CN213966626U - Reation kettle is used in production of sodium acetate solution - Google Patents

Abstract

The utility model discloses a reation kettle is used in production of sodium acetate solution, belong to sodium acetate production technical field, a reation kettle is used in production of sodium acetate solution, the reactor comprises a kettle body, the feeder hopper, the spiral pipe, the stirring subassembly, first atomizing pay-off subassembly, second atomizing pay-off subassembly, the connecting pipe, first pump, the clear water pipe, with first valve, the fixed intercommunication of delivery port of first pump has the clear water pipe, be equipped with first valve on the clear water pipe, the bottom mounting intercommunication of clear water pipe has the connecting pipe, a part of first atomizing pay-off subassembly and a part of second atomizing pay-off subassembly all extend to the inside of the cauldron body, and set up relatively, the left end and the fixed intercommunication of first atomizing pay-off subassembly of connecting pipe, the right-hand member and the fixed intercommunication of second atomizing pay-off subassembly of connecting pipe, the left and right sides outer wall of the cauldron body all is fixed with the stirring subassembly. The utility model discloses a reation kettle is used in sodium acetate solution production, feed liquid misce bene can in time wash, improves life.

Description

Reation kettle is used in production of sodium acetate solution

Technical Field

The utility model belongs to the technical field of sodium acetate production, especially, relate to a reation kettle is used in production of sodium acetate solution.

Background

Sodium acetate is a colorless and tasteless crystal, can be weathered in air, is combustible and is easily soluble in water. Currently, sodium acetate is mainly prepared from glacial acetic acid and sodium hydroxide as main raw materials by concentration, crystallization and centrifugal separation.

The existing process for producing the sodium acetate solution by recycling the waste liquid produced in other working sections needs a reaction kettle in the production process of the sodium acetate solution, the existing reaction kettle has the phenomenon of uneven mixing of the material liquid, the subsequent production steps are influenced, the cleaning is not carried out in time, the scaling and the corrosion are easily caused, and the service life of the reaction kettle is shortened.

Disclosure of Invention

An object of the utility model is to provide a reation kettle is used in sodium acetate solution production, feed liquid misce bene can in time wash, improves life.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a reaction kettle for producing sodium acetate solution, which comprises a kettle body, a feeding hopper, a spiral pipe, a stirring component, a first atomization feeding component, a second atomization feeding component, a connecting pipe, a first pump, a clear water pipe and a first valve, wherein the middle part of the top wall of the kettle body is fixed with the first pump, the water outlet of the first pump is fixedly communicated with the clear water pipe, the clear water pipe is provided with the first valve, the bottom end of the clear water pipe is fixedly communicated with the connecting pipe, the top wall of the kettle body at the left side of the connecting pipe is fixed with the first atomization feeding component, the top wall of the kettle body at the right side of the connecting pipe is fixed with the second atomization feeding component, one part of the first atomization feeding component and one part of the second atomization feeding component both extend to the interior of the kettle body and are arranged oppositely, the left end of the connecting pipe is fixedly communicated with the first atomization feeding component, and the right end of the connecting pipe is fixedly communicated with the second atomization feeding component, the fixed intercommunication of the roof of the left cauldron body of first atomizing pay-off subassembly has the spiral pipe, and the fixed intercommunication in top of spiral pipe has the feeder hopper, and the left and right sides outer wall of the cauldron body all is fixed with the stirring subassembly, and the stirring end of two stirring subassemblies all extends to the inside of the cauldron body to the lateral wall that the cauldron body was passed to the downward slope.

Preferably, first atomizing pay-off subassembly includes the second pump, first feed liquor pipe, first catch basin, first atomizer, and the second valve, the second pump is fixed in the left side of cauldron body roof, the one end of first feed liquor pipe and the fixed intercommunication of the liquid outlet of second pump, the inside fixed intercommunication that the roof of the cauldron body and extend to the cauldron body is passed to the other end of first feed liquor pipe has first catch basin, the fixed intercommunication of inside wall of first catch basin has a plurality of first atomizer, be equipped with the second valve on the first feed liquor pipe, the second valve is located the top of connecting pipe.

Preferably, the second atomizing pay-off subassembly includes the third pump, the second feed liquor pipe, the second catch basin, the second atomizer, and the third valve, the third pump is fixed in the right side of cauldron body roof, the one end of second feed liquor pipe and the fixed intercommunication of the liquid outlet of third pump, the inside fixed intercommunication that the other end of second feed liquor pipe passed the roof of the cauldron body and extended to the cauldron body has the second catch basin, the fixed intercommunication of inside wall of second catch basin has a plurality of second atomizer, the second atomizer sets up with first atomizer relatively, be equipped with the third valve on the second feed liquor pipe, the third valve is located the top of connecting pipe.

Preferably, the stirring assembly comprises a mounting plate, a motor, a stirring shaft and a stirring rod, the mounting plate is fixed on the upper part of the outer side wall of the kettle body, the motor is fixed on the mounting plate, the output shaft of the motor passes through the stirring shaft fixedly connected with the shaft coupling, the stirring shaft downwards slantwise penetrates through the side wall of the kettle body and extends to the inside of the kettle body, the stirring rod is fixed on the stirring rod, the stirring rod and the stirring shaft are perpendicular to each other, and the stirring rod is located below the first atomization spray nozzle and the second atomization spray nozzle.

Preferably, still include swash plate and arc cover, the top wall of the internal portion of cauldron is fixed with the swash plate to the below left side slope, and the swash plate is located the below of spiral pipe, and the left side wall of the internal portion of cauldron is fixed with the arc cover, and the through-hole has been seted up at the middle part of arc cover, and the arc cover is located the below of swash plate.

Preferably, side plates are fixed to both the front and rear sides of the swash plate.

Preferably, a plurality of protrusions are fixed to an upper surface of the swash plate.

Preferably, still include shock attenuation landing leg, drain pipe and fourth valve, all be fixed with the shock attenuation landing leg around cauldron body bottom, the central point of cauldron body bottom puts fixed intercommunication has the drain pipe, is equipped with the fourth valve on the drain pipe.

Preferably, the inner wall of the kettle body is provided with an enamel layer.

The utility model has the advantages that:

1. the two raw material liquids are respectively fed into the kettle body in an atomized water drop mode through the first atomized feeding assembly and the second feeding assembly, the atomized two raw material liquids firstly collide with each other and then fall to the bottom of the kettle body, and then the two raw material liquids are mixed by the stirring assembly, so that the mixing effect is uniform; with the combination of connecting pipe, first pump, clear water pipe and first valve and first atomizing pay-off subassembly and second atomizing pay-off subassembly, can not only carry out the pay-off to two kinds of raw materials liquid respectively, can also in time wash, avoid scale deposit and corruption, improve reation kettle's life.

2. The soda is put into through the feeder hopper in stirring process, slows down the input speed of soda through the setting of spiral pipe for the compounding is better even.

3. The setting of stirring subassembly to the mode of both sides slope stirring further improves the mixed effect of feed liquid, makes the feed liquid mix more evenly thoroughly.

4. The input rate of the soda ash is further slowed down through the arrangement of the inclined plate and the arc cover.

5. The inner wall of the kettle body is provided with an enamel layer, and the enamel layer has the characteristics of acid resistance, alkali resistance, corrosion resistance, no leakage and tightness, and the service life of the reaction kettle is prolonged.

Drawings

Fig. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a left side view structure diagram of the sloping plate of the present invention.

The labels in the figures are: 1-kettle body, 2-feed hopper, 3-spiral pipe, 4-stirring component, 41-mounting plate, 42-motor, 43-stirring shaft, 44-stirring rod, 5-first atomization feeding component, 51-second pump, 52-first liquid inlet pipe, 53-first liquid collecting disc, 54-first atomization nozzle, 55-second valve, 6-second atomization feeding component, 61-third pump, 62-second liquid inlet pipe, 63-second liquid collecting disc, 64-second atomization nozzle, 65-third valve, 7-connecting pipe, 8-first pump, 9-clear water pipe, 10-first valve, 11-inclined plate, 12-arc cover, 13-through hole, 14-side plate, 15-lug, 16-shock absorption leg, 17-liquid outlet pipe, 18-fourth valve.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Those not described in detail in this specification are within the skill of the art. In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 2, the reaction kettle for producing a sodium acetate solution provided in this embodiment includes a kettle body 1, a feed hopper 2, a spiral tube 3, a stirring assembly 4, a first atomizing and feeding assembly 5, a second atomizing and feeding assembly 6, a connecting tube 7, a first pump 8, a clean water tube 9, a first valve 10, a first pump 8 fixed in the middle of the top wall of the kettle body 1, a clean water tube 9 fixed in communication with the water outlet of the first pump 8, a first valve 10 arranged on the clean water tube 9, a connecting tube 7 fixed in communication with the bottom end of the clean water tube 9, a first atomizing and feeding assembly 5 fixed on the top wall of the kettle body 1 on the left side of the connecting tube 7, a second atomizing and feeding assembly 6 fixed on the top wall of the kettle body 1 on the right side of the connecting tube 7, a portion of the first atomizing and feeding assembly 5 and a portion of the second atomizing and feeding assembly 6 both extending into the kettle body 1 and being arranged oppositely, a left end of the connecting tube 7 fixedly communicating with the first atomizing and feeding assembly 5, the right-hand member of connecting pipe 7 and the fixed intercommunication of second atomizing pay-off subassembly 6, the fixed intercommunication of the roof of the left cauldron body 1 of first atomizing pay-off subassembly 5 has spiral pipe 3, and the fixed intercommunication in top of spiral pipe 3 has feeder hopper 2, and the left and right sides outer wall of the cauldron body 1 all is fixed with stirring subassembly 4, and the stirring end of two stirring subassemblies 4 all inclines downwards and passes the inside that the lateral wall of the cauldron body 1 extended to the cauldron body 1. Send into the inside of the cauldron body with the mode of atomizing water droplet with two kinds of feed solutions respectively through first atomizing pay-off subassembly and second pay-off subassembly to the cauldron body bottom that drops after two kinds of feed solutions of atomizing collide each other earlier combines the stirring subassembly to stir the mixture, and the mixing effect is even, and soda passes through the feeder hopper at stirring in-process and drops into, slows down the input rate of soda through the setting of spiral pipe, makes the compounding better even. When the cleaning agent is required to be cleaned, the first valve 10 is opened, clean water is pumped to the clean water pipe 9 through the first pump 8 and is shunted to the first atomization feeding component 5 and the second atomization feeding component 6 through the connecting pipe 7, the clean water is atomized and sprayed out through the first atomization feeding component 5 and the second atomization feeding component 6, the cleaning effect is improved by combining the stirring of the stirring component 4, the cleaning is timely, scaling and corrosion are avoided, and the service life of the reaction kettle is prolonged.

Further, first atomizing pay-off subassembly 5 includes second pump 51, first feed liquor pipe 52, first liquid collecting tray 53, first atomizer 54, and second valve 55, second pump 51 is fixed in the left side of cauldron body 1 roof, the one end of first feed liquor pipe 52 and the fixed intercommunication of the liquid outlet of second pump 51, the other end of first feed liquor pipe 52 passes the roof of cauldron body 1 and extends to the inside fixed intercommunication of cauldron body 1 has first liquid collecting tray 53, the fixed intercommunication of inside wall of first liquid collecting tray 53 has a plurality of first atomizer 54, be equipped with second valve 55 on the first feed liquor pipe 52, second valve 55 is located the top of connecting pipe 7. When the first raw material liquid is fed, the first valve 10 and the third valve 65 are closed, the second valve 55 is opened, and the first raw material liquid is pumped to the first liquid collecting tray 53 through the first liquid inlet pipe 52 by the second pump 51 and atomized and sprayed by the first atomizer 54. The second atomization feeding assembly 6 comprises a third pump 61, a second liquid inlet pipe 62, a second liquid collecting disc 63, a second atomization nozzle 64 and a third valve 65, the third pump 61 is fixed on the right side of the top wall of the kettle body 1, one end of the second liquid inlet pipe 62 is fixedly communicated with the liquid outlet of the third pump 61, the other end of the second liquid inlet pipe 62 penetrates through the top wall of the kettle body 1 and extends to the inside of the kettle body 1, the second liquid collecting disc 63 is fixedly communicated with the inside wall of the second liquid collecting disc 63, the second atomization nozzle 64 is arranged opposite to the first atomization nozzle 54, the second liquid inlet pipe 62 is provided with the third valve 65, and the third valve 65 is located above the connecting pipe 7. When the second raw material liquid needs to be fed, the first valve 10 and the second valve 55 are closed, the third valve 65 is opened, and the second raw material liquid is pumped to the second liquid collecting tray 63 through the second liquid inlet pipe 62 by the third pump 61 and atomized and sprayed out by the second atomizing nozzle 64. When cleaning is required, the second valve 55 and the third valve 65 are closed, the first valve 10 is opened, and clean water is pumped to the first liquid collecting tray 53 and the second liquid collecting tray 63 through the clean water pipe 9 and the connecting pipe 7 by the first pump 8 and is sprayed out through the first atomizing nozzle 54 and the second atomizing nozzle 64. When it is desired to feed the first raw material liquid and the second raw material liquid simultaneously, the first valve 10 is closed, and the second valve 55 and the third valve 65 are opened.

Further, the stirring assembly 4 includes a mounting plate 41, a motor 42, a stirring shaft 43, and a stirring rod 44, wherein the mounting plate 41 is fixed on the upper portion of the outer side wall of the kettle body 1, the motor 42 is fixed on the mounting plate 41, an output shaft of the motor 42 is fixedly connected with the stirring shaft 43 through a coupler, the stirring shaft 43 downwards slantwise passes through the side wall of the kettle body 1 and extends to the inside of the kettle body 1 and is fixed with the stirring rod 44, the stirring rod 44 and the stirring shaft 43 are perpendicular to each other, and the stirring rod 44 is located below the first atomizer 54 and the second atomizer 64. The mixing effect of the feed liquid is further improved in a mode of inclined stirring at two sides, so that the feed liquid is mixed more uniformly and thoroughly.

Further, still include swash plate 11 and arc cover 12, the top wall below left side slope inside the cauldron body 1 is fixed with swash plate 11, and swash plate 11 is located the below of spiral pipe 3, and the left side wall of the cauldron body 1 inside is fixed with arc cover 12, and through-hole 13 has been seted up at the middle part of arc cover 12, and arc cover 12 is located the below of swash plate 11. The input rate of soda is further slowed down through the setting of swash plate 11 and arc cover 12, and the soda that drops to the arc cover is discharged through the through-hole.

Furthermore, side plates 14 are fixed on the front side and the rear side of the inclined plate 11, and the side plates 14 are arranged to prevent the soda from falling off from the side of the inclined plate 11.

Furthermore, a plurality of bumps 15 are fixed on the upper surface of the inclined plate 11, and the bumps 15 not only further slow down the input rate of the calcined soda, but also play a certain role in scattering the agglomerated calcined soda.

Further, still include shock attenuation landing leg 16, drain pipe 17 and fourth valve 18, all be fixed with shock attenuation landing leg 16 around the cauldron body 1 bottom, the central point of cauldron body 1 bottom puts fixed intercommunication has drain pipe 17, is equipped with fourth valve 18 on the drain pipe 17, and shock attenuation landing leg's setting plays the cushioning effect, when the feed liquid that the mixture finishes needs to discharge, opens fourth valve 18, and the feed liquid passes through drain pipe 17 and discharges.

Further, the inner wall of the reactor body 1 is provided with an enamel layer (not shown), and the enamel layer has the characteristics of acid resistance, alkali resistance, corrosion resistance, no leakage and tightness, so that the service life of the reaction kettle is prolonged.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. A reation kettle is used in production of sodium acetate solution which characterized in that:

the device comprises a kettle body, a feed hopper, a spiral pipe, a stirring assembly, a first atomization feeding assembly, a second atomization feeding assembly, a connecting pipe, a first pump, a clear water pipe and a first valve;

a first pump is fixed in the middle of the top wall of the kettle body, a water outlet of the first pump is fixedly communicated with a clean water pipe, a first valve is arranged on the clean water pipe, and a connecting pipe is fixedly communicated with the bottom end of the clean water pipe;

a first atomization feeding assembly is fixed on the top wall of the kettle body on the left side of the connecting pipe, a second atomization feeding assembly is fixed on the top wall of the kettle body on the right side of the connecting pipe, and a part of the first atomization feeding assembly and a part of the second atomization feeding assembly extend into the kettle body and are arranged oppositely;

the left end of the connecting pipe is fixedly communicated with the first atomization feeding assembly, and the right end of the connecting pipe is fixedly communicated with the second atomization feeding assembly;

the top wall of the kettle body on the left side of the first atomization feeding assembly is fixedly communicated with a spiral pipe, and the top end of the spiral pipe is fixedly communicated with a feed hopper;

the outer walls of the left side and the right side of the kettle body are respectively fixed with a stirring assembly, and the stirring ends of the two stirring assemblies are downwards obliquely penetrated through the side wall of the kettle body and extend to the inside of the kettle body.

2. The reaction kettle for producing a sodium acetate solution as set forth in claim 1, characterized in that:

the first atomization feeding assembly comprises a second pump, a first liquid inlet pipe, a first liquid collecting disc, a first atomization nozzle and a second valve;

the second pump is fixed on the left side of the top wall of the kettle body, one end of the first liquid inlet pipe is fixedly communicated with a liquid outlet of the second pump, the other end of the first liquid inlet pipe penetrates through the top wall of the kettle body and extends into the kettle body, a first liquid collecting disc is fixedly communicated with the interior of the kettle body, and a plurality of first atomizing spray heads are fixedly communicated with the inner side wall of the first liquid collecting disc;

and a second valve is arranged on the first liquid inlet pipe and is positioned above the connecting pipe.

3. The reaction kettle for producing a sodium acetate solution as set forth in claim 2, characterized in that:

the second atomization feeding assembly comprises a third pump, a second liquid inlet pipe, a second liquid collecting disc, a second atomization nozzle and a third valve;

the third pump is fixed on the right side of the top wall of the kettle body, one end of the second liquid inlet pipe is fixedly communicated with a liquid outlet of the third pump, the other end of the second liquid inlet pipe penetrates through the top wall of the kettle body and extends into the kettle body, a second liquid collecting disc is fixedly communicated with the interior of the kettle body, a plurality of second atomizing spray heads are fixedly communicated with the inner side wall of the second liquid collecting disc, and the second atomizing spray heads are arranged opposite to the first atomizing spray heads;

and a third valve is arranged on the second liquid inlet pipe and is positioned above the connecting pipe.

4. The reaction kettle for producing a sodium acetate solution as set forth in claim 3, characterized in that:

the stirring assembly comprises a mounting plate, a motor, a stirring shaft and a stirring rod;

the mounting panel is fixed in the upper portion of the external lateral wall of cauldron, the motor is fixed in the mounting panel, the output shaft of motor passes through shaft coupling fixedly connected with (mixing) shaft, the (mixing) shaft downward sloping passes the lateral wall of the cauldron body extends to the inside of the cauldron body is fixed with the puddler, the puddler sets up with (mixing) shaft mutually perpendicular, the puddler is located the below of first atomizer and second atomizer.

5. The reaction kettle for producing a sodium acetate solution as set forth in claim 1, characterized in that:

the device also comprises an inclined plate and an arc cover;

an inclined plate is obliquely fixed on the top wall of the kettle body towards the left lower side and is positioned below the spiral pipe;

the left side wall of the internal portion of cauldron is fixed with the arc cover, the through-hole has been seted up at the middle part of arc cover, the arc cover is located the below of swash plate.

6. The reaction kettle for producing a sodium acetate solution as set forth in claim 5, characterized in that:

side plates are fixed on the front side and the rear side of the inclined plate.

7. The reaction kettle for producing a sodium acetate solution as set forth in claim 6, characterized in that:

a plurality of bumps are fixed on the upper surface of the inclined plate.

8. The reaction kettle for producing a sodium acetate solution as set forth in claim 1, characterized in that:

the damping support leg, the liquid outlet pipe and the fourth valve are further included;

all be fixed with the shock attenuation landing leg around the cauldron body bottom, the central point of cauldron body bottom puts fixed intercommunication and has the drain pipe, be equipped with the fourth valve on the drain pipe.

9. The reaction kettle for producing a sodium acetate solution as set forth in claim 1, characterized in that:

the inner wall of the kettle body is provided with an enamel layer.

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