CN113074534A

CN113074534A - Material drying system for biomass power generation

Info

Publication number: CN113074534A
Application number: CN202110370061.7A
Authority: CN
Inventors: 王占彬; 李圣安; 赵呈星
Original assignee: Shandong Sunshine Electric Power Co ltd
Current assignee: Shandong Sunshine Electric Power Co ltd
Priority date: 2021-04-07
Filing date: 2021-04-07
Publication date: 2021-07-06

Abstract

The invention discloses a material drying system for biomass power generation, which comprises a material storage tank, a material crushing mechanism, a main frame and a temperature control box, wherein the material storage tank is arranged on one side of the main frame; the material drying system for biomass power generation has the advantages that the structure is simple, the operation is convenient, the material is directly crushed in the storage for storing the material and then is conveyed into the hot air supply drying mechanism through the conveying mechanism, the hot air supply drying mechanism is matched with the stirring control mechanism, the material is rapidly dried, meanwhile, the equipment structure is compact, the occupied space is small, the drying can be efficiently carried out, and the cost-effectiveness ratio is higher.

Description

Material drying system for biomass power generation

Technical Field

The invention relates to the technical field of biomass application, in particular to a material drying system for biomass power generation.

Background

The biomass power generation is power generation by using biomass energy of biomass, is one of renewable energy power generation, and comprises direct combustion power generation of agricultural and forestry waste, gasification power generation of agricultural and forestry waste, waste incineration power generation, landfill gas power generation and methane power generation. In the current stage of biomass power generation, combustion power generation is generally adopted, materials are generally required to be dried before combustion of biomass is carried out, so that influence of moisture in the materials on combustion is avoided, and therefore the materials are generally required to be dried before the power generation process, and the existing material fermentation drying system generally adopts stacking ventilation drying, so that a larger site is required, stirring is required, the ventilation rate is increased, and extra workload is increased.

Disclosure of Invention

The invention aims to solve the problems, designs a material drying system for biomass power generation, and solves the problems of the prior art.

The technical scheme of the invention for realizing the aim is as follows: a material drying system for biomass power generation comprises a material storage tank, a material crushing mechanism, a main frame and a temperature control box, wherein the material storage tank is arranged on one side of the main frame;

the hot air supply mechanism comprises: the air conditioner comprises a protective cover, a plurality of pairs of mounting grooves, a plurality of pairs of air inlet pipes, a plurality of pairs of air inlet axial flow fans, a plurality of pairs of mounting windows, an air return groove, a screen plate, an air outlet pipe and an air outlet axial flow fan;

the main frame upper shield is equipped with the safety cover, the safety cover both sides have been seted up a plurality ofly to the mounting groove, it is a plurality of right to be equipped with a plurality ofly to the intake pipe on the mounting groove, it is a plurality of right to be equipped with a plurality ofly to admitting air axial fan in the intake pipe, it is a plurality of right the mounting groove is inboard be equipped with a plurality ofly to the installation window, it is a plurality of right to seted up a plurality of air outlet groove on the installation window, the return air duct of rectangle structure is seted up on the safety cover top, set up the network board of rectangle structure on the bottom surface in return air duct, the top in return air duct is equipped with out the tuber pipe, it.

The stirring control mechanism comprises: the device comprises a plurality of pairs of rotating grooves, a plurality of rotating shafts, a plurality of rotating motors, a plurality of stirring rods and a conveying belt;

a plurality of pairs of rotating grooves are relatively seted up to both sides in the safety cover, and is a plurality of the rotation axis inlays and is equipped with in a plurality of right in the rotating groove, it is a plurality of rotate the motor and install in the outer one side of safety cover, it is a plurality of the output of rotating the motor with a plurality of the rotation axis is connected, and is a plurality of the cover is equipped with a plurality of stirring rods that turn over in the axis of rotation respectively, be equipped with the conveyer belt with the top.

The conveying mechanism includes: the device comprises a sleeve, a rotating shaft, a threaded discharging plate, a discharging motor and a discharging port;

the sleeve is installed in the safety cover tip, embedded the adorning in the axis of rotation in the sleeve, be equipped with screw thread play flitch in the axis of rotation, screw thread play flitch and sleeve inner wall meshing, sleeve end wall is run through to axis of rotation one end, ejection of compact motor install in the sleeve end wall outside and with axis of rotation end connection, the sleeve is equipped with the discharge gate with ejection of compact motor's looks remote site bottom surface.

The material crushing mechanism comprises: the cutting device comprises a discharge chute, a cutting shaft, a plurality of rotary blades and a driving motor;

the bottom of material hold up tank is equipped with the blown down tank, blown down tank and sleeve top surface intercommunication, be equipped with the cutting axle with axle core coincidence in the blown down tank, the cutting axle is fitted with a contraceptive ring and is equipped with a plurality of spinning blades, cutting axle top is connected with driving motor.

The protective cover is of a door-shaped cavity structure with a rectangular structure.

The air inlet pipes are connected with the mounting grooves through a plurality of pairs of flanges.

The stirring rods are annularly arranged on the rotating shaft by adopting an annular structure, and a pair of limiting plates are arranged on two sides of the conveying belt.

The discharge port is matched with the width of the conveying belt.

The cutting shaft is sleeved with a pair of fixing sleeves, and the fixing sleeves are connected in the discharge chute.

Two pairs of support legs are arranged at four corners of the bottom surface of the material storage tank.

The material drying system for biomass power generation, which is manufactured by the technical scheme of the invention, has the advantages of simple structure and convenient operation, directly crushes materials in the warehouse for storing the materials, conveys the materials into the hot air supply drying mechanism through the conveying mechanism, and quickly dries the materials by utilizing the cooperation of the hot air supply drying mechanism and the stirring control mechanism.

Drawings

Fig. 1 is a schematic structural diagram of a main view of a material drying system for biomass power generation according to the present invention.

Fig. 2 is a schematic side view of a material drying system for biomass power generation according to the present invention.

Fig. 3 is a schematic top view of the material drying system for biomass power generation according to the present invention.

Fig. 4 is a schematic partial side view of a material drying system for biomass power generation according to the present invention.

Fig. 5 is a schematic diagram of a partially enlarged structure of a material drying system for biomass power generation according to the present invention.

In the figure: 1. a material storage tank; 2. a main frame; 3. a temperature control box; 4. a protective cover; 5. mounting grooves; 6. an air inlet pipe; 7. an air intake axial flow fan; 8. installing a window; 9. an air return groove; 10. a screen plate; 11. an air outlet pipe; 12. an outlet axial flow fan; 13. a rotating tank; 14. a rotating shaft; 15. rotating the motor; 16. turning over the stirring rod; 17. a conveyor belt; 18. a sleeve; 19. a rotating shaft; 20. a thread discharging plate; 21. a discharging motor; 22. a discharge port; 23. a discharge chute; 24. cutting the shaft; 25. a rotary blade; 26. a drive motor; 27. a flange; 28. a limiting plate; 29. fixing a sleeve; 30. and (3) a support leg.

Detailed Description

The present invention is described in detail with reference to the accompanying drawings, as shown in fig. 1-5, the present embodiment is characterized in that the present invention comprises a material storage tank 1, a material crushing mechanism, a main frame 2 and a temperature control box 3, wherein the material storage tank 1 is installed at one side of the main frame 2, a conveying structure is arranged between the material storage tank 1 and the main frame 2, the material crushing mechanism is installed on the conveying structure, the main frame 2 is provided with the temperature control box 3, the main frame 2 is provided with a hot air blowing drying mechanism connected with the temperature control box 3, and a stirring control mechanism is arranged in the main frame 2; the hot air supply mechanism comprises: the device comprises a protective cover 4, a plurality of pairs of mounting grooves 5, a plurality of pairs of air inlet pipes 6, a plurality of pairs of air inlet axial flow fans 7, a plurality of pairs of mounting windows 8, an air return groove 9, a screen plate 10, an air outlet pipe 11 and an air outlet axial flow fan 12; the upper cover of the main frame 2 is provided with a protective cover 4, two sides of the protective cover 4 are provided with a plurality of pairs of mounting grooves 5, the mounting grooves 5 are provided with a plurality of pairs of air inlet pipes 6, the air inlet pipes 6 are internally provided with a plurality of pairs of air inlet axial flow fans 7, the mounting grooves 5 are oppositely arranged, the inner sides of the mounting grooves 5 are provided with a plurality of pairs of mounting windows 8, the mounting windows 8 are provided with a plurality of air outlet grooves, the top end of the protective cover 4 is provided with a return air groove 9 with a rectangular structure, the bottom surface of the return air groove 9 is provided with a mesh plate 10 with a rectangular structure, the top end of the return air groove 9 is provided with an air outlet pipe 11, the; this material drying system for biomass power generation, simple structure, convenient operation, from the storage of storing the material, directly smash the back with the material, in carrying hot-blast air supply drying mechanism through conveying mechanism, utilize hot-blast air supply drying mechanism and stir the control mechanism cooperation, carry out quick drying with the material, equipment structure is compact simultaneously, and occupation of land space is little, can dry by the efficient, and it is higher to cost effectively.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example (b): according to the attached drawings 1-5 of the specification, the material drying system for biomass power generation comprises a material storage tank 1, a material crushing mechanism, a main frame 2 and a temperature control box 3, wherein the material storage tank 1 is arranged on one side of the main frame 2, a conveying structure is arranged between the material storage tank 1 and the main frame 2, the material crushing mechanism is arranged on the conveying structure, the temperature control box 3 is arranged on the main frame 2, a hot air supply drying mechanism and the temperature control box 3 are arranged on the main frame 2 and connected, a stirring control mechanism is arranged in the main frame 2, in the specific implementation process, two pairs of support legs 30 are arranged at four corners of the bottom surface of the material storage tank 1 and used as bottom supports of the material storage tank 1, the main frame 2 is used for supporting the hot air supply drying mechanism, materials are stored in the material storage tank 1, and after biomass power generation materials are further cut up through the crushing, the material is conveyed into the hot air supply drying mechanism through the conveying structure, the material is heated and dried by utilizing hot air, and meanwhile, the stirring control mechanism is adopted, so that the material is stirred to increase the area of the material contacting hot air, and the drying efficiency is improved;

as can be seen from fig. 1 to 5 of the specification, the hot air blowing mechanism includes: the air conditioner comprises a protective cover 4, a plurality of pairs of mounting grooves 5, a plurality of pairs of air inlet pipes 6, a plurality of pairs of air inlet axial flow fans 7, a plurality of pairs of mounting windows 8, an air return groove 9, a screen plate 10, an air outlet pipe 11 and an air outlet axial flow fan 12, wherein the connection relation and the position relation are as follows;

the upper shield of main frame 2 is equipped with safety cover 4, a plurality of pairs of mounting groove 5 have been seted up to 4 both sides of safety cover, it is a plurality of to intake pipe 6 to be equipped with on a plurality of mounting groove 5, it is a plurality of to intake axial fan 7 to be equipped with in a plurality of intake pipe 6, a plurality of to mounting groove 5 inboard be equipped with a plurality ofly to installation window 8, a plurality of air outlet groove have been seted up on installation window 8, the return air duct 9 of rectangle structure is seted up on 4 tops of safety cover, set up rectangular structure's network board 10 on the bottom surface of return air duct 9, the top of return air duct 9 is equipped with out tuber pipe 11, be equipped with air outlet axial fan 12 in the play tuber.

In the concrete implementation process, the safety cover 4 is the door type cavity structure of rectangle structure, a plurality of to intake pipe 6 and a plurality of to be connected through a plurality of flange 27 between the mounting groove 5, let in outside hot-blast safety cover 4 in through a plurality of intake pipe 6, safety cover 4 both sides are equipped with sealed curtain respectively, the material enters into back in the safety cover 4, a plurality of to admitting air axial fan 7 with hot-blast in safety cover 4, shunt and the direction through the air-out groove on the installation window 8 again, make hot-blast diffusion in to the box, and then utilize the material to dry, the steam of getting into is after dry, through return air duct 9 backward flow, keep apart through otter board 10, avoid the disintegrating slag of material to enter into return air duct 9, the last air-out pipe 11 of return air duct 9 discharges the gas after drying, axial fan 12 of giving vent to anger provides power for the air that discharges, connect and change the subassembly by connecting in a plurality of fixing bolt and installing in air-out pipe 11 The flange 27 of the part.

As can be seen from the accompanying FIGS. 1-5 of the specification, the agitation control mechanism comprises: a plurality of pairs of rotating grooves 13, a plurality of rotating shafts 14, a plurality of rotating motors 15, a plurality of stirring rods 16 and a conveyer belt 17, wherein the connection relationship and the position relationship are as follows;

a plurality of pairs of rotating grooves 13 are oppositely formed in two sides in the protective cover 4, a plurality of rotating shafts 14 are embedded in the pair of rotating grooves 13, a plurality of rotating motors 15 are installed on one side outside the protective cover 4, the output ends of the rotating motors 15 are connected with the rotating shafts 14, a plurality of stirring rods 16 are respectively sleeved on the rotating shafts 19, and conveying belts 17 are arranged on the top surfaces of the protective cover 4 and the main frame 2.

In the specific implementation process, a plurality of stirring rods 16 are annularly arranged on the rotating shaft 14 by adopting an annular structure, a pair of limiting plates 28 are arranged on two sides of the conveying belt 17, the rotating motor 15 outside the protective cover 4 can drive the rotating shaft 14 to rotate, the rotating shaft 14 is positioned above the pair of limiting plates 28 of the conveying belt 17, the stirring rods 16 are annularly arranged on the rotating shaft 19, and materials on the conveying belt 17 are stirred by the stirring rods 16 on the rotating shaft 19, so that the materials are contacted with more hot air under the stirring effect, and the drying is quicker.

As can be seen from fig. 1 to 5 of the specification, the above-mentioned conveying mechanism comprises: the sleeve 18, the rotating shaft 19, the threaded discharging plate 20, the discharging motor 21 and the discharging port 22 are connected and positioned as follows;

sleeve 18 is installed in the tip of safety cover 4, and the embedded dress of sleeve 18 is in axis of rotation 19, is equipped with screw thread play flitch 20 on the axis of rotation 19, and screw thread play flitch 20 and the meshing of 18 inner walls of sleeve, and 18 end walls of sleeve are run through to 19 one end of axis of rotation, and ejection of compact motor 21 installs in 18 end walls of sleeve outside and with 19 end connection of axis of rotation, and the relative terminal surface bottom surface of sleeve 18 and ejection of compact motor 21 is equipped.

In the concrete implementation process, discharge gate 22 matches with the width of conveyer belt 17, and the material is through smashing the back, gets into from sleeve 18 tip, and axis of rotation 19 rotates under ejection of compact motor 21's drive, and then makes screw thread ejection of compact board 20 follow sleeve 18 tip propelling movement with the material to discharge gate 22 one side, and then sends into the conveyer belt 17 with the material through discharge gate 22 on, adjusts the rotation rate of ejection of compact motor 21 and can control discharge rate.

As can be seen from fig. 1 to 5 of the specification, the material crushing mechanism comprises: the discharging chute 23, the cutting shaft 24, the plurality of rotary blades 25 and the driving motor 26 are connected and positioned as follows;

the bottom of material hold up tank 1 is equipped with blown down tank 23, blown down tank 23 and sleeve 18 top surface intercommunication, be equipped with in blown down tank 23 with the cutting axle 24 of axle core coincidence, the cutting axle 24 is fitted with a contraceptive ring and is equipped with a plurality of rotary blade 25, the cutting axle 24 top is connected with driving motor 26.

In the concrete implementation process, the cutting shaft 24 is sleeved with a pair of fixing sleeves 29, the pair of fixing sleeves 29 are connected into the discharge chute 23, the cutting shaft 24 is fixed through the fixing sleeves 29, the driving motor 26 is used for driving the cutting shaft 24 to rotate, and the material falling from the discharge chute 23 is cut by the rotary blade 25 and is used for rapidly crushing the material.

To sum up, this material drying system for biomass power generation, simple structure, convenient operation, from the storage of storing the material, directly smash the back with the material, in carrying hot-blast air drying mechanism through conveying mechanism, utilize hot-blast air drying mechanism and stir the control mechanism cooperation, carry out quick drying with the material, equipment structure is compact simultaneously, and occupation of land space is little, can dry by the efficient, and it is higher to effect cost ratio.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. A material drying system for biomass power generation comprises a material storage tank (1), a material crushing mechanism, a main frame (2) and a temperature control box (3), wherein the material storage tank (1) is installed on one side of the main frame (2), a conveying structure is arranged between the material storage tank (1) and the main frame (2), the material crushing mechanism is installed on the conveying structure, the temperature control box (3) is arranged on the main frame (2), the material drying system is characterized in that a hot air supply drying mechanism is arranged on the main frame (2) and connected with the temperature control box (3), and a stirring control mechanism is arranged in the main frame (2);

the hot air supply mechanism comprises: the air conditioner comprises a protective cover (4), a plurality of pairs of mounting grooves (5), a plurality of pairs of air inlet pipes (6), a plurality of pairs of air inlet axial flow fans (7), a plurality of pairs of mounting windows (8), an air return groove (9), a screen plate (10), an air outlet pipe (11) and an air outlet axial flow fan (12);

the upper cover of the main frame (2) is provided with a protective cover (4), two sides of the protective cover (4) are provided with a plurality of pairs of mounting grooves (5), a plurality of pairs of air inlet pipes (6) are arranged on the plurality of pairs of mounting grooves (5), a plurality of pairs of air inlet axial flow fans (7) are arranged in the plurality of pairs of air inlet pipes (6), the plurality of pairs of mounting grooves (5) are oppositely arranged, a plurality of pairs of mounting windows (8) are arranged on the inner sides of the plurality of pairs of mounting grooves (5), a plurality of air outlet grooves are arranged on the plurality of pairs, the top end of the protective cover (4) is provided with an air return groove (9) with a rectangular structure, the bottom surface of the air return groove (9) is provided with a net plate (10) with a rectangular structure, the top of return air groove (9) is equipped with out tuber pipe (11), be equipped with out axial fan (12) of giving vent to anger in the play tuber pipe (11), return air groove (9) are equipped with safety cover (4) top surface and are connected the change subassembly.

2. The material drying system for biomass power generation according to claim 1, wherein the stirring control mechanism comprises: a plurality of pairs of rotating grooves (13), a plurality of rotating shafts (14), a plurality of rotating motors (15), a plurality of stirring rods (16) and a conveying belt (17);

a plurality of rotatory groove (13), a plurality of have been seted up relatively to both sides in safety cover (4) rotation axis (14) inlay and adorn in a plurality of right in rotatory groove (13), it is a plurality of rotate motor (15) and install in the outer one side of safety cover (4), it is a plurality of the output and a plurality of that rotate motor (15) rotation axis (14) are connected, a plurality of the cover is equipped with a plurality of stirring rods (16) that turn over respectively on axis of rotation (19), be equipped with conveyer belt (17) with the top surface of main frame (2) in safety cover (4).

3. The material drying system for biomass power generation according to claim 1, wherein the conveying mechanism includes: the device comprises a sleeve (18), a rotating shaft (19), a threaded discharging plate (20), a discharging motor (21) and a discharging hole (22);

sleeve (18) are installed in safety cover (4) tip, embedded the adorning in axis of rotation (19) in sleeve (18), be equipped with screw thread play flitch (20) on axis of rotation (19), screw thread play flitch (20) and sleeve (18) inner wall meshing, sleeve (18) end wall is run through to axis of rotation (19) one end, ejection of compact motor (21) are installed in sleeve (18) end wall outside and with axis of rotation (19) end connection, sleeve (18) are equipped with discharge gate (22) with the looks remote site bottom surface of ejection of compact motor (21).

4. The material drying system for biomass power generation according to claim 3, wherein the material crushing mechanism includes: a discharge chute (23), a cutting shaft (24), a plurality of rotary blades (25) and a drive motor (26);

the bottom of material hold up tank (1) is equipped with blown down tank (23), blown down tank (23) and sleeve (18) top surface intercommunication, be equipped with in blown down tank (23) with cutting axle (24) of axle core coincidence, cutting axle (24) are fitted with a contraceptive ring and are equipped with a plurality of spinning blades (25), cutting axle (24) top is connected with driving motor (26).

5. The material drying system for biomass power generation according to claim 1, wherein the protective cover (4) is a door-shaped cavity structure with a rectangular structure.

6. The material drying system for biomass power generation according to claim 1, wherein a plurality of pairs of the air inlet pipes (6) are connected with a plurality of pairs of the mounting grooves (5) through a plurality of pairs of the flanges (27).

7. The material drying system for biomass power generation according to claim 2, wherein the stirring rods (16) are arranged on the rotating shaft (14) in an annular structure, and a pair of limiting plates (28) are arranged on two sides of the conveying belt (17).

8. The material drying system for biomass power generation according to claim 3, wherein the discharge port (22) is matched with the width of the conveying belt (17).

9. The material drying system for biomass power generation as claimed in claim 4, wherein a pair of fixing sleeves (29) is sleeved on the cutting shaft (24), and the pair of fixing sleeves (29) is connected in the discharge chute (23).

10. The material drying system for biomass power generation as claimed in claim 1, wherein two pairs of support legs (30) are provided at four corners of the bottom surface of the material storage tank (1).