CN115722173B - Reation kettle of unloading of being convenient for is used in production of carving white powder - Google Patents

Abstract

The invention discloses a reaction kettle convenient for blanking for producing rongalite, which relates to the technical field of rongalite production and comprises a fixing frame, a reaction kettle, a bracket, an input pipe and a valve, wherein the lower side of the fixing frame is fixedly connected with a concrete seat, the inside of the fixing frame is fixedly arranged on the outer side of the reaction kettle, and the middle part of the bracket is fixedly provided with a stirring mechanism. According to the invention, the whole scraping assembly rotates in a force-obtaining manner, the first side block, the third side block and the second side block are respectively arranged on the three vertical plates, the horizontal heights of the three vertical plates are gradually increased, the working area of the inner wall of the reaction kettle is covered after rotation, the first bottom block, the third bottom block and the second bottom block are respectively arranged below the three inclined plates, the three vertical plates are gradually increased from the center of the connecting ring, the three vertical plates rotate to cover the bottom of the inner cavity of the reaction kettle, and the scraping assembly is arranged to scrape and remove the carving powder adhered to the inner wall in the later period of production, so that residues are avoided, and the output and the blanking of the carving powder are facilitated.

Description

Reation kettle of unloading of being convenient for is used in production of carving white powder

Technical Field

The invention relates to the technical field of production of rongalite, in particular to a reaction kettle convenient for blanking for rongalite production.

Background

Roxburgh rose powder, also known as sodium bisulphite formaldehyde. The apparent density is 1.80-1.85 g/cm3. Melting point 64 ℃ (dissolved in its crystal water). Above 120 ℃ decomposition. Is easily soluble in water and slightly soluble in alcohol. The anhydrous salt is relatively stable. But gradually disintegrates in humid air. Has strong reducibility at high temperature. The dye can be used as a discharge agent and a reducing agent for printing and dyeing, and can be used for synthesizing rubber, sugar and producing indigo dye and vat dye. The production process includes vacuum mixing sodium bisulfate formaldehyde evaporated to solution state fast in vacuum kneading machine, adding cooling water at 10-30 deg.c, kneading at vacuum degree of-0.03-0.09 MPa for 1-2 hr, spraying alcohol dispersant and active agent in 5-20%, kneading to pulverize sodium bisulfate formaldehyde until the temperature of the pulverized material is lowered below 40 deg.c, introducing nitrogen to replace the dispersant, and dispersing powder in a disperser to obtain carving powder.

The invention discloses a reaction kettle for chemical production, which comprises a reaction shell, wherein the top end of the reaction shell is hinged with a sealing cover, a stirring motor is arranged below the reaction shell, a rotating shaft of the stirring motor is connected with a stirring shaft through a coupling, stirring blades are arranged on the outer wall of the stirring shaft, a feeding plate is arranged in the reaction shell, a connecting sliding block is arranged on the outer wall of the feeding plate, an annular sliding rail for the connecting sliding block to rotate along the center of the feeding plate is arranged on the inner wall of the reaction shell, a plurality of feeding holes are formed in the feeding plate at equal intervals, the top ends of the feeding holes are communicated with a diversion feeding pipe, the diversion feeding pipe is communicated with a feeding main pipe, and the feeding main pipe is arranged above the sealing cover. After the raw materials enter the aggregate cover through the feeding main pipe, the raw materials enter the material guide cavity under the action of the diversion guide of the material guide cover, and are guided into the feeding holes on the feeding plate through the diversion feeding pipe, so that the uniformity of raw material reaction is improved.

But among the prior art, the in-process that the rongalite produced needs to be kneaded, the later stage of reaction needs to smash it to carry out comparatively careful smashing, these processes all need be at the inside stirring of reation kettle, with this production that is favorable to carrying out the rongalite, but rongalite is soluble in water, can decompose gradually in moist air, at the in-process of letting in nitrogen gas, can carry partial hydrone to enter into reation kettle, when the temperature is higher than ambient temperature in the reation kettle, the moisture also can appear in the reation kettle inner wall, moisture can lead to rongalite part adhesion on reation kettle inner wall and ejection of compact pipe wall, extra loss has been increased.

Disclosure of Invention

The invention aims to provide a reaction kettle convenient for blanking for producing rongalite, which aims to solve the problems that the rongalite is required to be kneaded in the production process of rongalite, the rongalite is required to be crushed in the later stage of reaction and is required to be finely crushed, and the processes are all required to be stirred in the reaction kettle so as to be beneficial to the production of rongalite, but the rongalite is easily dissolved in water and gradually decomposed in humid air, and part of water molecules are carried in the reaction kettle in the process of introducing nitrogen, and when the temperature in the reaction kettle is higher than the external temperature, the inner wall of the reaction kettle also contains water, and the moisture can cause the rongalite to be partially adhered on the inner wall of the reaction kettle and the wall of a discharging pipe, so that extra loss is increased.

In order to achieve the aim, the invention provides the technical scheme that the reaction kettle for producing the rongalite, which is convenient for blanking, comprises a fixing frame, a reaction kettle, a bracket, an input pipe and a valve, wherein the lower side of the fixing frame is fixedly connected with a concrete seat, the inside of the fixing frame is fixedly arranged with the outer side of the reaction kettle, the middle part of the bracket is fixedly provided with a stirring mechanism, the stirring mechanism is positioned in an inner cavity of the reaction kettle, the lower side of the reaction kettle is fixedly connected with the upper end of the valve, the lower end of the valve is fixedly connected with a pipeline conveying mechanism, and the output end of the pipeline conveying mechanism is lower than the input end;

The stirring mechanism comprises a power assembly, a rotary stirring assembly is fixedly arranged at the lower end of the power assembly, a scraping assembly is fixedly arranged at the lower end of the power assembly, and the rotary stirring assembly is positioned in the middle area of the scraping assembly;

The scraping assembly comprises a connecting ring, wherein three inclined plates are fixedly connected to the outer side of the connecting ring, three vertical plates are fixedly connected to the upper sides of the other ends of the three inclined plates, rings are fixedly connected to the upper sides of the three vertical plates, a first side block, a second side block and a third side block are fixedly clamped on one side of each vertical plate, the horizontal heights of the first side block, the third side block and the second side block are gradually increased, a first bottom block, a second bottom block and a third bottom block are fixedly clamped on the lower sides of the three inclined plates respectively, and the lengths of the first bottom block, the third bottom block and the second bottom block from the center point of the connecting ring are gradually increased;

The whole scraping component is driven to rotate through the main shaft to obtain force, the triangular frame formed by the connecting ring and the three inclined plates rotates, meanwhile, the three vertical plates revolve around the main shaft near the inner wall of the reaction kettle, the first side block, the third side block and the second side block are respectively arranged on the three vertical plates, the tip is attached to the inner wall of the reaction kettle, the horizontal heights of the three are gradually increased, the rotating parts cover the working area of the inner wall of the reaction kettle, the first bottom block, the third bottom block and the second bottom block are respectively arranged below the three inclined plates, the tip is attached to the bottom of the inner cavity of the reaction kettle, the three positions of the three positions are gradually increased from the center of the connecting ring, the inner cavity of the reaction kettle is covered by rotating, the three groups of side blocks and the three groups of bottom blocks play roles of stirring and scraping, the scraping effect is realized in the early stage of the production process, the carving powder adhered to the inner wall is scraped off in the later stage of production, residues are avoided, and the output and blanking of the carving powder is convenient.

Preferably, the rotary stirring assembly comprises a connecting rod, wherein the outer surface of the connecting rod is fixedly connected with a stirring bar, the lower end of the connecting rod is fixedly provided with a stirring fan, the connecting rod rotates, and therefore the stirring bar and the stirring fan rotate simultaneously to respectively stir raw materials of the middle part and the bottom of the reaction kettle.

Preferably, a second driven gear is fixedly arranged in the upper end of the connecting rod, a shaft part of the second driven gear is rotationally connected with a double-hole plate, the lower end of the shaft part of the second driven gear is fixedly arranged in the upper end of the connecting rod, and the shaft part of the second driven gear drives the connecting rod to rotate, so that the stirring bar and the stirring fan rotate simultaneously.

Preferably, the inner wall of the other hole of the double-hole plate is fixedly connected with a main shaft, the lower end of the main shaft is fixedly arranged with the inner wall of the connecting ring, the main shaft also drives the double-hole plate to rotate, and the main shaft drives the connecting ring to rotate at the same time.

The main shaft also drives the double-hole plate to rotate, thereby driving the chain belt, the second driven gear and the whole rotary stirring assembly to revolve around an output shaft of the worm gear box, and further driving the rotary stirring assembly to revolve and rotate in an inner cavity of the reaction kettle.

Preferably, the upper end of the main shaft is internally and fixedly provided with a worm gear box, an output shaft of the worm gear box penetrates through the inner part of the support and is fixedly arranged in the upper end of the main shaft, the outer side of the worm gear box is fixedly provided with angle steel, the lower side of the angle steel is fixedly arranged on the upper side of the support, the input end of the worm gear box is fixedly provided with a servo motor, the angle steel is used for fixing the worm gear box on the support, the servo motor is started, power is input into the worm gear box, and the output shaft of the worm gear box drives the main shaft to rotate.

Preferably, the pipeline conveying mechanism comprises a connecting pipe, the lower side of the connecting pipe is fixedly connected with a storage bin, one side of the storage bin is fixedly connected with an output pipe, the inner wall of the output pipe is rotationally connected with a threaded rod assembly, the threaded rod assembly comprises a central shaft, after the reaction is completed, a valve is opened, and the rongalite is discharged from the reaction kettle and enters the storage bin through the valve and the connecting pipe.

Preferably, one end of the central shaft is rotationally connected with the tail end of the output pipe, the threaded plates are fixedly connected with the outer surface of the central shaft, the distance between the threaded plates is gradually increased from the input end to the output end, the input end of the central shaft is fixedly connected with the sheet plates in the distance between the threaded plates, the output end of the central shaft is fixedly connected with the short bars in the distance between the threaded plates, the central shaft rotates in the storage bin and the output pipe, the rongalite enters the storage bin from the valve and the connecting pipe, the central shaft drives the threaded plates to rotate, the distance between the input ends of the threaded plates is small, the distance between the output ends is large, the rongalite is conveyed to the output pipe from the storage bin, the rongalite is scattered by a plurality of sheet plates, the output speed of rongalite is gradually increased, the short bars are prevented from adhering, and the tail end of the pipeline conveying mechanism is matched to incline downwards, so that rongalite is beneficial to output.

Preferably, a first driven gear is fixedly arranged at the other end of the central shaft penetrating through one side of the storage bin, a chain is movably clamped at the outer side of the first driven gear, a first driving gear is movably clamped at the inner part of the lower end of the chain, a stepping motor is fixedly arranged in the middle of the first driving gear, the stepping motor is started to drive the first driving gear to rotate, the chain obtains power to drive the first driven gear to rotate, and the first driven gear drives the central shaft to rotate in the storage bin and the output pipe.

Preferably, the upper side of the stepping motor is fixedly connected with a connecting piece, the upper side of the connecting piece is fixedly connected with the lower side of the storage bin, one side of the connecting piece is fixedly connected with a shell cover, the first driven gear, the chain and the first driving gear are positioned in the shell cover, the connecting piece fixes the stepping motor below the storage bin and plays a role in installing the stepping motor, and the shell cover prevents the first driven gear, the chain and the first driving gear from being interfered by dust.

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

1. According to the invention, the scraping component is arranged, so that the stirring and mixing effects are realized in the early stage of the production process, the carving powder adhered on the inner wall is scraped off in the later stage of the production, residues are avoided, the output and blanking of the carving powder are facilitated, the whole scraping component is driven to rotate by the main shaft to enable the tripod formed by the connecting ring and the three inclined plates to rotate, meanwhile, the three vertical plates revolve around the main shaft near the inner wall of the reaction kettle, the first side block, the third side block and the second side block are respectively arranged on the three vertical plates, the tip is attached to the inner wall of the reaction kettle, the level of the three is gradually increased, the rotating parts cover the working area of the inner wall of the reaction kettle, the first bottom block, the third bottom block and the second bottom block are respectively arranged below the three inclined plates, the tip is attached to the bottom of the inner cavity of the reaction kettle, the three parts are gradually increased from the center position of the connecting ring, the three parts are rotationally covered on the bottom of the inner cavity of the reaction kettle, and the three groups of side blocks and the three groups of bottom blocks play the stirring and scraping effects.

2. According to the invention, through arranging the rotary stirring assembly, revolution and rotation double-rotation stirring of the raw materials of the rongalite are realized, the reaction efficiency is improved, the servo motor is started at first, power is input into the worm and gear box, the output shaft of the worm and gear box drives the main shaft to rotate, the main shaft drives the second driving gear to rotate, the second driving gear transmits power to the chain belt, the chain belt drives the second driven gear to rotate, the shaft part of the second driven gear drives the connecting rod to rotate, the stirring bar and the stirring fan simultaneously rotate, the raw materials of the rongalite at the middle part and the bottom of the reaction kettle are respectively stirred, the main shaft also drives the double-hole plate to rotate, and the chain belt, the second driven gear and the whole rotary stirring assembly are driven to revolve around the output shaft of the worm and gear box, so that the rotary stirring assembly is driven to revolve and rotate in the inner cavity of the reaction kettle.

3. According to the invention, the pipeline conveying mechanism is arranged, so that quick transfer and residue avoidance of the rongalite are realized, the stepping motor is started by opening the valve, the stepping motor drives the first driving gear to rotate, the chain obtains power to drive the first driven gear to rotate, the first driven gear drives the central shaft to rotate in the bin and the output pipe, the rongalite enters the bin from the valve and the connecting pipe, the central shaft drives the threaded plate to rotate, the input end interval of the threaded plate is small, the output end interval is large, the rongalite is conveyed from the bin to the output pipe, the rongalite is dispersed by a plurality of plates, the output speed of rongalite is gradually increased, the rongalite is prevented from adhering by a plurality of short bars, and the tail end of the pipeline conveying mechanism is matched to incline downwards, so that the rongalite is favorably output.

Drawings

FIG. 1 is a schematic structural diagram of a reaction kettle for producing rongalite, which is convenient for blanking;

FIG. 2 is a schematic diagram of a second view of a reactor for producing the rongalite, which is convenient for blanking;

FIG. 3 is a schematic diagram of the internal section of a reactor for producing the rongalite, which is convenient for blanking;

FIG. 4 is a schematic structural view of a section of a pipeline conveying mechanism of a reaction kettle, which is convenient for blanking, for producing the rongalite;

FIG. 5 is a schematic structural view of a threaded rod assembly of a reaction kettle for facilitating discharging for producing rongalite;

FIG. 6 is a schematic structural diagram of a reactor power assembly for facilitating blanking for producing the rongalite according to the invention;

FIG. 7 is a schematic structural view of a rotary stirring assembly and a scraping assembly of a reaction kettle for facilitating discharging for producing the rongalite;

FIG. 8 is a schematic diagram of the distribution of the positions of three bottom blocks in a reaction kettle for conveniently discharging for producing the rongalite;

fig. 9 is a schematic structural diagram of three-side block position distribution in a reaction kettle for conveniently blanking for producing the rongalite.

In the figure:

1. A concrete seat;

2. the pipeline conveying mechanism comprises a pipeline conveying mechanism, a connecting pipe, a 22, a bin, a 23, a threaded rod assembly, a 231, a central shaft, 232, a short rod, 233, a threaded plate, 234, a sheet plate, 24, a shell cover, 25, a first driven gear, 26, a chain, 27, a connecting piece, 28, a first driving gear, 29, a stepping motor, 210 and an output pipe;

3. a fixing frame, a reaction kettle, a bracket and a support;

6. Stirring mechanism 61, power assembly 611, servo motor 612, worm gear box 613, angle steel 614, main shaft 615, second driving gear 616, chain belt 617, double hole plate 618, second driven gear 62, rotary stirring assembly 621, connecting rod 622, stirring bar 623, stirring fan 63, scraping assembly 631, circular ring 632, vertical plate 633, first side block 634, inclined plate 635, first bottom block 636, connecting ring 637, second bottom block 638, third bottom block 639, second side block 640, third side block;

7. and 8, an input pipe and a valve.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9: the utility model provides a reaction kettle convenient to unloading for producing rongalite, which comprises a fixing frame 3, reaction kettle 4, support 5, input tube 7 and valve 8, the downside fixedly connected with concrete seat 1 of mount 3, the inside of mount 3 and the outside fixed mounting of reaction kettle 4, the middle part fixed mounting of support 5 has rabbling mechanism 6, rabbling mechanism 6 is arranged in the inner chamber of reaction kettle 4, the downside of reaction kettle 4 and the upper end fixed connection of valve 8, the lower extreme fixedly connected with pipeline conveying mechanism 2 of valve 8, the output of pipeline conveying mechanism 2 is less than the input, rabbling mechanism 6 includes power component 61, the lower extreme fixed mounting of power component 61 has rotatory stirring component 62, the lower extreme fixed mounting of power component 61 has scraping component 63, the rotary stirring assembly 62 is positioned in the middle area of the scraping assembly 63, the scraping assembly 63 comprises a connecting ring 636, three inclined plates 634 are fixedly connected to the outer side of the connecting ring 636, three vertical plates 632 are fixedly connected to the upper sides of the other ends of the three inclined plates 634, a circular ring 631 is fixedly connected to the upper sides of the three vertical plates 632, a first side block 633, a second side block 639 and a third side block 640 are fixedly clamped on one side of the three vertical plates 632 respectively, the horizontal heights of the first side block 633, the third side block 640 and the second side block 639 are gradually increased, a first bottom block 635, a second bottom block 637 and a third bottom block 638 are fixedly clamped on the lower sides of the three inclined plates 634 respectively, and the lengths of the first bottom block 635, the third bottom block 638 and the second bottom block 637 from the center point of the connecting ring 636 are gradually increased;

The whole scraping assembly 63 is driven to rotate by the main shaft 614 to rotate by the aid of the triangular frame formed by the connecting ring 636 and the three inclined plates 634, meanwhile, the three vertical plates 632 revolve around the main shaft 614 near the inner wall of the reaction kettle 4, the first side block 633, the third side block 640 and the second side block 639 are respectively arranged on the three vertical plates 632, the tip is attached to the inner wall of the reaction kettle 4, the horizontal heights of the three are gradually increased, the rotating area of the inner wall of the reaction kettle 4 is covered, the first bottom block 635, the third bottom block 638 and the second bottom block 637 are respectively arranged below the three inclined plates 634, the tip is attached to the bottom of the inner cavity of the reaction kettle 4, the center position of the three parts away from the connecting ring 636 is gradually increased, the inner cavity bottom of the reaction kettle 4 is covered by rotation, the three groups of side blocks and the three groups of bottom blocks play roles of stirring and scraping, the scraping effect is achieved by arranging the scraping assembly 63, the effect of stirring and mixing in the early phase of the production process is achieved, the powdery mildew adhered to the inner wall is scraped and the powdery mildew is removed in the later phase of the production, and the output of the carving is convenient.

According to FIG. 7, the rotary stirring assembly 62 comprises a connecting rod 621, a stirring bar 622 is fixedly connected to the outer surface of the connecting rod 621, a stirring fan 623 is fixedly arranged at the lower end of the connecting rod 621, and the connecting rod 621 rotates, so that the stirring bar 622 and the stirring fan 623 rotate simultaneously to respectively stir the raw materials of the middle and bottom rongalite of the reaction kettle 4.

According to fig. 6 and 7, a second driven gear 618 is fixedly installed inside the upper end of the connecting rod 621, a double-hole plate 617 is rotatably connected to the shaft portion of the second driven gear 618, the lower end of the shaft portion of the second driven gear 618 is fixedly installed inside the upper end of the connecting rod 621, and the shaft portion of the second driven gear 618 drives the connecting rod 621 to rotate, so that the stirring bar 622 and the stirring fan 623 simultaneously rotate.

According to the embodiment shown in fig. 6 and 7, a main shaft 614 is fixedly connected to the inner wall of the other hole of the double-hole plate 617, the lower end of the main shaft 614 is fixedly mounted to the inner wall of the connection ring 636, the main shaft 614 also drives the double-hole plate 617 to rotate, and the main shaft 614 simultaneously drives the connection ring 636 to rotate.

According to the illustration in fig. 6, a second driving gear 615 is fixedly mounted on the outer surface of the upper end of the main shaft 614, a chain belt 616 is movably clamped on the outer side of the second driving gear 615, the inner wall of the other end of the chain belt 616 is movably clamped on the outer side of a second driven gear 618, the main shaft 614 also drives a double-hole plate 617 to rotate, thereby driving the chain belt 616, the second driven gear 618 and the whole rotary stirring assembly 62 to revolve around the output shaft of the worm gear box 612, and further driving the rotary stirring assembly 62 to revolve and rotate in the inner cavity of the reaction kettle 4 for double-rotation stirring.

According to the illustration in fig. 6, a worm gear box 612 is fixedly installed in the upper end of a main shaft 614, an output shaft of the worm gear box 612 penetrates through the inside of a bracket 5 and is fixedly installed in the upper end of the main shaft 614, an angle steel 613 is fixedly installed on the outer side of the worm gear box 612, a servo motor 611 is fixedly installed on the lower side of the angle steel 613 and the upper side of the bracket 5, the angle steel 613 fixes the worm gear box 612 on the bracket 5, the servo motor 611 is started, power is input into the worm gear box 612, and the output shaft of the worm gear box 612 drives the main shaft 614 to rotate.

According to the illustration in fig. 4, the pipeline conveying mechanism 2 comprises a connecting pipe 21, a bin 22 is fixedly connected to the lower side of the connecting pipe 21, an output pipe 210 is fixedly connected to one side of the bin 22, a threaded rod assembly 23 is rotatably connected to the inner wall of the output pipe 210, the threaded rod assembly 23 comprises a central shaft 231, after the reaction is completed, a valve 8 is opened, and the rongalite powder is discharged from the reaction kettle 4 and enters the bin 22 through the valve 8 and the connecting pipe 21.

According to the illustration shown in fig. 4, one end of the central shaft 231 is rotatably connected with the end of the output pipe 210, the outer surface of the central shaft 231 is fixedly connected with a threaded plate 233, the distance between the threaded plates 233 is gradually increased from the input end to the output end, the input end of the central shaft 231 is fixedly connected with a sheet plate 234 in the distance between the threaded plates 233, the output end of the central shaft 231 is fixedly connected with a short rod 232 in the distance between the threaded plates 233, the central shaft 231 rotates in the storage bin 22 and the output pipe 210, the rongalite enters the storage bin 22 from the valve 8 and the connecting pipe 21, the central shaft 231 drives the threaded plates 233 to rotate, the distance between the input ends of the threaded plates 233 is small, the distance between the output ends is large, the rongalite is conveyed from the storage bin 22 to the output pipe 210, the sheet plates 234 scatter rongalite, the rongalite output speed is gradually increased, the short rods 232 are prevented from adhering to each other, and the end of the pipeline conveying mechanism 2 is inclined downwards, so that rongalite is output.

According to the illustration in fig. 4, a first driven gear 25 is fixedly installed at the other end of the central shaft 231 penetrating through one side of the bin 22, a chain 26 is movably clamped at the outer side of the first driven gear 25, a first driving gear 28 is movably clamped at the inner part of the lower end of the chain 26, a stepping motor 29 is fixedly installed at the middle part of the first driving gear 28, the stepping motor 29 is started, the stepping motor 29 drives the first driving gear 28 to rotate, the chain 26 obtains power to drive the first driven gear 25 to rotate, and the first driven gear 25 drives the central shaft 231 to rotate in the bin 22 and the output pipe 210.

According to the illustration in fig. 4, the upper side of the stepper motor 29 is fixedly connected with a connecting piece 27, the upper side of the connecting piece 27 is fixedly connected with the lower side of the bin 22, one side of the connecting piece 27 is fixedly connected with a housing cover 24, the first driven gear 25, the chain 26 and the first driving gear 28 are positioned in the housing cover 24, the connecting piece 27 fixes the stepper motor 29 below the bin 22 and plays a role in installing the stepper motor 29, and the housing cover 24 prevents the first driven gear 25, the chain 26 and the first driving gear 28 from being interfered by dust.

The application method and the working principle of the device are as follows: when the reactor convenient for blanking is used for producing the rongalite, raw materials of the rongalite are input into the reactor 4 from the input pipe 7, firstly, a servo motor 611 is started and power is input into a worm gear box 612, an output shaft of the worm gear box 612 drives a main shaft 614 to rotate, the main shaft 614 drives a second driving gear 615 to rotate, the second driving gear 615 transmits power to a chain belt 616, the chain belt 616 drives a second driven gear 618 to rotate, a shaft part of the second driven gear 618 drives a connecting rod 621 to rotate, a stirring bar 622 and a stirring fan 623 simultaneously rotate, raw materials of the middle part and the bottom rongalite of the reactor 4 are respectively stirred, the main shaft 614 also drives a double-hole plate 617 to rotate, thereby driving the chain belt 616, the second driven gear 618 and the whole rotary stirring assembly 62 to revolve around an output shaft of the worm gear box 612, and further driving the rotary stirring assembly 62 to revolve and spin in an inner cavity of the reactor 4, the main shaft 614 also drives the whole scraping assembly 63 to rotate, so that the tripod formed by the connecting ring 636 and the three inclined plates 634 rotates, meanwhile, the three vertical plates 632 revolve around the main shaft 614 near the inner wall of the reaction kettle 4, the first side block 633, the third side block 640 and the second side block 639 are respectively arranged on the three vertical plates 632, the tips are attached to the inner wall of the reaction kettle 4, the levels of the three are gradually increased, the rotating areas are covered on the inner wall of the reaction kettle 4, the first bottom block 635, the third bottom block 638 and the second bottom block 637 are respectively arranged below the three inclined plates 634, the tips are attached to the bottom of the inner cavity of the reaction kettle 4, the three positions from the center of the connecting ring 636 are gradually increased, the rotating areas cover the bottom of the inner cavity of the reaction kettle 4, the three groups of side blocks and the three groups of bottom blocks play a role in stirring and mixing in the early stage of the production process, at the later stage of production, scrape the carving powder that adheres on the inner wall and take off, avoid remaining, the export unloading of carving powder of being convenient for, after the reaction is accomplished, open valve 8, start step motor 29, step motor 29 drives first driving gear 28 rotation, chain 26 obtains power, drive first driven gear 25 rotation, first driven gear 25 drives center pin 231 and rotates in feed bin 22 and output tube 210 inside, carving powder enters into feed bin 22 from valve 8 and connecting pipe 21, center pin 231 drives threaded plate 233 rotation, the input interval of threaded plate 233 is little, the output interval is big, carry carving powder from feed bin 22 to output tube 210, a plurality of sheet 234 beat carving powder and scatter, and carving powder output speed gradually increases, a plurality of shortbars 232 avoid carving powder adhesion, the end downward sloping of cooperation pipeline conveying mechanism 2 is favorable to carving powder to export.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (8)

1. The reaction kettle convenient for blanking for producing the rongalite comprises a fixing frame (3), a reaction kettle (4), a support (5), an input pipe (7) and a valve (8), and is characterized in that the lower side of the fixing frame (3) is fixedly connected with a concrete seat (1), the inside of the fixing frame (3) is fixedly arranged with the outer side of the reaction kettle (4), the middle part of the support (5) is fixedly provided with a stirring mechanism (6), the stirring mechanism (6) is positioned in an inner cavity of the reaction kettle (4), the lower side of the reaction kettle (4) is fixedly connected with the upper end of the valve (8), the lower end of the valve (8) is fixedly connected with a pipeline conveying mechanism (2), and the output end of the pipeline conveying mechanism (2) is lower than the input end;

The stirring mechanism (6) comprises a power assembly (61), a rotary stirring assembly (62) is fixedly arranged at the lower end of the power assembly (61), a scraping assembly (63) is fixedly arranged at the lower end of the power assembly (61), and the rotary stirring assembly (62) is positioned in the middle area of the scraping assembly (63);

The scraping assembly (63) comprises a connecting ring (636), three inclined plates (634) are fixedly connected to the outer side of the connecting ring (636), three vertical plates (632) are fixedly connected to the upper side of the other end of the inclined plates (634), a circular ring (631) is fixedly connected to the upper side of each vertical plate (632), a first side block (633), a second side block (639) and a third side block (640) are fixedly clamped to one side of each vertical plate (632), the horizontal heights of the first side block (633), the third side block (640) and the second side block (639) are gradually increased, a first bottom block (635), a second bottom block (637) and a third bottom block (638) are fixedly clamped to the lower side of each inclined plate (634), and the lengths of the first bottom block (635), the third bottom block (638) and the second bottom block (637) from the center point of the connecting ring (636) are gradually increased;

the pipeline conveying mechanism (2) comprises a connecting pipe (21), a bin (22) is fixedly connected to the lower side of the connecting pipe (21), an output pipe (210) is fixedly connected to one side of the bin (22), a threaded rod assembly (23) is rotatably connected to the inner wall of the output pipe (210), and the threaded rod assembly (23) comprises a central shaft (231);

One end of the center shaft (231) is rotationally connected with the tail end of the output pipe (210), a threaded plate (233) is fixedly connected to the outer surface of the center shaft (231), the distance between the threaded plates (233) is gradually increased from the input end to the output end, a sheet plate (234) is fixedly connected to the input end of the center shaft (231) and located in the distance between the threaded plates (233), and a short rod (232) is fixedly connected to the output end of the center shaft (231) and located in the distance between the threaded plates (233).

2. The reaction kettle for producing the rongalite and facilitating blanking of claim 1, wherein the rotary stirring assembly (62) comprises a connecting rod (621), a stirring bar (622) is fixedly connected to the outer surface of the connecting rod (621), and a stirring fan (623) is fixedly arranged at the lower end of the connecting rod (621).

3. The reaction kettle for facilitating blanking for producing the rongalite according to claim 2, wherein a second driven gear (618) is fixedly arranged in the upper end of the connecting rod (621), a double-hole plate (617) is rotatably connected with a shaft part of the second driven gear (618), and the lower end of the shaft part of the second driven gear (618) is fixedly arranged in the upper end of the connecting rod (621).

4. The reaction kettle for facilitating blanking for producing the rongalite according to claim 3, wherein a main shaft (614) is fixedly connected to the inner wall of the other hole of the double-hole plate (617), and the lower end of the main shaft (614) is fixedly installed with the inner wall of the connecting ring (636).

5. The reaction kettle for facilitating blanking for producing the rongalite according to claim 4, wherein a second driving gear (615) is fixedly arranged on the outer surface of the upper end of the main shaft (614), a chain belt (616) is movably clamped on the outer side of the second driving gear (615), and the inner wall of the other end of the chain belt (616) is movably clamped on the outer side of the second driven gear (618).

6. The reaction kettle for facilitating blanking for producing the rongalite according to claim 5, wherein a worm gear box (612) is fixedly installed inside the upper end of the main shaft (614), an output shaft of the worm gear box (612) penetrates through the inside of the support (5) and is fixedly installed inside the upper end of the main shaft (614), an angle steel (613) is fixedly installed outside the worm gear box (612), the lower side of the angle steel (613) is fixedly installed with the upper side of the support (5), and a servo motor (611) is fixedly installed at the input end of the worm gear box (612).

7. The reaction kettle for producing the rongalite and facilitating blanking according to claim 6, wherein a first driven gear (25) is fixedly arranged at the other end of the central shaft (231) penetrating through one side of the storage bin (22), a chain (26) is movably clamped at the outer side of the first driven gear (25), a first driving gear (28) is movably clamped at the inner part of the lower end of the chain (26), and a stepping motor (29) is fixedly arranged at the middle part of the first driving gear (28).

8. The reaction kettle for producing the rongalite and facilitating blanking according to claim 7, wherein a connecting piece (27) is fixedly connected to the upper side of the stepping motor (29), the upper side of the connecting piece (27) is fixedly connected to the lower side of the storage bin (22), a shell cover (24) is fixedly connected to one side of the connecting piece (27), and the first driven gear (25), the chain (26) and the first driving gear (28) are located in the shell cover (24).