CN111569701A

CN111569701A - Industrial dye mixing treatment equipment

Info

Publication number: CN111569701A
Application number: CN202010511424.XA
Authority: CN
Inventors: 李凤新
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-08
Filing date: 2020-06-08
Publication date: 2020-08-25

Abstract

The invention relates to mixing equipment, in particular to industrial dye mixing treatment equipment which comprises a liquid storage mechanism, a stirring mechanism, a mixing box mechanism and a base, wherein the equipment can be used for stirring and mixing, raw liquid can be supplemented into the equipment while the equipment can be used for stirring, mixed liquid can be discharged out of the equipment, the equipment can be used for cooling heat generated by friction of a cam while stirring, the liquid storage mechanism is connected with the mixing box mechanism, the stirring mechanism is connected with the mixing box mechanism, the mixing box mechanism is connected with the base, and the liquid storage mechanism is connected with the base.

Description

Industrial dye mixing treatment equipment

Technical Field

The invention relates to mixing equipment, in particular to industrial dye mixing treatment equipment.

Background

In the preparation process of dye, two kinds of dyes are often required to be mixed, the traditional dye stirring equipment needs a plurality of power to realize the addition, mixing and discharge of the dyes, the equipment is overstaffed while the power is wasted, and the occupied area is large, so the industrial dye mixing treatment equipment is designed.

Disclosure of Invention

The technical problem mainly solved by the invention is to provide the industrial dye mixing treatment equipment, the equipment can be used for stirring and mixing, stock solution can be supplemented while the equipment is used for stirring, mixed solution can be discharged, and the equipment can be used for cooling heat generated by friction of the cam while stirring.

In order to solve the technical problem, the invention relates to a mixing device, and particularly relates to an industrial dye mixing treatment device which comprises a liquid storage mechanism, a stirring mechanism, a mixing box mechanism and a base.

The liquid storage mechanism is connected with the mixing box mechanism, the stirring mechanism is connected with the mixing box mechanism, the mixing box mechanism is connected with the base, and the liquid storage mechanism is connected with the base.

As a further optimization of the technical scheme, the liquid storage mechanism of the industrial dye mixing treatment equipment comprises supporting legs, a liquid storage box body, an inlet pipeline, a sliding groove, a flanged inlet pipe, a special-shaped sliding valve, a square column, a spring, a sliding support, a pulley seat, a pulley with a shaft, a double-inlet pipe, a pipe orifice, a supplement one-way valve, a communication port, a partition plate, a square hole and a round communication opening, wherein the supporting legs are connected with a base, the supporting legs are connected with the liquid storage box body, the liquid storage box body is connected with the inlet pipeline, the inlet pipeline is provided with the sliding groove, the sliding groove is in sliding connection with the special-shaped sliding valve, the flanged inlet pipe is arranged on the inlet pipeline, the special-shaped sliding valve is connected with the square column, the spring is sleeved on the square column, the spring abuts against the special-shaped sliding valve and the sliding support, the square hole is arranged on the sliding support, the square column is in sliding, the connection mode of pulley holder and tape spool pulley is that the bearing is connected, and two inlet tube link to each other with depositing the liquid case body, are equipped with the mouth of pipe on the two inlet tube, and supplementary check valve symmetry sets up in two inlet tube, and the intercommunication mouth symmetry sets up on depositing the liquid case body, and the intercommunication mouth is put through with two inlet tube mutually, and the baffle setting is in depositing the liquid case body, and the baffle links to each other with depositing the liquid case body.

As a further optimization of the technical scheme, the stirring mechanism of the industrial dye mixing treatment equipment comprises a piston, a square column with a rack, a gear, a stirring and mixing wheel, a rotating shaft, a supporting spring and a matching seat, wherein the piston is connected with the square column with the rack, the square column with the rack is meshed with the gear, the gear is connected with the rotating shaft, the rotating shaft is connected with the stirring and mixing wheel, the supporting spring is sleeved in the square column with the rack, and the matching seat is connected with the square column with the rack.

As a further optimization of the technical scheme, the mixing box mechanism of the industrial dye mixing treatment equipment comprises an air inlet one-way valve, an air inlet pipe, an extrusion box with an inner cavity, an air outlet pipe orifice, an air outlet one-way valve, a grooved cam, a bearing seat, a coupler, a cam driving motor, a square hole A, a stirring box, a bearing seat A, a mixed liquid outlet pipe, a liquid outlet one-way valve, a mixed inlet port and heat dissipation holes, wherein the air inlet one-way valve is arranged in the air inlet pipe, the air inlet pipe is connected with the extrusion box with the inner cavity, the extrusion box with the inner cavity is connected with the air outlet pipe, the air outlet pipe is provided with the air outlet pipe orifice, the air outlet one-way valve is arranged in the air outlet pipe, the grooved cam is connected with the bearing in a connection mode, the bearing seat is connected with the stirring box, the stirring, grooved cam contacts with tape spool pulley, cam driving motor links to each other with the bearing frame, square hole A sets up on the agitator tank, area rack square column and square hole A sliding connection, supporting spring supports at the cooperation seat, on the agitator tank, bearing frame A sets up on the agitator tank, bearing frame A is connected for the bearing with the connected mode of pivot, the drain pipe links to each other with the agitator tank after mixing, it sets up in the mixed back drain pipe to go out the liquid check valve, mix the inlet port setting on the agitator tank, mix the inlet port and switch on with the mouth of pipe, the louvre sets up on the bearing frame, take inner chamber extrusion box and piston sliding connection, it links to each other with the base to take the inner chamber extrusion box.

As a further optimization of the technical scheme, the part of the square column with the rack, which is deeply embedded into the liquid storage box body, of the industrial dye mixing treatment equipment is provided with teeth meshed with the gear.

As a further optimization of the technical scheme, when the piston of the industrial dye mixing treatment equipment disclosed by the invention moves downwards, the supplement one-way valve is opened, the liquid outlet one-way valve is closed, the air inlet one-way valve is closed, the air outlet one-way valve is opened, and when the piston moves upwards, the supplement one-way valve is closed, the liquid outlet one-way valve is opened, the air inlet one-way valve is opened, and the air outlet one-way valve is closed.

The industrial dye mixing treatment equipment has the beneficial effects that:

according to the industrial dye mixing treatment equipment, stirring and mixing can be performed, stock solution can be supplemented while the equipment is stirring, mixed solution can be discharged, and heat generated by friction of the cam can be cooled while the equipment is stirring.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an industrial dye mixing processing apparatus according to the present invention.

Fig. 2 is a schematic structural diagram of an industrial dye mixing processing apparatus according to the present invention.

Fig. 3 is a schematic structural diagram of an industrial dye mixing processing apparatus according to the present invention.

Fig. 4 is a schematic structural diagram of an industrial dye mixing processing apparatus according to the present invention.

Fig. 5 is a first structural schematic diagram of a liquid storage mechanism 1 of an industrial dye mixing processing device according to the present invention.

Fig. 6 is a second structural schematic diagram of a liquid storage mechanism 1 of an industrial dye mixing processing device according to the present invention.

Fig. 7 is a third schematic structural diagram of a liquid storage mechanism 1 of an industrial dye mixing processing device according to the present invention.

Fig. 8 is a fourth schematic structural diagram of a liquid storage mechanism 1 of the industrial dye mixing processing device of the present invention.

Fig. 9 is a fifth schematic structural view of a liquid storage mechanism 1 of the industrial dye mixing processing device according to the present invention.

Fig. 10 is a schematic structural diagram of a stirring mechanism 2 of an industrial dye mixing processing apparatus according to the present invention.

Fig. 11 is a schematic structural diagram of a mixing box mechanism 3 of an industrial dye mixing processing apparatus according to the present invention.

Fig. 12 is a schematic structural diagram of a mixing box mechanism 3 of an industrial dye mixing processing apparatus according to the present invention.

Fig. 13 is a third schematic structural diagram of a mixing box mechanism 3 of an industrial dye mixing processing apparatus according to the present invention.

In the figure: a liquid storage mechanism 1; 1-1 of supporting legs; a liquid storage tank body 1-2; entering a pipeline 1-3; 1-4 of a sliding groove; 1-5 of inlet pipe with flange; 1-6 of special-shaped sliding valves; 1-7 of square column; 1-8 parts of spring; 1-9 of a sliding support; 1-10 pulley seats; pulley 1-11 with shaft; double inlet pipes 1-12; 1-13 parts of pipe orifice; make-up check valves 1-14; 1-15 of a communication port; separators 1 to 16; 1-17 of square hole; round through openings 1-18; a stirring mechanism 2; a piston 2-1; a square column 2-2 with a rack; 2-3 of a gear; 2-4 of a stirring and mixing wheel; 2-5 of a rotating shaft; 2-6 parts of supporting springs; 2-7 of a matching seat; a mixing box mechanism 3; an air inlet check valve 3-1; an air inlet pipe 3-2; 3-3 of an extrusion box with an inner cavity; 3-4 parts of an air outlet pipe; 3-5 parts of an air outlet pipe orifice; 3-6 parts of an air outlet one-way valve; grooved cams 3-7; 3-8 of a bearing seat; 3-9 parts of a coupler; 3-10 parts of a cam driving motor; a square hole A3-11; 3-12 parts of a stirring box; bearing seat A3-13; 3-14 parts of mixed liquid outlet pipe; liquid outlet one-way valve 3-15; mixing inlet 3-16; 3-17 of heat dissipation holes; a base 4.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the invention relates to a mixing device, more specifically, an industrial dye mixing treatment device, which comprises a liquid storage mechanism 1, a stirring mechanism 2, a mixing tank mechanism 3, and a base 4, wherein the device can stir and mix, the device can supplement original liquid while stirring, the device can discharge mixed liquid, and the device can cool heat of cam friction while stirring.

The liquid storage mechanism 1 is connected with the mixing box mechanism 3, the stirring mechanism 2 is connected with the mixing box mechanism 3, the mixing box mechanism 3 is connected with the base 4, and the liquid storage mechanism 1 is connected with the base 4.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and the present embodiment further describes the present embodiment, where the liquid storage mechanism 1 includes a leg 1-1, a liquid storage tank body 1-2, an inlet pipe 1-3, a sliding groove 1-4, a flanged inlet pipe 1-5, a shaped sliding valve 1-6, a square column 1-7, a spring 1-8, a sliding support 1-9, a pulley seat 1-10, a pulley 1-11 with a shaft, a double inlet pipe 1-12, a nozzle 1-13, a supplementary check valve 1-14, a communication port 1-15, a partition plate 1-16, a square hole 1-17, a round communication opening 1-18, the leg 1-1 is connected to a base 4, the supporting legs 1-1 are connected with the liquid storage box body 1-2, the liquid storage box body 1-2 is connected with the inlet pipeline 1-3, the inlet pipeline 1-3 is provided with sliding grooves 1-4, the sliding grooves 1-4 are connected with the special-shaped sliding valves 1-6 in a sliding manner, the inlet pipe 1-5 with a flange is arranged on the inlet pipeline 1-3, the special-shaped sliding valves 1-6 are connected with square columns 1-7, springs 1-8 are sleeved on the square columns 1-7, the springs 1-8 are abutted against the special-shaped sliding valves 1-6 and the sliding supports 1-9, the square holes 1-17 are arranged on the sliding supports 1-9, the square columns 1-7 are connected with the square holes 1-17 in a sliding manner, the square columns 1-7 are connected with the pulley seats 1-10, the pulley seats 1-10 are connected with the pulleys 1-11 with shafts in a bearing manner, the double inlet pipe 1-12 is connected with the liquid storage tank body 1-2, the double inlet pipe 1-12 is provided with a pipe orifice 1-13, the supplement one-way valve 1-14 is symmetrically arranged in the double inlet pipe 1-12, the communicating port 1-15 is symmetrically arranged on the liquid storage tank body 1-2, the communicating port 1-15 is communicated with the double inlet pipe 1-12, the clapboard 1-16 is arranged in the liquid storage tank body 1-2, the clapboard 1-16 is connected with the liquid storage tank body 1-2, when in stirring, the belt shaft pulley 1-11 is intermittently pulled along with the rotation of the grooved cam 3-7, the belt shaft pulley 1-11 drives the pulley seat 1-10 to intermittently move, the pulley seat 1-10 pulls the special-shaped sliding valve 1-6 through the square column 1-7, the spring 1-8 is compressed in the process, when the spring 1-8 is compressed to the limit position, the round connecting opening 1-18 connects the flanged inlet pipe 1-5 with the inlet pipeline 1-3, so that liquid in the pipe which is externally connected before the device is used and can continuously enter stock solution flows into the flanged inlet pipe 1-5 and enters the liquid storage tank body 1-2 through the inlet pipeline 1-3, and the two kinds of liquid are separated by the partition plate 1-16.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and the embodiment further describes the embodiment, where the stirring mechanism 2 includes a piston 2-1, a square column with rack 2-2, a gear 2-3, a stirring and mixing wheel 2-4, a rotating shaft 2-5, a support spring 2-6, and a mating seat 2-7, the piston 2-1 is connected to the square column with rack 2-2, the square column with rack 2-2 is engaged with the gear 2-3, the gear 2-3 is connected to the rotating shaft 2-5, the rotating shaft 2-5 is connected to the stirring and mixing wheel 2-4, the support spring 2-6 is sleeved in the square column with rack 2-2, the mating seat 2-7 is connected to the square column with rack 2-2, before the device is used, two flanged inlet pipes 1-5 can be respectively connected with different pipes capable of continuously feeding stock solution, when the device does not run, the flanged inlet pipes 1-5 are limited by the special-shaped sliding valves 1-6, the liquid cannot flow downwards, the cam driving motor 3-10 is operated to drive the grooved cam 3-7 to rotate, the grooved cam 3-7 rotates to drive the matching seats 2-7 to move downwards to compress the supporting springs 2-6, then the matching seats 2-7 can reset under the resilience action of the supporting springs 2-6, the matching seats 2-7 can drive the square columns 2-2 with racks to move up and down in a reciprocating mode, the square columns 2-2 with racks can drive the gears 2-3 on two sides to rotate in a reverse reciprocating mode, and the gears 2-3 can drive the rotating shafts 2-5 to rotate in a reciprocating mode, the rotating shafts 2-5 can drive the stirring and mixing wheels 2-4 to rotate in a reciprocating mode, and the rotating directions of the two rotating shafts 2-5 are always opposite, so that the stirring and mixing wheels 2-4 on the two rotating shafts 2-5 are always opposite in rotating direction, reverse convection can be formed, and two kinds of liquid in the stirring boxes 3-12 can be stirred.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and the embodiment further describes the embodiment, where the mixing box mechanism 3 includes an air inlet check valve 3-1, an air inlet pipe 3-2, an inner cavity-containing extrusion box 3-3, an air outlet pipe 3-4, an air outlet pipe mouth 3-5, an air outlet check valve 3-6, a grooved cam 3-7, a bearing seat 3-8, a coupling 3-9, a cam driving motor 3-10, a square hole A3-11, a stirring box 3-12, a bearing seat A3-13 heat dissipation hole, a mixed liquid outlet pipe 3-14, a liquid outlet check valve 3-15, a mixing inlet port 3-16, and a mixing inlet port 3-17, where the air inlet check valve 3-1 is disposed in the air inlet pipe 3-, an air inlet pipe 3-2 is connected with an extrusion box 3-3 with an inner cavity, the extrusion box 3-3 with the inner cavity is connected with an air outlet pipe 3-4, the air outlet pipe 3-4 is provided with an air outlet pipe opening 3-5, an air outlet one-way valve 3-6 is arranged in the air outlet pipe 3-4, a grooved cam 3-7 is connected with a bearing seat 3-8 in a bearing way, the bearing seat 3-8 is connected with a stirring box 3-12, the stirring box 3-12 is connected with a double inlet pipe 1-12, the grooved cam 3-7 is connected with a cam driving motor 3-10 through a coupler 3-9, the grooved cam 3-7 is contacted with a grooved matching seat 2-7, the cam 3-7 is contacted with a pulley 1-11 with a shaft, and the cam driving motor 3-10 is connected with the bearing, a square hole A3-11 is arranged on a stirring box 3-12, a square column 2-2 with a rack is in sliding connection with the square hole A3-11, a supporting spring 2-6 is abutted against a matching seat 2-7 and the stirring box 3-12, a bearing seat A3-13 is arranged on the stirring box 3-12, the bearing seat A3-13 is in bearing connection with a rotating shaft 2-5, a mixed liquid outlet pipe 3-14 is connected with the stirring box 3-12, a liquid outlet one-way valve 3-15 is arranged in the mixed liquid outlet pipe 3-14, a mixing inlet port 3-16 is arranged on the stirring box 3-12, the mixing inlet port 3-16 is communicated with a pipe orifice 1-13 through a heat dissipation hole, the liquid outlet 3-17 is arranged on the bearing seat 3-8, an extrusion box 3-3 with an inner cavity is in sliding connection with a piston 2-1, the extrusion box 3-3 with the inner cavity is connected with the base 4, the square column 2-2 with the rack reciprocates up and down to drive the piston 2-1 to reciprocate up and down, the pressure in the stirring box 3-12 is reduced when the piston 2-1 moves down, the supplement one-way valve 1-14 is opened, the liquid outlet one-way valve 3-15 is closed, at the moment, two kinds of liquid in the liquid storage box body 1-2 enter the double inlet pipe 1-12 from the supplement one-way valve 1-14 which is connected with the two kinds of liquid respectively, then enter the stirring box 3-12 through the pipe orifice 1-13 and the mixing inlet 3-16, thus premixing is carried out in the process of entering the stirring box 3-12, the liquid can be fully mixed after short-time convection stirring, when the piston 2-1 moves up, the pressure in the stirring box 3-12 is increased, the supplementary one-way valve 1-14 is closed, the liquid outlet one-way valve 3-15 is opened to discharge the mixed liquid, when the piston 2-1 moves downwards, the pressure intensity of the space of the inner cavity extrusion box 3-3 below the piston 2-1 is increased, the air inlet one-way valve 3-1 is closed, the air outlet one-way valve 3-6 is opened, when the piston 2-1 moves upwards, the pressure intensity of the space of the inner cavity extrusion box 3-3 below the piston 2-1 is reduced, the air inlet one-way valve 3-1 is opened, the outside air enters the inner cavity extrusion box 3-3, the air outlet one-way valve 3-6 is closed, thus in the reciprocating motion of the piston 2-1, the outside air is continuously sucked into the inner cavity extrusion box 3-3, then the air is ejected from the air outlet one-way valve 3-6, the friction heat generated when the grooved cam 3-7 rotates is cooled, the cam driving motor 3-10 is protected from heat.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, and will be further described with reference to the present embodiment, in which the rack-equipped square column 2-2 is provided with teeth engaging with the gears 2-3 at the portions extending into the liquid storage tank main body 1-2.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the embodiment further describes the embodiment, in which when the piston 2-1 moves downward, the replenishment check valve 1-14 is opened, the liquid outlet check valve 3-15 is closed, the air inlet check valve 3-1 is closed, the air outlet check valve 3-6 is opened, and when the piston 2-1 moves upward, the replenishment check valve 1-14 is closed, the liquid outlet check valve 3-15 is opened, the air inlet check valve 3-1 is opened, and the air outlet check valve 3-6 is closed.

The working principle of the device is as follows: the device can be stirred and mixed, the two flanged inlet pipes 1-5 can be respectively connected with different pipes capable of continuously feeding stock solution before the device is used, when the device does not run, the flanged inlet pipes 1-5 are limited by the special-shaped sliding valves 1-6, the liquid cannot flow downwards, the running cam driving motor 3-10 drives the grooved cam 3-7 to rotate, the grooved cam 3-7 rotates to drive the matching seat 2-7 to move downwards to compress the supporting spring 2-6, then under the rebounding action of the supporting spring 2-6, the matching seat 2-7 can reset, the matching seat 2-7 can drive the square column with racks 2-2 to reciprocate up and down, the square column with racks 2-2 can drive the gears 2-3 at two sides to reciprocate reversely, the gear 2-3 can drive the rotating shaft 2-5 to rotate in a reciprocating manner, the rotating shaft 2-5 can drive the stirring and mixing wheel 2-4 to rotate in a reciprocating manner, and the rotating directions of the two rotating shafts 2-5 are always opposite, so that the stirring and mixing wheels 2-4 on the two rotating shafts 2-5 are always opposite in rotating direction, and reverse convection can be formed to stir two liquids in the stirring tank 3-12; the device can supplement the stock solution while stirring, when stirring, the pulley 1-11 with the shaft can be intermittently pulled along with the rotation of the grooved cam 3-7, the pulley 1-11 with the shaft can drive the pulley seat 1-10 to intermittently move, the pulley seat 1-10 can pull the special-shaped sliding valve 1-6 through the square column 1-7, the spring 1-8 can be compressed in the process, when the spring 1-8 is compressed to the extreme position, the round through opening 1-18 connects the flanged inlet pipe 1-5 with the inlet pipe 1-3, thus, liquid in a pipe which is externally connected before the device is used and can continuously enter stock solution can flow into the inlet pipe 1-5 with the flange and then enter the liquid storage box body 1-2 through the inlet pipeline 1-3, and the two kinds of liquid can be separated by the partition plate 1-16; the device can discharge mixed liquid, the piston 2-1 is driven to do up-and-down reciprocating motion by the up-and-down reciprocating motion of the square column 2-2 with the rack, the pressure in the stirring box 3-12 is reduced when the piston 2-1 moves down, the supplement one-way valve 1-14 is opened, the liquid outlet one-way valve 3-15 is closed, at the moment, two kinds of liquid in the liquid storage box body 1-2 respectively enter the double inlet pipe 1-12 from the supplement one-way valve 1-14 which is respectively connected, then enter the stirring box 3-12 through the pipe orifice 1-13 and the mixing inlet port 3-16, thus the liquid is premixed in the process of entering the stirring box 3-12, the liquid can be fully mixed after short-time convection stirring, the pressure in the stirring box 3-12 is increased when the piston 2-1 moves up, closing the supplementary one-way valve 1-14, opening the liquid outlet one-way valve 3-15, and discharging the mixed liquid; the equipment can cool the heat of cam friction while stirring, when the piston 2-1 moves downwards, the space pressure of the inner cavity extrusion box 3-3 below the piston 2-1 is increased, the air inlet one-way valve 3-1 is closed, the air outlet one-way valve 3-6 is opened, when the piston 2-1 moves upwards, the space pressure of the inner cavity extrusion box 3-3 below the piston 2-1 is reduced, the air inlet one-way valve 3-1 is opened, the outside air enters the inner cavity extrusion box 3-3, the air outlet one-way valve 3-6 is closed, thus in the reciprocating motion of the piston 2-1, the outside air is continuously sucked into the inner cavity extrusion box 3-3, then the air is ejected from the air outlet one-way valve 3-6, the friction heat when the grooved cam 3-7 rotates is cooled, the cam driving motor 3-10 is protected from heat.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an industrial dye mixing processing equipment, includes liquid storage mechanism (1), rabbling mechanism (2), mixing box mechanism (3), base (4), its characterized in that: the liquid storage mechanism (1) is connected with the mixing box mechanism (3), the stirring mechanism (2) is connected with the mixing box mechanism (3), the mixing box mechanism (3) is connected with the base (4), and the liquid storage mechanism (1) is connected with the base (4).

2. The industrial dye mixing treatment apparatus of claim 1, wherein: the liquid storage mechanism (1) comprises supporting legs (1-1), a liquid storage box body (1-2), an inlet pipeline (1-3), a sliding groove (1-4), a flanged inlet pipe (1-5), a special-shaped sliding valve (1-6), a square column (1-7), a spring (1-8), a sliding support (1-9), a pulley seat (1-10), a pulley (1-11) with a shaft, a double-inlet pipe (1-12), a pipe orifice (1-13), a supplement one-way valve (1-14), a communication port (1-15), a partition plate (1-16), a square hole (1-17) and a circular communication opening (1-18), wherein the supporting legs (1-1) are connected with a base (4), and the supporting legs (1-1) are connected with the liquid storage box body (1-2), the liquid storage box body (1-2) is connected with an inlet pipeline (1-3), the inlet pipeline (1-3) is provided with a sliding groove (1-4), the sliding groove (1-4) is in sliding connection with a special-shaped sliding valve (1-6), an inlet pipe (1-5) with a flange is arranged on the inlet pipeline (1-3), the special-shaped sliding valve (1-6) is connected with a square column (1-7), a spring (1-8) is sleeved on the square column (1-7), the spring (1-8) is abutted against the special-shaped sliding valve (1-6) and a sliding support (1-9), the square hole (1-17) is arranged on the sliding support (1-9), the square column (1-7) is in sliding connection with the square hole (1-17), the square column (1-7) is connected with a pulley seat (1-10), the pulley seat (1-10) is connected with the pulley (1-11) with the shaft in a bearing mode, the double inlet pipe (1-12) is connected with the liquid storage box body (1-2), the double inlet pipe (1-12) is provided with a pipe orifice (1-13), the supplement one-way valves (1-14) are symmetrically arranged in the double inlet pipe (1-12), the communication ports (1-15) are symmetrically arranged on the liquid storage box body (1-2), the communication ports (1-15) are communicated with the double inlet pipe (1-12), the partition plate (1-16) is arranged in the liquid storage box body (1-2), and the partition plate (1-16) is connected with the liquid storage box body (1-2).

3. The industrial dye mixing treatment apparatus of claim 1, wherein: the stirring mechanism (2) comprises a piston (2-1), a square column with a rack (2-2), a gear (2-3), a stirring mixing wheel (2-4), a rotating shaft (2-5), a supporting spring (2-6) and a matching seat (2-7), the piston (2-1) is connected with the square column with the rack (2-2), the square column with the rack (2-2) is meshed with the gear (2-3), the gear (2-3) is connected with the rotating shaft (2-5), the rotating shaft (2-5) is connected with the stirring mixing wheel (2-4), the supporting spring (2-6) is sleeved in the square column with the rack (2-2), and the matching seat (2-7) is connected with the square column with the rack (2-2).

4. The industrial dye mixing treatment apparatus of claim 1, wherein: the mixing box mechanism (3) comprises an air inlet one-way valve (3-1), an air inlet pipe (3-2), an extrusion box (3-3) with an inner cavity, an air outlet pipe (3-4), an air outlet pipe opening (3-5), an air outlet one-way valve (3-6), a grooved cam (3-7), a bearing seat (3-8), a coupler (3-9), a cam driving motor (3-10), a square hole A (3-11), a stirring box (3-12), a bearing seat A (3-13), a mixed liquid outlet pipe (3-14), a liquid outlet one-way valve (3-15), a mixed inlet port (3-16) and heat dissipation holes (3-17), the air inlet one-way valve (3-1) is arranged in the air inlet pipe (3-2), the air inlet pipe (3-2) is connected with the extrusion box (3-3) with the inner cavity, the extrusion box (3-3) with the inner cavity is connected with an air outlet pipe (3-4), an air outlet pipe opening (3-5) is arranged on the air outlet pipe (3-4), an air outlet one-way valve (3-6) is arranged in the air outlet pipe (3-4), a grooved cam (3-7) is connected with a bearing seat (3-8) in a bearing way, the bearing seat (3-8) is connected with a stirring box (3-12), the stirring box (3-12) is connected with a double inlet pipe (1-12), the grooved cam (3-7) is connected with a cam driving motor (3-10) through a coupler (3-9), the grooved cam (3-7) is contacted with a matching seat (2-7), the grooved cam (3-7) is contacted with a pulley (1-11) with a shaft, and the cam driving motor (3-10) is connected with the bearing seat, the square hole A (3-11) is arranged on the stirring box (3-12), the square column (2-2) with the rack is in sliding connection with the square hole A (3-11), the supporting spring (2-6) is abutted against the matching seat (2-7) and the stirring box (3-12), the bearing seat A (3-13) is arranged on the stirring box (3-12), the bearing seat A (3-13) is in bearing connection with the rotating shaft (2-5), the mixed liquid outlet pipe (3-14) is connected with the stirring box (3-12), the liquid outlet check valve (3-15) is arranged in the mixed liquid outlet pipe (3-14), the mixed inlet port (3-16) is arranged on the stirring box (3-12), the mixed inlet port (3-16) is communicated with the pipe orifice (1-13), the heat dissipation holes (3-17) are formed in the bearing seats (3-8), the extrusion box (3-3) with the inner cavity is connected with the piston (2-1) in a sliding mode, and the extrusion box (3-3) with the inner cavity is connected with the base (4).

5. An industrial dye mixing treatment apparatus according to claim 2 or 3 characterised by: the part of the square column (2-2) with the rack, which extends into the liquid storage box body (1-2), is provided with teeth meshed with the gear (2-3).

6. An industrial dye mixing treatment apparatus according to claim 2 or 3 or 4 characterised by: when the piston (2-1) moves downwards, the supplement one-way valve (1-14) is opened, the liquid outlet one-way valve (3-15) is closed, the air inlet one-way valve (3-1) is closed, the air outlet one-way valve (3-6) is opened, when the piston (2-1) moves upwards, the supplement one-way valve (1-14) is closed, the liquid outlet one-way valve (3-15) is opened, the air inlet one-way valve (3-1) is opened, and the air outlet one-way valve (3-6) is closed.