CN116393032A

CN116393032A - Uniform feeding device for mixing sodium carbonate and quartz sand

Info

Publication number: CN116393032A
Application number: CN202310614105.5A
Authority: CN
Inventors: 相飞; 车兆艳
Original assignee: Jiangsu Rose Industry Group Co ltd
Current assignee: Jiangsu Rose Industry Group Co ltd
Priority date: 2023-05-29
Filing date: 2023-05-29
Publication date: 2023-07-07

Abstract

The invention discloses a uniform feeding device for mixing sodium carbonate and quartz sand, which comprises a stirring box, a material distributing stirring mechanism, a discharging assembly and a uniform feeding mechanism, wherein a first servo motor drives a dredging rod and a counterweight to rotate, so that the dredging rod can dredge the sodium carbonate or quartz sand blocked in a feeding storage tank, meanwhile, the counterweight can slide up and down in a sleeve rod through the expansion and contraction of a spring in the rotating process, the feeding storage tank and a hollow disc groove can shake up and down, the discharging of sodium carbonate and quartz sand is facilitated, in addition, a transmission wheel group can drive an arc groove turntable and a swinging rod to rotate, a stirring cylinder respectively enters four U-shaped grooves of a U-shaped groove cross turntable, and the U-shaped groove cross turntable is stirred to rotate intermittently, so that the material distributing disc is convenient to rotate intermittently, and the uniform feeding work is also completed intermittently through four storage grooves on the material distributing disc, and the working efficiency and the accuracy of the solid sodium silicate production proportioning are improved.

Description

Uniform feeding device for mixing sodium carbonate and quartz sand

Technical Field

The invention belongs to the technical field related to solid sodium silicate production, and particularly relates to a uniform feeding device for mixing sodium carbonate and quartz sand.

Background

Sodium silicate, commonly called sodium silicate, is an inorganic substance, the chemical formula of which is Na2 O.nSiO2, and the aqueous solution of which is commonly called water glass, is an ore binder; sodium silicate has two production processes of dry method and wet method; the dry method also comprises a sodium carbonate method, a sodium sulfate (sodium sulfate) method and a sodium chloride method; the wet process uses liquid sodium carbonate and quartz sand as raw materials, and the liquid product is obtained after heating and pressurizing reaction.

At present, when sodium silicate is produced by a sodium carbonate method, sodium carbonate (Na 2CO 3) and quartz sand (SiO 2) with the particle size of 0.180-0.250 mm (60-80 meshes) are mixed uniformly according to the modulus requirement of a required product, the mixture is fed into a horseshoe flame kiln in proportion, melted at 1450-1500 ℃, high-temperature melted products flow out from a kiln discharge port, and are pressed into blocks or water quenched into particles through rollers on a die; when the sodium carbonate and the quartz sand are stirred, the proportioning work is needed to be completed manually, then the mixing work is completed through the mixing stirrer, and errors are easily caused when the proportioning work is performed manually, so that the proportioning accuracy is reduced, and the qualification rate of sodium silicate production is also reduced.

Disclosure of Invention

The invention aims to provide a uniform feeding device for mixing sodium carbonate and quartz sand, which solves the problems that the artificial proportioning of sodium carbonate and quartz sand in the background technology is easy to cause errors, the proportioning accuracy is reduced, and the qualification rate of sodium silicate production is also reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the uniform feeding device for mixing sodium carbonate and quartz sand comprises a stirring box, a material distributing and stirring mechanism, a discharging component and a uniform feeding mechanism, wherein a supporting frame is welded at the lower end of the stirring box, an inverted cone discharging hole is formed in the front side of the lower end of the stirring box, and feeding holes are formed in the left side and the right side of the upper end of the stirring box; the discharging component is arranged on one side, close to the inverted cone discharging hole, of the lower end face of the stirring box, and the inverted cone discharging hole is communicated with the discharging component, and the discharging component is used for controlling discharging work of sodium carbonate and quartz sand after being mixed in the stirring box; the material distributing and stirring mechanism is arranged in the stirring box in a penetrating way, the top of the material distributing and stirring mechanism is positioned on the upper surface of the stirring box, and the material distributing and stirring mechanism is used for mixing and stirring sodium carbonate and quartz sand and controlling feeding of the sodium carbonate and the quartz sand; the number of the uniform feeding mechanisms is two, the two uniform feeding mechanisms are arranged on two sides of the upper surface of the stirring box, and the two uniform feeding mechanisms are used for uniformly feeding sodium carbonate and quartz sand.

Preferably, the discharging component comprises a discharging groove, an electric hydraulic rod and a second semicircular arc seat, wherein the discharging groove is welded on the front side of the lower surface of the stirring tank and is communicated with an inverted cone discharging hole, an opening sliding groove is formed in the upper side of the discharging groove, a sleeve column is welded on the upper side of the left end and the right end of the discharging groove, two sleeve columns are connected with a concave sliding column in a sliding mode, a sealing plate is welded at the front end of the concave sliding column, the sealing plate is positioned on the front side of the discharging groove, a separation baffle is welded at the rear end of the sealing plate, the separation baffle is connected with the opening sliding groove in a sliding mode, a first semicircular arc seat is welded at the rear side of the lower end of the stirring tank, the second semicircular arc seat is positioned on the rear side of the concave sliding column, the electric hydraulic rod is mounted on the second semicircular arc seat, and the telescopic rod of the electric hydraulic rod penetrates through the second semicircular arc seat and is fixedly mounted with the first semicircular arc seat.

Preferably, divide material rabbling mechanism to include protecting crust, puddler and separate the plectane, the protecting crust welds at the up end middle part of agitator tank, the front side of protecting crust rotates and is connected with the shield cap, the rear end mid-mounting of protecting crust has second servo motor, and the motor shaft of second servo motor runs through the inside that stretches into the protecting crust, the motor shaft outer wall of protecting crust has cup jointed first bevel gear, and first bevel gear is located the inside of protecting crust, the puddler rotates with the agitator tank to be connected, and the puddler top runs through the inside that stretches into the protecting crust, the outer wall of puddler is close to the upper and lower both sides of first bevel gear and has cup jointed third bevel gear and second bevel gear respectively, and third bevel gear and second bevel gear all are located the inside of protecting crust, first bevel gear and third bevel gear and second bevel gear meshing, the bottom of second bevel gear runs through the inside that stretches into the agitator tank, the downside outer wall welding of second bevel gear has separate the plectane, and separates the plectane and be located the inside of agitator tank, the upper surface and the inner wall of agitator tank have the contact with the bottom of the scraper blade, the bottom of the scraper blade contact type of S, the bottom of the scraper blade is equipped with the round hole of the contact type of the under the scraper blade of the agitator tank.

Preferably, even feed mechanism includes feeding bin, input groove, cavity disc groove, vibrations subassembly and feed divider spare, the input groove welding is at the upper surface of agitator tank, and input groove and feed inlet intercommunication, the inside sliding connection of upside of input groove has the ascending cavity disc groove of extension, be equipped with the vibrations subassembly of two symmetries between cavity disc groove and the agitator tank, be equipped with the feed divider spare on the cavity disc groove, the upper end welding of cavity disc groove has the feeding bin.

Preferably, the vibration component comprises a loop bar, a spring, a T-shaped round bar and a connecting column, wherein the loop bar is arranged on the upper surface of the stirring tank, the T-shaped round bar is connected to the upper side of the loop bar in a sliding manner, the upper end of the T-shaped round bar penetrates through the top of the loop bar, the connecting column is welded at the upper end of the T-shaped round bar, the connecting column is welded on the outer wall of the lower side of the hollow disc groove, the spring is sleeved on the outer wall of the upper side of the T-shaped round bar, and the two ends of the spring are respectively in contact with the connecting column and the loop bar.

Preferably, the feed divider assembly includes feed divider disc, dredges guide arm, mounting bracket, first servo motor and two circular arc groove turntables, dredge the pole rotation cover and establish in the upside inside of cavity disc groove, and dredge the both ends of pole and run through and stretch out cavity disc groove, the counter weight has been cup jointed at the both ends of dredge the guide arm, the mounting bracket welding is at cavity disc groove rear end face upside, install first servo motor on the rear end face of mounting bracket, and the motor shaft of first servo motor runs through the rear end face of mounting bracket, be equipped with the axle ware between first servo motor's motor shaft and the dredge the pole, two circular arc groove turntables rotate the cover and establish the drive pulley group of two symmetries between the outer wall of circular arc groove turntables and dredge the pole both ends, and two drive pulley groups are located the front and back both sides of cavity disc groove, two the outer wall of one side of cavity disc groove is kept away from to the circular arc groove turntables is equipped with the swinging arms, two one side of swinging arms keeps away from the circular arc groove turntables is equipped with stirs, divide the material turntables to rotate the cover and establish the inside of cavity disc groove, and two cross shape of disc turntables are stretched out the both ends of the disc groove respectively.

Preferably, the front and back both ends upside in cavity disc groove is equipped with circular arc groove carousel assorted connecting axle, the front and back both ends upside in cavity disc groove is connected with first round hole, and first round hole is located the connecting axle upside, the front and back both ends middle part in cavity disc groove has seted up with divide material disc assorted second round hole.

Preferably, four sides of the U-shaped groove cross-shaped rotary table are provided with U-shaped grooves matched with the poking cylinder, an arc surface is arranged between every two adjacent U-shaped grooves, and the edges of the U-shaped groove cross-shaped rotary table are in contact with the edges of the arc groove rotary table.

Compared with the prior art, the invention provides the uniform feeding device for mixing the sodium carbonate and the quartz sand, which has the following beneficial effects:

1. according to the invention, the dredging rod and the counterweight are driven to rotate through the first servo motor, so that the dredging rod can dredge sodium carbonate or quartz sand blocked in the feeding storage tank, meanwhile, the counterweight is stretched through the spring in the rotating process, so that the T-shaped round rod slides up and down in the loop rod, the feeding storage tank and the hollow disc tank shake up and down, the discharging of sodium carbonate and quartz sand is facilitated, in addition, the circular arc groove turntable and the swinging rod are driven to rotate through the transmission wheel set, the stirring cylinder respectively enters into four U-shaped grooves of the U-shaped groove cross turntable, the U-shaped groove cross turntable is stirred to intermittently rotate, the material distributing disc is convenient to intermittently rotate, and the four storage grooves on the material distributing disc intermittently complete uniform feeding work, so that the working efficiency and the accuracy of solid sodium silicate production proportioning are improved;

2. according to the invention, the first bevel gear is driven to rotate by the second servo motor, so that the third bevel gear and the second bevel gear are driven to rotate in different directions, and the stirring rod and the separation circular plate are driven to rotate in different directions; when the stirring rod rotates, the stirring rod can stir the sodium carbonate and the quartz sand, so that the sodium carbonate and the quartz sand are fully mixed; when the separation circular plate rotates, two feeding circular holes on the separation circular plate are communicated with two feeding holes of the stirring box successively for a plurality of times, so that sodium carbonate and quartz sand can conveniently enter the stirring box, and when the two feeding circular holes are separated from the two feeding holes, the two feeding holes can be sealed by the separation circular plate, so that sodium carbonate and quartz sand can be stored in the two input grooves, uniform feeding work of sodium carbonate and quartz sand is facilitated, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of a uniform feeding device for mixing soda ash and quartz sand;

FIG. 2 is a schematic rear view of the structure of FIG. 1;

FIG. 3 is a schematic view of the left-hand, partially cut-away structure of FIG. 1;

FIG. 4 is an enlarged schematic view of the portion A of FIG. 3;

FIG. 5 is a schematic view of the rear view partially in section of FIG. 1;

FIG. 6 is a schematic perspective view of the material distributing and stirring mechanism after the protective cover and the protective shell are removed;

FIG. 7 is a schematic perspective exploded view of the discharge assembly;

FIG. 8 is a schematic perspective view of a uniform feeding mechanism;

FIG. 9 is a schematic perspective view of the uniform feed mechanism after removal of the feed reservoir, hollow disk tank and input tank;

FIG. 10 is a right side view of the schematic of FIG. 9;

fig. 11 is a view showing an operation state of the uniform feeding mechanism in a partially cut-away state.

In the figure: 1. a feed reservoir; 2. u-shaped groove cross-shaped turntables; 3. an input slot; 4. a protective cover; 5. a stirring tank; 6. a discharge chute; 7. a support frame; 8. a protective shell; 9. a loop bar; 10. a spring; 11. a hollow disc groove; 12. a counterweight; 13. a swinging rod; 14. a mounting frame; 15. a first servo motor; 16. arc groove rotary table; 17. a second servo motor; 18. an S-shaped scraping plate; 19. a stirring rod; 20. a first bevel gear; 21. a separation circular plate; 22. a second bevel gear; 23. a third bevel gear; 24. a thinning rod; 25. t-shaped round rod; 26. a feed inlet; 27. a storage groove; 28. a material distributing disc; 29. a feeding round hole; 30. an electric hydraulic rod; 31. a first semicircular arc seat; 32. a separation baffle; 33. an opening chute; 34. a sealing plate; 35. a sleeve column; 36. a concave sliding column; 37. a second semicircular arc seat; 38. a connecting column; 39. a transmission wheel set; 40. stirring the cylinder; 41. and a reverse conical discharge hole.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-11, the present invention provides a technical solution: the uniform feeding device for mixing sodium carbonate and quartz sand comprises a stirring box 5, a material separating and stirring mechanism, a discharging component and a uniform feeding mechanism, wherein a supporting frame 7 is welded at the lower end of the stirring box 5, an inverted cone discharging hole 41 is formed in the front side of the lower end of the stirring box 5, and feeding holes 26 are formed in the left side and the right side of the upper end of the stirring box 5; the discharging component is arranged on one side, close to the inverted cone discharging hole 41, of the lower end face of the stirring tank 5, and the inverted cone discharging hole 41 is communicated with the discharging component, and the discharging component is used for controlling discharging work of the sodium carbonate and quartz sand after being mixed in the stirring tank 5; the material distributing and stirring mechanism is arranged in the stirring box 5 in a penetrating way, the top of the material distributing and stirring mechanism is positioned on the upper surface of the stirring box 5, and the material distributing and stirring mechanism is used for mixing and stirring the sodium carbonate and the quartz sand and controlling the feeding of the sodium carbonate and the quartz sand; the number of the uniform feeding mechanisms is two, the two uniform feeding mechanisms are arranged on two sides of the upper surface of the stirring tank 5, and the two uniform feeding mechanisms are used for uniformly feeding sodium carbonate and quartz sand.

As shown in fig. 1, 2, 3 and 7, the discharging assembly comprises a discharging chute 6, an electric hydraulic rod 30 and a second semicircular arc seat 37, wherein the discharging chute 6 is welded on the front side of the lower surface of the stirring tank 5, the discharging chute 6 is communicated with a reversed cone discharging hole 41, an opening chute 33 is formed on the upper side of the discharging chute 6, sleeve columns 35 are welded on the upper sides of the left end and the right end of the discharging chute 6, concave sliding columns 36 are connected inside the two sleeve columns 35 in a sliding manner, a sealing plate 34 is welded at the front end of the concave sliding column 36, the sealing plate 34 is positioned on the front side of the discharging chute 6, a separation baffle 32 is welded at the rear end of the sealing plate 34, the separation baffle 32 is in sliding connection with the opening chute 33, a first semicircular arc seat 31 is welded at the rear side of the lower end of the concave sliding column 36, the second semicircular arc seat 37 is welded on the lower end surface of the stirring tank 5, the electric hydraulic rod 30 is mounted on the second semicircular arc seat 37, and the telescopic rod of the electric hydraulic rod 30 penetrates through the second semicircular arc seat 37 and is fixedly mounted with the first semicircular arc seat 31;

by means of the extension and retraction of the electric hydraulic rod 30, the concave sliding column 36, the sealing plate 34 and the separation baffle 32 are driven to slide back and forth, so that the separation baffle 32 can complete the opening and closing operation of the discharge chute 6, the discharging operation of mixed materials is controlled, the automatic discharging operation is realized, and the working efficiency is improved.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 6, the material separating and stirring mechanism comprises a protecting shell 8, a stirring rod 19 and a separating circular plate 21, wherein the protecting shell 8 is welded in the middle of the upper end face of the stirring box 5, the protecting cover 4 is rotationally connected to the front side of the protecting shell 8, a second servo motor 17 is mounted in the middle of the rear end of the protecting shell 8, a motor shaft of the second servo motor 17 penetrates into the protecting shell 8, the outer wall of the motor shaft of the protecting shell 8 is sleeved with a first bevel gear 20, the first bevel gear 20 is positioned in the protecting shell 8, the stirring rod 19 is rotationally connected with the stirring box 5, the top of the stirring rod 19 penetrates into the protecting shell 8, the upper side and the lower side of the outer wall of the stirring rod 19 are respectively sleeved with a third bevel gear 23 and a second bevel gear 22, the third bevel gear 23 and the second bevel gear 22 are both positioned in the protecting shell 8, the bottom of the second bevel gear 22 penetrates into the inside the protecting shell 5, the lower side of the second bevel gear 22 is sleeved with the third bevel gear 23 and the second bevel gear 22, the lower bevel gear 22 is in contact with the sealing circular plate 21 is arranged on the sealing circular plate 21, the sealing circular plate 18 is arranged on the sealing circular plate 18, the sealing circular plate is in contact with the sealing circular plate 18 is arranged on the sealing circular plate 18, and the sealing circular plate 18 is in contact with the sealing circular plate 18, and the sealing circular plate is in the sealing circular plate 8 is in contact with the sealing circular plate 8, and the sealing circular plate 18 is in the sealing circular plate 8;

the second servo motor 17 drives the first bevel gear 20 to rotate, so that the third bevel gear 23 and the second bevel gear 22 are driven to rotate in different directions, and the stirring rod 19 and the separation circular plate 21 are driven to rotate in different directions;

when the stirring rod 19 rotates, the stirring rod 19 can stir the sodium carbonate and the quartz sand, so that the sodium carbonate and the quartz sand are fully mixed;

when the separation circular plate 21 rotates, the two feeding circular holes 29 on the separation circular plate 21 are communicated with the two feeding holes 26 of the stirring box 5 for a plurality of times, so that sodium carbonate and quartz sand can uniformly enter the stirring box 5, and the two input grooves 3 can store sodium carbonate and quartz sand to finish proportioning.

As shown in fig. 1, 2, 3, 5, 8, 9 and 10, the uniform feeding mechanism comprises a feeding storage tank 1, an input tank 3, a hollow disc tank 11, a vibration component and a material distributing component, wherein the input tank 3 is welded on the upper surface of a stirring tank 5, the input tank 3 is communicated with a feeding port 26, the hollow disc tank 11 extending upwards is slidingly connected in the upper side of the input tank 3, two symmetrical vibration components are arranged between the hollow disc tank 11 and the stirring tank 5, the material distributing component is arranged on the hollow disc tank 11, and the feeding storage tank 1 is welded at the upper end of the hollow disc tank 11; the vibration assembly comprises a loop bar 9, a spring 10, a T-shaped round bar 25 and a connecting column 38, wherein the loop bar 9 is arranged on the upper surface of the stirring tank 5, the T-shaped round bar 25 is connected inside the upper side of the loop bar 9 in a sliding manner, the upper end of the T-shaped round bar 25 penetrates through the top of the loop bar 9, the connecting column 38 is welded at the upper end of the T-shaped round bar 25, the connecting column 38 is welded on the outer wall of the lower side of the hollow disc groove 11, the spring 10 is sleeved on the outer wall of the upper side of the T-shaped round bar 25, and two ends of the spring 10 are respectively contacted with the connecting column 38 and the loop bar 9; the material distribution assembly comprises a material distribution disc 28, a dredging rod 24, a mounting frame 14, a first servo motor 15 and two circular arc groove turntables 16, wherein the dredging rod 24 is rotatably sleeved inside the upper side of the hollow circular disc groove 11, two ends of the dredging rod 24 penetrate through and extend out of the hollow circular disc groove 11, two ends of the dredging rod 24 are sleeved with weights 12, the mounting frame 14 is welded on the upper side of the rear end face of the hollow circular disc groove 11, the first servo motor 15 is mounted on the rear end face of the mounting frame 14, a motor shaft of the first servo motor 15 penetrates through the rear end face of the mounting frame 14, a coupler is arranged between the motor shaft of the first servo motor 15 and the dredging rod 24, the two circular arc groove turntables 16 are rotatably sleeved on the upper sides of the front end and the rear end of the hollow circular disc groove 11, two symmetrical transmission wheel sets 39 are arranged between the two circular arc groove turntables 16 and the outer walls of the two sides of the dredging rod 24, swinging rods 13 are arranged on the outer walls of one side of the two circular arc groove turntables 16 far from the hollow circular disc groove 11, one side of the two swinging rods 13 far from the hollow circular disc groove turntables 16 are provided with swinging rods 40, the two circular arc groove turntables 28 extend out of the two circular arc groove turntables 28 respectively, and the two circular arc groove turntables 28 extend out of the hollow circular disc 11 are sleeved on the two ends of the hollow circular disc groove 2 respectively, and the two circular arc groove turntables 28 extend out of the hollow circular disc groove 2 respectively; the upper sides of the front end and the rear end of the hollow disc groove 11 are provided with connecting shafts matched with the circular arc groove turntables 16, the upper sides of the front end and the rear end of the hollow disc groove 11 are connected with first round holes, the first round holes are positioned on the upper sides of the connecting shafts, and the middle parts of the front end and the rear end of the hollow disc groove 11 are provided with second round holes matched with the material distributing discs 28; four sides of the U-shaped groove cross turntable 2 are provided with U-shaped grooves matched with the poking cylinder 40, an arc surface is arranged between the wheel edge of the U-shaped groove cross turntable 2 close to two adjacent U-shaped grooves, and the wheel edge of the U-shaped groove cross turntable 2 is contacted with the wheel edge of the arc groove turntable 16;

the dredging rod 24 and the two counterweights 12 are driven to rotate through the first servo motor 15, so that the dredging rod 24 can dredge soda or quartz sand blocked inside the feeding storage tank 1, meanwhile, the two counterweights 12 stretch out and draw back through the two springs 10 in the rotating process, the two T-shaped round rods 25 slide up and down inside the two loop bars 9, the feeding storage tank 1 and the hollow disc tank 11 are also enabled to shake up and down, discharging of soda and quartz sand is facilitated, in addition, in the rotating process of the dredging rod 24, the two circular arc tank turntables 16 and the two swinging rods 13 are driven to rotate through the two driving wheel sets 39, the two stirring cylinders 40 respectively enter the four U-shaped grooves of the two U-shaped tank cross turntables 2, the two U-shaped tank cross turntables 2 are stirred to intermittently rotate, the material distributing disc 28 is conveniently and the four storage grooves 27 on the material distributing disc 28 are also enabled to intermittently complete uniform feeding work.

The working principle and the using flow of the invention are as follows: before using, the whole device is fixedly installed at a designated position by a worker, then the worker electrically connects the second servo motor 17, the two first servo motors 15 and the electric hydraulic rod 30 with an external controller through wires, and then the worker respectively pours sodium carbonate and quartz sand into the feed storage tanks 1 of the two uniform feeding mechanisms for storage;

when the servo motor is used, a worker can work the second servo motor 17 and the two first servo motors 15 by operating the external controller;

when the two first servo motors 15 work, the two first servo motors 15 drive the sparse guide rods 24 to rotate, so that the two counterweights 12 are driven to rotate;

when the dredging rod 24 rotates, the dredging rod 24 can dredge the sodium carbonate or quartz sand blocked in the feeding storage tank 1, meanwhile, in the rotating process of the dredging rod 24, the two circular arc groove turntables 16 and the two swinging rods 13 are driven to rotate through the two transmission wheel sets 39, so that the two stirring cylinders 40 respectively enter four U-shaped grooves of the two U-shaped groove cross turntables 2 and stir the two U-shaped groove cross turntables 2 to intermittently rotate, the material distributing disc 28 is convenient to intermittently rotate, and the four storage grooves 27 can be intermittently communicated with the feeding storage tank 1 and the input tank 3 respectively;

when one storage groove 27 on the material distributing disc 28 is communicated with the feeding storage groove 1, sodium carbonate or quartz sand in the feeding storage groove 1 enters the storage groove 27 for storage, proportioning is completed, and meanwhile, the other storage groove 27 is communicated with the input groove 3, so that when the material distributing disc 28 rotates intermittently, the four storage grooves 27 can intermittently complete uniform feeding;

when the two counterweights 12 rotate, the two T-shaped round rods 25 slide up and down in the two loop bars 9 through the expansion and contraction of the two springs 10, and the feeding storage tank 1 and the hollow disc tank 11 shake up and down, so that the discharging of sodium carbonate and quartz sand is facilitated;

when the second servo motor 17 rotates, the first bevel gear 20 is driven to rotate, and as the first bevel gear 20 is respectively meshed with the third bevel gear 23 and the second bevel gear 22, and the third bevel gear 23 and the second bevel gear 22 are respectively symmetrically distributed on the upper side and the lower side of the first bevel gear 20, when the first bevel gear 20 rotates, the third bevel gear 23 and the second bevel gear 22 are driven to rotate, the rotation directions of the third bevel gear 23 and the second bevel gear 22 are different, and when the third bevel gear 23 and the second bevel gear 22 rotate, the stirring rod 19 and the separation circular plate 21 are driven to rotate, and the rotation directions of the stirring rod 19 and the separation circular plate 21 are also different;

when the separation circular plate 21 rotates, the two feeding circular holes 29 on the separation circular plate 21 are driven to rotate, and when the two feeding circular holes 29 are separated from the two feeding openings 26, other solid parts of the separation circular plate 21 can seal the two feeding openings 26, so that the two input grooves 3 can respectively store sodium carbonate and quartz sand, and the proportioning storage work of the sodium carbonate and the quartz sand is completed; when the two feeding round holes 29 are communicated with the two feeding holes 26 of the stirring box 5 for a plurality of times, sodium carbonate and quartz sand stored in the two input grooves 3 can enter the stirring box 5 uniformly, so that the sodium carbonate and quartz sand can be fed uniformly;

when the stirring rod 19 rotates, the stirring rod 19 can stir the sodium carbonate and the quartz sand, so that the sodium carbonate and the quartz sand are fully mixed, and meanwhile, the stirring rod 19 can drive the S-shaped scraping plate 18 to rotate;

after the mixing and stirring time is reached, the worker operates the external controller again, so that the electric hydraulic rod 30 stretches and contracts, and when the electric hydraulic rod 30 stretches and contracts, the concave sliding column 36, the sealing plate 34 and the separation baffle 32 are driven to slide back and forth, so that the separation baffle 32 can complete the opening and closing operation of the discharge chute 6;

when the separation baffle 32 slides forwards and the discharge port of the discharge chute 6 is opened, the mixed sodium carbonate and quartz sand in the stirring tank 5 can be discharged through the inverted cone discharge port 41 and the discharge chute 6, and meanwhile, the rotary S-shaped scraping plate 18 can push the mixed sodium carbonate and quartz sand at the bottom of the stirring tank 5 to the inverted cone discharge port 41, so that the mixed sodium carbonate and quartz sand can be discharged conveniently, and further, the subsequent production work of workers can be facilitated; when the separating screen 32 is slid backwards and the discharge chute 6 is opened, the discharge of the mixed soda and sand is avoided.

Claims

1. The utility model provides a soda and quartz sand mix with even feeding device, includes agitator tank (5), divides material rabbling mechanism, ejection of compact subassembly and even feeding mechanism, its characterized in that: the lower end of the stirring box (5) is welded with a supporting frame (7), the front side of the lower end of the stirring box (5) is provided with an inverted cone discharge hole (41), and the left side and the right side of the upper end of the stirring box (5) are provided with feed inlets (26);

the discharging component is arranged on one side, close to the inverted cone discharging hole (41), of the lower end face of the stirring box (5), and the inverted cone discharging hole (41) is communicated with the discharging component, and the discharging component is used for controlling discharging work of sodium carbonate and quartz sand after being mixed in the stirring box (5);

the material distribution stirring mechanism is arranged in the stirring box (5) in a penetrating manner, the top of the material distribution stirring mechanism is positioned on the upper surface of the stirring box (5), and the material distribution stirring mechanism is used for mixing and stirring sodium carbonate and quartz sand and controlling feeding of the sodium carbonate and the quartz sand;

the number of the uniform feeding mechanisms is two, the two uniform feeding mechanisms are arranged on two sides of the upper surface of the stirring box (5), and the two uniform feeding mechanisms are used for uniformly feeding sodium carbonate and quartz sand.

2. The uniform feeding device for mixing soda ash and quartz sand according to claim 1, wherein: the utility model provides a discharging component includes blown down tank (6), electronic hydraulic stem (30) and second semicircle seat (37), blown down tank (6) welding is in the front side of the lower surface of agitator tank (5), and blown down tank (6) and the feed back of inverted cone discharge gate (41), open spout (33) have been seted up to the upside of blown down tank (6), both ends upside welding has cover post (35) about blown down tank (6), two the inside sliding connection of cover post (35) has concave shape slide post (36), the front end welding of concave shape slide post (36) has closing plate (34), and closing plate (34) are located the front side of blown down tank (6), the rear end welding of closing plate (34) has partition baffle (32), and partition baffle (32) and open spout (33) sliding connection, the lower extreme rear side welding of concave shape slide post (36) has first semicircle seat (31), second semicircle seat (37) welding is at the terminal surface under agitator tank (5), and second semicircle seat (37) are located the front side of electric hydraulic stem (37), second semicircle seat (37) and second semicircle seat (37) are located the front side of electric stem (30).

3. The uniform feeding device for mixing soda ash and quartz sand according to claim 1, wherein: the material separating and stirring mechanism comprises a protecting shell (8), a stirring rod (19) and a separation circular plate (21), wherein the protecting shell (8) is welded at the middle part of the upper end face of the stirring box (5), the protecting cover (4) is rotationally connected to the front side of the protecting shell (8), a second servo motor (17) is mounted at the middle part of the rear end of the protecting shell (8), a motor shaft of the second servo motor (17) penetrates into the protecting shell (8), a first bevel gear (20) is sleeved on the outer wall of the motor shaft of the protecting shell (8), the first bevel gear (20) is positioned in the protecting shell (8), the stirring rod (19) is rotationally connected with the stirring box (5), the top of the stirring rod (19) penetrates into the protecting shell (8), a third bevel gear (23) and a second bevel gear (22) are sleeved on the upper side and the lower side of the outer wall of the stirring rod (19) close to the first bevel gear (20), the third bevel gear (23) and the second bevel gear (22) are respectively positioned in the protecting shell (8), the first bevel gear (23) and the second bevel gear (22) are meshed with the second bevel gear (22) and the second bevel gear (22) penetrates into the inner side (22), and separate the inside that plectane (21) is located agitator tank (5), the upper surface that separates plectane (21) and the top inner wall contact of agitator tank (5), feed round hole (29) have been seted up to both sides that separate plectane (21), the lower extreme welding of puddler (19) has S type scraper blade (18), and the lower surface and the bottom inner wall contact of agitator tank (5) of S type scraper blade (18).

4. The uniform feeding device for mixing soda ash and quartz sand according to claim 1, wherein: even feed mechanism includes feeding bin (1), input groove (3), cavity disc groove (11), vibrations subassembly and feed divider spare, input groove (3) welding is at the upper surface of agitator tank (5), and input groove (3) and feed inlet (26) intercommunication, the inside sliding connection of upside of input groove (3) has extension ascending cavity disc groove (11), be equipped with the vibrations subassembly of two symmetries between cavity disc groove (11) and agitator tank (5), be equipped with the feed divider subassembly on cavity disc groove (11), the upper end welding of cavity disc groove (11) has feeding bin (1).

5. The uniform feeding device for mixing soda ash and quartz sand according to claim 4, wherein: the vibration assembly comprises a loop bar (9), a spring (10), a T-shaped round bar (25) and a connecting column (38), wherein the loop bar (9) is installed on the upper surface of the stirring tank (5), the T-shaped round bar (25) is connected to the upper side of the loop bar (9) in a sliding mode, the upper end of the T-shaped round bar (25) penetrates through the top of the loop bar (9), the connecting column (38) is welded at the upper end of the T-shaped round bar (25), the connecting column (38) is welded on the outer wall of the lower side of the hollow round disc groove (11), the spring (10) is sleeved on the outer wall of the upper side of the T-shaped round bar (25), and two ends of the spring (10) are respectively in contact with the connecting column (38) and the loop bar (9).

6. The uniform feeding device for mixing soda ash and quartz sand according to claim 4, wherein: the material distributing assembly comprises a material distributing disc (28), a dredging rod (24), a mounting frame (14), a first servo motor (15) and two arc groove rotating discs (16), wherein the dredging rod (24) is rotatably sleeved inside the upper side of the hollow disc groove (11), two ends of the dredging rod (24) penetrate through the hollow disc groove (11), the two ends of the dredging rod (24) are sleeved with weights (12), the mounting frame (14) is welded on the upper side of the rear end face of the hollow disc groove (11), the first servo motor (15) is mounted on the rear end face of the mounting frame (14), a motor shaft of the first servo motor (15) penetrates through the rear end face of the mounting frame (14), a coupling is arranged between a motor shaft of the first servo motor (15) and the dredging rod (24), two arc groove turntables (16) are rotatably sleeved on the upper sides of the front end and the rear end of the hollow disc groove (11), two symmetrical transmission wheel sets (39) are arranged between the two arc groove turntables (16) and the outer walls of the two sides of the dredging rod (24), the two transmission wheel sets (39) are positioned on the front side and the rear side of the hollow disc groove (11), a swinging rod (13) is arranged on the outer wall of one side, far away from the hollow disc groove (11), of the arc groove turntables (16), a toggle cylinder (40) is arranged on one side, far away from the arc groove turntables (16), of the two swinging rods (13), the material distribution disc (28) is rotatably sleeved in the middle of the hollow disc groove (11), two ends of the material distribution disc (28) penetrate through two ends of the hollow disc groove (11), and the outer walls of the two material distribution discs (28) are sleeved with the U-shaped groove cross-shaped rotary disc (2).

7. The uniform feeding device for mixing soda ash and quartz sand according to claim 6, wherein: the upper sides of the front end and the rear end of the hollow disc groove (11) are provided with connecting shafts matched with the circular arc groove turntables (16), the upper sides of the front end and the rear end of the hollow disc groove (11) are connected with first round holes, the first round holes are located on the upper sides of the connecting shafts, and the middle parts of the front end and the rear end of the hollow disc groove (11) are provided with second round holes matched with the distributing discs (28).

8. The uniform feeding device for mixing soda ash and quartz sand according to claim 7, wherein: u-shaped grooves matched with the poking cylinder (40) are formed in the four sides of the U-shaped groove cross rotary table (2), arc surfaces are arranged between the edges of the U-shaped groove cross rotary table (2) close to two adjacent U-shaped grooves, and the edges of the U-shaped groove cross rotary table (2) are in contact with the edges of the arc groove rotary table (16).