CN115007098B - Organic silicone oil anti-sticking reaction equipment convenient to ejection of compact - Google Patents

Abstract

The invention relates to the field of silicone oil, in particular to organic silicone oil anti-sticking reaction equipment convenient for discharging. The technical problems are as follows: because the organic silicone oil with high viscosity is in a viscous semisolid state, the organic silicone oil is easy to adhere in the reaction equipment, so that the discharging speed of the organic silicone oil is slower, and the residual organic silicone oil in the reaction equipment is difficult to clean. The technical proposal is as follows: an organic silicone oil anti-sticking reaction device convenient for discharging comprises a supporting table, a fixing frame, a cabin body and the like; the upper surface of the supporting table is fixedly connected with a fixing frame; the middle part of the supporting table is fixedly connected with a cabin body; the fixing frame is fixedly connected with the cabin body. After raw materials in the cabin react into organic silicone oil, the organic silicone oil in the cabin is scraped through the inversion of the arc scraping strips, so that the organic silicone oil is prevented from adhering to the inner wall of the cabin, the downward conveying speed of the organic silicone oil is influenced, meanwhile, the twisting cage is inverted, the organic silicone oil entering the discharging pipe is pushed to be conveyed downwards, and the discharging speed of the organic silicone oil is improved.

Description

Organic silicone oil anti-sticking reaction equipment convenient to ejection of compact

Technical Field

The invention relates to the field of silicone oil, in particular to organic silicone oil anti-sticking reaction equipment convenient for discharging.

Background

Chinese patent (CN 202121363079.6) discloses a discharging device of a reaction kettle, the device jacks up a piston rod and a scraping plate upwards to make reciprocating motion through a telescopic rod until the interior of a discharging pipe is dredged, so that materials can normally fall down and be discharged through the discharging pipe, and the scraping plate scrapes with the inner wall of the discharging pipe through the side wall of the scraping plate when reciprocating up and down, so that the problem that the materials are difficult to clean due to adhesion of the materials on the inner wall of the discharging pipe is prevented, but the device does not treat the inner wall of the reaction kettle and the discharging pipe, so that the viscous materials are adhered with the inner wall of the reaction kettle and the discharging pipe, the discharging speed of the viscous materials is slow, and the residual viscous materials on the inner wall of the reaction kettle are not cleaned, so that the second use of the reaction kettle is affected;

in the prior art, because the high-viscosity organic silicone oil is in a viscous semi-solid state, the organic silicone oil is easy to adhere to reaction equipment, during discharging, the organic silicone oil and the reaction equipment are adhered together, so that the discharging speed of the organic silicone oil is slower, after discharging, residual organic silicone oil in the reaction equipment is not easy to clean, the residual organic silicone oil is not clean, when the organic silicone oil is prepared next time, the residual organic silicone oil can react with raw materials, the raw material proportion of the organic silicone oil is deviated, the product quality is further influenced, the organic silicone oil is easy to adhere to a discharging hole in the discharging process of the reaction equipment, part of the organic silicone oil adhered to the discharging hole can fall on the ground or a storage barrel, resources are wasted, the ground and the storage barrel are polluted, and the other part of the organic silicone oil adhered to the discharging hole is blocked after long-time adhesion, so that the discharging hole of the subsequent reaction equipment is influenced.

Disclosure of Invention

In order to overcome the defect that the organic silicone oil with high viscosity is in a viscous semisolid state, so that the organic silicone oil is easy to adhere to reaction equipment, the discharging speed of the organic silicone oil is low, and residual organic silicone oil in the reaction equipment is difficult to clean, the invention provides organic silicone oil anti-sticking reaction equipment convenient to discharge.

The technical proposal is as follows: an organic silicone oil anti-sticking reaction device convenient for discharging comprises a supporting table, a fixing frame, a cabin body, a first power component, a stirrer, a discharging pipe and a valve; the upper surface of the supporting table is fixedly connected with a fixing frame; the middle part of the supporting table is fixedly connected with a cabin body; the fixed frame is fixedly connected with the cabin body; the upper part of the cabin body is connected with a first power assembly; the middle part of the first power assembly is connected with a stirrer; the lower part of the cabin body is connected with a discharging pipe; a valve is arranged on the discharging pipe; the first power component drives the stirrer to rotate, and the raw materials for manufacturing the organic silicone oil in the cabin body are uniformly stirred through the stirrer; the device also comprises a second power assembly, a connecting plate, a scraping ring, an arc scraping strip and a twisting cage; the fixing frame is connected with two second power components which are distributed in a bilateral symmetry manner; the lower part of the stirrer is connected with four connecting plates which are distributed in an annular array; scraping rings are fixedly connected on the four connecting plates; the scraping ring is connected with the two second power components; four arc scraping strips are fixedly connected to the lower surface of the scraping ring and distributed in an annular array; the lower parts of the four arc scraping strips are fixedly connected with a twisting cage; the first power component drives the connecting plate, the scraping ring, the arc scraping strip and the twisting cage to rotate through the stirrer, the second power component drives the stirrer, the connecting plate, the scraping ring, the arc scraping strip and the twisting cage to move upwards, and residual organic silicone oil on the upper part of the inner wall of the cabin body is scraped through the scraping ring.

Further, the scraping ring is provided with an annular groove for sliding of the second power assembly.

Further, the upper part of the scraping ring is provided with an inclined plane, and the scraping ring is used for scraping the organic silicone oil on the inner wall of the cabin body when being attached to the inner wall of the cabin body.

Further, the oil scraping assembly is also included; the lower part of the first power assembly is connected with four oil scraping assemblies which are in an annular array; the oil scraping component positioned on the right comprises a chute plate, a first small sliding block, a U-shaped frame and a scraping block; the lower part of the first power component is fixedly connected with a chute plate; the sliding groove plate is connected with a first small sliding block in a sliding way; the lower part of the right side surface of the first small sliding block is fixedly connected with a U-shaped frame; the U-shaped frame is rotationally connected with a scraping block through a rotating shaft.

Further, a diamond groove is formed in the scraping block and used for scraping residual organic silicone oil on the arc-shaped scraping strip.

Further, the stirrer comprises a shaft sleeve, a first connecting rod and a spiral plate; the middle part of the first power assembly is connected with a shaft sleeve in a sliding way; the outer surface of the shaft sleeve is fixedly connected with a plurality of first connecting rods; a spiral plate is fixedly connected to the plurality of first connecting rods.

Further, a spiral groove is formed in the spiral plate, and the spiral groove is used for guiding the organic silicone oil when the spiral plate stops rotating.

Further, the oil removing device also comprises an oil removing component; the lower surface of the horizontal plate of the supporting table is connected with an oil removing component; the oil removing assembly comprises a first mounting plate, an electric sliding rail, an electric sliding block, a second mounting plate, a second electric push rod, a mounting bracket, a second motor, a round shaft, an annular plate, a protective expansion plate, a third electric push rod, a conical table, a cross and a scraping assembly; the lower surface of the horizontal plate of the supporting table is fixedly connected with a first mounting plate; the right side surface of the first mounting plate is fixedly connected with two electric sliding rails; the outer surfaces of the two electric sliding rails are respectively connected with an electric sliding block in a sliding way; the right side surfaces of the two electric sliding blocks are fixedly connected with a second mounting plate; the second mounting plate is fixedly connected with a second electric push rod through a support plate; the second electric push rod telescopic part is fixedly connected with a mounting bracket; the lower surface of the mounting bracket is fixedly connected with a second motor; the second motor is fixedly connected with a circular shaft through an output shaft; the upper surface of the mounting bracket is fixedly connected with an annular plate; the upper surface of the mounting bracket is fixedly connected with a protection expansion plate, and the protection expansion plate is positioned in the annular plate; the upper surface of the mounting bracket is fixedly connected with two third electric push rods, and the two third electric push rods are positioned in the protective expansion plate; the two third electric push rod telescopic parts are fixedly connected with conical tables; the upper part of the round shaft is fixedly connected with a cross; four scraping assemblies are connected to the cross and distributed in an annular array.

Further, the scraping component positioned in front comprises a second small sliding block, a second connecting block, a special-shaped scraping plate and a spring telescopic column; the front part of the cross is connected with a second small sliding block in a sliding way; the lower surface of the second small sliding block is fixedly connected with a second connecting block; the second connecting block is fixedly connected with a special-shaped scraping plate; the back side surface of the second small sliding block is fixedly connected with a spring telescopic column; the spring telescopic column is fixedly connected with the cross frame.

Further, four small sliding grooves are formed in the cross and used for sliding of the second small sliding blocks.

The beneficial effects of the invention are as follows: the invention realizes that raw materials in the cabin body are stirred through forward rotation of the first connecting rod and the spiral plate, so that the raw materials are uniformly mixed, and the raw materials attached to the inner wall of the cabin body are scraped off through the rotation of the arc scraping strip attached to the inner wall of the cabin body, so that the phenomenon that the raw materials are unevenly mixed due to long-time attachment to the inner wall of the cabin body is prevented, and the reaction time is prolonged;

after raw materials in the cabin react to form organic silicone oil, the organic silicone oil in the cabin is scraped up through the inversion of the arc scraping bar, so that the phenomenon that the organic silicone oil is stuck on the inner wall of the cabin to influence the downward conveying speed of the organic silicone oil is avoided, and meanwhile, the twisting cage is inverted to push the organic silicone oil entering the discharging pipe to be conveyed downwards, so that the discharging speed of the organic silicone oil is improved;

after all the organic silicone oil in the cabin is conveyed out, the residual organic silicone oil is adhered to the inner wall of the cabin, the residual organic silicone oil at the lower part of the inner wall of the cabin is removed through the rotation of the arc-shaped scraping strip, after the residual organic silicone oil at the lower part of the inner wall of the cabin is removed, the scraping ring and the arc-shaped scraping strip move upwards, the residual organic silicone oil at the upper part of the inner wall of the cabin is scraped through the scraping ring, and meanwhile, the arc-shaped scraping strip slides on the arc-shaped scraping strip in the upward moving process, the residual organic silicone oil of the arc-shaped scraping strip is removed together through the scraping block, the inner wall of the cabin is clean, and the quality of products is ensured;

after the residual organic silicone oil on the inner wall of the cabin body is cleaned, the residual organic silicone oil on the discharging pipe is cleaned by scraping the inner wall of the lower part of the discharging pipe through the special-shaped scraping plate, so that the waste of the organic silicone oil is avoided, and the phenomenon that the organic silicone oil plugs the discharging pipe is avoided.

Drawings

FIG. 1 is a schematic view of a first perspective structure of a silicone oil anti-sticking reaction apparatus for facilitating discharging according to the present invention;

FIG. 2 is a schematic structural view of a second perspective of the silicone oil anti-sticking reaction apparatus for facilitating discharging of the present invention;

FIG. 3 is a schematic perspective view of a support table, a fixing frame, a cabin, a first power component, a stirrer, a connecting plate, a scraping ring, an arc scraping bar, a twisting cage, a discharging pipe and a valve of the silicone oil anti-sticking reaction equipment convenient for discharging;

FIG. 4 is a schematic perspective view of a first power assembly and a scraping assembly of the silicone oil anti-sticking reaction device for facilitating discharging of the present invention;

FIG. 5 is an enlarged view of area A of the silicone oil anti-sticking reaction device for facilitating discharging according to the invention;

FIG. 6 is a schematic diagram of a three-dimensional structure of a fixing frame, a cabin, a second power assembly, a connecting plate, a scraping ring, an arc scraping strip and a twisting cage of the silicone oil anti-sticking reaction device convenient for discharging;

FIG. 7 is a first perspective view of a degreasing component of the silicone oil anti-sticking reaction apparatus for facilitating discharging according to the present invention;

FIG. 8 is a second perspective view of the oil removal assembly of the silicone oil anti-sticking reaction apparatus for facilitating discharging of the present invention;

FIG. 9 is a schematic view of a first partial perspective view of the degreasing component of the silicone oil anti-sticking reaction apparatus for facilitating discharging of the present invention;

fig. 10 is a schematic view of a second partial perspective structure of the oil removal assembly of the silicone oil anti-sticking reaction apparatus for facilitating discharging of the present invention.

Reference numerals: 1-supporting table, 2-fixing frame, 3-cabin body, 509-discharging pipe, 510-valve, 505-connecting plate, 506-scraping ring, 507-arc scraping strip, 508-winch cage, 403-sliding groove plate, 404-first small sliding block, 405-U-shaped frame, 406-scraping block, 501-cover, 502-shaft sleeve, 503-first connecting rod, 504-spiral plate, 701-first mounting plate, 702-electric sliding rail, 703-electric sliding block, 704-second mounting plate, 705-second electric push rod, 706-mounting bracket, 707-second motor, 708-round shaft, 709-annular plate, 710-protective telescopic plate, 711-third electric push rod, 712-conical table, 713-cross frame, 714-second small sliding block, 715-second connecting block, 716-special scraping plate, 717-spring telescopic column, 401-first motor, 402-spline shaft, 601-first electric push rod, 602-first connecting block, 603-second connecting rod, 406 a-diamond groove, 504 a-spiral groove, 506 a-annular groove, 713 a-small sliding groove.

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.

Example 1

The silicone oil anti-sticking reaction equipment convenient for discharging comprises a supporting table 1, a fixed frame 2, a cabin body 3, a first power component, a stirrer, a discharging pipe 509 and a valve 510, as shown in fig. 1-10; the upper surface of the supporting table 1 is fixedly connected with a fixing frame 2; the middle part of the supporting table 1 is fixedly connected with a cabin 3; the fixed frame 2 is fixedly connected with the cabin body 3; the upper part of the cabin body 3 is connected with a first power component; the middle part of the first power assembly is connected with a stirrer; the lower part of the cabin body 3 is connected with a discharging pipe 509; the discharging pipe 509 is provided with a valve 510; the device also comprises a second power component, a connecting plate 505, a scraping ring 506, an arc scraping strip 507 and a twisting cage 508; the fixing frame 2 is connected with two second power components which are distributed in a bilateral symmetry manner; the lower part of the stirrer is connected with four connecting plates 505, and the four connecting plates 505 are distributed in an annular array; scraping rings 506 are fixedly connected to the four connecting plates 505; the scraping ring 506 is connected with two second power components; four arc scraping strips 507 are fixedly connected to the lower surface of the scraping ring 506, and the four arc scraping strips 507 are distributed in an annular array; the lower parts of the four arc scraping strips 507 are fixedly connected with a twisting cage 508; the scraper ring 506 has an annular groove 506a formed therein.

The upper portion of the wiper ring 506 is provided with a bevel.

When in use, firstly, the anti-sticking reaction equipment of the organic silicone oil which is convenient for discharging is placed at a required position, the supporting table 1 is placed at a stable position, firstly, an operator adds raw materials for manufacturing the organic silicone oil into the cabin body 3, after the raw materials are placed into the cabin body 3, the first power component is controlled to drive the stirrer, the connecting plate 505, the scraping ring 506, the arc scraping strips 507 and the twisting cage 508 to rotate positively, the raw materials in the cabin body 3 are stirred through the stirrer, so that the raw materials are fully reacted, the scraping ring 506 and the four arc scraping strips 507 are attached to the inner wall of the cabin body 3 to rotate, the raw materials attached to the inner wall of the cabin body 3 are scraped off, the raw materials are prevented from being attached to the inner wall of the cabin body 3 for a long time, the raw materials are unevenly mixed, the reaction time is prolonged, after the raw materials in the cabin body 3 are reacted, the first power component is controlled to drive connected components to stop rotating, an operator places a storage barrel below the discharging pipe 509 and opens the valve 510, organic silicone oil enters the discharging pipe 509, and because the viscosity of the manufactured organic silicone oil is high, the organic silicone oil is easy to adhere to the inner wall of the cabin body 3 and the inner wall of the discharging pipe 509, the first power component is controlled to drive the connected components to rotate reversely, the four arc scraping strips 507 are attached to the inner wall of the cabin body 3 to rotate, the organic silicone oil attached to the inner wall of the cabin body 3 is scraped, the adhesion of the organic silicone oil to the inner wall of the cabin body 3 is avoided, the downward conveying speed of the organic silicone oil is influenced, meanwhile, the twisting cage 508 is reversed, the organic silicone oil entering the discharging pipe 509 is pushed to be conveyed downwards, the discharging speed of the organic silicone oil is improved, after all the organic silicone oil on the inner wall of the cabin body 3 is conveyed out, the first power component is controlled to stop driving the connected components to rotate, and the second power component is controlled to drive the stirrer, the connecting plate 505, the scraping ring 506, the arc scraping strip 507 and the wringing cage 508 move upwards together, the scraping ring 506 scrapes the organic silicone oil stuck on the upper part of the inner wall of the cabin 3, the scraped organic silicone oil falls on the lower part of the inner wall of the cabin 3, the second power assembly is controlled to drive the connected parts to move downwards for resetting, after the second power assembly is reset, the first power assembly is controlled to drive the connected parts to rotate reversely, the organic silicone oil falling on the lower part of the inner wall of the cabin 3 is scraped, the organic silicone oil is conveyed downwards through the discharging pipe 509, and after the organic silicone oil on the inner wall of the cabin 3 is completely conveyed and cleared, the first power assembly is controlled to stop rotating.

Example 2

On the basis of the embodiment 1, as shown in fig. 1-10, the oil scraping assembly is further included; the lower part of the first power assembly is connected with four oil scraping assemblies which are in an annular array; the oil scraping component positioned on the right comprises a chute plate 403, a first small sliding block 404, a U-shaped frame 405 and a scraping block 406; the lower part of the first power assembly is fixedly connected with a chute plate 403; the chute plate 403 is connected with a first small sliding block 404 in a sliding way; the lower part of the right side surface of the first small sliding block 404 is fixedly connected with a U-shaped frame 405; the U-shaped frame 405 is rotatably connected with a scraping block 406 through a rotating shaft.

The scraping block 406 is provided with a diamond-shaped groove 406a.

A cover 501 is also included; a cover 501 is mounted on the front of the upper surface of the cabin 3.

The stirrer comprises a shaft sleeve 502, a first connecting rod 503 and a spiral plate 504; the middle part of the first power assembly is connected with a shaft sleeve 502 in a sliding way; a plurality of first connecting rods 503 are fixedly connected to the outer surface of the shaft sleeve 502; a spiral plate 504 is fixedly connected to the plurality of first connecting rods 503.

The spiral plate 504 is provided with a spiral groove 504a.

The oil removing device also comprises an oil removing component; the lower surface of the horizontal plate of the supporting table 1 is connected with an oil removing component; the oil removal assembly comprises a first mounting plate 701, an electric sliding rail 702, an electric sliding block 703, a second mounting plate 704, a second electric push rod 705, a mounting bracket 706, a second motor 707, a circular shaft 708, an annular plate 709, a protective expansion plate 710, a third electric push rod 711, a conical table 712, a cross 713 and a scraping assembly; the lower surface of the horizontal plate of the supporting table 1 is fixedly connected with a first mounting plate 701; the right side surface of the first mounting plate 701 is connected with two electric slide rails 702 through bolts; the outer surfaces of the two electric slide rails 702 are respectively connected with an electric slide block 703 in a sliding way; a second mounting plate 704 is fixedly connected to the right side surfaces of the two electric sliding blocks 703; the second mounting plate 704 is connected with a second electric push rod 705 through a support plate bolt; the telescopic part of the second electric push rod 705 is fixedly connected with a mounting bracket 706; the lower surface of the mounting bracket 706 is connected with a second motor 707 through bolts; the second motor 707 is fixedly connected with a circular shaft 708 through an output shaft; an annular plate 709 is fixedly connected to the upper surface of the mounting bracket 706; the upper surface of the mounting bracket 706 is fixedly connected with a protection expansion plate 710, and the protection expansion plate 710 is positioned in the annular plate 709; the upper surface of the mounting bracket 706 is connected with two third electric pushing rods 711 through bolts, and the two third electric pushing rods 711 are positioned in the protection expansion plate 710; the telescopic parts of the two third electric push rods 711 are fixedly connected with a conical table 712; the upper part of the round shaft 708 is fixedly connected with a cross 713; the cross 713 is connected with four scraping assemblies which are distributed in an annular array.

The scraping assembly positioned in front comprises a second small slide block 714, a second connecting block 715, a special-shaped scraping plate 716 and a spring telescopic column 717; the front part of the cross 713 is connected with a second small slide block 714 in a sliding way; a second connecting block 715 is fixedly connected to the lower surface of the second small slide block 714; the second connecting block 715 is connected with a special-shaped scraping plate 716 through bolts; the back side of the second small slide block 714 is fixedly connected with a spring telescopic column 717; the spring extension column 717 is fixedly connected with the cross 713.

The cross 713 is provided with four small slide grooves 713a, and the small slide grooves 713a are used for sliding the second small slide blocks 714.

The first power assembly comprises a first motor 401 and a spline shaft 402; the middle part of the upper surface of the cabin body 3 is connected with a first motor 401 through bolts; the first motor 401 is fixedly connected with a spline shaft 402 through an output shaft; the middle part of the outer surface of the spline shaft 402 is in sliding connection with the shaft sleeve 502; the lower part of the spline shaft 402 is fixedly connected with four chute plates 403.

The second power assembly positioned on the right comprises a first electric push rod 601, a first connecting block 602 and a second connecting rod 603; the right part of the upper surface of the fixed frame 2 is connected with a first electric push rod 601 through a bolt; the telescopic part of the first electric push rod 601 is fixedly connected with a first connecting block 602; the left part of the first connecting block 602 is fixedly connected with a second connecting rod 603; the lower part of the second connecting rod 603 is slidably connected with the scraping ring 506.

Firstly, an operator opens a cover 501, adds raw materials for manufacturing organic silicone oil into a cabin 3, after the raw materials are put into the cabin 3, closes the cover 501, controls an output shaft of a first motor 401 to rotate positively, drives a spline shaft 402, a chute plate 403, a first small sliding block 404, a U-shaped frame 405, a scraping block 406, a shaft sleeve 502, a first connecting rod 503, a spiral plate 504, a connecting plate 505, a scraping ring 506, an arc scraping strip 507 and a wringing cage 508 to rotate positively together, stirs the raw materials in the cabin 3 through the first connecting rod 503 and the spiral plate 504, uniformly mixes the raw materials, facilitates full reaction of the raw materials, and the scraping ring 506 and the four arc scraping strips 507 are attached to the inner wall of the cabin 3 to rotate, scrapes the raw materials attached to the inner wall of the cabin 3, prevents the raw materials from being attached to the inner wall of the cabin 3 for a long time, causes uneven raw material mixing, further reaction time phenomenon, and finishes the raw material reaction in the cabin 3, after the organic silicone oil is formed, the output shaft of the first motor 401 is controlled to stop rotating, an operator places a storage barrel below the discharge pipe 509, and opens the valve 510, the organic silicone oil enters the discharge pipe 509, the manufactured organic silicone oil is easy to adhere to the inner wall of the cabin body 3 and the inner wall of the discharge pipe 509 because the viscosity of the manufactured organic silicone oil is higher, the output shaft of the first motor 401 is controlled to rotate reversely, the connected parts are driven to rotate reversely, the four arc scraping strips 507 are attached to the inner wall of the cabin body 3 to rotate, the organic silicone oil attached to the inner wall of the cabin body 3 is scraped, the adhesion of the organic silicone oil to the inner wall of the cabin body 3 is avoided, the downward conveying speed of the organic silicone oil is influenced, meanwhile, the twisting cage 508 is rotated reversely, the organic silicone oil entering the discharge pipe 509 is pushed to be conveyed downwards, the discharging speed of the organic silicone oil is improved, after the organic silicone oil on the inner wall of the cabin body 3 is completely conveyed, the output shaft of the first motor 401 is controlled to stop rotating, the organic silicone oil on the spiral plate 504 flows downwards along the spiral groove 504a and is converged at the lower part of the inner wall of the cabin 3;

when the organic silicone oil on the inner wall of the cabin 3 is completely conveyed out, two first electric push rods 601 are controlled to push out, the first connecting blocks 602, the second connecting rods 603, the shaft sleeves 502, the first connecting rods 503, the spiral plates 504, the connecting plates 505, the scraping rings 506, the arc scraping strips 507 and the stranding cage 508 are driven to move upwards together, in the upward moving process, the scraping rings 506 scrape the organic silicone oil adhered on the upper part of the inner wall of the cabin 3, the scraped organic silicone oil falls on the lower part of the inner wall of the cabin 3, simultaneously, the four arc scraping strips 507 move upwards together, the four first small sliding blocks 404 are forced to slide on the four chute plates 403 towards the direction of the spline shafts 402, the four scraping blocks 406 rotate by taking the rotating shafts of the U-shaped frames 405 as circle centers, and the upward moving distances of the four arc scraping strips 507 are adjusted to adjust corresponding angles, so that the four scraping blocks 406 are adhered to the outer surfaces of the four arc scraping strips 507 to slide, the residual organic silicone oil on the four arc-shaped scraping strips 507 is scraped, when the four scraping blocks 406 slide to the tail ends of the four arc-shaped scraping strips 507, the scraped organic silicone oil can fall on a cutter cage 508, when the residual organic silicone oil on the upper part of the inner wall of the cabin 3 and the residual organic silicone oil on the arc-shaped scraping strips 507 are scraped, two first electric push rods 601 are controlled to shrink to drive connected components to move downwards for resetting, when the four arc-shaped scraping strips 507 are contacted with the inner wall of the cabin 3 again, the cutter cage 508 enters a discharging pipe 509, the output shaft of a first motor 401 is controlled to reversely rotate again to drive the connected components to rotate, when the four arc-shaped scraping strips 507 scrape part of the organic silicone oil appearing again on the lower part of the inner wall of the cabin 3, the output shaft of the first motor 401 is controlled to stop rotating, then the two first electric push rods 601 are controlled to push out again, the adhered part of the organic silicone oil on the four arc-shaped scraping strips 507 is scraped through the four scraping blocks 406, the organic silicone oil is gathered on the wringing cage 508, the output shaft of the first motor 401 is controlled to rotate reversely, the organic silicone oil gathered on the wringing cage 508 is conveyed downwards, and after the organic silicone oil gathered on the wringing cage 508 is conveyed downwards and removed, the output shaft of the first motor 401 is controlled to stop rotating, and the valve 510 is closed;

when the valve 510 is closed, the electric sliding blocks 703 are controlled to slide downwards on the outer surface of the electric sliding rail 702, the two electric sliding blocks 703 drive the second mounting plate 704, the second electric push rod 705, the mounting bracket 706, the second motor 707, the round shaft 708, the annular plate 709, the protective telescopic plate 710, the third electric sliding block 711, the conical table 712, the cross 713 and the scraping assembly to move downwards together, after the cross 713 is lower than the discharging pipe 509, the two electric sliding blocks 703 are controlled to stop moving, then the second electric sliding block 705 is controlled to push out, the mounting bracket 706, the second motor 707, the round shaft 708, the annular plate 709, the protective telescopic plate 710, the third electric sliding block 711, the conical table 712, the cross 713 and the scraping assembly to move to the right together, after the cross 713 moves to the right below the discharging pipe 509, the cross 713 drives connected components to move upwards, after the cross 713 is contacted with the valve 510, the two electric sliding blocks 703 are controlled to stop moving, the two third electric sliding blocks 714 are controlled to push out, the conical table and the protective plate 712 to move upwards together, then the conical table 714 is driven to move upwards together, the two electric sliding blocks 714 are driven to move to the four special-shaped sliding blocks 716, and the four sliding blocks 716 are prevented from being contacted with the inner wall of the four sliding blocks 716, and the four special-shaped sliding blocks 716 are simultaneously, and the four sliding blocks 716 are forced to move downwards along the four small sliding blocks 716 are respectively;

the output shaft of the second motor 707 is controlled to rotate to drive the round shaft 708, the cross 713, the second small slide block 714, the second connecting block 715, the special-shaped scraping plates 716 and the spring telescopic columns 717 to rotate together, residual organic silicone oil on the inner wall of the discharging pipe 509 is scraped through the four special-shaped scraping plates 716, meanwhile, the two electric sliding blocks 703 are controlled to drive connected components to move downwards, the four special-shaped scraping plates 716 move downwards while scraping the organic silicone oil on the inner wall of the discharging pipe 509 cleanly, the scraped organic silicone oil can fall into the annular plate 709, the four special-shaped scraping plates 716 are controlled to stop moving when the four special-shaped scraping plates 716 are not in contact with the inner wall of the discharging pipe 509, the cross 713 is lower than the discharging pipe 509, the two electric sliding blocks 703 are controlled to control the two third electric pushing rods 711 to shrink to drive the connected components to reset, meanwhile, the four spring telescopic columns 717 are also controlled to synchronously drive the connected components to reset, the second electric pushing rods 705 to shrink to drive the connected components to reset, and the two electric sliding blocks 703 are controlled to drive the connected components to reset.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims (8)

1. The silicone oil anti-sticking reaction equipment convenient for discharging comprises a supporting table (1), a fixing frame (2), a cabin body (3), a first power component, a stirrer, a discharging pipe (509) and a valve (510); the upper surface of the supporting table (1) is fixedly connected with a fixing frame (2); the middle part of the supporting table (1) is fixedly connected with a cabin body (3); the fixing frame (2) is fixedly connected with the cabin body (3); the upper part of the cabin body (3) is connected with a first power assembly; the middle part of the first power assembly is connected with a stirrer; the lower part of the cabin body (3) is connected with a discharging pipe (509); a valve (510) is arranged on the discharging pipe (509); the first power component drives the stirrer to rotate, and the raw materials for manufacturing the organic silicone oil in the cabin body (3) are uniformly stirred through the stirrer; the scraper is characterized by further comprising a second power assembly, a connecting plate (505), a scraper ring (506), an arc scraper bar (507) and a stranding cage (508); the fixing frame (2) is connected with two second power components which are distributed in a bilateral symmetry manner; the lower part of the stirrer is connected with four connecting plates (505), and the four connecting plates (505) are distributed in an annular array; scraping rings (506) are fixedly connected to the four connecting plates (505); the scraping ring (506) is connected with the two second power components; four arc scraping strips (507) are fixedly connected to the lower surface of the scraping ring (506), and the four arc scraping strips (507) are distributed in an annular array; the lower parts of the four arc scraping strips (507) are fixedly connected with a twisting cage (508); the first power component drives the connecting plate (505), the scraping ring (506), the arc scraping strip (507) and the stranding cage (508) to rotate through the stirrer, the second power component drives the stirrer, the connecting plate (505), the scraping ring (506), the arc scraping strip (507) and the stranding cage (508) to move upwards, and residual organic silicone oil on the upper part of the inner wall of the cabin body (3) is scraped through the scraping ring (506);

the oil scraping assembly is also included; the lower part of the first power assembly is connected with four oil scraping assemblies which are in an annular array; the oil scraping assembly positioned on the right comprises a chute plate (403), a first small sliding block (404), a U-shaped frame (405) and a scraping block (406); the lower part of the first power component is fixedly connected with a chute plate (403); a first small sliding block (404) is connected on the chute plate (403) in a sliding way; the lower part of the right side surface of the first small sliding block (404) is fixedly connected with a U-shaped frame (405); the U-shaped frame (405) is rotationally connected with a scraping block (406) through a rotating shaft;

the scraping block (406) is provided with a diamond groove (406 a) for scraping residual organic silicone oil on the arc scraping strip (507).

2. The silicone oil anti-sticking reaction apparatus for facilitating discharging according to claim 1, wherein the scraping ring (506) is provided with an annular groove (506 a), and the annular groove (506 a) is used for sliding the second power assembly.

3. The silicone oil anti-sticking reaction device convenient for discharging according to claim 1, wherein an inclined plane is arranged at the upper part of the scraping ring (506), and the device is used for scraping the silicone oil on the inner wall of the cabin body (3) when the device is attached to the inner wall of the cabin body (3).

4. The silicone oil anti-sticking reaction device convenient for discharging according to claim 1, wherein the stirrer comprises a shaft sleeve (502), a first connecting rod (503) and a spiral plate (504); the middle part of the first power assembly is connected with a shaft sleeve (502) in a sliding way; the outer surface of the shaft sleeve (502) is fixedly connected with a plurality of first connecting rods (503); a spiral plate (504) is fixedly connected to the plurality of first connecting rods (503).

5. The silicone oil anti-sticking reaction apparatus for facilitating discharging according to claim 4, wherein a spiral groove (504 a) is formed on the spiral plate (504), and the spiral groove (504 a) is used for guiding the silicone oil when the spiral plate (504) stops rotating.

6. The silicone oil anti-sticking reaction device convenient for discharging according to claim 5, further comprising an oil removing component; the lower surface of the horizontal plate of the supporting table (1) is connected with an oil removing component; the oil removal assembly comprises a first mounting plate (701), an electric sliding rail (702), an electric sliding block (703), a second mounting plate (704), a second electric push rod (705), a mounting bracket (706), a second motor (707), a circular shaft (708), an annular plate (709), a protective expansion plate (710), a third electric push rod (711), a conical table (712), a cross (713) and a scraping assembly; the lower surface of the horizontal plate of the supporting table (1) is fixedly connected with a first mounting plate (701); the right side surface of the first mounting plate (701) is fixedly connected with two electric slide rails (702); the outer surfaces of the two electric sliding rails (702) are respectively connected with an electric sliding block (703) in a sliding way; the right side surfaces of the two electric sliding blocks (703) are fixedly connected with a second mounting plate (704); the second mounting plate (704) is fixedly connected with a second electric push rod (705) through a supporting plate; the telescopic part of the second electric push rod (705) is fixedly connected with a mounting bracket (706); the lower surface of the mounting bracket (706) is fixedly connected with a second motor (707); the second motor (707) is fixedly connected with a circular shaft (708) through an output shaft; an annular plate (709) is fixedly connected to the upper surface of the mounting bracket (706); the upper surface of the mounting bracket (706) is fixedly connected with a protection expansion plate (710), and the protection expansion plate (710) is positioned in the annular plate (709); the upper surface of the mounting bracket (706) is fixedly connected with two third electric push rods (711), and the two third electric push rods (711) are positioned in the protective expansion plate (710); the telescopic parts of the two third electric push rods (711) are fixedly connected with conical tables (712); the upper part of the round shaft (708) is fixedly connected with a cross (713); four scraping assemblies are connected to the cross (713), and are distributed in an annular array.

7. The silicone oil anti-sticking reaction device convenient for discharging according to claim 6, wherein the scraping component positioned in front comprises a second small sliding block (714), a second connecting block (715), a special-shaped scraping plate (716) and a spring telescopic column (717); the front part of the cross (713) is connected with a second small slide block (714) in a sliding way; the lower surface of the second small slide block (714) is fixedly connected with a second connecting block (715); the second connecting block (715) is fixedly connected with a special-shaped scraping plate (716); the back side surface of the second small slide block (714) is fixedly connected with a spring telescopic column (717); the spring telescopic column (717) is fixedly connected with the cross (713).

8. The silicone oil anti-sticking reaction device convenient for discharging according to claim 6, wherein four small sliding grooves (713 a) are formed in the cross (713), and the small sliding grooves (713 a) are used for sliding the second small sliding blocks (714).