CN218452197U - A stirring crystallization reation kettle for cobalt sulfate production - Google Patents

Abstract

The utility model discloses a stirring crystallization reation kettle for cobaltous sulfate production relates to cobaltous sulfate production technical field. The utility model comprises a kettle body and a stirring mechanism, wherein the interior of the kettle body is movably connected with the stirring mechanism; the kettle body comprises heat-conducting plates, spiral water-guiding plates and water holes, the bottoms of the spiral grooves between the heat-conducting plates are fixedly connected with the spiral water-guiding plates, and the water holes are formed in the bottoms of the heat-conducting plates. The utility model discloses a cauldron body and rabbling mechanism have solved the poor and poor problem of drainage effect of cobaltous sulfate production stirring crystallization reation kettle heating effect.

Description

A stirring crystallization reation kettle for cobalt sulfate production

Technical Field

The utility model belongs to the technical field of the cobaltous sulfate production, especially relate to a stirring crystallization reation kettle for cobaltous sulfate production.

Background

Cobalt sulfate, an inorganic compound of the formula CoSO ₄ Is rose red crystalline powder which is mainly used for ceramic glaze and paint drier, also for electroplating, alkaline batteries, producing cobalt-containing pigments and other cobalt products, andcan be used as catalyst, analytical reagent, feed additive, tire adhesive, lithopone additive, etc., and is sealed and partially exhausted. Preventing dust from being released into the workshop air. The operator must be specially trained to strictly comply with the operating regulations. Advocate operating personnel to wear and inhale filtration formula dust mask certainly, wear chemical safety protection glasses, wear rubber acid and alkali-resistance clothes, wear rubber acid and alkali-resistance gloves, avoid producing the dust, be equipped with and leak emergency treatment equipment. When the existing cobalt sulfate is produced, the stirring crystallization in a reaction kettle is needed, but the existing stirring crystallization reaction kettle for producing the cobalt sulfate still has the following disadvantages in actual use:

present cobaltous sulfate production stirring crystallization reation kettle in the use, when stirring the crystallization, need utilize and carry out steam heating in step, but present reation kettle is in the heating process, and its effect of heating heat conduction is relatively poor, and heat loss is great, and the comdenstion water that steam cooling produced can not be fine by discharge, siltation in the shell very easily, and the later stage is clear away more troublesome.

Therefore, the existing stirring crystallization reaction kettle for producing cobalt sulfate cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stirring crystallization reation kettle for cobaltous sulfate production through the cauldron body and rabbling mechanism, has solved the poor problem with the drainage effect of current cobaltous sulfate production stirring crystallization reation kettle heating effect difference.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a stirring crystallization reaction kettle for producing cobalt sulfate, which comprises a kettle body and a stirring mechanism, wherein the interior of the kettle body is movably connected with the stirring mechanism;

the kettle body comprises heat conducting plates, spiral water-guiding plates and water holes, the bottoms of the spiral grooves between the heat conducting plates are fixedly connected with the spiral water-guiding plates, and the bottoms of the heat conducting plates are provided with the water holes; the heat-conducting plate is used for carrying out the transport downwards to the steam spiral, and when carrying, carry out the contact of large tracts of land and carry out quick absorption to heat wherein with steam, with this not only can promote the heat retaining effect of heating greatly, thermal waste has still been avoided, set up in the same direction as water board and water hole through the spiral, not only can carry out the separation between the heat-conducting plate, guarantee the auger delivery of steam, still can carry out spiral decurrent transport and output to the comdenstion water that the heat-conducting plate produced, can avoid the long-pending of water in the shell to stay, avoid the trouble of later stage clearance.

Further, the kettle body also comprises a shell, a steam inlet and a steam outlet, wherein the steam inlet is arranged above the side surface of the shell, and the steam outlet is arranged below the side surface of the shell;

the reaction kettle comprises a kettle body, a reaction kettle main body, a feeding port and a discharging port, wherein the reaction kettle main body is fixedly connected inside the shell, the feeding port is formed in the upper end of the reaction kettle main body, the discharging port is formed in the lower end of the reaction kettle main body, and a heat conducting plate is fixedly connected between the reaction kettle main body and the shell;

a spiral water-guiding plate is fixedly connected to the bottom of the spiral groove between the heat-conducting plates between the reaction kettle main body and the shell, and the water hole penetrates through the reaction kettle main body; the shell is used for carrying on isolation and the protection to steam heating structure, and steam inlet and steam outlet are used for the input and the output of steam, and the reation kettle main part is the main executive structure of reaction, and the discharge gate is the port of material output, and the pan feeding mouth is the interface of reactant input.

Further, the stirring mechanism comprises a driving motor, a driving rod and a stirring blade, a crankshaft of the driving motor is fixedly connected with the driving rod, and the bottom of the driving rod is fixedly connected with the stirring blade;

the driving motor is fixedly connected to the upper end of the reaction kettle main body, and a crankshaft of the driving motor penetrates through the reaction kettle main body and the stirring part She Guding; the driving motor is used for driving the driving rod, so that the stirring blades are driven to mix and stir the reactants, and mixed crystallization of the reactants is promoted.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up the cauldron body and rabbling mechanism, solved the poor problem of current cobaltous sulfate production stirring crystallization reation kettle heating effect, wherein be provided with the heat-conducting plate in the cauldron body, the heat-conducting plate is used for going on carrying out the decurrent transport to the steam spiral to in the transport, carry out the contact of large tracts of land and carry out quick absorption to heat wherein with steam, not only can promote the heat retaining effect of heating with this greatly, still avoided thermal waste.

2. The utility model discloses a set up the cauldron body and rabbling mechanism, solved the poor problem of current cobaltous sulfate production stirring crystallization reation kettle drainage effect, wherein be provided with the spiral in the same direction as water board and water hole in the cauldron body, in the same direction as the setting in water board and water hole through the spiral, not only can carry out the separation between the heat-conducting plate, guarantee the auger delivery of steam, still can carry out spiral decurrent transport and output to the comdenstion water that the heat-conducting plate produced, can avoid the long-pending of water in the shell to stay, avoid the trouble of later stage clearance.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is an exploded view of the kettle of the present invention;

FIG. 4 is a schematic view of the heat-conducting plate and the spiral downstream plate of the present invention;

fig. 5 is a schematic view of the stirring mechanism of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a kettle body; 101. a housing; 102. a steam inlet; 103. a steam outlet; 104. a reaction kettle main body; 105. a feeding port; 106. a heat conducting plate; 107. a spiral water board; 108. a water pore; 109. a discharge port; 2. a stirring mechanism; 201. a drive motor; 202. a drive rod; 203. stirring the leaves.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1-5, the utility model relates to a stirring crystallization reaction kettle for cobalt sulfate production, which comprises a kettle body 1 and a stirring mechanism 2, wherein the interior of the kettle body 1 is movably connected with the stirring mechanism 2;

the kettle body 1 comprises heat conducting plates 106, spiral water-guiding plates 107 and water holes 108, the bottoms of spiral grooves between the heat conducting plates 106 are fixedly connected with the spiral water-guiding plates 107, and the bottoms of the heat conducting plates 106 are provided with the water holes 108;

the heat conducting plate 106 is a heat absorbing and conducting structure, and is fixed between the reaction kettle main body 104 and the shell 101, a spiral air passage is arranged between the heat conducting plate 106, and is used for carrying out downward conveying of a steam spiral, and when the heat conducting plate is conveyed, large-area contact is carried out on the steam and rapid absorption is carried out on heat in the steam, so that the heating and heat preservation effects can be greatly improved, and waste of heat is avoided, the spiral is fixed at the bottom of the spiral air passage between the heat conducting plates 106 along the water plate 107, a water hole 108 is arranged at the lower end of the spiral, the separation between the heat conducting plates 106 can be carried out through the arrangement of the spiral along the water plate 107 and the water hole 108, the spiral conveying of the steam is ensured, the condensed water generated by the heat conducting plates 106 can be conveyed and output in the spiral downward direction, the accumulation of the water in the shell can be avoided, the trouble of later cleaning is avoided, in the mixing process, the steam can enter the heat conducting plates 106 through the steam inlet 102 and can be conveyed downwards according to the path of the heat conducting plates 106, the steam and the cold heat conducting plates 106 can be quickly condensed into water, and fall on the spiral along the water plate 107, and is conveyed to the lower end by the spiral along the water hole 107 and is discharged from the water outlet 108.

As shown in fig. 1-4, the kettle 1 further comprises a casing 101, a steam inlet 102 and a steam outlet 103, wherein the steam inlet 102 is arranged above the side surface of the casing 101, and the steam outlet 103 is arranged below the side surface of the casing 101;

the kettle body 1 further comprises a reaction kettle main body 104, a feeding port 105 and a discharging port 109, the reaction kettle main body 104 is fixedly connected inside the outer shell 101, the feeding port 105 is arranged at the upper end of the reaction kettle main body 104, the discharging port 109 is arranged at the lower end of the reaction kettle main body 104, and a heat conducting plate 106 is fixedly connected between the reaction kettle main body 104 and the outer shell 101;

a spiral water-guiding plate 107 is fixedly connected to the bottom of the spiral groove between the heat-conducting plate 106 between the reaction kettle main body 104 and the outer shell 101, and a water hole 108 penetrates through the reaction kettle main body 104;

the shell 101 is an outermost protective shell, can form a steam heating space with the reaction kettle main body 104, and is used for isolating and protecting a steam heating structure, the steam inlet 102 and the steam outlet 103 are respectively arranged at the upper end and the lower end of the shell 101 and used for inputting and outputting steam, the reaction kettle main body 104 is a main execution structure of reaction, the discharge port 109 is arranged at the bottom of the reaction kettle main body 104 and is a port for outputting materials, and the feeding port 105 is an interface for inputting reactants.

As shown in fig. 1, 2 and 5, the stirring mechanism 2 includes a driving motor 201, a driving rod 202 and a stirring blade 203, a crankshaft of the driving motor 201 is fixedly connected with the driving rod 202, and a bottom of the driving rod 202 is fixedly connected with the stirring blade 203;

the driving motor 201 is fixedly connected to the upper end of the reaction kettle main body 104, and the crankshaft of the driving motor penetrates through the reaction kettle main body 104 and is fixed with the stirring blades 203;

the driving motor 201 is fixed on the upper end of the reaction kettle main body 104 through bolts, and the crankshaft thereof is fixed with the driving rod 202 through bolts and flanges, and is used for driving the driving rod 202, so as to drive the stirring blade 203 to mix and stir the reactants, and promote the mixed crystallization thereof.

One specific application of this embodiment is: when the production of the cobalt sulfate is carried out, firstly, required raw materials are placed into the reaction kettle main body 104 through the feeding port 105, then the device is started, the driving motor 201 is utilized to drive the stirring blades 203, the stirring blades 203 which rotate rapidly can carry out rapid mixing crystallization on reactants, in the mixing process, steam can enter between the heat conduction plates 106 through the steam inlet 102 and is conveyed downwards according to the path of the heat conduction plates 106, the steam and the cold heat conduction plates 106 can be rapidly condensed into water and fall on the spiral water-guiding plates 107, the water is conveyed to the lower end through the spiral water-guiding plates 107, finally, the water is discharged through the water holes 108, and after the reaction, the materials can be discharged through the discharging port 109.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a stirring crystallization reation kettle for cobaltous sulfate production, includes the cauldron body (1) and rabbling mechanism (2), its characterized in that: the inner part of the kettle body (1) is movably connected with the stirring mechanism (2);

the cauldron body (1) includes heat-conducting plate (106), spiral in the same direction as water board (107) and water hole (108), spiral groove bottom fixedly connected with spiral between heat-conducting plate (106) is in the same direction as water board (107), the bottom of heat-conducting plate (106) is provided with water hole (108).

2. The stirring crystallization reaction kettle for producing cobalt sulfate as claimed in claim 1, is characterized in that: the kettle body (1) further comprises a shell (101), a steam inlet (102) and a steam outlet (103), wherein the steam inlet (102) is arranged above the side face of the shell (101), and the steam outlet (103) is arranged below the side face of the shell (101).

3. The stirring crystallization reaction kettle for producing the cobalt sulfate as claimed in claim 2, characterized in that: the cauldron body (1) still includes reation kettle main part (104), pan feeding mouth (105) and discharge gate (109), the inside fixedly connected with reation kettle main part (104) of shell (101), the upper end of reation kettle main part (104) is provided with pan feeding mouth (105), the lower extreme of reation kettle main part (104) is provided with discharge gate (109), fixedly connected with heat-conducting plate (106) between reation kettle main part (104) and shell (101).

4. The stirring crystallization reaction kettle for producing the cobalt sulfate as claimed in claim 3, characterized in that: the bottom of the spiral groove between the heat-conducting plates (106) between the reaction kettle main body (104) and the shell (101) is fixedly connected with a spiral water-guiding plate (107), and the water hole (108) is communicated with the reaction kettle main body (104).

5. The stirring crystallization reaction kettle for producing the cobalt sulfate as claimed in claim 1, characterized in that: the stirring mechanism (2) comprises a driving motor (201), a driving rod (202) and a stirring blade (203), a crankshaft of the driving motor (201) is fixedly connected with the driving rod (202), and the bottom of the driving rod (202) is fixedly connected with the stirring blade (203).

6. The stirring crystallization reaction kettle for producing the cobalt sulfate as claimed in claim 5, characterized in that: the driving motor (201) is fixedly connected to the upper end of the reaction kettle main body (104), and a crankshaft of the driving motor penetrates through the reaction kettle main body (104) and is fixed with the stirring blades (203).

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