CN219232355U - Reation kettle is used in emulsified oil production - Google Patents

Abstract

The utility model relates to the technical field of chemical equipment and discloses a reaction kettle for emulsified oil production, wherein a stirring mechanism comprises a stirring shaft driven by a stirring driving mechanism and a plurality of stirring plates arranged on the stirring shaft, the lower end of the stirring shaft is positioned at the lower part of the inside of a reaction kettle main body, stirring sheets with a plurality of fan blade structures are uniformly arranged at the lower end of the stirring shaft, a plurality of reaction observation devices are arranged on the outer wall of the reaction kettle main body, each reaction observation device comprises a conducting pipe horizontally extending to the inside of the reaction kettle main body and a needle cylinder liquid taking structure, each needle cylinder liquid taking structure comprises a transparent cylinder body and a sealing push-pull component arranged in the transparent cylinder body, and the vertical direction of the lower end of the transparent cylinder body is connected with one end of the conducting pipe positioned outside the reaction kettle main body. The solution in the reaction kettle is uniformly mixed without layering phenomenon, the emulsification effect is good, the emulsification process in the reaction kettle main body can be observed and monitored in real time, the time is saved, and the equipment use efficiency is high.

Description

Reation kettle is used in emulsified oil production

Technical Field

The utility model relates to the technical field of chemical equipment, in particular to a reaction kettle for emulsified oil production.

Background

Emulsified oil (emulsion oil) is tiny oil particles in stable state (without floating up and agglomeration), the particle size is about 0.5-25 μm, and the oil is light brown to dark brown liquid or semisolid, and belongs to the category of metal cutting oil. The cooling is mainly used, the lubrication is secondary, and the method is used for metal rough machining such as turning, sawing, drilling, grinding and the like. In the production process of emulsified oil, raw materials and solution are uniformly stirred in a reaction kettle to be emulsified, when the stirring mechanism in the reaction kettle is used for stirring in the production process of the existing reaction kettle, the solution in the reaction kettle cannot be subjected to upper-layer and lower-layer flow exchange, layering phenomenon is easy to occur, particularly, the solution at the bottom of the reaction kettle is easy to emulsify and not thorough, the reaction kettle is generally opaque, and the emulsification process of the solution in the reaction kettle is difficult to observe and control in real time in the production process.

Disclosure of Invention

The utility model provides a reaction kettle for emulsified oil production, which solves the technical problems that the existing reaction kettle is easy to generate layering when emulsified oil is produced, the emulsification of a bottom solution is not thorough, and the observation and monitoring are difficult in the emulsification process.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides an emulsion is reation kettle for oil production, includes the reation kettle main part, reation kettle main part upper end is provided with stirring actuating mechanism and a plurality of raw materials and adds the mouth, inside being provided with of reation kettle main part is by stirring actuating mechanism driven rabbling mechanism, be provided with the drain line under the inside of reation kettle main part, stirring mechanism includes by stirring actuating mechanism driven (mixing) shaft and sets up a plurality of stirring boards on the (mixing) shaft, the lower extreme of (mixing) shaft is located the inside lower part of reation kettle main part and its lower extreme evenly is provided with the stirring piece of a plurality of flabellum structures, be provided with a plurality of reaction observation device on the outer wall of reation kettle main part, reaction observation device includes that the level extends to inside conduction pipe and the cylinder of reation kettle main part gets liquid structure, the cylinder is got liquid structure and is including transparent barrel and the sealed push-pull part of setting inside transparent barrel, the vertical direction of lower extreme and the conduction pipe of transparent barrel are located the outside one end of reation kettle main part and link to each other. The solution in the reaction kettle is uniformly mixed without layering phenomenon, the emulsification effect is good, the emulsification process in the reaction kettle main body can be observed and monitored in real time, the time is saved, and the equipment use efficiency is high.

Further is: the inside below of reation kettle main part is provided with the peripheral support frame that is located liquid pipeline installation port, the upper end of support frame is provided with the terminal pivot support limiting part of support limiting stirring axle. Effectively avoid reation kettle structure impaired, improved reation kettle's life.

Further is: the stirring plates are divided into a plurality of layers and uniformly and circumferentially arranged on the stirring shaft in an up-down corresponding manner, and the stirring sheets are uniformly and circumferentially arranged on the stirring shaft and do not correspond to the stirring plates in the vertical direction. The solution in the reaction kettle main body is thoroughly mixed and emulsified, so that the emulsification efficiency is improved.

Further is: and a limiting fixed support fixed on the outer surface of the main body of the reaction kettle is arranged on the transparent cylinder. The reaction observation device is stable in operation and long in service life when observing the solution in the reaction kettle main body.

Further is: the sealing push-pull component comprises an anti-drop cylinder cover, a driving rod, a piston and an operation head, wherein the piston is arranged in the transparent cylinder body and can slide up and down in a sealing mode, the anti-drop cylinder cover is arranged at the upper end of the transparent cylinder body and used for limiting the piston to move in the vertical direction, a through hole in the vertical direction is formed in the central position of the anti-drop cylinder cover, the lower end of the driving rod penetrates through the through hole in the vertical direction and is connected with the central position of the upper surface of the piston, and the lower end of the operation head is fixed with the upper end of the driving rod. Effectively prevent that actuating lever and piston from deviate from with transparent barrel separation in the transparent barrel, and then lead to the inside liquid of reation kettle main part to leak, it is safer to use.

Further is: the upper end of the driving rod corresponds to the middle part of the lower end of the operating head, the driving rod is connected with the upper surface of the piston and can freely rotate in the horizontal direction, a first thread is arranged on the outer surface of the upper end of the anti-drop cylinder cover, a cylindrical concave table is arranged at the position, corresponding to the anti-drop cylinder cover, of the lower end of the operating head, and a second thread matched with the first thread is arranged inside the cylindrical concave table. The service life of the reaction observation device is prolonged, and the leakage of the reaction solution caused by the damage of the reaction observation device is avoided.

Further is: the liquid outlet pipeline is connected with a delivery pump for delivering liquid. The conveying efficiency of the solution after the emulsification is completed in the reaction kettle main body is effectively improved.

Drawings

FIG. 1 is a schematic front view of the present utility model with a portion of the reactor body removed;

FIG. 2 is a schematic view of a connection and fixation mechanism of a stirring shaft, stirring plate and stirring sheet;

FIG. 3 is a schematic cross-sectional view of a transparent cylinder and a sealing push-pull member.

Marked in the figure as: the reaction kettle comprises a reaction kettle main body 100, a stirring driving mechanism 110, a raw material adding port 120, a liquid outlet pipeline 130, a supporting frame 140, a rotating shaft supporting and limiting component 150, a stirring shaft 210, a stirring plate 220, stirring sheets 230, a conducting pipe 310, a transparent cylinder 320, a limiting fixed support 321, a sealing push-pull component 330, an anti-drop cylinder cover 331, a driving rod 332, a piston 333 and an operating head 334.

Detailed Description

The utility model is further described below with reference to the drawings and the detailed description.

The reaction kettle for emulsified oil production shown in fig. 1 comprises a reaction kettle main body 100, a stirring driving mechanism 110 and a plurality of raw material adding ports 120 are arranged at the upper end of the reaction kettle main body 100, a stirring mechanism driven by the stirring driving mechanism 110 is arranged inside the reaction kettle main body 100, a liquid outlet pipeline 130 is arranged right below the inside of the reaction kettle main body 100, the stirring mechanism comprises a stirring shaft 210 driven by the stirring driving mechanism 110 and a plurality of stirring plates 220 arranged on the stirring shaft 210, the lower end of the stirring shaft 210 is positioned at the lower part inside the reaction kettle main body 100, stirring sheets 230 with a plurality of fan blade structures are uniformly arranged at the lower end of the stirring shaft, a plurality of reaction observation devices are arranged on the outer wall of the reaction kettle main body 100, each reaction observation device comprises a conducting tube 310 and a needle cylinder liquid taking structure which horizontally extend into the reaction kettle main body 100, each needle cylinder liquid taking structure comprises a transparent cylinder 320 and a sealing push-pull component 330 arranged inside the transparent cylinder 320, and the lower end of the transparent cylinder 320 is vertically connected with one end of the conducting tube 310 outside the reaction kettle main body 100.

In a specific implementation, when the stirring driving mechanism 110 drives the stirring shaft 210 to rotate, the stirring plates 220 rotate along with the stirring shaft 210 to mix the mixed substances in the reaction kettle main body 100, in this process, the stirring plates 230 with the fan blade structures also rotate along with the stirring shaft 210 to turn the liquid in the lower part of the reaction kettle main body 100 to the upper part of the reaction kettle main body 100, so that the solutions in the reaction kettle main body 100 are uniformly mixed, and the phenomenon that layering of the solutions in the reaction kettle main body 100, namely, the mixing of the solutions at the bottom of the reaction kettle main body 100 is nonuniform is effectively avoided; in the whole emulsification process, when the emulsification process inside the reaction kettle main body 100 needs to be observed, the sealing push-pull component 330 is pulled upwards to extract the liquid inside the reaction kettle main body 100 into the transparent cylinder 320 for observation, in the specific operation, the sealing push-pull component 330 is pushed and pulled for many times in the transparent cylinder 320 during the observation so as to observe after replacing part of the residual solution inside the conducting tube 310, in the specific embodiment, two reaction observation devices are respectively arranged at the upper part and the lower part of the reaction observation device, and in the specific implementation, the number and the positions of the reaction observation devices can be determined according to the actual requirements so as to be convenient for observation and observation. The solution in the reaction kettle is uniformly mixed, has no layering phenomenon, has good emulsification effect, can observe and monitor the emulsification process in the reaction kettle main body 100 in real time, saves time and has high equipment use efficiency.

On the basis of the above, as shown in fig. 1, a supporting frame 140 located at the periphery of the installation port of the liquid outlet pipe 130 is disposed below the inside of the reaction kettle main body 100, and a rotating shaft supporting and limiting component 150 supporting and limiting the tail end of the stirring shaft 210 is disposed at the upper end of the supporting frame 140. In a specific implementation, since the stirring sheets 230 with the multiple fan blade structures turn over the liquid in the lower part inside the reaction kettle main body 100 to the upper part inside the reaction kettle main body 100 when the stirring shaft 210 rotates, that is, the stirring sheets 230 with the multiple fan blade structures can generate downward force on the stirring shaft 210, in a long-time use process, the connection structure of the stirring shaft 210 and the stirring driving mechanism 110 and the sealing structure of the stirring shaft 210 can be influenced, and the arrangement of the supporting frame 140 and the rotating shaft supporting and limiting part 150 plays an upward supporting role on the tail end of the stirring shaft 210, so that the structural damage of the reaction kettle is effectively avoided, and the service life of the reaction kettle is prolonged.

On the basis of the above, as shown in fig. 1 and 2, the plurality of stirring plates 220 are divided into a plurality of layers uniformly surrounding the stirring shaft 210 correspondingly up and down, and the plurality of stirring blades 230 are uniformly surrounding the stirring shaft 210 and do not correspond to the plurality of stirring plates 220 in the vertical direction. In a specific implementation, the stirring plates 220 and the stirring plates 220 have small mutual interference, the stirring plates 220 drive the solution upwards more effectively, the solution in the reaction kettle body 100 is mixed and emulsified more thoroughly, and the emulsification efficiency is improved.

On the basis of the above, as shown in fig. 1, the transparent cylinder 320 is provided with a limiting fixing bracket 321 fixed to the outer surface of the reaction kettle body 100. The reaction observation device is stable to operate and long in service life when the solution in the reaction kettle main body 100 is observed.

On the basis of the above, as shown in fig. 1 and 3, the sealing push-pull member 330 includes an anti-drop cylinder cover 331, a driving rod 332, a piston 333 and an operation head 334, the piston 333 is disposed in the transparent cylinder 320 and can slide up and down in a sealing manner, the anti-drop cylinder cover 331 is disposed at the upper end of the transparent cylinder 320 for limiting the movement of the piston 333 in the vertical direction, a through hole in the vertical direction is disposed at the central position of the anti-drop cylinder cover 331, the lower end of the driving rod 332 passes through the through hole in the vertical direction and is connected with the central position of the upper surface of the piston 333, and the lower end of the operation head 334 is fixed with the upper end of the driving rod 332. In a specific implementation, the design of the anti-drop cylinder cover 331 can effectively prevent the driving rod 332 and the piston 333 from dropping out of the transparent cylinder 320 and separating from the transparent cylinder 320, so that the liquid inside the reaction kettle main body 100 leaks, and the use is safer.

On the basis of the above, as shown in fig. 1 and 3, the upper end of the driving rod 332 corresponds to the middle part of the lower end of the operating head 334, the driving rod 332 is connected to the upper surface of the piston 333 and can freely rotate in the horizontal direction, the outer surface of the upper end of the anti-drop cylinder cover 331 is provided with a first thread, the lower end of the operating head 334 corresponds to the anti-drop cylinder cover 331 and is provided with a cylindrical concave table, and the inside of the cylindrical concave table is provided with a second thread matched with the first thread. In a specific implementation, when the reaction observation device is used, the operation head 334 can be operated to press the driving rod 332 and the piston 333 into the anti-drop cylinder cover 331 and the transparent cylinder 320, and then the operation head 334 is rotationally fixed at the upper end of the anti-drop cylinder cover 331 relative to the rotation operation head 334, so that the operation head 334 can be fixed.

In addition to the above, as shown in fig. 1, a transfer pump for transferring the liquid is connected to the liquid outlet pipe 130. The efficiency of transferring the emulsified solution in the reaction vessel body 100 is effectively improved.

While the foregoing is directed to embodiments of the present utility model, other and further details of the utility model may be had by the present utility model, it should be understood that the foregoing description is merely illustrative of the present utility model and that no limitations are intended to the scope of the utility model, except insofar as modifications, equivalents, improvements or modifications are within the spirit and principles of the utility model.

Claims (7)

1. The utility model provides an emulsified oil production is with reation kettle, includes reation kettle main part (100), reation kettle main part (100) upper end is provided with stirring actuating mechanism (110) and a plurality of raw materials and adds mouth (120), reation kettle main part (100) inside is provided with by stirring actuating mechanism (110) driven rabbling mechanism, be provided with drain pipe (130) under reation kettle main part (100) inside, its characterized in that: the stirring mechanism comprises a stirring shaft (210) driven by a stirring driving mechanism (110) and a plurality of stirring plates (220) arranged on the stirring shaft (210), wherein the lower end of the stirring shaft (210) is positioned at the lower part of the inside of the reaction kettle main body (100), stirring sheets (230) with a plurality of fan blade structures are uniformly arranged at the lower end of the stirring shaft, a plurality of reaction observation devices are arranged on the outer wall of the reaction kettle main body (100), each reaction observation device comprises a conducting tube (310) horizontally extending to the inside of the reaction kettle main body (100) and a needle cylinder liquid taking structure, each needle cylinder liquid taking structure comprises a transparent cylinder body (320) and a sealing push-pull component (330) arranged in the transparent cylinder body (320), and the vertical direction of the lower end of the transparent cylinder body (320) is connected with one end of the conducting tube (310) positioned at the outside of the reaction kettle main body (100).

2. The reaction kettle for emulsified oil production as set forth in claim 1, wherein: the lower part inside reation kettle main part (100) is provided with and is located outer support frame (140) of drain pipe (130) installation port, the upper end of support frame (140) is provided with pivot support spacing part (150) that support spacing (210) terminal.

3. The reaction kettle for emulsified oil production as set forth in claim 1, wherein: the stirring plates (220) are divided into a plurality of layers and uniformly and circumferentially arranged on the stirring shaft (210), and the stirring sheets (230) are uniformly and circumferentially arranged on the stirring shaft (210) and do not correspond to the stirring plates (220) in the vertical direction.

4. The reaction kettle for emulsified oil production as set forth in claim 1, wherein: and a limiting fixing bracket (321) fixed with the outer surface of the reaction kettle main body (100) is arranged on the transparent cylinder body (320).

5. The reaction kettle for emulsified oil production as set forth in claim 1, wherein: the sealing push-pull component (330) comprises an anti-drop cylinder cover (331), a driving rod (332), a piston (333) and an operation head (334), wherein the piston (333) is arranged in the transparent cylinder body (320) and can slide in an up-down sealing manner, the anti-drop cylinder cover (331) is arranged at the upper end of the transparent cylinder body (320) and is used for limiting the movement of the piston (333) in the vertical direction, a through hole in the vertical direction is formed in the central position of the anti-drop cylinder cover (331), the lower end of the driving rod (332) penetrates through the through hole in the vertical direction and is connected with the central position of the upper surface of the piston (333), and the lower end of the operation head (334) is fixed with the upper end of the driving rod (332).

6. The reaction kettle for producing emulsified oil according to claim 5, wherein: the upper end of the driving rod (332) corresponds to the middle part of the lower end of the operating head (334), the driving rod (332) is connected with the upper surface of the piston (333) and can freely rotate in the horizontal direction, a first thread is arranged on the outer surface of the upper end of the anti-drop cylinder cover (331), a cylindrical concave table is arranged at the position, corresponding to the anti-drop cylinder cover (331), of the lower end of the operating head (334), and a second thread matched with the first thread is arranged inside the cylindrical concave table.

7. The reaction kettle for emulsified oil production as set forth in claim 1, wherein: the liquid outlet pipe (130) is connected with a delivery pump for delivering liquid.

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