A kind of fragrant cyano resin agitator treating reactor
Technical field
The utility model belongs to a kind of washing reaction still, is specifically related to a kind of fragrant cyano resin agitator treating reactor.
Background technology
The washing technology of existing fragrant itrile group Special Resin: use anchor formula stirred tank, water is added in washing kettle, then add cyano resin and carry out agitator treating, by centrifugal removing water-solubility impurity, repeated washing 5-6 all over after obtain qualified products.
Add in washing kettle after the washing facility that the washing of virtue itrile group Special Resin adopts needs each slurry to measure, complicated operation, wayward; Not easily observe the washing in washing kettle and blowing situation, increase operation and control difficulty.
And its circular sight glass of visual reactor of routine is located at reactor top, position is too high, range of observation is too little, the upper surface situation of material in still can only be seen, not easily observe the material washing in still and blowing situation, as situations such as color, viscosity, granular sizes, be difficult to carry out corresponding technique adjustment according to material situation in still; Each washing adds water after Shi Junxu weighs and adds in still again, and obviously increase workload and operation easier, production efficiency is lower, and clean result is not ideal enough, is difficult to ensure product quality.
Summary of the invention
The utility model discloses a kind of fragrant cyano resin agitator treating reactor according to the deficiencies in the prior art.Problem to be solved in the utility model is to provide one conveniently can monitor reinforced and reactant state, and intensity adapts to the agitator treating reactor that cyclic washing requires.
The utility model is achieved through the following technical solutions:
Virtue cyano resin agitator treating reactor, comprises kettle, motor drives and be arranged in the agitator of kettle, material inlet and material outlet, it is characterized in that: material inlet is arranged at kettle upper end, and material outlet is arranged at autoclave body bottom; In the middle part of kettle wall, be provided with the first visor, kettle bottom is provided with the second visor.
Described first visor is can the string configuration made of perspective material be vertically arranged in the middle part of kettle wall, perspective material can be provided with metering scale.
Described first visor length covers kettle height more than 1/2nd.
Described second visor is can the rectangular configuration made of perspective material being arranged on bottom kettle wall.
Described first visor and the second visor in the vertical direction shift to install.
The utility model helpfulness: the utility model arranges strip visor on washing kettle, accurately can control amount of water according to the weight scale on the first visor, simple and quick; Two strip visors obviously expand visor range of observation, material washing and blowing situation in more three-dimensional more fully observation still, the change such as color, viscosity, granular size of energy clear view material, corresponding technique adjustment can be carried out according to these changes in actual production, material when desirable clean result can prevent again blowing can be reached and remain.Use this kind of washing kettle can obviously reduce washing kettle operation easier, reduce water consumption and wastewater flow rate, reduce wastewater treatment pressure, enhance productivity, reduce costs, ensure constant product quality.Adopt, at middle part and bottom, visor is set respectively, also ensure that reactor intensity, ensure the visual condition in reactor to greatest extent.
Accompanying drawing explanation
Fig. 1 is the utility model reactor structural representation.
In figure, 1 is kettle, and 2 is agitators, and 3 is first visors, and 4 is second visors, and 5 is material inlets, and 6 is material outlets.
Detailed description of the invention
Below by embodiment, the utility model is specifically described; embodiment is only for being further detailed the utility model; can not be interpreted as the restriction to the utility model protection domain, some nonessential improvement that those skilled in the art makes according to above-mentioned content of the present utility model and adjustment also belong to the scope of the utility model protection.
Composition graphs 1.
Virtue cyano resin agitator treating reactor, comprise kettle 1, motor drives and be arranged in the agitator 2 of kettle 1, material inlet 5 and material outlet 6, material inlet 5 is arranged at kettle 1 upper end, and material outlet 6 is arranged at bottom kettle 1; In the middle part of kettle 1 wall, be provided with the first visor 3, kettle 1 bottom is provided with the second visor 4.
First visor 3 is can the string configuration made of perspective material be vertically arranged in the middle part of kettle 1 wall, perspective material can be provided with metering scale.First visor 3 length covers kettle 1 height more than 1/2nd.Usual first visor 3 length is 100-110cm.
Second visor 4 is can the rectangular configuration made of perspective material being arranged on bottom kettle 1 wall.Usual second visor 4 length is 20-30cm.
First visor 3 and the second visor 4 in the vertical direction shift to install.
The utility model arranges strip visor first visor 3 that 1 has corresponding weight scale in the middle part of washing kettle kettle 1, the water yield is added according to weight scale, amount of water more easy to control, expand visor range of observation, 1 rectangle visor second visor 4 is set in washing kettle kettle bottom, be convenient to observe discharging situation, reduce washing operation difficulty, improve clean result and production efficiency, reduce costs, ensure constant product quality.
Second visor 4 and first visor 3 of bottom can be separately positioned in the different axial line of reactor, and namely the first visor 3 and the second visor 4 in the vertical direction shift to install, and the second visor 4 and the first visor 3 being shifted to install to increase reactor intensity.In Fig. 1, the second visor 4 and the first visor 3 are arranged in same axial line.