CN115779839B - Glass lining reaction kettle - Google Patents

Abstract

The invention discloses a glass lining reaction kettle, and relates to the technical field of reaction kettles. This kind of glass lining reation kettle, comprising a base plate, the upper side wall fixedly connected with landing leg of bottom plate, and the upper end fixedly connected with reation kettle body of landing leg, the bottom fixedly connected with relief valve of reation kettle body, the top fixedly connected with motor of reation kettle body, and the output of motor runs through to the inside of reation kettle body and fixedly connected with (mixing) shaft, the lateral wall of (mixing) shaft is connected with the stirring piece that a plurality of slopes set up through canceling release mechanical system. The glass lining reaction kettle can avoid sinking and layering when stirring materials; meanwhile, the stirring device can shake and assist in stirring materials, so that the stirring effect is better and the efficiency is higher; moreover, the fallen ceramic chips can be automatically collected, so that the ceramic chips are prevented from being mixed in materials, and the quality of the materials is ensured; can also report to the police, remind operating personnel to in time maintain the reation kettle body, guarantee its result of use and life-span.

Description

Glass lining reaction kettle

Technical Field

The invention relates to the technical field of reaction kettles, in particular to a glass lining reaction kettle.

Background

The glass lining reactor is made of glass lining with high silica content on the inner surface of steel container and through high temperature burning to adhere firmly to metal surface, and has the advantages of high glass stability and high metal strength.

When the existing glass lining reaction kettle is used, the stirring shaft and the stirrer are driven by the motor to rotate, so that the stirring of materials is realized, but the stirring effect of the stirring mode is poor, and the efficiency is low; meanwhile, the material is easy to sink and layer; in addition, in the use process of the glass lining reaction kettle, the glass on the inner wall of the glass lining reaction kettle possibly explodes or cracks, fallen ceramic chips can be mixed into materials, the quality of the materials is affected, and if the fallen parts are not maintained in time, the use effect and the service life of the reaction kettle can be affected.

Disclosure of Invention

The invention aims to provide a glass lining reaction kettle to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a glass lining reation kettle, includes the bottom plate, the last lateral wall fixedly connected with landing leg of bottom plate, and the upper end fixedly connected with reation kettle body of landing leg, the bottom fixedly connected with relief valve of reation kettle body, the top fixedly connected with motor of reation kettle body, and the output of motor runs through to the inside of reation kettle body and fixedly connected with (mixing) shaft, the lateral wall of (mixing) shaft is connected with the stirring piece that a plurality of slopes set up through canceling release mechanical system, and the through-hole that a plurality of arrays set up has been seted up to the lateral wall of stirring piece, the bottom fixedly connected with scraper blade of stirring piece, and the removal of stirring piece promotes through pushing mechanism, each the lateral wall of stirring piece is provided with the rabbling mechanism that is used for carrying out auxiliary stirring, and this internal collection mechanism that is used for collecting the porcelain piece that drops that is provided with of reation kettle.

Preferably, the reset mechanism comprises first T-shaped guide rods fixedly connected to the upper side walls of the stirring plates in two symmetrical mode, first springs are sleeved on the side walls of the first T-shaped guide rods, first connecting blocks are sleeved on the side walls of the first T-shaped guide rods, and the first connecting blocks are fixed to the side walls of the stirring shafts.

Preferably, the pushing mechanism comprises a connecting plate fixedly connected to the top of the reaction kettle body, the lower end of the connecting plate is fixedly connected with a first fixing ring, the upper side wall of the first fixing ring is fixedly connected with a plurality of bulges arranged in an array, the upper end of the first T-shaped guide rod is fixedly connected with a pushing block, and the pushing block slides on the side wall of the bulges.

Preferably, the stirring mechanism comprises a first L-shaped plate fixedly connected to two symmetrical side walls of the stirring plate, a rotating shaft is rotatably connected to the side walls of the first L-shaped plate, one end of the rotating shaft penetrates through the side walls of the stirring plate and is fixedly connected with a rotating disc, the side walls of the rotating disc are fixedly connected with second L-shaped plates arranged in a plurality of arrays, the rotation of the rotating shaft is driven by a driving mechanism, and a limiting mechanism used for limiting the rotating shaft is arranged on the side walls of the first L-shaped plate.

Preferably, the drive mechanism includes that fixed cover establishes the belt pulley at the pivot lateral wall, and the lateral wall cover of belt pulley is equipped with the belt, the lateral wall fixed cover of pivot is equipped with first ring, and the lug that a plurality of arrays of lateral wall fixedly connected with of first ring set up, the lower lateral wall of first solid fixed ring is connected with the third L shaped plate through slewing mechanism rotation, and the lower lateral wall fixedly connected with mounting panel of third L shaped plate, the lateral wall of mounting panel is connected with the triangular block that a plurality of arrays set up through telescopic assembly, and the triangular block includes spacing face and inclined plane, be provided with coupling mechanism between mounting panel and the pivot.

Preferably, the rotating mechanism comprises an annular groove formed in the lower side wall of the first fixed ring, the annular groove is rotationally connected with the rotating ring, and the upper end of the third L-shaped plate is fixed with the bottom of the rotating ring.

Preferably, the telescopic component comprises a sliding groove arranged in the mounting plate, the sliding groove is connected with a sliding plate in a sliding manner through a second spring, a strip-shaped opening is arranged on the side wall of the mounting plate, and the triangular block is inserted into the strip-shaped opening and fixed with the side wall of the sliding plate.

Preferably, the connecting mechanism comprises a supporting plate fixedly connected to the side wall of the first L-shaped plate located above, the supporting plate is sleeved on the side wall of the rotating shaft, the upper side wall of the supporting plate is fixedly connected with two symmetrically arranged second T-shaped guide rods, the side wall of the second T-shaped guide rods is sleeved with a third spring, the side wall of the second T-shaped guide rods is sleeved with a second connecting block, and the second connecting block is fixed with the side wall of the mounting plate.

Preferably, the stop gear includes the fixed cover and establishes the second ring at the pivot lateral wall, and the spacing groove that a plurality of arrays set up has been seted up to the lateral wall of second ring, is located the lateral wall fixedly connected with supporting shoe of first L shaped plate of top, and the lateral wall of supporting shoe inserts and is equipped with the third T shape guide arm, the one end fixedly connected with stopper of third T shape guide arm, and the lateral wall cover of third T shape guide arm is equipped with the fourth spring.

Preferably, the collection mechanism comprises a first guide plate and a second guide plate which are fixedly connected to the side walls of the stirring plates and are arranged in an eight shape, the side walls of the stirring plates are fixedly connected with fixing blocks, the side walls of the fixing blocks are fixedly connected with second fixing rings, the second fixing rings comprise conical surfaces, the side walls of the reaction kettle body are fixedly connected with collecting pipes, the collecting boxes are fixedly connected to the other ends of the collecting pipes, collecting boxes are connected to the collecting boxes in a sliding mode, and visual sensors are fixedly inserted into the side walls of the collecting boxes.

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

this kind of glass-lined reaction kettle through setting up pushing equipment, rabbling mechanism and collection mechanism etc. can avoid sinking and layering when stirring the material, simultaneously, can play to rock and supplementary stirring to the material for stirring effect is better, efficiency is higher, and can carry out automatic collection to the porcelain piece that drops, avoids mixing in the material, guarantees the quality of material, can also report to the police, reminds operating personnel to in time maintain the reation kettle body, guarantees its result of use and life-span.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a partial cross-sectional structure of a reactor body according to the present invention;

FIG. 3 is a schematic view of the internal structure of the reactor body according to the present invention;

FIG. 4 is a schematic view of the overall structure of the stirring plate in the invention;

FIG. 5 is a schematic view showing the overall structure of the stirring blade according to another view angle of the invention;

FIG. 6 is an enlarged schematic view of FIG. 2A;

FIG. 7 is an enlarged schematic view of the structure shown at B in FIG. 3;

FIG. 8 is an enlarged schematic view of FIG. 4C;

FIG. 9 is an enlarged schematic view of the structure of FIG. 5D;

fig. 10 is an enlarged schematic view of the structure at E in fig. 9.

In the figure: 1. a bottom plate; 2. a reset mechanism; 201. a first connection block; 202. a first T-shaped guide bar; 203. a first spring; 3. a pushing mechanism; 301. a protrusion; 302. a pushing block; 303. a connecting plate; 304. a first fixing ring; 4. a stirring mechanism; 401. a first L-shaped plate; 402. a rotating shaft; 403. a rotating disc; 404. a second L-shaped plate; 5. a driving mechanism; 501. a first ring; 502. a bump; 503. a mounting plate; 504. a third L-shaped plate; 505. triangular blocks; 506. a limiting surface; 507. an inclined plane; 508. a belt; 6. a connecting mechanism; 601. a support plate; 602. a second T-shaped guide bar; 603. a third spring; 604. a second connection block; 7. a telescoping assembly; 701. a sliding groove; 702. a second spring; 703. a sliding plate; 704. a strip-shaped opening; 8. a collection mechanism; 801. a fixed block; 802. a second fixing ring; 803. a conical surface; 804. a collection pipe; 805. a collection box; 806. a collection box; 807. a visual sensor; 808. a first guide plate; 809. a second guide plate; 9. a limiting mechanism; 901. a second ring; 902. a limit groove; 903. a support block; 904. a third T-shaped guide bar; 905. a fourth spring; 906. a limiting block; 10. a rotating mechanism; 1001. an annular groove; 1002. a rotating ring; 11. a support leg; 12. a reaction kettle body; 13. a discharge valve; 14. a motor; 15. a stirring shaft; 16. stirring sheets; 17. a through hole; 18. a scraper.

Detailed Description

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

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides a glass-lined reation kettle, including bottom plate 1, the upper side wall fixedly connected with landing leg 11 of bottom plate 1, and the upper end fixedly connected with reation kettle body 12 of landing leg 11, and the bottom fixedly connected with relief valve 13 of reation kettle body 12, the top fixedly connected with motor 14 of reation kettle body 12, and the output of motor 14 runs through to the inside of reation kettle body 12 and fixedly connected with (mixing) shaft 15, the lateral wall of (mixing) shaft 15 is connected with a plurality of slope setting's stirring piece 16 through canceling release mechanical system 2, and the through-hole 17 that a plurality of arrays set up has been seted up to the lateral wall of stirring piece 16, the bottom fixedly connected with scraper blade 18 of stirring piece 16, and the removal of stirring piece 16 promotes through pushing mechanism 3, the lateral wall of each stirring piece 16 is provided with the rabbling mechanism 4 that is used for carrying out auxiliary stirring, and be provided with in the reation kettle body 12 and be used for carrying out the collection mechanism 8 that collects to the porcelain piece that drops, can avoid the bottom sinking and layering when stirring the material, simultaneously, can play rocking and supplementary stirring to the material, make stirring effect better, efficiency is higher, and can also guarantee the quality of mixing and warning quality of the material in time is guaranteed to the maintenance of the main part 12.

Referring to fig. 6, the reset mechanism 2 includes a first T-shaped guide rod 202 fixedly connected to two symmetrically disposed side walls of the stirring blades 16, a first spring 203 is sleeved on the side wall of the first T-shaped guide rod 202, a first connecting block 201 is sleeved on the side wall of the first T-shaped guide rod 202, and the first connecting block 201 is fixed to the side wall of the stirring shaft 15, so as to guide and reset the movement of the stirring blades 16.

Referring to fig. 6, the pushing mechanism 3 includes a connecting plate 303 fixedly connected to the top of the reaction kettle body 12, a first fixing ring 304 is fixedly connected to the lower end of the connecting plate 303, a plurality of protrusions 301 arranged in an array are fixedly connected to the upper side wall of the first fixing ring 304, a pushing block 302 is fixedly connected to the upper end of the first T-shaped guide rod 202, the pushing block 302 slides on the side wall of the protrusion 301, when the stirring blade 16 rotates along with the stirring shaft 15, the pushing block 302 pushes the pushing block 302 and the stirring blade 16 to move upwards when the pushing block 302 abuts against the side wall of the protrusion 301, meanwhile, the first spring 203 is compressed, and when the pushing block 302 passes over the side wall of the protrusion 301, the stirring blade 16 can reciprocate up and down under the action of the first spring 203.

Referring to fig. 3 and 4, the stirring mechanism 4 includes a first L-shaped plate 401 fixedly connected to two symmetrical side walls of the stirring blade 16, and the side walls of the first L-shaped plate 401 are rotationally connected with a rotating shaft 402, one end of the rotating shaft 402 penetrates through the side walls of the stirring blade 16 and is fixedly connected with a rotating disc 403, the side walls of the rotating disc 403 are fixedly connected with a plurality of second L-shaped plates 404 arranged in an array, the rotation of the rotating shaft 402 is driven by a driving mechanism 5, and the side walls of the first L-shaped plate 401 are provided with a limiting mechanism 9 for limiting the rotating shaft 402, when the stirring shaft 15 rotates, the stirring blade 16 can reciprocate up and down, meanwhile, when the stirring blade 16 moves, the rotating shaft 402 rotates through the driving mechanism 5, the rotation of the rotating shaft 402 drives the two rotating discs 403 to synchronously rotate through a belt 508, so that the stirring effect is improved, and the stirring effect and the efficiency are higher.

Referring to fig. 7-10 and fig. 4, the driving mechanism 5 includes a pulley fixedly sleeved on a side wall of the rotating shaft 402, a belt 508 is sleeved on the side wall of the pulley, a first circular ring 501 is fixedly sleeved on the side wall of the rotating shaft 402, a plurality of protrusions 502 arranged in array are fixedly connected to the side wall of the first circular ring 501, a third L-shaped plate 504 is rotatably connected to the lower side wall of the first fixed ring 304 through a rotating mechanism 10, a mounting plate 503 is fixedly connected to the lower side wall of the third L-shaped plate 504, a plurality of triangular blocks 505 arranged in array are connected to the side wall of the mounting plate 503 through a telescopic component 7, the triangular blocks 505 include a limiting surface 506 and an inclined surface 507, a connecting mechanism 6 is arranged between the mounting plate 503 and the rotating shaft 402, when the stirring shaft 15 rotates, the stirring piece 16 can reciprocate up and down, meanwhile, the rotating shaft 402 is driven to move up synchronously through the connecting mechanism 6, at this moment, the protrusions 502 abut against the limiting surface 506, when the stirring piece 16 moves down, the inclined surface 507, the protrusions 502 abut against the inclined surface 507, the triangular blocks 505 are pushed into the sliding groove 701, the second spring 702 is compressed, and the rotating shaft 402 is not needed to reciprocate.

Referring to fig. 7, the rotation mechanism 10 includes an annular groove 1001 formed on a lower sidewall of the first fixed ring 304, and the annular groove 1001 is rotatably connected with a rotation ring 1002, and an upper end of the third L-shaped plate 504 is fixed to a bottom of the rotation ring 1002, so as to ensure normal rotation of the third L-shaped plate 504.

Referring to fig. 9 and 10, the telescopic assembly 7 includes a sliding groove 701 formed in the mounting plate 503, a sliding plate 703 is slidably connected in the sliding groove 701 through a second spring 702, a bar-shaped opening 704 is formed in a side wall of the mounting plate 503, and the triangular block 505 is inserted into the bar-shaped opening 704 and fixed to the side wall of the sliding plate 703, so as to guide and reset movement of the triangular block 505.

Referring to fig. 8, the connection mechanism 6 includes a support plate 601 fixedly connected to a side wall of the first L-shaped plate 401 located above, and the support plate 601 is sleeved on a side wall of the rotating shaft 402, two symmetrically arranged second T-shaped guide rods 602 are fixedly connected to an upper side wall of the support plate 601, a third spring 603 is sleeved on a side wall of the second T-shaped guide rods 602, a second connection block 604 is sleeved on a side wall of the second T-shaped guide rods 602, the second connection block 604 is fixed to a side wall of the mounting plate 503, and when the stirring plate 16 moves upwards, the rotating shaft 402 and the support plate 601 are driven to move upwards synchronously, and meanwhile the third spring 603 is compressed.

Referring to fig. 8, the limiting mechanism 9 includes a second ring 901 fixedly sleeved on a side wall of the rotating shaft 402, a plurality of limiting grooves 902 arranged in an array are formed in the side wall of the second ring 901, a supporting block 903 is fixedly connected to the side wall of the first L-shaped plate 401 above, a third T-shaped guide rod 904 is inserted into the side wall of the supporting block 903, a limiting block 906 is fixedly connected to one end of the third T-shaped guide rod 904, a fourth spring 905 is sleeved on the side wall of the third T-shaped guide rod 904, when the rotating shaft 402 rotates, the limiting block 906 slides out of the limiting groove 902 and slides on the side wall of the second ring 901, meanwhile, the fourth spring 905 is compressed, when the rotating shaft 402 stops rotating, the limiting block 906 is propped against the limiting groove 902 again under the action of the fourth spring 905, the limiting block is prevented from rotating randomly, and the conveying effect of the ceramic tile is ensured.

Referring to fig. 1-3, the collecting mechanism 8 includes a first guiding plate 808 and a second guiding plate 809 which are fixedly connected to the side walls of the stirring blades 16 and are arranged in a splayed shape, the side walls of each stirring blade 16 are fixedly connected with a fixing block 801, the side walls of the fixing block 801 are fixedly connected with a second fixing ring 802, the second fixing ring 802 includes a conical surface 803, the side walls of the reaction kettle body 12 are fixedly connected with a collecting pipe 804, the other end of the collecting pipe 804 is fixedly connected with a collecting box 805, a collecting box 806 is slidably connected in the collecting box 805, and a visual sensor 807 is fixedly inserted into the side walls of the collecting box 806, when the inner surface of the reaction kettle body 12 is cracked or broken during stirring, the fallen ceramic sheet can gradually move upwards along the side walls of the stirring blade 16 in the rotation process, and move to the bottom of the rotating disk 403 positioned above along the side walls of the first guiding plate 808 and the second guiding plate 809, the second L-shaped plate 404 can drag up the ceramic chip along with the rotation of the rotating disc 403, and conveys the ceramic chip along with the continuous rotation of the rotating disc 403, when the ceramic chip rotates to the upper part of the second fixed ring 802, the ceramic chip slides to the upper part of the conical surface 803 from the second L-shaped plate 404, meanwhile, the rotation of the stirring piece 16 drives the second fixed ring 802 to synchronously rotate through the fixed block 801, when the ceramic chip rotates to the collecting pipe 804, the ceramic chip can be thrown out under the action of centrifugal force and enters the collecting box 806 in the collecting box 805 along the collecting pipe 804 to be collected, so that the fallen ceramic chip can be automatically collected, the ceramic chip mixed in the material is avoided, the quality of the material is ensured, and the ceramic chip in the collecting box 806 is detected and warned through the visual sensor 807, so that an operator is reminded of timely maintenance of the reaction kettle body 12, ensuring the use effect and the service life.

Working principle: when in use, when stirring is carried out, the motor 14 is started, the stirring shaft 15 and the stirring sheet 16 are driven to rotate by the rotation of the motor 14, materials are stirred, the scraping plate 18 can scrape the materials at the bottom of the reaction kettle body 12, the materials can move upwards along the inclined stirring sheet 16, accordingly, sinking and layering can be avoided, the stirring effect is better and the efficiency is higher, simultaneously, the materials flow through the through holes 17 in the process of rotating the stirring sheet 16, the stirring effect is better, and when the stirring sheet 16 rotates along with the stirring shaft 15, the pushing block 302 pushes the pushing block 302 and the stirring sheet 16 to move upwards when the pushing block 302 abuts against the side wall of the protrusion 301, meanwhile, the first spring 203 is compressed, and when the pushing block 302 passes over the side wall of the protrusion 301, the stirring sheet 16 can reciprocate up and down under the action of the first spring 203, so that the shaking effect can be played on the materials, the stirring effect is better and the efficiency is higher;

when the stirring shaft 15 rotates, the stirring sheet 16 can reciprocate up and down, meanwhile, when the stirring sheet 16 moves up, the rotating shaft 402 and the supporting plate 601 are driven to synchronously move up, meanwhile, the third spring 603 is compressed, at the moment, the protruding block 502 is propped against the limiting surface 506, so that the rotating shaft 402 is pushed to rotate, when the stirring sheet 16 moves down, the protruding block 502 is propped against the inclined surface 507, so that the triangular block 505 is pushed to retract into the sliding groove 701, the second spring 702 is compressed, at the moment, the rotating shaft 402 does not reversely rotate, and the reciprocating manner can enable the rotating shaft 402 to rotate, and the rotation of the rotating shaft 402 drives the synchronous rotation of the two rotating discs 403 through the belt 508, so that the auxiliary stirring effect can be achieved on materials, and the stirring effect is better and the efficiency is higher;

and, when the inner surface of the reaction kettle body 12 is broken or cracked, the fallen ceramic chip can gradually move upwards along the side wall of the stirring chip 16 in the rotation process, and move to the bottom of the rotating disc 403 located above along the side wall of the first guide plate 808 and the second guide plate 809, along with the rotation of the rotating disc 403, the second L-shaped plate 404 can drag up the ceramic chip, and carry along with the rotation of the rotating disc 403, when the ceramic chip is to be rotated to the upper side of the second fixed ring 802, the ceramic chip slides to the upper side of the conical surface 803 from the second L-shaped plate 404, and at the same time, the rotation of the stirring chip 16 drives the second fixed ring 802 to synchronously rotate through the fixed block 801, and when the ceramic chip rotates to the collecting pipe 804, the ceramic chip can be thrown out under the action of centrifugal force and is collected in the collecting box 806 in the collecting box 805, so that the fallen ceramic chip can be automatically collected, the quality of the materials is avoided being mixed in the materials, and the quality of the materials is ensured, and the ceramic chip in the collecting box 806 is detected by the visual sensor 807, and the reaction kettle is reminded of the operation and the service life of the reaction kettle 12 is ensured, and the service life of the reaction is timely ensured.

Claims (5)

1. The utility model provides a glass lining reation kettle, includes bottom plate (1), the last lateral wall fixedly connected with landing leg (11) of bottom plate (1), and the upper end fixedly connected with reation kettle body (12) of landing leg (11), its characterized in that: the bottom fixedly connected with discharge valve (13) of reation kettle body (12), the top fixedly connected with motor (14) of reation kettle body (12), and the output of motor (14) runs through to the inside of reation kettle body (12) and fixedly connected with (mixing) shaft (15), stirring piece (16) that a plurality of slopes set up are connected with through canceling release mechanical system (2) to the lateral wall of (mixing) shaft (15), and through-hole (17) that a plurality of arrays set up are seted up to the lateral wall of stirring piece (16), the bottom fixedly connected with scraper blade (18) of stirring piece (16), and the removal of stirring piece (16) promotes through pushing mechanism (3), and each stirring piece (16) lateral wall is provided with stirring mechanism (4) that are used for carrying out supplementary stirring, and is provided with in reation kettle body (12) and is used for collecting mechanism (8) that the porcelain piece that drops carries out collection;

the reset mechanism (2) comprises two symmetrically arranged first T-shaped guide rods (202) fixedly connected to the upper side walls of the stirring plates (16), first springs (203) are sleeved on the side walls of the first T-shaped guide rods (202), first connecting blocks (201) are sleeved on the side walls of the first T-shaped guide rods (202), and the first connecting blocks (201) are fixed with the side walls of the stirring shafts (15);

the pushing mechanism (3) comprises a connecting plate (303) fixedly connected to the top of the reaction kettle body (12), the lower end of the connecting plate (303) is fixedly connected with a first fixed ring (304), the upper side wall of the first fixed ring (304) is fixedly connected with a plurality of bulges (301) arranged in an array, the upper end of the first T-shaped guide rod (202) is fixedly connected with a pushing block (302), and the pushing block (302) slides on the side wall of the bulges (301);

the stirring mechanism (4) comprises a first L-shaped plate (401) fixedly connected to two symmetrical side walls of the stirring sheet (16), a rotating shaft (402) is rotatably connected to the side walls of the first L-shaped plate (401), one end of the rotating shaft (402) penetrates through the side walls of the stirring sheet (16) and is fixedly connected with a rotating disc (403), the side walls of the rotating disc (403) are fixedly connected with a plurality of second L-shaped plates (404) which are arranged in an array, the rotation of the rotating shaft (402) is driven by a driving mechanism (5), and a limiting mechanism (9) used for limiting the rotating shaft (402) is arranged on the side walls of the first L-shaped plate (401);

the driving mechanism (5) comprises a belt pulley fixedly sleeved on the side wall of the rotating shaft (402), a belt (508) is sleeved on the side wall of the belt pulley, a first circular ring (501) is fixedly sleeved on the side wall of the rotating shaft (402), a plurality of convex blocks (502) arranged in an array are fixedly connected to the side wall of the first circular ring (501), a third L-shaped plate (504) is rotatably connected to the lower side wall of the first fixed ring (304) through a rotating mechanism (10), a mounting plate (503) is fixedly connected to the lower side wall of the third L-shaped plate (504), triangular blocks (505) arranged in a plurality of arrays are connected to the side wall of the mounting plate (503) through a telescopic component (7), the triangular blocks (505) comprise limiting surfaces (506) and inclined surfaces (507), and a connecting mechanism (6) is arranged between the mounting plate (503) and the rotating shaft (402);

the rotating mechanism (10) comprises an annular groove (1001) formed in the lower side wall of the first fixed ring (304), the annular groove (1001) is rotationally connected with the rotating ring (1002), and the upper end of the third L-shaped plate (504) is fixed with the bottom of the rotating ring (1002).

2. The glass lining reactor of claim 1, wherein: the telescopic component (7) comprises a sliding groove (701) formed in the mounting plate (503), the sliding groove (701) is connected with a sliding plate (703) in a sliding manner through a second spring (702), a strip-shaped opening (704) is formed in the side wall of the mounting plate (503), and the triangular block (505) is inserted into the strip-shaped opening (704) and fixed with the side wall of the sliding plate (703).

3. The glass lining reactor of claim 1, wherein: coupling mechanism (6) are including backup pad (601) of fixed connection at the first L shaped board (401) lateral wall that is located the top, and backup pad (601) cover is established in the lateral wall of pivot (402), the last lateral wall fixedly connected with of backup pad (601) two second T shape guide arms (602) that the symmetry set up, the lateral wall cover of second T shape guide arm (602) is equipped with third spring (603), and the lateral wall cover of second T shape guide arm (602) is equipped with second connecting block (604), the lateral wall of second connecting block (604) and mounting panel (503) is fixed.

4. The glass lining reactor of claim 1, wherein: stop gear (9) are established in second ring (901) of pivot (402) lateral wall including fixed cover, and the lateral wall of second ring (901) has seted up spacing groove (902) that a plurality of arrays set up, is located the top lateral wall fixedly connected with supporting shoe (903) of first L shaped board (401), and the lateral wall of supporting shoe (903) has inserted third T shape guide arm (904), one end fixedly connected with stopper (906) of third T shape guide arm (904), and the lateral wall cover of third T shape guide arm (904) is equipped with fourth spring (905).

5. The glass lining reactor of claim 1, wherein: the collecting mechanism (8) comprises a first guide plate (808) and a second guide plate (809) which are fixedly connected to the side wall of the stirring piece (16) and are arranged in an splayed mode, the side wall of each stirring piece (16) is fixedly connected with a fixed block (801), the side wall of the fixed block (801) is fixedly connected with a second fixed ring (802), the second fixed ring (802) comprises a conical surface (803), the side wall of the reaction kettle body (12) is fixedly connected with a collecting pipe (804), the other end of the collecting pipe (804) is fixedly connected with a collecting box (805), a collecting box (806) is connected to the collecting box (805) in a sliding mode, and a visual sensor (807) is fixedly inserted into the side wall of the collecting box (806).