CN209828777U - Sealed production of gluing is with dispersator - Google Patents

Abstract

The utility model relates to a sealed production of gluing is with dispersator belongs to sealed production facility field of gluing, and it includes ascending agitator of opening and stirring aircraft nose, and its technical essential is: the stirring barrel comprises a dispersing barrel and a mixing barrel which are arranged in parallel, and the diameter of the dispersing barrel is smaller than that of the mixing barrel; the dispersion bucket is connected with and moves the material device, move the material device and include with dispersion bucket articulated frame and drive dispersion bucket pivoted upset subassembly. The utility model provides a pair of sealed production is with dispersator carries out high-speed dispersion to difficult dispersed material through setting up the less dispersion bucket of volume, improves the dispersion effect of material to guarantee sealed product quality who glues.

Description

Sealed production of gluing is with dispersator

Technical Field

The utility model belongs to the technical field of sealed production facility and specifically relates to a sealed production of gluing is with dispersator is related to.

Background

The bottle cap is an indispensable component in canned food, and the sealing rubber ring positioned on the inner side of the bottle cap plays a role in sealing, so that the bottle cap is one of important components for ensuring the sealing property of the canned food. The preparation of the sealing rubber ring needs to prepare the liquid sealant firstly, in the production process of the liquid sealant, a stirring mechanism needs to be adopted to uniformly disperse part of raw materials firstly, and then the dispersed raw materials and other additives are stirred and mixed by the stirring mechanism, so that the liquid sealant is obtained.

Most of the traditional stirring mechanisms are that the traditional stirring mechanisms are dispersed in a stirring barrel, and then other materials and water are added to be stirred and mixed to form liquid sealant. But because the volume of the mixing tank is large, some materials which are difficult to disperse are difficult to uniformly disperse in the dispersing process, and an ideal effect is achieved.

Therefore, a new technical solution is needed to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sealed production of gluing is with dispersator carries out high-speed dispersion to difficult dispersion material through setting up the less dispersion bucket of volume, improves the dispersion effect of material to guarantee sealed product quality who glues.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a dispersing and stirring machine for producing sealant comprises a stirring barrel with an upward opening and a stirring machine head, wherein the stirring barrel comprises a dispersing barrel and a mixing barrel which are arranged in parallel, and the diameter of the dispersing barrel is smaller than that of the mixing barrel; the dispersion bucket is connected with and moves the material device, move the material device and include with dispersion bucket articulated frame and drive dispersion bucket pivoted upset subassembly.

By adopting the technical scheme, the stirring barrel and the stirring head are arranged, and the raw materials are placed in the stirring barrel and stirred and mixed by the stirring head so as to complete the production of the sealant; the stirring barrels are respectively arranged into the dispersing barrels and the mixing barrels, and the diameters of the dispersing barrels are smaller than those of the mixing barrels, so that materials which are difficult to disperse can be fully stirred when the materials are placed in the dispersing barrels with smaller diameters for high-speed dispersion, the dispersing effect of the materials is improved, and the product quality of the sealant is ensured; move the material device through the setting, in the material transfers the blending tank through medical device with the material in the dispersion bucket after the material accomplishes the dispersion in the dispersion bucket, make things convenient for the material to carry out production processes on next step.

The utility model discloses further set up to: the stirring machine head comprises a stirring shaft matched with the stirring barrel and a machine body which is rotationally connected to one end, deviating from the stirring barrel, of the stirring shaft, and a transposition device is arranged at one end, far away from the stirring shaft, of the machine body.

By adopting the technical scheme, the stirring shaft is driven by the stirring machine body to stir the materials; because the agitator includes two dispersion tanks and the blending tank of independent setting, for avoiding using a plurality of stirring aircraft noses to increase manufacturing cost's input, keep away from (mixing) shaft one end at the fuselage and set up the transposition device for the stirring aircraft nose moves work under the effect of transposition device, stretches into the agitator of required stirring respectively in, sets up the transposition device simultaneously and avoids stirring aircraft nose influence dispersion tanks move the material.

The utility model discloses further set up to: the transposition device comprises a support column, a hydraulic cylinder and a rotating assembly, wherein the hydraulic cylinder and the rotating assembly are arranged inside the support column, the rotating assembly comprises a driven turntable which is coaxially and fixedly arranged at the upper end of a piston rod of the hydraulic cylinder and a driving turntable which is arranged on one side of the machine body, and the driven turntable is meshed with the driving turntable.

By adopting the technical scheme, the stirring machine head is supported by arranging the support column, and the hydraulic cylinder is arranged in the support column to control the lifting of the stirring machine head by controlling the expansion and contraction of the piston rod of the hydraulic cylinder, so that whether the stirring shaft extends into the stirring barrel is controlled; the stirring machine head is driven by the rotating assembly to rotate by the rotating assembly; through setting up driven turntable and initiative carousel intermeshing for the driven turntable rotates when the initiative carousel rotates, thereby makes the stirring aircraft nose interconversion remove between dispersion bucket and mixing drum.

The utility model discloses further set up to: the turnover assembly comprises a telescopic cylinder arranged at the bottom of the frame and an oil cylinder hinged to the bottom of the dispersion barrel and far away from one side of the mixing barrel, and the central connecting line of the dispersion barrel and the mixing barrel is perpendicular to the connecting line of the hinged position of the frame and the dispersion barrel.

By adopting the technical scheme, the oil cylinder is arranged at one side of the bottom of the dispersing barrel, which is far away from the mixing barrel, and the central connecting line of the dispersing barrel and the mixing barrel is mutually vertical to the connecting line of the hinged part of the frame and the dispersing barrel, so that when the piston rod of the oil cylinder extends, one side of the dispersing barrel is stressed to enable the dispersing barrel to rotate along the connecting line of the hinged part of the frame and the dispersing barrel, and the dispersing barrel inclines towards one side of the mixing barrel to pour out the materials in the dispersing barrel; the barrel is provided with a telescopic cylinder at the bottom of the frame, and when a piston rod of the oil cylinder extends, the telescopic cylinder extends, so that the oil cylinder can normally turn over.

The utility model discloses further set up to: one end of the telescopic cylinder, which is far away from the frame, is provided with a lifting platform, and the lifting platform is a hydraulic lifting platform.

Through adopting above-mentioned technical scheme, adopt hydraulic elevating platform through setting up elevating platform and elevating platform in the telescoping cylinder bottom for the dispersion bucket rises under the drive of elevating platform, thereby can directly leading-in mixing barrel with the material in the dispersion bucket when making the dispersion bucket take place the upset under the drive of upset subassembly.

The utility model discloses further set up to: the end part of one end of the opening of the dispersing barrel is provided with a material guide plate inclining towards the mixing barrel, and two sides of the material guide plate protrude towards the inside of the dispersing barrel.

By adopting the technical scheme, the guide plate is arranged on one side of the dispersing barrel, which faces the mixing barrel, so that the distance between the dispersing barrel and the mixing barrel is increased under the guidance of the guide plate, and the collision between the dispersing barrel and the stirring machine head when the dispersing barrel pours materials is avoided; the two sides of the material guide plate are limited by the inward bulges on the two sides of the material guide plate, so that the materials in the dispersing barrel can be more gathered and poured into the mixing barrel.

The utility model discloses further set up to: the (mixing) shaft is equipped with a plurality of dispersion impeller side by side, the dispersion impeller can be dismantled with the (mixing) shaft and set up.

Through adopting above-mentioned technical scheme, set up the dispersion and the stirring efficiency of a plurality of dispersion discs in order to improve the material on the (mixing) shaft, set up the dispersion disc and can dismantle the setting with the (mixing) shaft, make things convenient for the change of dispersion disc and at the epaxial position adjustment of (mixing).

The utility model discloses further set up to: the stirring machine head deviates from one end of the stirring barrel and is provided with a dust removal mechanism, the dust removal mechanism comprises a dust collection box and a dust collection pipe arranged on one side of the dust collection box deviating from the stirring shaft, and the dust collection box is provided with a plurality of flexible dust blocking sheets and a plurality of flexible dust blocking sheets along the circumferential direction of the dust collection box.

By adopting the technical scheme, when part of powdery materials are poured into the stirring barrel, part of the powder is influenced by airflow and flies due to the powder pouring, so that air pollution in a production workshop caused by flying powder is avoided, and the body health of workers is influenced; the dust blocking sheet can better limit the flying of powder and guide the powder to the dust collection box, and the dust collection pipe is used for absorbing dust collected at the end part of the dust collection box.

To sum up, the utility model discloses a beneficial technological effect does: materials which are difficult to disperse are placed in a dispersing barrel with a small diameter for high-speed dispersion through the dispersing barrel and the mixing barrel, so that the materials can be fully stirred and mixed, and the dispersing effect is improved; the material moving device is arranged, so that the dispersing barrel can be conveniently overturned under the driving of the frame and the overturning assembly, materials in the dispersing barrel can be poured into the mixing barrel, the material transferring speed is improved, and the dispersed materials are prevented from being hardened again in the long-time transferring process; make the stirring aircraft nose can alternate between dispersion bucket and blending tank and remove under the effect of transposition device through setting up the transposition device, reduction in production cost's input avoids the stirring aircraft nose to influence the dispersion bucket and takes place the upset under the drive that moves the material device simultaneously.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a part of the structure of the present invention, mainly showing the connection relationship between the transposition device and the mixer head;

FIG. 3 is a partial cross-sectional view of the present invention, mainly showing the internal structure of the mixer head;

fig. 4 is a schematic view of a part of the structure of the present invention, mainly showing the connection relationship between the dispersing barrel and the material moving device;

FIG. 5 is an enlarged view of portion A of FIG. 3;

fig. 6 is a partial cross-sectional view of the present invention, showing primarily the relationship between the mixing tub and the cooling jacket.

In the figure, 1, a stirring barrel; 11. a dispersion barrel; 111. a material guide plate; 12. a mixing barrel; 121. a discharge port; 122. a conductor body; 2. a stirring machine head; 21. a stirring shaft; 22. a body; 23. a dispersion tray; 24. a drive assembly; 241. a drive motor; 242. a conveyor belt; 243. a driving transfer wheel; 244. a driven transfer wheel; 3. a cooling device; 31. a condenser tube; 311. a water inlet pipe; 312. a water outlet pipe; 313. a bearing; 32. a cooling jacket; 321. a cooling inlet; 322. a cooling outlet; 4. a transposition device; 41. a support pillar; 42. a hydraulic cylinder; 43. a rotating assembly; 431. a driven turntable; 432. an active turntable; 433. rotating the motor; 5. a dust removal device; 51. a dust collection box; 52. a dust collection pipe; 53. a dust-blocking sheet; 6. a material moving device; 61. a frame; 611. a cross bar; 612. a vertical rod; 62. a turnover assembly; 621. a telescopic cylinder; 622. an oil cylinder; 7. a lifting platform.

Detailed Description

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

Referring to fig. 1, for the utility model discloses a sealed production of gluing is with dispersator, including ascending agitator 1 of opening and stirring aircraft nose 2 and cooling device 3, stir the production of mixing in order to accomplish sealed glue through placing the raw materials in agitator 1 and utilizing stirring aircraft nose 2, wherein stirring aircraft nose 2 sets up in the fuselage 22 that (mixing) shaft 21 deviates from agitator 1 one end including connecting (mixing) shaft 21 and rotating. For guaranteeing sealed product quality who glues, agitator 1 is including the dispersion bucket 11 and the blending hopper 12 that set up side by side, and the diameter of dispersion bucket 11 is less than the diameter of blending hopper 12 for the material that is difficult to the dispersion can intensive mixing dispersion, thereby improves dispersion effect and guarantees product quality.

Referring to fig. 1, because at the in-process of sealed glue production, some raw materials are powdered, toppling over the in-process, the powder is influenced by the air current and is flown upward, fly upward for avoiding the powder and cause air pollution in the workshop, thereby influence staff's healthy, stirring head 2 deviates from agitator 1 one end and is equipped with dust collector 5, dust collector 5 is including fixed dust absorption box 51 that sets up in the fuselage 22 upper segment and set up in dust absorption pipe 52 that dust absorption box 51 deviates from (mixing) shaft 21 one side, because dust collector 5 sets up on stirring head 2, stirring head 2 can constantly remove in the use, consequently, dust absorption pipe 52 is the bellows. The dust collection box 51 is provided with a plurality of flexible dust blocking sheets 53 towards one side of the stirring shaft 21, the plurality of dust blocking sheets 53 are arranged along the circumferential direction of the dust collection box 51, and the dust collection box 51 is guided by the powder while the flying of the powder is limited.

Referring to fig. 1 and 2, because the material can produce a large amount of heats at the in-process mutual friction of high-speed stirring dispersion between the material, for avoiding the material to harden again at the in-process material that dispersion bucket 11 shifted to mixing drum 12, dispersion bucket 11 is connected with and moves material device 6 for the material after the dispersion can be fast from transferring to mixing drum 12 in dispersion bucket 11. In order to avoid the stirrer head 2 from influencing the transfer of the materials in the dispersing barrel 11, one end of the machine body 22, which is far away from the stirring shaft 21, is provided with a transposition device 4, the transposition device 4 comprises a supporting column 41 fixedly connected with the base, and a hydraulic cylinder 42 and a rotating assembly 43 which are arranged inside the supporting column 41, and the end part of a piston rod of the hydraulic cylinder 42 is rotatably connected with the machine body 22, so that the stirrer head 2 can be switched between the mixing barrel 12 and the dispersing barrel 11.

Referring to fig. 2, the rotating assembly 43 includes a driven turntable 431 coaxially and fixedly disposed at the upper end of the piston rod of the hydraulic cylinder 42 and a driving turntable 432 disposed at one side of the machine body 22, the driven turntable 431 and the driving turntable 432 are engaged with each other, a rotating motor 433 is fixedly disposed at the center of one side of the driving turntable 432, and the rotating motor 433 is fixedly connected with the mixer head 2; the driving turntable 432 is driven to rotate by rotating the rotating motor 433, so that the driven turntable 431 drives the mixer head 2 to rotate. Make (mixing) shaft 21 rise and leave agitator 1 when the piston rod extension of pneumatic cylinder 42, control again and rotate motor 433 and rotate and make fuselage 22 drive (mixing) shaft 21 and rotate to make the (mixing) shaft 21 aircraft nose interconvert between dispersion bucket 11 and blending tank 12 and remove.

Referring to fig. 3 and 5, in order to ensure that the stirring shaft 21 can normally rotate and to make the stirring machine head 2 keep stable, a driving assembly 24 for driving the stirring shaft 21 to rotate is arranged inside the machine body 22, the driving assembly 24 includes a stirring motor for driving the stirring shaft 21 to rotate and a conveying belt 242 connected to the stirring shaft 21 and the stirring motor, an output shaft of the stirring motor is provided with a driving conveying wheel 243 in tension and abutting against the conveying belt 242, the stirring shaft 21 is correspondingly provided with a driven conveying wheel 244, and the conveying belt 242 is tensioned by the driving conveying wheel 243 and the driven conveying wheel 244 to drive the stirring shaft 21 to rotate. In order to improve the stirring efficiency of the stirring shaft 21, the stirring shaft 21 is provided with a plurality of dispersion discs 23 (two are shown in the figure) in parallel along the axial direction; in order to facilitate the replacement of the dispersion disc 23 and the position adjustment on the stirring shaft 21, the dispersion disc 23 is detachably arranged with the stirring shaft 21.

Referring to fig. 1 and 4, the material moving device 6 includes a frame 61 hinged to the dispersing barrel 11 and an overturning assembly 62 driving the dispersing barrel 11 to rotate, the frame 61 includes two cross bars 611 respectively fixedly arranged in parallel outside the dispersing barrel 11 and vertical bars 612 respectively perpendicularly arranged at one end of the cross bars 611 far away from the dispersing barrel 11, the vertical bars 612 are rotatably connected with the cross bars 611, the axes of the two cross bars 611 are collinear and penetrate through the central axis of the dispersing barrel 11, and the central connecting line of the dispersing barrel 11 and the mixing barrel 12 is perpendicular to the connecting line of the hinged position of the frame 61 and the dispersing barrel 11.

Referring to fig. 4, the turnover assembly 62 includes the telescopic cylinder 621 that sets up in the montant 612 and deviates from the telescopic cylinder 621 of horizontal pole 611 one end tip and articulates the hydro-cylinder 622 that keeps away from mixing drum 12 one side in 11 bottoms of dispersion bucket, in can directly pouring the bucket interior material into mixing drum 12 under the drive of turnover assembly 62 for guaranteeing dispersion bucket 11, the telescopic cylinder 621 deviates from the one end of frame 61 and is equipped with elevating platform 7, make dispersion bucket 11 be higher than mixing drum 12 through the rising of control elevating platform 7, then use turnover assembly 62 to make dispersion bucket 11 take place to rotate. Because dispersion bucket 11 is placed in elevating platform 7 for guaranteeing that elevating platform 7 can effectively drive dispersion bucket 11 lift, elevating platform 7 adopts hydraulic pressure elevating platform 7.

Referring to fig. 1 and 4, the end of the piston rod of the cylinder 622 is hinged to the dispersing barrel 11, and the cylinder part thereof is hinged to the lifting table 7; when the piston rod of the cylinder 622 extends, the telescopic cylinder 621 extends synchronously to separate the bottom of the dispersing barrel 11 from the lifting platform 7, and at this time, one side of the dispersing barrel 11 is stressed to rotate the dispersing barrel 11 along a connecting line at the hinged position of the frame 61 and the dispersing barrel 11, so that the dispersing barrel 11 inclines towards one side of the mixing barrel 12 to pour out the materials in the dispersing barrel 11. For avoiding dispersion bucket 11 to collide with stirring aircraft nose 2 when empting the material, 11 opening one end tip of dispersion bucket are equipped with stock guide 111 towards 12 slopes of blending bin, and the both sides of stock guide 111 are protruding towards 11 insides of dispersion bucket, are toppling over the in-process and are restricting the material, avoid the material to spill from stock guide 111 both sides.

Referring to fig. 3 and 5, the material is at the (mixing) shaft 21 stirring in-process, because the temperature of friction stir messenger material risees, for avoiding the material temperature to rise and influence product quality, cooling device 3 sets up in the inside condenser pipe 31 of (mixing) shaft 21 including rotating, and condenser pipe 31 runs through the one end that (mixing) shaft 21 deviates from agitator 1, and because (mixing) shaft 21 constantly rotates under drive assembly 24's drive, is equipped with bearing 313 between condenser pipe 31 and the (mixing) shaft 21. The condenser pipe 31 is double-thread and both ends thereof penetrate through the stirring shaft 21, both ends of the condenser pipe 31 are hermetically connected with a water inlet pipe 311 and a water outlet pipe 312, and the cooling liquid enters the condenser pipe 31 from the water inlet pipe 311, flows in the stirring shaft 21 along the track of the condenser pipe 31 and flows out from the end of the water outlet pipe 312.

Referring to fig. 6, since the mixing tub 12 has a large volume, the temperature of the material in the mixing tub 12 is not sufficiently reduced by the cooling of the condensation pipe 31 only by the stirring shaft 21 during the stirring process, and to ensure the cooling effect, the cooling device 3 further includes a cooling jacket 32 disposed on the outer side wall of the mixing tub 12, and a cavity is formed between the cooling jacket 32 and the mixing tub 12 for containing the cooling liquid. The upper end of one side of cooling jacket 32 is equipped with cooling inlet 321 in a sealed manner, and the bottom sealing connection of cooling jacket 32 has cooling outlet 322, pours the coolant into cooling jacket 32 from cooling inlet 321 to lower the temperature to the material in blending barrel 12, when the temperature reaches required requirement, opens cooling outlet 322 and discharges the coolant.

Referring to fig. 6, in order to conveniently move the stirred liquid sealant out of the mixing barrel 12, a discharge hole 121 is formed at the bottom of the mixing barrel 12; after the discharge gate 121 is opened, the liquid sealant naturally flows out from the discharge gate 121 under the action of gravity. In order to enable the sealant in the mixing barrel 12 to flow out more thoroughly, the bottom of the mixing barrel 12 is provided with a material guiding body 122 facing the discharge port 121, the material guiding body 122 and the mixing barrel 12 are integrally formed, and the side wall of the material guiding body 122 is smooth, so that the liquid sealant in the mixing barrel 12 is guided by the material guiding body 122 to flow out of the discharge port 121 and gather.

The implementation principle of the embodiment is as follows: during dispersion, the stirring machine head 2 is lifted by controlling the piston rod of the hydraulic cylinder 42 to ascend, then the rotating motor 433 is controlled to rotate so that the driven turntable 431 drives the stirring machine head 2 to rotate, and when the axis of the stirring shaft 21 is collinear with the axis of the dispersion barrel 11, the rotating motor 433 stops rotating; then, the piston rod of the hydraulic cylinder 42 is controlled to contract, the stirring shaft 21 extends into the dispersing barrel 11, part of the materials to be dispersed is poured into the dispersing barrel 11, and then the stirring motor is started, so that the stirring shaft 21 is driven by the stirring motor to rotate at a high speed to disperse the materials.

After the materials are dispersed, the piston rod of the hydraulic cylinder 42 is controlled to ascend to enable the stirring machine head 2 to ascend, the rotating motor 433 is controlled to rotate to enable the driven turntable 431 to drive the stirring machine head 2 to rotate, and the rotating motor 433 is turned off when the axis of the stirring shaft 21 is collinear with the axis of the dispersing barrel 11. Through control elevating platform 7 rising for dispersion bucket 11 is higher than mixing barrel 12 and reaches and empty the requirement, and control telescopic cylinder 621 extends and control the piston rod extension of hydro-cylinder 622 simultaneously makes dispersion bucket 11 take place to incline and pour the material into mixing barrel 12 gradually under the drive of hydro-cylinder 622.

After the materials are poured into the mixing barrel 12, the piston rod of the mixing barrel is contracted through the hydraulic cylinder 42 of the control machine, and the stirring shaft 21 extends into the mixing barrel 12. Then other materials and auxiliaries are added into the mixing barrel 12, and the stirring motor is started, so that the stirring shaft 21 is driven by the stirring motor to rotate at a high speed to mix and stir the materials.

In the stirring process of the stirring shaft 21, the cooling liquid circularly flows in the condensation pipe 31 by opening the water inlet pipe 311 and the water outlet pipe 312, and the side wall of the stirring shaft 21 is continuously cooled so that the temperature of the material contacted with the stirring shaft 21 is reduced. When the material mixes the stirring in tempering tank 12, according to the length of time and the needs of stirring, pour into cooling liquid into cooling jacket 32 from cooling inlet 321, when the cavity between cooling jacket 32 and tempering tank 12 was full of to the cooling liquid, open cooling outlet 322 for the cooling liquid can constantly flow in from cooling inlet 321, and the cooling liquid after the heat absorption intensifies can constantly flow out from cooling outlet 322, guarantees the good cooling effect to the material.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a sealed production of gluing is with dispersator, includes ascending agitator (1) of opening and stirring aircraft nose (2), its characterized in that: the stirring barrel (1) comprises a dispersing barrel (11) and a mixing barrel (12) which are arranged in parallel, and the diameter of the dispersing barrel (11) is smaller than that of the mixing barrel (12); the dispersing barrel (11) is connected with a material moving device (6), and the material moving device (6) comprises a frame (61) hinged with the dispersing barrel (11) and a turnover assembly (62) driving the dispersing barrel (11) to rotate.

2. The dispenser mixer for producing sealant according to claim 1, wherein: stirring aircraft nose (2) include with agitator (1) complex (mixing) shaft (21) with rotate connect in (mixing) shaft (21) deviate from fuselage (22) of agitator (1) one end, fuselage (22) are kept away from (mixing) shaft (21) one end and are equipped with transposition device (4).

3. The sealant production dispersion mixer of claim 2, wherein: the transposition device (4) comprises a supporting column (41), a hydraulic cylinder (42) and a rotating assembly (43), wherein the hydraulic cylinder (42) and the rotating assembly (43) are arranged inside the supporting column (41), the rotating assembly (43) comprises a driven turntable (431) and a driving turntable (432), the driven turntable (431) is coaxially and fixedly arranged at the upper end of a piston rod of the hydraulic cylinder (42), the driving turntable (432) is arranged on one side of the machine body (22), and the driven turntable (431) and the driving turntable (432) are meshed.

4. The dispenser mixer for producing sealant according to claim 1, wherein: the turnover assembly (62) comprises a telescopic cylinder (621) arranged at the bottom of the frame (61) and an oil cylinder (622) hinged to the bottom of the dispersion barrel (11) and far away from one side of the mixing barrel (12), and a central connecting line of the dispersion barrel (11) and the mixing barrel (12) is perpendicular to a connecting line at the hinged position of the frame (61) and the dispersion barrel (11).

5. The sealant production dispersion mixer of claim 4, wherein: the lifting platform (7) is arranged at the bottom of the frame (61), and the lifting platform (7) is a hydraulic lifting platform (7).

6. The sealant production dispersion mixer of claim 4, wherein: the end part of one end of the opening of the dispersing barrel (11) is provided with a material guide plate (111) which inclines towards the mixing barrel (12), and two sides of the material guide plate (111) protrude towards the inside of the dispersing barrel (11).

7. The sealant production dispersion mixer of claim 2, wherein: the stirring shaft (21) is provided with a plurality of dispersion discs (23) in parallel, and the dispersion discs (23) and the stirring shaft (21) are detachably arranged.

8. The sealant production dispersion mixer of claim 2, wherein: stirring aircraft nose (2) deviate from agitator (1) one end and are equipped with dust removal mechanism, dust removal mechanism includes dust absorption box (51) and sets up in dust absorption pipe (52) that dust absorption box (51) deviate from (mixing) shaft (21) one side, dust absorption box (51) are equipped with polylith flexible fender dirt piece (53) towards agitator (1) one side, the polylith keep off dirt piece (53) along dust absorption box (51) circumference setting.