CN111038974A

CN111038974A - Automatic carding machine

Info

Publication number: CN111038974A
Application number: CN202010158339.XA
Authority: CN
Inventors: 不公告发明人
Original assignee: Yuexi Shixing Machinery Equipment Co ltd
Current assignee: Yuexi Shixing Machinery Equipment Co ltd
Priority date: 2019-12-11
Filing date: 2020-03-09
Publication date: 2020-04-21
Anticipated expiration: 2040-03-09
Also published as: CN111056267A; CN111056266A; CN111038974B; CN111056267B; CN111056266B

Abstract

The invention relates to an automatic carding machine which comprises a feeding mechanism, wherein a guide sliding plate is arranged at the outlet of the feeding mechanism, a discharging mechanism is arranged on the guide sliding plate, the discharging mechanism drives raw materials to slide along the guide sliding plate, a material receiving rake roller is arranged below the guide sliding plate and is horizontally arranged, when the raw materials are actually fed, the bundled raw materials are placed in the feeding mechanism, the raw materials are fed, the raw materials are led out through the guide sliding plate and are flatly paved on the guide sliding plate under the action of the discharging mechanism, the amount of the led-out raw materials is basically equal through the time of starting the discharging mechanism, the amount of the raw materials led out is further led out in a state of basically equal amount, and the raw materials are led into a grass combing machine in a state of basically equal amount one by one for subsequent processing.

Description

Automatic carding machine

Technical Field

The invention relates to the technical field of raw material processing, in particular to an automatic carding machine.

Background

Besides being used as feed for feeding livestock, the straw can also be used for weaving artware. However, before the straw is used as a weaving raw material of artware, some treatment needs to be carried out, such as removing the mixed leaves close to the root on the straw. When the removal of the mixed leaves on the straws is carried out, even if the straws are manually removed, the straws need to be operated by the grass combing and harrowing rod in a gathering state, and the mechanical removal of the weeds can effectively improve the efficiency, but obviously, the mechanical automatic production cannot be adapted when the straws are manually guided into the grass combing machine.

Disclosure of Invention

The invention aims to provide an automatic carding machine which can guide raw materials into a grass combing device in a gathering state so as to improve the production efficiency of raw materials for technological weaving.

The technical scheme adopted by the invention is as follows.

The utility model provides an automatic carding machine, includes feeding mechanism, feeding mechanism's export goes out and is provided with the guide slide, the guide slide is provided with row material mechanism, it slides along the guide slide to arrange material mechanism drive raw materials, the below of guide slide is provided with connects the material harrow roller, connect material harrow roller horizontal arrangement.

The invention also has the following features:

connect the material track that is provided with below the exit end of material receiving harrow roller, connect material track level and export and comb the feed inlet of grass machine and link up.

The feed mechanism includes the feed bin, the below of feed bin constitutes the export, a lateral wall of feed bin is provided with the feed track, the feed track constitutes a lateral wall of feed bin, the guide slide is located the export downwardly extending of feed track and arranges.

One side bulkhead of feed bin is provided with first bar opening, first bar opening arranges the multiunit along one side bulkhead width direction interval of feed bin, the feed track is located first bar opening and arranges, the protruding intracavity that stretches to the feed bin of feed track.

Also be provided with on the guide slide with second bar opening, the second bar opening arranges the multiunit along the width direction interval of guide slide, the feed track extends to in the second bar opening, and stretches out the last face of guide slide.

The whole horizontal segment and the slope section of including of guide slide, the one end of horizontal segment extends with a lateral bin wall end of feed bin and is connected, slope section slope downwardly extending, second bar opening is arranged in horizontal segment position department.

The discharging mechanism comprises a discharging rod arranged at the inclined section, a discharging spiral sheet is arranged on the discharging rod and arranged along the length direction of the discharging rod, the discharging rod is close to the outer side plate surface of the inclined section, and the driving mechanism drives the discharging rod to rotate.

The oblique extending direction of the discharging rods is consistent with that of the oblique section, the discharging rods are arranged in two groups at intervals along the length direction of the oblique section, and the driving mechanism drives the two groups of discharging rods to synchronously rotate in the same direction.

The upper end rotary type setting of row material pole is on movable support, movable support is close to or keeps away from with the slope section.

The movable support is provided with an arc-shaped sliding rod, one end of the arc-shaped sliding rod is arranged on the rack in a sliding mode, a reset tower spring is sleeved on the arc-shaped sliding rod, and two ends of the reset tower spring are respectively abutted to the movable support and the rack.

The last rotation type of movable support is provided with at least two sets of swing gyro wheels, extend on the slope section and set up the support, be provided with drive cam on the support, drive cam's rim supports with swing gyro wheel and supports and lean on, and power unit drive cam rotates.

The movable support is also provided with a material blocking rake, and the edge of the material blocking rake is abutted against or far away from the upper plate surface of the horizontal section of the material guiding sliding plate.

Be provided with on the horizontal segment and dodge the opening, dodge the opening and set up the multiunit along horizontal segment length direction equidistance interval, it comprises a grade pole to keep off the rake, the length direction equidistance extension of shelves pole along the movable support arranges, it constitutes grafting and separation cooperation with dodging the opening to keep off the rake.

An opening is formed in the inclined section, a rubber baffle is arranged in the opening, and the discharging rod is close to or far away from the rubber baffle.

The receiving rake rollers are arranged along the length direction of the material guide sliding plate, receiving rake rods are arranged on the receiving rake rollers, and the receiving rake rods are arranged at intervals along the length direction of the receiving rake rollers.

The lower extreme slope and the horizontal extension of slope section, the horizontal extension section equidistance interval of slope section is provided with the opening, connect the material rake lever to stretch into in the opening, connect the material track to be located to connect material rake roll below setting for slot type conveyer belt and feed inlet.

The processing method of the raw materials of the process raw materials comprises the following steps:

firstly, preparing materials, namely harvesting the raw materials which are harvested in the field and bundled together, and delivering the raw materials into a feeding mechanism to lead the raw materials out of a discharge hole;

secondly, the raw materials are distributed along the material guide sliding plate by using a discharging mechanism and are quantitatively led out from the outlet position of the material guide sliding plate;

thirdly, controlling the starting time of the discharging mechanism to enable the outlet of the material guide sliding plate to discharge the raw materials quantitatively;

and fourthly, exporting the raw materials quantitatively discharged from the outlet at the lower end of the material guide sliding plate to a material receiving rake roller, and starting the material receiving rake roller to export the quantitative raw materials so as to realize quantitative feeding of the raw materials.

The raw material is rice straw.

The invention has the technical effects that: the raw materials is when actual feed, the raw materials after will beating a bundle are placed in feeding mechanism, implement the feed to the raw materials, the raw materials is through the back of guide slide derivation, and under row material mechanism's effect, make the raw materials tiling on the guide slide, time through starting row material mechanism, make the volume that the raw materials was derived basically equivalent, and then make raw materials volume and the state of basic equivalent on the leading-in material receiving rake roller derive, the raw materials is with the state of basic equivalent scooping a scoop.

Drawings

FIG. 1 is a schematic plan view of an automatic carding machine;

FIGS. 2 and 3 are schematic views of two views of an automatic carding machine;

FIGS. 4 and 5 are schematic views of the automatic carding machine in two different views;

fig. 6 and 7 are two view angle structures of the material guiding sliding plate.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention will now be described in detail with reference to the following examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed. As used herein, the terms "parallel" and "perpendicular" are not limited to their strict geometric definitions, but include tolerances for machining or human error, legibility and inconsistency; the specific features of the automatic carding machine are explained in detail below:

an automatic carding machine comprises a feeding mechanism 10, wherein a material guide sliding plate 20 is arranged at an outlet of the feeding mechanism 10, a material discharging mechanism 30 is arranged on the material guide sliding plate 20, raw materials are driven by the material discharging mechanism 30 to slide along the material guide sliding plate 20, a material receiving rake roller 40 is arranged below the material guide sliding plate 20, and the material receiving rake roller 40 is horizontally arranged;

referring to fig. 1 to 3, after the raw material is collected from the farmland, the raw material is guided to the feeding mechanism 10 in a bundled state, the feeding mechanism 10 continuously feeds the raw material and guides the raw material to the guide sliding plate 20, the discharging mechanism 30 is used to slide the raw material along the guide sliding plate 20, the starting time of the discharging mechanism 30 is controlled to make the amount of the raw material guided out from the lower outlet position of the guide sliding plate 20 substantially equal, and the equal amount of the raw material is guided to the material receiving rake roller 40 to realize intermittent feeding of the raw material, so that the raw material is provided to the material receiving rake roller 40 in a scooping manner, and is guided to the grass combing machine to perform weed combing operation, thereby realizing further processing of the raw material for the process.

In order to lead out the raw materials smoothly, a material receiving crawler belt 50 is arranged below the outlet end of the material receiving harrow roller 40, and the material receiving crawler belt 50 is horizontal and the outlet is connected with the feed inlet of the grass comber;

when the material receiving crawler 50 supplies the raw materials, the material receiving crawler 50 is in an intermittent rotating state, and after the material receiving rake roller 40 receives a certain amount of raw materials and guides the raw materials to the material receiving crawler 50, the material receiving crawler 50 rotates, so that intermittent feeding of the scooped raw materials is realized, and subsequent processing of the raw materials is realized.

In order to realize continuous feeding of raw materials, the feeding mechanism 10 comprises a bin 11, an outlet is formed below the bin 11, a feeding crawler 12 is arranged on one side wall of the bin 11, the feeding crawler 12 forms one side wall of the bin 11, and the guide sliding plate 20 is arranged at the outlet of the feeding crawler 12 in a downward extending manner;

foretell feeding mechanism 10 adopts the feed of feed bin 11, the lower extreme of feed bin 11 is provided with the export, when implementing the raw materials feed, put in the feed bin 11 with the raw materials of bundle, start feeding track 12, make the raw materials continuously guide to send to guide slide 20 on, and then utilize row material mechanism 30, make raw materials equivalent discharge to guide slide 20 on, through the start-up time of control row material mechanism 30, make the raw materials volume of guide slide 20's export derivation basically equivalent, and then make the raw materials derive with the mode of a pinch.

In order to guide the raw materials in the storage bin 11 out of the outlet to the guide sliding plate 20, a first strip-shaped opening 111 is formed in one side bin wall of the storage bin 11, a plurality of groups of the first strip-shaped openings 111 are arranged at intervals along the width direction of one side bin wall of the storage bin 11, the feeding crawler 12 is arranged in the first strip-shaped opening 111, and the feeding crawler 12 protrudes into a cavity of the storage bin 11;

the first strip-shaped openings 111 are arranged along the width direction of the bin wall of the bin 11 at equal intervals, the feeding crawler 12 is arranged in the first strip-shaped openings 111, when the feeding crawler 12 is started, raw materials can be reliably guided out from the outlet of the bin 11 and onto the material guide sliding plate 20, and the material discharging mechanism 30 is utilized to achieve the equivalent material discharging operation of the raw materials.

In order to realize continuous feeding of the raw materials, the raw materials are equally distributed on the material guide sliding plate 20, the material guide sliding plate 20 is also provided with second strip-shaped openings 201, a plurality of groups of the second strip-shaped openings 201 are arranged at intervals along the width direction of the material guide sliding plate 20, and the feeding crawler 12 extends into the second strip-shaped openings 201 and extends out of the upper plate surface of the material guide sliding plate 20;

the raw materials are led out to the guide slide plate 20 from the outlet of the stock bin 11, and the feeding crawler 12 drags the raw materials to slide along the guide slide plate 20, so that the raw materials are uniformly distributed, and the raw materials are uniformly distributed on the guide slide plate 20.

Preferably, the guide sliding plate 20 integrally comprises a horizontal section 21 and an inclined section 22, one end of the horizontal section 21 is connected with an end of a side bin wall of the bin 11 in an extending manner, the inclined section 22 extends downwards in an inclined manner, and the second strip-shaped opening 201 is arranged at the position of the horizontal section 21;

when the raw materials material is derived from the export of feed bin 11, make the raw materials continuously lead to the horizontal segment 21 position department of guide slide 20, and make the raw materials deposit on the horizontal segment 21 upper plate face of guide slide 20, when the supply track 12 is protruding to the interior of second bar-shaped opening 201, make the raw materials can continuously lead to the position of combining of slope section 22 and horizontal segment 21, then supply track 12 and slope section 22 separate, and then stop the feed to the raw materials, start row's mechanism 30, can make the raw materials ration of piling up in horizontal segment 21 and slope section 22 position of combining lead to the slope section 22 on, finally arrange and effective feed in order to the realization ration to the raw materials.

More preferably, in order to realize quantitative arrangement and feeding of the raw materials, the discharging mechanism 30 includes a discharging rod 31 disposed at the position of the inclined section 22, a discharging screw 311 is disposed on the discharging rod 31, the discharging screw 311 is disposed along the length direction of the discharging rod 31, the discharging rod 31 is close to the outer side plate surface of the inclined section 22, and the driving mechanism drives the discharging rod 31 to rotate;

when raw materials are fed by the feeding crawler 12, the raw materials are pushed to the joint position of the horizontal section 21 and the inclined section 22, the driving mechanism is started, the discharging rod 31 is made to rotate, the raw materials stacked on the guide sliding plate 20 are quantitatively pushed under the pushing action of the spiral sheet 311 and are distributed on the inclined section 22, so that the uniform distribution and discharging operation of the raw materials is realized, the raw materials are uniformly distributed on the inclined section 22, the raw materials are led out from the lower outlet of the inclined section 22 under the pushing force of the spiral sheet 311, and the quantitative feeding operation of the raw materials is realized by controlling the starting of the discharging rod 31;

the spiral sheet 311 slightly protrudes from the shaft of the discharging rod 31, and the distance between the discharging rod 31 and the outer plate surface of the inclined section 22 is set to be as small as possible, so that the raw material can be pushed downwards along the inclined plate 22 under the pushing of the spiral sheet 311, and further the quantitative feeding operation of the raw material is realized;

the extension amount of the discharging rod 31 arranged on the spiral piece 11 is small, so that the problem that the raw material is wound on the discharging rod 31 can be effectively avoided, the raw material is effectively pushed downwards from the inclined plate 22 and is pushed out to the material receiving and raking roller 40, and quantitative feeding of the raw material is realized.

Furthermore, the inclined extending direction of the discharging rods 31 is consistent with the inclined extending direction of the inclined section 22, two groups of discharging rods 31 are arranged at intervals along the length direction of the inclined section 22, and the driving mechanism drives the two groups of discharging rods 31 to synchronously and simultaneously rotate;

the discharging rods 31 are close to the outer side plate surface of the inclined section 22, so that raw materials can smoothly pass through the discharging rods, the raw materials can be effectively fed by adopting two groups of discharging rods 31, the raw materials are clamped in a gap between the spiral piece and the discharging rods 31, and the raw materials slide along the outer side plate surface of the inclined section 22 by the aid of the rotary discharging rods 31, so that quantitative feeding of the raw materials is realized, the raw materials are uniformly distributed on the inclined section 22, and the feeding purpose of one bunch of materials is achieved;

when the discharging rod 31 is close to the inclined section 22, the raw materials are compressed, quantitative feeding of the raw materials is achieved, and the raw materials can be guided out along the inclined section 22 in a sliding mode.

More preferably, the upper end of the discharging rod 31 is rotatably arranged on a movable bracket 33, and the movable bracket 33 is close to or far away from the inclined section 22;

because the helical piece 311 of the discharging rod 31 is in contact with the raw material, the raw material is easily wound, and to this end, when the movable support 33 is far away from the inclined section 22, the helical piece 311 is far away, and then the raw material is pushed to the upper end of the inclined section 22 and the position of the discharging rod 31, when the movable support 33 is close to the inclined section, the discharging rod 31 is close to the inclined section 22, and then the helical piece 311 clamps the raw material and slides along the inclined section 22, so as to realize intermittent and equal feeding operation of the raw material, and lead out the raw material to the receiving rake roller 40 in a positioning manner.

More preferably, an arc-shaped sliding rod 331 is arranged on the movable support 33, one end of the arc-shaped sliding rod 331 is slidably arranged on the frame 34, a reset tower spring 332 is sleeved on the arc-shaped sliding rod 331, and two ends of the reset tower spring 332 are respectively abutted against the movable support 33 and the frame 34;

the movable bracket 33 is rotatably provided with at least two groups of swing rollers 333, the inclined section 22 is provided with a bracket 221 in an extending manner, the bracket 221 is provided with a driving cam 222, the rim of the driving cam 222 is abutted against the swing rollers 333, and the driving cam 222 is driven to rotate by a power unit;

in the process that the power unit drives the driving cam 222 to rotate through the connecting shaft, the driving cam 222 drives the swing roller 333 to rotate, so that the arc-shaped sliding rod 331 on the sliding support 33 slides and rotates along the arc-shaped sliding sleeve on the rack 34, and the discharging rod 31 and the inclined section 22 are in close and far movement postures, and the material receiving and feeding operation of raw materials is realized;

the upper ends of the two discharging rods 31 extend out of the movable support 33 and are respectively provided with belt wheels, the belt wheels are connected through a belt, one of the belt wheels is connected with a driving motor, so that the raking rods 31 can synchronously rotate in the same direction, and the raw materials can be effectively fed.

In order to avoid the accumulation of the raw materials on the horizontal section 21, the movable bracket 33 is also provided with a material blocking rake 334, and the edge of the material blocking rake 334 is abutted against or away from the upper plate surface of the horizontal section 21 of the material guide sliding plate 20;

in the process that the power unit drives the driving cam 222 to rotate, the movable support 33 slides around the arc-shaped sliding rod 331, so that the material blocking rake 334 on the movable support 33 abuts against the upper plate surface of the horizontal section 21 of the material guiding sliding plate 20, so as to block the raw material, and prevent the raw material from being discharged too fast, so that the raw material is stacked at the joint of the horizontal section 21 and the inclined section 22 of the material guiding sliding plate 20, and further prevent the raw material from being blocked.

Specifically, be provided with on horizontal segment 21 and dodge opening 211, dodge opening 211 and set up the multiunit along 21 length direction equidistance intervals of horizontal segment, fender rake 334 comprises a grade pole, a grade pole extends along the length direction equidistance of movable support 33 and arranges, fender rake 334 constitutes grafting and separation cooperation with dodging opening 211.

In order to increase the sliding resistance of the guide sliding plate 20, an opening is arranged on the inclined section 22, a rubber baffle 223 is arranged in the opening, and the discharging rod 31 is close to or far away from the rubber baffle 223;

after the power unit is started, the rod body of the discharging rod 31 is abutted to or separated from the rubber baffle 223, so that the raw materials are slidably guided, and when the discharging rod 31 is abutted to the rubber baffle 223, the rubber baffle 223 deforms, so that the raw materials are transferred and guided.

The material receiving rake roller 40 is arranged along the length direction of the material guide sliding plate 20, the material receiving rake roller 40 is provided with material receiving rake rods 41, and the material receiving rake rods 41 are arranged at intervals along the length direction of the material receiving rake roller 40;

the lower end of the inclined section 22 is inclined and extends horizontally, openings 224 are arranged at equal intervals in the horizontally extending section of the inclined section 22, the material receiving rake rod 41 extends into the openings 224, the material receiving crawler belt 50 is a groove type conveyer belt, and a feeding hole is arranged below the material receiving rake roller 40;

after the raw materials are guided to the lower end position of the discharging rod 31 and are located at the lower end position of the guide sliding plate 20, the material receiving rake rod 41 is adopted to push the raw materials on the horizontal extension section of the guide sliding plate 20 out to the material receiving crawler 50, and the material receiving crawler 50 intermittently moves to realize intermittent feeding of the raw materials, so that the raw materials are guided out to the grass combing machine in a gathering mode to be processed in the next step.

firstly, preparing materials, namely harvesting the raw materials which are harvested and bundled together in the field, and delivering the raw materials into a feeding mechanism 10 to lead the raw materials out of a discharge hole;

secondly, the material discharging mechanism 30 is used for distributing the raw materials along the material guiding sliding plate 20 and quantitatively leading out the raw materials from the outlet position of the material guiding sliding plate 20;

thirdly, controlling the starting time of the discharging mechanism 30 to enable the outlet of the material guide sliding plate 20 to discharge the raw materials quantitatively;

and fourthly, guiding the raw materials quantitatively discharged from the lower outlet of the material guide sliding plate 20 to the material receiving rake roller 40, and starting the material receiving rake roller 40 to guide the quantitative raw materials out so as to realize quantitative feeding of the raw materials.

Claims

1. An automatic carding machine, its characterized in that: including feeding mechanism (10), the export of feeding mechanism (10) is provided with guide slide (20), guide slide (20) are provided with row material mechanism (30), it slides along guide slide (20) to arrange material mechanism (30) drive raw materials, the below of guide slide (20) is provided with connects material harrow roller (40), connect material harrow roller (40) horizontal arrangement.

2. Automatic carding machine, according to claim 1, characterised in that: the material receiving crawler belt (50) is arranged below the outlet end of the material receiving harrow roller (40), and the material receiving crawler belt (50) is horizontal and the outlet of the material receiving crawler belt is connected with the feed inlet of the grass combing machine.

3. Automatic carding machine, according to claim 1 or 2, characterised in that: the feeding mechanism (10) comprises a bin (11), an outlet is formed below the bin (11), a feeding crawler belt (12) is arranged on one side wall of the bin (11), the feeding crawler belt (12) forms one side wall of the bin (11), and the guide sliding plate (20) is positioned at the outlet of the feeding crawler belt (12) and extends downwards; : one side wall of feed bin (11) is provided with first bar opening (111), first bar opening (111) are along one side wall width direction interval arrangement multiunit of feed bin (11), feeding track (12) are located first bar opening (111) and arrange, feeding track (12) are protruding to be stretched to in the cavity of feed bin (11).

4. Automatic carding machine, according to claim 3, characterised in that: the material guide sliding plate (20) is also provided with a plurality of groups of second strip-shaped openings (201), the second strip-shaped openings (201) are arranged at intervals along the width direction of the material guide sliding plate (20), and the feeding crawler belt (12) extends into the second strip-shaped openings (201) and extends out of the upper plate surface of the material guide sliding plate (20); the whole horizontal segment (21) and slope section (22) of including of guide slide (20), the one end of horizontal segment (21) extends with a side bin wall end of feed bin (11) and is connected, slope section (22) slope downwardly extending, second bar opening (201) are arranged in horizontal segment (21) position department.

5. Automatic carding machine, according to claim 4, characterised in that: the discharging mechanism (30) comprises a discharging rod (31) arranged at the position of the inclined section (22), a discharging spiral piece (311) is arranged on the discharging rod (31), the discharging spiral piece (311) is arranged along the length direction of the discharging rod (31), the discharging rod (31) is close to the outer side plate surface of the inclined section (22), and the driving mechanism drives the discharging rod (31) to rotate.

6. Automatic carding machine, according to claim 5, characterised in that: the oblique extending direction of the discharging rods (31) is consistent with that of the oblique section (22), two groups of discharging rods (31) are arranged at intervals along the length direction of the oblique section (22), and the driving mechanism drives the two groups of discharging rods (31) to synchronously rotate in the same direction; the upper end rotary type of arranging material pole (31) sets up on movable support (33), movable support (33) are close to or keep away from with slope section (22).

7. Automatic carding machine, according to claim 6, characterised in that: an arc-shaped sliding rod (331) is arranged on the movable support (33), one end of the arc-shaped sliding rod (331) is arranged on the rack (34) in a sliding mode, a reset tower spring (332) is sleeved on the arc-shaped sliding rod (331), and two ends of the reset tower spring (332) are abutted to the movable support (33) and the rack (34) respectively; the movable support (33) is rotatably provided with at least two groups of swing rollers (333), the inclined section (22) is provided with a support (221) in an extending mode, the support (221) is provided with a driving cam (222), the rim of the driving cam (222) is abutted to the swing rollers (333), and the driving cam (222) is driven to rotate by a power unit; the movable bracket (33) is also provided with a material blocking rake (334), and the edge of the material blocking rake (334) is abutted against or far away from the upper plate surface of the horizontal section (21) of the material guiding sliding plate (20); be provided with on horizontal segment (21) and dodge opening (211), dodge opening (211) and set up the multiunit along horizontal segment (21) length direction equidistance interval, it comprises a grade pole to keep off material harrow (334), a grade pole extends along the length direction equidistance of movable support (33) and arranges, it constitutes grafting and separation cooperation with dodging opening (211) to keep off material harrow (334).

8. Automatic carding machine, according to claim 7, characterised in that: an opening is formed in the inclined section (22), a rubber baffle (223) is arranged in the opening, and the discharging rod (31) is close to or far away from the rubber baffle (223).

9. Automatic carding machine, according to claim 8, characterised in that: the receiving and raking roller (40) is arranged along the length direction of the material guide sliding plate (20), receiving and raking rods (41) are arranged on the receiving and raking roller (40), and the receiving and raking rods (41) are arranged at intervals along the length direction of the receiving and raking roller (40).

10. Automatic carding machine, according to claim 9, characterised in that: the lower extreme slope and the horizontal extension of slope section (22), the horizontal extension equidistance interval of slope section (22) is provided with opening (224), connect material harrow pole (41) to stretch into opening (224), connect material track (50) to be the setting of slot type conveyer belt and feed inlet position in connecing material harrow roller (40) below.