CN111792698A

CN111792698A - Method for treating wool fibers of pneumatic desorption type textile wastewater

Info

Publication number: CN111792698A
Application number: CN202010629519.1A
Authority: CN
Inventors: 罗培佳
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-03
Filing date: 2020-07-03
Publication date: 2020-10-20

Abstract

The invention discloses a method for treating wool fibers of pneumatic desorption type textile wastewater, belongs to the field of wastewater treatment, and provides a method for treating wool fibers of pneumatic desorption type textile wastewater, when textile wastewater is treated, the pneumatic winding rod is inflated to expand the pneumatic winding rod, then the pneumatic winding rod is controlled to rotate to wind and adsorb the wool fibers, and the pneumatic winding rod is deflated during desorption, the inside of the central winding rod and the extension side winding rod lose the support of air, the central winding rod and the extension side winding rod are both in a shriveled state, the winding degrees of the wound batting fibers and the central winding rod and the extension side winding rod are not tight, the desorption is convenient, meanwhile, under the action of the surface layer winding sheet and the embedded winding layer, the desorption of the wool fibers can be prevented, effectively increasing the winding and adsorption effect of the surface of the pneumatic winding rod on the wool fiber, and further obviously improving the treatment efficiency of the method on the textile wastewater.

Description

Method for treating wool fibers of pneumatic desorption type textile wastewater

Technical Field

The invention relates to the field of wastewater treatment, in particular to a method for treating wool fibers of pneumatic desorption type textile wastewater.

Background

Textile waste water (Textile waste water) is various waste water generated in the spinning and weaving process. The textile industry wastewater can be mainly divided into: printing and dyeing wastewater, chemical fiber textile wastewater, hemerocallis degumming wastewater, wool scouring wastewater and the like, wherein the printing and dyeing wastewater and the chemical fiber textile wastewater are mainly polluted seriously. The textile printing and dyeing industry is one of industrial departments with large water consumption and more wastewater discharge. According to statistics, the amount of wastewater discharged by printing and dyeing enterprises in China every day is 300-400 ten thousand tons. The waste water from textile industry contains suspended matter, grease, fibre bits, surfactant and various dyes. For example, the cotton spinning wastewater contains cotton scraps and sizing agent, and the wool spinning wastewater contains grease; the printing and dyeing wastewater usually contains sizing agent, dye, auxiliary agent, various organic matters and the like.

The textile wastewater mainly has the following characteristics: the water amount of the treatment tank (1) is large; the pollution of the waste water is mainly organic pollution; the pollutant concentration of the central winding rod (2) is high; pollutants in the wastewater are mainly second-class harmful substances; (3) most of the components are alkaline, and the chroma is high; the water quality of the extension side winding rod (4) is greatly changed, and the general wastewater treatment facility is difficult to reach higher discharge standard.

Because textile wastewater is mostly the sewage that cloth, line etc. washd the dyeing, leads to inside to contain more batting fibre impurity, because its long and thin characteristic, when handling textile wastewater, though comparatively simple to the fibrous interception of batting, but it is by the interception back, and comparatively complicated winding is on intercepting the thing, leads to the staff very big to this winding woollen clearance degree of difficulty, and desorption inefficiency, the influence places waste water treatment's overall efficiency.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a method for treating wool fibers of pneumatic desorption type textile wastewater, which comprises the steps of arranging a pneumatic winding rod, when textile wastewater is treated, the pneumatic winding rod is inflated to expand the pneumatic winding rod, then the pneumatic winding rod is controlled to rotate to wind and adsorb the wool fibers, and the pneumatic winding rod is deflated during desorption, the inside of the central winding rod and the extension side winding rod lose the support of air, the central winding rod and the extension side winding rod are both in a shriveled state, the winding degrees of the wound batting fibers and the central winding rod and the extension side winding rod are not tight, the desorption is convenient, meanwhile, under the action of the surface layer winding sheet and the embedded winding layer, the desorption of the wool fibers can be prevented, effectively increasing the winding and adsorption effect of the surface of the pneumatic winding rod on the wool fiber, and further obviously improving the treatment efficiency of the method on the textile wastewater.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A method for treating wool fibers of pneumatic desorption type textile wastewater comprises the following steps:

s1, firstly, introducing the textile wastewater into a treatment tank, and simultaneously introducing inert gas into a pneumatic winding rod in the treatment tank;

s2, after the interior of the pneumatic winding rod is inflated, the pneumatic winding rod gradually stretches and expands, textile wastewater continuously passes through the pneumatic winding rod, and wool fibers in the textile wastewater are continuously wound and adhered by the stretched and expanded pneumatic winding rod;

s3, releasing the introduced inert gas after more wool fibers are wound and adhered on the pneumatic winding rod to restore the pneumatic winding rod, wherein the wool fibers on the surface of the pneumatic winding rod are loosened and a larger gap is reserved between the wool fibers and the pneumatic winding rod;

s4, controlling the pneumatic winding rods to ascend one by one and keeping away from the water surface of the textile wastewater, and desorbing and removing the loose wool fibers on the pneumatic winding rods;

and S5, continuously repeating S1-S4, and continuously winding, adsorbing and desorbing the wool fibers in the textile wastewater.

Further, the equal fixed mounting in both ends has electronic pivot around the pneumatic winding stem, fixedly connected with electric putter between bottom in electronic pivot lower extreme and the treatment pond, the inner wall activity runs through have many to with pneumatic winding stem assorted gas tube around the treatment pond, the gas tube activity runs through electronic pivot and communicates with each other with pneumatic winding stem, when carrying out weaving waste water treatment, can rotate through electronic pivot control pneumatic winding stem to make the winding adsorption of pneumatic winding stem in S2 to the fibre of the batting in the waste water more obvious, the effect is better, and the accessible gas tube is filled into inert gas in to pneumatic winding stem, makes it expand greatly, rises through electric putter control pneumatic winding stem and keeps away from the waste water surface of water, thereby is convenient for carry out the desorption of batting fibre.

Furthermore, the inflation tube is made of elastic soft materials, so that the inflation tube can penetrate through the inner wall of the treatment pool along with the position change in the ascending process of the pneumatic winding rod, the outer surface of the inflation tube is coated with a LINE-X coating, and the LINE-X coating has tensile and wear-resistant properties, so that the inflation tube is not easily worn when moving on the inner wall of the treatment pool.

Further, pneumatic winding rod includes the center winding rod and connects a plurality of extension side winding rods in center winding rod outer end, when aerifing, center winding rod all can expand with extension side winding rod, can twine the fibre of batting, after the gassing, its inside support that loses gas, center winding rod all presents flat state with extension side winding rod, makes the winding degree of winding batting fibre and center winding rod and extension side winding rod inseparable this moment, the desorption of being convenient for.

Furthermore, it is a plurality of the length of extending the side winding rod is different, and a plurality of extension side winding rods of different length distribute alternately for a plurality of extension side winding rods can carry out comparatively intensive batting fibre interception effect simultaneously to the outer great scope of center winding rod, make better to the fibrous interception winding effect of batting.

Furthermore, the inside of the central winding rod is fixedly connected with an inner porous supporting rod, the extending side winding rod comprises an outer inflatable layer, an inner supporting cross rod positioned in the outer inflatable layer, an inner supporting ball connected to the end part of the inner supporting cross rod and a plurality of surface layer winding pieces embedded on the surface of the outer inflatable layer, one end of the inner supporting cross rod, which is far away from the outer inflatable layer, is fixedly connected with the inner porous supporting rod, when the inner supporting cross rod is inflated, the outer inflatable layer is inflated, and meanwhile, the surface layer winding sheet can be in a convex shape on the surface of the inner supporting cross rod, thereby leading the effect of the extending side winding rod on the winding and adsorption interception of the wool fiber to be better, leading the wound wool fiber not to easily fall off in the rotating process of the pneumatic winding rod and during the air release, the outer physiosis layer is flat falls, and the horizontal pole and then the interior ball that props can play the supporting role to the outer physiosis layer that flat falls this moment, makes it present outside extension form equally, effectively avoids it to collapse downwards and leads to the condition emergence of the difficult desorption of batting fibre.

Further, the top layer is made for elastic material around the piece, outer gas inflation layer and center are inelastic sealing material to make around the pole, and after inert gas will outer gas inflation layer was full of completely, it can not take place deformation, continues to inflate this moment, and inert gas can make the top layer outwards protruding gradually around the piece to it is better to the fibrous winding adsorption effect of batting to make.

Further, still a plurality of evenly distributed's of fixedly connected with embedded winding layer in center winding rod outer end, embedded winding layer embedding is inside the center winding rod, and when aerifing, the similar top layer of embedded winding layer can outwards extend around the piece on center winding rod, and supplementary pneumatic winding rod is adsorbed to the fibrous winding of batting, and during the gassing, embedded winding layer contracts back to in the center winding rod, and its surperficial winding batting fibre loses adhesive force for the desorption is more convenient, improves textile wastewater's treatment effeciency.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme is through the setting of pneumatic winding rod, when carrying out weaving waste water treatment, at first aerify to pneumatic winding rod and make its expansion of time extension, then control its rotation, it adsorbs to carry out the fibrous winding of batting, when the desorption, with the gassing of pneumatic winding rod, its inside gaseous support that loses, center winding rod all presents flat state with the extension side winding rod, the degree of winding of being twined batting fibre and center winding rod and extension side winding rod this moment is inseparable, the desorption of being convenient for, the effect of cooperation top layer winding piece and embedded winding layer simultaneously, can be under the condition that does not influence the desorption of batting fibre, effectively increase the pneumatic winding rod surface to the fibrous winding adsorption of batting, and then show the treatment effeciency of improving this method to weaving waste water.

(2) Equal fixed mounting in both ends has electronic pivot around the pneumatic winding stem, fixedly connected with electric putter between bottom in electronic pivot lower extreme and the treatment pond, the inner wall activity runs through around the treatment pond have many to with pneumatic winding stem assorted gas tube, the gas tube activity runs through electronic pivot and communicates with each other with pneumatic winding stem, when carrying out weaving waste water treatment, can rotate through the pneumatic winding stem of electronic pivot control, thereby make the winding adsorption of pneumatic winding stem to the fibre of batting in the waste water more obvious among the S2, the effect is better, the accessible gas tube is filled into inert gas in to pneumatic winding stem, make it extend and expand, it rises to keep away from the waste water surface of water through the pneumatic winding stem of electric putter control, thereby be convenient for carry out the desorption of batting fibre.

(3) The inflation tube is made of elastic soft materials, so that the inflation tube can penetrate through the inner wall of the treatment pool along with the position change in the ascending process of the pneumatic winding rod, the outer surface of the inflation tube is coated with a LINE-X coating, and the LINE-X coating has tensile and wear-resistant properties and is not easy to wear when moving on the inner wall of the treatment pool.

(4) Pneumatic winding rod includes central winding rod and connects a plurality of extension side winding rods in central winding rod outer end, and during inflation, central winding rod all can expand with extension side winding rod, can twine the batting fibre, and after the gassing, its inside support that loses is gaseous, and central winding rod all presents flat state with extension side winding rod, makes winding batting fibre and central winding rod inseparable with the degree of winding that extends side winding rod this moment, the desorption of being convenient for.

(5) The length of a plurality of extension side winding rods is different, and a plurality of extension side winding rods of different lengths distribute alternately for a plurality of extension side winding rods can carry out comparatively intensive batting fibre interception effect simultaneously to the outer great scope of center winding rod, make better to the winding effect of the interception in batting fibre.

(6) The inner part of the central winding rod is fixedly connected with an inner porous stay rod, the extension side winding rod comprises an outer inflatable layer, an inner supporting cross rod positioned in the outer inflatable layer, an inner supporting ball connected to the end part of the inner supporting cross rod and a plurality of surface layer winding sheets embedded on the surface of the outer inflatable layer, one end of the inner supporting cross rod, far away from the outer inflatable layer, is fixedly connected with the inner porous stay rod, when the air is inflated, the outer inflatable layer expands, and meanwhile, the surface layer winding sheets can be protruded on the surface of the inner supporting cross rod, thereby leading the effect of the extending side winding rod on the winding and adsorption interception of the wool fiber to be better, leading the wound wool fiber not to easily fall off in the rotating process of the pneumatic winding rod and during the air release, the outer physiosis layer is flat falls, and the horizontal pole and then the interior ball that props can play the supporting role to the outer physiosis layer that flat falls this moment, makes it present outside extension form equally, effectively avoids it to collapse downwards and leads to the condition emergence of the difficult desorption of batting fibre.

(7) The top layer is made for elastic material around the piece, and outer physiosis layer and center are inelastic sealing material around the pole and make, and after the physiosis layer was full of completely when inert gas, it can not take place deformation, continues to inflate this moment, and inert gas can make the top layer around the piece outside arch gradually to it is better to make the winding adsorption by adsorption effect to the fibre of batting.

(8) The center is around the embedded winding layer of a plurality of evenly distributed of pole outer end still fixedly connected with, and embedded winding layer embedding is to the center around the pole inside, when aerifing, and the similar top layer of embedded winding layer is around the piece and can outwards extend on the pole around the center, and supplementary pneumatic winding pole is adsorbed to the fibrous winding of batting, during the gassing, and embedded winding layer is retracted to the center in the pole around, and the winding batting fibre on its surface loses the adhesive force for the desorption is more convenient, improves textile wastewater's treatment effeciency.

Drawings

FIG. 1 is a principal flow diagram of the present invention;

FIG. 2 is a schematic top view of the pneumatic winding rod for filament winding and intercepting of the present invention;

FIG. 3 is a schematic side view of the pneumatic winding rod for fiber winding and intercepting of batting according to the present invention;

FIG. 4 is a schematic illustration of the present invention in its uninflated configuration;

FIG. 5 is a schematic view of the pneumatic winding rod of the present invention after being inflated;

FIG. 6 is a schematic view of the structure at A in FIG. 5;

fig. 7 is a schematic structural view of the extendable side winding bar of the present invention.

The reference numbers in the figures illustrate:

1 treatment pool, 2 center winding rods, 31 electric rotating shafts, 32 electric push rods, 4 extending side winding rods, 41 outer inflatable layers, 42 inner supporting cross rods, 43 surface layer winding sheets, 44 inner supporting balls, 5 inner porous supporting rods, 6 inflation tubes and 7 embedded winding layers.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1, a method for treating wool fibers from textile wastewater by pneumatic desorption includes the following steps:

s1, firstly, introducing the textile wastewater into the treatment tank 1, and simultaneously introducing inert gas into the pneumatic winding rod in the treatment tank 1;

Referring to fig. 2-3, the front and rear ends of the pneumatic winding rod are fixedly provided with an electric rotating shaft 31, an electric push rod 32 is fixedly connected between the lower end of the electric rotating shaft 31 and the bottom end of the treatment tank 1, the front and rear inner walls of the treatment tank 1 movably penetrate a plurality of pairs of air tubes 6 matched with the pneumatic winding rod, the air tubes 6 movably penetrate the electric rotating shaft 31 and are communicated with the pneumatic winding rod, when the textile wastewater is treated, the pneumatic winding rod can be controlled to rotate by the electric rotating shaft 31, so that the winding and adsorption effects of the pneumatic winding rod on the wool fibers in the wastewater in S2 are more obvious, the effect is better, the inert gas can be filled into the pneumatic winding rod through the air tubes 6 to expand the pneumatic winding rod, the pneumatic winding rod is controlled to ascend by the electric push rod 32 to be far away from the wastewater surface, so as to facilitate the desorption of the wool fibers, the air tubes 6 are made of elastic soft material, so, the gas-filled tube 6 can penetrate through the inner wall of the treatment pool 1 along with the change of the position, the outer surface of the gas-filled tube 6 is coated with a LINE-X coating, and the LINE-X coating has tensile and wear-resistant properties, so that the LINE-X coating is not easily worn when moving on the inner wall of the treatment pool 1.

Referring to fig. 4, the pneumatic winding rod includes a central winding rod 2 and a plurality of extension side winding rods 4 connected to the outer end of the central winding rod 2, when inflating, the central winding rod 2 and the extension side winding rods 4 both expand to wind the batting fiber, after deflating, the interior thereof loses the support of the gas, the central winding rod 2 and the extension side winding rods 4 both present a deflated state, at this time, the winding degree of the wound batting fiber is not tight with the central winding rod 2 and the extension side winding rods 4, which is convenient for desorption, the lengths of the plurality of extension side winding rods 4 are different, and the plurality of extension side winding rods 4 with different lengths are distributed alternately, so that the plurality of extension side winding rods 4 can simultaneously perform a relatively dense batting fiber intercepting function on a large range outside the central winding rod 2, so that the batting fiber intercepting and winding effect is better, the inner porous support rod 5 is fixedly connected to the interior of the central winding rod 2, referring to fig. 6-7, the extending side winding rod 4 comprises an outer inflatable layer 41, an inner supporting cross rod 42 positioned in the outer inflatable layer 41, an inner supporting ball 44 connected to the end of the inner supporting cross rod 42 and a plurality of surface layer winding sheets 43 embedded on the surface of the outer inflatable layer 41, wherein the surface layer winding sheets 43 are made of elastic materials, the outer inflatable layer 41 and the central winding rod 2 are made of inelastic sealing materials, the outer inflatable layer 41 and the central winding rod are not deformed after the outer inflatable layer 41 is completely filled with inert gas, the inert gas is continuously inflated at the moment, the surface layer winding sheets 43 gradually bulge outwards by the inert gas, so that the winding adsorption and adsorption effects on the wool fibers are better, one end, far away from the outer inflatable layer 41, of the inner supporting cross rod 42 is fixedly connected with the inner porous supporting rod 5, please refer to figures 5-6, during inflation, the outer inflatable layer 41 expands, and the surface layer winding sheets 43 can bulge on the surface of the inner supporting cross rod 42, so that the extending side winding rod 4 has better winding adsorption and interception effects on the wool fibers, so that the wound batting fiber is not easy to fall off in the rotation process of the pneumatic winding rod, referring to fig. 4, when air is discharged, the outer inflatable layer 41 is deflated, at the moment, the inner supporting cross rod 42 and the inner supporting ball 44 can support the deflated outer inflatable layer 41 to enable the outer inflatable layer to be outwards extended, the situation that the wool fibers are not easy to desorb due to downward collapse of the outer inflatable layer is effectively avoided, the outer end of the central winding rod 2 is fixedly connected with a plurality of embedded winding layers 7 which are evenly distributed, the embedded winding layers 7 are embedded into the central winding rod 2, and when the central winding rod is inflated, the embedded winding layer 7 is similar to the surface layer winding sheet 43 and can extend outwards on the central winding rod 2 to assist the pneumatic winding rod to wind and adsorb wool fibers, when in deflation, the embedded winding layer 7 retracts into the central winding rod 2, the adhesive force of the entwined wool fibers on the surface of the spinning waste water is lost, so that the desorption is more convenient, and the treatment efficiency of the spinning waste water is improved.

Through the setting of pneumatic winding rod, when carrying out weaving waste water treatment, at first aerify the pneumatic winding rod and make its expansion of time extension, then control its rotation, it adsorbs to carry out the fibrous winding of batting, when the desorption, with the gassing of pneumatic winding rod, its inside support that loses gas, center winding rod 2 all presents the flat state with extension side winding rod 4, it is inseparable with center winding rod 2 and the winding degree that extends side winding rod 4 by winding batting fibre this moment, the desorption of being convenient for, the effect of cooperation top layer winding piece 43 and embedded winding layer 7 simultaneously, can be under the condition that does not influence batting fibre desorption, effectively increase the winding adsorption of pneumatic winding rod surface to batting fibre, and then show the treatment effeciency that improves this method to weaving waste water.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. A method for treating wool fibers of pneumatic desorption type textile wastewater is characterized by comprising the following steps: the method comprises the following steps:

s1, firstly, introducing the textile wastewater into a treatment pool (1), and simultaneously introducing inert gas into a pneumatic winding rod in the treatment pool (1);

2. The method for treating the fiber of the wool of the pneumatic desorption type textile wastewater according to claim 1, which is characterized in that: the utility model discloses a pneumatic winding rod, including pneumatic winding rod, the equal fixed mounting in both ends has electronic pivot (31) around the pneumatic winding rod, fixedly connected with electric putter (32) between electronic pivot (31) lower extreme and the bottom in processing pond (1), inner wall activity runs through around processing pond (1) have many to with pneumatic winding rod assorted gas tube (6), gas tube (6) activity runs through electronic pivot (31) and communicates with each other with pneumatic winding rod.

3. The method for treating the fiber of the wool of the pneumatic desorption type textile wastewater according to claim 2, which is characterized in that: the inflation tube (6) is made of elastic soft materials, and a LINE-X coating is coated on the outer surface of the inflation tube (6).

4. The method for treating the fiber of the wool of the pneumatic desorption type textile wastewater according to claim 2, which is characterized in that: the pneumatic winding rod comprises a central winding rod (2) and a plurality of extension side winding rods (4) connected to the outer end of the central winding rod (2).

5. The method for treating the fiber of the wool of the pneumatic desorption type textile wastewater according to claim 4, which is characterized in that: the lengths of the plurality of extension side winding rods (4) are different, and the extension side winding rods (4) with different lengths are distributed at intervals.

6. The method for treating the fiber of the wool of the pneumatic desorption type textile wastewater according to claim 5, which is characterized in that: porous vaulting pole (5) in the inside fixedly connected with of center winding pole (2), extend side winding pole (4) including outer gas inflation layer (41), be located outer gas inflation layer (41) interior prop horizontal pole (42), connect in prop ball (44) of horizontal pole (42) tip and inlay and establish a plurality of top layers on outer gas inflation layer (41) surface around piece (43), the one end and interior porous vaulting pole (5) fixed connection of outer gas inflation layer (41) are kept away from to interior propping horizontal pole (42).

7. The method for treating the fiber of the wool of the pneumatic desorption type textile wastewater according to claim 6, which is characterized in that: the surface layer winding sheet (43) is made of elastic materials, and the outer inflatable layer (41) and the central winding rod (2) are made of non-elastic sealing materials.

8. The method for treating the fiber of the wool of the pneumatic desorption type textile wastewater according to claim 7, which is characterized in that: the center is around pole (2) outer end still fixedly connected with a plurality of evenly distributed's embedded winding layer (7), embedded winding layer (7) are embedded into inside center around pole (2).