CN210559374U - Chlorine dioxide generator for sewage treatment - Google Patents

Abstract

The utility model discloses a chlorine dioxide generator for sewage treatment, which comprises a reaction kettle, a sodium chlorate storage tank and a hydrochloric acid storage tank, wherein the sodium chlorate storage tank is vertically arranged on the side wall of the reaction kettle, the hydrochloric acid storage tank is arranged at the opposite side of the sodium chlorate storage tank, the hydrochloric acid storage tank is vertically arranged on the side wall of the reaction kettle, and a vertical reaction mechanism is arranged in the reaction kettle; the middle position of the inner bottom of the reaction kettle is an arc-shaped bottom surface, the middle position of the inner bottom of the reaction kettle is provided with a concentration groove, the middle position of the concentration groove is provided with a liquid discharge hole, the bottom of the reaction kettle is provided with an inclined liquid discharge pipe, the top end of the liquid discharge pipe is communicated with the liquid discharge hole, and the sodium chlorate storage tank comprises a first fixing frame and a first conduit and has the advantages of being capable of liquefying, convenient to store and transport, convenient to control, low in manufacturing cost and the like.

Description

Chlorine dioxide generator for sewage treatment

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to a chlorine dioxide generator for sewage treatment.

Background

Chlorine dioxide is a gas from yellowish green to orange yellow, is a safe and nontoxic green disinfectant internationally recognized, is used as a novel oxidant and disinfectant, has unique advantages compared with the traditional disinfectants such as ultraviolet rays, ozone, sodium hypochlorite, liquid chlorine and the like, and is more and more the first choice of the industry, and the current sewage treatment field is disinfected by adopting chlorine dioxide due to the high-efficiency, broad-spectrum, residue-free and byproduct-free disinfection capacity and the strong oxidation capacities such as decolorization, deodorization, peculiar smell removal and the like of the chlorine dioxide.

However, it is found through analysis that the existing chlorine dioxide generator for sewage treatment generates chlorine dioxide gas, and the gas needs to be compressed for storage, so that the storage and transportation are inconvenient, and meanwhile, the equipment is cumbersome and inconvenient to operate, and the manufacturing cost is high.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above insufficiency, the utility model provides a chlorine dioxide generator for sewage treatment herein has can with chlorine dioxide liquefaction, convenient storage and transportation, conveniently control, low in manufacturing cost's advantage.

The utility model is realized in such a way, a chlorine dioxide generator for sewage treatment is constructed, which comprises a reaction kettle, a sodium chlorate storage tank and a hydrochloric acid storage tank, wherein the sodium chlorate storage tank is vertically arranged on the side wall of the reaction kettle, the hydrochloric acid storage tank is arranged at the opposite side of the sodium chlorate storage tank, the hydrochloric acid storage tank is vertically arranged on the side wall of the reaction kettle, and a vertical reaction mechanism is arranged in the reaction kettle; the middle position of the inner bottom of the reaction kettle is an arc-shaped bottom surface, a centralized groove is arranged at the middle position of the inner bottom of the reaction kettle, a liquid discharge hole is arranged at the middle position of the centralized groove, an inclined liquid discharge pipe is arranged at the bottom of the reaction kettle, the top end of the liquid discharge pipe is communicated with the liquid discharge hole, the sodium chlorate storage tank comprises a first fixing frame and a first guide pipe, the sodium chlorate storage tank is vertically arranged on the side wall of the reaction kettle through the first fixing frame, the first guide pipe is obliquely arranged on the side wall of the reaction kettle in a penetrating way, the top end of the first guide pipe is fixedly communicated with the bottom end of the sodium chlorate storage tank, the hydrochloric acid storage tank comprises an observation window, a second fixing frame and a second guide pipe, the hydrochloric acid storage tank is vertically fixed on the side wall of the reaction kettle through the second fixing frame, the observation window is arranged on the side wall of the hydrochloric, the display screen is installed to reation kettle's side, and the base is installed to reation kettle's bottom.

Further, the reaction mechanism comprises a surplus material discharge pipe, a hemisphere reaction vessel, rotating shafts, a material receiving groove and a driving mechanism, the hemisphere reaction vessel is embedded in the middle of the top of the reaction mechanism and is movably connected with the reaction mechanism, the two rotating shafts are symmetrically arranged in the middle of the side wall of the hemisphere reaction vessel, one end of each rotating shaft is embedded in the hemisphere reaction vessel and is in interference fit with the hemisphere reaction vessel, the other end of each rotating shaft is embedded in the inner side wall of the reaction mechanism and is in clearance fit with the reaction mechanism, the material receiving groove is horizontally arranged in the middle of the reaction mechanism and is fixedly connected with the reaction mechanism through screws, the surplus material discharge pipe obliquely penetrates through the side wall of the reaction mechanism and is fixedly communicated with the material receiving groove in the reaction mechanism, and the tail end of the surplus material discharge pipe penetrates through and extends to the side wall of the reaction kettle, two kinds of raw materials are assembled through the hemisphere reaction vessel that sets up and are carried out chemical reaction, and the hemisphere reaction vessel adopts rotatable formula design, can derive remaining clout after the reaction.

Further, actuating mechanism includes the motor, motor mounting bracket, action wheel and follows the driving wheel, and the motor is horizontal installation at reaction mechanism's inside intermediate position through motor mounting bracket, and the action wheel passes through the motor shaft transmission with the motor to be connected, installs the intermediate position in the pivot from the driving wheel nestification to and realize interference fit between the pivot, action wheel and from being equipped with driven belt between the driving wheel, drive the hemisphere reaction vessel through the actuating mechanism who sets up and rotate, realize empting the clout.

Further, reation kettle' S inside is equipped with refrigeration pipe and temperature detect probe, and the embedding of refrigeration pipe sets up the inside wall at reation kettle, and the refrigeration pipe is "S" shape and distributes, and the inside wall at reation kettle is installed in the embedding of temperature detect probe, reduces reation kettle internal temperature through the refrigeration pipe that sets up, when the temperature reduces to 11 ℃, can liquefy into liquid with the chlorine dioxide that the reaction produced, convenient storage and transportation.

Further, temperature detect probe and display screen signal connection, the temperature detect probe that conveniently detects in the reation kettle through the setting to know operating condition.

Furthermore, the bottom ends of the first guide pipe and the second guide pipe are aligned to the middle position of the top of the hemisphere reaction vessel, and the two raw materials are directly guided into the hemisphere reaction vessel through the first guide pipe and the second guide pipe to react.

The utility model has the advantages of can liquefy chlorine dioxide, convenient storage and transportation, conveniently control, low in manufacturing cost, concrete advantage embodies:

the method has the advantages that: the reaction mechanism comprises a surplus material discharge pipe, a hemispheroid reaction vessel, rotating shafts, a material receiving groove and a driving mechanism, the hemispheroid reaction vessel is embedded in the middle position of the top of the reaction mechanism and is movably connected with the reaction mechanism, the two rotating shafts are symmetrically arranged in the middle position of the side wall of the hemispheroid reaction vessel, one end of each rotating shaft is embedded in the hemispheroid reaction vessel and is in interference fit with the hemispheroid reaction vessel, the other end of each rotating shaft is embedded in the inner side wall of the reaction mechanism and is in clearance fit with the reaction mechanism, the material receiving groove is horizontally arranged in the middle position of the reaction mechanism and is fixedly connected with the reaction mechanism through screws, the surplus material discharge pipe obliquely penetrates through the side wall of the reaction mechanism and is communicated and fixed with the material receiving groove in the reaction mechanism, and the tail end of the surplus material discharge pipe penetrates through and extends to the side wall of the reaction kettle, two kinds of raw materials are assembled through the hemisphere reaction vessel that sets up and are carried out chemical reaction, and the hemisphere reaction vessel adopts rotatable formula design, can derive remaining clout after the reaction.

The method has the advantages that: actuating mechanism includes the motor, motor mounting bracket, action wheel and follows the driving wheel, and the motor is horizontal installation at reaction mechanism's inside intermediate position through motor mounting bracket, and the action wheel passes through the motor shaft transmission with the motor to be connected, installs the intermediate position at the pivot from the driving wheel nestification to and realize interference fit between the pivot, action wheel and be equipped with driven belt from between the driving wheel, drive the hemisphere reaction vessel through the actuating mechanism who sets up and rotate, realize empting the clout.

The method has the advantages that: reation kettle' S inside is equipped with refrigeration pipe and temperature detect probe, the refrigeration pipe embedding sets up the inside wall at reation kettle, and the refrigeration pipe is "S" shape and distributes, the inside wall at reation kettle is installed in the temperature detect probe embedding, reduce reation kettle inside temperature through the refrigeration pipe that sets up, when the temperature reduces to 11 ℃, can become liquid with the chlorine dioxide liquefaction that the reaction produced, convenient storage and transportation, temperature detect probe and display screen signal connection, temperature detect probe is convenient to detect in the reation kettle through the temperature detect probe that sets up, so that know operating condition, the top intermediate position of hemisphere reaction vessel is aimed at to the bottom of first pipe and second pipe, directly react in leading-in hemisphere reaction vessel with two kinds of raw materials through first pipe and second pipe.

Drawings

FIG. 1 is a schematic structural diagram of a chlorine dioxide generator for sewage treatment according to the present invention;

FIG. 2 is a partial sectional view of a reaction kettle of a chlorine dioxide generator for sewage treatment according to the present invention;

FIG. 3 is a side elevation and longitudinal elevation of a reaction vessel of a chlorine dioxide generator for sewage treatment according to the present invention;

FIG. 4 is a partial sectional view of a reaction kettle of a chlorine dioxide generator for sewage treatment.

Sequence numbers shown in the figures: reaction kettle A1, arc bottom surface A11, concentration tank A12, liquid discharge hole A13, liquid discharge pipe A14, refrigeration pipe A15, temperature detection probe A16, sodium chlorate storage tank A2, first fixing frame A21, first guide pipe A22, hydrochloric acid storage tank A3, observation window A31, second fixing frame A32, second guide pipe A33, display screen A4, base A5, reaction mechanism A6, residual material discharge pipe A61, hemisphere reaction vessel A62, rotating shaft A621, driving mechanism A63, motor A631, motor mounting frame A632, driving wheel A633, belt A634, driven wheel A635 and material receiving tank A64.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides a chlorine dioxide generator for sewage treatment through improvement, as shown in the attached drawing of the specification, which can be implemented as follows; the device comprises a reaction kettle A1, a sodium chlorate storage tank A2 and a hydrochloric acid storage tank A3, wherein the sodium chlorate storage tank A2 is vertically arranged on the side wall of the reaction kettle A1, a hydrochloric acid storage tank A3 is arranged on the opposite side of the sodium chlorate storage tank A2, the hydrochloric acid storage tank A3 is vertically arranged on the side wall of the reaction kettle A1, and a vertical reaction mechanism A6 is arranged in the reaction kettle A1; the middle position of the inner bottom of a reaction kettle A1 is an arc-shaped bottom surface A11, the middle position of the inner bottom of the reaction kettle A1 is provided with a concentration groove A12, the middle position of a concentration groove A12 is provided with a liquid discharge hole A13, the bottom of the reaction kettle A1 is provided with an inclined liquid discharge pipe A1, the top end of the liquid discharge pipe A1 is communicated with the liquid discharge hole A1, a sodium chlorate storage tank A1 comprises a first fixing frame A1 and a first conduit pipe A1, the sodium chlorate storage tank A1 is vertically arranged on the side wall of the reaction kettle A1 through the first fixing frame A1, the first conduit pipe A1 is obliquely arranged on the side wall of the reaction kettle A1 in a penetrating manner, the top end of the first conduit pipe A1 is communicated and fixed with the bottom end of the sodium chlorate storage tank A1, the hydrochloric acid storage tank A1 comprises an observation window A1, a second fixing frame A1 and a second conduit pipe 1 penetrating through the side wall of the reaction kettle 1 is obliquely arranged on the side wall of the reaction kettle A1, the top end of the second conduit A33 is fixedly communicated with the bottom end of the hydrochloric acid storage tank A3, a display screen A4 is installed on the side face of the reaction kettle A1, a base A5 is installed at the bottom of the reaction kettle A1, and the motor A631 is a direct-current speed reduction motor with the power of 12W.

Reaction mechanism A6 includes surplus material discharge pipe A61, hemisphere reaction vessel A62, rotation axis A621, material receiving groove A64 and driving mechanism A63, hemisphere reaction vessel A62 is embedded in the middle position of the top of reaction mechanism A6 and movably connected with reaction mechanism A6, two rotation axes A621 are symmetrically arranged in the middle position of the side wall of hemisphere reaction vessel A62, one end of rotation axis A621 is embedded in hemisphere reaction vessel A62 and is in interference fit with hemisphere reaction vessel A62, the other end of rotation axis A621 is embedded in the inner side wall of reaction mechanism A6 and is in clearance fit with reaction mechanism A6, material receiving groove A64 is horizontally arranged in the middle position of reaction mechanism A6 and is fixedly connected with reaction mechanism A6 through screws, surplus material discharge pipe A61 is obliquely arranged on the side wall of reaction mechanism A6 and is fixedly connected with material receiving groove A64 in reaction mechanism A6, the tail end of the excess material discharge pipe A61 penetrates through and extends to the side wall of the reaction kettle A1, two raw materials are gathered through the arranged hemisphere reaction vessel A62 to carry out chemical reaction, the hemisphere reaction vessel A62 is designed in a rotatable mode and can lead out the residual excess material after the reaction is finished, the driving mechanism A63 comprises a motor A631, a motor mounting frame A632, a driving wheel A633 and a driven wheel A635, the motor A631 is horizontally arranged in the middle of the inside of the reaction mechanism A6 through the motor mounting frame A632, the driving wheel A633 and the motor A631 are in shaft transmission connection through the motor A631, the driven wheel A635 is nested in the middle of the rotating shaft A621 and is in interference fit with the rotating shaft A621, a transmission belt A634 is arranged between the driving wheel A633 and the driven wheel A635, the hemisphere reaction vessel A62 is driven to rotate through the arranged driving mechanism A63 to pour the excess material, a cooling pipe A15 and a temperature detection probe A16 are arranged inside the reaction kettle A1, the refrigeration pipe A15 is embedded in the inner side wall of the reaction kettle A1, the refrigeration pipe A15 is distributed in an S shape, the temperature detection probe A16 is embedded in the inner side wall of the reaction kettle A1, the internal temperature of the reaction kettle A1 is reduced through the arranged refrigeration pipe A15, when the temperature is reduced to 11 ℃, chlorine dioxide generated by reaction can be liquefied into liquid, the storage and the transportation are convenient, the temperature detection probe A16 is in signal connection with the display screen A4, the temperature in the reaction kettle A1 can be detected conveniently through the arranged temperature detection probe A16, the working state can be known conveniently, the bottom ends of the first guide pipe A22 and the second guide pipe A33 are aligned with the middle position of the top of the hemisphere reaction vessel A62, and the two raw materials are directly guided into the hemisphere reaction vessel A62 through the first guide pipe A22 and the second guide pipe A33 for reaction.

The working principle of the chlorine dioxide generator for sewage treatment is as follows: firstly, a worker pours hydrochloric acid into a hydrochloric acid storage tank A3, pours sodium chlorate into a sodium chlorate storage tank A2, introduces the hydrochloric acid and the sodium chlorate into a hemisphere reaction dish A62 at the middle position of the top of a reaction mechanism A6 through a first conduit A22 and a second conduit A33, the hydrochloric acid and the sodium chlorate start to carry out chemical reaction after being converged in the hemisphere reaction dish A62 to generate chlorine dioxide, sodium chloride and water, after the reaction in a reaction kettle A1 is finished, a motor A631 of a driving mechanism A63 is started, the motor A631 drives a driving wheel A633 to operate through a motor shaft, then a driven wheel A635 is driven to operate through a driving wheel matching belt A634, the driven wheel A635 is arranged on a rotating shaft A621, therefore, the rotating shaft can be matched to drive the hemisphere reaction dish A62 to rotate, the hemisphere reaction dish A62 is driven to rotate 180 degrees through the motor A631, at this time, residual substances in the hemisphere reaction dish A62 can be poured into a material receiving tank A64 at the bottom of, discharging the reaction kettle A1 through a surplus material discharge pipe A61, enabling a hemispheroid reaction vessel A62 to be in a turning state, preventing air in the reaction kettle A1 from being led into the reaction mechanism A6, then starting a refrigeration pipe A15, cooling the interior of the reaction kettle A1, detecting the temperature in the reaction kettle A1 through a temperature detection probe A16, enabling a temperature detection probe A16 to be in signal connection with a display screen A4, enabling temperature information to be fed back to the display screen A4, liquefying chlorine dioxide gas generated by reaction of hydrochloric acid and sodium chlorate into liquid after the temperature in the reaction kettle A1 is reduced to 11 ℃, collecting the liquid into a concentration tank A12 through an arc bottom surface A11, then falling into a liquid discharge hole A13 through the concentration tank A12, finally discharging the liquid through a liquid discharge pipe A14, and collecting the chlorine dioxide gas by using a container.

In conclusion; the utility model discloses chlorine dioxide generator that sewage treatment used has can with chlorine dioxide liquefaction, convenient storage and transportation, conveniently control, low in manufacturing cost's advantage.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A chlorine dioxide generator for sewage treatment, comprising a reaction kettle (A1), a sodium chlorate storage tank (A2) and a hydrochloric acid storage tank (A3), and is characterized in that: the sodium chlorate storage tank (A2) is vertically arranged on the side wall of a reaction kettle (A1), a hydrochloric acid storage tank (A3) is arranged on the opposite side of the sodium chlorate storage tank (A2), the hydrochloric acid storage tank (A3) is vertically arranged on the side wall of the reaction kettle (A1), and a vertical reaction mechanism (A6) is arranged in the reaction kettle (A1); the middle position of the inner bottom of the reaction kettle (A1) is an arc-shaped bottom surface (A11), the middle position of the inner bottom of the reaction kettle (A1) is provided with a concentration groove (A12), the middle position of the concentration groove (A12) is provided with a liquid discharge hole (A13), the bottom of the reaction kettle (A1) is provided with an inclined liquid discharge pipe (A14), the top end of the liquid discharge pipe (A14) is communicated with the liquid discharge hole (A13), the sodium chlorate storage tank (A2) comprises a first fixing frame (A21) and a first conduit (A22), the sodium chlorate storage tank (A2) is vertically arranged on the side wall of the reaction kettle (A1) through a first fixing frame (A21), the first conduit (A22) is obliquely arranged on the side wall of the reaction kettle (A1), the top end of the first conduit (A22) is communicated with the bottom end of the sodium chlorate (A2) for fixing, and the hydrochloric acid storage tank (A3) comprises an observation window (A31), Second mount (A32) and second pipe (A33), hydrochloric acid storage jar (A3) is the lateral wall of vertical fixation at reation kettle (A1) through second mount (A32), the lateral wall of hydrochloric acid storage jar (A3) is equipped with observation window (A31), second pipe (A33) is the slope and runs through the lateral wall that sets up at reation kettle (A1), just the top of second pipe (A33) is fixed with the bottom intercommunication of hydrochloric acid storage jar (A3), the side-mounting of reation kettle (A1) has display screen (A4), base (A5) is installed to the bottom of reation kettle (A1).

2. A chlorine dioxide generator for sewage treatment according to claim 1, characterized in that: reaction mechanism (A6) includes clout delivery pipe (A61), hemisphere reaction dish (A62), pivot (A621), connects silo (A64) and actuating mechanism (A63), hemisphere reaction dish (A62) embedding sets up the top intermediate position at reaction mechanism (A6), and with reaction mechanism (A6) swing joint, two pivot (A621) are the symmetry and set up the lateral wall intermediate position at hemisphere reaction dish (A62), just the one end embedding of pivot (A621) sets up the inside at hemisphere reaction dish (A62) to realize interference fit between hemisphere reaction dish (A62), the other end embedding of pivot (A621) sets up the inside wall at reaction mechanism (A6), and realize clearance fit between reaction mechanism (A6), connect silo (A64) to be the inside intermediate position of horizontal installation in reaction mechanism (A6), and pass through fixed connection screw with reaction mechanism (A6), surplus material discharge pipe (A61) are the slope and run through the lateral wall that sets up at reaction mechanism (A6) to connect silo (A64) intercommunication fixed with reaction mechanism (A6) is inside, just the terminal of surplus material discharge pipe (A61) runs through and extends to reation kettle (A1)'s lateral wall.

3. A chlorine dioxide generator for sewage treatment according to claim 2, characterized in that: actuating mechanism (A63) includes motor (A631), motor mounting bracket (A632), action wheel (A633) and follows driving wheel (A635), motor (A631) is the inside intermediate position of horizontal installation at reaction mechanism (A6) through motor mounting bracket (A632), action wheel (A633) is connected through motor (A631) through the transmission of motor (A631) axle with motor (A631), follow driving wheel (A635) nested install the intermediate position at pivot (A621) to with realize interference fit between pivot (A621), be equipped with driven belt (A634) between action wheel (A633) and the follow driving wheel (A635).

4. A chlorine dioxide generator for sewage treatment according to claim 1, characterized in that: the inside of reation kettle (A1) is equipped with refrigeration pipe (A15) and temperature detect probe (A16), the inside wall of setting at reation kettle (A1) is gone into in refrigeration pipe (A15), just refrigeration pipe (A15) is "S" shape and distributes, the inside wall at reation kettle (A1) is installed in temperature detect probe (A16) embedding.

5. The chlorine dioxide generator for wastewater treatment according to claim 4, wherein: the temperature detection probe (A16) is in signal connection with a display screen (A4).

6. A chlorine dioxide generator for sewage treatment according to claim 1, characterized in that: the bottom ends of the first conduit (A22) and the second conduit (A33) are aligned with the top middle position of the hemisphere reaction dish (A62).

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