CN220489196U - Biomass power generation feeding control device - Google Patents

Abstract

The utility model relates to the technical field of biomass power generation and discloses a biomass power generation feeding control device which comprises a conveying mechanism, a frame plate arranged at the top of the conveying mechanism and used for supporting, and a feeding box arranged in the frame plate and used for controlling feeding. According to the utility model, through the dispersing mechanism, raw materials are dispersed through rotation in multiple directions, so that the raw materials are further prevented from being aggregated together and are difficult to fully burn, and waste of the raw materials is avoided.

Description

Biomass power generation feeding control device

Technical Field

The utility model relates to the technical field of biomass power generation, in particular to a biomass power generation feeding control device.

Background

The biomass power generation technology is a renewable energy project which is developed and built in recent years in China, various biomass resources are provided, including crop straws, rice hulls, forestry wastes, crop seed shells and the like, and the development of biomass power plants makes an important contribution to energy conservation and emission reduction, comprehensive utilization of resources and adjustment of power supply structures.

When the existing feeding control equipment is used, as the biomass power generation mostly adopts crop straws, rice hulls, forestry wastes and crop seed shells as the raw materials for combustion, the raw materials are easy to gather together, are difficult to disperse, and are easy to cause insufficient combustion to waste the raw materials.

For this purpose, we propose a biomass power generation feed control device.

Disclosure of Invention

The utility model mainly solves the technical problems in the prior art and provides a biomass power generation feeding control device.

In order to achieve the purpose, the biomass power generation feeding control device comprises a conveying mechanism, a frame plate and a feeding box, wherein the frame plate is arranged at the top of the conveying mechanism and used for supporting, the feeding box is arranged in the frame plate and used for controlling feeding, a feeding inlet used for feeding is formed in the top of the feeding box, a discharging opening used for discharging is formed in the bottom of the feeding box, a dispersing mechanism used for dispersing materials is arranged on the inner wall of the feeding box, a rotating shaft used for driving and a main dispersing blade and an auxiliary dispersing blade used for dispersing are arranged in the dispersing mechanism, and a driving part used for driving the auxiliary dispersing blade to rotate is arranged in the rotating shaft.

Further, the axis of rotation passes through the motor rotation and connects in the feeding incasement wall, and main dispersion blade is circumference and arranges on the axis of rotation outer wall, and a plurality of first rotation holes that are linear arrangement have all been seted up to main dispersion blade upper end, and vice dispersion blade rotates to be connected in first rotation hole inner wall.

Further, the auxiliary dispersing blades are arc-shaped columnar bodies at two ends of the cross section, and the cross section area of the distal ends of the auxiliary dispersing blades is smaller than that of the proximal ends.

Further, be provided with the dead lever in the drive division, dead lever one end rotates to be connected in the axis of rotation inner wall, and the axis of rotation other end has seted up the through-hole, and the dead lever passes through the through-hole and fixed connection in the feeding case inner wall, and dead lever outer wall fixedly connected with is a plurality of first bevel gears that are linear arrangement.

Further, the second rotation hole has been seted up to main dispersion blade bottom inner wall and extends to the axis of rotation inner wall, and second rotation hole inner wall is provided with the dwang, and dwang one end rotation is connected in main dispersion blade inner wall, and dwang is close to dead lever one end axial fixedly connected with second bevel gear, and second bevel gear meshes in first bevel gear outer wall.

Further, the outer wall of the rotating rod is fixedly connected with a plurality of third bevel gears which are in linear arrangement, a fourth bevel gear is fixedly connected to the axial position of one end of the auxiliary dispersing blade, which is close to the rotating rod, and the fourth bevel gear is meshed with the outer wall of the third bevel gears.

Further, the blanking opening is a circular truncated cone-shaped groove body with the inner end of the cross section being arc-shaped, and the cross section of the bottom of the blanking opening is smaller than the cross section area of one end close to the feeding box.

Further, a plurality of dispersed cones which are in linear arrangement are fixedly connected to two ends of the outer wall of the auxiliary dispersing blade, the dispersed cones are conical, and an included angle between thirty degrees and fifty degrees is formed between the dispersed cones and the auxiliary dispersing blade.

Advantageous effects

The utility model provides a biomass power generation feeding control device. The beneficial effects are as follows:

(1) This biomass power generation feeding control device, through the dispersion mechanism who sets up, when needs feeding, add the feeding incasement with the raw materials through the feed inlet, the rethread feed opening falls into on the conveying mechanism and carries out electricity generation in the burning furnace, when the raw materials passes through the feeding incasement, open the motor in the axis of rotation this moment and drive axis of rotation and main dispersion blade on it and rotate, main dispersion blade can break up the raw materials through rotating, avoid its gathering to be difficult to fully burn in a piece, and when axis of rotation and main dispersion blade rotate, dead lever in it is fixed knot constructs, thereby there is relative rotation between dead lever and the dead lever on the main dispersion blade, can drive the dwang and spin under intermeshing's second bevel gear and first bevel gear effect, the dwang autorotation is carried out through the fourth bevel gear on its third bevel gear of driving engagement, and then drive vice dispersion blade on the fourth bevel gear and synchronous carry out, vice dispersion blade can be dispersed through the rotation further to the raw materials through rotating along with main dispersion blade, further the rotation in the direction is difficult to fully burn the raw materials that causes the raw materials of gathering to fully burn in a plurality of directions.

(2) This biomass power generation feeding controlling means, through the vice dispersion blade that sets up, the arc design of vice dispersion blade can reduce when dispersing the raw materials with the frictional force between the raw materials to can avoid the raw materials winding on vice dispersion blade, influence the passage of raw materials.

(3) This biomass power generation feeding control device through the feed opening that sets up, the arc design of feed opening, can reduce the frictional force with the raw materials to avoid the raw materials to adhere to in the feed opening, influence unloading efficiency, and its bottom cross section area is little, can play the effect of gathering to the raw materials, helps the even passing through of raw materials, improves combustion effect.

(4) This biomass power generation feeding controlling means, through the dispersion cone of setting, the toper design of dispersion cone can be when vice dispersion blade rotates, disperses along the conical surface with the raw materials that gathers together, further improves the dispersion effect of raw materials, avoids burning inadequately, causes the waste of raw materials.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a cross-sectional view of the feed box of the present utility model;

FIG. 3 is an enlarged view of portion A of FIG. 2 in accordance with the present utility model;

FIG. 4 is an enlarged view of portion B of FIG. 2 in accordance with the present utility model;

fig. 5 is a detailed view of the secondary dispersing blade in the second embodiment of the present utility model.

Legend description: 1. a conveying mechanism; 2. a frame plate; 3. a feed box; 4. a feed inlet; 5. a feed opening; 6. a rotating shaft; 7. a main dispersion blade; 8. auxiliary dispersing blades; 9. a fixed rod; 10. a first bevel gear; 11. a second bevel gear; 12. a rotating lever; 13. a third bevel gear; 14. a fourth bevel gear; 15. dispersing the vertebral body.

Detailed Description

Embodiment one: 1-2, including conveying mechanism 1, set up in conveying mechanism 1 top be used for supporting frame plate 2 and install in frame plate 2 be used for to feeding the feeding case 3 of control, feeding case 3 top is provided with the feed inlet 4 that is used for feeding, feeding case 3 bottom is provided with the feed opening 5 that is used for the unloading, feeding case 3 inner wall is provided with the dispersion mechanism that is used for dispersing the material, be provided with in the dispersion mechanism and be used for the driven axis of rotation 6 and be used for dispersing main dispersion blade 7 and vice dispersion blade 8, be provided with the drive division that is used for driving vice dispersion blade 8 rotation in the axis of rotation 6.

The axis of rotation 6 passes through the motor rotation to be connected in feeding case 3 inner wall, and main dispersion blade 7 is circumference range on axis of rotation 6 outer wall, and a plurality of first rotation holes that are linear arrangement have all been seted up at the last both ends of main dispersion blade 7, and vice dispersion blade 8 rotates to be connected in first rotation hole inner wall.

The auxiliary dispersing blades 8 are arc-shaped columnar bodies at two ends of the cross section, and the cross section area of the far ends of the auxiliary dispersing blades 8 is smaller than that of the near ends.

Through the vice dispersion blade 8 that sets up, the arc design of vice dispersion blade 8 can reduce when dispersing the raw materials with the frictional force between the raw materials to can avoid the raw materials winding on vice dispersion blade 8, influence the passage of raw materials.

As shown in fig. 3-4, a fixed rod 9 is disposed in the driving portion, one end of the fixed rod 9 is rotatably connected to the inner wall of the rotating shaft 6, the other end of the rotating shaft 6 is provided with a through hole, the fixed rod 9 passes through the through hole and is fixedly connected to the inner wall of the feeding box 3, and a plurality of first bevel gears 10 which are linearly arranged are fixedly connected to the outer wall of the fixed rod 9.

The second rotation hole is offered to main dispersion blade 7 bottom inner wall and extends to axis of rotation 6 inner wall, and second rotation hole inner wall is provided with dwang 12, and dwang 12 one end rotation is connected in main dispersion blade 7 inner wall, and dwang 12 is close to dead lever 9 one end axial fixedly connected with second bevel gear 11, and second bevel gear 11 meshes in first bevel gear 10 outer wall.

The outer wall of the rotating rod 12 is fixedly connected with a plurality of third bevel gears 13 which are linearly arranged, a fourth bevel gear 14 is fixedly connected to the axial position of one end of the auxiliary dispersing blade 8, which is close to the rotating rod 12, and the fourth bevel gear 14 is meshed with the outer wall of the third bevel gears 13.

Through the dispersion mechanism that sets up, when needs feeding, add feeding incasement 3 with the raw materials through feed inlet 4, the rethread feed opening 5 falls into in conveying mechanism 1 and send to the burning furnace in electricity generation, when the raw materials passes through feeding incasement 3, open the motor on the axis of rotation 6 and rotate with main dispersion blade 7 on it this moment, main dispersion blade 7 can break up the raw materials through the rotation, avoid its gathering to be difficult to fully burn in a piece, and when axis of rotation 6 and main dispersion blade 7 rotate, dead lever 9 in it is fixed knot constructs, thereby there is relative rotation between dwang 12 and the dead lever 9 on the main dispersion blade 7, can drive dwang 12 and rotate under intermeshing's second bevel gear 11 and first bevel gear 10 effect, dwang 12 rotates through the third bevel gear 13 on it drives the fourth bevel gear 14 on the third bevel gear 13 and rotates, and then vice dispersion blade 8 on the fourth bevel gear 14 goes on the synchronization, vice dispersion blade 8 can be through further dispersing the raw materials through the rotation that further passes through the rotation of a plurality of directions revolution when main dispersion blade 7 revolves, further avoid the raw materials to fully dispersing the raw materials that is difficult to fully burn in a piece of raw materials.

As shown in fig. 2, the feed opening 5 is a truncated cone-shaped groove body with an arc-shaped inner end in the cross section, and the cross section of the bottom of the feed opening 5 is smaller than the cross section area of one end close to the feed box 3.

Through the feed opening 5 that sets up, the arc design of feed opening 5 can reduce the frictional force between with the raw materials to avoid the raw materials to adhere to in feed opening 5, influence unloading efficiency, and its bottom cross section area is little, can play the effect of gathering to the raw materials, helps the even passing through of raw materials, improves combustion effect.

Embodiment two: on the basis of the first embodiment, referring to fig. 5, two ends of the outer wall of the secondary dispersing blade 8 are fixedly connected with a plurality of linearly arranged dispersing cones 15, the dispersing cones 15 are conical, and an included angle between thirty degrees and fifty degrees is formed between the dispersing cones 15 and the secondary dispersing blade 8.

Through the dispersion cone 15 that sets up, the toper design of dispersion cone 15 can be when vice dispersion blade 8 rotates, disperses the raw materials that gathers together along the conical surface, further improves the dispersion effect of raw materials, avoids burning inadequately, causes the waste of raw materials.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a biomass power generation feeding controlling means, includes conveying mechanism (1), sets up in conveying mechanism (1) top be used for frame plate (2) and install in frame plate (2) be used for feeding control's feeding case (3), its characterized in that: the feeding box is characterized in that a feeding hole (4) for feeding is formed in the top of the feeding box (3), a discharging hole (5) for discharging is formed in the bottom of the feeding box (3), a dispersing mechanism for dispersing materials is arranged on the inner wall of the feeding box (3), a rotating shaft (6) for driving and a main dispersing blade (7) and an auxiliary dispersing blade (8) for dispersing are arranged in the dispersing mechanism, and a driving part for driving the auxiliary dispersing blade (8) to rotate is arranged in the rotating shaft (6).

2. The biomass power generation feed control device according to claim 1, wherein: the rotary shaft (6) is rotationally connected to the inner wall of the feeding box (3) through a motor, the main dispersing blades (7) are circumferentially arranged on the outer wall of the rotary shaft (6), a plurality of first rotating holes which are linearly arranged are formed in the two ends of each main dispersing blade (7), and the auxiliary dispersing blades (8) are rotationally connected to the inner wall of each first rotating hole.

3. The biomass power generation feed control device according to claim 1, wherein: the two ends of the cross section of each auxiliary dispersing blade (8) are arc-shaped columnar bodies, and the cross section area of the far end of each auxiliary dispersing blade (8) is smaller than that of the near end.

4. The biomass power generation feed control device according to claim 2, characterized in that: be provided with dead lever (9) in the drive division, dead lever (9) one end rotates to be connected in axis of rotation (6) inner wall, and the through-hole has been seted up to the axis of rotation (6) other end, and dead lever (9) pass through the through-hole and fixed connection in feeding case (3) inner wall, and dead lever (9) outer wall fixedly connected with is a plurality of first bevel gears (10) that are linear arrangement.

5. The biomass power generation feed control device according to claim 4, wherein: the second rotating hole is formed in the inner wall of the bottom of the main dispersing blade (7) and extends to the inner wall of the rotating shaft (6), a rotating rod (12) is arranged on the inner wall of the second rotating hole, one end of the rotating rod (12) is rotationally connected to the inner wall of the main dispersing blade (7), a second bevel gear (11) is axially fixedly connected to one end of the rotating rod (12) close to the fixed rod (9), and the second bevel gear (11) is meshed with the outer wall of the first bevel gear (10).

6. The biomass power generation feed control device according to claim 5, wherein: the outer wall of the rotating rod (12) is fixedly connected with a plurality of third bevel gears (13) which are in linear arrangement, a fourth bevel gear (14) is fixedly connected to the axial position of one end of the auxiliary dispersing blade (8) close to the rotating rod (12), and the fourth bevel gear (14) is meshed with the outer wall of the third bevel gears (13).

7. The biomass power generation feed control device according to claim 1, wherein: the blanking opening (5) is a circular truncated cone-shaped groove body with an arc-shaped inner end of the cross section, and the cross section of the bottom of the blanking opening (5) is smaller than the cross section area of one end close to the feeding box (3).

8. The biomass power generation feed control device according to claim 1, wherein: the two ends of the outer wall of the auxiliary dispersing blade (8) are fixedly connected with a plurality of dispersing cones (15) which are in linear arrangement, the dispersing cones (15) are conical, and an included angle between thirty degrees and fifty degrees is formed between the dispersing cones (15) and the auxiliary dispersing blade (8).