CN112209572A - Rotary type textile wastewater treatment device and use method - Google Patents

Abstract

The invention discloses a rotary textile wastewater treatment device and a use method, belonging to the field of sewage treatment, the scheme can realize that textile wastewater is injected into a reaction treatment bin by a technician, then a rotary ring sleeve is sleeved on a treatment carrying upright post, the rotary ring sleeve falls along with gravity, a water-soluble block is dissolved firstly, so that quicklime particles react with water to release heat, the motion of substances around the textile wastewater is accelerated by heat transfer, then a heat collection plate is covered to transfer heat to thermally expand an expansion airbag, the pressure inside a compressed gas film is increased, when a second dissolved block is dissolved, oxygen is ejected out by the compressed gas film due to the increase of the pressure, the rotary ring sleeve is driven by a power paddle to rotate, the oxygen is uniformly dispersed in the textile wastewater, in order to increase water, for the subsequent purification of microorganisms, and simultaneously, an arc-shaped hook intercepts and hooks fibrous impurities in the textile wastewater with oxygen content, the winding is recovered, and the collection and filtration are completed.

Description

Rotary type textile wastewater treatment device and use method

Technical Field

The invention relates to the field of sewage treatment, in particular to a rotary type textile wastewater treatment device and a using method thereof.

Background

The textile wastewater is various wastewater 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: large water quantity: the pollution of the waste water is mainly organic pollution; the concentration of pollutants is high: pollutants in the wastewater are mainly second-class harmful substances; the vast majority are basic: the chroma is higher; the water quality changes greatly: the general wastewater treatment facilities are difficult to reach higher discharge standards.

Because textile wastewater is mostly the sewage that cloth, line etc. washd the dyeing, leads to inside to contain more wool fiber impurity, about the wool fibre, because its elongated characteristic, be difficult for handling, block up the filtration pore easily when adopting the filter screen to handle, need frequently change, increase textile wastewater's processing load, reduced work efficiency, need improve.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a rotary textile wastewater treatment device, which can realize that textile wastewater is injected into a reaction treatment bin by a technician, then a rotary ring sleeve is sleeved on a treatment carrying upright post, the rotary ring sleeve falls along with gravity, a water-soluble block is dissolved firstly, so that quicklime particles react with water to release heat, the heat transfer accelerates the movement of substances around the textile wastewater, then a heat collection plate is covered to transfer heat to make an expansion airbag thermally expand, then the internal pressure of a pressed gas film is increased, when a second dissolved block is dissolved, oxygen is ejected out from the pressed gas film due to the increase of the pressure, the rotary ring sleeve is driven by a power paddle to rotate, the oxygen is uniformly dispersed in the textile wastewater, in order to increase the oxygen content of water, the oxygen is supplied for the subsequent purification of microorganisms, and simultaneously, an arc-shaped hook and a side branch hook are blocked to connect fibrous impurities in the textile, the winding is recovered, and the collection and filtration are completed.

2. Technical scheme

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

A rotary textile wastewater treatment device comprises a reaction treatment bin, wherein two ends of the reaction treatment bin are respectively communicated with a drainage pipe and a liquid inlet pipe, a treatment carrying upright column with a plurality of evenly distributed end walls fixedly connected with the end walls of the reaction treatment bin is sleeved with a rotating ring sleeve, a plurality of evenly distributed side wing branch rods are fixedly connected with the outer end of the rotating ring sleeve, power function balls are fixedly connected with the outer end of the rotating ring sleeve and are distributed at intervals with the side wing branch rods, the front end of each power function ball is fixedly connected with a water-soluble block, the inner wall of each power function ball is fixedly connected with a covering heat collecting plate, the inner wall of each power function ball is fixedly connected with an expansion airbag matched with the covering heat collecting plate, the inner wall of each power function ball is fixedly connected with a compressed gas membrane, and an arc-shaped connecting block is fixedly connected between the rotating ring sleeve and the compressed, the scheme can realize that textile wastewater is injected into a reaction treatment bin by a technician, then the rotating ring sleeve is arranged on a treatment carrying upright post, the rotating ring sleeve falls down along with gravity, a water-soluble block is dissolved firstly, so that quicklime particles react with water to release heat, the heat transfer accelerates the movement of substances around the textile wastewater, then the heat collection plate is covered to transfer heat so that an expansion air bag expands thermally, the pressure inside the compressed gas membrane is increased, when a second dissolved block is dissolved, oxygen is ejected out from the compressed gas membrane due to the increase of the pressure, the rotating ring sleeve is driven to rotate by the power paddle, the oxygen is uniformly dispersed in the textile wastewater, the oxygen content of a water body is increased, and the oxygen is supplied for the subsequent purification and microbial purification, meanwhile, the arc-shaped interception hook and the side branch crotch hook are connected with fibrous impurities in the textile wastewater, so that the fibrous impurities are wound and recovered, and the collection and the filtration are completed.

Furthermore, it has quick lime granule to fill between water-soluble deblocking and the cover heat-collecting plate, power function ball inner wall fixedly connected with blocks the filter plate, the filtration pore that blocks the filter plate is less than the diameter of quick lime granule, can release heat through quick lime granule and water reaction to through covering heat-collecting plate transmission heat, thereby provide power for the rotation of follow-up rotation ring cover, also spread the material motion of acceleration water simultaneously with the heat.

Furthermore, the outer end of the rotating ring sleeve is fixedly connected with a hollow support fixedly connected with the power paddle, the power paddle and the center of the rotating ring sleeve form an inclination angle of 30-45 degrees, the inner wall of the air channel pipe is fixedly connected with a second dissolving block matched with the hollow support, the hollow support can provide support for the power paddle and enable textile wastewater to pass through, so that the second dissolving block can be dissolved in normal contact with water and provide a channel for the release of subsequent oxygen, and the inclination angle of the power paddle can provide horizontal steering force for the rotating ring sleeve when the power paddle rotates, so that the rotating ring sleeve can normally rotate.

Further, the second dissolves and deblocking and water-soluble deblocking all adopt gelatin to make, the dissolution rate that the second dissolved the deblocking is less than water-soluble deblocking, and gelatin can dissolve in aqueous to at the contact of water-proof in a certain time, water-soluble deblocking dissolves earlier makes quick lime granule reaction exothermic, and the second dissolves when deblocking not dissolved, can form airtight space, increases atmospheric pressure, makes oxygen release provide great kinetic energy after dissolving.

Further, a plurality of evenly distributed's of flank branch pole outer end fixedly connected with side branch, a plurality of evenly distributed's of side branch outer end fixedly connected with arc interception hook can carry out the hooking to the fibrous impurity of aquatic through flank branch pole, side branch and arc interception hook when rotating, effectively retrieves fibrous impurity.

Further, the lower extreme fixedly connected with lower floor's balancing weight of rotatory ring cover, rotatory ring cover inner wall fixedly connected with in-connection layer, lower floor's balancing weight can be for the rotatory ring cover weight gain for rotatory ring cover can sink smoothly, can reduce rotatory ring cover and handle the frictional force that carries out between the stand through the in-connection layer, makes the resistance of sinking of rotatory ring cover reduce.

Further, the equal fixedly connected with layer of polishing in interconnection inner surface and processing carry out stand surface, reduce through the layer of polishing and handle the frictional resistance that carries out between stand and the interconnection layer to make the processing carry out the difficult fibrous impurity of adhesion in stand and interconnection layer surface, and influence the normal sinking of rotating the ring cover.

Furthermore, the inflation gasbag intussuseption is filled with thermal expansion gas, by the gaseous intussuseption of compressed gas membrane intussuseption oxygen, thermal expansion gas's coefficient of thermal expansion is higher to make the inflation gasbag easily thermal energy after being heated, thereby the extrusion by compressed gas membrane increases by compressed gas membrane internal gas pressure, oxygen can rotate the in-process at the rotating ring cover and evenly release to textile wastewater in, thereby increase the water oxygen content, for follow-up purification textile wastewater through the microorganism supplies oxygen.

A use method of a rotary type textile wastewater treatment device comprises the following steps:

s1, a technician injects the textile wastewater into the reaction treatment bin through the liquid inlet pipe, and sleeves the rotating ring on the treatment upright post, wherein the rotating ring falls along with the gravity;

s2, in the falling process of the rotating ring sleeve, the water-soluble block is firstly dissolved, the quicklime particles react with water to release heat, the heat is transmitted by covering a heat collecting plate to enable the expansion airbag to be thermally expanded, and then the gas film is pressed by a gas to enable the internal pressure to be increased;

s3, dissolving the second dissolving block, ejecting oxygen in the compressed gas film due to the increase of pressure, driving the power paddle to rotate, so that the rotating ring sleeve rotates, and the oxygen is uniformly dispersed in the textile wastewater to increase the oxygen content of the water body and supply oxygen for the subsequent purification of microorganism;

s4, the lateral branch lever is driven to rotate along with the rotation of the rotating ring, so that the arc-shaped intercepting hook and the lateral branch hook are connected with fibrous impurities in the textile wastewater, the fibrous impurities are wound and recovered, and the collection and the filtration are completed.

3. Advantageous effects

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

(1) this scheme can realize pouring into textile wastewater into reaction treatment storehouse through the technical staff, locate the swivel becket ways and handle on carrying out the stand afterwards, the swivel becket ways is along with gravity whereabouts, thereby the water-soluble piece dissolves earlier quicklime granule and water reaction are exothermic, heat transfer makes textile wastewater material motion around with higher speed, cover thermal-arrest board transmission heat afterwards and make inflation gasbag thermal expansion, the inside pressure increase of compressed air membrane pressurized afterwards, dissolve the piece when the second, it jets because of pressure increase oxygen in the compressed air membrane, drive swivel becket ways through the power oar and rotate, oxygen evenly spreads among the textile wastewater, for increasing the water oxygen content, for follow-up purification microorganism purification oxygen suppliment, arc interception hook and the fibrous impurity in the lateral branch hook even spinning wastewater simultaneously, make its winding retrieved, accomplish to collect and filter.

(2) The water-soluble deblocking and the covering heat-collecting plate are filled with quicklime particles, the inner wall of the power function ball is fixedly connected with a blocking filter plate, filter holes of the blocking filter plate are smaller than the diameter of the quicklime particles, the quicklime particles can react with water to release heat, and the heat is transferred through the covering heat-collecting plate, so that power is provided for the rotation of the subsequent rotating ring sleeve, and the heat is scattered to accelerate the movement of water.

(3) The outer end of the rotating ring sleeve is fixedly connected with a hollow support fixedly connected with the power paddle, the power paddle and the center of the rotating ring sleeve form an inclination angle of 30-45 degrees, the inner wall of the air channel pipe is fixedly connected with a second dissolving block matched with the hollow support, the hollow support can provide support for the power paddle and enable textile wastewater to pass through, therefore, the second dissolving block can be dissolved in normal contact with water, a channel is provided for subsequent oxygen release, the inclination angle of the power paddle can provide horizontal steering force for the rotating ring sleeve when the power paddle rotates, and the rotating ring sleeve can normally rotate.

(4) The second dissolves and deblocks and all adopts gelatin to make with water-soluble deblocking, and the dissolution rate that the second dissolved the deblocking is less than water-soluble deblocking, and gelatin can dissolve in aqueous to at the contact of water-resistant in the certain time, water-soluble deblocking dissolves earlier and makes quick lime granule reaction exothermic, and the second dissolves when deblocking not dissolved, can form airtight space, and increase atmospheric pressure makes oxygen release provide great kinetic energy after dissolving.

(5) A plurality of evenly distributed's of flank branch pole outer end fixedly connected with side branch, a plurality of evenly distributed's of side branch outer end fixedly connected with arc interception hook can carry out the hooking to the fibrous impurity of aquatic through flank branch pole, side branch and arc interception hook when rotating, effectively retrieves fibrous impurity.

(6) The lower extreme fixedly connected with lower floor balancing weight of rotating ring cover, rotating ring cover inner wall fixedly connected with in-connection layer, lower floor balancing weight can increase weight for rotating ring cover can sink smoothly, can reduce rotating ring cover and handle the frictional force that carries out between the stand through the in-connection layer, make rotating ring cover's resistance of sinking reduce.

(7) The equal fixedly connected with layer of polishing in interconnection inner surface and processing carries out the stand surface, reduces through the layer of polishing and handles the frictional resistance who carries out between stand and the interconnection layer to make the processing carry out the fibrous impurity of stand and the difficult adhesion in interconnection layer surface, and the normal sinking that influences the rotating ring cover.

(8) Inflation gasbag intussuseption is filled with the thermal expansion gas, by the gaseous internal oxygen of being compressed air film intussuseption, the gaseous thermal expansion coefficient of thermal expansion is higher to make inflation gasbag easily thermal energy after being heated, thereby the extrusion is increased by compressed air film internal gas pressure by compressed air film, oxygen can rotate the in-process at the rotating ring cover and evenly release to the weaving waste water in, thereby increase water oxygen content, for follow-up purification weaving waste water through the microorganism supplies oxygen.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of a reaction processing chamber according to the present invention;

FIG. 3 is a schematic view of the structure of the rotating collar of the present invention;

FIG. 4 is a schematic top cross-sectional view of a rotating collar of the present invention;

FIG. 5 is a schematic cross-sectional view of a power function ball of the present invention;

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

FIG. 7 is a schematic view of the structure at B in FIG. 5;

fig. 8 is a schematic view of the structure of the flanking branch rods of the present invention.

The reference numbers in the figures illustrate:

the device comprises a reaction treatment bin 1, a water discharge pipe 2, a water inlet pipe 3, a treatment carrying upright column 4, a rotating ring sleeve 5, a lower-layer balancing weight 501, an inner connection layer 502, a lateral wing branch rod 6, a lateral branch 601, an arc-shaped intercepting hook 602, a power functional ball 7, a water-soluble block 701, a blocking filter plate 702, an expansion air bag 703, a heat collecting plate 704 covered by a heat collecting plate, quicklime 705 particles 705, a compressed gas film 8, an arc-shaped connecting block 801, an air discharge channel pipe 802, a second dissolving block 803, a power paddle 9 and a hollow support 901.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope 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 specifically stated or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are used in a broad sense, and for example, "connected" may be a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements.

Example 1:

referring to fig. 1-4, a rotary textile wastewater treatment device comprises a reaction treatment bin 1, wherein two ends of the reaction treatment bin 1 are respectively communicated with a water discharge pipe 2 and a liquid inlet pipe 3, the lower end wall of the reaction treatment bin 1 is fixedly connected with a plurality of uniformly distributed treatment carrying upright columns 4, the treatment carrying upright columns 4 are sleeved with a rotary ring sleeve 5, the outer ends of the rotary ring sleeve 5 are fixedly connected with a plurality of uniformly distributed wing branch rods 6, referring to fig. 5-7, the outer ends of the rotary ring sleeve 5 are fixedly connected with power function balls 7 which are distributed at intervals with the wing branch rods 6, the front ends of the power function balls 7 are fixedly connected with water-soluble blocks 701, the inner wall of the power function balls 7 is fixedly connected with a covering heat collecting plate 704, the inner wall of the power function balls 7 is fixedly connected with an expansion air bag 703 matched with the covering heat collecting plate 704, the inner wall of the power function balls, an arc-shaped connecting block 801 is fixedly connected between the rotating ring sleeve 5 and the compressed gas film 8, an air-passing channel pipe 802 communicated with the compressed gas film 8 is arranged in the rotating ring sleeve 5, and a plurality of pairs of power paddles 9 which are symmetrically distributed by taking the power function ball 7 as a center are arranged at the outer end of the rotating ring sleeve 5.

Referring to fig. 5-6, quicklime particles 705 are filled between the water-soluble block 701 and the covering heat collecting plate 704, the inner wall of the power functional ball 7 is fixedly connected with a blocking filter plate 702, the filtering holes of the blocking filter plate 702 are smaller than the diameter of the quicklime particles 705, the quicklime particles 705 can react with water to release heat, and the covering heat collecting plate 704 transmits heat, so that power is provided for the subsequent rotation of the rotating ring sleeve 5, and the heat is also spread out to accelerate the movement of substances in the water body.

Referring to fig. 6-7, the outer end of the rotating ring sleeve 5 is fixedly connected with a hollow support 901 fixedly connected with the power paddle 9, in this embodiment, the center of the power paddle 9 and the rotating ring sleeve 5 forms an inclination angle of 40 °, the inner wall of the air channel pipe 802 is fixedly connected with a second dissolving block 803 matched with the hollow support 901, the hollow support 901 can support the power paddle 9 and enable textile wastewater to pass through, so that the second dissolving block 803 can be dissolved in normal contact with water, a channel is provided for subsequent release of oxygen, and the inclination angle of the power paddle 9 can provide horizontal steering force for the rotating ring sleeve 5 when the power paddle 9 rotates, so that the rotating ring sleeve 5 can normally rotate.

Referring to fig. 5 to 7, the second dissolving block 803 and the water soluble block 701 are both made of gelatin, the dissolving rate of the second dissolving block 803 is lower than that of the water soluble block 701, the gelatin can be dissolved in water, so that water contact is prevented within a certain time, the water soluble block 701 is dissolved firstly, the quicklime particles 705 react to release heat, when the second dissolving block 803 is not dissolved, a closed space can be formed, the air pressure is increased, and after dissolution, oxygen is released to provide larger kinetic energy.

Referring to fig. 8, a plurality of side branches 601 uniformly distributed are fixedly connected to the outer end of the side branch rod 6, a plurality of arc-shaped intercepting hooks 602 uniformly distributed are fixedly connected to the outer end of the side branch 601, and the side branch rod 6, the side branch 601 and the arc-shaped intercepting hooks 602 can hook fibrous impurities in water when rotating, so that the fibrous impurities can be effectively recovered.

Referring to fig. 1 to 4, the lower end of the rotating ring sleeve 5 is fixedly connected with a lower layer balancing weight 501, the inner wall of the rotating ring sleeve 5 is fixedly connected with an inner connection layer 502, the lower layer balancing weight 501 can increase the weight of the rotating ring sleeve 5, so that the rotating ring sleeve 5 can sink smoothly, and the inner connection layer 502 can reduce the friction between the rotating ring sleeve 5 and the processing column 4, so that the sinking resistance of the rotating ring sleeve 5 is reduced.

Referring to fig. 4, the inner surface of the inner connecting layer 502 and the surface of the pillar 4 are both fixedly connected with polishing layers, so that the friction resistance between the pillar 4 and the inner connecting layer 502 is reduced by the polishing layers, and fibrous impurities are not easily adhered to the surfaces of the pillar 4 and the inner connecting layer 502 to affect the normal sinking of the rotating ring 5.

Referring to fig. 5-6, the expansion airbag 703 is filled with thermal expansion gas, the compressed gas film 8 is filled with oxygen, the thermal expansion coefficient of the thermal expansion gas is higher, the thermal expansion gas in this embodiment is carbon dioxide, so that the expansion airbag 703 is easily thermally expanded after being heated, the compressed gas film 8 is extruded to increase the air pressure in the compressed gas film 8, and the oxygen can be uniformly released into the textile wastewater in the rotation process of the rotating collar 5, so as to increase the oxygen content of the water body, and provide oxygen for the subsequent purification of the textile wastewater by microorganisms.

A use method of a rotary type textile wastewater treatment device comprises the following steps:

s1, a technician injects the textile wastewater into the reaction treatment bin 1 through the liquid inlet pipe 3, the rotating ring sleeve 5 is sleeved on the treatment processing upright post 4, and the rotating ring sleeve 5 falls along with the gravity;

s2, in the falling process of the rotating ring sleeve 5, the water-soluble block 701 is firstly dissolved, quicklime particles 705 react with water to release heat, the heat is transmitted by covering the heat collecting plate 704 to enable the expansion airbag 703 to be thermally expanded, and then the expansion airbag is pressed by the air compressor film 8 to enable the internal pressure to be increased;

s3, dissolving by the second dissolving block 803, and ejecting oxygen in the compressed gas film 8 due to the increase of pressure to drive the power paddle 9 to rotate, so that the rotating ring sleeve 5 rotates, and the oxygen is uniformly dispersed in the textile wastewater to increase the oxygen content of the water body and supply oxygen for the subsequent purification of microorganisms;

s4, the side branch fork rod 6 is driven to rotate along with the rotation of the rotating ring sleeve 5, so that the arc-shaped intercepting hook 602 and the side branch fork 601 are hooked with fibrous impurities in the textile wastewater, the fibrous impurities are wound and recovered, and the collection and the filtration are completed.

The scheme can realize that textile wastewater is injected into the reaction treatment bin 1 by a technician, then the rotating ring sleeve 5 is sleeved on the treatment upright post 4, the rotating ring sleeve 5 falls along with gravity, the water-soluble block 701 is dissolved firstly, so that quicklime particles 705 react with water to release heat, the motion of substances around the textile wastewater is accelerated by heat transfer, then the heat collecting plate 704 is covered to transfer heat, so that the expansion airbag 703 thermally expands, then the pressure inside the compressed gas film 8 is increased, when the second dissolving block 803 is dissolved, oxygen is ejected out of the compressed gas film 8 due to the increase of pressure, the rotating ring sleeve 5 is driven to rotate by the power paddle 9, the oxygen is uniformly dispersed in the textile wastewater to increase the oxygen content of the water body and supply oxygen for the subsequent purification of microorganisms, meanwhile, the arc-shaped interception hook 602 and the side branch 601 are hooked with fibrous impurities in the textile wastewater, so that the fibrous impurities are wound and recovered, and the collection and the filtration are completed.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (9)

1. The utility model provides a rotary type weaving effluent treatment plant, includes reaction treatment storehouse (1), reaction treatment storehouse (1) both ends communicate respectively has row's outlet pipe (2) and feed liquor pipe (3), its characterized in that: the device comprises a reaction treatment bin (1), wherein a plurality of evenly distributed treatment devices are fixedly connected to the lower end wall of the reaction treatment bin (1) to perform upright column (4), the treatment devices are sleeved with a rotating ring sleeve (5) on the upright column (4), the outer end of the rotating ring sleeve (5) is fixedly connected with a plurality of evenly distributed wing branch rods (6), the outer end of the rotating ring sleeve (5) is fixedly connected with power function balls (7) which are distributed at intervals with the wing branch rods (6), the front end of each power function ball (7) is fixedly connected with a water-soluble block (701), the inner wall of each power function ball (7) is fixedly connected with a covering heat collecting plate (704), the inner wall of each power function ball (7) is fixedly connected with an expansion airbag (703) matched with the covering heat collecting plate (704), the inner wall of each power function ball (7) is fixedly connected with a compressed gas membrane (8), and an arc-shaped connecting block (801) is fixedly connected between the rotating, an air-passing channel pipe (802) communicated with the compressed gas film (8) is arranged in the rotating ring sleeve (5), and a plurality of pairs of power paddles (9) which are symmetrically distributed by taking the power functional ball (7) as the center are arranged at the outer end of the rotating ring sleeve (5).

2. A rotary textile waste water treatment apparatus as set forth in claim 1 wherein: quicklime particles (705) are filled between the water-soluble block (701) and the covering heat collecting plate (704), a blocking filter plate (702) is fixedly connected to the inner wall of the power function ball (7), and filter holes of the blocking filter plate (702) are smaller than the diameter of the quicklime particles (705).

3. A rotary textile waste water treatment apparatus as set forth in claim 1 wherein: the outer end of the rotating ring sleeve (5) is fixedly connected with a hollow support (901) fixedly connected with a power paddle (9), the center of the power paddle (9) and the center of the rotating ring sleeve (5) form an inclination angle of 30-45 degrees, and the inner wall of the air channel pipe (802) is fixedly connected with a second dissolving block (803) matched with the hollow support (901).

4. A rotary textile waste water treatment apparatus as set forth in claim 3 wherein: the second dissolving block (803) and the water-soluble block (701) are both made of gelatin, and the dissolving rate of the second dissolving block (803) is smaller than that of the water-soluble block (701).

5. A rotary textile waste water treatment apparatus as set forth in claim 1 wherein: the outer end of the side wing branch rod (6) is fixedly connected with a plurality of evenly distributed side branches (601), and the outer end of each side branch (601) is fixedly connected with a plurality of evenly distributed arc-shaped intercepting hooks (602).

6. A rotary textile waste water treatment apparatus as set forth in claim 1 wherein: the lower end of the rotating ring sleeve (5) is fixedly connected with a lower-layer balancing weight (501), and the inner wall of the rotating ring sleeve (5) is fixedly connected with an inner connecting layer (502).

7. A rotary textile wastewater treatment apparatus according to claim 6 and further comprising: the inner surface of the inner connecting layer (502) and the surface of the processing upright post (4) are fixedly connected with a polishing layer.

8. A rotary textile waste water treatment apparatus as set forth in claim 1 wherein: the expansion air bag (703) is filled with thermal expansion gas, and the compressed gas film (8) is filled with oxygen.

9. Use of a rotary textile waste water treatment apparatus according to any one of claims 1 to 8, wherein: the method comprises the following steps:

s1, a technician injects textile wastewater into the reaction treatment bin (1) through the liquid inlet pipe (3), and sleeves the rotating ring sleeve (5) on the treatment upright post (4), wherein the rotating ring sleeve (5) falls along with gravity;

s2, in the falling process of the rotating ring sleeve (5), the water-soluble block (701) is firstly dissolved, the quicklime particles (705) react with water to release heat, the heat is transferred by covering the heat collecting plate (704) to enable the expansion airbag (703) to be thermally expanded, and then the quicklime particles are pressed by the gas film (8) to enable the internal pressure to be increased;

s3, dissolving by a second dissolving block (803), ejecting oxygen due to pressure increase in a compressed gas film (8) to drive a power paddle (9) to rotate, so that a rotating ring sleeve (5) rotates, and the oxygen is uniformly dispersed in the textile wastewater to increase the oxygen content of the water body and supply oxygen for subsequent purification and microorganism purification;

s4, the lateral branch rod (6) is driven to rotate along with the rotation of the rotating ring sleeve (5), so that the arc-shaped intercepting hook (602) and the lateral branch (601) are hooked with fibrous impurities in the textile wastewater, the fibrous impurities are wound and recovered, and the collection and filtration are completed.

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