CN108793117B - Device for preparing sodium aluminum dihydrogen phosphate micro-binder - Google Patents

Abstract

The invention discloses a device for preparing a sodium aluminum dihydrogen phosphate micro-binder, which comprises a base, a brakable roller is arranged below the base, the number of the rollers capable of braking is four, the hydraulic rod is arranged on the outer side of the roller capable of braking, the first metal shell, the oil pump and the second metal shell are arranged above the base, the first metal shell is positioned at one side of the oil pump, the second metal shell is positioned at the other side of the oil pump, the two sides of the lower end surface of the first metal shell are provided with four supporting legs, the lower end surface of each supporting leg is provided with a rubber sucker, a first motor protective shell is arranged on one side of the first metal shell, a supporting seat is arranged on the outer side of the first motor protective shell, the internally mounted of first motor protecting sheathing has first motor, aluminium hydroxide entry, water entry and phosphoric acid entry are installed to first metal casing's top. The method is simple to operate, and is stable to preparation of the sodium aluminum dihydrogen phosphate micro-binder.

Description

Device for preparing sodium aluminum dihydrogen phosphate micro-binder

Technical Field

The invention relates to the technical field of preparation of a sodium aluminum dihydrogen phosphate micro-binder, in particular to a device for preparing the sodium aluminum dihydrogen phosphate micro-binder.

Background

Along with the rapid development of social economy, the application of the sodium aluminum dihydrogen phosphate micro-binder is more and more extensive, the so-called sodium aluminum dihydrogen phosphate micro-binder can be cured at normal temperature or at a temperature which is not too high, after the product is molded, the product can be used without special high-temperature sintering, additives such as aggregate and reinforcing materials can be added to adjust and improve the performance of the product so as to meet the requirements of various applications, the product can be vitrified due to high-temperature action in the heating process, and has high-temperature resistance, the fire-resistant temperature of the product can reach about 1500-.

However, the existing device has few devices for preparing the sodium aluminum dihydrogen phosphate micro-binder; therefore, the existing requirements are not met, and an apparatus for preparing the sodium aluminum dihydrogen phosphate micro-binder is provided for the purpose.

Disclosure of Invention

The invention aims to provide a device for preparing sodium aluminum dihydrogen phosphate micro-binder, which solves the problems that the prior device proposed in the background art rarely has a device for preparing the sodium aluminum dihydrogen phosphate micro-binder and the like.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a little binder preparation of aluminium dihydrogen phosphate sodium is with device, includes the base, the gyro wheel that can stop is installed to the below of base, and the gyro wheel that can stop has four, the hydraulic stem is installed in the outside of the gyro wheel that can stop, first metal casing, oil pump and second metal casing are installed to the top of base, first metal casing is located one side of oil pump, second metal casing is located the opposite side of oil pump, the supporting legs is installed to the both sides of terminal surface under the first metal casing, and the supporting legs has four, rubber suction cup is installed to the lower terminal surface of supporting legs, first motor protecting sheathing is installed to one side of first metal casing, the supporting seat is installed in the outside of first motor protecting sheathing, the internally mounted of first motor protecting sheathing has first motor, aluminium hydroxide entry, water entry and phosphoric acid entry are installed to the top of first metal casing, aluminium hydroxide entry is located one side of water entry, the phosphoric acid entry is located the opposite side of water entry, the export of the little binder of aluminium dihydrogen phosphate is installed to the centre of terminal surface under the first metal casing, the internally mounted of the export of the little binder of aluminium dihydrogen phosphate has second valve, the clock and watch is installed to first metal casing's preceding terminal surface, motor shift knob, oil pump shift knob and power source are installed to first metal casing's rear end face, motor shift knob is located oil pump shift knob's top, power source is located oil pump shift knob's below, first metal casing passes through second pipe connection with second metal casing, the internally mounted of second pipe has third valve, second motor protecting sheathing, sodium phosphate solution entry and exquisite aluminium hydroxide entry are installed to second metal casing's up end, sodium phosphate solution entry is located one side of second motor protecting sheathing, exquisite aluminium hydroxide entry is located second motor protecting sheathing's opposite side, the internally mounted of second motor protecting sheathing has second motor, the heated warehouses is installed to second metal casing's one side, the internally mounted of heated warehouses has the heating pipe, and the heating pipe has two, second metal casing's opposite side is installed and is removed the exquisite diluted phosphoric acid entry and the radiator of arsenic, the top that the exquisite diluted phosphoric acid entry that has removed arsenic is located the radiator, the support column is installed to second metal casing's bottom, and the support column has four.

Preferably, the bottom of the heating pipe is provided with a bottom plate, and the bottom of the bottom plate is provided with a stud.

Preferably, the heat sink is provided with cooling fins inside.

Preferably, first metal casing's inside is provided with aluminium dihydrogen phosphate colloid and generates the storehouse, the inner wall that aluminium dihydrogen phosphate colloid generated the storehouse is provided with the heating wire, and the heating wire has two, first baffle is installed to the below of heating wire, first pipeline is installed to the bottom surface of first baffle, the internally mounted of first pipeline has first valve, the carousel is installed to one side of first valve, first pipeline's below is provided with the little binder of aluminium dihydrogen phosphate and generates the storehouse, the internally mounted in the little binder of aluminium dihydrogen phosphate generates the storehouse has first pivot, the surface mounting of first pivot has first stirring leaf.

Preferably, the internally mounted of second metal casing has conductive silica gel piece, second metal casing's inboard is provided with the aluminium sodium phosphate and generates the storehouse, the internally mounted in aluminium sodium phosphate generation storehouse has second pivot, the surface mounting of second pivot has second stirring leaf, second stirring leaf has six, the third baffle is installed to the below in aluminium sodium phosphate generation storehouse, the below of third baffle is provided with the cooling storehouse, second baffle is installed to the below in cooling storehouse, the below of second baffle is provided with the filtration storehouse, the filter is installed to the below in filtration storehouse, the below of filter is provided with the aluminium sodium phosphate particle and deposits the storehouse, the closing plate is all installed to one side of filter, second baffle and third baffle, the handle is drawn in the preceding terminal surface installation of closing plate.

Preferably, the upper end surface of the rubber sucker is completely attached to the lower end surface of the supporting leg, and the supporting leg is connected with the rubber sucker through a buckle.

Preferably, the one end of second pipeline extends to the inside of first metal casing, the other end of second pipeline extends to the inside of second metal casing, first metal casing passes through female connection with second pipeline, second metal casing passes through female connection with second pipeline.

Preferably, the valve B is in threaded connection with the sodium aluminum dihydrogen phosphate micro-binder outlet, and a raw material belt is wound at the connection part.

Preferably, one end of the rotary disc extends to the inside of the valve A, and the valve A is connected with the rotary disc through an internal thread.

Preferably, one end of the second stirring blade extends to the inside of the second rotating shaft, and the second stirring blade is connected with the second rotating shaft through a screw.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, aluminum hydroxide is added into the aluminum dihydrogen phosphate colloid generation bin through the aluminum hydroxide inlet, water is added into the aluminum dihydrogen phosphate colloid generation bin through the water inlet, phosphoric acid is added into the aluminum dihydrogen phosphate colloid generation bin through the phosphoric acid inlet, heating is carried out through the electric heating wire, aluminum dihydrogen phosphate colloid is favorably generated in the aluminum dihydrogen phosphate colloid generation bin, and the outflow of products in the aluminum dihydrogen phosphate colloid generation bin is favorably controlled through the A valve;

2. the invention adds the refined aluminum hydroxide into the sodium aluminum phosphate generation bin through the installation of the refined aluminum hydroxide inlet, adding sodium phosphate solution into the sodium aluminum phosphate generation bin through a sodium phosphate solution inlet, adding arsenic-removed refined dilute phosphoric acid into the sodium aluminum phosphate generation bin through an arsenic-removed refined dilute phosphoric acid inlet, the second motor drives the second rotating shaft to rotate so as to drive the second stirring blade to rotate, the reaction of reactants in the sodium aluminum phosphate generation bin is improved, by installing the heating pipe and the conductive silica gel sheet, the conductive silica gel sheet guides the heat generated by the heating pipe into the sodium aluminum phosphate generation bin, the reaction rate in the sodium aluminum phosphate generation bin is improved, the cooling device is provided with a radiator to facilitate the cooling of the product in the sodium aluminum phosphate generation bin, and a filter plate to facilitate the filtration of the cooling liquid in the cooling bin;

3. the first rotating shaft is driven to rotate by the operation of the first motor so as to drive the first stirring blades to rotate, so that the reaction between a product from the aluminum dihydrogen phosphate colloid generation bin and a substance from the sodium aluminum phosphate particle storage bin is favorably improved, and the generation efficiency of the sodium aluminum dihydrogen phosphate micro-binder is improved;

4. according to the invention, the sealing plates are arranged on one sides of the filter plate, the second partition plate and the third partition plate, and the lifting handle is arranged on the front end surface of the sealing plate, so that the filter plate, the second partition plate and the third partition plate can be lifted, the liquid in each part can flow out conveniently, and the preparation of the sodium aluminum dihydrogen phosphate micro-binder is promoted;

5. the hydraulic rod and the braking roller are arranged, so that the device is favorable for moving and fixing.

Drawings

FIG. 1 is a schematic view of the internal structure of the whole body of the present invention;

FIG. 2 is a front view of the present invention in its entirety;

FIG. 3 is a rear elevational view of the invention as a whole;

FIG. 4 is a schematic view of a partial structure of a heating tube according to the present invention;

fig. 5 is a partial structural schematic view of the heat sink of the present invention.

In the figure: 1. a hydraulic lever; 2. a roller capable of braking; 3. a base; 4. a rubber suction cup; 5. supporting legs; 6. a supporting seat; 7. a motor protective housing; 8. a motor B; 9. a first motor; 10. a heat sink; 11. a first metal housing; 12. an aluminum hydroxide inlet; 13. a water inlet; 14. a phosphoric acid inlet; 15. an aluminum dihydrogen phosphate colloid generation bin; 16. an electric heating wire; 17. a base plate; 18. a first separator plate; 19. a pipeline A; 20. a first valve; 21. a sodium aluminum dihydrogen phosphate micro-binder generation bin; 22. a first rotating shaft; 23. stirring leaves A; 24. an outlet of the sodium aluminum dihydrogen phosphate micro-binder; 25. a valve B; 26. an oil pump; 27. a pipeline B; 28. a third valve; 29. a support pillar; 30. a stud; 31. a filter plate; 32. a filtering bin; 33. a sodium aluminum phosphate particle storage bin; 34. a second partition plate; 35. a heat sink; 36. a cooling bin; 37. a third partition board; 38. an inlet for fine dilute phosphoric acid from which arsenic has been removed; 39. an aluminum sodium phosphate generation bin; 40. b, stirring leaves; 41. a rotating shaft B; 42. b, protecting the shell of the motor; 43. a sodium phosphate solution inlet; 44. an inlet of refined aluminum hydroxide; 45. a conductive silicone sheet; 46. heating a tube; 47. a heating chamber; 48. a shell of a second metal; 49. a turntable; 50. a timepiece; 51. a sealing plate; 52. lifting the handle; 53. a motor switch button; 54. an oil pump switch button; 55. and a power interface.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a device for preparing sodium aluminum dihydrogen phosphate micro-binder comprises a base 3, a brakeable roller 2 is arranged below the base 3, the number of the brakeable roller 2 is four, a hydraulic rod 1 is arranged on the outer side of the brakeable roller 2, the hydraulic rod 1 and the brakeable roller 2 are arranged to facilitate the movement and fixation of the device, a first metal shell 11, an oil pump 26 and a second metal shell 48 are arranged above the base 3, the first metal shell 11 is positioned on one side of the oil pump 26, the second metal shell 48 is positioned on the other side of the oil pump 26, supporting legs 5 are arranged on two sides of the lower end surface of the first metal shell 11, four supporting legs 5 are arranged, a rubber sucker 4 is arranged on the lower end surface of each supporting leg 5 to improve the fixation stability of the device, a first motor protective shell 7 is arranged on one side of the first metal shell 11, a supporting seat 6 is arranged on the outer side of the first motor protective shell, an aluminum hydroxide inlet 12, a water inlet 13 and a phosphoric acid inlet 14 are arranged above the first metal shell 11, the aluminum hydroxide inlet 12 is positioned at one side of the water inlet 13, the phosphoric acid inlet 14 is positioned at the other side of the water inlet 13, a sodium aluminum dihydrogen phosphate micro-binder outlet 24 is arranged in the middle of the lower end surface of the first metal shell 11, a second valve 25 is arranged inside the sodium aluminum dihydrogen phosphate micro-binder outlet 24, a clock 50 is arranged on the front end surface of the first metal shell 11 to facilitate control of reaction time, a motor switch button 53, an oil pump switch button 54 and a power interface 55 are arranged on the rear end surface of the first metal shell 11, the motor switch button 53 is positioned above the oil pump switch button 54, the power interface 55 is positioned below the oil pump switch button 54, the first metal shell 11 is connected with the second metal shell 48 through a second pipeline 27, a third valve 28 is arranged inside the second pipeline 27, and a second motor protective shell 42 is arranged on the upper end surface, The device comprises a sodium phosphate solution inlet 43 and a refined aluminum hydroxide inlet 44, wherein the sodium phosphate solution inlet 43 is positioned on one side of a protective shell 42 of a motor B, the refined aluminum hydroxide inlet 44 is positioned on the other side of the protective shell 42 of the motor B, a motor B8 is arranged inside the protective shell 42 of the motor B, a heating bin 47 is arranged on one side of the metal B shell 48, heating pipes 46 are arranged inside the heating bin 47, the number of the heating pipes 46 is two, a refined dilute phosphoric acid inlet 38 and a radiator 35 which remove arsenic are arranged on the other side of the metal B shell 48, the refined dilute phosphoric acid inlet 38 which removes arsenic is positioned above the radiator 35, supporting columns 29 are arranged at the bottom end of the metal B shell 48, and the number of the supporting columns 29 is four.

Further, the bottom end of the heating pipe 46 is provided with a bottom plate 17, and the bottom end of the bottom plate 17 is provided with a stud 30, so that the fixing stability is improved.

Further, the heat sink 35 is provided with the heat dissipating fins 10 therein, which is advantageous for heat dissipation.

Further, the inside of first metal casing 11 is provided with aluminium dihydrogen phosphate colloid and generates storehouse 15, the inner wall that aluminium dihydrogen phosphate colloid generates storehouse 15 is provided with heating wire 16, heating wire 16 has two, first baffle 18 is installed to the below of heating wire 16, first pipeline 19 is installed to the bottom surface of first baffle 18, the internally mounted of first pipeline 19 has first valve 20, carousel 49 is installed to one side of first valve 20, the below of first pipeline 19 is provided with the little binder of aluminium dihydrogen phosphate and generates storehouse 21, the internally mounted of the little binder of aluminium dihydrogen phosphate generates storehouse 21 has first pivot 22, the surface mounting of first pivot 22 has first stirring leaf 23.

Further, the inside of the second metal shell 48 is provided with a conductive silica gel sheet 45, the inside of the second metal shell 48 is provided with an aluminum sodium phosphate generation bin 39, the inside of the aluminum sodium phosphate generation bin 39 is provided with a second rotating shaft 41, the outer surface of the second rotating shaft 41 is provided with six second stirring blades 40, the six second stirring blades 40 are provided, a third partition plate 37 is arranged below the aluminum sodium phosphate generation bin 39, a cooling bin 36 is arranged below the third partition plate 37, a second partition plate 34 is arranged below the cooling bin 36, a filtering bin 32 is arranged below the second partition plate 34, a filtering plate 31 is arranged below the filtering bin 32, an aluminum sodium phosphate particle storage bin 33 is arranged below the filtering plate 31, sealing plates 51 are arranged on one sides of the filtering plate 31, the second partition plate 34 and the third partition plate 37, and a lifting handle 52 is arranged on the front end faces of the sealing plates 51.

Further, the upper end face of the rubber sucker 4 is completely attached to the lower end face of the supporting leg 5, and the supporting leg 5 is connected with the rubber sucker 4 through a buckle, so that the fixing stability is improved.

Further, the one end of second pipeline 27 extends to the inside of first metal casing 11, and the other end of second pipeline 27 extends to the inside of second metal casing 48, and first metal casing 11 passes through threaded connection with second pipeline 27, and second metal casing 48 passes through threaded connection with second pipeline 27, improves fixed stability.

Further, the valve B25 is connected with the sodium aluminum dihydrogen phosphate micro-binder outlet 24 through threads, and a raw material belt is wound at the joint, so that the connection tightness is improved.

Further, one end of the rotary disk 49 extends to the inside of the first valve 20, and the first valve 20 and the rotary disk 49 are connected through an internal thread.

Further, one end of the second stirring blade 40 extends to the inside of the second rotating shaft 41, and the second stirring blade 40 is connected with the second rotating shaft 41 through screws, so that the connection stability is improved.

The working principle is as follows: when in use, the power interface 55 is switched on, the motor switch button 53 and the oil pump switch button 54 are switched on, aluminum hydroxide is added into the aluminum dihydrogen phosphate colloid generation bin 15 through the aluminum hydroxide inlet 12, water is added into the aluminum dihydrogen phosphate colloid generation bin 15 through the water inlet 13, phosphoric acid is added into the aluminum dihydrogen phosphate colloid generation bin 15 through the phosphoric acid inlet 14, heating is carried out through the heating wire 16, aluminum dihydrogen phosphate colloid is favorably generated in the aluminum dihydrogen phosphate colloid generation bin 15, refined aluminum hydroxide is added into the aluminum sodium phosphate generation bin 39 through the refined aluminum hydroxide inlet 44, a sodium phosphate solution is added into the aluminum sodium phosphate generation bin 39 through the sodium phosphate solution inlet 43, arsenic-removed refined diluted phosphoric acid is added into the aluminum sodium phosphate generation bin 39 through the refined diluted phosphoric acid inlet 38, the ethylene motor 8 drives the rotation shaft 41 to rotate, and further drives the ethylene stirring blade 40 to rotate, through installing heating pipe 46 and conductive silica gel piece 45, conductive silica gel piece 45 is leading-in to the inside that sodium aluminium phosphate generated storehouse 39 with the heat that heating pipe 46 produced, the reaction is ended, draw third baffle 37, the resultant gets into cooling chamber 36, be favorable to the cooling of resultant through installing radiator 35, draw second baffle 34, the coolant gets into filtration storehouse 32, be favorable to cooling the inside coolant liquid of storehouse 36 to filter through installing filter 31, through opening third valve 28, the inside resultant of sodium aluminium phosphate particle storage storehouse 33 gets into the inside that the little binder of sodium aluminium dihydrogen phosphate produced storehouse 21 through second pipeline 27, open first valve 20, the inside resultant of aluminium dihydrogen phosphate colloid production storehouse 15 gets into inside the little binder of sodium aluminium dihydrogen phosphate produces storehouse 21, the rotation that drives first pivot 22 through the work of first motor 9 drives the rotation of first stirring leaf 23, be favorable to improving the resultant that comes from aluminium dihydrogen phosphate colloid production storehouse 15 and come from the rotation of sodium aluminium phosphate particle storage storehouse 23 The reaction of the material in storehouse 33, and then improve the production efficiency of the little binder of aluminium sodium dihydrogen phosphate, the reaction is ended, opens second valve 25, and final resultant goes out of the storehouse through the little binder export 24 of aluminium sodium dihydrogen phosphate, through installing hydraulic stem 1 and the gyro wheel 2 that can stop, is favorable to the removal and the fixing of device.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a little binder preparation of sodium aluminium dihydrogen phosphate is with device, includes base (3), its characterized in that: the utility model discloses a brake device of a motor vehicle, including base (3), gyro wheel (2) of can stopping are installed to the below of base (3), and gyro wheel (2) of can stopping have four, hydraulic stem (1) are installed in the outside of gyro wheel (2) of can stopping, first metal casing (11), oil pump (26) and second metal casing (48) are installed to the top of base (3), first metal casing (11) are located one side of oil pump (26), second metal casing (48) are located the opposite side of oil pump (26), supporting legs (5) are installed to the both sides of terminal surface under first metal casing (11), supporting legs (5) have four, rubber suction cup (4) are installed to the lower terminal surface of supporting legs (5), first motor protecting sheathing (7) are installed to one side of first metal casing (11), supporting seat (6) are installed in the outside of first motor protecting sheathing (7), the internally mounted of first motor protecting sheathing (7) has first motor (9), the top of first metal casing (11) is installed aluminium hydroxide entry (12), water inlet (13) and phosphoric acid entry (14), aluminium hydroxide entry (12) are located one side of water inlet (13), phosphoric acid entry (14) are located the opposite side of water inlet (13), first metal casing (11) are down the centre of terminal surface and are installed aluminium sodium dihydrogen phosphate and glue export (24) a little, the internally mounted of aluminium sodium dihydrogen phosphate glues export (24) a little has second valve (25), clock and watch (50) are installed to the preceding terminal surface of first metal casing (11), motor shift knob (53), oil pump shift knob (54) and power source (55) are installed to the rear end face of first metal casing (11), motor shift knob (53) are located the top of oil pump shift knob (54), power source (55) are located the below of oil pump shift knob (54), first metal casing (11) is connected through second pipeline (27) with second metal casing (48), the internally mounted of second pipeline (27) has third valve (28), second motor protecting sheathing (42), sodium phosphate solution entry (43) and exquisite aluminium hydroxide entry (44) are installed to the up end of second metal casing (48), sodium phosphate solution entry (43) are located one side of second motor protecting sheathing (42), exquisite aluminium hydroxide entry (44) are located the opposite side of second motor protecting sheathing (42), the internally mounted of second motor protecting sheathing (42) has second motor (8), heating chamber (47) is installed to one side of second metal casing (48), the internally mounted of heating chamber (47) has heating pipe (46), heating pipe (46) have two, the exquisite diluted phosphoric acid entry (38) and radiator (35) that have removed arsenic are installed to the opposite side of second metal casing (48), the fine dilute phosphoric acid inlet (38) with arsenic removed is positioned above the radiator (35), the bottom end of the metal shell (48) is provided with four support columns (29), and the number of the support columns (29) is four.

2. The apparatus for preparing a sodium aluminum dihydrogen phosphate micro binder according to claim 1, wherein: the bottom end of the heating pipe (46) is provided with a bottom plate (17), and the bottom end of the bottom plate (17) is provided with a stud (30).

3. The apparatus for preparing a sodium aluminum dihydrogen phosphate micro binder according to claim 1, wherein: the radiator (35) is internally provided with radiating fins (10).

4. The apparatus for preparing a sodium aluminum dihydrogen phosphate micro binder according to claim 1, wherein: the inside of first metal casing (11) is provided with the aluminium dihydrogen phosphate colloid and generates storehouse (15), the inner wall that the aluminium dihydrogen phosphate colloid generates storehouse (15) is provided with heating wire (16), and heating wire (16) have two, first baffle (18) are installed to the below of heating wire (16), first pipeline (19) are installed to the bottom surface of first baffle (18), the internally mounted of first pipeline (19) has first valve (20), carousel (49) are installed to one side of first valve (20), the below of first pipeline (19) is provided with the little binder of aluminium dihydrogen phosphate and generates storehouse (21), the internally mounted that the little binder of aluminium dihydrogen phosphate generated storehouse (21) has first pivot (22), the surface mounting of first pivot (22) has first stirring leaf (23).

5. The apparatus for preparing a sodium aluminum dihydrogen phosphate micro binder according to claim 1, wherein: the inside mounting of second metal casing (48) has conductive silica gel piece (45), the inboard of second metal casing (48) is provided with aluminium sodium phosphate and generates storehouse (39), the internally mounted of aluminium sodium phosphate generation storehouse (39) has second pivot (41), the surface mounting of second pivot (41) has second stirring leaf (40), second stirring leaf (40) has six, third baffle (37) is installed to the below that aluminium sodium phosphate generated storehouse (39), the below of third baffle (37) is provided with cooling storehouse (36), second baffle (34) is installed to the below of cooling storehouse (36), the below of second baffle (34) is provided with filters storehouse (32), filter (31) is installed to the below of filtering storehouse (32), the below of filter (31) is provided with aluminium sodium phosphate particle storage storehouse (33), closing plate (51) are all installed to one side of filter (31), second baffle (34) and third baffle (37), a lifting handle (52) is mounted on the front end face of the sealing plate (51).

6. The apparatus for preparing a sodium aluminum dihydrogen phosphate micro binder according to claim 1, wherein: the upper end face of the rubber sucker (4) is completely attached to the lower end face of the supporting leg (5), and the supporting leg (5) is connected with the rubber sucker (4) through a buckle.

7. The apparatus for preparing a sodium aluminum dihydrogen phosphate micro binder according to claim 1, wherein: the one end of second pipeline (27) extends to the inside of first metal casing (11), the other end of second pipeline (27) extends to the inside of second metal casing (48), first metal casing (11) and second pipeline (27) pass through female connection, second metal casing (48) and second pipeline (27) pass through female connection.

8. The apparatus for preparing a sodium aluminum dihydrogen phosphate micro binder according to claim 1, wherein: the valve B (25) is in threaded connection with the sodium aluminum dihydrogen phosphate micro-binder outlet (24), and a raw material belt is wound at the connection position.

9. The apparatus for preparing the sodium aluminum dihydrogen phosphate micro-binder of claim 4, wherein: one end of the rotary disc (49) extends to the inside of the valve A (20), and the valve A (20) is connected with the rotary disc (49) through internal threads.

10. The apparatus for preparing the sodium aluminum dihydrogen phosphate micro-binder according to claim 5, wherein: one end of the second stirring blade (40) extends to the inside of the second rotating shaft (41), and the second stirring blade (40) is connected with the second rotating shaft (41) through a screw.

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