CN215234193U - Reation kettle is used in graphite alkene processing - Google Patents

Abstract

The utility model provides a reation kettle is used in graphite alkene processing relates to reation kettle technical field. This reation kettle is used in graphite alkene processing, including the cauldron body, the inside of the cauldron body is provided with interior axle, and the inside of interior axle is provided with two cavitys, and the upper end of interior axle is rotated and is run through the interior roof of the cauldron body, and the inside of the cauldron body is provided with the regulating spindle, and the regulating spindle slides and cup joints the surface at interior axle, and the movable plate has all been pegged graft to the inside of two cavitys, and the equal fixedly connected with drive spring in upper surface of two movable plates, the upper end of two drive springs respectively with the interior roof fixed connection of two cavitys. This reation kettle is used in graphite alkene processing through setting up transmission spring, movable plate, bracing piece, rotor plate, leading wheel and eccentric wheel, has reached the effect that reciprocates when stirring structure pivoted, has solved present reation kettle and can only carry out simple plane rotation stirring, and stirring efficiency is lower to cause the lower problem of reaction efficiency.

Description

Reation kettle is used in graphite alkene processing

Technical Field

The utility model relates to a reation kettle technical field specifically is a reation kettle is used in graphite alkene processing.

Background

The reaction kettle is widely applied to pressure vessels for petroleum, chemical engineering, rubber, pesticides, dyes, medicines and foods, and is used for completing technological processes such as vulcanization, nitration, hydrogenation, alkylation, polymerization, condensation and the like, such as a reactor, a reaction kettle, a decomposition kettle, a polymerization kettle and the like; the material is carbon manganese steel, stainless steel, zirconium, nickel-based alloy and other composite materials.

The in-process of graphite alkene preparation need use reation kettle, and graphite alkene needs the stirring structure in the reation kettle to rotate and improves reaction efficiency at the in-process of reaction, but reation kettle now can only carry out simple plane and rotate the stirring, and stirring efficiency is lower to it is lower to cause reaction efficiency.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a reation kettle is used in graphite alkene processing has solved present reation kettle and can only carry out simple plane rotation stirring, and stirring efficiency is lower to cause the lower problem of reaction efficiency.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a reaction kettle for processing graphene comprises a kettle body, wherein an inner shaft is arranged inside the kettle body, two cavities are arranged inside the inner shaft, the upper end of the inner shaft rotatably penetrates through the inner top wall of the kettle body, an adjusting shaft is arranged inside the kettle body and slidably sleeved on the outer surface of the inner shaft, movable plates are respectively inserted into the two cavities, transmission springs are respectively fixedly connected to the upper surfaces of the two movable plates, the upper ends of the two transmission springs are respectively fixedly connected with the inner top walls of the two cavities, the circumferential side surfaces of the two movable plates respectively slidably penetrate through the inner side walls of the two cavities, one ends of the two movable plates, which are positioned outside the inner shaft, are respectively fixedly connected with the inner wall of the adjusting shaft, a supporting rod is rotatably sleeved at the lower end of the adjusting shaft, vertical rods are respectively fixedly connected to the inner wall of the front back surface of the kettle body, the front end and the rear end of the supporting rod are respectively slidably sleeved on the outer surfaces of the two vertical rods, and a supporting shaft is arranged below the supporting rod, both ends all rotate the inner wall that runs through the cauldron body around the back shaft.

The front of the kettle body is provided with a rotating plate which is fixedly sleeved at the front end of a supporting shaft, the back of the rotating plate is fixedly connected with a torsional spring, the rear end of the torsional spring is fixedly connected with the front of the kettle body, the torsional spring is rotatably sleeved on the outer surface of the supporting shaft, the front of the kettle body is fixedly connected with a motor A, the front of the motor A is provided with an eccentric wheel which is fixedly sleeved at the output end of the motor A, the eccentric wheel is positioned above the rotating plate, one end of the supporting shaft positioned in the kettle body is fixedly sleeved with two guide wheels which are both positioned below a supporting rod, the upper surface of the kettle body is fixedly connected with a motor B, the output end of the motor B is fixedly connected with the upper end surface of an inner shaft, the front side and the back side of the motor B on the upper surface of the kettle body are both fixedly penetrated with feeding pipes, the bottom surface of the kettle body is fixedly penetrated with a discharging pipe, and the bottom surface of the kettle body is fixedly connected with supporting legs, the outer surface of the adjusting shaft is fixedly sleeved with a stirring structure above the supporting rod.

Preferably, the rolling sleeves are in rolling contact with the upper portions of the two guide wheels, and the two rolling sleeves are rotatably sleeved on the outer surface of the supporting shaft.

Preferably, the number of the supporting legs is four, and the moving wheels are installed on the bottom surfaces of the four supporting legs.

Preferably, the motor A and the kettle body are fixedly connected through a mounting frame, the mounting frame is fixedly sleeved on the outer surface of the motor A, and the back of the mounting frame is fixedly connected with the front of the kettle body.

Preferably, the number of the stirring structures is three, and the three stirring structures are distributed at equal intervals.

Preferably, two montants parallel arrangement, two montants are with the axis symmetric distribution of regulating spindle both sides around the regulating spindle.

(III) advantageous effects

The utility model provides a reation kettle is used in graphite alkene processing. The method has the following beneficial effects:

1. the reaction kettle for processing the graphene is characterized in that a transmission spring, a movable plate, a supporting rod, a rotating plate, a guide wheel and an eccentric wheel are arranged, in the reaction process, a motor A and a motor B are started, the motor A drives the eccentric wheel to rotate, the rotating plate is always in contact with the eccentric wheel under the action of a torsional spring, so that the rotating plate is driven to swing when the eccentric wheel rotates, then the guide wheel is driven to rotate by a supporting shaft, then the guide wheel continuously pushes an adjusting shaft to move upwards by the supporting rod, then the transmission spring is continuously compressed by the movable plate, meanwhile, the adjusting shaft drives an agitating structure to move upwards and downwards, then the motor B drives the adjusting shaft to rotate by an inner shaft, the agitating structure rotates, the effect that the agitating structure rotates and moves upwards and downwards is achieved, the problem that the existing reaction kettle only can carry out simple plane rotation agitation is solved, the agitating efficiency is low, thereby causing a problem of low reaction efficiency.

2. This reation kettle is used in graphite alkene processing through setting up the roller, when the leading wheel rotated under the drive of back shaft, the roller rolled on the leading wheel surface, has reached the effect that reduces the frictional force between bracing piece and the leading wheel, has solved the bracing piece because too big with the leading wheel rotation frictional force, causes the wearing and tearing speed too fast to lead to the fact the lower problem of life.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection between the support shaft and the torsion spring of the present invention;

FIG. 3 is a schematic view of the connection between the support rod and the adjusting shaft of the present invention;

fig. 4 is a schematic view of the connection between the transmission spring and the moving plate of the present invention.

The device comprises a kettle body 1, a cavity 2, an inner shaft 3, a supporting rod 4, an adjusting shaft 5, a movable plate 6, a transmission spring 7, a vertical rod 8, a supporting shaft 9, a rotating plate 10, a torsion spring 11, a motor A12, an eccentric wheel 13, a guide wheel 14, a motor B15, a feeding pipe 16, a discharging pipe 17, supporting legs 18, a stirring structure 19, a rolling sleeve 20, a moving wheel 21 and a mounting rack 22.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model provides a reaction kettle for processing graphene, as shown in fig. 1-4, comprising a kettle body 1, wherein an inner shaft 3 is arranged inside the kettle body 1, two cavities 2 are arranged inside the inner shaft 3, the upper end of the inner shaft 3 is rotatably penetrated through the inner top wall of the kettle body 1, an adjusting shaft 5 is arranged inside the kettle body 1, the adjusting shaft 5 is slidably sleeved on the outer surface of the inner shaft 3, moving plates 6 are respectively inserted inside the two cavities 2, the upper surfaces of the two moving plates 6 are respectively and fixedly connected with a transmission spring 7, the transmission spring 7 is in a compression state, the upper ends of the two transmission springs 7 are respectively and fixedly connected with the inner top walls of the two cavities 2, the circumferential side surfaces of the two moving plates 6 are respectively and slidably penetrated through the inner side walls of the two cavities 2, one ends of the two moving plates 6, which are positioned outside the inner shaft 3, are respectively and fixedly connected with the inner wall of the adjusting shaft 5, a support rod 4 is rotatably sleeved on the lower end of the adjusting shaft 5, the equal fixedly connected with montant 8 of the positive back inner wall of the cauldron body 1, two montant 8 parallel arrangement, two montants 8 with the axis symmetric distribution of regulating spindle 5 both sides around regulating spindle 5, both ends slide respectively to cup joint at two montant 8's surface around bracing piece 4, the below of bracing piece 4 is provided with back shaft 9, both ends all rotate the inner wall that runs through the cauldron body 1 around back shaft 9.

A rotating plate 10 is arranged in front of the kettle body 1, the rotating plate 10 is fixedly sleeved at the front end of a supporting shaft 9, a torsion spring 11 is fixedly connected to the back surface of the rotating plate 10, the spring coefficient of the torsion spring 11 is large enough to meet the working requirement, the rear end of the torsion spring 11 is fixedly connected with the front surface of the kettle body 1, the torsion spring 11 is rotatably sleeved on the outer surface of the supporting shaft 9, a motor A12 is fixedly connected to the front surface of the kettle body 1, the motor A12 is fixedly connected with the kettle body 1 through a mounting frame 22, the mounting frame 22 is fixedly sleeved on the outer surface of the motor A12, the back surface of the mounting frame 22 is fixedly connected with the front surface of the kettle body 1, an eccentric wheel 13 is arranged in front of the motor A12, the eccentric wheel 13 is fixedly sleeved on the output end of the motor A12, the eccentric wheel 13 is positioned above the rotating plate 10, two guide wheels 14 are fixedly sleeved at one end of the supporting shaft 9 positioned in the kettle body 1, the circumferential side surface of the guide wheels 14 is wavy, the support rod 4 is driven to move up and down in the rotating process of the guide wheel 14, the two guide wheels 14 are both positioned below the support rod 4, rolling sleeves 20 are in rolling contact with the upper portions of the two guide wheels 14, the two rolling sleeves 20 are rotatably sleeved on the outer surface of the support shaft 9, the rolling sleeves 20 can improve the fluency when the guide wheels 14 push the support rod 4, a motor B15 is fixedly connected to the upper surface of the kettle body 1, the output end of the motor B15 is fixedly connected with the upper end surface of the inner shaft 3, feeding pipes 16 are fixedly penetrated through the front side and the rear side of the upper surface of the kettle body 1, a discharging pipe 17 is fixedly penetrated through the bottom surface of the kettle body 1, the bottom surface of the kettle body 1 is fixedly connected with four support legs 18, moving wheels 21 are respectively installed on the bottom surfaces of the four support legs 18, the moving wheels 21 are convenient for moving the reaction kettle, a stirring structure 19 is fixedly sleeved on the outer surface of the adjusting shaft 5 positioned above the support rod 4, the number of the stirring structures 19 is three, and the three stirring structures 19 are distributed at equal intervals.

In the reaction process, the motor A12 and the motor B15 are started, the motor A12 drives the eccentric wheel 13 to rotate, the rotating plate 10 is always in contact with the eccentric wheel 13 under the action of the torsion spring 11, so that the rotating plate 10 is driven to swing when the eccentric wheel 13 rotates, then the supporting shaft 9 drives the guide wheel 14 to rotate, then the guide wheel 14 continuously pushes the adjusting shaft 5 to move upwards through the supporting rod 4, then the transmission spring 7 is continuously compressed through the moving plate 6, the adjusting shaft 5 drives the stirring structure 19 to move up and down, then the motor B15 drives the adjusting shaft 5 to rotate through the inner shaft 3, the stirring structure 19 rotates, the stirring structure 19 moves up and down while rotating, the stirring space of the stirring structure 19 is improved, and the stirring efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a reation kettle is used in graphite alkene processing, includes the cauldron body (1), its characterized in that: an inner shaft (3) is arranged inside the kettle body (1), two cavities (2) are arranged inside the inner shaft (3), the upper end of the inner shaft (3) penetrates through the inner top wall of the kettle body (1) in a rotating mode, an adjusting shaft (5) is arranged inside the kettle body (1), the adjusting shaft (5) is sleeved on the outer surface of the inner shaft (3) in a sliding mode, moving plates (6) are inserted into the two cavities (2), transmission springs (7) are fixedly connected to the upper surfaces of the two moving plates (6), the upper ends of the two transmission springs (7) are fixedly connected with the inner top walls of the two cavities (2) respectively, the circumferential side surfaces of the two moving plates (6) penetrate through the inner side walls of the two cavities (2) in a sliding mode respectively, one ends, located outside the inner shaft (3), of the two moving plates (6) are fixedly connected with the inner wall of the adjusting shaft (5), a supporting rod (4) is sleeved on the lower end of the adjusting shaft (5) in a rotating mode, vertical rods (8) are fixedly connected to the inner wall of the front back surface of the kettle body (1), the front end and the rear end of each supporting rod (4) are respectively sleeved on the outer surfaces of the two vertical rods (8) in a sliding mode, a supporting shaft (9) is arranged below each supporting rod (4), and the front end and the rear end of each supporting shaft (9) rotatably penetrate through the inner wall of the kettle body (1);

the kettle is characterized in that a rotating plate (10) is arranged in front of the kettle body (1), the rotating plate (10) is fixedly sleeved at the front end of a supporting shaft (9), a torsion spring (11) is fixedly connected to the back surface of the rotating plate (10), the rear end of the torsion spring (11) is fixedly connected with the front surface of the kettle body (1), the torsion spring (11) is rotatably sleeved on the outer surface of the supporting shaft (9), a motor A (12) is fixedly connected to the front surface of the kettle body (1), an eccentric wheel (13) is arranged in front of the motor A (12), the eccentric wheel (13) is fixedly sleeved at the output end of the motor A (12), the eccentric wheel (13) is positioned above the rotating plate (10), two guide wheels (14) are fixedly sleeved at one end of the supporting shaft (9) inside the kettle body (1), the two guide wheels (14) are both positioned below a supporting rod (4), and a motor B (15) is fixedly connected to the upper surface of the kettle body (1), the output of motor B (15) and the up end fixed connection of interior axle (3), the upper surface of the cauldron body (1) is located all fixed the running through of both sides around motor B (15) and has had pan feeding pipe (16), and the bottom surface of the cauldron body (1) is fixed to be run through has discharging pipe (17), and the bottom surface fixedly connected with supporting leg (18) of the cauldron body (1), the top that the surface of regulating spindle (5) is located bracing piece (4) is fixed to be cup jointed and has stirred structure (19).

2. The reaction kettle for processing graphene according to claim 1, wherein: the upper parts of the two guide wheels (14) are in rolling contact with rolling sleeves (20), and the two rolling sleeves (20) are rotatably sleeved on the outer surface of the supporting shaft (9).

3. The reaction kettle for processing graphene according to claim 1, wherein: the number of the supporting legs (18) is four, and moving wheels (21) are installed on the bottom surfaces of the four supporting legs (18).

4. The reaction kettle for processing graphene according to claim 1, wherein: the electric kettle is characterized in that the motor A (12) is fixedly connected with the kettle body (1) through an installation frame (22), the installation frame (22) is fixedly sleeved on the outer surface of the motor A (12), and the back of the installation frame (22) is fixedly connected with the front of the kettle body (1).

5. The reaction kettle for processing graphene according to claim 1, wherein: the number of the stirring structures (19) is three, and the three stirring structures (19) are distributed at equal intervals.

6. The reaction kettle for processing graphene according to claim 1, wherein: the two vertical rods (8) are arranged in parallel, and the two vertical rods (8) are symmetrically distributed on the front side and the rear side of the adjusting shaft (5) through the axis of the adjusting shaft (5).

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