CN117260966B - Batching mixing equipment for producing ceramic particles - Google Patents

Abstract

The invention relates to the technical field of ceramic particle production, and provides batching mixing equipment for producing ceramic particles, which comprises a mixing cylinder, and further comprises a rotating cylinder, a circular sliding rail, a stirring assembly, an installation top cover and a lifting assembly, wherein the rotating cylinder is rotatably arranged in the mixing cylinder, the circular sliding rail is arranged in the mixing cylinder, the stirring assembly is multiple in number, the stirring assemblies are all in sliding connection with the circular sliding rail, the rotating cylinder is in sliding connection with the circular sliding rail through the stirring assembly, the installation top cover is arranged at the top of the mixing cylinder, the installation top cover is fixedly connected with the circular sliding rail, the lifting assembly is arranged between the installation top cover and the mixing cylinder, and the lifting assembly is used for driving the installation top cover, the circular sliding rail and the rotating cylinder to rise. Through the technical scheme, the problem that the charging mode of various ingredients in the prior art is unfavorable for fully mixing various ingredients in the follow-up process is solved.

Description

Batching mixing equipment for producing ceramic particles

Technical Field

The invention relates to the technical field of ceramic particle production, in particular to a batching and mixing device for producing ceramic particles.

Background

The ceramic particles are a special road ceramic product, which is prepared by mixing clay, feldspar, glass powder and inorganic toner, then forging and granulating, and calcining at high temperature, and can be applied to road construction.

When various ingredients for ceramic particle production are mixed, the ceramic particles are more in ingredients, and the various ingredients are different in quality, so that when the various ingredients are mixed, the various ingredients are required to be fully and uniformly mixed, the problems that the produced ceramic particle coil is uneven in quality and unqualified in quality in the subsequent sintering operation process are avoided, the various ingredients are mixed in the prior art, the various ingredients are filled into a mixing cylinder in proportion and are directly mixed, but the feeding mode of the ingredients causes uneven distribution of the various ingredients, so that the time for fully mixing the various ingredients is prolonged, water is required to be added into the mixing cylinder when the ingredients are mixed, a certain viscosity is generated after the ingredients are mixed, and the difficulty of fully mixing the ingredients is improved.

Disclosure of Invention

The invention provides a batching mixing device for producing ceramic particles, which solves the problems that the feeding mode of various batching in the related art is not beneficial to fully mixing various batching in the follow-up process.

The technical scheme of the invention is as follows: a batch mixing apparatus for producing ceramic particles, comprising a mixing bowl, further comprising:

the rotary cylinder body is rotatably arranged in the mixing cylinder body;

The circular sliding rail is arranged in the mixing cylinder;

the stirring assemblies are arranged in a plurality, the stirring assemblies are all in sliding connection with the circular sliding rail, and the rotating cylinder body is in sliding connection with the circular sliding rail through the stirring assemblies;

The installation top cover is arranged at the top of the mixing cylinder and is fixedly connected with the circular sliding rail;

The lifting assembly is arranged between the installation top cover and the mixing cylinder body and is used for driving the installation top cover, the circular sliding rail and the rotating cylinder body to ascend;

The closed bucket cover is arranged at the bottom of the mixing cylinder and is in penetrating sliding fit with the bottom of the rotating cylinder;

the main material filling cylinders are arranged in a plurality, and are fixedly connected with the rotary cylinder;

the auxiliary material discharging assembly is rotatably arranged on one side of the main material filling cylinder, which is far away from the rotary cylinder;

the ingredient discharging assembly is arranged at the bottom of the mixing cylinder and is used for discharging the mixed ingredients from the mixing cylinder;

The rotary driving assembly is arranged among the rotary cylinder, the main material filling cylinder and the auxiliary material discharging assembly and is used for driving the auxiliary material discharging assembly to rotate and driving the auxiliary material discharging assembly to discharge the mixed auxiliary materials;

the water adding components are arranged in a plurality, each water adding component is arranged in the mixing cylinder, and the water adding components are fixedly connected with the rotating cylinder.

In order to fully stir various ingredients filled into the mixing cylinder, preferably, the stirring assembly comprises a supporting ring plate, sliding groove bodies, a stirring frame, sliding plate bodies, sliding sleeves and sliding seats, wherein the supporting ring plate is rotationally connected to the inner bottom of the mixing cylinder, the sealing bucket covers are attached to the top ends of the supporting ring plate, the number of the sliding groove bodies is multiple, the sliding groove bodies are fixedly connected to the supporting ring plate, each sliding groove body is fixedly connected with the stirring frame, each sliding groove body is fixedly connected with the sliding plate body in a sliding manner, each sliding plate body is fixedly connected with a mounting plate, each mounting plate is fixedly connected with multiple sliding sleeves at the bottom ends of the sliding plate, the stirring plates are in sliding connection with the sliding sleeves, springs are arranged between the inner walls of the sliding sleeves and the stirring plates, and each sliding plate body is fixedly connected with the cylinder through the sliding seats in a sliding manner.

In order to drive installation top cap, circular slide rail, rotate barrel and rotate the part on the barrel and rise, further, lifting unit includes installed part, first motor, connecting plate body, lifting screw and second motor, installed part fixed connection is in the bottom of installation top cap, first motor sets up the bottom of installed part, the output of first motor with rotate barrel fixed connection, connecting plate body fixed connection is in on the installation top cap, the outside of mixing the barrel is provided with the support frame group, connecting plate body with support frame group sliding connection, lifting screw passes through the rotation of cover and connects on the outer wall of mixing the barrel, connecting plate body with lifting screw threaded connection, the second motor sets up on the mixing the barrel, the output of second motor with lifting screw fixed connection.

In order to annotate main batching into the mixing drum, still further, the bottom of main material annotates the section of thick bamboo is provided with row material control assembly, row material control assembly includes row flitch, striker plate, third motor and drive electric cylinder, row flitch sliding fit is in the main material annotates the section of thick bamboo, a plurality of bin gates have been seted up on the row flitch, the bottom rotation of row flitch is connected with the rotation seat, the striker plate the quantity with bin gates one-to-one, the striker plate with rotate seat fixed connection, the third motor sets up the interior bottom of main material annotates the section of thick bamboo, the output of third motor with rotate seat fixed connection, the bottom fixedly connected with dust box of main material annotates the section of thick bamboo, the drive electric cylinder sets up in the dust box, the output of drive electric cylinder with third motor fixed connection.

In order to accurately fill multiple auxiliary materials into the mixing cylinder, further, the auxiliary material discharging assembly comprises an auxiliary material filling cylinder, a weighing plate, a feeding pipe and a discharging pipe, wherein a plurality of weighing plates are arranged in the auxiliary material filling cylinder, the weighing plates are used for dividing the inside of the auxiliary material filling cylinder into a plurality of filling cavities, each filling cavity is provided with the feeding pipe, the feeding pipe is communicated with the auxiliary material filling cylinder, a valve is arranged on the feeding pipe, each filling cavity is obliquely provided with the discharging pipe, the discharging pipe is communicated with the auxiliary material filling cylinder, and a flow valve is arranged on the discharging pipe.

In order to shift out the batching after mixing in the mixing drum, on the basis of this scheme, batching discharge assembly includes row material barrel, pivot, go-between cover and scraping the bottom plate, row material barrel sets up the bottom of mixing the barrel, a plurality of feed inlets have been seted up at row material barrel's top, the pivot runs through and rotates to be connected in the row material barrel, be provided with screw conveyer flabellum in the pivot, the go-between cover sets up the top of pivot, the quantity of scraping the bottom plate is a plurality of, a plurality of scrape the bottom plate all with go-between cover fixed connection.

In order to drive auxiliary material and discharge the assembly and discharge the batching after mixing, on the basis of above-mentioned scheme, rotate drive assembly includes axis of rotation, fourth motor, pinion one, dust shield, bull stick one and drive gear three, the axis of rotation rotates to be connected in the rotary cylinder, the holding tank has been seted up to the bottom of axis of rotation, the holding tank with the top sliding connection of axis of rotation, the fourth motor sets up in the rotary cylinder, the output of fourth motor with axis of rotation fixed connection, pinion one cover is established in the axis of rotation, the meshing has drive gear one on the pinion one, the dust shield sets up on the outer wall of main material filling section of thick bamboo, rotate on the outer wall of main material filling section of thick bamboo and be connected with pinion two, the meshing has drive gear two on the pinion two, bull stick one fixed connection be in between drive gear one with drive gear two, the three meshing of drive gear sets up on the pinion two, fixedly connected with on the drive gear three, two and the bull stick are connected with the dust shield rotates on the outer wall of main material filling section of thick bamboo.

In order to evenly annotate water to mixing drum in, on the basis of this scheme, further, add the water subassembly and include water adding cylinder, water adding pipe, drain pipe and sprinkler head, water adding cylinder with rotate barrel fixed connection, water adding pipe intercommunication is in water adding cylinder's top, water adding cylinder's bottom intercommunication has a plurality of the drain pipe, be provided with the control valve on the drain pipe, every the bottom of drain pipe all communicates has the sprinkler head.

In order to guarantee that the mixing cylinder is closed in the process of ascending the installation top cover, on the basis of the scheme, the device further comprises a telescopic sleeve and a fixed ring, wherein the telescopic sleeve is arranged at the top of the mixing cylinder, the fixed ring is arranged at the top of the telescopic sleeve, and the fixed ring is detachably connected with the installation top cover through a plugboard.

In order to enable the closed bucket cover to ascend together after the rotary cylinder body ascends, the novel rotary bucket cover is further characterized by further comprising a connecting frame and a connecting rod, wherein the connecting frame is arranged at the bottom of the closed bucket cover, the connecting rod is slidably connected in the connecting frame, and the connecting rod is fixedly connected with the bottom of the rotary cylinder body.

The working principle and the beneficial effects of the invention are as follows:

1. In the invention, when various ingredients required in the ceramic particle production process are required to be fully stirred, main ingredients are firstly filled into a main material filling cylinder, then various auxiliary ingredients with smaller proportion content are respectively filled into each filling cavity of an auxiliary material filling cylinder, the flow rate of a flow valve on a discharge pipe of each filling cavity is regulated, then water for mixing is filled into a water filling cylinder, in the process of filling the main ingredients, auxiliary materials and water into a mixing cylinder, the main material filling cylinder, the auxiliary material filling cylinder and the water filling cylinder are rotated along the central point of the rotating cylinder by driving the rotating cylinder, when the main material filling cylinder, the auxiliary material filling cylinder and the water filling cylinder are used for discharging ingredients or water, uniform filling can be realized, before the various ingredients and water are stirred, the various ingredients and the water can be uniformly mixed together, the mixing difficulty between the various ingredients and the water is reduced, and the total amount of the ingredients and the water can be discharged according to the corresponding total discharging speed of the discharge control assembly at the bottom of the main material filling cylinder, the discharge pipe and the flow valve on the discharge pipe and the water can be regulated, and the water can be discharged according to the total discharging speed of the ingredients and the water is ensured;

2. In the invention, various ingredients and water are required to be fully mixed in the filling process, the rotary barrel rotates to enable the sliding seat, the sliding groove body, the stirring frame, the sliding plate body and the sliding sleeve to slide at the bottom of the circular sliding rail, the stirring frame, the mounting plate, the sliding sleeve and the stirring plate are used for fully mixing various ingredients and water in the rotary barrel, when the lifting assembly drives the components arranged on the mounting top cover, the rotary barrel and the rotary barrel to lift, the sliding plate body also lifts in the sliding groove body, the stirring plate can be ejected out of the sliding sleeve under the action of the spring, various ingredients and water in the mixing barrel are fully mixed, and the main material filling barrel, the auxiliary material filling barrel and the water filling barrel are all positioned at the inner bottom of the mixing barrel at first, so that in order to realize the full mixing of various ingredients and water at the bottom of the mixing barrel, the mounting plate, the sliding sleeve and the stirring plate are also positioned at the bottom side of the mixing barrel, the mixing speed of the ingredients and water at the bottom of the mixing barrel is accelerated, and the discharged ingredients and water gradually increase along with the lifting assembly, the main material filling barrel and the stirring plate lift the auxiliary material filling barrel and the stirring plate are lifted out of the mixing barrel along with the lifting assembly, and the lifting assembly is continuously lifted out of the mixing barrel along with the lifting assembly;

3. After various ingredients and water in the mixing cylinder are mixed, the sealing bucket cover is driven to rise after the connecting rod is attached to the inner top wall of the connecting frame through the rising of the rotating cylinder, so that mixed materials can enter the bottom of the mixing cylinder through a gap between the mixing cylinder and the sealing bucket cover, enter the discharging cylinder through the feeding hole, the rotating shaft is driven to rotate through the rotating driving assembly, the mixed ingredients are discharged from the discharging cylinder through the spiral conveying fan blade, in order to speed up the entering speed of the ingredients into the discharging cylinder, the connecting ring sleeve and the plurality of scraping plates are driven to scrape the bottom of the mixing cylinder in the rotating process of the rotating shaft, and the mixed materials can be moved into the discharging cylinder more quickly because the scraping plates are arc-shaped, so that the discharging speed of the mixed ingredients is effectively improved;

4. In the invention, in the process of lifting the installation top cover and a plurality of parts at the bottom of the installation top cover together, in order to prevent ingredients from leaking from the mixing cylinder, the telescopic sleeve is arranged, in the process of lifting the installation top cover through the detachable connection relation between the fixed ring and the installation top cover, the telescopic sleeve can lift together with the installation top cover, the sealing between the mixing cylinder and the installation top cover is always ensured, and when various ingredients and water are required to be filled into the main material filling cylinder, the auxiliary material filling cylinder and the water filling cylinder, the fixed ring and the installation top cover can be detached, so that the normal feeding operation of a user is not influenced;

5. Therefore, the batching mixing device for producing ceramic particles can ensure that various batching and water are uniformly doped before being stirred in the process of filling various batching and water, reduce the subsequent difficulty of mixing various batching and water, and improve the overall mixing efficiency of various batching and water.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a part of the present invention in cross section;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic view of the invention with portions broken away of the mixing assembly, lifting assembly, rotating bowl and ingredient discharge assembly engaged;

FIG. 4 is a schematic view of the structure of the stirring assembly, the lifting assembly, the rotating cylinder and the main material filling cylinder of the present invention in partial cross section;

FIG. 5 is a schematic view of a partial enlarged structure at A in FIG. 4 according to the present invention;

FIG. 6 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 4;

FIG. 7 is a schematic view of a partially cut-away configuration of the cooperation of the discharge control assembly, the auxiliary material discharge assembly, the rotary drive assembly and the water addition assembly of the present invention;

FIG. 8 is a schematic view of a partial cross-sectional configuration of the main charge fill cylinder and discharge control assembly of the present invention;

FIG. 9 is a schematic view in partial cross-section of the main charge cartridge and discharge control assembly of the present invention from another perspective;

FIG. 10 is a schematic view in partial cross-section of the closure cap, ingredient discharge assembly and connecting frame of the present invention;

FIG. 11 is a schematic view in partial cross-section of the fitting of the mounting cap, telescoping sleeve and retaining ring of the present invention.

In the figure: 100. a stirring assembly; 200. a lifting assembly; 300. a discharge control assembly; 400. an auxiliary material discharge assembly; 500. a ingredient discharge assembly; 600. a rotary drive assembly; 700. a water adding component;

1. A mixing cylinder; 2. rotating the cylinder; 3. a circular slide rail; 4. installing a top cover; 5. closing the bucket cover; 6. a main material filling cylinder; 7. a support ring plate; 8. a sliding groove body; 9. a stirring frame; 10. a sliding plate body; 11. a sliding sleeve; 12. a stirring plate; 13. a sliding seat; 14. a mounting member; 15. a first motor; 16. a connecting plate body; 17. a support frame group; 18. lifting screw rods; 19. a second motor; 20. a discharge plate; 21. a rotating seat; 22. a striker plate; 23. a third motor; 24. driving an electric cylinder; 25. a dust separating box; 26. an auxiliary material filling cylinder; 27. a weighing plate; 28. a feeding tube; 29. a discharge pipe; 30. a discharging cylinder; 31. a rotating shaft; 32. spiral conveying fan blades; 33. a connecting ring sleeve; 34. scraping a bottom plate; 35. a rotating shaft; 36. a fourth motor; 37. a transverse gear I; 38. a first transmission gear; 39. a dust-proof cover; 40. a transverse gear II; 41. a transmission gear II; 42. a first rotating rod; 43. a transmission gear III; 44. a second rotating rod; 45. a water adding cylinder; 46. a water supply pipe; 47. a drain pipe; 48. a spray port; 49. a telescoping sleeve; 50. a fixing ring; 51. inserting plate; 52. a connection frame; 53. and (5) connecting a rod.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill 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.

As shown in fig. 1 to 11, this embodiment provides a batching mixing equipment for producing ceramic particles, including mixing barrel 1, still including rotating barrel 2 and circular slide rail 3, rotating barrel 2 rotates and sets up in mixing barrel 1, circular slide rail 3 sets up in mixing barrel 1, the quantity of stirring subassembly 100 is established to a plurality of, a plurality of stirring subassemblies 100 all with circular slide rail 3 sliding connection, through stirring subassembly 100 sliding connection between rotating barrel 2 and the circular slide rail 3, stirring subassembly 100 includes supporting ring plate 7, sliding groove body 8, stirring frame 9, sliding plate 10, sliding sleeve 11 and sliding seat 13, supporting ring plate 7 rotates the interior bottom at mixing barrel 1, seal bucket lid 5 and the laminating of the top of supporting ring plate 7, the quantity of sliding groove body 8 is established to a plurality of, a plurality of sliding groove bodies 8 all fixed connection are on supporting ring plate 7, all fixedly connected with stirring frame 9 on every sliding groove body 8, all sliding connection has sliding plate 10 on every sliding plate 10, fixedly connected with mounting panel bottom fixedly connected with mounting panel, sliding plate 11 and sliding plate 11 need to be connected with the inner wall 12 in the mixing barrel 1 in the fixed connection barrel 2 and sliding seat 13 because of rotating barrel 2, the fixed connection between the mixing barrel 1 and the sliding plate 1 is driven to the sliding plate 13, the fixed connection between the inner wall 12 and the mixing barrel 1 is rotated to the fixed connection of the sliding plate 1, the bottom of the sliding plate is carried out, the fixed connection between the sliding plate is required, the mixing barrel is 3 and the mixing barrel is rotated with the sliding plate 1, the sliding plate is driven by the sliding plate 3, the mixing barrel is connected with the sliding plate 3, the mixing barrel 3 and the mixing barrel 3, and the mixing barrel is fixed, the sliding groove body 8 and the plurality of components fixed on the sliding plate body 10 and the sliding groove body 8 rotate together along the center point of the rotating cylinder body 2 to fully mix various ingredients and water filled into the mixing cylinder body 1, and because the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 are all positioned at the inner bottom of the mixing cylinder body 1 when the various ingredients and water are discharged for the first time, in order to fully mix the various ingredients and water at the bottom of the mixing cylinder body 1, the mounting plate, the sliding sleeve 11 and the stirring plate 12 also mix the ingredients and the water at the bottom of the mixing cylinder body 1 together with the stirring frame 9 at the bottom side of the mixing cylinder body 1, so that the mixing speed of the ingredients and the water at the bottom of the mixing cylinder body 1 is accelerated, and as the discharged ingredients and the water are gradually increased, the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 are lifted up in the mixing cylinder body 1 together with the rotating cylinder body 2, the sliding plate body 10 and the sliding sleeve 11 are lifted, the ingredients and the water filled into the middle position in the mixing cylinder body 1 are continuously mixed, and the stirring plate 12 is ejected in the sliding sleeve 11, so that the mixing speed of the ingredients and the water at the mixing area of the mixing cylinder body 1 is increased.

The installation top cover 4 is arranged at the top of the mixing cylinder 1, the installation top cover 4 is fixedly connected with the circular sliding rail 3, a lifting component 200 is arranged between the installation top cover 4 and the mixing cylinder 1, the lifting component 200 is used for driving the installation top cover 4, the circular sliding rail 3 and the rotating cylinder 2 to lift, the lifting component 200 comprises an installation piece 14, a first motor 15, a connecting plate body 16, a lifting screw 18 and a second motor 19, the installation piece 14 is fixedly connected at the bottom of the installation top cover 4, the first motor 15 is arranged at the bottom of the installation piece 14, the output end of the first motor 15 is fixedly connected with the rotating cylinder 2, the connecting plate body 16 is fixedly connected on the installation top cover 4, a supporting frame group 17 is arranged at the outer side of the mixing cylinder 1, the connecting plate body 16 is in sliding connection with the supporting frame group 17, the lifting screw 18 is rotationally connected on the outer wall of the mixing cylinder 1 through a rotating sleeve, the connecting plate body 16 is in threaded connection with the lifting screw 18, the second motor 19 is arranged on the mixing cylinder 1, the output end of the second motor 19 is fixedly connected with the lifting screw 18, in order to achieve the purpose of filling various ingredients and water into the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45, and in order to enable the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 to complete uniform filling of various ingredients and water more quickly, the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 need to be lifted in the mixing cylinder 1, when the ingredients and water need to be added into the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45, the lifting screw 18 is started to rotate by starting the second motor 19, the connecting plate 16 is driven by the lifting screw 18 to lift the connecting plate 16, the mounting top cover 4 is driven by the driving action of the lifting screw 18, and the main material filling cylinder 6 is driven by the connecting plate 16, the auxiliary material filling cylinder 26 and the water filling cylinder 45 are moved out of the mixing cylinder 1, so that a user can conveniently fill ingredients into the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45;

In order to reduce the floating of the ingredients in the mixing cylinder 1 and avoid the problem of inconsistent dropping speeds of the different ingredients caused by higher discharge heights, the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 need to be lowered to a lower position in the mixing cylinder 1 during the process of discharging the ingredients and water in the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45, and then the ingredients and water in the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 are discharged, and as the ingredients and water in the mixing cylinder 1 are continuously increased, the connecting plate 16 is driven to be raised by the lifting screw 18, so that the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 are raised in the mixing cylinder 1 and the ingredients and water are discharged into the mixing cylinder 1;

The novel mixing drum further comprises a telescopic sleeve 49 and a fixed ring 50, wherein the telescopic sleeve 49 is arranged at the top of the mixing drum 1, the fixed ring 50 is arranged at the top of the telescopic sleeve 49, the fixed ring 50 is detachably connected with the installation top cover 4 through a plugboard 51, after various ingredients and water are filled into the main material filling drum 6, the auxiliary material filling drum 26 and the water filling drum 45, the installation top cover 4 is provided with a circular groove corresponding to the fixed ring 50, the fixed ring 50 stretches into the circular groove, the fixed ring 50 and the installation top cover 4 are fixed through a disassembling plate, so that in the process of discharging and rising the ingredients and the water through the main material filling drum 6, the auxiliary material filling drum 26 and the water filling drum 45, even if the installation top cover 4, the main material filling drum 6, the auxiliary material filling drum 26, the water filling drum 45 and other parts like rise in the mixing drum 1, the mixing drum 1 can be kept closed under the action of the telescopic sleeve 49, the ingredients and the water can be effectively prevented from leaking from the inside the mixing drum 1, and other dirt such as external dust can be prevented from entering the mixing drum 1.

The closed bucket cover 5 is arranged at the bottom of the mixing barrel 1, the closed bucket cover 5 and the bottom of the rotating barrel 2 are in sliding fit, the closed bucket cover further comprises a connecting frame 52 and a connecting rod 53, the connecting frame 52 is arranged at the bottom of the closed bucket cover 5, the connecting rod 53 is in sliding connection with the inner top wall of the connecting frame 52, the connecting rod 53 is fixedly connected with the bottom of the rotating barrel 2, the closed bucket cover 5 can effectively prevent ingredients and water from entering the discharging barrel 30, and the mixed ingredients and water can be enabled to move to the bottom side of the closed bucket cover 5 faster due to the fact that the closed bucket cover 5 is conical, after various ingredients and water in the mixing barrel 1 are mixed, in the process that the rotating barrel 2 is driven to rise by the top cover 4, the connecting rod 53 can rise along with the rotating barrel 2, in the rising process of the rotating barrel 2, the connecting rod 53 is attached to the inner top wall of the connecting frame 52, the connecting rod 53 drives the connecting frame 52 to rise along with the continuous rising of the rotating barrel 2, the mixed ingredients and water can flow into the inner wall of the mixing barrel 1 through the closed bucket cover 5, and finally the mixed ingredients and water flow into the inner wall of the mixing barrel 1 to the discharging barrel 30.

The number of the main material filling barrels 6 is multiple, the top of the main material filling barrels 6 is communicated with a feeding pipe, the plurality of main material filling barrels 6 are fixedly connected with the rotary barrel 2, the bottom of the main material filling barrels 6 is provided with a material discharging control assembly 300, the material discharging control assembly 300 comprises a material discharging plate 20, a material blocking plate 22, a third motor 23 and a driving electric cylinder 24, the material discharging plate 20 is in sliding fit in the main material filling barrels 6, a plurality of material discharging ports are arranged on the material discharging plate 20, in order to improve the flow speed of ingredients, the top end of the material discharging plate 20 is arranged into a slope, the bottom end of the material discharging plate 20 is rotationally connected with a rotary seat 21, the number of the material blocking plates 22 is in one-to-one correspondence with the material discharging ports, the material blocking plates 22 are fixedly connected with the rotary seat 21, the third motor 23 is arranged at the inner bottom of the main material filling barrels 6, the output end of the third motor 23 is fixedly connected with the rotary seat 21, the bottom of the main material filling barrels 6 is fixedly connected with a dust separating box 25, the driving electric cylinder 24 is arranged in the dust-proof box 25, the output end of the driving electric cylinder 24 is fixedly connected with the third motor 23, because the proportion of various main ingredients and auxiliary ingredients for ceramic particle production has strict requirements, when the main ingredients are filled into the main material filling cylinder 6, the driving electric cylinder 24 is started to push the third motor 23, the discharging plate 20 and other components to move in the main material filling cylinder 6, the main ingredients are limited in the storage area of the main material filling cylinder 6, a user can conveniently control the total filling amount of the main ingredients into the main material filling cylinder 6, finally the main material filling cylinder 6 is filled with the ingredients through a feeding pipe preset on the top of the main material filling cylinder 6, and when the main ingredients are discharged from the main material filling cylinder 6, the third motor 23 is started to drive the plurality of baffle plates 22 to turn over along the center point of the rotating seat 21 at the bottom end of the discharging plate 20, the baffle plate 22 is moved away from the bottom of the discharge hole, so that the main ingredients can be discharged through the gap generated between the discharge hole and the baffle plate 22, and according to different angles of the movement of the baffle plate 22, the discharge speed of the main ingredients in the main material filling cylinder 6 can be controlled, so that different main material filling cylinders 6 can store different main ingredients with different types and weights, the mixing uniformity of the various ingredients is improved, and the dust box 25 can effectively prevent the ingredients from adhering to the driving electric cylinder 24.

The auxiliary material discharging assembly 400 rotates to be set up in the one side that main charge section of thick bamboo 6 kept away from the rotation barrel 2, auxiliary material discharging assembly 400 includes auxiliary material filling section of thick bamboo 26, weighing plate 27, charging tube 28 and row material pipe 29, be provided with a plurality of weighing plates 27 in the auxiliary material filling section of thick bamboo 26, a plurality of charging chambers are separated into with the inside of auxiliary material filling section of thick bamboo 26 to a plurality of weighing plates 27, each charging intracavity all is provided with charging tube 28, charging tube 28 and auxiliary material filling section of thick bamboo 26 intercommunication, be provided with the valve on the charging tube 28, each charging intracavity all slope is provided with row material pipe 29, row material pipe 29 and auxiliary material filling section of thick bamboo 26 intercommunication, be provided with the flow valve on the row material pipe 29, and when filling auxiliary ingredient to the auxiliary material filling section of thick bamboo 26 in the time of thick bamboo, at first, be provided with weight sensor on the weighing plate 27, can carry out the strict control to the weight of the auxiliary ingredient of each filling in each filling chamber, after the auxiliary material filling finishes, valve on all charging tube 28 is closed, then open the flow valve on the auxiliary material pipe 29, the flow valve is provided with the flow valve on the auxiliary ingredient pipe 29, the various auxiliary ingredient filling chamber is filled evenly according to various auxiliary ingredient filling speed, and the various auxiliary ingredient discharging speed is discharged and the various auxiliary ingredient is evenly, and the various auxiliary ingredient is discharged and the various is discharged according to various auxiliary ingredient speed and is different.

The batching discharging component 500 sets up in the bottom of mixing barrel 1 for discharge the batching after mixing from mixing barrel 1, batching discharging component 500 includes discharge barrel 30, pivot 31, go-between sleeve 33 and scraping plate 34, discharge barrel 30 sets up in the bottom of mixing barrel 1, a plurality of feed inlets have been seted up at the top of discharge barrel 30, pivot 31 runs through the rotation and connects in discharge barrel 30, be provided with spiral delivery flabellum 32 in the pivot 31, go-between sleeve 33 sets up at the top of pivot 31, the quantity of scraping plate 34 is a plurality of, a plurality of scraping plate 34 all with go-between sleeve 33 fixed connection, finish mixing batching and water in mixing barrel 1, and seal bucket lid 5 rise and make batching after mixing and water flow into near the discharge gate of discharge barrel 30, because the bottom of rotating barrel 2 is the bucket type, so batching after mixing and water flow into in the discharge gate, enter into in the discharge barrel 30 through the discharge gate, and because the holding tank of the bottom of pivot 31 and axis 35 is sliding connection, so even the axis 35 is along with rotating up 2 and rotating the top of pivot 31, the quantity of scraping plate 34 is a plurality of, can still drive the inner wall of mixing barrel 31 in order to carry out the mixing barrel 30, and the inner wall of mixing barrel 30 is still can be carried out in order to the mixing barrel 1, and the inner wall of mixing barrel 30 is still carried out in order to carry out in the mixing barrel 1, and the mixing barrel is moved out in order to carry out the inner wall of mixing barrel 31.

The rotary driving assembly 600 is arranged between the rotary cylinder 2, the main material filling cylinder 6 and the auxiliary material discharging assembly 400, and is used for driving the auxiliary material discharging assembly 400 to rotate and driving the auxiliary material discharging assembly 500 to discharge the mixed auxiliary material, the rotary driving assembly 600 comprises a rotary shaft 35, a fourth motor 36, a first transverse gear 37, a dust-separating cover 39, a first rotary rod 42 and a third transmission gear 43, the rotary shaft 35 is rotationally connected in the rotary cylinder 2, a containing groove is arranged at the bottom of the rotary shaft 35, the containing groove is in sliding connection with the top of the rotary shaft 31, the fourth motor 36 is arranged in the rotary cylinder 2, the output end of the fourth motor 36 is fixedly connected with the rotary shaft 35, the first transverse gear 37 is sleeved on the rotary shaft 35, the first transverse gear 37 is meshed with a first transmission gear 38, the dust-separating cover 39 is arranged on the outer wall of the main material filling cylinder 6, the second transverse gear 40 is rotationally connected with a second transverse gear 40, the first rotary rod 42 is fixedly connected between the first transmission gear 38 and the second transmission gear 41, the third transmission gear 43 is meshed with the second transverse gear 40, the third transmission gear 43 is fixedly connected with the top of the rotary rod 31, the second rotary rod 44 is fixedly connected with the second rotary rod 44, the second rotary rod 44 is also rotatably connected with the second rotary rod 44, the second rotary rod 44 is rotatably connected with the auxiliary material filling cylinder 26 is rotatably connected with the auxiliary material filling cylinder 35, and the auxiliary material is rotatably connected with the auxiliary material 35 in order to rotate, and the auxiliary material is matched with the auxiliary material filling cylinder 35, the auxiliary material is filled with the auxiliary material and has a high-quality material, and is filled with the auxiliary material and has a high quality material, and is filled material and has a high quality and a low quality material quality. The first transverse gear 37 drives the first transmission gear 38, the second transmission gear 41 and the first rotary rod 42 to rotate, so that the second transverse gear 40 rotates on the outer wall of the main material filling cylinder 6, the second transverse gear 40 drives the third transmission gear 43 and the second rotary rod 44 to rotate, the second rotary rod 44 drives the auxiliary material filling cylinder 26 to swing on one side of the main material filling cylinder 6, the auxiliary material discharging speed in the auxiliary material filling cylinder 26 is increased through centrifugal force, the discharging area of auxiliary materials can be increased, the mixing effect of various subsequent auxiliary materials is improved, and the auxiliary materials can be prevented from adhering to the second transverse gear 40 and other components in the process of filling the auxiliary materials through the dust separation cover 39.

The quantity of the water adding assemblies 700 is set to be a plurality of, every water adding assembly 700 all sets up in mixing cylinder 1, a plurality of water adding assemblies 700 all with rotate cylinder 2 fixed connection, water adding assembly 700 includes water adding cylinder 45, water adding pipe 46, drain pipe 47 and sprinkler 48, water adding cylinder 45 and rotate cylinder 2 fixed connection, water adding pipe 46 communicates at the top of water adding cylinder 45, water adding cylinder 45's bottom intercommunication has a plurality of drain pipes 47, be provided with the control valve on the drain pipe 47, the bottom of every drain pipe 47 all communicates has sprinkler 48, in the mixing process to various batching, still need add water to the batching, in the in-process to main material filling cylinder 6 and auxiliary material filling cylinder 26 filling batching, add the water into water adding cylinder 45 through water adding pipe 46, and in the rotation process of water adding cylinder 45 along with rotating cylinder 2, control valve control water in drain pipe 47, make the drain rate of water and the drain rate looks adaptation of various batching, finally, evenly fill water into mixing cylinder 1 through sprinkler 48, mix into mixing cylinder 1.

The working principle of the batching and mixing device for producing ceramic particles is as follows: firstly, a second motor 19 is started to drive a lifting screw 18 to rotate, so that a connecting plate 16 drives an installation top cover 4 to ascend under the driving action of the lifting screw 18, a main material filling cylinder 6, an auxiliary material filling cylinder 26 and a water filling cylinder 45 are moved out of the mixing cylinder 1, a user conveniently fills ingredients into the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45, and after the ingredients and water are filled, the lifting screw 18 drives a rotating cylinder 2, a circular sliding rail 3 and all parts on the rotating cylinder 2 and the circular sliding rail 3 to descend to the inner bottom side of the mixing cylinder 1;

Starting a third motor 23 to drive a plurality of baffle plates 22 to turn over along the center point of a rotating seat 21 at the bottom end of a discharging plate 20, so that the baffle plates 22 move away from the bottom of a discharging hole, main ingredients can be discharged through gaps generated between the discharging hole and the baffle plates 22, starting a first motor 15 to drive a rotating cylinder 2 to rotate, so that the rotating cylinder 2 drives a main material filling cylinder 6 and a water filling cylinder 45 to rotate in a mixing cylinder 1 along the center point of the rotating cylinder 2, starting a fourth motor 36 to drive a rotating shaft 35 to rotate in the rotating cylinder 2, driving a first transverse gear 37 to rotate in the rotating process of the rotating shaft 35, driving a first transmission gear 38, a second transmission gear 41 and a first rotary rod 42 to rotate, driving a third transverse gear 40 to rotate on the outer wall of the main material filling cylinder 6, driving a third transmission gear 43 and a second rotary rod 44 to rotate, driving an auxiliary material filling cylinder 26 to rotate on one side of the main material filling cylinder 6 through the second rotary rod 44, accelerating auxiliary materials in the auxiliary material filling cylinder 26 through centrifugal force, and driving water in the water filling cylinder 45 to enter the water discharge pipe 47 to the water discharge hole 47 and the water discharge pipe 48 to finish the mixing operation;

In the process of rotating the rotating cylinder 2, because of the fixed connection relation between the sliding seat 13 and the rotating cylinder 2, the sliding plate body 10, the sliding groove body 8 and a plurality of components fixed on the sliding plate body 10 and the sliding groove body 8 are driven to rotate together along the central point of the rotating cylinder 2, so that various ingredients and water filled into the mixing cylinder 1 are fully mixed, as discharged ingredients and water are gradually increased, the main material filling cylinder 6, the auxiliary material filling cylinder 26 and the water filling cylinder 45 rise in the mixing cylinder 1 together with the rotating cylinder 2, the sliding plate body 10 and the sliding sleeve 11 rise, the ingredients filled into the middle position in the mixing cylinder 1 are continuously mixed, and the stirring plate 12 pops up in the sliding sleeve 11, so that the mixing area of the various ingredients and water is increased;

After the ingredients and the water are mixed, the closed bucket cover 5 is driven to rise through the connecting frame 52 and the connecting rod 53 in the rising process of the rotary cylinder 2, so that the mixed ingredients enter the inner bottom wall of the rotary cylinder 2 through a gap generated between the closed bucket cover 5 and the inner wall of the rotary cylinder 2, the ingredients can enter the discharge cylinder 30 through a discharge hole, the rotary shaft 31 is driven to rotate through the rotary shaft 35, the rotary shaft 31 drives the spiral conveying fan blade 32 to rotate, the mixed ingredients are moved out of the discharge cylinder 30, in order to improve the speed of the mixed ingredients entering the discharge cylinder 30, the arc scraping plate 34 is driven to scrape the inner bottom wall of the mixing cylinder 1 through the connecting ring sleeve 33 in the rotating process of the rotary shaft 31, the mixed ingredients can enter the discharge cylinder 30 more quickly, and the ingredients are prevented from remaining on the inner wall of the mixing cylinder 1.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (10)

1. A batch mixing device for producing ceramic particles, comprising a mixing bowl (1), characterized in that it further comprises:

The rotary cylinder (2), the rotary cylinder (2) is rotatably arranged in the mixing cylinder (1);

The circular sliding rail (3), the circular sliding rail (3) is arranged in the mixing cylinder (1);

The stirring assemblies (100) are arranged in a plurality, the stirring assemblies (100) are connected with the circular sliding rail (3) in a sliding mode, and the rotary cylinder (2) is connected with the circular sliding rail (3) in a sliding mode through the stirring assemblies (100);

The installation top cover (4) is arranged at the top of the mixing cylinder (1), and the installation top cover (4) is fixedly connected with the circular sliding rail (3);

the lifting assembly (200) is arranged between the installation top cover (4) and the mixing cylinder (1), and the lifting assembly (200) is used for driving the installation top cover (4), the circular sliding rail (3) and the rotating cylinder (2) to ascend;

The closed bucket cover (5) is arranged at the bottom of the mixing cylinder (1), and the closed bucket cover (5) is in penetrating sliding fit with the bottom of the rotating cylinder (2);

the main material filling cylinders (6) are arranged in a plurality, and the main material filling cylinders (6) are fixedly connected with the rotary cylinder body (2);

The auxiliary material discharging assembly (400) is rotatably arranged on one side, far away from the rotary cylinder (2), of the main material filling cylinder (6);

The ingredient discharging assembly (500) is arranged at the bottom of the mixing barrel (1) and is used for discharging the mixed ingredients from the mixing barrel (1);

the rotary driving assembly (600) is arranged among the rotary cylinder (2), the main material filling cylinder (6) and the auxiliary material discharging assembly (400) and is used for driving the auxiliary material discharging assembly (400) to rotate and driving the auxiliary material discharging assembly (500) to discharge the mixed auxiliary materials;

The water adding assemblies (700), the number of the water adding assemblies (700) is multiple, each water adding assembly (700) is arranged in the mixing cylinder (1), and the multiple water adding assemblies (700) are fixedly connected with the rotating cylinder (2).

2. A batch mixing apparatus for producing ceramic particles according to claim 1, wherein the stirring assembly (100) comprises:

The support ring plate (7), the support ring plate (7) is rotationally connected to the inner bottom of the mixing cylinder (1), and the closed bucket cover (5) is attached to the top end of the support ring plate (7);

The sliding groove bodies (8) are arranged in a plurality, and the sliding groove bodies (8) are fixedly connected to the supporting ring plate (7);

The stirring frames (9) are fixedly connected with the stirring frames (9) on each sliding groove body (8);

The sliding plate bodies (10) are connected onto each sliding groove body (8) in a sliding manner, and the sliding plate bodies (10) are fixedly connected with mounting plates;

The device comprises sliding sleeves (11), wherein the bottom end of each mounting plate is fixedly connected with a plurality of the sliding sleeves (11), stirring plates (12) are connected in a sliding manner in the sliding sleeves (11), and springs are arranged between the inner walls of the sliding sleeves (11) and the stirring plates (12);

And each sliding plate body (10) is in sliding connection with the circular sliding rail (3) through the sliding seat (13), and the sliding seat (13) is fixedly connected with the rotary cylinder body (2).

3. A batch mixing apparatus for producing ceramic particles according to claim 2, wherein the lifting assembly (200) comprises:

the mounting piece (14), the said mounting piece (14) is fixedly connected to the bottom of the said installation top cap (4);

the first motor (15) is arranged at the bottom of the mounting piece (14), and the output end of the first motor (15) is fixedly connected with the rotary cylinder (2);

the connecting plate body (16), the connecting plate body (16) is fixedly connected to the mounting top cover (4), a supporting frame group (17) is arranged on the outer side of the mixing cylinder body (1), and the connecting plate body (16) is in sliding connection with the supporting frame group (17);

The lifting screw (18) is rotationally connected to the outer wall of the mixing cylinder (1) through a rotating sleeve, and the connecting plate body (16) is in threaded connection with the lifting screw (18);

the second motor (19), the second motor (19) is arranged on the mixing cylinder (1), and the output end of the second motor (19) is fixedly connected with the lifting screw (18).

4. A batch mixing apparatus for producing ceramic particles according to claim 3, characterized in that the bottom of the main batch charging barrel (6) is provided with a discharge control assembly (300), the discharge control assembly (300) comprising:

the material discharging plate (20), the material discharging plate (20) is in sliding fit in the main material filling cylinder (6), a plurality of material discharging ports are formed in the material discharging plate (20), and a rotating seat (21) is rotatably connected to the bottom end of the material discharging plate (20);

the number of the material blocking plates (22) corresponds to that of the material discharging holes one by one, and the material blocking plates (22) are fixedly connected with the rotating seat (21);

the third motor (23) is arranged at the inner bottom of the main material filling cylinder (6), and the output end of the third motor (23) is fixedly connected with the rotating seat (21);

The device comprises a driving electric cylinder (24), wherein a dust separation box (25) is fixedly connected to the bottom of the main material filling cylinder (6), the driving electric cylinder (24) is arranged in the dust separation box (25), and the output end of the driving electric cylinder (24) is fixedly connected with a third motor (23).

5. A batch mixing apparatus for producing ceramic particles according to claim 4, wherein the auxiliary material discharge assembly (400) comprises:

An auxiliary material filling cylinder (26);

the weighing plates (27) are arranged in the auxiliary material filling cylinders (26), and the weighing plates (27) divide the inside of the auxiliary material filling cylinders (26) into a plurality of filling cavities;

the filling cavity is internally provided with filling pipes (28), each filling pipe (28) is communicated with the auxiliary material filling cylinder (26), and each filling pipe (28) is provided with a valve;

Arrange material pipe (29), every the filling intracavity all inclines to be provided with arrange material pipe (29), arrange material pipe (29) with auxiliary material filling section of thick bamboo (26) intercommunication, be provided with the flow valve on arranging material pipe (29).

6. A batch mixing apparatus for producing ceramic particles according to claim 5, wherein the batch discharge assembly (500) comprises:

the discharging barrel (30) is arranged at the bottom of the mixing barrel (1), and a plurality of feeding holes are formed in the top of the discharging barrel (30);

The rotating shaft (31) is connected in the discharging cylinder body (30) in a penetrating and rotating mode, and spiral conveying fan blades (32) are arranged on the rotating shaft (31);

The connecting ring sleeve (33), the connecting ring sleeve (33) is arranged at the top of the rotating shaft (31);

the scraping plates (34) are multiple in number, and the scraping plates (34) are fixedly connected with the connecting ring sleeve (33).

7. A batch mixing apparatus for producing ceramic particles according to claim 6, wherein the rotary drive assembly (600) comprises:

The rotary shaft (35), the rotary shaft (35) is rotatably connected in the rotary cylinder (2), the bottom of the rotary shaft (35) is provided with a containing groove, and the containing groove is slidably connected with the top of the rotary shaft (31);

the fourth motor (36), the said fourth motor (36) is set up in the said rotary cylinder (2), the output end of the said fourth motor (36) is fixedly connected with said rotary shaft (35);

The first transverse gear (37) is sleeved on the rotating shaft (35), and a first transmission gear (38) is meshed with the first transverse gear (37);

The dust separation cover (39), the dust separation cover (39) is arranged on the outer wall of the main material filling cylinder (6), a transverse gear II (40) is rotationally connected to the outer wall of the main material filling cylinder (6), and a transmission gear II (41) is meshed with the transverse gear II (40);

a first rotating rod (42), wherein the first rotating rod (42) is fixedly connected between the first transmission gear (38) and the second transmission gear (41);

The third transmission gear (43), the third transmission gear (43) is meshed and arranged on the second transverse gear (40), the third transmission gear (43) is fixedly connected with a second rotating rod (44), the second rotating rod (44) is connected with the dust-proof cover (39) in a penetrating and rotating mode, and the second rotating rod (44) is fixedly connected with the auxiliary material filling cylinder (26).

8. A batch mixing apparatus for producing ceramic particles according to claim 7, wherein the water addition assembly (700) comprises:

a water adding cylinder (45), wherein the water adding cylinder (45) is fixedly connected with the rotating cylinder (2);

a water adding pipe (46), wherein the water adding pipe (46) is communicated with the top of the water adding cylinder (45);

A drain pipe (47), wherein the bottom of the water adding cylinder body (45) is communicated with a plurality of drain pipes (47), and a control valve is arranged on each drain pipe (47);

and the bottom of each drain pipe (47) is communicated with the spraying opening (48).

9. A batch mixing device for producing ceramic particles according to claim 8, further comprising:

-a telescopic sleeve (49), said telescopic sleeve (49) being arranged on top of said mixing drum (1);

The fixing ring (50), the fixing ring (50) is arranged at the top of the telescopic sleeve (49), and the fixing ring (50) is detachably connected with the installation top cover (4) through the inserting plate (51).

10. A batch mixing apparatus for producing ceramic particles as claimed in claim 9, further comprising:

a connecting frame (52), wherein the connecting frame (52) is arranged at the bottom of the closed bucket cover (5);

The connecting rod (53), connecting rod (53) sliding connection is in the connection frame (52), connecting rod (53) with the bottom fixed connection of rotating barrel (2).