阅读说明：本技术 一种用于纺织的棉花细屑回收设备 (Cotton fine scrap recovery equipment for spinning ) 是由 蔚春 于 2020-05-30 设计创作，主要内容包括：本发明公开了一种用于纺织的棉花细屑回收设备,其结构包括处理器、操作台、滑带、机体、转轮,本发明当棉花细屑落下后,旋转块开始旋转,它上面的拍打块在旋转过程中会对棉花细屑进行拍打,通过拍打的震动使棉花细屑上的植干叶片脱落,并将在转动中将棉花细屑卷到风枪内,风枪内的网块可以防止植干叶片堵住下面转动风枪的风口,相比植干叶片,棉花更易被吹起,转动风枪绕着弧边转动可以对底部进行彻底吹动,而侧面的旋转风枪通过旋转可以对其周边的棉花完全吹动,其上方的斜风枪则把被吹上来的棉花细屑吹至上方,通过转动体转动,将棉花接到后方实现分离,而转动体的弧形凹槽能稳稳的接住棉花细屑,不让它到处飘散。(The invention discloses cotton fine crumbs recovery equipment for spinning, which structurally comprises a processor, an operation table, a sliding belt, a machine body and a rotating wheel, wherein when cotton fine crumbs fall down, a rotating block starts to rotate, a beating block on the rotating block can beat the cotton fine crumbs in the rotating process, dried leaves on the cotton fine crumbs fall off through beating vibration, the cotton fine crumbs are wound into an air gun in the rotating process, a net block in the air gun can prevent the dried leaves from blocking an air port of a rotating air gun below the dried leaves, cotton is easier to blow up compared with the dried leaves, the rotating air gun rotates around an arc edge to blow the bottom completely, the rotating air gun on the side surface can blow cotton on the periphery completely through rotation, an inclined air gun above the rotating air gun blows the blown cotton fine crumbs to the top, and the cotton is separated after being connected to the rear part through rotation of a rotating body, the arc-shaped groove of the rotating body can stably receive the cotton fine scraps and prevent the cotton fine scraps from floating everywhere.)

1. A cotton fines recovery apparatus for weaving, its characterized in that: the structure of the device comprises a processor (1), an operating platform (2), a sliding belt (3), a machine body (4) and a rotating wheel (5), wherein the processor (1) is installed at the front end of the machine body (4), the machine body (4) is mechanically connected with the operating platform (2), the sliding belt (3) is arranged behind the operating platform (2), and the lower part of the machine body (4) is movably connected with the rotating wheel (5) through a connecting shaft;

treater (1) is equipped with the ware body (11), breaks up ware (12), rotor (13), separator (14), wind chamber (15), the place ahead of the ware body (11) is equipped with breaks up ware (12), rotor (13) are through loose axle and ware body (11) swing joint, wind chamber (15) are established in the well below of the ware body (11), separator (14) and ware body (11) mechanical connection.

2. A cotton fine dust recycling apparatus for spinning according to claim 1, wherein: rotor (13) have 4 rotating vane to distribute around a central rotatory equidistance, the rotating vane of rotor (13) is arc recess face towards one side of wind chamber (15).

3. A cotton fine dust recycling apparatus for spinning according to claim 1, wherein: the scattering device (12) is provided with a hook body (12-1), a connecting body (12-2) and a spray gun (12-3), the hook body (12-1) is mechanically connected with the connecting body (12-2), the spray gun (12-3) is arranged on the connecting body (12-2), and the spray guns (12-3) are distributed along a center circle at equal intervals.

4. A cotton fine dust recycling apparatus for spinning according to claim 3, wherein: the hook body (12-1) is provided with a hook picking block (12-1a), a sliding block (12-1b) and a pulley (12-1c), the left side of the sliding block (12-1b) is provided with the hook picking block (12-1a), the sliding block (12-1b) is movably connected with the pulley (12-1c) through a movable shaft, and an arc-shaped sliding rail is arranged at the joint of the sliding block (12-1b) and the lower part of the hook picking block (12-1 a).

5. A cotton fines recovery apparatus for textile according to claim 4, characterized in that: an arc-shaped groove is formed in the inner side of the hook picking block (12-1a), a convex arc-shaped edge is formed in the inner side of the sliding block (12-1b), hook strips are arranged on the inner sides of the hook picking block (12-1a) and the sliding block (12-1b), and a semicircular pointed hook block is arranged at the front end of each hook strip.

6. A cotton fine dust recycling apparatus for spinning according to claim 1, wherein: the wind cavity (15) is provided with a rotating block (15-1), a net block (15-2), a rotating wind gun (15-3), a rotating wind gun (15-4) and an oblique wind gun (15-5), wherein the rotating block (15-1) is installed on the right side of the net block (15-2), the rotating wind gun (15-3) is arranged below the net block (15-2), the left side of the net block (15-2) is provided with the rotating wind gun (15-4), and the oblique wind gun (15-5) is arranged above the rotating wind gun (15-4).

7. A cotton fines recovery apparatus for textile according to claim 6, characterized in that: the rotary air gun (15-4) is formed by distributing 3 rotary blades at equal intervals around a central circular arc, an air gun opening at the front end of each rotary blade of the rotary air gun (15-4) is hemispherical, and 5-8 air outlets are formed in the hemispherical surface of the air gun.

8. A cotton fine dust recycling apparatus for spinning according to claim 1, wherein: the separator (14) is provided with a cotton suction cavity (14-1), a box body (14-2) and a dispersing body (14-3), the dispersing body (14-3) is arranged at the front end of the box body (14-2), the rear end of the box body (14-2) is mechanically connected with the cotton suction cavity (14-1), the lower end of the dispersing body (14-3) is provided with pointed bodies with different heights, and the pointed bodies are conical.

9. A cotton fine dust recycling apparatus for spinning according to claim 8, wherein: the cotton suction cavity (14-1) is provided with scraping teeth (14-1a), a beater body (14-1b), a needle block (14-1c), a suction pipeline (14-1d) and a shell (14-1e), the foremost end of the shell (14-1e) is provided with scraping teeth (14-1a), the flapping body (14-1b) is movably connected with the shell (14-1e) through a connecting shaft, the suction pipeline (14-1d) is mechanically connected with the shell (14-1e), the front end of the suction pipeline (14-1d) is provided with a needle block (14-1c), the needle blocks (14-1c) are distributed around the same circle center by a needle block blade, the front end of the blade of the needle block is provided with a needle body, and the flapping front end of the flapping body (14-1b) is an arc-shaped block.

Technical Field

The invention relates to the field of spinning, in particular to cotton fine scrap recovery equipment for spinning.

Background

Cotton is a main raw material of textiles, people recover cotton manually in the past, and because the textiles are necessities for life, people can choose to plant cotton in a large area, so that the difficulty in manually recovering cotton fine scraps is increased, the efficiency is low, later people introduce cotton fine scrap recovery equipment, the cotton fine scrap recovery equipment is used for recovering the cotton fine scraps by directly opening a machine through cotton, the speed of recovering the cotton fine scraps is greatly improved, but the cotton stem and blades are rolled into a machine body in the recovery process, so that the stem leaves are attached to the finally-discharged cotton fine scraps, the cotton becomes disordered, the cotton is required to be further cleaned, and the cleaning process is very troublesome.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the utility model provides a cotton fines recovery plant for weaving, its structure includes treater, operation panel, sliding belt, organism, runner, the treater is installed at the front end of organism, organism and operation panel mechanical connection, the rear of operation panel is equipped with the sliding belt, the below of organism passes through connecting axle swing joint with the runner.

The treater is provided with a device body, a scattering device, a rotating body, a separator and an air cavity, wherein the scattering device is arranged in front of the device body, the rotating body is movably connected with the device body through a movable shaft, the air cavity is arranged in the middle lower part of the device body, and the separator is mechanically connected with the device body.

As the further optimization of the technical scheme, the rotor is provided with a rotating blade which is distributed around a center in a rotating equidistance, and the rotating blade of the rotor is an arc-shaped groove surface towards one side of the wind cavity.

As a further optimization of the technical scheme, the scattering device is provided with a hook body, a connector, a spray gun, the hook body is mechanically connected with the connector, the connector is provided with the spray gun, the spray gun is distributed along a central circle at equal intervals, and the spray gun is positioned in the middle of the hook body.

As further optimization of the technical scheme, the hook body is provided with a hook picking block, a sliding block and a pulley, the left side of the sliding block is provided with the hook picking block, the sliding block and the pulley are movably connected through a movable shaft, and an arc-shaped sliding rail is arranged at the joint of the sliding block and the lower part of the hook picking block.

As a further optimization of the technical scheme, the inner side of the hook block is provided with an arc groove, the inner side of the slider is provided with a convex arc edge, the inner sides of the hook block and the slider are provided with hook strips, the front end of each hook strip is a semicircular sharp hook block, and the semicircular sharp hook blocks of the hook block and the slider are opposite.

As a further optimization of this technical scheme, the wind chamber is equipped with rotatory piece, net piece, rotates the air gun, rotatory air gun, oblique air gun, the right side at the net piece is installed to the rotatory piece, it establishes the below at the net piece to rotate the air gun, the left side of net piece is equipped with rotatory air gun, the top at rotatory air gun is established to the oblique air gun, it is the structure that comprises a semicircle connecting block and a wind gap to rotate the air gun, the semicircle connecting block front end that rotates the air gun is equipped with slide rail and wind gap sliding connection, the both sides of the rectangular post of rotatory piece are equipped with the arc and clap the piece.

As the further optimization of the technical scheme, the rotary air gun is formed by equidistantly distributing 3 rotary blades around a central circular arc, the air gun opening at the front end of each rotary blade of the rotary air gun is hemispherical, and 5-8 air outlets are formed in the hemispherical surface of the rotary air gun.

As a further optimization of the technical scheme, the separator is provided with a cotton suction cavity, a box body and a dispersing body, the dispersing body is arranged at the front end of the box body, the rear end of the box body is mechanically connected with the cotton suction cavity, the lower ends of the dispersing body are provided with the spine bodies with different heights, the spine bodies are conical, the side surfaces of the dispersing body are arc-shaped surfaces, and an arc-shaped spine block is arranged in a connecting gap in the middle of the lower end of the spine body.

As a further optimization of this technical scheme, it is equipped with scrapes the tooth, beats body, needle piece, suction pipeline, casing to inhale the cotton chamber, the foremost end of casing is equipped with scrapes the tooth, it passes through connecting axle swing joint with the casing to beat the body, suction pipeline and casing mechanical connection, the front end of suction pipeline is equipped with the needle piece, the needle piece is distributed round same centre of a circle by a needle piece blade, and the blade front end of this needle piece blade is equipped with the needle body, the front end of patting of the body is the arc piece, it is equipped with two to scrape the tooth, and the cusp direction of two is opposite.

Advantageous effects

Compared with the prior art, the cotton fine scrap recovery equipment for spinning has the following advantages:

1. the cotton fine scraps are scattered through the hook body of the scattering device, the cotton has the pulling property and can be easily torn, the cotton fine scraps can be picked up through the hook picking block and the semicircular point hook blocks on the sliding block, the directions of the semicircular point hook blocks on the two sides are opposite, the cotton fine scraps can be pulled and hooked, the sliding block moves along the sliding rail to and fro hook the cotton fine scraps, the cotton fine scraps are scattered, attachment points of the cotton fine scraps are smaller as the cotton fine scraps are scattered, the dry planting leaves attached to the cotton fine scraps are more easily fallen off in different stirring, and the spray gun in the middle of the hook body can blow the cotton off, so that the cotton fine scraps cannot be attached to the hook body.

2. When the cotton fine scraps fall down, the rotating block starts to rotate, the beating block on the rotating block can beat the cotton fine scraps in the rotating process, the plant dry blades on the cotton fine scraps fall off through beating vibration, the cotton fine scraps are rolled into the air gun in the rotating process, the net block in the air gun can prevent the plant dry blades from blocking an air port of the lower rotating air gun, compared with the plant dry blades, cotton is easier to blow, the rotating air gun rotates around an arc edge to blow the bottom completely, the rotating air gun on the side surface can blow the cotton on the periphery completely through rotation, the oblique air gun above the rotating air gun blows the blown cotton fine scraps to the upper side, the rotating body rotates to connect the cotton to the rear to realize separation, and the arc-shaped groove of the rotating body can stably connect the cotton fine scraps to prevent the cotton fine scraps from floating everywhere.

3. According to the invention, the blades of the cotton fine scraps are further separated by the separator, the cotton fine scraps are further scattered by the rotation of the stirring bodies along different directions under the coordination of the sharp spines, the sharp spines of the stirring bodies have different heights and can be completely scattered, and the cotton fine scraps are not easy to attach to equipment due to the conical sharp spines.

4. The cotton is sucked into the cotton suction cavity through the suction force of the cotton suction cavity, cotton fine scraps are further scattered through the scraping teeth, the blades are separated from the cotton fine scraps through the rotary beating of the beating body, the cotton can be stirred to facilitate the cotton suction of the suction pipeline on the one hand, the shape of the cotton is variable and can be formed into threads after being pulled, the cotton can enter the suction pipeline along the needle block, the blades are invariable and can be blocked on the needle block, the separation effect is realized, and when the needle block rotates to the lower part, the blades attached to the upper part naturally fall to the lower part under the influence of gravity.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view showing the overall structure of a cotton fine dust recycling apparatus for spinning according to the present invention.

Fig. 2 is an overall sectional structure diagram of the present invention.

FIG. 3 is a schematic view of the structure of the scattering device of the present invention.

Fig. 4 is a partial schematic view of fig. 3.

Fig. 5 is a schematic structural view of the wind chamber of the present invention.

Fig. 6 is a schematic view of the separator structure of the present invention.

FIG. 7 is a schematic view of the structure of the cotton suction chamber of the present invention.

In the figure: the device comprises a processor 1, an operation table 2, a sliding belt 3, a machine body 4, a rotating wheel 5, a machine body 11, a scattering device 12, a rotating body 13, a separator 14, an air cavity 15, a hook body 12-1, a connecting body 12-2, a spray gun 12-3, a hook picking block 12-1a, a sliding block 12-1b, a pulley 12-1c, a rotating block 15-1, a net block 15-2, a rotating air gun 15-3, a rotating air gun 15-4, an inclined air gun 15-5, a cotton suction cavity 14-1, a box body 14-2, a dispersing body 14-3, scraping teeth 14-1a, a beating body 14-1b, a suction needle block 14-1c, a pipeline 14-1d and a shell 14-1 e.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.