CN214716627U - Silane coupling agent small-dose synthesis device - Google Patents

Abstract

The utility model discloses a silane coupling agent small-dose synthesizer, including workstation, fixed setting reaction storehouse, the fixed setting that is used for the cooperation to mix the mixing stirring mechanism that stirs, sets up in the inside adjusting part that is used for the cooperation to adjust mixing stirring mechanism operating condition, the striker plate that articulates at reaction storehouse inside and the actuating mechanism who sets up and close or open at reaction storehouse inside the cooperation drive striker plate that is used for of reaction storehouse in reaction storehouse upper end. In the utility model, the materials in the reaction bin can be fully stirred and prevented from being bonded in the reaction bin through the arranged mixing and stirring mechanism and the adjusting component matched with the mixing and stirring mechanism; through the actuating mechanism who sets up, can realize carrying out automatic discharging to the inside material in reaction storehouse, reduce manual operation step.

Description

Silane coupling agent small-dose synthesis device

Technical Field

The utility model relates to a synthetic technical field of silane coupling agent especially relates to a silane coupling agent small-dose synthesizer.

Background

The silane coupling agent is an organic silicon compound containing two groups with different chemical properties in a molecule, and the molecule of the silane coupling agent simultaneously has a reaction group capable of being chemically combined with an inorganic material and a reaction group capable of being chemically combined with an organic material, and can be used for surface treatment; the silane coupling agent is applied to glass fiber reinforced plastics for the earliest time and is used as a surface treating agent of glass fibers, so that the mechanical property, the electrical property and the ageing resistance of glass fiber reinforced plastics are greatly improved, and the importance of the silane coupling agent in the glass fiber reinforced plastics industry is long known.

However, most of the existing silane coupling agent synthesis devices still have some defects, and the existing devices are complex in operation and multiple in steps, so that the reaction efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems, a small-dose synthesizing device of the silane coupling agent is provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a small-dose synthesis device for a silane coupling agent comprises a workbench, a reaction bin fixedly arranged at the upper end of the workbench, a mixing and stirring mechanism fixedly arranged at the upper end of the reaction bin and used for being matched with the reaction bin to perform mixing and stirring, an adjusting assembly arranged in the mixing and stirring mechanism and used for being matched with the mixing and stirring mechanism to adjust the working state of the mixing and stirring mechanism, a material baffle hinged in the reaction bin and a driving mechanism arranged in the reaction bin and used for being matched with the driving material baffle to close or open;

the mixing and stirring mechanism comprises a power box fixedly arranged at the top end of the reaction bin and a stirring shaft rotatably arranged in the power box, a driving motor is fixedly arranged at the top end of the power box, an output shaft of the driving motor is fixedly connected with a first transmission shaft, the first transmission shaft is rotatably arranged in the power box, and the surface of the first transmission shaft is fixedly provided with a first gear and a second gear, the stirring shaft penetrates and extends into the reaction bin, the surface of the stirring shaft is fixedly provided with a third gear, one end of the stirring shaft positioned in the reaction bin is fixedly provided with a stirring rod, and a first thread screw rod is rotatably arranged in the stirring shaft, the first thread screw rod penetrates through and extends to the interior of the reaction bin, and a fourth gear is fixedly arranged at one end of the first threaded screw rod, which is positioned inside the power box, and one end of the first threaded screw rod, which is positioned inside the reaction bin, is connected with a scraping disc through threads.

As a further description of the above technical solution:

the adjusting part comprises a rotating rod connected to the top end of the power box through threads, a movable rotating shaft is arranged at the lower end of the rotating rod in a rotating mode, a fifth gear and a sixth gear are fixedly arranged on the surface of the movable rotating shaft, the fifth gear is matched with the first gear and the fourth gear to use, the sixth gear is matched with the second gear and the third gear to use, the lower end of the side of the movable rotating shaft is connected with a locking rod through a bearing in a rotating mode, a sleeve is arranged below the locking rod, and a reset spring is fixedly arranged between the locking rod and the inside of the sleeve.

As a further description of the above technical solution:

actuating mechanism is including sliding two rack columns that set up on the inside top in reaction bin, two all be connected with the extrusion spring between rack column and the reaction bin inner wall, the meshing of rack column is connected with the seventh gear, the first pivot pole of seventh gear center pin fixedly connected with, the fixed first bevel gear that is provided with of one end that seventh gear was kept away from to first pivot pole, first bevel gear meshing is connected with second bevel gear, second bevel gear center pin fixedly connected with worm, the worm meshing is connected with the worm wheel, worm wheel center pin fixedly connected with second screw lead screw, second screw lead screw surface threaded connection has the nut seat, nut seat bottom articulates there is the connecting rod, the one end that the nut seat was kept away from to the connecting rod articulates in the striker plate upper end.

As a further description of the above technical solution:

the inside fixed discharge material platform that is provided with of reaction bin, discharge opening has been seted up to discharge material platform central point, just the discharge material platform lateral wall sets up and is slope form, the discharge material platform is located directly over the striker plate.

As a further description of the above technical solution:

and a feeding hole is fixedly arranged at the top end of the reaction bin.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

in the utility model, the materials in the reaction bin can be fully stirred and prevented from being bonded in the reaction bin through the arranged mixing and stirring mechanism and the adjusting component matched with the mixing and stirring mechanism; through the actuating mechanism who sets up, can realize carrying out automatic discharging to the inside material in reaction storehouse, reduce manual operation step.

Drawings

FIG. 1 is a schematic view showing the overall appearance of a small-dose synthesis apparatus for silane coupling agent according to the present invention;

FIG. 2 is a cross-sectional view of an apparatus for synthesizing a small amount of silane coupling agent;

FIG. 3 is a schematic view of a partial A structure of a small-dose synthesizer for silane coupling agent according to the present invention;

FIG. 4 is a schematic view of a partial B structure of a small-dose synthesizer for silane coupling agent according to the present invention;

fig. 5 shows an enlarged structural schematic diagram of a mixing and stirring mechanism of a small-dose synthesizing device for silane coupling agent according to the present invention.

Illustration of the drawings:

1. a work table; 2. a reaction bin; 3. a mixing and stirring mechanism; 4. an adjustment assembly; 5. a drive mechanism; 6. a striker plate; 7. a discharge platform; 8. a feed inlet; 301. a power box; 302. a drive motor; 303. a first drive shaft; 304. a first gear; 305. a second gear; 306. a stirring shaft; 307. a third gear; 308. a first threaded lead screw; 309. a fourth gear; 310. a stirring rod; 311. a scraping disc; 401. a rotating rod; 402. a movable rotating shaft; 403. a fifth gear; 404. a sixth gear; 405. a lock lever; 406. a return spring; 501. a rack post; 502. a seventh gear; 503. a first bevel gear; 504. a second bevel gear; 505. a worm; 506. a worm gear; 507. a second threaded screw; 508. a nut seat; 509. a connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a small-dose synthesis device for a silane coupling agent comprises a workbench 1, a reaction bin 2 fixedly arranged at the upper end of the workbench 1, a mixing and stirring mechanism 3 fixedly arranged at the upper end of the reaction bin 2 and used for matching and stirring, an adjusting component 4 arranged in the mixing and stirring mechanism 3 and used for matching and adjusting the working state of the mixing and stirring mechanism 3, a material baffle 6 hinged in the reaction bin 2 and a driving mechanism 5 arranged in the reaction bin 2 and used for matching and driving the material baffle 6 to close or open;

the mixing and stirring mechanism 3 comprises a power box 301 fixedly arranged at the top end of the reaction bin 2 and a stirring shaft 306 rotatably arranged in the power box 301, a driving motor 302 is fixedly arranged at the top end of the power box 301, a first transmission shaft 303 is fixedly connected with an output shaft of the driving motor 302, the first transmission shaft 303 is rotatably arranged in the power box 301, a first gear 304 and a second gear 305 are fixedly arranged on the surface of the first transmission shaft 303, the stirring shaft 306 penetrates and extends into the reaction bin 2, a third gear 307 is fixedly arranged on the surface of the stirring shaft 306, a stirring rod 310 is fixedly arranged at one end of the stirring shaft 306 positioned in the reaction bin 2, and the interior of the stirring shaft 306 is rotatably provided with a first threaded screw rod 308, the first threaded screw rod 308 penetrates through and extends to the interior of the reaction bin 2, and one end of the first threaded screw rod 308, which is positioned inside the power box 301, is fixedly provided with a fourth gear 309, and one end of the first threaded screw rod 308, which is positioned inside the reaction bin 2, is connected with a scraping disc 311 through threads.

Further, the adjusting assembly 4 comprises a rotating rod 401 connected to the top end of the power box 301 through threads, a movable rotating shaft 402 is rotatably arranged at the lower end of the rotating rod 401, a fifth gear 403 and a sixth gear 404 are fixedly arranged on the surface of the movable rotating shaft 402, the fifth gear 403 is matched with the first gear 304 and the fourth gear 309 for use, the sixth gear 404 is matched with the second gear 305 and the third gear 307 for use, a locking rod 405 is rotatably connected to the lower end of the movable rotating shaft 402 through a bearing, a sleeve is arranged below the locking rod 405, and a return spring 406 is fixedly arranged between the locking rod 405 and the inside of the sleeve.

Further, the driving mechanism 5 comprises two rack columns 501 arranged at the top end inside the reaction bin 2 in a sliding manner, extrusion springs are connected between the two rack columns 501 and the inner wall of the reaction bin 2, the rack columns 501 are connected with a seventh gear 502 in a meshing manner, a first rotating rod is fixedly connected with a central shaft of the seventh gear 502, a first bevel gear 503 is fixedly arranged at one end, away from the seventh gear 502, of the first rotating rod, the first bevel gear 503 is connected with a second bevel gear 504 in a meshing manner, a central shaft of the second bevel gear 504 is fixedly connected with a worm 505, the worm 505 is connected with a worm wheel 506 in a meshing manner, a central shaft of the worm wheel 506 is fixedly connected with a second threaded lead screw 507, a nut seat 508 is connected to the surface of the second threaded lead screw 507 in a threaded manner, a connecting rod 509 is hinged to the bottom end of the nut seat 508, and one end, away from the nut seat 508, of the connecting rod 509 is hinged to the upper end of the material baffle 6.

Further, 2 inside fixed discharge platforms 7 that are provided with of reaction bin, the discharge opening has been seted up to 7 central points of discharge platforms, and 7 lateral walls of discharge platforms set up and be slope form, and discharge platforms 7 are located directly over striker plate 6.

Further, a feeding hole 8 is fixedly arranged at the top end of the reaction bin 2.

The working principle is as follows: when the stirring device is used, materials are added into the reaction bin 2 through the feeding hole 8, the driving motor 302 is further started, the driving motor 302 further drives the first transmission shaft 303 to rotate, the first transmission shaft 303 further drives the second gear 305 fixedly arranged on the surface of the first transmission shaft to rotate, the second gear 305 further drives the sixth gear 404 meshed with the second transmission shaft to rotate, the sixth gear 404 further drives the third gear 307 meshed with the other side of the sixth gear to rotate, the third gear 307 further drives the stirring shaft 306 fixedly connected with the central shaft of the third gear to rotate, and the stirring shaft 306 further drives the stirring rod 310 fixedly arranged at the bottom end of the stirring shaft to stir the materials in the reaction bin 2;

after a certain period of time, by rotating the rotating rod 401, the rotating rod 401 further drives the movable rotating shaft 402 rotatably disposed at the lower end thereof to rise, the movable rotating shaft 402 further drives the fifth gear 403 and the sixth gear 404 fixedly disposed on the surfaces thereof to rise, the sixth gear 404 is disengaged from the second gear 305 and the third gear 307, the fifth gear 403 starts to mesh with the first gear 304 and the fourth gear 309, the synchronous movable rotating shaft 402 drives the locking rod 405 to lock the third gear 307, the first gear 304 starts to drive the fifth gear 403 to rotate, the fifth gear 403 further drives the fourth gear 309 to rotate, the fourth gear 309 further drives the first threaded screw rod 308 fixedly connected with the central shaft thereof to rotate, and the first threaded screw rod 308 further drives the scraping disc 311 sleeved on the surface of the first threaded screw rod to rise in the reaction bin 2, so that materials are prevented from remaining on the inner wall of the reaction bin 2;

when the scraping disc 311 rises to the top end inside the reaction chamber 2, the scraping disc 311 further presses the rack column 501, the rack column 501 further drives the seventh gear 502 engaged therewith to rotate, the seventh gear 502 further drives the first bevel gear 503 to rotate through the first rotating rod, the first bevel gear 503 further drives the second bevel gear 504 engaged therewith to rotate, the second bevel gear 504 further drives the worm 505 fixedly connected with the central shaft thereof to rotate, the worm 505 further drives the worm wheel 506 engaged therewith to rotate, the worm wheel 506 further drives the second threaded screw rod 507 fixedly connected with the central shaft thereof to rotate, the second threaded screw rod 507 further drives the nut seat 508 sleeved on the surface thereof to move, the nut seat 508 further pushes the material baffle 6 through the connecting rod 509 hinged therewith to drive the material baffle 6 to open, so as to facilitate the discharge of the materials after the reaction inside the reaction chamber 2, the manual operation steps are reduced.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. A silane coupling agent small-dose synthesis device is characterized by comprising a workbench (1), a reaction bin (2) fixedly arranged at the upper end of the workbench (1), a mixing and stirring mechanism (3) fixedly arranged at the upper end of the reaction bin (2) and used for matching and stirring, an adjusting component (4) arranged inside the mixing and stirring mechanism (3) and used for matching and adjusting the working state of the mixing and stirring mechanism (3), a material baffle plate (6) hinged inside the reaction bin (2) and a driving mechanism (5) arranged inside the reaction bin (2) and used for matching and driving the material baffle plate (6) to close or open;

the mixing and stirring mechanism (3) comprises a power box (301) fixedly arranged at the top end of the reaction bin (2) and a stirring shaft (306) rotatably arranged in the power box (301), a driving motor (302) is fixedly arranged at the top end of the power box (301), an output shaft of the driving motor (302) is fixedly connected with a first transmission shaft (303), the first transmission shaft (303) is rotatably arranged in the power box (301), a first gear (304) and a second gear (305) are fixedly arranged on the surface of the first transmission shaft (303), the stirring shaft (306) penetrates through and extends into the reaction bin (2), a third gear (307) is fixedly arranged on the surface of the stirring shaft (306), a stirring rod (310) is fixedly arranged at one end of the stirring shaft (306) positioned in the reaction bin (2), and a first threaded screw rod (308) is rotatably arranged in the stirring shaft (306), the first threaded screw rod (308) penetrates through and extends to the interior of the reaction bin (2), a fourth gear (309) is fixedly arranged at one end, located inside the power box (301), of the first threaded screw rod (308), and a scraping disc (311) is connected to one end, located inside the reaction bin (2), of the first threaded screw rod (308) through threads.

2. The device for synthesizing the silane coupling agent in small dose is characterized in that the adjusting assembly (4) comprises a rotating rod (401) which is connected to the top end of the power box (301) through threads, a movable rotating shaft (402) is rotatably arranged at the lower end of the rotating rod (401), a fifth gear (403) and a sixth gear (404) are fixedly arranged on the surface of the movable rotating shaft (402), wherein the fifth gear (403) is matched with the first gear (304) and the fourth gear (309) for use, the sixth gear (404) is matched with the second gear (305) and the third gear (307) for use, a locking rod (405) is rotatably connected to the lower end of the movable rotating shaft (402) through a bearing, a sleeve is arranged below the locking rod (405), and a return spring (406) is fixedly arranged between the locking rod (405) and the inside of the sleeve.

3. The device for synthesizing the silane coupling agent in small amount according to claim 1, wherein the driving mechanism (5) comprises two rack columns (501) slidably disposed at the top end inside the reaction chamber (2), an extrusion spring is connected between the two rack columns (501) and the inner wall of the reaction chamber (2), the rack columns (501) are engaged with a seventh gear (502), a first rotating rod is fixedly connected to the central shaft of the seventh gear (502), a first bevel gear (503) is fixedly disposed at one end of the first rotating rod away from the seventh gear (502), a second bevel gear (504) is engaged with the first bevel gear (503), a worm (505) is fixedly connected to the central shaft of the second bevel gear (504), a worm gear (506) is engaged with the worm (505), a second thread (507) is fixedly connected to the central shaft of the worm gear (506), the surface of the second threaded screw rod (507) is in threaded connection with a nut seat (508), the bottom end of the nut seat (508) is hinged with a connecting rod (509), and one end, far away from the nut seat (508), of the connecting rod (509) is hinged to the upper end of the material baffle plate (6).

4. The device for synthesizing the silane coupling agent with the small dose as claimed in claim 1, wherein a discharge platform (7) is fixedly arranged inside the reaction chamber (2), a discharge hole is formed in the center of the discharge platform (7), the side wall of the discharge platform (7) is arranged in a slope shape, and the discharge platform (7) is positioned right above the material baffle plate (6).

5. The synthesis device for small amount of silane coupling agent according to claim 1, wherein the top of the reaction chamber (2) is fixedly provided with a feed inlet (8).

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