阅读说明：本技术 一种混合均匀的超白玻璃生产线 (Ultra-white glass production line of misce bene ) 是由 徐狄佳 于 2021-07-30 设计创作，主要内容包括：本发明公开了一种混合均匀的超白玻璃生产线,涉及超白玻璃加工设备技术领域,包括搅拌筒体,还包括搅拌组件,所述搅拌组件安装在搅拌筒体内,包括呈圆周阵列周向布置在搅拌筒体内的多组转动杆,所述转动杆表面均匀设置多组搅拌杆,用于对加至搅拌筒体内的物料进行搅拌处理,以及循环组件,所述循环组件安装在搅拌筒体内,用于对经过搅拌杆搅拌后的物料进行循环提升,以及研磨组件,经过初步搅拌后的物料落至搅拌筒体内底部,通过循环组件对物料向上进行提升,提升后的物料输送至研磨组件,研磨后的物料再次落至搅拌筒体内进行混合搅拌处理,提高了混合效果,使物料更加均匀,生产效率更高,且节约了能源。(The invention discloses an ultra-white glass production line with uniform mixing, which relates to the technical field of ultra-white glass processing equipment, and comprises a stirring cylinder body and a stirring assembly, wherein the stirring assembly is arranged in the stirring cylinder body and comprises a plurality of groups of rotating rods circumferentially arranged in the stirring cylinder body in a circumferential array, a plurality of groups of stirring rods are uniformly arranged on the surface of the rotating rods and used for stirring materials added into the stirring cylinder body, a circulating assembly is arranged in the stirring cylinder body and used for circularly lifting the materials stirred by the stirring rods, a grinding assembly is used for dropping the primarily stirred materials to the bottom in the stirring cylinder body and lifting the materials upwards by the circulating assembly, the lifted materials are conveyed to the grinding assembly, the ground materials are dropped into the stirring cylinder body again for mixing and stirring treatment, and the mixing effect is improved, the material is more uniform, the production efficiency is higher, and the energy is saved.)

1. The utility model provides a super white glass production line of misce bene, includes stirring barrel (1), stirring barrel (1) and support (8) fixed connection, support (8) bottom fixed mounting supports base (4), its characterized in that still includes

Stirring subassembly, the stirring unit mount is in stirring barrel (1), including being multiunit dwang (16) that circumference array circumference was arranged in stirring barrel (1), dwang (16) surface evenly sets up multiunit puddler (17) for stir the processing to the material that adds to in stirring barrel (1), and reach

The circulation assembly is arranged in the stirring cylinder body (1) and used for circularly lifting the materials stirred by the stirring rod (17), and

the grinding assembly is installed in the outer side of the stirring barrel body (1), and the stirring barrel body (1) is communicated with the circulating assembly and used for carrying out grinding treatment on large-particle materials conveyed to the stirring barrel body (1) through the circulating assembly and then carrying out mixing and stirring on the large-particle materials.

2. The uniformly-mixed ultra-white glass production line according to claim 1, characterized in that the stirring assembly further comprises a plurality of sets of first gears (18) circumferentially arranged in the stirring cylinder body (1), an annular rotary table (9) is arranged at the top of the stirring cylinder body (1), annular racks are arranged on the inner side and the outer side of the annular rotary table (9), the annular rack on the inner side of the annular rotary table (9) is meshed with the first gears (18), a second gear (7) is arranged on the outer side of the stirring cylinder body (1), the second gear (7) is meshed with the annular rack on the outer side of the annular rotary table (9), the second gear (7) is fixedly connected with the output end of the driving motor (21), and the tail end of the top of the rotating rod (16) is fixedly connected with the first gears (18).

3. The ultra-white glass production line of claim 1 or 2, characterized in that, the circulation subassembly includes circulation feed cylinder (3), install in stirring barrel (1) axle center department circulation feed cylinder (3), set up flood dragon in circulation feed cylinder (3) and expect blade (4), circulation feed cylinder (3) and flood dragon are expected blade (4) and extend to stirring barrel (1) bottom, and circulation feed cylinder (3) bottom both sides are provided with logical groove (13) that are used for the feeding, flood dragon is expected blade (4) and is connected with its pivoted rotating part of drive, flood dragon is expected blade (4) top both sides and is set up discharge member relatively, discharge member is connected with grinding component for carry the material that promotes in the circulation feed cylinder (3) to grinding component in, circulation feed cylinder (3) surface circumference sets up branch (20) that multiunit and gear (18) cooperation rotation are connected, the rotating rod (16) penetrates through the supporting rod (20) to be connected with the first gear (18), and the rotating rod (16) is rotatably connected with the supporting rod (20).

4. The production line of uniformly mixed ultra-white glass as claimed in claim 3, wherein the discharging component comprises a discharging groove (6), the discharging groove (6) is oppositely arranged on two sides of the top end of the circular material conveying cylinder (3), the discharging groove (6) is connected with an inclined material conveying plate (2), and one end of the inclined material conveying plate (2) far away from the circular material conveying cylinder (3) is connected with the grinding component.

5. The uniformly-mixed ultra-white glass production line according to claim 4, wherein the rotating component comprises a belt (5), and an output end of the driving motor (21) penetrates through the tail end of the second gear (7) and is in transmission connection with a conveyor blade (4) of a flood dragon through a belt (8).

6. The uniformly-mixed ultra-white glass production line according to claim 5, characterized in that the driving motor (21) drives the flood dragon material conveying blades (4) to rotate through the belt (8) in the rotating process.

7. The uniformly-mixed ultra-white glass production line as claimed in claim 6, characterized in that a plurality of groups of blanking holes (19) are uniformly arranged on the surface of the inclined material conveying plate (2), and the blanking holes (19) are used for screening materials falling onto the surface of the inclined material conveying plate (2).

8. The uniformly-mixed ultra-white glass production line according to claim 7, characterized in that the grinding assembly comprises a grinding box body (11), the grinding box body (11) is relatively fixedly installed at two sides of the stirring cylinder body (1), a feed inlet (10) is arranged at the top of the grinding box body (11), the feed inlet (10) is connected with the tail end of the inclined material conveying plate (2), grinding rollers (22) are oppositely arranged at two sides in the grinding box body (11), the grinding rollers (22) at two sides simultaneously rotate inwards to grind materials falling into the grinding box body (11), a blanking pipe (12) is connected at the bottom end of the grinding box body (11), and one end, far away from the grinding box body (11), of the blanking pipe (12 is communicated with the inside of the stirring cylinder body (1).

9. The uniformly-mixed ultra-white glass production line according to claim 8, characterized in that the surface of the grinding roller (22) is uniformly provided with a plurality of groups of grinding bulges (23).

10. The ultra-white glass production line of even mixing according to claim 9, characterized in that, agitator barrel (1) bottom sets up ejection of compact barrel (15), ejection of compact barrel (15) and agitator barrel (1) intercommunication, set up screen cloth (21) between ejection of compact barrel (15) and agitator barrel (1), screen cloth (21) are used for filtering the material after preliminary mixing is accomplished, install on screen cloth (21) surface at circulation defeated material section of thick bamboo (3), flood dragon is defeated material blade (4) and screen cloth (21) and is rotated and is connected, still be provided with pivot (24) in ejection of compact barrel (15), pivot (24) top end runs through screen cloth (21) and flood dragon is defeated material blade (4) fixed connection, pivot (24) surface both sides evenly set up multiunit stirring vane (25).

Technical Field

The invention relates to the technical field of ultra-white glass processing equipment, in particular to an ultra-white glass production line capable of uniformly mixing.

Background

The ultra-white glass is a high-quality, multifunctional, novel and high-grade glass, the light transmittance can reach more than 91.5%, the ultra-white glass has the characteristics of crystal clearness and high-grade elegance, the ultra-white glass has all the processability of high-quality float glass, has excellent physical, mechanical and optical properties, can be subjected to various deep processing like other high-quality float glass, and has incomparable excellent quality and product performance, so that the ultra-white glass has wide application space and bright market prospect.

In the extra white glass production line, need mix the stirring to extra white glass processing raw materials, only adopt single mixer to mix the stirring to the raw materials in actual production course of working, partial raw materials granule particle diameter is great, piles up together easily when mixing the stirring, stirs inefficiency moreover, stirs very inhomogeneous, leads to the extra white glass that produces also to be difficult to satisfy quality standard.

Disclosure of Invention

The invention aims to provide a uniformly mixed ultra-white glass production line to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a super white glass production line of misce bene, includes the stirring barrel, stirring barrel and support fixed connection, support bottom fixed mounting supports the base, still includes

The stirring subassembly, the stirring unit mount is in the churn, including being the multiunit dwang that circumference array circumference was arranged in the churn, the dwang surface evenly sets up the multiunit puddler for stir the processing to the material that adds to the churn in, and

the circulation subassembly, the circulation unit mount is in the churn for circulate the promotion to the material after the puddler stirring, and

and the grinding assembly is arranged outside the stirring barrel body, the stirring barrel body is communicated with the circulating assembly and used for carrying out grinding treatment on the large-particle materials conveyed to the stirring barrel body through the circulating assembly and then carrying out mixing and stirring on the large-particle materials conveyed to the stirring barrel body again.

Preferably, the stirring subassembly still includes that the multiunit is the gear I that circumference array circumference was arranged in the churn, the churn top sets up annular carousel, the annular carousel inside and outside all sets up annular rack, the inboard annular rack of annular carousel meshes with gear one, the churn outside sets up gear two, gear two and the meshing of annular carousel outside annular rack, gear two and driving motor output fixed connection, dwang top end and a gear fixed connection.

Preferably, the circulation subassembly is including the defeated material section of thick bamboo of circulation, the defeated material section of thick bamboo of circulation is installed in stirring barrel axle center department, set up the defeated material blade of flood dragon in the defeated material section of thick bamboo of circulation, the defeated material blade of circulation defeated material section of thick bamboo and flood dragon extends to the stirring barrel bottom, and the defeated material bottom both sides of circulation are provided with the logical groove that is used for the feeding, the defeated material blade of flood dragon is connected with its pivoted rotating part of drive, the defeated material blade top both sides of flood dragon set up relatively and arrange material part, arrange material part and grinding component and be connected for carry the material that promotes in the defeated material section of thick bamboo of circulation to grinding component in, the defeated material section of thick bamboo surface circumference of circulation sets up multiunit and gear cooperation rotation connection's branch, the dwang runs through branch and is connected with gear one, the dwang rotates with branch and is connected.

Preferably, the discharge part comprises a discharge groove, the two sides of the top end of the circular material conveying cylinder are oppositely provided with the discharge groove, the discharge groove is connected with an inclined material conveying plate, and one end, away from the circular material conveying cylinder, of the inclined material conveying plate is connected with the grinding assembly.

Preferably, the rotating part comprises a belt, and the output end of the driving motor penetrates through two ends of the gear and is in transmission connection with a conveying blade of the flood dragon through the belt.

Preferably, the driving motor drives the flood dragon material conveying blade to rotate through the belt in the rotating process.

Preferably, the inclined material conveying plate surface is uniformly provided with a plurality of groups of blanking holes, and the blanking holes are used for screening materials falling to the inclined material conveying plate surface.

Preferably, the grinding assembly comprises a grinding box body, the grinding box body is fixedly installed on two sides of the stirring barrel body relatively, a feed inlet is formed in the top of the grinding box body, the feed inlet is connected with the tail end of the inclined material conveying plate, grinding rollers are arranged on two sides of the inside of the grinding box body relatively, two sides of the grinding rollers rotate inwards simultaneously and are used for grinding materials falling into the grinding box body, a blanking pipe is connected to the bottom end of the grinding box body, and one end, away from the grinding box body, of the blanking pipe is communicated with the inside of the stirring barrel body.

Preferably, a plurality of groups of grinding protrusions are uniformly arranged on the surface of the grinding roller.

Preferably, the stirring barrel bottom sets up ejection of compact barrel, ejection of compact barrel and stirring barrel intercommunication, set up the screen cloth between ejection of compact barrel and stirring barrel, the screen cloth is used for screening the material after preliminary mixing is accomplished, the defeated material section of thick bamboo of circulation is installed on the screen cloth surface, the defeated material blade of flood dragon rotates with the screen cloth to be connected, still be provided with the pivot in the ejection of compact barrel, the terminal screen cloth and the defeated material blade fixed connection of flood dragon of running through in pivot top, pivot surface both sides evenly set up multiunit stirring vane.

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

to wait to process ultra-white glass raw materials for production to add to the churn in, mix the stirring through the material of stirring subassembly in to adding to the churn and handle, the material after preliminary stirring falls to the internal bottom of churn, upwards promote the material through the circulation subassembly, the material after the promotion is carried to grinding assembly, grind the processing to the large granule material through grinding assembly, the material after the grinding falls again and mixes the stirring to handle in the churn, through reciprocal circulation stirring and grinding, not only improved mixed effect, make the material more even, and need not adopt the grinding device to grind the material, and production efficiency is higher, and the energy has been practiced thrift.

Drawings

FIG. 1 is a schematic structural diagram of a uniformly mixed ultra-white glass production line.

FIG. 2 is a schematic side view of a uniformly mixed ultra-white glass production line.

FIG. 3 is a schematic view of a top view of a uniformly mixed ultra-white glass production line.

FIG. 4 is a schematic view of a grinding box in a uniformly mixed ultra-white glass production line.

FIG. 5 is a schematic structural diagram of a discharge cylinder in a uniformly mixed ultra-white glass production line.

In the figure: 1-stirring the cylinder; 2-inclining a material conveying plate; 3-circulating the material conveying cylinder; 4-dragon material conveying leaves; 5-a belt; 6-through groove; 7-gear two; 8-a scaffold; 9-an annular turntable; 10-a feed inlet; 11-grinding the box body; 12-a blanking pipe; 13-a through slot; 14-a support base; 15-discharging cylinder; 16-rotating rods; 17-a stirring rod; 18-gear one; 19-blanking holes; 20-a strut; 21-a drive motor; 22-grinding roller; 23-grinding the bumps; 24-a rotating shaft; 25-stirring blade.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific embodiments.

Referring to fig. 1-5, a uniformly mixed ultra-white glass production line comprises a stirring cylinder 1, a stirring assembly, a circulating assembly and a grinding assembly, wherein the stirring cylinder 1 is fixedly connected with a bracket 8, the bottom end of the bracket 8 is fixedly provided with a supporting base 4, the stirring component is arranged in the stirring cylinder body 1 and comprises a plurality of groups of rotating rods 16 which are circumferentially arranged in the stirring cylinder body 1 in a circumferential array manner, a plurality of groups of stirring rods 17 are uniformly arranged on the surface of the rotating rods 16, used for stirring the materials added into the stirring cylinder body 1, the circulating component is arranged in the stirring cylinder body 1, used for circularly lifting the materials stirred by the stirring rod 17, the grinding component is arranged at the outer side of the stirring cylinder body 1, the stirring cylinder body 1 is communicated with the circulating component, the stirring device is used for grinding the large-particle materials conveyed by the circulating assembly and then conveying the large-particle materials into the stirring cylinder body 1 again for mixing and stirring;

specifically, in this embodiment, will wait to process in the super white glass raw materials for production adds to the agitator barrel 1, mix the stirring through the material that the stirring subassembly is to adding to the agitator barrel 1 and handle, the material after preliminary stirring falls to the bottom in the agitator barrel 1, upwards promote the material through the circulation subassembly, the material after the promotion is carried to grinding assembly, grind the processing to the large granule material through grinding assembly, the material after the grinding falls again and mixes the stirring processing to the agitator barrel 1 in, through reciprocal circulation stirring and grinding, not only improved the mixed effect, make the material more even, and need not adopt the grinding device to grind the material, production efficiency is higher, and the energy has been practiced thrift.

As a further scheme of the embodiment of the invention, the stirring assembly further comprises a plurality of groups of first gears 18 circumferentially arranged in a stirring cylinder 1 in a circumferential array manner, the top of the stirring cylinder 1 is provided with an annular turntable 9, annular racks are arranged on the inner side and the outer side of the annular turntable 9, the annular rack on the inner side of the annular turntable 9 is meshed with the first gears 18, the outer side of the stirring cylinder 1 is provided with a second gear 7, the second gear 7 is meshed with the annular rack on the outer side of the annular turntable 9, the second gear 7 is fixedly connected with the output end of a driving motor 21, and the tail end of the top of a rotating rod 16 is fixedly connected with the first gears 18;

specifically, in this embodiment, start driving motor 21, driving motor 21 drives two 7 rotations of gear, two 7 drive annular carousel 9 of gear rotate, annular carousel 9 drives 18 rotations of gear, 18 drive dwang 16 rotations of gear, dwang 16 drives puddler 17 and rotates, mixes the stirring to the material in the stirring barrel 1.

As a further proposal of the embodiment of the invention, the circulating component comprises a circulating feed cylinder 3, the circulating feed cylinder 3 is arranged at the axle center of the stirring cylinder body 1, a flood dragon material conveying blade 4 is arranged in the circulating material conveying cylinder 3, the circulating material conveying cylinder 3 and the flood dragon material conveying blade 4 extend to the bottom end of the stirring cylinder body 1, through grooves 13 for feeding are arranged on two sides of the bottom end of the circulating material conveying cylinder 3, the flood dragon material conveying blade 4 is connected with a rotating part for driving the flood dragon material conveying blade to rotate, material discharging parts are oppositely arranged on two sides of the top end of the flood dragon material conveying blade 4 and are connected with the grinding assembly, used for conveying materials lifted in the circular conveying cylinder 3 into the grinding assembly, a plurality of groups of supporting rods 20 which are matched and rotatably connected with the first gear 18 are arranged on the outer surface of the circular conveying cylinder 3 in the circumferential direction, the rotating rod 16 penetrates through the support rod 20 and is connected with the first gear 18, and the rotating rod 16 is rotatably connected with the support rod 20;

concretely, in this embodiment, drive flood dragon through rotating member and defeated material blade 4 and rotate, material after the stirring of puddler 17 in the stirring cylinder body 1 falls to stirring cylinder body 1 bottom and passes through groove 13 and get into in the defeated material section of thick bamboo 3 of circulation, flood dragon is defeated material blade 4 and is had the material to stir cylinder body 1 bottom at the pivoted in-process and upwards promotes in defeated material section of thick bamboo 3 of circulation, carries the abrasive machining to the grinding component in through the material discharge member material that promotes in will the defeated material section of thick bamboo 3 of circulation at last.

As a further scheme of the embodiment of the invention, the discharging component comprises a discharging groove 6, the discharging grooves 6 are oppositely arranged on two sides of the top end of the circular material conveying cylinder 3, the discharging groove 6 is connected with an inclined material conveying plate 2, and one end, far away from the circular material conveying cylinder 3, of the inclined material conveying plate 2 is connected with the grinding assembly;

specifically, in this embodiment, the material lifted in the circular material conveying cylinder 3 falls to the surface of the inclined material conveying plate 2 through the material discharge groove 6, and the material on the surface of the inclined material conveying plate 2 falls into the grinding assembly under the action of gravity.

As a further scheme of the embodiment of the invention, the rotating part comprises a belt 5, and the output end of the driving motor 21 penetrates through the tail end of the second gear 7 and is in transmission connection with the material conveying blade 4 of the dragon through a belt 8;

specifically, in this embodiment, the driving motor 21 drives the flood dragon material conveying blade 4 to rotate through the belt 8 in the rotating process.

As a further scheme of the embodiment of the invention, a plurality of groups of blanking holes 19 are uniformly arranged on the surface of the inclined material conveying plate 2, and the blanking holes 19 are used for screening materials falling on the surface of the inclined material conveying plate 2;

specifically, in this embodiment, the material in the circular material conveying cylinder 3 falls to the surface of the inclined material conveying plate 2 through the through groove 13, the particles with larger diameters fall into the grinding assembly through the inclined material conveying plate 2 for grinding treatment, and the particles with smaller diameters pass through the material falling hole 19 and fall into the stirring cylinder 1 again for mixing and stirring treatment.

As a further scheme of the embodiment of the invention, the grinding assembly comprises a grinding box body 11, the grinding box body 11 is relatively and fixedly installed at two sides of the stirring cylinder body 1, a feed inlet 10 is arranged at the top of the grinding box body 11, the feed inlet 10 is connected with the tail end of the inclined material conveying plate 2 in a supporting manner, grinding rotating rollers 22 are relatively arranged at two sides in the grinding box body 11, the grinding rotating rollers 22 at two sides simultaneously rotate inwards to grind the material falling into the grinding box body 11, a blanking pipe 12 is connected to the bottom end of the grinding box body 11, and one end, far away from the grinding box body 11, of the blanking pipe 12 is communicated with the inside of the stirring cylinder body 1;

specifically, in this embodiment, after the material falls to grinding box 11 through slope material conveying plate 2, drive both sides through drive device and grind the roller 22 and rotate simultaneously inboard and grind the processing to the material that falls to grinding box 11, the material after grinding falls to mixing drum 1 through blanking pipe 12 and mixes the stirring once more.

As a further scheme of the embodiment of the present invention, a plurality of sets of grinding protrusions 23 are uniformly arranged on the surface of the grinding roller 22, and the grinding protrusions 23 are used for improving the grinding effect of the grinding roller 22 on the material.

As a further scheme of the embodiment of the invention, a discharging cylinder 15 is arranged at the bottom end of the stirring cylinder 1, the discharging cylinder 15 is communicated with the stirring cylinder 1, a screen 21 is arranged between the discharging cylinder 15 and the stirring cylinder 1, the screen 21 is used for screening materials after preliminary stirring is completed, the circulating material conveying cylinder 3 is arranged on the surface of the screen 21, and the flood dragon material conveying blades 4 are rotatably connected with the screen 21;

specifically, in this embodiment, the material after preliminary mixing falls to screen cloth 21 surface, and the great material granule of diameter promotes in screen cloth 21 surface with defeated material blade 4 through the flood dragon, and the less material of diameter passes screen cloth 21 and falls to ejection of compact barrel 15 in order to carry out the ejection of compact.

As a further scheme of the embodiment of the invention, a rotating shaft 24 is further arranged in the discharging cylinder 15, the tail end of the top of the rotating shaft 24 penetrates through the screen 21 and is fixedly connected with the dragon material conveying blades 4, and a plurality of groups of stirring blades 25 are uniformly arranged on two sides of the surface of the rotating shaft 24;

specifically, in this embodiment, when the material in the stirring barrel 1 passes screen cloth 21 and falls to ejection of compact barrel 15 in, flood dragon defeated material blade 4 drives pivot 24 and rotates, pivot 24 drives stirring vane 25 and rotates, stirs the processing once more to the material, further improves stirring and mixes the effect, improves material homogeneity.

The working principle of the invention is as follows: adding the production raw materials of the ultra-white glass to be processed into the stirring barrel body 1, starting a driving motor 21, driving the gear two 7 to rotate by the driving motor 21, driving the annular turntable 9 to rotate by the gear two 7, driving the gear one 18 to rotate by the annular turntable 9, driving the rotating rod 16 to rotate by the gear one 18, driving the stirring rod 17 to rotate by the rotating rod 16, mixing and stirring the materials in the stirring barrel body 1, enabling the primarily stirred materials to fall to the bottom in the stirring barrel body 1, upwards lifting the materials by a circulating assembly, enabling the materials in the circulating conveying barrel 3 to fall to the surface of the inclined conveying plate 2 through the through groove 13, enabling the particles with larger diameter to fall into the grinding assembly through the inclined conveying plate 2 for grinding treatment, enabling the particles with smaller diameter to pass through the blanking hole 19 to fall into the stirring barrel body 1 again for mixing and stirring treatment, enabling the ground materials to fall into the stirring barrel body 1 again for mixing and stirring treatment, the material after preliminary mixing falls to screen cloth 21 surface, and the great material granule of diameter promotes in order to fall to ejection of compact barrel 15 in order to carry out the ejection of compact through flood dragon defeated material blade 4 on screen cloth 21 surface, and the less material of diameter passes screen cloth 21, when the material in the stirring barrel 1 passed screen cloth 21 and falls to ejection of compact barrel 15 in, flood dragon defeated material blade 4 drives pivot 24 and rotates, pivot 24 drives stirring vane 25 and rotates, stirs the processing once more to the material.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.