evenly, the external control device can be operated to enable the stirring push rod 302 on the stirring electric push rod 3 to contract and extend so as to turn up the materials at the bottom layer in the conical stirring bin 4 and then stir the materials by means of rotation of the rotary column platform 2, the external control device is operated to open the discharging control valve 5 after the materials are stirred evenly, the stirred materials fall down from the discharging control valve 5 under the action of gravity, and if the outlet of the discharging control valve 5 is blocked by the stirred materials with larger viscosity, the external control device can be operated to control the stirring push rod 302 on the electric push rod 3 to extend downwards so as to dredge the materials at the outlet of the discharging control valve 5.

The beneficial technical effects related to the implementation of the utility model are as follows: firstly, as the stirring device is provided with the rotary column base 2 and the stirring electric push rod 3, the stirring and overturning of materials and the dredging of the materials in the conical stirring bin can be realized, the stirring speed and the stirring effect are greatly improved, and the problem that the inlet and the outlet are blocked due to the large viscosity or the large diameter of the materials is solved; and secondly, as the back of the feeding bin 6 is provided with the electric guide rail 603 and the double-cone-head sliding block 605, the problem that the materials are likely to form blockage when entering the conical stirring bin is solved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A biomass particle mixing device comprises a mixing base (1), a rotary column platform (2), an electric stirring push rod (3), a conical stirring bin (4), a discharge control valve (5) and a feeding bin (6), and is characterized in that the rotary column platform (2) is arranged in the middle of the inside of the mixing base (1), the conical stirring bin (4) is arranged on the lower end face of the mixing base (1), the discharge control valve (5) is arranged on the lower end face of the conical stirring bin (4), the electric stirring push rod (3) is positioned inside the rotary column platform (2) and the conical stirring bin (4), the feeding bin (6) is arranged on the outer edge of the mixing base (1), the rotary column platform (2), the electric stirring push rod (3) and the discharge control valve (5) are connected with an external power supply and an external control device, and is controlled by an external control device.

2. A biomass particle mixing device according to claim 1, characterized in that: mix base (1) and include base main part (101), central shaft hole (102), feeding storehouse installing port (103) and toper stirring storehouse connector (104), base main part (101) inside central point puts and is equipped with central shaft hole (102), central shaft hole (102) with rotatory pylon (2) are mutually supported, base main part (101) are outer to have six along evenly distributed feeding storehouse installing port (103), feeding storehouse installing port (103) with feeding storehouse (6) are mutually supported, terminal surface is close to outer edge position evenly distributed has six under base main part (101) toper stirring storehouse connector (104).

3. A biomass particle mixing device according to claim 2, characterized in that: rotatory pylon (2) are including pylon main part (201), electric putter mounting hole (202) and electric putter connecting plate (203), the inside intermediate position of pylon main part (201) is equipped with electric putter mounting hole (202), electric putter mounting hole (202) with stirring electric putter (3) are mutually supported, pylon main part (201) up end just is located electric putter mounting hole (202) are followed the position outward and are equipped with electric putter connecting plate (203).

4. A biomass particle mixing device according to claim 3, characterized in that: stirring electric putter (3) are including push rod motor (301), stirring push rod (302), right angle stirring piece (303) and triangle stirring piece (304), the terminal surface left side is equipped with under push rod motor (301) stirring push rod (302), be equipped with along the position from top to bottom under the stirring push rod (302) outside in proper order right angle stirring piece (303) and triangle stirring piece (304).

5. A biomass particle mixing device according to claim 4, characterized in that: toper stirring storehouse (4) is including stirring storehouse casing (401), stirring storehouse upper cover (402), spliced pole (403), stirring storehouse center bore (404) and pan feeding window (405), stirring storehouse casing (401) up end is equipped with stirring storehouse upper cover (402), stirring storehouse upper cover (402) intermediate position is equipped with stirring storehouse center bore (404), stirring storehouse center bore (404) periphery just is in stirring storehouse upper cover (402) up end position evenly distributed has six spliced pole (403), stirring storehouse upper cover (402) outside edge position evenly distributed has six pan feeding window (405), pan feeding window (405) with feed storehouse (6) are mutually supported.

6. A biomass particle mixing device according to claim 1, characterized in that: the feeding bin (6) comprises a feeding bin shell (601), a feeding bin inner cavity (602), electric guide rails (603), an extension back plate (604) and a double-cone-head sliding block (605), wherein the feeding bin inner cavity (602) is formed in the feeding bin shell (601), the extension back plate (604) is arranged above the rear side back plate of the feeding bin shell (601), the rear side back plate of the feeding bin shell (601) and the extension back plate (604) are symmetrically distributed with two electric guide rails (603) along a longitudinal symmetry axis, and the double-cone-head sliding block (605) is arranged in the electric guide rails (603).

7. A biomass particle mixing device according to claim 5, characterized in that: the central shaft hole (102), the electric push rod mounting hole (202), the stirring push rod (302) and the stirring bin central shaft hole (404) are located on the same central axis.

8. A biomass particle mixing device according to claim 1, characterized in that: the mixing base (1) is connected with the conical stirring bin (4) in a bolt connection mode.

9. A biomass particle mixing device according to claim 1, characterized in that: the rotary column base (2) can rotate independently of the mixing base (1) when working.

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