CN114432955A

CN114432955A - Multistage salinity intelligence hybrid dosing unit

Info

Publication number: CN114432955A
Application number: CN202210121067.5A
Authority: CN
Inventors: 胡丽萍; 张宁; 徐晓莹; 姜黎明; 姜作真; 曹亚男; 杨涛
Original assignee: Yantai Marine Economic Research Institute Yantai Fishery Technology Promotion Station And Yantai Marine Fishing Proliferation Management Station
Current assignee: Yantai Marine Economic Research Institute Yantai Fishery Technology Promotion Station And Yantai Marine Fishing Proliferation Management Station
Priority date: 2022-02-09
Filing date: 2022-02-09
Publication date: 2022-05-06

Abstract

The invention relates to a multistage salinity intelligent mixed proportioning device, which comprises a box body, wherein the box body is integrally formed, a salt outlet cavity, a water supply cavity and an opening and closing unit arranged between the salt outlet cavity and the water supply cavity are formed in the box body, the salt outlet cavity and the water supply cavity are mutually independent, and discharging is carried out under the action of the opening and closing unit; the bottom of opening and close the unit is provided with the discharge gate, and this discharge gate department sets up the discharging pipe on set gradually water pump, circumference compounding unit, circulating compounding unit and vertical formula compounding unit that admits air still include one increase the water tank and increase the salt case, circumference compounding unit, circulating compounding unit and vertical formula compounding unit that admits air all through the feeding solenoid valve respectively with increase the water tank and increase the salt case intercommunication. The invention has the advantages that: the seawater can be proportioned according to the salinity required to meet the culture requirements of various marine products and the like.

Description

Multistage salinity intelligence hybrid dosing unit

Technical Field

The invention relates to a multistage salinity intelligent mixed proportioning device, and relates to the field of mixing of materials.

Background

Preparing the corresponding artificial seawater salt according to the use object of the artificial seawater. The artificial seawater salt is dissolved in fresh water according to a set proportion, and a mixture similar to natural seawater elements can be prepared, and the artificial seawater is called artificial seawater. Although the seawater is less than natural seawater in abundant elements, the seawater is convenient to use, sterile and pollution-free, and meets the use requirements of people on seawater. Multiple practices prove that the artificial seawater can meet the requirements of cultivating and feeding marine organisms.

The amount of artificial seawater used in aquariums, seafood farmers, scientific research institutions and aquatic research institutes is huge, and if the artificial seawater is manually prepared, the artificial seawater cannot be kept fully and uniformly mixed or the salinity of the artificial seawater cannot be accurately controlled, so that it is necessary to develop a complete preparation device for preparing the artificial seawater in an intelligent and automatic way, which can solve the problem that natural seawater cannot be used due to seawater pollution, economy and transportation reasons, and can ensure that aquariums and seafood farmers in inland cities can raise marine animals at low cost

The purpose is. Not only can produce certain economic benefits by saving the use cost of the seawater, but also can produce more important social benefits: the use cost is reduced, so that people can afford fresh seafood at lower price and more residents in inland cities can enjoy rare marine animals, thereby greatly enriching the physical life and the mental life of people.

Because the raising organisms are different, the water with different salinity required in the fish pond is different, and the existing equipment can not meet the production requirement in the aspects of adaptability and production efficiency.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides an intelligent multi-salinity mixed proportioning device, which adopts the technical scheme that:

a multi-stage salinity intelligent mixed proportioning device comprises a box body, wherein the box body is integrally formed, a salt outlet cavity, a water supply cavity and an opening and closing unit arranged between the salt outlet cavity and the water supply cavity are formed in the box body, the salt outlet cavity and the water supply cavity are mutually independent, and discharging is carried out under the action of the opening and closing unit; the bottom of opening and close the unit is provided with the discharge gate, and this discharge gate department sets up discharging pipe 5 the discharging pipe on set gradually water pump, circumference compounding unit, circulating compounding unit and the formula compounding unit of vertically admitting air still include one increase the water tank and increase the salt case, circumference compounding unit, circulating compounding unit and the formula compounding unit of vertically admitting air all through the feeding solenoid valve respectively with increase the water tank and increase the salt case intercommunication, open and close unit, water pump, circumference compounding unit, circulating compounding unit, the formula compounding unit of vertically admitting air and feeding solenoid valve and all insert the control box.

The opening and closing unit comprises a barrel arranged between a salt outlet cavity and a water supply cavity, a salt outlet hole communicated with the salt outlet cavity and a water outlet hole communicated with the water supply cavity are formed in the side wall of the barrel, a top cover is arranged at the top of the barrel, a driving motor is installed on the top cover, a rotating rod is installed in the barrel, the upper end of the rotating rod is in transmission connection with a motor shaft of the driving motor, a sector plate is installed at the lower end of the rotating rod, and the sector plate is in movable fit with the salt outlet hole and the water outlet hole to open and close the salt outlet hole and the water outlet hole; when the arc-shaped surface of the fan-shaped plate is attached to the salt outlet hole and the water outlet hole, the fan-shaped plate closes the salt outlet hole and the water outlet hole; when the arc-shaped surface of the fan-shaped plate is far away from the salt outlet and the water outlet, the fan-shaped plate opens the salt outlet and the water outlet; the discharge hole is formed at the bottom of the cylinder body.

The circumferential mixing units comprise circumferential mixing boxes, circumferential mixing motors and circumferential mixing discs, two circumferential mixing discs are rotatably mounted in the circumferential mixing boxes, a space is formed between the two circumferential mixing discs, the rotating directions of the two circumferential mixing discs are opposite, a plurality of upper arc-shaped grooves are formed in the upper surface of each circumferential mixing disc, and side spiral grooves are formed in the side parts of the circumferential mixing discs; each circumferential mixing disc is arranged on the circumferential mixing box through a circumferential mixing shaft, and the circumferential mixing shaft is in rotating fit with the circumferential mixing box; the outer end of one circumferential mixing shaft is in transmission connection with the circumferential mixing motor, and circumferential mixing shaft gears which are meshed with each other are arranged on the two circumferential mixing shafts; and a first salinity sensor and a first discharging electromagnetic valve which are connected with the control box are arranged on the circumferential mixing box.

The circulating type material mixing unit comprises an outer barrel, an inner barrel, a helical blade, an upper feeding pipe, a lower feeding pipe, a circulating material mixing motor and a helical shaft, wherein the inner barrel is arranged inside the outer barrel and is coaxial with the outer barrel, and a plurality of flow guide holes communicated with the outer barrel are formed in the inner barrel; a circulating mixing motor is arranged outside the outer barrel, the lower end of the spiral shaft extends to the inside of the inner barrel, the upper end of the spiral shaft is in transmission connection with a motor shaft of the circulating mixing motor, spiral blades are arranged on the spiral shaft, and the upper feeding pipe is positioned at the upper part of the inner barrel and extends to the inside of the inner barrel; the lower feeding pipe is positioned at the bottom in the outer barrel and extends into a cavity between the inner barrel and the inner barrel; the upper feeding pipe and the lower feeding pipe are communicated with the discharging pipe; and a second salinity sensor and a second discharge electromagnetic valve which are connected with the control box are arranged on the outer barrel.

The lower end of the spiral shaft is provided with an arc-shaped stirring plate, and a plurality of turbulence rods perpendicular to the arc-shaped stirring plate are arranged in the arc-shaped stirring plate.

The longitudinal air inlet type mixing unit comprises a longitudinal mixing box, a lifting stirring pipe and a round platform-shaped rotating body, wherein a longitudinal mixing motor is installed at the top of the longitudinal mixing box, and the round platform-shaped rotating body is located inside the longitudinal mixing box, arranged in the horizontal direction and fixedly installed at the lower end of a fixing rod; the upper end of the fixed rod is connected with a motor shaft of the longitudinal mixing motor in a transmission way and is driven by the longitudinal mixing motor; the outer surface of the circular truncated cone-shaped rotating body is provided with an oval track groove, the oval track groove is arranged on the side surface of the circular truncated cone-shaped rotating body, one long axis vertex of the oval track groove is close to the diameter expansion end of the circular truncated cone-shaped rotating body, and the other long axis vertex of the oval track groove is close to the diameter reduction end of the circular truncated cone-shaped rotating body; the lifting stirring pipe is arranged along the vertical direction, one side of the upper end of the lifting stirring pipe is provided with a roller which is in rolling fit with the oval track groove and rolls in the oval track groove along with the rotation of the round table-shaped rotating body; the lower end of the lifting stirring pipe is provided with a balancing weight; and a third salinity sensor and a third discharge electromagnetic valve which are connected with the control box are arranged on the longitudinal mixing box.

And a horizontal air inlet pipe is also arranged in the longitudinal mixing box and is positioned at the bottom of the longitudinal mixing box and communicated with an air pump positioned outside the longitudinal mixing box.

The outside of lift agitator pipe sets up the several branch that have different in size, and all branches are whole to be set up along the vertical direction of lift puddler.

The invention has the advantages that:

(1) the seawater can be proportioned according to the required salinity, so that the cultivation requirements of various marine products are met;

(2) the mixing circumferential mixing unit, the circulating mixing unit and the longitudinal air inlet type mixing unit are arranged for multi-stage mixing, so that a good mixing effect is realized; secondly, the circumferential mixing unit, the circulating mixing unit and the longitudinal air inlet type mixing unit can be combined as required and matched with the salt increasing tank and the water increasing tank to carry out proportioning of different concentrations, so that the salinity of seawater can be accurately controlled;

(3) mixing and proportioning efficiency is high, simple and practical structure, long service life.

(4) The artificial seawater is prepared by automatic control of the continuous preparation process, on one hand, the requirement of on-site configuration can be met, on the other hand, the time required for preparing a large amount of artificial seawater can be shortened, and therefore the artificial seawater can meet the actual requirement.

Drawings

Fig. 1 is a schematic view of the main structure of the present invention.

Fig. 2 is a schematic structural view of the opening and closing unit in fig. 1.

Fig. 3 is a transverse cross-sectional view of fig. 2.

Fig. 4 is a schematic view of the structure of the circumferential mixing unit in fig. 1.

Fig. 5 is a schematic structural view of the circulating type mixing unit in fig. 1.

Fig. 6 is a schematic structural diagram of the longitudinal air intake type mixing unit in fig. 1.

Wherein, 1 box body, 2 salt outlet cavities, 3 water supply cavities, 4 opening and closing units, 5 discharging pipes, 6 water pumps, 7 circumferential mixing units, 8 circulating mixing units, 9 longitudinal air inlet type mixing units, 10 water increasing tanks, 11 salt increasing tanks, 12 feeding electromagnetic valves, 13 cylinder bodies, 14 top covers, 15 driving motors, 16 rotating rods, 17 sector plates, 18 arc-shaped mixing plates, 19 turbulence rods, 23 balancing weights, 24 supporting rods 71 circumferential mixing tanks, 72 circumferential mixing motors, 73 circumferential mixing plates, 74 upper arc-shaped grooves, 75 circumferential mixing shafts, 76 circumferential mixing shaft gears, 77 first salinity sensors, 78 first discharging electromagnetic valves, 81 outer cylinders, 82 inner cylinders, 83 helical blades 84 upper feeding pipes 85 lower feeding pipes, 86 circulating mixing motors, 87 helical shafts, 88 second salinity sensors, 89 second discharging electromagnetic valves 91 longitudinal mixing tanks, 93 horizontal air inlet pipes, 94 lifting stirring pipes 95 truncated cone-shaped rotating bodies, 96 longitudinal mixing motors, 97 fixing rods, 98 third salinity sensors and 99 third discharge electromagnetic valves.

Detailed Description

The invention will be further described with reference to specific embodiments, and the advantages and features of the invention will become apparent as the description proceeds. These examples are illustrative only and do not limit the scope of the present invention in any way. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention, and that such changes and substitutions are intended to be within the scope of the invention.

Referring to fig. 1 to 6, the invention relates to a multi-stage salinity intelligent hybrid batching device, which comprises a box body 1, wherein the box body 1 is integrally formed, a salt outlet cavity 2, a water supply cavity 3 and an opening and closing unit 4 arranged between the salt outlet cavity 2 and the water supply cavity 3 are formed in the box body 1, the salt outlet cavity 2 and the water supply cavity 3 are mutually independent, and discharging is carried out under the action of the opening and closing unit 4; the bottom of opening and close unit 4 is provided with the discharge gate, and this discharge gate department sets up discharging pipe 5 on have set gradually water pump 6, circumference compounding unit 7, circulating compounding unit 8 and vertical air inlet formula compounding unit 9, still include one and increase water tank 10 and salt tank 11, circumference compounding unit 7, circulating compounding unit 8 and vertical air inlet formula compounding unit 9 all through feeding solenoid valve 12 respectively with increase water tank 10 and salt tank 11 intercommunication, opening and close unit 4, water pump 6, circumference compounding unit 7, circulating compounding unit 8, vertical air inlet formula compounding unit 9 and feeding solenoid valve 12 all insert the control box.

The opening and closing unit 4 comprises a cylinder body 13 arranged between a salt outlet cavity 2 and a water supply cavity 3, a salt outlet hole communicated with the salt outlet cavity 2 and a water outlet hole communicated with the water supply cavity 3 are formed in the side wall of the cylinder body 13, a top cover 14 is arranged at the top of the cylinder body 13, a driving motor 15 is installed on the top cover 14, a rotating rod 16 is installed in the cylinder body 13, the upper end of the rotating rod 16 is in transmission connection with a motor shaft of the driving motor 15, a sector plate 17 is installed at the lower end of the rotating rod, and the sector plate 17 is in movable fit with the salt outlet hole and the water outlet hole to open and close the salt outlet hole and the water outlet hole; when the arc-shaped surface of the fan-shaped plate 17 is attached to the salt outlet hole and the water outlet hole, the fan-shaped plate 17 closes the salt outlet hole and the water outlet hole; when the arc-shaped surface of the fan-shaped plate 17 is far away from the salt outlet hole and the water outlet hole, the fan-shaped plate 17 opens the salt outlet hole and the water outlet hole; the discharge port is formed at the bottom of the cylinder 13.

The circumferential mixing unit 7 comprises a circumferential mixing box 71, a circumferential mixing motor 72 and circumferential mixing discs 73, wherein the circumferential mixing box 71 is internally and rotatably provided with two circumferential mixing discs 73, a space is formed between the two circumferential mixing discs 73, the rotating directions of the two circumferential mixing discs are opposite, the upper surface of each circumferential mixing disc 73 is provided with a plurality of upper arc-shaped grooves 74, and the side part of each circumferential mixing disc 73 is provided with a side spiral groove 79; each circumferential mixing disc 73 is arranged on the circumferential mixing box 71 through a circumferential mixing shaft 75, and the circumferential mixing shaft 75 is in running fit with the circumferential mixing box 71; the outer end of one circumferential mixing shaft 75 is in transmission connection with the circumferential mixing motor 72, and circumferential mixing shaft gears 76 which are meshed with each other are arranged on the two circumferential mixing shafts 75; and a first salinity sensor 77 and a first discharging electromagnetic valve 78 which are connected with the control box are arranged on the circumferential mixing box 71.

The circulating type mixing unit 8 comprises an outer barrel 81, an inner barrel 82, a helical blade 83, an upper feeding pipe 84, a lower feeding pipe 85, a circulating mixing motor 86 and a helical shaft 87, wherein the inner barrel 82 is arranged inside the outer barrel 81 and is coaxially arranged with the outer barrel 81, and a plurality of flow guide holes communicated with the outer barrel 81 are formed in the inner barrel 82; a circulating mixing motor 86 is arranged outside the outer barrel 81, the lower end of the spiral shaft 87 extends to the inside of the inner barrel 82, the upper end of the spiral shaft 87 is in transmission connection with a motor shaft of the circulating mixing motor 86, a spiral blade 83 is arranged on the spiral shaft 87, and the upper feeding pipe 84 is positioned at the upper part of the inner barrel 82 and extends to the inside of the inner barrel 82; the lower feeding pipe 85 is positioned at the bottom inside the outer barrel 81 and extends into a cavity between the inner barrel 81 and the inner barrel 82; the upper feeding pipe 84 and the lower feeding pipe 85 are both communicated with the discharging pipe 5; the outer barrel 81 is provided with a second salinity sensor 88 and a second discharging electromagnetic valve 89 which are connected with the control box.

An arc-shaped material stirring plate 18 is installed at the lower end of the spiral shaft 87, and a plurality of turbulence rods 19 which are perpendicular to the arc-shaped material stirring plate 18 are arranged in the arc-shaped material stirring plate 18.

The longitudinal air inlet type mixing unit 9 comprises a longitudinal mixing box 91, a lifting stirring pipe 94 and a circular truncated cone-shaped rotating body 95, wherein a longitudinal mixing motor 96 is installed at the top of the longitudinal mixing box 91, and the circular truncated cone-shaped rotating body 95 is located inside the longitudinal mixing box 91, is arranged along the horizontal direction and is fixedly installed at the lower end of a fixing rod 97; the upper end of the fixed rod 97 is connected with a motor shaft of the longitudinal mixing motor 96 in a transmission way and is driven by the longitudinal mixing motor 96; an elliptical track groove 21 is formed in the outer surface of the circular truncated cone-shaped rotating body 95, the elliptical track groove is formed in the side surface of the circular truncated cone-shaped rotating body, one major axis vertex of the elliptical track groove 21 is close to the diameter-expanded end of the circular truncated cone-shaped rotating body 95, and the other major axis vertex is close to the diameter-reduced end of the circular truncated cone-shaped rotating body 95; the lifting stirring pipe 94 is arranged along the vertical direction, one side of the upper end of the lifting stirring pipe 94 is provided with a roller 22, the roller 22 is matched with the oval track groove 21 in a rolling way, and rolls in the oval track groove 21 along with the rotation of the circular truncated cone-shaped rotating body 95; a counterweight 23 is mounted at the lower end of the lifting stirring pipe 94; and a third salinity sensor 98 and a third discharging electromagnetic valve 99 which are connected with the control box are arranged on the longitudinal mixing box 91.

A horizontal air inlet pipe 93 is further installed in the longitudinal mixing box 91, and the horizontal air inlet pipe 93 is located at the bottom of the longitudinal mixing box 91 and is communicated with an air pump 92 located outside the longitudinal mixing box 91.

A plurality of support rods 24 with different lengths are arranged outside the lifting stirring pipe 94, and all the support rods 24 are integrally arranged along the vertical direction of the lifting stirring pipe 94.

The working principle of the invention is as follows: when seawater preparation is needed, the fan-shaped plate 17 is driven to rotate by the driving motor 15 of the opening and closing unit 4, and when the arc-shaped surface of the fan-shaped plate 17 is attached to the salt outlet hole and the water outlet hole, the fan-shaped plate 17 closes the salt outlet hole and the water outlet hole; when the arc-shaped surface of the fan-shaped plate 17 is far away from the salt outlet hole and the water outlet hole, the fan-shaped plate 17 opens the salt outlet hole and the water outlet hole; when the fan-shaped plate 17 is used for discharging the salt holes and the water outlet holes, the salt holes and the water outlet holes are discharged at a preset speed, then are mixed, and then enter the circumferential mixing unit 7 after the mixing is finished, so that the concentration is prepared in the circumferential mixing unit, and the salt holes and the water outlet holes are discharged according to the requirement; the quick mixing of the salt and the water is completed by utilizing the side spiral groove 79 and the upper arc-shaped groove 74, and when the concentration needs to be changed, the concentration can be adjusted from the water increasing tank 10 and the salt increasing tank 11 by controlling the feeding electromagnetic valve 12 through the control box; when the brine enters the circulating type mixing unit 8, secondary mixing of the brine and the water is completed by utilizing an upper feeding pipe 84 and a lower feeding pipe 85 which are arranged up and down and matching with the rotation of the helical blades 83, and the brine is discharged according to the requirement; when the concentration needs to be changed, the control box can control the feeding electromagnetic valve 12 to complete the adjustment of the concentration from the water increasing box 10 and the salt increasing box 11; when the salt and water enters the longitudinal air inlet type mixing unit 9, the roller 22 on the circular truncated cone-shaped rotating body 95 is driven to roll in the oval track groove 21 by the rotation of the circular truncated cone-shaped rotating body, so that the up-and-down stirring of the lifting stirring pipe 94 is realized, the salt and the water are fully mixed, the salt and the water are mixed again, and the salt and the water are discharged according to the requirement; when the concentration needs to be changed, the control box can control the feeding electromagnetic valve 12 to complete the concentration adjustment from the water increasing box 10 and the salt increasing box 11. Blowing air into the brine is achieved by an air pump 92 and a horizontal air inlet pipe 93.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The multistage salinity intelligent hybrid batching device comprises a box body (1) and is characterized in that the box body (1) is integrally formed, a salt outlet cavity (2), a water supply cavity (3) and an opening and closing unit (4) arranged between the salt outlet cavity (2) and the water supply cavity (3) are formed in the box body (1), the salt outlet cavity (2) and the water supply cavity (3) are mutually independent, and discharging is carried out under the action of the opening and closing unit (4); the bottom of opening and close unit (4) is provided with the discharge gate, and this discharge gate department sets up discharging pipe (5) on set gradually water pump (6), circumference compounding unit (7), circulating compounding unit (8) and vertical formula compounding unit (9) of admitting air still include one increase water tank (10) and increase salt case (11), circumference compounding unit (7), circulating compounding unit 8 and vertical formula compounding unit (9) of admitting air all through feeding solenoid valve (12) respectively with increase water tank (10) and increase salt case (11) intercommunication, open and close unit (4), water pump (6), circumference compounding unit (7), circulating compounding unit (8), vertical formula compounding unit (9) of admitting air and feeding solenoid valve and all insert the control box.

2. The multi-stage salinity intelligent hybrid dosing device according to claim 1, wherein the opening and closing unit (4) comprises a barrel (13) arranged between the salt outlet chamber (2) and the water supply chamber (3), a salt outlet communicated with the salt outlet chamber 2 and a water outlet communicated with the water supply chamber (3) are arranged on the side wall of the barrel (13), a top cover (14) is arranged on the top of the barrel (13), a driving motor (15) is mounted on the top cover (14), a rotating rod (16) is mounted in the barrel (13), the upper end of the rotating rod (16) is in transmission connection with a motor shaft of the driving motor (15), and the lower end of the rotating rod is provided with a sector plate (17), the sector plate (17) is in movable fit with the salt outlet and the water outlet to open and close the salt outlet and the water outlet; when the arc-shaped surface of the fan-shaped plate (17) is attached to the salt outlet hole and the water outlet hole, the fan-shaped plate (17) closes the salt outlet hole and the water outlet hole; when the arc-shaped surface of the fan-shaped plate (17) is far away from the salt outlet hole and the water outlet hole, the fan-shaped plate (17) opens the salt outlet hole and the water outlet hole; the discharge hole is formed at the bottom of the cylinder body (13).

3. The intelligent multi-salinity hybrid dosing device according to claim 1, wherein the circumferential mixing unit (7) comprises a circumferential mixing box (71), a circumferential mixing motor (72) and circumferential mixing discs (73), two circumferential mixing discs (73) are rotatably mounted in the circumferential mixing box (71), a space is formed between the two circumferential mixing discs (73), the rotating directions of the two circumferential mixing discs are opposite, a plurality of upper arc-shaped grooves (74) are formed in the upper surface of each circumferential mixing disc (73), and side spiral grooves (79) are formed in the side parts of the upper arc-shaped grooves; each circumferential mixing disc (73) is arranged on the circumferential mixing box (71) through a circumferential mixing shaft (75), and the circumferential mixing shaft (75) is in running fit with the circumferential mixing box (71); the outer end of one circumferential mixing shaft (75) is in transmission connection with the circumferential mixing motor (72), and circumferential mixing shaft gears (76) which are meshed with each other are mounted on the two circumferential mixing shafts (75); and a first salinity sensor (77) and a first discharging electromagnetic valve (78) which are connected with the control box are arranged on the circumferential mixing box (71).

4. The intelligent multi-salinity hybrid compounding device according to claim 1, wherein the circulating mixing unit 8 comprises an outer barrel (81), an inner barrel (82), a helical blade (83), an upper feeding pipe (84), a lower feeding pipe (85), a circulating mixing motor (86) and a helical shaft (87), the inner barrel (82) is installed inside the outer barrel (81) and is coaxially arranged with the outer barrel (81), and a plurality of diversion holes communicated with the outer barrel (81) are formed in the inner barrel (82); a circulating mixing motor (86) is arranged outside the outer barrel (81), the lower end of the spiral shaft (87) extends to the inside of the inner barrel (82), the upper end of the spiral shaft is in transmission connection with a motor shaft of the circulating mixing motor (86), a spiral blade (83) is arranged on the spiral shaft (87), and the upper feeding pipe (84) is positioned at the upper part of the inner barrel (82) and extends to the inside of the inner barrel (82); the lower feeding pipe (85) is positioned at the bottom in the outer barrel (81) and extends into a cavity between the inner barrel (81) and the inner barrel (82); the upper feeding pipe (84) and the lower feeding pipe (85) are communicated with the discharging pipe (5); and a second salinity sensor (88) and a second discharging electromagnetic valve (89) which are connected with the control box are arranged on the outer barrel (81).

5. The intelligent multi-salinity mixing type batching device according to claim 4, wherein an arc-shaped stirring plate (18) is installed at the lower end of the spiral shaft (87), and a plurality of turbulence rods (19) which are perpendicular to the arc-shaped stirring plate (18) are arranged inside the arc-shaped stirring plate (18).

6. The intelligent multi-stage salinity hybrid dosing unit according to claim 4 or 5, wherein the longitudinal air intake type mixing unit (9) comprises a longitudinal mixing tank (91), a lifting stirring pipe (94) and a truncated cone-shaped rotating body (95), a longitudinal mixing motor (96) is installed at the top of the longitudinal mixing tank (91), and the truncated cone-shaped rotating body (95) is located inside the longitudinal mixing tank (91), is arranged horizontally and is fixedly installed at the lower end of a fixing rod (97); the upper end of the fixed rod (97) is connected with a motor shaft of the longitudinal mixing motor (96) in a transmission way and is driven by the longitudinal mixing motor (96); an oval track groove (21) is formed in the outer surface of the circular truncated cone-shaped rotating body (95), the oval track groove (21) is formed in the side surface of the circular truncated cone-shaped rotating body (95), one long axis vertex of the oval track groove (21) is close to the diameter expansion end of the circular truncated cone-shaped rotating body (95), and the other long axis vertex is close to the diameter reduction end of the circular truncated cone-shaped rotating body (95); the lifting stirring pipe (94) is arranged along the vertical direction, one side of the upper end of the lifting stirring pipe (94) is provided with a roller (22), the roller (22) is in rolling fit with the oval track groove (21) and rolls in the oval track groove (21) along with the rotation of the circular truncated cone-shaped rotating body (95); a balancing weight (23) is arranged at the lower end of the lifting stirring pipe (94); and a third salinity sensor (98) and a third discharging electromagnetic valve (99) which are connected with the control box are arranged on the longitudinal mixing box (91).

7. The multi-stage salinity intelligent hybrid compounding device according to claim 6, wherein, a horizontal air inlet pipe (93) is further installed inside the longitudinal mixing box (91), and the horizontal air inlet pipe (93) is located at the bottom of the longitudinal mixing box (91) and is communicated with an air pump (92) located outside the longitudinal mixing box (91).

8. The intelligent multi-salinity hybrid compounding device according to claim 7, wherein a plurality of struts (4) with different lengths are arranged outside the lifting stirring pipe (94), and all the struts (24) are integrally arranged in the vertical direction of the lifting stirring pipe (94).