CN220405608U - Reaction kettle for producing polymeric ferric sulfate flocculant - Google Patents
Reaction kettle for producing polymeric ferric sulfate flocculant Download PDFInfo
- Publication number
- CN220405608U CN220405608U CN202321629767.1U CN202321629767U CN220405608U CN 220405608 U CN220405608 U CN 220405608U CN 202321629767 U CN202321629767 U CN 202321629767U CN 220405608 U CN220405608 U CN 220405608U
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- China
- Prior art keywords
- fixedly connected
- reaction kettle
- sleeve
- ferric sulfate
- polymeric ferric
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- RUTXIHLAWFEWGM-UHFFFAOYSA-H iron(3+) sulfate Chemical compound [Fe+3].[Fe+3].[O-]S([O-])(=O)=O.[O-]S([O-])(=O)=O.[O-]S([O-])(=O)=O RUTXIHLAWFEWGM-UHFFFAOYSA-H 0.000 title claims abstract description 22
- 229910000360 iron(III) sulfate Inorganic materials 0.000 title claims abstract description 22
- 239000000463 material Substances 0.000 claims abstract description 31
- 238000007790 scraping Methods 0.000 claims abstract description 28
- 230000001681 protective effect Effects 0.000 claims abstract description 26
- 230000002457 bidirectional effect Effects 0.000 claims abstract description 11
- 230000007246 mechanism Effects 0.000 claims description 13
- 230000000149 penetrating effect Effects 0.000 claims description 7
- 238000000034 method Methods 0.000 abstract description 6
- 239000000126 substance Substances 0.000 abstract description 2
- 238000004140 cleaning Methods 0.000 description 8
- 238000003756 stirring Methods 0.000 description 8
- 238000004519 manufacturing process Methods 0.000 description 7
- 230000000694 effects Effects 0.000 description 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 3
- 238000009825 accumulation Methods 0.000 description 2
- 238000000746 purification Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000015271 coagulation Effects 0.000 description 1
- 238000005345 coagulation Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 150000003839 salts Chemical class 0.000 description 1
Landscapes
- Mixers Of The Rotary Stirring Type (AREA)
Abstract
The utility model belongs to the technical field of chemical equipment, in particular to a reaction kettle for producing a polymeric ferric sulfate flocculant, which comprises a kettle body, wherein a servo motor is arranged at the upper end of the kettle body, the output end of the servo motor penetrates through a support and is fixedly connected with a first sleeve, the lower end of the first sleeve penetrates through the kettle body, the lower end of the first sleeve is sheathed with a rotating shaft, the lower end of the connecting shaft is fixedly connected with a protective shell, and a bidirectional motor is arranged in the protective shell; in operation, the motor is rotated 90 degrees by the bi-directional motor. The telescopic rod is driven to deflect by 90 degrees, so that the scraping plates are erected, the telescopic rod stretches, the scraping plates on the same sides are close to each other, the length of the scraping plates when the plurality of scraping plates are erected is consistent with the height of the inner wall of the reaction kettle, the servo motor continuously rotates at the moment, the scraping plates can clean the inner wall, materials piled on the inner wall can be shoveled off in the process, and the problems that the inside of the reaction kettle is blocked due to piled materials, and the heat conduction efficiency of the reaction kettle is reduced are solved.
Description
Technical Field
The utility model belongs to the technical field of chemical equipment, and particularly relates to a reaction kettle for producing a polymeric ferric sulfate flocculant.
Background
The polymeric ferric sulfate is a novel, high-quality and high-efficiency ferric salt non-extremely high molecular flocculant, has excellent coagulation performance, has remarkable purification effect on micro-polluted, alga-containing and low-temperature and low-turbidity raw water and has excellent purification effect on high-turbidity raw water, so that the polymeric ferric sulfate is widely applied to the water treatment industry, and a reaction kettle is required to be used as a container for processing when the polymeric ferric sulfate is produced.
In the prior art, as disclosed in Chinese patent publication No. CN214439029U, a reaction kettle is provided with a stirring shaft in the kettle body, a plurality of stirring rods are uniformly distributed in the circumferential direction of the stirring shaft, and both ends of each stirring rod are provided with a blade I and a blade II; the stirring shaft is driven to rotate through the motor, the stirring rod is driven simultaneously, and the blade I and the blade II on the stirring rod rotate, so that the stirring and mixing effects on materials are improved.
But in above-mentioned scheme, reation kettle need clear up the inner wall after long-time processing, otherwise the processing back remaining material can lead to reation kettle inside to block up, and the accumulation of remaining material also can reduce reation kettle's heat conduction efficiency on the inner wall, and need shut down among the prior art and wash, reduced production efficiency.
Therefore, a reaction kettle for producing polymeric ferric sulfate flocculant is provided for solving the problems.
Disclosure of Invention
In order to make up the defect of the prior art, solve among the above-mentioned scheme, reation kettle need clear up the inner wall after long-time processing, otherwise processing back remaining material can lead to reation kettle inside to block up, and the accumulation of remaining material also can reduce reation kettle's heat-conduction efficiency on the inner wall, and need shut down among the prior art and wash, reduced production efficiency's problem, a reation kettle of production polymeric ferric sulfate flocculant that proposes.
The technical scheme adopted for solving the technical problems is as follows: the utility model discloses a reaction kettle for producing a polymeric ferric sulfate flocculant, which comprises a kettle body, wherein a servo motor is arranged at the upper end of the kettle body, a first sleeve is fixedly connected with the output end of the servo motor through a support, the lower end of the first sleeve penetrates through the kettle body, a rotating shaft is sleeved at the lower end of the first sleeve, a protective shell is fixedly connected at the lower end of the connecting shaft, a bidirectional motor is arranged in the protective shell, a third sleeve is sleeved at both output ends of the bidirectional motor, a telescopic scraping mechanism is sleeved at the other end of each third sleeve, the telescopic scraping mechanism comprises a telescopic rod, one end of the telescopic rod is sleeved with the third sleeve, a scraping plate is fixedly connected at the other end of the telescopic rod, a plurality of protective shells which are arranged in a linear array downwards along the reference axis of the kettle body are arranged at the lower end of the protective shell, and each two protective shells are fixedly connected through a connecting mechanism.
Preferably, the connecting mechanism comprises a connecting shaft, the middle parts of the lower ends of the protecting shells are fixedly connected with second sleeves, the other ends of the second sleeves are sleeved with the connecting shaft, and the other ends of the connecting shaft are fixedly connected with the upper ends of the other protecting shells.
Preferably, the two output ends and the third sleeve of the bidirectional motor penetrate through a protective shell, and the protective shell is made of high-temperature resistant materials.
Preferably, the axle center department fixedly connected with support of cauldron body upper end, servo motor and support fixed connection.
Preferably, a feed inlet is formed in one side of the upper end of the kettle body in a penetrating manner, and an air inlet is formed in the other side of the upper end of the kettle body in a penetrating manner.
Preferably, the axis of the lower end of the kettle body is penetrated and provided with a discharge hole, and four quartering points of the lower end of the kettle body are fixedly connected with supporting legs.
The utility model has the beneficial effects that:
the utility model provides a reaction kettle for producing a polymeric ferric sulfate flocculant, which is rotated by 90 degrees through a bidirectional motor. The telescopic rod is driven to deflect by 90 degrees, so that the scraping plates are erected, the telescopic rod stretches, the scraping plates on the same sides are close to each other, the length of the scraping plates when the plurality of scraping plates are erected is consistent with the height of the inner wall of the reaction kettle, the servo motor continuously rotates at the moment, the scraping plates can clean the inner wall, materials piled on the inner wall can be shoveled off in the process, and the problems that the inside of the reaction kettle is blocked due to piled materials, and the heat conduction efficiency of the reaction kettle is reduced are solved.
The utility model provides a reaction kettle for producing a polymeric ferric sulfate flocculant, which can continuously produce polymeric ferric sulfate when the inner wall of the reaction kettle is cleaned, and compared with the mode of stopping for cleaning in the prior art, the production efficiency of the device is not reduced due to cleaning of accumulated materials, so that the practicability of the utility model is embodied.
Drawings
The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:
FIG. 1 is a perspective view of the present utility model;
FIG. 2 is a first cross-sectional view of the present utility model;
FIG. 3 is a second cross-sectional view of the present utility model;
FIG. 4 is a perspective view of a partial structure of the present utility model;
legend description:
1. a kettle body; 11. a feed inlet; 12. an air inlet; 13. a discharge port; 14. a support leg; 2. a servo motor; 21. a support; 3. a rotating shaft; 31. a connecting shaft; 4. a protective shell; 41. a first sleeve; 42. a second sleeve; 5. a bi-directional motor; 51. a third sleeve; 6. a telescopic rod; 61. a scraper.
Description of the embodiments
The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Specific examples are given below.
Referring to fig. 1-4, the utility model provides a reaction kettle for producing polymeric ferric sulfate flocculant, which comprises a kettle body 1, wherein a servo motor 2 is arranged at the upper end of the kettle body 1, an output end of the servo motor 2 penetrates through a support 21 and is fixedly connected with a first sleeve 41, a lower end of the first sleeve 41 penetrates through the kettle body 1, a rotating shaft 3 is sleeved at the lower end of the first sleeve 41, a protective shell 4 is fixedly connected at the lower end of a connecting shaft 31, a bidirectional motor 5 is arranged in the protective shell 4, a third sleeve 51 is sleeved at two output ends of the bidirectional motor 5, telescopic scraping mechanisms are sleeved at the other ends of the two third sleeves 51, each telescopic scraping mechanism comprises a telescopic rod 6, one end of each telescopic rod 6 is sleeved with the third sleeve 51, a scraping plate 61 is fixedly connected at the other end of each telescopic rod 6, a plurality of protective shells 4 which are arranged in a downward linear array along a reference shaft of the kettle body 1 are arranged at the lower end of the protective shell 4, and each two protective shells 4 are fixedly connected through the connecting mechanism.
During operation, the servo motor 2 drives the rotating shaft 3, the protective shell 4 and the telescopic rod 6 to rotate, so that materials in the reaction kettle can be stirred, specifically, the output end of the servo motor 2 rotates to drive the first sleeve 41 to rotate, the first sleeve 41 rotates to drive the rotating shaft 3 sleeved with the first sleeve 41 to rotate, the rotating shaft 3 rotates to drive the protective shell 4 fixedly connected with the rotating shaft 3 to rotate, and the protective shell 4 rotates to drive the telescopic rod 6 to rotate; therefore, the materials in the reaction kettle can be stirred, and the materials are convenient to process; after a certain period of processing, some material may be deposited on the inner wall of the kettle body 1, and the inner wall is cleaned by a scraping mechanism, specifically, the inner wall is rotated by 90 ° by the bidirectional motor 5. The telescopic rod 6 is driven to deflect 90 degrees, so that the scraping plates 61 are erected, the telescopic rod 6 stretches, the scraping plates 61 on the same side are close to each other at the moment, the length of the scraping plates 61 when being erected is consistent with the height of the inner wall of the reaction kettle, the servo motor 2 continuously rotates at the moment, the scraping plates 61 clean the inner wall, and materials piled on the inner wall can be shoveled off in the process, so that the problems that the inside of the reaction kettle is blocked due to piled materials, and the heat conduction efficiency of the reaction kettle is reduced are solved; the device can still continue to produce polymeric ferric sulfate when cleaning the inner wall of the reaction kettle, and compared with a mode of stopping for cleaning in the prior art, the production efficiency of the device cannot be reduced due to cleaning of accumulated materials, and the practicability of the device is embodied.
Further, the connection mechanism includes a connection shaft 31, the middle parts of the lower ends of the plurality of protection shells 4 are fixedly connected with a second sleeve 42, the other end of the second sleeve 42 is sleeved with the connection shaft 31, and the other end of the connection shaft 31 is fixedly connected with the upper end of another protection shell 4.
Further, the two output ends of the bi-directional motor 5 and the third sleeve 51 penetrate through the protective shell 4, and the protective shell 4 is made of high temperature resistant materials. During operation, the protective shell 4 can protect the bidirectional motor 5 from being damaged in a high-temperature environment during production.
Further, a support 21 is fixedly connected to the axle center of the upper end of the kettle body 1, and the servo motor 2 is fixedly connected with the support 21.
Further, a feed inlet 11 is formed in one side of the upper end of the kettle body 1 in a penetrating manner, and an air inlet 12 is formed in the other side of the upper end of the kettle body 1 in a penetrating manner.
Further, a discharge hole 13 is formed in the axis of the lower end of the kettle body 1 in a penetrating manner, and supporting legs 14 are fixedly connected to four quartering points of the lower end of the kettle body 1. In operation, the discharge port 13 is used for collecting processed materials, and the supporting leg 14 is used for supporting the kettle body 1.
Working principle:
when the utility model is used, firstly, materials are put in from a feed inlet 11, after the materials react, air is introduced through an air inlet 12, then a servo motor 2 is started, the servo motor 2 drives a rotating shaft 3, a protective shell 4 and a telescopic rod 6 to rotate, so that the materials in a reaction kettle can be stirred, in particular, the output end of the servo motor 2 rotates, the first sleeve 41 is driven to rotate, the rotating shaft 3 sleeved by the first sleeve 41 is driven to rotate through the first sleeve 41, the protective shell 4 fixedly connected with the rotating shaft 3 rotates through the rotating shaft 3, and the telescopic rod 6 is driven to rotate through the rotation of the protective shell 4; therefore, the materials in the reaction kettle can be stirred, and the materials are convenient to process; after a certain period of processing, some material may be deposited on the inner wall of the kettle body 1, and the inner wall is cleaned by a scraping mechanism, specifically, the inner wall is rotated by 90 ° by the bidirectional motor 5. The telescopic rod 6 is driven to deflect 90 degrees, so that the scraping plates 61 are erected, the telescopic rod 6 stretches, the scraping plates 61 on the same side are close to each other at the moment, the length of the scraping plates 61 when being erected is consistent with the height of the inner wall of the reaction kettle, the servo motor 2 continuously rotates at the moment, the scraping plates 61 clean the inner wall, and materials piled on the inner wall can be shoveled off in the process, so that the problems that the inside of the reaction kettle is blocked due to piled materials, and the heat conduction efficiency of the reaction kettle is reduced are solved; the device can still continue to produce the polymeric ferric sulfate when cleaning the inner wall of the reaction kettle, and compared with the mode of stopping for cleaning in the prior art, the production efficiency of the device cannot be reduced due to cleaning accumulated materials, and the practicability of the device is embodied; after the processing is finished, the materials are collected from the discharge hole 13.
The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.
Claims (6)
1. A reaction kettle for producing a polymeric ferric sulfate flocculant is characterized in that: including cauldron body (1), the upper end of the cauldron body (1) is provided with servo motor (2), the output of servo motor (2) runs through support (21) fixedly connected with first sleeve (41), the lower extreme of first sleeve (41) runs through the cauldron body (1), pivot (3) have been cup jointed to the lower extreme of first sleeve (41), the lower extreme fixedly connected with protecting crust (4) of connecting axle (31), the inside of protecting crust (4) is provided with bi-directional motor (5), the third sleeve (51) have all been cup jointed to two output of bi-directional motor (5) the telescopic scraping mechanism has all been cup jointed to the other end of third sleeve (51), telescopic scraping mechanism includes telescopic link (6), the one end and the third sleeve (51) of telescopic link (6) cup joint, the other end fixedly connected with scraper blade (61) of telescopic link (6), the lower extreme of protecting crust (4) is provided with a plurality of protecting crust (4) of arranging along the basic shaft down, every two fixedly connected with each protecting crust (4) between the fixed connection.
2. The reaction kettle for producing polymeric ferric sulfate flocculant according to claim 1, wherein: the connecting mechanism comprises a connecting shaft (31), a plurality of second sleeves (42) are fixedly connected to the middle parts of the lower ends of the protecting shells (4), the other ends of the second sleeves (42) are sleeved with the connecting shaft (31), and the other ends of the connecting shaft (31) are fixedly connected with the upper ends of the other protecting shells (4).
3. The reaction kettle for producing polymeric ferric sulfate flocculant according to claim 2, wherein: two output ends of the bidirectional motor (5) and the third sleeve (51) penetrate through the protective shell (4), and the protective shell (4) is made of high-temperature resistant materials.
4. A reaction kettle for producing polymeric ferric sulfate flocculant according to claim 3, wherein: the shaft center of the upper end of the kettle body (1) is fixedly connected with a support (21), and the servo motor (2) is fixedly connected with the support (21).
5. The reaction kettle for producing polymeric ferric sulfate flocculant according to claim 4, wherein: one side of the upper end of the kettle body (1) is provided with a feed inlet (11) in a penetrating way, and the other side of the upper end of the kettle body (1) is provided with an air inlet (12) in a penetrating way.
6. The reaction kettle for producing polymeric ferric sulfate flocculant according to claim 5, wherein: the axis of the lower end of the kettle body (1) is penetrated and provided with a discharge hole (13), and four quartering points of the lower end of the kettle body (1) are fixedly connected with supporting legs (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321629767.1U CN220405608U (en) | 2023-06-26 | 2023-06-26 | Reaction kettle for producing polymeric ferric sulfate flocculant |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321629767.1U CN220405608U (en) | 2023-06-26 | 2023-06-26 | Reaction kettle for producing polymeric ferric sulfate flocculant |
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Publication Number | Publication Date |
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CN220405608U true CN220405608U (en) | 2024-01-30 |
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CN202321629767.1U Active CN220405608U (en) | 2023-06-26 | 2023-06-26 | Reaction kettle for producing polymeric ferric sulfate flocculant |
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2023
- 2023-06-26 CN CN202321629767.1U patent/CN220405608U/en active Active
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