CN211754802U

CN211754802U - Reation kettle convenient to quantitative control feeding

Info

Publication number: CN211754802U
Application number: CN201922143407.0U
Authority: CN
Inventors: 王西利
Original assignee: Jinan Ligowiter Automation Technology Co ltd
Current assignee: Jinan Ligowiter Automation Technology Co ltd
Priority date: 2019-12-04
Filing date: 2019-12-04
Publication date: 2020-10-27
Anticipated expiration: 2029-12-04

Abstract

The utility model discloses a reation kettle convenient to quantitative control feeding, including the retort body, the retort body upper surface is equipped with quantitative control feed mechanism, the internal lower surface of retort is equipped with mixing mechanism, the retort body lower extreme still is equipped with and bears the frame for supporting. The utility model relates to a be convenient for separately throw the material, control the input dosage of every volume, the stirring is convenient, and it is convenient to unload, and it is also more convenient to operate, is more practical device to in accurate reaction.

Description

Reation kettle convenient to quantitative control feeding

Technical Field

The utility model relates to a reation kettle field especially relates to a reation kettle convenient to quantitative control feeding.

Background

The reaction kettle is a chemical reaction and physical reaction container and is divided into a pressure container and a normal pressure container.

In order to make the reaction good, the reactants need to be placed in a uniform vessel for sealing reaction, and in order to make the reaction more accurate, the feeding of the materials also needs to be accurate, when a plurality of reactants are reacted, if they are mixed before being put into a reaction kettle, the final reaction condition is affected, because the feeding is needed for good reaction, the feeding port of the traditional reaction tank is single, the feeding needs to be carried out for a plurality of times, and the feeding is inconvenient to be carried out simultaneously, and in order to make the reaction more favorable, it is necessary to place a stirring device inside, the conventional stirring devices are all placed at the upper part, the stirring at the lower end is not uniform, therefore, in order to solve the above problems, it is necessary to design a reaction kettle with multiple dosing positions and capable of accurately controlling the dosed amount for accurate reaction.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above object, the utility model discloses a technical scheme do, the utility model provides a reation kettle convenient to quantitative control feeding, include: the quantitative control feeding mechanism is arranged on the upper surface of the reaction tank body, the mixing mechanism is arranged on the inner lower surface of the reaction tank body, and the bearing frame for supporting is further arranged at the lower end of the reaction tank body;

the quantitative control feeding mechanism comprises: a feeding shielding cover, a plurality of feeding pipes, a plurality of auxiliary material bearing cylinders, a plurality of multi-fork partition frames and a plurality of multi-way drainage pipelines, the center of the upper surface of the reaction tank body is provided with a circular through hole for bearing the feeding shielding cover, a plurality of feeding pipes are positioned at the edge of the upper surface of the reaction tank body and are communicated with the inside of the reaction tank body, a plurality of multi-fork partition frames are movably embedded in a plurality of auxiliary material bearing cylinders, each multi-way drainage pipeline is positioned at the lower surface of each auxiliary material bearing cylinder and is communicated with the inside of the multi-fork partition frames one by one, each multi-way drainage pipeline is embedded at the upper end of the feeding pipe and is communicated with the inside of the feeding pipe, each multi-way drainage pipeline is provided with a valve for controlling drainage, and the upper end of each multi-fork partition frame is connected with the upper surface of the auxiliary material bearing cylinder through a connecting part;

the mixing mechanism comprises: the side surface processing of the lower end of the reaction tank body is provided with a semicircular opening used for bearing the semicircular shielding door, the lower surface processing in the reaction tank body is provided with a strip-shaped opening communicated with the inside of the semicircular opening and matched with the rotating handle, the rotating disc is positioned on the upper surface of the rotating handle and matched with the inner wall of the reaction tank body, and the inclined stirring frame is positioned on the edge of the upper surface of the rotating disc and is in lap joint with the inner wall of the reaction tank body, the rotating handle is arranged on the rotating handle and is provided with the rotating bearing between the strip-shaped openings, and the semicircular shielding door is connected with the outer side surface of the reaction tank body through a fixing part.

Preferably, the connecting portion includes therein: the auxiliary material bearing cylinder comprises a plurality of folding limiting frames and a plurality of cylindrical bulges, wherein the folding limiting frames are uniformly positioned at the edges of the upper surface of the multi-fork partition frame and clamped with the upper end surface of the auxiliary material bearing cylinder, the cylindrical bulges are respectively fixed on the inner upper surface of the folding limiting frames, and a cylindrical groove for bearing the cylindrical bulges is formed in the edge of the upper surface of the auxiliary material bearing cylinder.

Preferably, the fixing portion includes therein: the arc gaskets are respectively positioned at two ends of the semicircular shielding door and are matched with the radian of the reaction tank body, and the sealing screws respectively penetrate through the arc gaskets and are connected with the outer side surface of the reaction tank body.

Preferably, the feeding shielding cover is in threaded connection with the circular through hole.

Preferably, the height of the semicircular shielding door is matched with the half height of the reaction tank body.

Preferably, the semicircular shutter door is provided at an outer side surface thereof with at least one pair of pull handles.

Compared with the prior art, the utility model has the advantages of, one kind is convenient for separately throw the material, controls the input dosage of every volume, and the stirring is convenient, and it is convenient to unload, and it is also more convenient to operate, is more practical device to accurate reaction.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a sectional front view of a reaction vessel for facilitating quantitative control of feeding according to the present embodiment;

FIG. 2 is a top view of a reaction vessel for facilitating quantitative control of feed according to the present example;

fig. 3 is a front sectional view of the auxiliary material loading cylinder, the multi-branch partition frame, the multi-way drainage pipeline, the zigzag limiting frame, the cylindrical protrusion, and the valve in the reaction kettle convenient for quantitative control of feeding according to the embodiment in cooperation;

FIG. 4 is a top sectional view of a reaction vessel for facilitating quantitative control of feed according to the present embodiment;

FIG. 5 is a partial side view of a reactor vessel for facilitating quantitative control of feed as provided in this example;

FIG. 6 is a partial bottom view of a reaction vessel for facilitating quantitative control of feed according to this embodiment;

fig. 7 is a partial enlarged view of the auxiliary material loading cylinder, the multi-branch partition frame, the multi-pass drain pipe and the zigzag limiting frame in the reaction kettle convenient for quantitative control of feeding according to the embodiment;

shown in the figure: 1. a reaction tank body; 2. a carrier; 3. a feeding shielding cover; 4. a feed pipe; 5. an auxiliary material bearing cylinder; 6. a multi-prong partition frame; 7. a multi-pass drain conduit; 8. rotating the disc; 9. inclining the stirring frame; 10. rotating the handle; 11. a rotating bearing; 12. a semicircular shutter door; 13. a fold-shaped restraint frame; 14. a cylindrical bulge; 15. an arc-shaped gasket; 16. a seal screw; 17. pulling the handle; 18. and (4) a valve.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the present invention is not limited to the limitations of the specific embodiments of the present disclosure.

Examples, as can be seen from the accompanying fig. 1-7 of the specification, this embodiment is a reaction vessel for facilitating quantitative control of feed, comprising: the quantitative control feeding device comprises a reaction tank body 1, wherein a quantitative control feeding mechanism is arranged on the upper surface of the reaction tank body 1, a mixing mechanism is arranged on the inner lower surface of the reaction tank body 1, and a bearing frame 2 for supporting is further arranged at the lower end of the reaction tank body 1;

the quantitative control feeding mechanism comprises: the feeding shielding cover 3, a plurality of feeding pipes 4, a plurality of auxiliary material bearing cylinders 5, a plurality of multi-fork partition frames 6 and a plurality of multi-way drainage pipes 7, wherein a circular through hole for bearing the feeding shielding cover 3 is processed at the center of the upper surface of the reaction tank body 1, the feeding pipes 4 are positioned at the edge of the upper surface of the reaction tank body 1 and communicated with the inside of the reaction tank body 1, the multi-fork partition frames 6 are movably embedded in the auxiliary material bearing cylinders 5, each multi-way drainage pipe 7 is positioned at the lower surface of each auxiliary material bearing cylinder 5 and communicated with the inside of the multi-fork partition frames 6 one by one, each multi-way drainage pipe 7 is embedded at the upper end of the feeding pipe 4 and communicated with the inside of the feeding pipe 4, and each multi-way drainage pipe 7 is provided with a valve 18 for controlling drainage, the upper end of each multi-fork partition frame 6 is connected with the upper surface of the auxiliary material bearing cylinder 5 through a connecting part;

the mixing mechanism comprises: the reactor comprises a rotating disc 8, a plurality of inclined stirring frames 9, a rotating handle 10, a rotating bearing 11 and a semicircular shielding door 12, wherein a semicircular opening used for bearing the semicircular shielding door 12 is machined on the side surface of the lower end of a reactor body 1, a strip-shaped opening which is communicated with the inside of the semicircular opening and is matched with the rotating handle 10 is machined on the lower surface in the reactor body 1, the rotating disc 8 is positioned on the upper surface of the rotating handle 10 and is matched with the inner wall of the reactor body 1, the inclined stirring frames 9 are positioned on the edge of the upper surface of the rotating disc 8 and are in lap joint with the inner wall of the reactor body 1, the rotating bearing 11 is arranged on the rotating handle 10 and between the strip-shaped openings, and the semicircular shielding door 12 is connected with the outer side surface of the reactor body 1 through a fixing part.

As can be seen from fig. 1 to 7 of the specification, the connecting portion includes: the auxiliary material bearing cylinder comprises a plurality of folded limiting frames 13 and a plurality of cylindrical protrusions 14, wherein the folded limiting frames 13 are uniformly located at the edge of the upper surface of the multi-fork partition frame 6 and clamped with the upper end surface of the auxiliary material bearing cylinder 5, the cylindrical protrusions 14 are respectively fixed on the inner upper surface of the folded limiting frames 13, and cylindrical grooves used for bearing the cylindrical protrusions 14 are formed in the edge of the upper surface of the auxiliary material bearing cylinder 5.

As can be seen from fig. 1 to 7 of the specification, the fixing portion includes: a plurality of pairs of arc gaskets 15 and a plurality of pairs of sealing screw 16, a plurality of pairs of arc gaskets 15 are located respectively semicircular shielding door 12 both ends, and with the retort body 1 radian phase-match, a plurality of pairs sealing screw 16 run through a plurality of pairs respectively on the arc gasket 15, and with the retort body 1 outside surface is connected.

As can be seen from the attached figures 1 to 7 of the specification, the feeding block-out cover 3 is in threaded connection with the circular through hole.

As can be seen from the attached figures 1 to 7 of the specification, the height of the semicircular shielding door 12 is matched with the half height of the reaction tank body 1.

As can be seen from fig. 1 to 7 of the specification, the semicircular shutter door 12 is provided at an outer side surface thereof with at least one pair of pulling handles 17.

Wherein, it is important to point out that, in the specific implementation process, the reaction tank 1 is internally provided with articles to be reacted, and the articles are mixed with each other and then are subjected to sealed reaction, wherein the reaction tank 1 is internally provided with circular through holes for feeding materials, and the circular through holes are much larger than the diameter of each feeding pipe 4, so that raw materials with higher specific gravity are required to be added, auxiliary materials to be added are arranged in each auxiliary material bearing cylinder 5, and the auxiliary materials are separated by the multi-branch partition frame 6 positioned in the reaction tank 1 due to less auxiliary material addition amount, if one-grid amount is used, the valve 18 communicated with the multi-way drainage pipeline 7 corresponding to one-grid can be opened, the auxiliary materials in the partition can be discharged through one-way drainage pipeline 7 and then are conveyed to the reaction tank 1 through the feeding pipe 4 for reaction, if the materials in two or more compartments are required to react, according to the above operation, a corresponding number of valves 18 are opened, if each of the feeding pipes 4 is only used for conveying the auxiliary materials into the reaction tank body 1, since a plurality of auxiliary material carrying cylinders 5 are used, a plurality of materials can be conveniently added, since the control amount is convenient, the feeding amount can be conveniently controlled, wherein the carrying frame 2 is only used for well supporting the reaction tank body 1, so that a certain distance is formed between the reaction tank body 1 and the ground, after the adding is finished, the rotating handle 10 at the lower end can be held by hand, when the rotating handle 10 is rotated, the rotating disc 8 on the upper end surface rotates at the lower end in the reaction tank body 1, so that the materials in the adding part can be well mixed, and since the materials are acted by gravity, the accumulation at the lower end is large, as long as the lower end is uniformly mixed, the upper end is conveniently mixed, wherein the rotating handle 10 can be connected to an external connecting rod if the rotating handle needs to rotate faster, one end of the connecting rod is sleeved on the rotating end of the rotating motor and rotates through the transmission of the connecting rod to realize automatic stirring, but if the reaction materials are not much, the uniform mixing can be realized through manual stirring, wherein the rotating disk 8 is matched with the inner wall of the reaction tank body 1 to play a role in bottom end sealing, each multi-fork partition frame 6 is convenient to take out from the auxiliary material bearing cylinder 5, in order to ensure good fixation, a plurality of folded limiting frames 13 positioned on the upper surface of each multi-fork partition frame 6 are convenient to be buckled at the upper end of the corresponding auxiliary material bearing cylinder 5 to be clamped and fixed, the cylindrical protrusions 14 positioned on the inner upper surface of each folded limiting frame 13 are convenient to be inserted into the corresponding auxiliary material bearing cylinder 5, the cylindrical groove at the edge of the upper surface of each auxiliary material bearing cylinder 5 is convenient for fixing the cylindrical protrusion 14, so that the fixing is good, the disassembly is convenient, when the rotating disc 8 and the rotating handle 10 are installed, the semicircular shielding door 12 on the side surface of the reaction tank body 1 is opened, the rotating handle 10 is plugged through the strip-shaped opening on the lower surface of the reaction tank body 1, the rotating bearing 11 at the rotating handle 10 and the strip-shaped opening is convenient for the rotation of the rotating handle 10 along with the strip-shaped opening, the rotating bearing 11 is in lap joint with the strip-shaped opening, the rotating bearing can rotate when being clamped and can rotate when not being clamped, the circular shielding door 12 is convenient for opening the circular shielding door when unloading, a sealing ring can be added at the inner edge for sealing a gap, the semicircular shielding door 12 is in lap joint on the outer surface of the reaction tank body 1 through a plurality of arc-shaped gaskets 15, the sealing screw 16 provided on each of the arc-shaped gaskets 15 is conveniently connected and fixed to the outer side surface of the reaction tank body 1, and the pulling handle 17 provided on the outer side surface of the semicircular shielding door 12 is conveniently held by hand.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any person skilled in the art may use the above-mentioned technical contents to change or modify the equivalent embodiment into equivalent changes and apply to other fields, but any simple modification, equivalent change and modification made to the above embodiments according to the technical matters of the present invention will still fall within the protection scope of the technical solution of the present invention.

Claims

1. A reaction vessel for facilitating quantitative control of feed, comprising: the reaction tank body (1) is characterized in that a quantitative control feeding mechanism is arranged on the upper surface of the reaction tank body (1), a mixing mechanism is arranged on the inner lower surface of the reaction tank body (1), and a bearing frame (2) for supporting is further arranged at the lower end of the reaction tank body (1);

the quantitative control feeding mechanism comprises: a feeding shielding cover (3), a plurality of feeding pipes (4), a plurality of auxiliary material bearing cylinders (5), a plurality of multi-fork partition frames (6) and a plurality of multi-way drainage pipes (7), wherein a circular through hole for bearing the feeding shielding cover (3) is processed at the center of the upper surface of the reaction tank body (1), the feeding pipes (4) are positioned at the edge of the upper surface of the reaction tank body (1) and communicated with the inside of the reaction tank body (1), the multi-fork partition frames (6) are movably embedded in the auxiliary material bearing cylinders (5), each multi-way drainage pipe (7) is positioned at the lower surface of each auxiliary material bearing cylinder (5) and communicated with the inside of the auxiliary material bearing cylinder (5) one by one, and each multi-way drainage pipe (7) is embedded at the upper end of the feeding pipe (4) and communicated with the inside of the feeding pipe (4), each multi-way drainage pipeline (7) is provided with a valve (18) for controlling drainage, and the upper end of each multi-way partition frame (6) is connected with the upper surface of the auxiliary material bearing cylinder (5) through a connecting part;

the mixing mechanism comprises: rotating disc (8), a plurality of slope stir frame (9), rotation handle (10), rolling bearing (11) and semi-circular shutter door (12), the processing of the side surface of the lower extreme of the retort body (1) has the semi-circular opening that is used for bearing semi-circular shutter door (12), lower surface processing have in the retort body (1) with the inside intercommunication of semi-circular opening, and with rotate handle (10) assorted bar opening, rotating disc (8) are located rotate handle (10) upper surface, and with the retort body (1) inner wall phase-match, a plurality of slope stir frame (9) are located rotating disc (8) upper surface edge, and with the overlap joint of retort body (1) inner wall looks, rotate on handle (10) with be equipped with between the bar opening rolling bearing (11), semi-circular shutter door (12) with connect through the fixed part between the retort body (1) outside surface.

2. The reactor of claim 1, wherein the connecting portion comprises: the auxiliary material bearing cylinder comprises a plurality of folding limiting frames (13) and a plurality of cylindrical protrusions (14), wherein the folding limiting frames (13) are uniformly located at the edge of the upper surface of the multi-fork partition frame (6) and clamped with the upper end surface of the auxiliary material bearing cylinder (5), the cylindrical protrusions (14) are respectively fixed on the inner upper surface of the folding limiting frames (13), and cylindrical grooves used for bearing the cylindrical protrusions (14) are machined at the edge of the upper surface of the auxiliary material bearing cylinder (5).

3. The reactor of claim 1, wherein the fixed portion comprises: a plurality of to arc gasket (15) and a plurality of to sealing screw (16), a plurality of right arc gasket (15) are located respectively semicircular shelter from door (12) both ends, and with the retort body (1) radian phase-match, a plurality of right sealing screw (16) run through a plurality of pairs respectively on arc gasket (15), and with retort body (1) outside surface is connected.

4. A reaction kettle convenient for quantitative control of feeding material according to claim 1, wherein the feeding material shielding cover (3) is connected with the circular through hole through a thread.

5. A reactor facilitating quantitative feed control according to claim 1, wherein the height of the semicircular shutter (12) matches half of the height of the reactor vessel (1).

6. A reactor facilitating dosed control of feed in accordance with claim 3, wherein the semi-circular shutter door (12) is provided at its outer surface with at least one pair of pulling handles (17).