CN116899479A - Preparation process and preparation equipment of steel floor drain sealant - Google Patents

Abstract

The invention discloses a preparation process and preparation equipment of steel floor drain sealant, and relates to the technical field of floor drain sealing treatment. Steel floor drain sealant preparation equipment, including the blending tank, still include: the storage tanks are fixedly connected in the mixing tank, are provided with a plurality of groups and are circumferentially distributed on the mixing tank; the invention controls the water pressure in the third mounting pipe by adjusting the water stirring force and controlling the water pressure in the third mounting pipe by utilizing the centrifugal force, and controls the speed and force of water flow sprayed out of the third mounting pipe, so that the water mixed with raw materials is sprayed farther, the deionized water containing the raw materials is diffused in the mixing tank, the raw materials are distributed more uniformly, and the mixing effect is improved.

Description

Preparation process and preparation equipment of steel floor drain sealant

Technical Field

The invention belongs to the technical field of floor drain sealing treatment, and particularly relates to a preparation process and preparation equipment of steel floor drain sealant.

Background

The floor drain is a necessary drainage component of a bathroom, the bathroom generally has a requirement on water resistance, and for some floor drains, steel pipes are inserted on the concrete floor, and in order to avoid the situation that water flow enters into a gap between the steel pipes and the concrete when the steel pipes drain water, sealing glue is generally required to be adopted for sealing the gap.

The sealant has a sealing effect, generally, when the sealant is prepared, various raw materials are required, and then the various raw materials and deionized water are stirred and mixed, so that in the process of the preparation technology, mixing and preparing equipment is indispensable, as the raw materials, such as asphalt, natural resin or synthetic resin, natural rubber or synthetic rubber and other sticky materials, are required to be mixed, inert fillers, such as talcum powder, clay, carbon black, titanium dioxide, asbestos and the like, are matched, and added into the deionized water for mixing, the raw materials are generally stored in a storage tank, in addition, the raw materials stored in the storage tank are added into the mixing tank by adopting a simple stirring rod for simple stirring, and the stirring effect is required to be further improved.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects of the prior art and provides a preparation process and preparation equipment of steel floor drain sealant, which can overcome the problems or partially solve the problems.

In order to solve the technical problems, the invention adopts the basic conception of the technical scheme that:

steel floor drain sealant preparation equipment, including the blending tank, still include: the storage tanks are fixedly connected in the mixing tank, are provided with a plurality of groups and are circumferentially distributed on the mixing tank; the top of the storage tank is fixedly connected with a feeding pipe communicated with the inside of the storage tank, the feeding pipe extends to the top of the mixing tank, the feeding pipe is connected with a sealing cover in a threaded manner, and a sealing gasket is sleeved on the sealing cover; the first rotating shaft is rotatably connected to the storage tank, and a shifting plate is fixedly connected in the storage tank; the storage tank comprises a first metal outer wall and a first plastic inner wall.

To facilitate the feeding ofPreferably, the mixing tank further comprises a mounting box, two conveying pipes are respectively and fixedly connected to two sides of the mounting box, a first mounting plate is fixedly connected to the two conveying pipes, and the first mounting plate is fixedly connected with the mixing tank; the two conveying pipes are rotationally connected with augers, and spiral directions of spiral blades on the augers are opposite; an input port at the top of the conveying pipe is connected with a discharge port at the bottom of the storage tank; the mounting cover is fixedly connected to the bottom of the mounting box, and the bottom of the conveying pipe is fixedly connected with a discharging pipe communicated with the mounting cover; the first mounting tube is fixedly connected with a first mounting tube, a communication groove communicated with the discharge tube is formed in the first mounting tube, and the first mounting tube is rotationally connected with the mixing tank; the water delivery assembly is arranged on the first mounting plate and is used for delivering water into the first mounting pipe; the stirring assembly is arranged in the first installation tube and is used for stirring raw materials and water; the third installation pipes are fixedly connected to the two sides of the first installation pipe, and water spray holes are formed in the pipe walls of the third installation pipes; the driving part is arranged on the mounting box and used for driving the auger, the first rotating shaft and the first mounting pipe to rotate; the third installation tube is internally fixedly connected with a connecting plate, the connecting plate is fixedly connected with an installation rod, the installation rod is connected with a sleeve in a sliding manner, the installation rod is sleeved with a spring, two ends of the spring are respectively propped against the installation rod and the sleeve, and the outer wall of the sleeve is fixedly connected with a sealing rod for sealing the water spraying hole _。

In order to facilitate the rotation of the first rotating shaft, the packing auger and the first mounting pipe, preferably, the driving part comprises a double-output shaft motor fixedly connected in the mounting box, a first driving shaft at the bottom of the double-output shaft motor and the mounting shafts of the two sets of packing augers synchronously rotate through a bevel gear set, the first driving shaft is fixedly connected with the first mounting pipe, the top of the mounting box is fixedly connected with a gearbox, the input end of the gearbox is fixedly connected with a second driving shaft at the top of the double-output shaft motor, the output end of the gearbox is fixedly connected with a second rotating shaft, and the second rotating shaft and the two first rotating shafts synchronously rotate through a sprocket set.

In order to improve the mixing effect of raw materials and deionized water, preferably, the stirring subassembly includes the installation section of thick bamboo of fixed connection in first installation tube bottom, rotate on the installation section of thick bamboo and be connected with the second installation tube, the one end fixedly connected with puddler in the second installation tube extends to first installation tube.

In order to enable the second installation pipe to rotate, preferably, one end of the second installation pipe extending into the installation barrel is fixedly connected with a turbine blade, a water inlet hole is formed in the side wall of the second installation pipe located in the installation barrel, the water inlet hole is located above the turbine blade, a spray head is fixedly connected to the side wall of the second installation pipe, and the spray head sprays water to the inner wall of the discharge barrel through the communication groove.

In order to facilitate water delivery to the inside of the discharge cylinder, preferably, the water delivery assembly comprises a second mounting plate fixedly connected to the side wall of the first mounting plate, a piston cylinder is fixedly connected to the bottom of the second mounting plate, a piston plate is slidably connected to the piston cylinder, a crank is rotatably connected to the piston plate, an input end of the piston cylinder is fixedly connected with a water inlet pipe extending into deionized water, an output end of the piston cylinder is fixedly connected with a water outlet pipe, and one end of the water outlet pipe away from the piston cylinder is connected with the bottom of the mounting cylinder.

In order to prevent the water inlet pipe from being blocked, preferably, one end of the water inlet pipe extending into the deionized water is fixedly connected with a filter head.

In order to make the piston plate slide reciprocally, preferably, the bottom of the second mounting plate is rotationally connected with a third rotating shaft, the third rotating shaft and the discharge cylinder synchronously rotate through a straight gear set, a crankshaft is fixedly connected to the third rotating shaft, and the crankshaft is rotationally connected with one end of the crank away from the piston plate.

A preparation process of steel floor drain sealant is characterized in that the steel floor drain sealant is prepared by adopting steel floor drain sealant preparation equipment, a plurality of storage tanks are respectively filled with resin matrixes, polymers and inert fillers, and the storage tanks are opened to input raw materials into a mixing tank for stirring and mixing.

After the technical scheme is adopted, compared with the prior art, the invention has the following beneficial effects: according to the invention, the water in the mixing tank is stirred through the third mounting pipe, the size of the hole area of the water spraying hole is controlled by utilizing the centrifugal force, so that the water pressure in the third mounting pipe is controlled, the force of water sprayed out of the third mounting pipe is controlled, the water mixed with raw materials is sprayed farther, the diffusion of deionized water containing the raw materials in the mixing tank is improved, and the raw materials are distributed more uniformly.

Drawings

FIG. 1 is a schematic perspective view of a steel floor drain sealant preparing device according to the present invention;

fig. 2 is a schematic diagram of a perspective structure of an internal part of the steel floor drain sealant preparation device according to the present invention;

fig. 3 is a schematic diagram of a perspective structure of an internal part of the steel floor drain sealant preparation device according to the present invention;

FIG. 4 is a perspective cross-sectional view I of the internal components of the steel floor drain sealant preparation apparatus of the present invention;

FIG. 5 is a second perspective cross-sectional view of the internal components of the steel floor drain sealant preparation apparatus of the present invention;

FIG. 6 is a schematic diagram of an explosion structure of the internal components of the steel floor drain sealant preparation device according to the present invention;

FIG. 7 is a schematic view of the steel floor drain sealant preparing device shown in FIG. 6A;

FIG. 8 is a schematic view of the steel floor drain sealant preparing device of FIG. 6 at B;

fig. 9 is a schematic structural view of a mixing tank of the steel floor drain sealant preparation device provided by the invention;

fig. 10 is a schematic structural diagram of a storage tank of the steel floor drain sealant preparation device provided by the invention;

FIG. 11 is an exploded view of a mixing tank of the steel floor drain sealant preparation device according to the present invention;

FIG. 12 is an exploded view of a storage tank of the steel floor drain sealant preparation device according to the present invention;

fig. 13 is a cross-sectional view of a mixing tank of the steel floor drain sealant preparation apparatus according to the present invention.

In the figure: 100. a material conveying pipe; 101. an auger; 102. a discharge pipe; 103. a bevel gear set; 104. a first mounting plate; 105. a second mounting plate; 106. a mounting cover; 200. a storage tank; 201. a feed pipe; 202. sealing cover; 203. a sealing gasket; 204. a first rotating shaft; 205. a sprocket set; 206. a poking plate; 2011. a first metal outer wall; 2012. a first plastic inner wall; 300. a mounting box; 301. a double output shaft motor; 302. a gearbox; 303. a second rotating shaft; 400. a piston cylinder; 401. a piston plate; 402. a crank; 403. a third rotating shaft; 404. a crankshaft; 405. a spur gear set; 406. a drain pipe; 407. a water inlet pipe; 408. a filter head; 500. a discharge cylinder; 501. a first mounting tube; 502. a mounting cylinder; 503. a second mounting tube; 504. a communication groove; 505. a spray head; 506. a stirring rod; 507. a turbine blade; 508. a water inlet hole; 600. a third installation tube; 601. a connecting plate; 602. a mounting rod; 603. a spring; 604. a sleeve; 605. a sealing rod; 606. a water spraying hole; 700. a mixing tank; 701. a second metal outer wall; 702. a polyurethane heat insulation layer; 703. a second plastic inner wall; 704. a reflective coating; 800. a hard water pipe; 801. a water spray head; 802. and an electrically controlled valve.

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present invention, and the following embodiments are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

Embodiment one: referring to fig. 1 to 13, the steel floor drain sealant preparing apparatus includes a mixing tank 700, further including: the storage tanks 200 are fixedly connected in the mixing tank 700, and the storage tanks 200 are provided with a plurality of groups and are circumferentially distributed on the mixing tank 700; the top of the storage tank 200 is fixedly connected with a feeding pipe 201 communicated with the inside of the storage tank 200, the feeding pipe 201 extends to the top of the mixing tank 700, a sealing cover 202 is connected to the feeding pipe 201 in a threaded manner, and a sealing gasket 203 is sleeved on the sealing cover 202; the first rotating shaft 204 is rotatably connected to the storage tank 200, and a shifting plate 206 is fixedly connected to the first rotating shaft 204 in the storage tank 200; the storage tank 200 comprises a first metal outer wall 2011 and a first plastic inner wall 2012; the mixing tank 700 comprises a second metal outer wall 701, a polyurethane heat insulation layer 702 and a second plastic inner wall 703, wherein the polyurethane heat insulation layer 702 is arranged between the second metal outer wall 701 and the second plastic inner wall 703, and the second metal outer wall 701, the polyurethane heat insulation layer 702 and the second plastic are fixedly connected; the outer surface of the mixing tank 700 is coated with a reflective coating 704, and the mixing tank 700 is filled with a low-temperature liquid; the mixing tank further comprises a mounting box 300, two conveying pipes 100 are respectively and fixedly connected to two sides of the mounting box 300, a first mounting plate 104 is fixedly connected to the two conveying pipes 100, and the first mounting plate 104 is fixedly connected with the mixing tank 700; the two conveying pipes 100 are rotatably connected with augers 101, and spiral directions of spiral blades on the two augers 101 are opposite; an input port at the top of the conveying pipe 100 is connected with a discharge port at the bottom of the storage tank 200; the installation cover 106 is fixedly connected to the bottom of the installation box 300, and the discharge pipe 102 communicated with the installation cover 106 is fixedly connected to the bottom of the conveying pipe 100; the first installation pipe 501 is fixedly connected to the discharge barrel 500, a communication groove 504 communicated with the discharge barrel 500 is formed in the first installation pipe 501, and the first installation pipe 501 is rotationally connected with the mixing tank 700; a water supply assembly provided on the first mounting plate 104 for supplying water into the first mounting pipe 501; a stirring assembly disposed in the first installation pipe 501 for stirring raw materials and water; the third installation tube 600 fixedly connected to both sides of the first installation tube 501, and water spray holes 606 are formed in the wall of the third installation tube 600; a driving part provided on the installation box 300 for driving the packing auger 101 and the first rotation shaft 204 and the first installation pipe 501 to rotate; the third installation tube 600 internal fixation has connecting plate 601, fixedly connected with installation pole 602 on the connecting plate 601, sliding connection has sleeve 604 on the installation pole 602, and the cover has spring 603 on the installation pole 602, and the both ends of spring 603 offset with installation pole 602 and sleeve 604 respectively, fixedly connected with is used for shutoff hole for water spraying's sealed pole 605 on the outer wall of sleeve 604.

Referring to fig. 1-10, the reflective coating 704 is used for reflecting sunlight or other light, reducing heat transferred from the sunlight or other light to the second metal outer wall 701, the polyurethane thermal insulation layer 702 is used for reducing heat transferred from the second metal outer wall 701 to the second plastic inner wall 703, keeping low temperature of low temperature liquid, the first metal outer wall 2011 is used for protecting the first plastic inner wall 2012 from expansion and rupture, the first plastic inner wall 2012 is used for preventing raw materials from corroding the storage tank 200, the metal outer wall is made of stainless steel, the reflective coating 704 can be made of composite silicate coating, the plastic inner wall can be replaced by a glass inner wall, the low temperature liquid can be oil, and the low temperature liquid can be stored, so that the interior of the mixing tank 700 is kept vacuum.

Referring to fig. 1 to 9, the first rotation shaft 204 is rotated by the driving part and the packing auger 101 is rotated, the first rotation shaft 204 rotates the pulling plate 206, the pulling plate 206 rolls the raw materials in the storage tank 200, the powder raw materials at the bottom of the storage tank 200 are prevented from being compacted by the powder raw materials above, the raw materials cannot fall into the conveying pipe 100, the rotated packing auger 101 conveys the raw materials falling into the conveying pipe 100 to the position of the discharging pipe 102, the raw materials are discharged into the installation through the discharging pipe 102, the quantity of the raw materials discharged into the discharge cylinder 500 can be accurately controlled by controlling the rotation speed of the packing auger 101, deionized water in the mixing tank 700 is sucked through the water supply assembly after the raw materials enter the discharge cylinder 500, the raw materials are fed into the discharge cylinder 500 to be mixed with the raw materials entering the discharge cylinder 500, then enter the first installation pipe 501 through the communication groove 504, the deionized water and the raw materials are stirred by the stirring mechanism in the first installation pipe 501, the deionized water and the raw materials which are mixed more uniformly enter a third mounting tube 600 and are discharged into a mixing tank 700 through a water spraying hole 606, meanwhile, the third mounting tube 600 rotates around the first mounting tube 501 as an axis to stir the deionized water in the mixing tank 700, the first mounting tube 501 rotates at a high speed through a driving part to further rotate the third mounting tube 600 at a high speed, centrifugal force is generated in the third mounting tube 600 when the third mounting tube 600 rotates at a high speed, under the action of the centrifugal force, two sleeves 604 slide towards two ends of the two third mounting tubes 600 respectively, so that a sealing rod 605 is driven to slide until the end heads of the sleeves 604 are propped against the inner wall of the end heads of the third mounting tube 600, at the moment, a spring 603 is contracted, the sealing rod 605 blocks part of the water spraying hole 606, the hole area of the water spraying hole 606 is reduced, and the pressure in the third mounting tube 600 is improved, the water mixed with the raw materials is sprayed farther, so that the diffusion area of the raw materials is increased, the mixing effect is improved, after the first mounting tube 501 stops rotating, the spring 603 is reset, so that the sleeve 604 is reset, the hole area of the water spraying hole 606 is increased, under the action of the liquid level difference, the water mixed with the raw materials in the discharge tube 500 flows through the mixing tank 700, the deionized water containing the raw materials is improved to be diffused in the mixing tank 700, the raw materials are distributed more uniformly, the mounting cover 106 is provided with an air inlet hole, and the air inlet hole is internally provided with a one-way valve.

Referring to fig. 1 to 6, the driving part includes a dual output shaft motor 301 fixedly connected in a mounting box 300, a first driving shaft at the bottom of the dual output shaft motor 301 and mounting shafts of two sets of augers 101 synchronously rotate through a bevel gear set 103, the first driving shaft is fixedly connected with a first mounting tube 501, the top of the mounting box 300 is fixedly connected with a gearbox 302, an input end of the gearbox 302 is fixedly connected with a second driving shaft at the top of the dual output shaft motor 301, an output end of the gearbox 302 is fixedly connected with a second rotating shaft 303, and the second rotating shaft 303 and two first rotating shafts 204 synchronously rotate through a sprocket set 205.

Referring to fig. 1-7, the dual output shaft motor 301 is started, the first driving shaft of the dual output shaft motor 301 rotates the two augers 101 through the bevel gear set 103 to convey materials, and the first driving shaft drives the third mounting tube 600 to rotate through the first mounting tube 501, meanwhile, the second driving shaft of the dual output shaft rotates the gearbox 302, the gear set inside the second gearbox 302 is used for amplifying torque, the output end of the gearbox 302 rotates the second rotating shaft 303, the second rotating shaft 303 rotates the two first rotating shafts 204 through the sprocket set 205, the first rotating shaft 204 rotates the shifting plate 206 to stir materials in the material storage tank 200, and the diameter of the sprocket on the second rotating shaft 303 is larger than that of the sprocket on the first rotating shaft 204.

Referring to fig. 1-8, the stirring assembly comprises a mounting tube 502 fixedly connected to the bottom of a first mounting tube 501, a second mounting tube 503 is rotatably connected to the mounting tube 502, one end of the second mounting tube 503 extending into the first mounting tube 501 is fixedly connected with a stirring rod 506, one end of the second mounting tube 503 extending into the mounting tube 502 is fixedly connected with a turbine blade 507, a water inlet hole 508 is formed in the side wall of the second mounting tube 503, the water inlet hole 508 is located above the turbine blade 507, a spray head 505 is fixedly connected to the side wall of the second mounting tube 503, the spray head 505 sprays water to the inner wall of the discharge tube 500 through a communication groove 504, the water delivery assembly comprises a second mounting plate 105 fixedly connected to the side wall of the first mounting plate 104, the bottom of the second mounting plate 105 is fixedly connected with a piston tube 400, a piston plate 401 is slidably connected to the piston tube 400, the piston plate 401 is rotatably connected with a crank 402, the input end of the piston tube 400 is fixedly connected with a water inlet tube 406 extending into deionized water, the output end of the piston tube 400 is fixedly connected with a drain tube 406, the drain tube 406 is far from the bottom of the mounting tube 400 is connected with a first rotary shaft 404, and is connected with a third rotary shaft 408, and is rotatably connected with the rotary shaft 403, which is fixedly connected with the rotary shaft 408, and is further than the rotary shaft 408 is rotatably connected with the rotary shaft 404 through a third rotary shaft 408.

Referring to fig. 1 to 8, while the discharge cylinder 500 rotates, the discharge cylinder 500 rotates the third rotating shaft 403 through the spur gear set 405, the third rotating shaft 403 rotates the crankshaft 404, the crankshaft 404 reciprocates the piston plate 401 inside the piston cylinder 400 through the crank 402, so that positive pressure and negative pressure are generated inside the piston cylinder 400 reciprocally, the negative pressure sucks deionized water inside the mixing tank 700 through the water inlet pipe 407, the deionized water is filtered through meshes on the filter head 408, then enters the piston cylinder 400 and is extruded into the water outlet pipe 406 under the action of the positive pressure, then enters the installation cylinder 502, the turbine blade 507 is pushed to rotate, so that the second installation cylinder 503 rotates, the stirring rod 506 rotates, so that deionized water entering the first installation cylinder 501 is stirred with raw materials, water inside the installation cylinder 502 enters the second installation cylinder 503 through the water inlet hole 508, the water inside the second installation cylinder 503 is sprayed out through the spray head 505, the deionized water is filtered through meshes on the inner wall of the filter head 408, and further, the bevel gear set 103 and the ratchet wheel mechanism is arranged at the position of the bevel gear set, so that the raw materials are completely discharged inside the discharge cylinder 500, and the discharge cylinder assembly is completely and the raw materials are completely discharged when the water is completely discharged into the double-drum mixer assembly 101.

Referring to fig. 1 to 6, a feeding pipe 201 communicated with the inside of the storage tank 200 is fixedly connected to the top of the storage tank 200, a sealing cover 202 is connected to the feeding pipe 201 in a threaded manner, and a sealing gasket 203 is sleeved on the sealing cover 202; when the material in the storage tank 200 is insufficient, the sealing cover 202 is opened, raw materials are added into the storage tank 200 through the feeding pipe 201, after the raw materials are added, the sealing cover 202 is covered again to seal the raw materials, wherein the sealing gasket 203 is used for improving the tightness between the sealing cover 202 and the feeding pipe 201, so that external water vapor is prevented from entering the storage tank 200 through the feeding pipe 201 to enable the raw materials to be moist.

In the present invention, the output end and the input end of the piston cylinder 400 and the discharge pipe 102 are provided with check valves.

Referring to fig. 13, further, a three-way electric control valve 802 may be installed on the drain pipe 406, a hard water pipe 800 may be installed on the mixing tank 700, the hard water pipe 800 is connected with the electric control valve 802, and a water spray head 801 is fixedly connected to the top of the mixing tank 700 at the drainage end of the hard water pipe 800, when the dual output shaft motor 301 rotates reversely, one of the two electric control valves 802 is opened, so that water sprayed by the corresponding piston cylinder 400 enters the hard water pipe 800, and then the water is sprayed to the top of the mixing tank 700 through the water spray head 801, so that the surface of the mixing tank 700 is cooled by the water while the raw materials are stirred, and the cooling effect is further improved.

Embodiment two:

referring to fig. 9, in a process for preparing a sealant for a steel floor drain, a plurality of storage tanks 200 are respectively filled with a resin matrix, a polymer and an inert filler, the storage tanks 200 are opened to input raw materials into a mixing tank 700 for stirring and mixing preparation, and the raw materials for preparing the sealant, such as the resin matrix, the polymer and the inert filler, can be repeatedly mixed by utilizing a mixing component in the mixing tank 700, so that the mixing preparation effect of the sealant is ensured.

The foregoing description is only illustrative of the preferred embodiment of the present invention, and is not to be construed as limiting the invention, but is to be construed as limiting the invention to any and all simple modifications, equivalent variations and adaptations of the embodiments described above, which are within the scope of the invention, may be made by those skilled in the art without departing from the scope of the invention.

Claims (8)

1. Steel floor drain sealant preparation facilities includes blending tank (700), and its characterized in that still includes:

the storage tanks (200) are fixedly connected in the mixing tank (700), and the storage tanks (200) are provided with a plurality of groups and are circumferentially distributed on the mixing tank (700);

the top of the storage tank (200) is fixedly connected with a feeding pipe (201) communicated with the inside of the storage tank (200), the feeding pipe (201) extends to the top of the mixing tank (700), a sealing cover (202) is connected to the feeding pipe (201) in a threaded manner, and a sealing gasket (203) is sleeved on the sealing cover (202);

the first rotating shaft (204) is rotatably connected to the storage tank (200), and a poking plate (206) is fixedly connected to the first rotating shaft (204) in the storage tank (200);

the mixing tank further comprises a mounting box (300), two conveying pipes (100) are respectively and fixedly connected to two sides of the mounting box (300), a first mounting plate (104) is fixedly connected to the two conveying pipes (100), and the first mounting plate (104) is fixedly connected with the mixing tank (700);

the two conveying pipes (100) are rotationally connected with augers (101), and spiral directions of spiral blades on the augers (101) are opposite;

an input port at the top of the conveying pipe (100) is connected with a discharge port at the bottom of the storage tank (200);

the mounting cover (106) is fixedly connected to the bottom of the mounting box (300), and the bottom of the conveying pipe (100) is fixedly connected with the discharging pipe (102) communicated with the mounting cover (106);

the device comprises a discharge barrel (500) rotatably connected to the mounting cover (106), wherein a first mounting pipe (501) is fixedly connected to the discharge barrel (500), a communication groove (504) communicated with the discharge barrel (500) is formed in the first mounting pipe (501), and the first mounting pipe (501) is rotatably connected with a mixing tank (700);

a water delivery assembly disposed on the first mounting plate (104) for delivering water into the first mounting tube (501);

a stirring assembly disposed within the first mounting tube (501) for stirring the raw material and water;

the third installation tube (600) is fixedly connected to the two sides of the first installation tube (501), and water spraying holes (606) are formed in the tube wall of the third installation tube (600);

a driving part arranged on the installation box (300) and used for driving the auger (101), the first rotating shaft (204) and the first installation tube (501) to rotate;

the novel water spraying device is characterized in that a connecting plate (601) is fixedly connected in the third installation tube (600), an installation rod (602) is fixedly connected to the connecting plate (601), a sleeve (604) is slidably connected to the installation rod (602), a spring (603) is sleeved on the installation rod (602), two ends of the spring (603) respectively abut against the installation rod (602) and the sleeve (604), and a sealing rod (605) for sealing a water spraying hole (606) is fixedly connected to the outer wall of the sleeve (604).

2. The steel floor drain sealant preparation device according to claim 1, wherein the driving part comprises a double-output-shaft motor (301) fixedly connected in the installation box (300), a first driving shaft at the bottom of the double-output-shaft motor (301) and installation shafts of two groups of augers (101) synchronously rotate through a bevel gear set (103), the first driving shaft is fixedly connected with a first installation tube (501), the top of the installation box (300) is fixedly connected with a gearbox (302), the input end of the gearbox (302) is fixedly connected with a second driving shaft at the top of the double-output-shaft motor (301), the output end of the gearbox (302) is fixedly connected with a second rotating shaft (303), and the second rotating shaft (303) and two first rotating shafts (204) synchronously rotate through a sprocket set (205).

3. The steel floor drain sealant preparation device according to claim 2, wherein the stirring assembly comprises a mounting cylinder (502) fixedly connected to the bottom of the first mounting tube (501), a second mounting tube (503) is rotatably connected to the mounting cylinder (502), and a stirring rod (506) is fixedly connected to one end of the second mounting tube (503) extending into the first mounting tube (501).

4. A steel floor drain sealant preparation device according to claim 3, wherein one end of the second installation tube (503) extending into the installation tube (502) is fixedly connected with a turbine blade (507), a water inlet hole (508) is formed in the side wall of the second installation tube (503) located in the installation tube (502), the water inlet hole (508) is located above the turbine blade (507), a spray head (505) is fixedly connected to the side wall of the second installation tube (503), and the spray head (505) sprays water to the inner wall of the discharge tube (500) through the communication groove (504).

5. The steel floor drain sealant preparation device according to claim 1, wherein the water supply assembly comprises a second mounting plate (105) fixedly connected to the side wall of the first mounting plate (104), a piston cylinder (400) is fixedly connected to the bottom of the second mounting plate (105), a piston plate (401) is slidably connected to the piston cylinder (400), a crank (402) is rotatably connected to the piston plate (401), a water inlet pipe (407) extending into deionized water is fixedly connected to the input end of the piston cylinder (400), a water outlet pipe (406) is fixedly connected to the output end of the piston cylinder (400), and one end, away from the piston cylinder (400), of the water outlet pipe (406) is connected to the bottom of the mounting cylinder (502).

6. The steel floor drain sealant preparation device according to claim 5, wherein a filter head (408) is fixedly connected to one end of the water inlet pipe (407) extending into the deionized water.

7. The steel floor drain sealant preparation device according to claim 6, wherein a third rotating shaft (403) is rotatably connected to the bottom of the second mounting plate (105), the third rotating shaft (403) and the discharge cylinder (500) synchronously rotate through a direct gear set (405), a crankshaft (404) is fixedly connected to the third rotating shaft (403), and the crankshaft (404) is rotatably connected to one end of the crank (402) away from the piston plate (401).

8. A preparation process of steel floor drain sealant is characterized in that the steel floor drain sealant preparation equipment disclosed in claim 1 is adopted for preparation, a plurality of storage tanks (200) are respectively filled with resin matrixes, polymers and inert fillers, and the storage tanks (200) are opened to input raw materials into a mixing tank (700) for stirring and mixing.