CN209791975U - Automatic feeding system for machine-made charcoal production - Google Patents

Abstract

The utility model relates to the technical field of charcoal generation equipment, in particular to an automatic feeding system for machine-made charcoal production, which comprises a material storage mechanism, a feeding mechanism and a screening machine mechanism, wherein the material storage mechanism is used for storing raw materials; the feeding mechanism is used for conveying the raw materials to the screening machine mechanism; the screening mechanism comprises a third frame body, a screening frame, a material receiving bin, a waste discharging device and a driving device, the screening frame is hinged with the third frame body through a connecting chain, comprises a frame, a feeding part and a screening part and is used for screening raw materials; the material receiving bin is used for collecting the screened raw materials; the waste discharge device is used for collecting waste; the driving device is used for providing a vibration source for the screening frame so as to enable the screening frame to carry out vibration screening. The utility model discloses can sieve raw and other materials effectively to can handle the waste material of screening out.

Description

automatic feeding system for machine-made charcoal production

Technical Field

the utility model belongs to the technical field of charcoal generates equipment technique and specifically relates to an automatic feeding system for machine-made charcoal production.

Background

In recent years, local governments in provinces and cities begin to comprehensively reconcile the charcoal market according to relevant regulations of forest Law of the people's republic of China, and ban of ' forbidding cutting down wood and burning charcoal ' is issued successively. Traditional charcoal factories burning charcoal by trees stop production in a dispute. The proposed project is based on energy-saving and new energy application technology, waste utilization and waste utilization, and can meet the indispensable charcoal raw materials and additives in industries such as industry, agriculture, animal husbandry, metallurgy and the like in China and the indispensable fuel requirements of human life. The machine-made charcoal material takes sawdust, branches, rice hulls, peanut shells, crop straws and other wastes as raw materials, and is prepared into high-quality, environment-friendly and efficient machine-made charcoal through drying, smoke removal, high temperature and high pressure. Clean and nontoxic, and high heat energy. The machine-made charcoal uses machine-made equipment to produce rod-shaped charcoal by using carbon-containing substances such as bamboo and wood sawdust, leftover bits and pieces, peanut shells and the like through the technical processes of crushing, drying, extrusion forming, carbonization and the like.

In the production process of machine-made charcoal, raw materials of the machine-made charcoal need to be conveyed, the machine-made charcoal needs to be produced by powdery raw materials, and the raw materials contain more impurities in a non-powdery state, so that the raw materials need to be screened, and the subsequent work is convenient to carry out. The existing screening machine only considers the collection of required raw materials in the screening of raw materials, but cannot well treat screened waste materials, so that the accumulation of the waste materials near the screening machine influences the screening work and causes the environment of a factory to be poor. When the waste material piles up to a certain degree, need manual handling, extravagant manpower.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an automatic feeding system for machine-made charcoal production to sieve raw and other materials effectively, and can handle the waste material of screening out.

In order to realize the purpose, the utility model discloses a technical scheme be:

An automatic feeding system for machine-made charcoal production comprises a material storage mechanism, a feeding mechanism and a screening machine mechanism,

The storage mechanism comprises a box body and a first frame body, the box body is erected on the first frame body, the box body is of a prismatic table structure, two ends of the box body are of an opening structure, and an opening at the narrow end of the box body is provided with a slope;

The feeding mechanism comprises a conveying belt and a second frame body, the conveying belt is obliquely arranged through the second frame body, and the lower end of the conveying belt is positioned below the opening at the lower end of the box body;

the screening mechanism is arranged below the higher end of the conveying belt and comprises a third frame body, a screening frame, a material receiving bin, a waste discharging device and a driving device, the third frame body comprises a placing frame, two connecting rods and a placing opening, the placing frame is provided with four placing openings, the four supporting rods are respectively and fixedly connected with the four corners of the placing frame, the two connecting rods are oppositely arranged, and the two ends of each connecting rod are respectively and fixedly connected with the two supporting rods;

The screening frame comprises a frame, a feeding part and a screening part, the screening frame is provided with four connecting chains, one end of each connecting chain is hinged with the screening frame, the other end of each connecting chain is hinged with the connecting rod, the frame is provided with a feeding port, the feeding part is of a frustum structure, the wider end of the feeding part is in conduction connection with the feeding port, the screening part is of a trapezoidal structure, two ends of the screening part are open, two sides and the bottom surface of the inclined surface of the screening part are provided with screen holes, and the wider end of the screening part is in conduction connection with one end of the feeding part, which is far away from the feeding port; the feeding part and the screening part are both positioned in the placing opening;

the material receiving bin is of a cone structure and is fixedly connected with the third frame body, the wider end of the material receiving bin is positioned below the screening part, and the narrower end of the material receiving bin is provided with a discharge hole;

The waste discharge device comprises a spiral rod, a waste pipe and a first motor, the screening part is provided with a waste port, the waste port is adjacent to one side of the inclined surface of the screening part, one end of the spiral rod penetrates into the screening part through the waste port, the other end of the spiral rod is positioned outside the screening part and is rotatably connected with the waste pipe, the waste pipe is fixedly connected with the third frame body, one end of the waste pipe is in conduction connection with the waste port through a folding pipe, and the other end of the waste pipe is provided with a discharge port; the first motor is used for driving the screw rod;

Drive arrangement includes fixed plate, transmission shaft, driving disc, driving-disc, actuating lever and second motor, the fixed plate with third support body fixed connection, the transmission shaft pass through the pillow block with the fixed plate rotates to be connected, transmission shaft one end with driving disc fixed connection, the driving disc pass through first drive belt with the transmission shaft of second motor is connected, the transmission shaft is kept away from the one end of driving disc with driving-disc fixed connection, the one end of actuating lever with the eccentric circle of driving-disc is articulated, the other end with the frame is articulated.

Furthermore, a plurality of speed reducing rollers are arranged in the narrow end of the box body, and the speed reducing rollers are provided with fins; the two ends of the reduction rollers are respectively rotatably connected with the box body, the reduction rollers are connected through a second transmission belt, and the second transmission belt is driven by a third motor.

Further, the second support body is close to the higher one end of transmission band is equipped with the guide mouth, the guide mouth is close to one side of transmission band is equipped with the guide board, the guide board has inclination, guide board one end with second support body fixed connection, the other end are equipped with clean brush.

Furthermore, the transmission band is equipped with the antislip strip, the direction of antislip strip with the transmission band direction of motion is perpendicular.

furthermore, the conveyor belt comprises belt bodies, two transmission rollers, a fixed frame and an abutting rod, wherein the fixed frame is positioned between the belt bodies and is fixedly connected with the second frame body, the two transmission rollers are respectively and rotatably arranged on the fixed frame, and the two ends of the belt bodies are respectively connected with the two transmission rollers; the butt joint rod is located between the belt body and the fixing frame and fixedly connected with the fixing frame, both ends of the butt joint rod are provided with an inclination, the inclination faces the belt body along the direction away from the center of the butt joint rod, the middle and both ends of the butt joint rod are provided with butt joint shafts, and the butt joint shafts are connected with the belt body in a sliding mode.

Furthermore, the belt body is provided with a convex strip, and the transmission roller and the butt shaft are both provided with concave rings matched with the convex strip; the convex strip at the middle part of the belt body is internally provided with a plurality of latch teeth, and the concave ring at the middle part of the transmission roller and the butting shaft is internally provided with a ring groove matched with the latch teeth.

The utility model has the advantages that:

1. Because the box is prismatic table structure and both ends are open structure, the raw and other materials of preparation charcoal are put into the box through the mouth of box broad, under the effect of raw and other materials gravity and box slope, raw and other materials landing is to the conveyer belt, transports the raw materials to screening mechanism through the conveyer belt. The material enters the sieving part through the feeding part, the second motor drives the transmission disc through the first transmission belt, the transmission shaft rotates along with the transmission shaft, the driving disc rotates under the driving of the transmission shaft, one end of the driving rod is hinged with the eccentric circle of the driving disc, the other end of the driving rod is hinged with the frame, so that the driving rod pushes and pulls the frame in a reciprocating manner, and the frame vibrates in a reciprocating manner under the hoisting of the connecting chain; the screening part vibrates along with the frame, so that raw materials meeting the screen hole diameter distance enter the material receiving bin, and screened waste materials are discharged out of the screening part under the action of the screw rod. The raw materials are effectively screened, and screened waste materials can be treated.

2. Under the action of the decelerating roller, the speed of the raw materials falling onto the conveying belt can be controlled to match the speed of the conveying belt, so that the raw materials can uniformly enter the screening mechanism, and the screening effect is improved; and the reduction roller can prevent the raw material from blocking the opening at the narrow end of the box body.

3. The two ends of the abutting rod are provided with slopes, the slopes incline towards the belt body along the direction far away from the center of the abutting rod, and the slopes are arranged on the two sides of the belt body through the abutting shaft, so that raw materials are effectively prevented from being scattered out of the conveying belt in the conveying process; the convex strips of the belt body, the transmission roller and the concave rings of the abutting shaft can keep the inclination of the belt body in the moving process; and a plurality of latches in the raised line of the middle part of the belt body, the transmission roller and the annular groove in the concave ring of the middle part of the butting shaft can connect the middle part of the belt body with the butting shaft in a sliding way, thereby effectively preventing the belt body from being separated from the butting shaft.

Drawings

Fig. 1 is a schematic structural diagram of an automatic feeding system for machine-made charcoal production according to a preferred embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a screening mechanism of an automatic feeding system for machine-made charcoal production according to a preferred embodiment of the present invention.

Fig. 3 is a side view of a screen frame of an automatic feeding system for machine-made charcoal production according to a preferred embodiment of the present invention.

Fig. 4 is a schematic structural view of a decelerating roller of an automatic feeding system for machine-made charcoal production according to a preferred embodiment of the present invention.

fig. 5 is a schematic structural view of a second frame of the automatic feeding system for machine-made charcoal production according to a preferred embodiment of the present invention.

Fig. 6 is a schematic view of a conveyor belt structure of an automatic feeding system for machine-made charcoal production according to a preferred embodiment of the present invention.

fig. 7 is a schematic structural view of a driving roller of an automatic feeding system for machine-made charcoal production according to a preferred embodiment of the present invention.

in the figure, 1-box, 101-slope, 11-first frame, 12-speed reducing roller, 121-wing, 122-second transmission belt, 13-third motor, 2-transmission belt, 201-antislip strip, 21-second frame, 211-guide port, 212-guide plate, 213-cleaning brush, 3-third frame, 31-placing frame, 311-placing port, 32-support rod, 33-connecting rod, 4-screening frame, 401-connecting chain, 41-frame, 411-feeding port, 42-feeding portion, 43-screening portion, 431-screen hole, 432-waste port, 5-receiving bin, 51-discharging port, 6-waste discharging device, 61-screw rod, 62-waste pipe, 621-folding pipe, 622-discharge pipe, 63-first motor, 7-driving device, 71-fixing plate, 72-transmission shaft, 721-pillow block, 73-transmission disk, 731-first transmission belt, 74-driving disk, 741-driving rod, 75-second motor, 8-belt body, 81-transmission roller, 82-fixing frame, 83-abutting rod, 84-abutting shaft, 85-convex strip, 851-concave ring, 86-latch and 861-ring groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

it will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

An automatic feeding system for machine-made charcoal production comprises a storage mechanism, a feeding mechanism and a screening machine mechanism.

the storage mechanism comprises a box body 1 and a first frame body 11, the box body 1 is erected on the first frame body 11, the box body 1 is of a prismatic table structure, two ends of the box body are of an opening structure, and an opening at the narrow end of the box body 1 is provided with a slope 101.

Feeding mechanism includes transmission band 2 and second support body 21, and transmission band 2 installs through the slope of second support body 21, and the lower one end of transmission band 2 is located 1 lower extreme open-ended below of box.

Because box 1 is terrace with edge structure and both ends are open structure, the raw and other materials of preparation charcoal are put into box 1 through the mouth of 1 broad of box, under the effect of raw and other materials gravity and 1 slope of box, and raw and other materials landing is on conveying belt 2, transports the raw materials to screening mechanism through conveying belt 2.

in this embodiment, a plurality of reduction rollers 12 are provided in the narrow end of the housing 1, and the reduction rollers 12 are provided with fins 121. The two ends of the decelerating rollers 12 are respectively connected with the box body 1 in a rotating way, each decelerating roller 12 is connected through a second transmission belt 122, and the second transmission belt 122 is driven by a third motor 13.

under the action of the decelerating rollers 12, the speed of the raw materials falling onto the conveying belt can be controlled to match the speed of the conveying belt 2, so that the raw materials can uniformly enter the screening mechanism, and the screening effect is improved; and the retard roller 12 can prevent the raw material from clogging the opening at the narrow end of the casing. The flaps 121 enable the stock material to be flipped over to further avoid jamming of the stock material.

In this embodiment, the second support body 21 is close to the higher one end of transmission band 2 and is equipped with guide port 211, and one side that guide port 211 is close to transmission band 2 is equipped with guide plate 212, and guide plate 212 has inclination, guide plate 212 one end and second support body 21 fixed connection, and the other end is equipped with cleaning brush 213. When the raw material slides out of the conveyor belt 2, the raw material can enter the guide mouth 211 under the action of the guide plate 212 and thus enter the sizing mechanism. The cleaning brush 213 can clean the raw material stuck on the conveying belt 2, effectively preventing the raw material stuck on the conveying belt 2 from being brought to the bottom surface by the conveying belt 2, thereby causing an influence on the environment of a factory.

The conveyor belt 2 comprises belt bodies 8, two transmission rollers 81, two fixing frames 82 and an abutting rod 83, wherein the fixing frames 82 are positioned between the belt bodies 8 and fixedly connected with the second frame body 12, the two transmission rollers 81 are respectively and rotatably arranged on the fixing frames 82, and two ends of the belt bodies 8 are respectively connected with the two transmission rollers 81; the abutting rod 83 is located between the belt body 8 and the fixing frame 82 and fixedly connected with the fixing frame 82, both ends of the abutting rod 83 are provided with a slope, the slope inclines towards the belt body 8 along the direction away from the center of the abutting rod 83, the middle and both ends of the abutting rod 83 are provided with abutting shafts 84, and the abutting shafts 84 are slidably connected with the belt body 8. Because both ends of the abutting rod 83 are provided with an inclination, and simultaneously, the two sides of the belt body 8 are provided with inclinations through the abutting shaft 84, the raw materials are effectively prevented from spilling out of the transmission belt in the transportation process.

In this embodiment, the belt body 8 has a protrusion 85, and the driving roller 81 and the abutting shaft 84 have a concave ring 851 engaged with the protrusion 85; a plurality of latch teeth 86 are arranged in the raised strip 85 at the middle part of the belt body 8, and a ring groove 861 matched with the latch teeth 86 is arranged in the concave ring 851 at the middle part of the transmission roller 81 and the abutting shaft 84. Under the matching of the convex strips 85 and the concave rings 851, the belt body 8 can keep the inclination in the moving process; under the matching of the latch 86 and the ring groove 861, the middle part of the belt body 8 can be connected with the abutting shaft 84 in a sliding way, and the belt body 8 is effectively prevented from being separated from the abutting shaft 84.

Screening mechanism locates the below of the higher one end of transmission band 2, and screening mechanism includes third support body 3, screening frame 4, connects material storehouse 5, waste discharge device 6 and drive arrangement 7.

The third frame body 3 comprises a placing frame 31, two support rods 32 and two connecting rods 33, the placing frame 31 is provided with a placing opening 311, the four support rods 32 are respectively fixedly connected with four corners of the placing frame 31, the two connecting rods 33 are arranged oppositely, and two ends of each connecting rod 33 are respectively fixedly connected with the two support rods 32.

Screening frame 4 includes frame 41, feeding portion 42 and screening portion 43, screening frame 4 is equipped with four connecting chains 401, four connecting chain 401 one end are articulated with screening frame 4, the other end is articulated with connecting rod 303, frame 41 is equipped with pan feeding mouth 411, feeding portion 42 is terrace with edge structure and the one end and the pan feeding mouth 411 turn-on connection of broad, screening portion 43 is trapezoidal structure and both ends opening, the inclined plane both sides and the bottom surface of screening portion 43 are equipped with sieve mesh 431, the one end and the one end turn-on connection that feeding portion 42 kept away from pan feeding mouth 411 of screening portion 43 broad. In this embodiment, the feeding portion 42 and the sieving portion 43 are both located in the placing opening 311.

the driving device 7 includes a fixing plate 71, a transmission shaft 72, a transmission disc 73, a driving disc 74, a driving rod 741 and a second motor 75, the fixing plate 71 is fixedly connected to the third frame body 3, the transmission shaft 72 is rotatably connected to the fixing plate 71 through a bearing 721, one end of the transmission shaft 72 is fixedly connected to the transmission disc 73, the transmission disc 73 is connected to the transmission shaft of the second motor 75 through a first transmission belt 731, one end of the transmission shaft 72, which is far away from the transmission disc 73, is fixedly connected to the driving disc 74, one end of the driving rod 741 is hinged to an eccentric circle of the driving disc 74, and the other end of the driving rod. In this embodiment, the area of the placing opening 311 is larger than the areas of the feeding portion 42 and the sieving portion 43, so that the feeding portion 42 and the sieving portion 43 can reciprocate in the placing opening 311.

In this embodiment, the second motor 75 drives the driving disc 73 through the first transmission 731, the transmission shaft 72 rotates therewith, the driving disc 74 rotates under the driving of the transmission shaft 72, since one end of the driving rod 741 is hinged to the eccentric circle of the driving disc 74, and the other end is hinged to the frame 41, so that the driving rod 741 pushes and pulls the frame 41 back and forth, and the frame 41 vibrates back and forth under the hoisting of the connecting chain 401.

Connect feed bin 5 to be centrum structure and with third support body 3 fixed connection, connect the one end that feed bin 5 broad to be located screening portion 43 below, connect the narrower one end of feed bin 5 to be equipped with discharge gate 51. The raw material sieved at the sieving part 43 enters the receiving bin 5 to perform the subsequent work.

The waste discharging device 6 comprises a spiral rod 61, a waste pipe 62 and a first motor 63, the sieving part 43 is provided with a waste port 432, the waste port 432 is adjacent to one side of the inclined surface of the sieving part 43, one end of the spiral rod 61 penetrates into the sieving part 43 through the waste port 432, the other end of the spiral rod is positioned outside the sieving part 43 and is rotatably connected with the waste pipe 62, the waste pipe 62 is fixedly connected with the third frame body 3, one end of the waste pipe 62 is in conduction connection with the waste port 432 through a folding pipe 621, and the other end of the waste pipe is provided with a discharge port 622; the first motor 63 is used for driving the screw 61. Under the action of the screw 61, the waste material enters the waste pipe 62 and is collected through the discharge port 622, preventing the waste material from polluting the environment of the plant area.

Because waste pipe 62 and third support body 3 fixed connection, the folding pipe can freely shrink when screening portion 43 vibrates, makes the leakproofness of waste opening 432 simultaneously, avoids the waste material to spill ground. In this embodiment, in order to ensure safety, the diameter of the waste opening 432 is larger than the diameter of the screw 61, so as to avoid collision between the screw 61 and the waste opening 432.

when using the utility model discloses the time, put into box 1 with raw and other materials, under the effect of raw and other materials gravity and box 1 slope, the material enters into screening portion 43 through transmission band 2 feed portion 42. The second motor 75 drives the driving plate 73 via the first transmission 731, the driving shaft 72 rotates therewith, the driving plate 74 rotates under the driving of the driving shaft 72, and the frame 41 reciprocates under the driving of the driving rod 741, so that the sieving section 43 performs sieving.

The raw material meeting the requirement enters the receiving bin 5 through the sieve hole 431 for the subsequent work. The screened waste material enters the waste pipe 62 and is collected through the discharge port 622 by the screw 61.

Claims (6)

1. An automatic feeding system for machine-made charcoal production is characterized by comprising a material storage mechanism, a feeding mechanism and a screening machine mechanism,

The storage mechanism comprises a box body (1) and a first frame body (11), the box body (1) is erected on the first frame body (11), the box body (1) is of a prismatic table structure, two ends of the box body are of opening structures, and an opening at the narrow end of the box body (1) is provided with a slope surface (101);

The feeding mechanism comprises a conveying belt (2) and a second frame body (21), the conveying belt (2) is obliquely arranged through the second frame body (21), and the lower end of the conveying belt (2) is positioned below an opening at the lower end of the box body (1);

the screening mechanism is arranged below the higher end of the conveying belt (2), the screening mechanism comprises a third frame body (3), a screening frame (4), a material receiving bin (5), a waste discharging device (6) and a driving device (7), the third frame body (3) comprises a placing frame (31), supporting rods (32) and two connecting rods (33), the placing frame (31) is provided with a placing opening (311), the four supporting rods (32) are provided with four pieces and are respectively fixedly connected with four corners of the placing frame (31), the two connecting rods (33) are arranged oppositely, and two ends of each connecting rod (33) are respectively fixedly connected with the two supporting rods (32);

The screening frame (4) comprises a frame (41), a feeding part (42) and a screening part (43), the screening frame (4) is provided with four connecting chains (401), one end of each of the four connecting chains (401) is hinged to the screening frame (4), the other end of each of the four connecting chains is hinged to the connecting rod (33), the frame (41) is provided with a feeding hole (411), the feeding part (42) is of a prismatic table structure, one wider end of each of the four connecting chains is in conduction connection with the feeding hole (411), the screening part (43) is of a trapezoidal structure, two ends of each of the screening part (43) are opened, two sides and the bottom of an inclined plane of each of the screening part (43) are provided with screen holes (431), and the wider end of each of the screening part (43) is in conduction connection with one end, far away from the feeding hole (411); the feeding portion (42) and the sieving portion (43) are both located in the placing opening (311);

the receiving bin (5) is of a cone structure and is fixedly connected with the third frame body (3), the wider end of the receiving bin (5) is positioned below the screening part (43), and the narrower end of the receiving bin (5) is provided with a discharge hole (51);

The waste discharging device (6) comprises a spiral rod (61), a waste pipe (62) and a first motor (63), the screening part (43) is provided with a waste port (432), the waste port (432) is adjacent to one side of the inclined surface of the screening part (43), one end of the spiral rod (61) penetrates into the screening part (43) through the waste port (432), the other end of the spiral rod is positioned outside the screening part (43) and is rotatably connected with the waste pipe (62), the waste pipe (62) is fixedly connected with the third frame body (3), one end of the waste pipe (62) is in conduction connection with the waste port (432) through a folding pipe (621), and the other end of the waste pipe is provided with a discharging port (622); the first motor (63) is used for driving the screw rod (61);

The driving device (7) comprises a fixing plate (71), a transmission shaft (72), a transmission disc (73), a driving disc (74), a driving rod (741) and a second motor (75), the fixing plate (71) is fixedly connected with the third frame body (3), the transmission shaft (72) is rotatably connected with the fixing plate (71) through a bearing platform (721), one end of the transmission shaft (72) is fixedly connected with the transmission disc (73), the transmission disc (73) is connected with the transmission shaft of the second motor (75) through a first transmission belt (731), one end, far away from the transmission disc (73), of the transmission shaft (72) is fixedly connected with the driving disc (74), one end of the driving rod (741) is hinged with an eccentric circle of the driving disc (74), and the other end of the driving rod is hinged with the frame (41).

2. The automated feeding system for machine-made charcoal production according to claim 1, wherein: a plurality of speed reducing rollers (12) are arranged in the narrow end of the box body (1), and the speed reducing rollers (12) are provided with fins (121); the two ends of the speed reducing rollers (12) are respectively in rotating connection with the box body (1), the speed reducing rollers (12) are connected through second transmission belts (122), and the second transmission belts (122) are driven through third motors (13).

3. The automated feeding system for machine-made charcoal production according to claim 1, wherein: second support body (21) are close to the higher one end of transmission band (2) is equipped with guide mouth (211), guide mouth (211) are close to one side of transmission band (2) is equipped with guide board (212), guide board (212) have inclination, guide board (212) one end with second support body (21) fixed connection, the other end are equipped with clean brush (213).

4. The automated feeding system for machine-made charcoal production according to claim 1, wherein: the conveying belt (2) is provided with anti-slip strips (201), and the direction of the anti-slip strips (201) is perpendicular to the movement direction of the conveying belt (2).

5. The automated feeding system for machine-made charcoal production according to claim 1, wherein: the conveying belt (2) comprises belt bodies (8), transmission rollers (81), two fixing frames (82) and a butting rod (83), wherein the fixing frames (82) are located between the belt bodies (8) and fixedly connected with the second frame body (21), the transmission rollers (81) are respectively and rotatably arranged on the fixing frames (82), and two ends of the belt body (8) are respectively connected with the two transmission rollers (81); the butt joint pole (83) be located the area body (8) with between mount (82) and with mount (82) fixed connection, butt joint pole (83) both ends all have an inclination, the inclination is along keeping away from butt joint pole (83) central direction court the area body (8) slope, butt joint pole (83) middle and both ends all are equipped with butt joint axle (84), butt joint axle (84) with area body (8) sliding connection.

6. The automated feeding system for machine-made charcoal production according to claim 5, wherein: the belt body (8) is provided with a convex strip (85), and the transmission roller (81) and the butting shaft (84) are provided with concave rings (851) matched with the convex strip (85); a plurality of latch teeth (86) are arranged in the raised line (85) at the middle part of the belt body (8), and ring grooves (861) matched with the latch teeth (86) are arranged in the concave ring (851) at the middle parts of the transmission roller (81) and the abutting shaft (84).