CN115491771B

CN115491771B - Cotton impurity removing device

Info

Publication number: CN115491771B
Application number: CN202211388897.0A
Authority: CN
Inventors: 张恒军; 周刚
Original assignee: Anhui Shou County Yinfeng Cotton Co ltd
Current assignee: Anhui Shou County Yinfeng Cotton Co ltd
Priority date: 2022-11-08
Filing date: 2022-11-08
Publication date: 2024-01-23
Anticipated expiration: 2042-11-08
Also published as: CN115491771A

Abstract

The invention relates to the technical field of cotton quilt processing, in particular to a cotton impurity removing device, which comprises an outer shell, wherein a rotary channel and a U-shaped channel are arranged in the outer shell, the head end and the tail end of the U-shaped channel are communicated through the rotary channel to form a closed channel, the outer shell is provided with a cotton inlet and a cotton wool outlet, the outer shell is provided with an air flow cotton feeding device positioned at the cotton inlet, the impurity removing device comprises a plurality of ratchet hooking components positioned in the closed channel, the outer shell is provided with a conveying mechanism for driving the ratchet hooking components to circularly move in the closed channel, an air flow ascending section of the U-shaped channel is defined as an ascending channel, an air flow descending section is defined as a descending channel, cotton wool positioned in the ascending channel is wound on the ratchet hooking components, and cotton wool positioned in the descending channel is separated from the ratchet hooking components. The cotton seeds can be continuously separated by the device.

Description

Cotton impurity removing device

Technical Field

The invention relates to the technical field of cotton quilt processing, in particular to a cotton impurity removing device.

Background

Cotton is an important textile material and needs to be harvested from cotton plants, but cotton fibers are mixed with cotton seeds during harvesting and cotton seeds need to be removed from cotton bolls during cotton production. At an early stage, people removed by hand, but with extremely slow efficiency.

At present, some cotton seed separating equipment adopts cross-moving fork bars to forcedly separate cotton seeds from cotton seeds, the mechanical equipment has larger damage to the cotton seeds, some cotton seeds can be directly crushed by the cross bars, the yield of the cotton seeds is reduced, the cotton seeds are doped with some broken cotton seeds, and the mechanical equipment cannot be continuously separated, so that the efficiency is lower.

Disclosure of Invention

The invention aims to provide a cotton impurity removing device for better ensuring the integrity of cotton seeds and higher separation efficiency.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a cotton impurity cleaning device, includes the shell body, have gyration passageway, U-shaped passageway in the shell body, the head and the tail both ends of U-shaped passageway are through gyration passageway intercommunication formation closed channel, the shell body is equipped with cotton portion, cotton wool export, the shell body is located cotton portion and is equipped with the air current and flows cotton device, impurity cleaning device includes that a plurality of is located the ratchet hook and links the subassembly of closed channel, the shell body is installed and is driven ratchet hook and links the conveying mechanism of subassembly at closed channel cyclic motion, defines U-shaped passageway air current ascending section and is the ascending passageway, air current descending section is the descending passageway, is located the winding of ascending passageway cotton is in ratchet hook links the subassembly on, be located descending passageway cotton wool breaks away from ratchet hook links the subassembly.

The U-shaped channels are at least two, a plurality of U-shaped channels are sequentially communicated to form a serpentine channel, and the head end and the tail end of the serpentine channel are communicated through the rotary channels to form the closed channel.

The ratchet hook connecting component has the same moving direction as the air flow, the cotton wool outlet is positioned at the front end of the rotary channel and is opposite to the bottom of the descending channel, the air flow cotton conveying device is positioned at the rear end of the rotary channel and is positioned in the ascending channel.

The outer shell is positioned below each ascending channel and is provided with a cotton seed collecting box communicated with the ascending channel.

The air flow cotton feeding device comprises a cotton storage box fixedly connected to the outer wall of an outer shell, a rotating roller is connected to the inner side of the cotton storage box in a rotating mode, a first rotating motor is connected to the rotating roller in a transmission mode, a first ratchet is fixedly connected to the outer circumference of the rotating roller, an air inlet and a cotton inlet are formed in the outer shell, the rotating roller at least partially penetrates through the cotton inlet and is arranged in the rising channel, the first ratchet is located in the rising channel and conforms to the air flow movement direction, the air inlet is located below the cotton inlet, and an air blower is connected to the air inlet.

The ratchet hook-and-link assembly comprises a supporting rod in transmission connection with the conveying mechanism, a plurality of cylinders are sleeved on the supporting rod, the cylinders are rotationally connected with the supporting rod, a plurality of second ratchets which are obliquely downwards arranged are symmetrically and fixedly connected to the outer circumference of the cylinders, and the second ratchets always point to the obliquely downwards direction under the action of gravity.

The second ratchet comprises a main rod body which is obliquely downwards arranged, and a plurality of auxiliary rod bodies which are obliquely downwards arranged are fixedly connected to the outer periphery of the main rod body.

The plate body that defines shell body both sides is the apron, conveying mechanism includes that a plurality of rotates the sprocket of connecting in the apron outside, at least one sprocket drive is connected with the second rotating electrical machines, a plurality of be connected with the chain between the sprocket, the chain motion track corresponds the closed channel shape setting, the rigid coupling has a plurality of interval distribution's magnet piece on the chain, the magnet piece magnetic attraction of bracing piece both ends and both sides is connected.

The two ends of the supporting rod are sleeved with ferromagnetic sleeves in a sliding mode, guide tracks corresponding to the tracks of the chains are formed in the inner walls of the cover plates, and the ends of the ferromagnetic sleeves are limited in the guide tracks and are connected with the magnet blocks in a magnetic attraction mode.

The ferromagnetic sleeve is embedded to be equipped with first ball near one side of guide rail, the magnet piece is embedded to be equipped with the second ball near one side of apron.

The cotton impurity removing device provided by the invention has the beneficial effects that: the cotton to be removed is conveyed into the closed channel through the air flow cotton conveying device, the cotton comprises cotton seeds and cotton seeds surrounding the periphery of the cotton seeds, the cotton seeds are large in size and light in weight, under the action of the air flow, the cotton moves along with the air flow (namely, the cotton seeds move along with the air flow under the action of the cotton seeds), the cotton moves irregularly in the closed channel, due to the fact that the ratchet hooking component is arranged in the closed channel, when the cotton touches the ratchet hooking component, the cotton seeds are gradually hooked on the ratchet hooking components, under the action of thrust of the air flow and inertia of the cotton seeds, the cotton seeds are separated from the cotton seeds hooked on the ratchet hooking component, when the cotton seeds are gradually separated from the cotton seeds on the periphery of the cotton seeds, the cotton seeds are changed into a particle structure with the size of soybean, the thrust of the cotton seeds is greatly reduced, the cotton seeds move downwards under the action of gravity, and the cotton seeds fall continuously along with the ratchet hooking component, when the ratchet hooking component moves to the descending channel, the cotton seeds are separated from the ratchet hooking component, and the cotton seeds can be separated continuously and mechanically and continuously separated under the condition of high compression rate.

Drawings

FIG. 1 is a schematic diagram of a front view of a first embodiment of the present invention;

FIG. 2 is a schematic diagram of a front view of a second embodiment of the present invention;

FIG. 3 is a schematic view of a conveying mechanism and an outer housing of the present invention;

FIG. 4 is a schematic diagram of a conveying mechanism and an outer housing of the present invention;

FIG. 5 is a schematic view of the structure of the guide rail on the inner side of the cover plate of the present invention;

FIG. 6 is a schematic view of the ratchet hooking component of the present invention;

fig. 7 is a schematic view of a magnetic connection structure of the ratchet hooking component and the conveying mechanism.

In the figure: the cotton seed harvester comprises an air inlet 1, a first ratchet 2, a rotating roller 3, a cotton storage box 4, a cotton inlet 5, an outer shell 6, an ascending channel 7, a descending channel 8, a U-shaped channel 9, a rotary channel 10, a cotton seed collecting box 11, a cotton seed outlet 12, a ratchet hooking component 13, a magnet block 14, a cover plate 15, a chain 16, a chain wheel 17, a guide rail 18, a ferromagnetic sleeve 19, a supporting rod 20, a cylinder 21, a main rod body 22, a secondary rod body 23, a second ratchet 24, a first ball 25 and a second ball 26.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1, a cotton impurity removing device comprises an outer shell 6, wherein a rotary channel 10 is arranged in the outer shell 6, the head end and the tail end of a U-shaped channel 9,U are communicated through the rotary channel 10 to form a closed channel, the outer shell 6 is provided with a cotton inlet part and a cotton wool outlet 12, the outer shell 6 is provided with an air flow cotton flowing device at the cotton inlet part, the impurity removing device comprises a plurality of ratchet hooking components 13 positioned in the closed channel, the outer shell 6 is provided with a conveying mechanism for driving the ratchet hooking components 13 to circularly move in the closed channel, an air flow ascending section of the U-shaped channel 9 is defined as an ascending channel 7, an air flow descending section is defined as a descending channel 8, cotton wool positioned in the ascending channel 7 is wound on the ratchet hooking components 13, and cotton wool positioned in the descending channel 8 is separated from the ratchet hooking components 13.

The cotton to be removed is conveyed into the closed channel through the air flow cotton conveying device, the cotton comprises cotton seeds and cotton seeds surrounding the periphery of the cotton seeds, the cotton seeds are large in size and light in weight, under the action of the air flow, the cotton moves along with the air flow (namely, the cotton seeds move along with the air flow under the action of the cotton seeds), the cotton moves randomly in the closed channel, and due to the fact that the ratchet hooking component 13 is arranged in the closed channel, when the cotton touches the ratchet hooking component 13, the cotton seeds are gradually hooked on the ratchet hooking components 13, under the action of the thrust of the air flow and the inertia of the cotton seeds, the cotton seeds are separated from the cotton seeds hooked on the ratchet hooking component 13, when the cotton seeds are gradually separated from the cotton seeds on the periphery of the cotton seeds, the cotton seeds become a particle structure with the size of soybean, the thrust of the cotton seeds is greatly reduced, the cotton seeds drop downwards under the action of gravity, the cotton seeds continue to follow the ratchet hooking component 13 to move to the descending channel 8, and the cotton seeds are separated from the ratchet hooking component 13.

As one embodiment, the length of the ascending channel 7 is longer than that of the descending channel 8, and as a further embodiment, the air flow cotton feeding device adopts a pulse air flow cotton feeding mode, so that the air flow is large and small, and cotton seeds can be better separated from cotton wool.

Referring to fig. 2-7, if cotton seeds are separated only through one ascending channel 7 and one descending channel 8, complete separation is difficult, so that a small amount of cotton seeds may exist in the discharged cotton seeds, as an implementation mode, at least two U-shaped channels 9 are sequentially communicated with each other to form a serpentine channel, the head end and the tail end of the serpentine channel are communicated with each other through a rotary channel 10 to form a closed channel, a plurality of groups of U-shaped channels 9 are arranged, and the cotton is repeatedly hooked and separated from a ratchet hooking component 13, so that each cotton part passes through the plurality of ascending channels 7 and the descending channels 8 to perform multiple separation steps, and the obtained cotton is cleaner.

Referring to fig. 2, the movement direction of the ratchet hooking component 13 is the same as the movement direction of the air flow, the cotton wool outlet 12 is positioned at the front end of the rotary channel 10 and the cotton wool outlet 12 is opposite to the bottom of the descending channel 8, the air flow cotton conveying device is positioned at the rear end of the rotary channel 10 and the air flow cotton conveying device is positioned at the ascending channel 7.

The cotton seeds are separated from the cotton seeds in the ascending channels 7, a cotton seed collecting box 11 communicated with the ascending channels 7 is arranged below each ascending channel 7 on the outer shell 6 of the device, and the cotton seeds falling under the action of gravity are collected into the cotton seed collecting box 11, and as an implementation mode, a filter screen is arranged at the position of an opening at the upper part of the cotton seed collecting box 11 to prevent the cotton seeds from being accumulated in the cotton seed collecting box 11.

Referring to fig. 1 or fig. 2, as an implementation manner, the airflow cotton feeding device comprises a cotton storage box 4 fixedly connected to the outer wall of an outer shell 6, a rotating roller 3 is rotationally connected to the cotton storage box 4, the rotating roller 3 is in transmission connection with a first rotating motor, the outer circumference of the rotating roller 3 is fixedly connected with a first ratchet 2, the outer shell 6 is provided with an air inlet 1 and a cotton inlet 5, the rotating roller 3 at least partially penetrates through the cotton inlet 5 and is arranged in an ascending channel 7, the first ratchet 2 in the ascending channel 7 conforms to the airflow movement direction, the compliant airflow movement means that the direction of the first ratchet 2 is the same as the movement direction of the airflow, the air inlet 1 is positioned below the cotton inlet 5, and the air inlet 1 is connected with a blowing fan.

The cotton is put into the cotton storage box 4, the rotating roller 3 is driven to rotate through the first rotating motor, as the outer circumference of the rotating roller 3 is provided with the first ratchet 2, a small amount of cotton moves to the ascending channel 7 along with the first ratchet 2 under the hooking action of the first ratchet 2, the first ratchet 2 positioned in the ascending channel 7 conforms to the air flow moving direction, the air inlet 1 is arranged below the cotton inlet 5, the cotton is separated from the first ratchet 2 to move upwards through the air flow blown out by the air blowing fan, and the cotton is fed in the mode, so that a large amount of cotton is prevented from entering the closed channel at one time.

Referring to fig. 6, as an embodiment of the ratchet hooking component, the ratchet hooking component 13 includes a supporting rod 20 in transmission connection with a conveying mechanism, the supporting rod 20 is driven to circularly move in an outer shell by the conveying mechanism, a plurality of cylinders 21 are sleeved on the supporting rod 20, the cylinders 21 are rotationally connected with the supporting rod 20, a plurality of second ratchets 24 which are obliquely arranged downwards are symmetrically and fixedly connected with the outer circumference of the cylinders 21, and the second ratchets 24 always point to the obliquely downwards direction under the action of gravity.

Referring to fig. 1, 2 and 6, the cylinder 21 is rotatably connected with the support rod 20, and the second ratchet 24 is symmetrically and fixedly connected on the cylinder 21 in an inclined downward direction, under the action of gravity, the second ratchet 24 always points in an inclined downward direction, that is, the second ratchet 24 points in an inclined downward direction in both the ascending channel 7 and the descending channel 8;

when the supporting rod 20 is positioned in the ascending channel 7, the second ratchet 24 is inclined downwards, and the air flow drives the cotton to move upwards, namely, the direction of the cotton following the air flow is opposite to the direction of the second ratchet 24, so that the cotton is easily hooked on the second ratchet 24, namely, the hooking of the cotton and the ratchet hooking component 13 is completed;

when the support rod 20 is located in the descending channel 8, the second ratchet 24 is obliquely downwards directed, and the air flow moves downwards at the moment, namely, the direction of the second ratchet 24 is the same as the movement direction of the air flow, so that the downward air flow can separate the cotton wool hooked on the obliquely downwards arranged second ratchet 24 from the second ratchet 24, namely, the separation of the cotton wool from the ratchet hooking component 13 is completed, the ratchet hooking component 13 of the device has a simple structure, is convenient to manufacture and use, and realizes the two functions of hooking and separating the cotton wool from the ratchet hooking component 13 by using the same air flow.

As an embodiment, the second ratchet 24 includes a main rod body 22 disposed obliquely downward, and a plurality of auxiliary rod bodies 23 disposed obliquely downward are fixedly connected to the outer peripheral side of the main rod body 22.

As an implementation mode of the conveying mechanism, referring to fig. 3, 4 and 7, the plate bodies on two sides of the outer shell 6 are defined as cover plates 15, the conveying mechanism comprises a plurality of chain wheels 17 which are rotatably connected to the outer sides of the cover plates 15, at least one chain wheel 17 is connected with a second rotating motor in a transmission mode, a chain 16 is connected between the plurality of chain wheels 17, the movement track of the chain 16 is arranged corresponding to the shape of a closed channel, a plurality of magnet blocks 14 which are distributed at intervals are fixedly connected to the chain 16, and two ends of a supporting rod 20 are connected with the magnet blocks 14 on two sides in a magnetic attraction mode.

The magnet block 14 is driven to move through rotation of the chain 16, as the two ends of the supporting rod 20 are connected with the magnet blocks 14 on the two sides in a magnetic attraction manner, the supporting rod 20 moves along with the magnet blocks 14 on the chain 16, the conveying mechanism can drive the ratchet hooking component 13 to move inside the outer shell body through the device, the use of parts inside the outer shell body can be reduced, if the conveying mechanism is arranged inside the outer shell body, the structure inside the outer shell body 6 is set to be too complex, cotton wool is easy to hook on the conveying mechanism, the cotton wool is easy to pile up in a closed channel, and thus the whole device can be blocked, the device only sets the ratchet hooking component 13 inside the outer shell body 6, and uses air flow to enable the cotton wool and the ratchet hooking component 13 to be hooked and separated, so that the blocking probability is small, the air leakage amount is small, and the air flow strength is better ensured.

In order to ensure that the support rod better moves along with the magnet block 14 on the chain, ferromagnetic sleeves 19 are sleeved at the two ends of the support rod 20 in a sliding mode, guide tracks 18 corresponding to the track of the chain are arranged on the inner wall of the cover plate 15, and the ends of the ferromagnetic sleeves 19 are limited in the guide tracks 18 and are in magnetic attraction connection with the magnet block 14.

The ferromagnetic sleeve 19 is embedded with the first ball 25 near one side of the guide rail 18, and the magnet block 14 is embedded with the second ball 26 near one side of the cover plate 15, and the friction force between the magnet block 14 and the outer side surface of the cover plate 15 and the friction force between the ferromagnetic sleeve 19 and the inner side surface of the cover plate 15 are reduced by arranging the balls.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any technical solution, conception and design obtained by equivalent substitution or modification of the technical solution and the inventive concept thereof by those skilled in the art within the scope of the present invention should be covered in the scope of the present invention.

Claims

1. The cotton impurity removing device is characterized by comprising an outer shell (6), wherein a rotary channel (10) and a U-shaped channel (9) are arranged in the outer shell (6), the head end and the tail end of the U-shaped channel (9) are communicated through the rotary channel (10) to form a closed channel, the outer shell (6) is provided with a cotton inlet part and a cotton wool outlet (12), the outer shell (6) is provided with an air flow cotton feeding device at the cotton inlet part, the impurity removing device comprises a plurality of ratchet hooking components (13) positioned in the closed channel, the outer shell (6) is provided with a conveying mechanism for driving the ratchet hooking components (13) to circularly move in the closed channel, an air flow ascending section of the U-shaped channel (9) is defined as an ascending channel (7), an air flow descending section is defined as a descending channel (8), cotton wool at the ascending channel (7) is wound on the ratchet hooking components (13), and cotton wool at the descending channel (8) is separated from the ratchet hooking components (13); the ratchet hooking component (13) comprises a supporting rod (20) in transmission connection with the conveying mechanism, a plurality of cylinders (21) are sleeved on the supporting rod (20), the cylinders (21) are rotationally connected with the supporting rod (20), a plurality of obliquely downward second ratchets (24) are symmetrically and fixedly connected to the outer circumference of the cylinders (21), and the second ratchets (24) always point to the obliquely downward direction under the action of gravity; the movement direction of the ratchet hooking component (13) is the same as the movement direction of the air flow, the cotton wool outlet (12) is positioned at the front end position of the rotary channel (10), the cotton wool outlet (12) is opposite to the bottom of the descending channel (8), the air flow cotton conveying device is positioned at the rear end position of the rotary channel (10), and the air flow cotton conveying device is positioned in the ascending channel (7); the air flow cotton feeding device comprises a cotton storage box (4) fixedly connected to the outer wall of an outer shell (6), a rotating roller (3) is rotationally connected to the cotton storage box (4), a first rotating motor is connected to the rotating roller (3) in a transmission mode, a first ratchet (2) is arranged on the outer circle Zhou Gujie of the rotating roller (3), an air inlet (1) and a cotton inlet (5) are formed in the outer shell (6), the rotating roller (3) at least partially penetrates through the cotton inlet (5) and is arranged in the ascending channel (7), the first ratchet (2) in the ascending channel (7) conforms to the air flow movement direction, the air inlet (1) is located below the cotton inlet (5), and a blowing fan is connected to the air inlet (1); the second ratchet (24) comprises a main rod body (22) which is obliquely downwards arranged, and a plurality of auxiliary rod bodies (23) which are obliquely downwards arranged are fixedly connected to the peripheral side of the main rod body (22).

2. The cotton impurity removal device according to claim 1, wherein at least two of the U-shaped channels (9) are sequentially communicated to form a serpentine channel, and the head end and the tail end of the serpentine channel are communicated to form the closed channel through the rotary channels (10).

3. A cotton impurity removal device according to claim 2, characterized in that a cotton seed collection box (11) communicating with the rising channels (7) is mounted below each rising channel (7) of the outer casing (6).

4. The cotton impurity removing device according to claim 1, wherein the plate bodies on two sides of the outer shell body (6) are defined as cover plates (15), the conveying mechanism comprises a plurality of chain wheels (17) which are rotatably connected to the outer sides of the cover plates (15), at least one chain wheel (17) is connected with a second rotating motor in a transmission mode, a plurality of chain wheels (17) are connected with a chain (16), the movement track of the chain (16) is arranged corresponding to the shape of a closed channel, a plurality of magnet blocks (14) which are distributed at intervals are fixedly connected to the chain (16), and two ends of the supporting rod (20) are connected with the magnet blocks (14) on two sides in a magnetic attraction mode.

5. The cotton impurity removing device according to claim 4, wherein ferromagnetic sleeves (19) are sleeved at two ends of the supporting rod (20) in a sliding mode, guide tracks (18) corresponding to chain tracks are formed in the inner wall of the cover plate (15), and the ends of the ferromagnetic sleeves (19) are limited in the guide tracks (18) and are in magnetic attraction connection with the magnet blocks (14).

6. Cotton cleaning device according to claim 5, characterized in that the ferromagnetic sleeve (19) is embedded with a first ball (25) on the side close to the guide track (18), and the magnet block (14) is embedded with a second ball (26) on the side close to the cover plate (15).