CN111792680A - Novel waste water treatment grid is used in wool fabrics scouring processing - Google Patents

Abstract

The invention discloses a novel waste water treatment grid for wool textile wool washing processing, which belongs to the field of wool textile wool washing, and the novel waste water treatment grid for wool textile wool washing processing can achieve the purposes of collecting wool impurities and facilitating the shedding of the wool impurities according to the control of the opening or the contraction of barbs, the opening and the contraction of the barbs can effectively simulate the inflation and the air suction of globefish organisms, so that the friction force of raised tissues on globefish organism bellies is increased or reduced, the adhesive force between wool and the barbs is conveniently changed, the grid is provided with an inner layer and an outer layer, has the functions of disassembly and replacement, the service life of the grid is greatly prolonged, the maintenance cost of products can be effectively reduced, and the purification effect can be effectively increased through the arranged novel net-shaped structure.

Description

Novel waste water treatment grid is used in wool fabrics scouring processing

Technical Field

The invention relates to the field of wool washing of wool textiles, in particular to a novel wastewater treatment grid for wool textile wool washing processing.

Background

Wool is composed primarily of proteins. The wool can be traced back to the age of the neolithic apparatus by human beings, is spread from the middle asia to the mediterranean and other regions of the world, and is a main textile raw material of the asia-europe. The wool fiber is soft and elastic, and can be used for making textiles such as woolen cloth, knitting wool, woollen blankets, felted woollen cloth and the like. The wool product has the characteristics of full hand feeling, good heat retention, comfortable wearing and the like. Sheep wool accounts for a considerable proportion of the textile raw material;

wool textiles are fabrics woven from wool as a raw material and are classified into woven fabrics and knitted fabrics. The main processing bases of wool include Zhejiang Puji, Zhejiang Hangzhou, Guangdong Dalang, Hebei Qinghe and inner Mongolia;

the process of wool (textile) mainly comprises three processes of wool washing → carbonization → bleaching, and the wool washing comprises the following steps: because wool and the like are animal fibers, and are dirty, impurities (dirt, grease, sweat, impurities and the like) left on the surfaces of the wool and the like are removed firstly by washing the wool; and sorting the cut wool, washing the wool, and washing away grease and impurities to obtain the clean wool. The clean wool is mixed with a large amount of heavy matters such as thick wool, dead wool and the like besides cashmere, is suitable for opening, coarse throwing and impurity removal of animal fibers such as cashmere, wool, racoon dog wool, fox wool, yak wool, camel wool and the like, and is made into qualified lint-free wool for selling by users or using in next working procedure;

in the wool washing process of wool textiles, the treatment of the generated wastewater is very strict, and the quality of a grating used in the wool washing process directly concerns the wastewater treatment efficiency and the wastewater purification result;

however, in the use process of the existing waste water treatment grid for wool textile wool washing processing, wool and grease impurities are clamped in the inner holes of the grid, and the wool is wound and the grease is accumulated, so that the wool and the impurities in the grid are difficult to clean afterwards.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a novel wool textile wool scouring processing wastewater treatment grid, which can collect wool impurities and facilitate the shedding of the wool impurities according to the opening or contraction of a control barb, the opening and contraction of the barb can effectively simulate the inflation and air suction of globefish organisms, so that the friction force of raised tissues on the globefish organism belly can be increased or reduced, the adhesive force between wool and the barb is convenient to change, the grid is provided with an inner layer and an outer layer, the grid has the functions of disassembly and replacement, the service life of the grid is greatly prolonged, the maintenance cost of products can be effectively reduced, and the purification effect can be effectively increased through the arranged novel mesh structure.

2. Technical scheme

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

A novel waste water treatment grid for wool textile wool scouring processing comprises a grid frame, the front and back surfaces of the grid frame are provided with water permeable holes, the left upper side of the grid frame is provided with a pipeline positioning groove, the upper side of the water permeable holes is provided with a placing groove, the top end of the grid frame is internally provided with a penetrating groove, the interior of the placing groove is clamped and installed with a positioning panel, the front side of the positioning panel is internally connected with a locking block through threads, the rear side of the positioning panel is fixedly provided with a wool collecting shaft, the rear end of the wool collecting shaft is fixedly provided with an elastic ball, the rear end of the elastic ball is fixedly provided with a spur, the interior of the penetrating groove is provided with a dismounting frame, the dismounting frame is provided with an inflation connector at the upper right side, the left end of the inflation connector is connected with an inflation tube, the bottom of the inflation tube is connected, the lower side of the gas distribution pipe is connected with a connecting piece, the left lower side of the connecting piece is connected with a second gas distribution connecting pipe, the right lower side of the connecting piece is connected with a first shunt connecting pipe, the front side surface of the second shunt connecting pipe is provided with a sealing block, the outer side of the sealing block is connected with a barb, the front end of the barb is provided with an end head, the inside of the end head is provided with a positioning ball, the outer surface of the positioning ball is provided with a convex block, the rear end of the positioning ball is connected with a fiber arranging rope in a bolt way, the interior of the second shunt connecting pipe is fixedly provided with an installation panel, the bottom end of the installation panel is connected with a return spring, the bottom of the reset spring is connected with a limit plate, the lower side of the limit plate is connected with a ventilating branch plate, the inner side of the air-permeable sub-plate is provided with an air pressure ball, and the top end of the upper surface of the air pressure ball is connected to the tail end of the fiber arranging rope.

Further, the hole of permeating water is round structure, and permeates water the equal evenly distributed of hole in the preceding rear surface of grid frame to the orthographic projection mapping of barb is in the inside in the hole of permeating water, makes things convenient for the inflow grid of waste water.

Furthermore, the positioning panel is arranged in the arranging groove in a sliding mode from left to right, and the positioning panel is fixedly arranged in the arranging groove through the locking block, so that the positioning panel is convenient to position and install.

Further, the inside material that the axle was collected to wool is ABS plastics, and the wool is collected the connection mode of axle and location ball and is adhesive connection to the inside material of location ball is the stainless steel, and the barb is spine form fixed mounting in the rear end of location ball moreover, conveniently collects wool and other impurity on the barb.

Furthermore, the gas distributing pipe is arranged at the bottom of the inflation pipe at equal intervals, the gas distributing pipe is communicated with the connecting piece, the first shunt connecting pipe, the second shunt connecting pipe and the connecting piece are communicated with each other, the first shunt connecting pipe and the second shunt connecting pipe are arranged in a net structure in the disassembly frame, and the gas distributing pipe is communicated with the inflation pipe.

Further, the inside of barb is hollow column structure, and the connected mode of barb and end is for bonding to the barb is the soft rubber that the surface spraying has anticorrosive coating with the inside material of end, conveniently collects remaining wool sample in the waste water.

Furthermore, the inside of end is inlayed and is installed the location ball, and protruding piece makes things convenient for the shrinkage deformation of barb at the surface evenly distributed of location ball.

Further, the rope is settled to the fibre runs through in the inside of sealed piece, and the middle part outside that the rope was settled to the fibre is provided with the installation panel to the relative slip takes place in the inside of installation panel for the rope is settled to the fibre, and the inside material of the atmospheric pressure ball that the rope end set up was settled to the fibre is the smooth showy foam of surface in addition, makes things convenient for the fibre to settle the tensile of rope and resets.

Furthermore, ventilative minute board is strip angular distribution at the lower surface of limiting plate, and the inside material of ventilative minute board is plastics to ventilative minute board takes place to warp at the lower surface of limiting plate through the circulation of air current, makes things convenient for the location of barosphere.

Further, the inside of limiting plate is inlayed and is installed the atmospheric pressure ball, and the limiting plate passes through reset spring and constitutes extending structure in the inside of first reposition of redundant personnel connecting pipe and second reposition of redundant personnel connecting pipe, makes things convenient for reseing of limiting plate.

3. Advantageous effects

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

(1) It is according to opening or the shrink of control barb, reach and collect wool impurity and make things convenient for droing of wool impurity, the expansion shrink of barb can effectual imitation globefish biological aerifing breathe in, thereby reach the increase or reduce the frictional force of the protruding tissue on the biological belly of globefish, conveniently change the adhesive force between wool and the barb, the grid is provided with inside and outside two-layer, the function of dismantling the change has, the life of the grid of extension greatly, the cost of maintenance of the product that can effectual reduction, and through the novel network structure who sets up, can effectual increase purifying effect.

(2) The hole of permeating water is round structure, and the hole of permeating water is at the equal evenly distributed of the preceding rear surface of grid frame to the orthographic projection mapping of barb is in the inside in the hole of permeating water, makes things convenient for the inflow grid of waste water.

(3) The positioning panel is arranged in the arrangement groove in a sliding mode from left to right, and the positioning panel is fixedly arranged in the arrangement groove through the locking block, so that the positioning panel is convenient to position and install.

(4) The inside material that the axle was collected to wool is ABS plastics, and the wool is collected the connection mode of axle and location ball and is adhesive connection to the inside material of location ball is the stainless steel, and the barb is spine form fixed mounting in the rear end of location ball moreover, conveniently collects wool and other impurity on the barb.

(5) The gas-distributing pipe is arranged at the bottom of the inflation tube at equal intervals, the gas-distributing pipe is communicated with the connecting piece, the first shunt connecting pipe, the second shunt connecting pipe and the connecting piece are communicated with each other, the first shunt connecting pipe and the second shunt connecting pipe are arranged in a net structure in the interior of the disassembly frame, and the gas-distributing pipe is communicated with the inflation tube.

(6) The inside of barb is cavity column structure, and the connected mode of barb and end is for bonding to the inside material of barb and end is the soft rubber that the surface spraying has anticorrosive coating, conveniently collects remaining wool sample in the waste water.

(7) The inside of end is inlayed and is installed the location ball, and protruding piece makes things convenient for the shrinkage deformation of barb at the surface evenly distributed of location ball.

(8) The rope runs through in the inside of sealed piece is settled to the fibre, and the middle part outside that the rope was settled to the fibre is provided with the installation panel to the relative slip takes place in the inside of installation panel for the rope is settled to the fibre, and the inside material of the terminal atmospheric pressure ball that sets up of rope is settled to the fibre moreover is the smooth showy foam of surface, makes things convenient for the fibre to settle the tensile of rope and resets.

(9) Ventilative minute board is strip angular distribution at the lower surface of limiting plate, and the inside material of ventilative minute board is plastics to ventilative minute board takes place to warp at the lower surface of limiting plate through the circulation of air current, makes things convenient for the location of barosphere.

(10) The air pressure ball is embedded in the limiting plate, the limiting plate forms a telescopic structure in the first shunt connecting pipe and the second shunt connecting pipe through the reset spring, and the limiting plate is convenient to reset.

Drawings

FIG. 1 is a schematic view of the overall structure of the disassembled frame and the grid frame;

FIG. 2 is a front view of the grid framework of the present invention;

FIG. 3 is a front view of the disassembling frame of the present invention;

FIG. 4 is a side view cross-sectional structural schematic view of a grid framework of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention;

FIG. 6 is a schematic side view of the splayed configuration of the barbs of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6B according to the present invention;

FIG. 8 is a schematic view of a deformed, retracted configuration of the barb of the present invention;

fig. 9 is an enlarged view of the structure of fig. 8 at C according to the present invention.

The reference numbers in the figures illustrate:

1. a grid frame; 2. water permeable holes; 3. a placing groove; 4. a pipe locating slot; 5. penetrating into the groove; 6. a positioning panel; 7. a locking block; 8. a wool collection shaft; 9. a resilient ball; 10. pricking; 11. disassembling the frame; 12. an inflation joint; 13. an inflation tube; 14. a gas distributing pipe; 15. a connecting member; 16. a first shunt connecting pipe; 17. a second shunt connecting pipe; 18. a sealing block; 19. a barb; 20. a tip; 21. a positioning ball; 22. a raised block; 23. a fiber placement rope; 24. installing a panel; 25. a return spring; 26. a pressure ball; 27. a limiting plate; 28. and (5) ventilating sub-plates.

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 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. 1-9, a novel waste water treatment grid for wool textile wool scouring processing comprises a grid frame 1, water permeable holes 2 are formed in the front and rear surfaces of the grid frame 1, a pipeline positioning groove 4 is formed in the left upper side of the grid frame 1, a placement groove 3 is formed in the upper side of the water permeable holes 2, a penetration groove 5 is formed in the top end of the grid frame 1, a positioning panel 6 is mounted in the placement groove 3 in a clamping manner, a locking block 7 is connected to the front side of the positioning panel 6 through a thread, a wool collecting shaft 8 is fixedly mounted at the rear side of the positioning panel 6, a resilient ball 9 is fixedly mounted at the rear end of the wool collecting shaft 8, a pricker 10 is fixedly mounted at the rear end of the resilient ball 9, a dismounting frame 11 is arranged in the penetration groove 5, an air charging connector 12 is arranged on the right upper side of the dismounting frame 11, an air charging connector 13 is connected to the left end of the air charging, the downside of gas-distributing pipe 14 is connected with connecting piece 15, the left downside of connecting piece 15 is connected with second reposition of redundant personnel connecting pipe 17, the right downside of connecting piece 15 is connected with first reposition of redundant personnel connecting pipe 16, the front side surface of second reposition of redundant personnel connecting pipe 17 is provided with sealed piece 18, the outside of sealed piece 18 is connected with barb 19, the front end of barb 19 is provided with end 20, the inside of end 20 is provided with location ball 21, the surface of location ball 21 is provided with protruding piece 22, the rear end bolt joint of location ball 21 has the fibre to settle rope 23, the inside fixed mounting of second reposition of redundant personnel connecting pipe 17 has installation panel 24, the bottom of installation panel 24 is connected with reset spring 25, reset spring 25's bottom is connected with limiting plate 27, the downside of limiting plate 27 is connected with ventilative minute board 28, the inboard of ventilative minute board 28 is provided with atmospheric pressure ball 26, the upper surface top of.

Referring to fig. 1 to 3, the water permeable holes 2 are formed in a circular shape, and the water permeable holes 2 are uniformly distributed on the front and rear surfaces of the grill frame 1, and the orthographic projection of the barbs 19 is projected inside the water permeable holes 2, thereby facilitating the inflow of wastewater into the grill. The positioning panel 6 is arranged in the arrangement groove 3 in a sliding mode from left to right, and the positioning panel 6 is fixedly arranged in the arrangement groove 3 through the locking block 7, so that the positioning panel 6 is convenient to position and install.

Referring to fig. 5, the wool collecting shaft 8 is made of ABS plastic, the wool collecting shaft 8 is connected to the positioning ball 21 by gluing, the positioning ball 21 is made of stainless steel, and the barb 19 is in the shape of a sharp barb and is fixedly mounted at the rear end of the positioning ball 21, so that the wool and other impurities on the barb 19 can be conveniently collected.

Referring to fig. 3, the gas distributing pipes 14 are disposed at equal intervals at the bottom of the gas filling pipe 13, the gas distributing pipes 14 are communicated with the connecting member 15, the first shunt connecting pipe 16 and the second shunt connecting pipe 17 are disposed in a net structure inside the detaching frame 11, and the gas distributing pipes 14 are communicated with the gas filling pipe 13.

Referring to fig. 4-9, the barb 19 is hollow, the barb 19 is connected to the end 20 by adhesion, and the barb 19 and the end 20 are made of soft rubber coated with an anti-corrosion coating on the outer surface, so as to facilitate collection of a wool sample remaining in wastewater. The positioning ball 21 is embedded in the end head 20, and the raised blocks 22 are uniformly distributed on the outer surface of the positioning ball 21, so that the barb 19 can be conveniently contracted and deformed. The fiber arrangement rope 23 penetrates through the sealing block 18, the installation panel 24 is arranged on the outer side of the middle of the fiber arrangement rope 23, the fiber arrangement rope 23 slides in the installation panel 24, the internal material of the air pressure ball 26 arranged at the tail end of the fiber arrangement rope 23 is floating foam with a smooth outer surface, and the fiber arrangement rope 23 is convenient to stretch and reset. The air-permeable sub-plates 28 are distributed on the lower surface of the limiting plate 27 in a strip-shaped angle mode, the inner portion of the air-permeable sub-plates 28 is made of plastic, and the air-permeable sub-plates 28 deform on the lower surface of the limiting plate 27 through the circulation of air flow, so that the air pressure balls 26 can be conveniently positioned. The inside of limiting plate 27 is inlayed and is installed pneumatic ball 26, and limiting plate 27 passes through reset spring 25 and constitutes extending structure in the inside of first reposition of redundant personnel connecting tube 16 and second reposition of redundant personnel connecting tube 17, makes things convenient for limiting plate 27 to reset.

Referring to fig. 1-3, in use, firstly, the grid framework 1 is placed at a proper position of the sewage treatment tank, the dismounting frame 11 is inserted into the penetrating groove 5 in the grid framework 1 from top to bottom, and finally the inflation connector 12 is positioned and clamped in the pipeline positioning groove 4, so that the barbs 19 arranged on the front and rear surfaces of the first shunt connecting pipe 16 and the second shunt connecting pipe 17 are mapped in the water permeable holes 2, the first shunt connecting pipe 16 and the second shunt connecting pipe 17 are arranged in a net structure, the permeability between the waste water and the waste water can be effectively increased, when the waste water passes through the inside of the water permeable holes 2, impurities and wool in the waste water are hooked on the barbs 19, and the impurities in the waste water can be conveniently, quickly and effectively filtered;

the grid framework 1 which is internally stained with wool and impurities is taken out of the disassembly frame 11, the air joint 12 is connected with an air charging device, air flow enters the first shunt connecting pipe 16 and the second shunt connecting pipe 17 through the air joint 12, the air charging pipe 13 and the air distributing pipe 14, the air flow passes through the first shunt connecting pipe 16 and the mounting panel 24 inside the second shunt connecting pipe 17, the air pressure ball 26 which is inlaid and mounted inside the limiting plate 27 is prompted to sink, the air permeable sub-plate 28 is enabled to be in an opening structure as shown in figure 7, the limiting plate 27 sinks, the fiber mounting rope 23 is prompted to stretch the positioning ball 21 which is inlaid and mounted inside the end head 20, the barb 19 which is internally in an elastic structure is deformed, the contraction deformation of the barb 19 can effectively change the adhesive force between the wool and the impurities and the barb 19, the opening or contraction of the barb 19 is controlled, wool impurity collection and the shedding of wool impurities is facilitated, the expansion and contraction of the barbs 19 can effectively simulate the inflation and air suction of the globefish organism, so that the friction force of the protruding tissues on the globefish organism belly is increased or reduced, and the adhesive force between wool and the barbs 19 is conveniently changed;

and the second shunt connecting pipe 17 is drawn out, the second shunt connecting pipe 17 is drawn out upwards, so that the contracted barb 19 and the barb 19 generate relative friction sliding, and the wool is adsorbed to the outside of the wool collecting shaft 8 arranged at the front end of the elastic ball 9 through static electricity, the positioning panel 6 arranged at the rear end of the wool collecting shaft 8 is detachable in the penetrating groove 5, thereby facilitating the centralized treatment of impurities and wool in waste water, the air-permeable subpanel 28 is contracted through the action of an air extractor, the air pressure ball 26 is promoted to float upwards, the positioning ball 21 is pushed outwards under the action of the reset spring 25, the barb 19 is further deformed in an outward expansion shape, thereby facilitating the memory expansion of the barb 19, the arrangement of the sealing block 18 does not influence the air pressure on the inside of the barb 19, and a series of operations of waste water treatment for wool scouring processing of the novel wool textiles are completed, it is according to opening or the shrink of control barb 19, reach and collect wool impurity and make things convenient for droing of wool impurity, the expansion shrink of barb 19 can effectual imitation globefish biology aerify breathe in, thereby reach the increase or reduce the frictional force of the protruding tissue on the biological belly of globefish, conveniently change the adhesive force between wool and the barb 19, the grid is provided with inside and outside two-layer, the function of change is dismantled to the function of having, the life of the grid of extension greatly, the cost of maintenance of the product that can effectual reduction, and through the novel network structure who sets up, can effectual increase purifying effect.

The above are only preferred embodiments 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 (10)

1. The utility model provides a novel wool fabrics scouring processing is with waste water treatment grid, includes grid frame (1), its characterized in that: the front and back surfaces of the grid framework (1) are respectively provided with a water permeable hole (2), the upper left side of the grid framework (1) is provided with a pipeline positioning groove (4), the upper side of the water permeable hole (2) is provided with a placing groove (3), the top end of the grid framework (1) is internally provided with a penetrating groove (5), the internal clamping of the placing groove (3) is provided with a positioning panel (6), the internal thread of the front side of the positioning panel (6) is connected with a locking block (7), the rear side of the positioning panel (6) is fixedly provided with a wool collecting shaft (8), the rear end of the wool collecting shaft (8) is fixedly provided with an elastic ball (9), the rear end of the elastic ball (9) is fixedly provided with a spur (10), the internal of the penetrating groove (5) is provided with a dismounting frame (11), the dismounting frame (11) is arranged, the upper right side of the dismounting frame (11) is provided with, the left end of inflation connector (12) is connected with gas tube (13), the bottom of gas tube (13) is connected with gas-distributing pipe (14), the downside of gas-distributing pipe (14) is connected with connecting piece (15), the left downside of connecting piece (15) is connected with second reposition of redundant personnel connecting pipe (17), the right downside of connecting piece (15) is connected with first reposition of redundant personnel connecting pipe (16), the preceding side surface of second reposition of redundant personnel connecting pipe (17) is provided with sealing block (18), the outside of sealing block (18) is connected with barb (19), the front end of barb (19) is provided with end (20), the inside of end (20) is provided with location ball (21), the surface of location ball (21) is provided with protruding piece (22), the rear end bolt of location ball (21) has fibre to settle rope (23), the inside fixed mounting of second reposition of redundant personnel connecting pipe (17) has mounting panel (24), the bottom of installation panel (24) is connected with reset spring (25), the bottom of reset spring (25) is connected with limiting plate (27), the downside of limiting plate (27) is connected with ventilative minute board (28), the inboard of ventilative minute board (28) is provided with atmospheric pressure ball (26), the end of rope (23) is settled in the fibre to the upper surface top of atmospheric pressure ball (26) connection.

2. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the hole (2) of permeating water is the round structure, and permeates water hole (2) and at the equal evenly distributed of the front and back surface of grid frame (1) to the orthographic projection mapping of barb (19) is in the inside of the hole (2) of permeating water.

3. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the positioning panel (6) is arranged in the arrangement groove (3) in a sliding mode from left to right, and the positioning panel (6) is fixedly arranged in the arrangement groove (3) through the locking block (7).

4. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the inside material of axle (8) is collected to wool is ABS plastics, and the connected mode that axle (8) and location ball (21) were collected to wool is adhesive connection to the inside material of location ball (21) is the stainless steel, and barb (19) are spine form fixed mounting in the rear end of location ball (21) moreover.

5. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the gas distribution pipe (14) is arranged at the bottom of the inflation pipe (13) at equal intervals, the gas distribution pipe (14) is communicated with the connecting piece (15), the first shunt connecting pipe (16) and the second shunt connecting pipe (17) are communicated with the connecting piece (15), and the first shunt connecting pipe (16) and the second shunt connecting pipe (17) are arranged in a net structure in the dismounting frame (11).

6. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the inside of barb (19) is hollow column structure, and the connected mode of barb (19) and end (20) is for bonding to the inside material of barb (19) and end (20) is the soft rubber that the surface spraying has anticorrosive coating.

7. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: positioning balls (21) are embedded in the end heads (20), and the convex blocks (22) are uniformly distributed on the outer surfaces of the positioning balls (21).

8. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the fiber arrangement rope (23) penetrates through the sealing block (18), an installation panel (24) is arranged on the outer side of the middle of the fiber arrangement rope (23), the fiber arrangement rope (23) slides in the installation panel (24) relatively, and the inner material of a pressure ball (26) arranged at the tail end of the fiber arrangement rope (23) is floating foam with a smooth outer surface.

9. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the air-permeable sub-plates (28) are distributed on the lower surface of the limiting plate (27) in a strip-shaped angle mode, the inner portions of the air-permeable sub-plates (28) are made of plastics, and the air-permeable sub-plates (28) deform on the lower surface of the limiting plate (27) through the circulation of air flow.

10. The novel wool textile wool scouring processing wastewater treatment grid according to claim 1, characterized in that: the inside of limiting plate (27) is inlayed and is installed pneumatic ball (26), and limiting plate (27) pass through reset spring (25) and constitute extending structure in the inside of first reposition of redundant personnel connecting pipe (16) and second reposition of redundant personnel connecting pipe (17).

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