CN217431697U - Enamel reactor is used in production of nanometer antiseptic solution - Google Patents

Enamel reactor is used in production of nanometer antiseptic solution Download PDF

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CN217431697U
CN217431697U CN202220586359.1U CN202220586359U CN217431697U CN 217431697 U CN217431697 U CN 217431697U CN 202220586359 U CN202220586359 U CN 202220586359U CN 217431697 U CN217431697 U CN 217431697U
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filtering
kettle
filter
component
assembly
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周海燕
朱晓倩
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Anhui Lifei New Material Technology Co ltd
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Nanjing Haitai Nano Materials Co ltd
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Abstract

The utility model discloses an enamel reactor is used in production of nanometer antiseptic solution belongs to reation kettle technical field. Including the cauldron body, at least two sets ofly communicate respectively in the inlet pipe of cauldron body upper end portion establishes in the filtering component of the cauldron body and one of them inlet pipe below locates coupling assembling between filtering component and the internal wall of cauldron. The utility model carries out grading treatment on the liquid to be filtered and the liquid not to be filtered, namely, the water is filtered by the filtering component before being mixed with the active ingredients, so that impurities in the water are filtered out, the impurities of the produced nano disinfectant are reduced, and the disinfection effect is ensured; the filtering component is detachably connected with the kettle body, so that the filtering component can be replaced in time, and the filtering effect is kept.

Description

Enamel reactor is used in production of nanometer antiseptic solution
Technical Field
The utility model belongs to the technical field of reation kettle, concretely relates to enamel reactor is used in production of nanometer antiseptic solution.
Background
In an epidemic prevention environment, the longer the disinfection action time of the disinfectant is, the better the antibacterial effect is; compared with common disinfectant, the nano disinfectant has longer lasting action time and good antibacterial effect, so that the nano disinfectant needs to be produced in large batch.
In the process of producing the nano-scale disinfectant, the aqueous solution occupies a large proportion; water is generally conveyed to the reaction kettle through a pipeline, after the water is conveyed for a long time, impurities are accumulated in the pipe wall, and along with the conveying of the water, the impurities enter the reaction kettle along with the water, so that the produced nano-scale disinfectant contains a lot of impurities, and the disinfection effect of the nano-scale disinfectant is influenced.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: in order to solve the problems, the utility model provides an enamel reaction kettle for producing nano disinfectant.
The technical scheme is as follows: an enamel reactor for producing nano-scale disinfectant comprises a reactor body and also comprises: at least two groups of feeding pipes which are respectively communicated with the upper end part of the kettle body; the filtering assembly is arranged in the kettle body and is positioned below one of the feeding pipes; the filter assembly is obliquely arranged, and fluid flows from high to low along the length direction of the filter assembly; the connecting assembly is arranged between the filtering assembly and the inner wall of the kettle body; wherein the connection assembly includes at least a first component and a second component removably connected to the first component.
In a further embodiment, the filter assembly comprises: a filter body having an upward opening and a side outlet; at least three groups of barrier plates which are correspondingly arranged at the two sides and the bottom of the filter body; the filter screen is arranged on the side outlet; the filtering layer is laid in the filtering body;
wherein the filtering body is obliquely arranged in the kettle body; the higher end of the filtering body is detachably connected with the inner wall of the kettle body; the side outlet is positioned at the lower end of the filtering body.
Through adopting above-mentioned technical scheme, on the fluid falls to filter assembly because of gravity, the fluid flows from high to low along filter assembly length direction, filters impurity wherein by filter assembly, flows out to the lower part of the cauldron body by filter assembly again, and then reduces the impurity in the fluid.
In a further embodiment, the downward projection point of the feed pipe and the upper end of the filter body satisfy the following relationship:
Figure DEST_PATH_GDA0003780653570000011
wherein, L is the distance between the projection point of the feeding pipe on the filtering body and the highest point of the filtering body, and S is the total length of the filtering body.
By adopting the technical scheme, the closer the point of the fluid falling on the filtering body is to the highest point of the filtering body, the longer the path of the fluid along the inclined flowing of the filtering body is, and the longer the stay time of the fluid in the filtering layer is, the better the filtering effect of the filtering layer is.
In a further embodiment, the first component comprises: the first mounting part is connected to the inner wall of the kettle body; the two ends of the first connecting part are connected to the first mounting part, and a connecting cavity is formed between the first connecting part and the first mounting part; the narrow groove is arranged on the first connecting part; the first connecting portion has a first stopper portion.
Through adopting above-mentioned technical scheme, first part is installed on the internal wall of cauldron, can adopt the bolt fastening.
In a further embodiment, the second component comprises: the second mounting part is connected with the filtering body; a second connecting part, both ends of which are connected to the second mounting part; the second connecting part is matched with the connecting cavity in shape.
Through adopting above-mentioned technical scheme, the second part is installed on filtering the body, and the second connecting portion insert the connecting cavity, and first backstop portion forms a fender power to the second connecting portion, realizes the installation of first part and second part.
In a further embodiment, the second connecting portion has a head portion, and a second stopper portion connected to the head portion; the second connecting part is made of elastic materials, and the width of the head part is larger than that of the narrow groove.
Through adopting above-mentioned technical scheme, during installation or dismantlement, the exogenic action is on the second connecting portion, makes the width of head be less than the narrow groove, can realize the installation or dismantle.
Has the beneficial effects that: the liquid to be filtered and the liquid not to be filtered are treated in a grading way, namely, before the water is mixed with the active ingredients, the water is filtered by the filtering component, so that impurities in the water are filtered out, the impurities in the produced nano disinfectant are reduced, and the disinfection effect of the nano disinfectant is ensured; the filtering component is detachably connected with the kettle body, so that the filtering component can be replaced in time to keep the filtering effect.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is an enlarged view of a part of the structure of the present invention.
Fig. 3 is a schematic structural view of the first member.
Fig. 4 is a connection diagram of the first member and the second member.
In fig. 1 to 4, each reference is: the device comprises a kettle body 10, a feeding pipe 11, a filtering assembly 20, a blocking plate 21, a filtering net 22, a filtering layer 23, a first mounting part 30, a first connecting part 31, a narrow groove 32, a first stopping part 33, a second mounting part 34, a second connecting part 35, a head part 36 and a second stopping part 37.
Detailed Description
In order to solve the problems in the prior art, the applicant has conducted in-depth analysis on various existing schemes, which are specifically as follows:
in the process of producing the nano-scale disinfectant, the aqueous solution occupies a large proportion; water is generally conveyed to the reaction kettle through a pipeline, after the water is conveyed for a long time, impurities are accumulated in the pipe wall, and along with the conveying of the water, the impurities enter the reaction kettle along with the water, so that the produced nano-scale disinfectant contains a lot of impurities, and the disinfection effect of the nano-scale disinfectant is influenced.
The applicant proposes the following solution, as shown in fig. 1 to 4, this embodiment provides an enamel reactor for producing nano-scale disinfectant, comprising a body, at least two sets of feed pipes 11, a filter assembly 20 and a connecting assembly; in this embodiment, there are two sets of feeding pipes 11, the two sets of feeding pipes 11 are installed at the upper end of the kettle body 10 and are communicated with the kettle body 10, and the two sets of feeding pipes 11 are provided as a first feeding pipe 11 and a second feeding pipe 11; the filtering assembly 20 is arranged inside the kettle body 10 and below one of the feeding pipes 11, and in the embodiment, the filtering assembly 20 is arranged below the first feeding pipe 11 and is obliquely arranged; the connecting assembly is arranged between the filter assembly 20 and the inner wall of the kettle body 10 and used for realizing that the filter assembly 20 is detachably connected with the kettle body 10, and the connecting assembly comprises a first part and a second part which are detachably connected. Liquid to be filtered, such as water, flows in from the first feeding pipe 11, the water flow falls onto the filtering assembly 20 due to gravity, the fluid flows from high to low along the length direction of the filtering assembly 20, impurities in the fluid are filtered by the filtering assembly 20, and then the fluid flows out to the lower part of the kettle body 10 from the filtering assembly 20; the liquid without filtering, such as the effective component of the disinfection solution, flows in from the second feeding pipe 11, falls to the lower part of the kettle body 10, and is mixed with the filtered water to prepare for the next process. Liquid needing to be filtered and liquid needing not to be filtered are treated in a grading mode, namely water is filtered through the filtering component 20 before being mixed with effective components, impurities in the water are filtered out, the impurities of the produced nano disinfectant are reduced, and the disinfection effect of the nano disinfectant is guaranteed.
In a further embodiment, the filtering assembly 20 includes a filtering body, the filtering body is a box, the filtering body has an upward opening and a side opening, two sides and a bottom of the filtering body along a length direction thereof are provided with blocking plates 21, the blocking plates 21 are used for limiting a water flow path, a filtering net 22 is installed on the side outlet, water flow can only flow out from the side outlet, a filtering layer 23 is laid in the filtering body, the filtering layer 23 is activated carbon, and the filtering net 22 is used for preventing the activated carbon from falling into a lower end of the kettle body 10; the filter body is obliquely installed in the kettle body 10, the higher end of the filter body is detachably connected with the inner wall of the kettle body 10, and the lateral outlet is positioned at the lower end of the filter body. Therefore, in this embodiment, the water flow moves through a path from the first feeding pipe 11, falls into the upper end of the filtering body due to gravity, flows obliquely from top to bottom along the length direction of the filtering body, and finally flows out from the side outlet to the lower end of the kettle 10; when water flow flows obliquely in the filtering body, the contact time with the filtering layer 23 is long, and the contact path is long, so that the filtering layer 23 can better adsorb impurities in the water flow, and the filtering effect is improved. Therefore, in this example, the feed wasThe downward projection point of the pipe 11 is close to the higher end of the filtering body, and the following relation is specifically met:
Figure DEST_PATH_GDA0003780653570000041
wherein, L is a distance between a projection point of the feeding pipe 11 on the filtering body and a highest point of the filtering body (i.e., a distance between a point where the water vertically falls into the filtering body from the first feeding pipe 11 and the highest point of the filtering body), and S is a total length of the filtering body, that is, the closer the point where the water falls into the filtering body is to the highest point of the filtering body, the longer a path along which the water obliquely flows along the filtering body is, and the longer a retention time in the filtering layer 23 is, the better a filtering effect of the filtering layer 23 is.
After filter assembly 20 used for a long time, more impurity has been piled up to filter layer 23 to and filter layer 23's filter effect reduces, and in order to solve this problem, filter assembly 20 need in time be changed, proposes following technical scheme:
in a further embodiment, the first component comprises a first mounting portion 30 and a first connecting portion 31; the first mounting part 30 is fixed on the inner wall of the kettle body 10 and can be fixed by bolts; both ends of the first connecting portion 31 are fixedly connected to the first mounting portion 30, or the first connecting portion 31 is integrally formed with the first mounting portion 30; the first connecting portion 31 is bent to form an open connecting cavity with the first mounting portion 30; a narrow groove 32 is formed on one side of the first connecting part 31 which is far away from the first mounting part 30 after being bent; the first connecting portion 31 has a first stopper portion 33; the second member includes a second mounting portion 34, and a second connecting portion 35; the second mounting part 34 is fixedly connected with the side surface of the filter body, two ends of the second connecting part 35 are fixedly connected with the second mounting part 34, or the second connecting part 35 and the second mounting part 34 are integrally formed; the bent shape of the second connecting portion 35 is adapted to the connecting cavity; the second connecting part 35 is provided with a head part 36 and a second stopping part 37 connected with the head part 36, the second connecting part 35 is made of an elastic material, and the width of the head part 36 is larger than that of the narrow groove 32; when the first component and the second component are installed, an external force which is tightened inwards is applied to the second connecting portion 35, the tightening width of the head portion 36 is smaller than that of the narrow groove 32, and then the head portion 36 smoothly penetrates through the narrow groove 32 and enters the connecting cavity; when the external force disappears, the head 36 rebounds to restore the original size, and the second stopping part 37 abuts against the first stopping part 33, so that the first part and the second part are clamped and positioned; when the first component is disassembled from the second component, external force acts on the second connecting part 35, the tightening width of the head part 36 is smaller than that of the narrow groove 32, and therefore the head part 36 can be withdrawn from the narrow groove 32, and the first component and the second component can be disassembled.

Claims (6)

1. The utility model provides a nanometer antiseptic solution production is with enamel reation kettle, includes the cauldron body, its characterized in that still includes:
at least two groups of feeding pipes which are respectively communicated with the upper end part of the kettle body;
the filtering component is arranged in the kettle body and is positioned below one of the feeding pipes; the filter assembly is obliquely arranged, and fluid flows from high to low along the length direction of the filter assembly;
the connecting assembly is arranged between the filtering assembly and the inner wall of the kettle body;
wherein the connection assembly includes at least a first component and a second component removably connected to the first component.
2. The enamel reactor for producing nano-scale disinfection solution as claimed in claim 1, wherein,
the filter assembly includes:
a filter body having an upward opening and a side outlet;
at least three groups of barrier plates which are correspondingly arranged at the two sides and the bottom of the filter body;
the filter screen is arranged on the side outlet;
the filtering layer is laid in the filtering body;
wherein the filtering body is obliquely arranged in the kettle body; the higher end of the filtering body is detachably connected with the inner wall of the kettle body; the side outlet is positioned at the lower end of the filtering body.
3. The enamel reactor for producing nano-scale disinfection solution as claimed in claim 2, wherein,
the downward projection point of the feeding pipe and the higher end of the filtering body satisfy the following relation:
Figure DEST_PATH_FDA0003780653560000011
wherein, L is the distance between the projection point of the feeding pipe on the filtering body and the highest point of the filtering body, and S is the total length of the filtering body.
4. The enamel reactor for producing nano-scale disinfection solution as claimed in claim 2, wherein,
the first member includes:
the first mounting part is connected to the inner wall of the kettle body;
the two ends of the first connecting part are connected to the first mounting part, and a connecting cavity is formed by the first connecting part and the first mounting part;
the narrow groove is arranged on the first connecting part;
the first connecting portion has a first stopper portion.
5. The enamel reactor for producing nano-scale disinfection solution as claimed in claim 4, wherein,
the second member includes:
the second mounting part is connected with the filtering body;
a second connecting part, both ends of which are connected to the second mounting part;
the second connecting part is matched with the connecting cavity in shape.
6. The enamel reactor for producing nano-scale disinfection solution as claimed in claim 5, wherein,
the second connecting part is provided with a head part and a second stopping part connected with the head part;
the second connecting part is made of elastic materials, and the width of the head part is larger than that of the narrow groove.
CN202220586359.1U 2022-03-17 2022-03-17 Enamel reactor is used in production of nanometer antiseptic solution Active CN217431697U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220586359.1U CN217431697U (en) 2022-03-17 2022-03-17 Enamel reactor is used in production of nanometer antiseptic solution

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220586359.1U CN217431697U (en) 2022-03-17 2022-03-17 Enamel reactor is used in production of nanometer antiseptic solution

Publications (1)

Publication Number Publication Date
CN217431697U true CN217431697U (en) 2022-09-16

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Effective date of registration: 20230504

Address after: 238200 No.5, Hexi Road, Shuangqiao, he County Economic Development Zone, Ma'anshan City, Anhui Province

Patentee after: Anhui lifeI New Material Technology Co.,Ltd.

Address before: 211100 Qilin industrial community, Tangshan street, Jiangning District, Nanjing City, Jiangsu Province

Patentee before: NANJING HAITAI NANO MATERIALS CO.,LTD.

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