A kind of test platform of the Ke Xunhuanliyong degree of green vitriol recycling
Technical field
The utility model relates to test platform technical fields, and in particular to a kind of test of the Ke Xunhuanliyong degree of green vitriol recycling
Platform.
Background technique
Constantly expanding production with the fast development of China's titanium dioxide industry, especially sulfate process titanium dioxide in recent years, by-product
The comprehensive utilization of green vitriol (chemical name is ferrous sulfate heptahydrate) just becomes a current problem to be solved.This is useless secondary comprehensive
What conjunction utilized can turn waste into wealth well, and comprehensive utilization is bad, not only influence production and be normally carried out, a large amount of ferrous sulfate heptahydrate is such as
Where reason will restrict the development of enterprise.And the phenomenon that waste is easy to produce for the experiment porch of green vitriol recycling on the market at present,
People are unable to control the concentration of green vitriol solution, and the rate of recovery is low, are not suitable for promoting the use of.
Utility model content
The purpose of this utility model is that it is in view of the drawbacks of the prior art and insufficient, a kind of recyclable benefit of green vitriol recycling is provided
The utilization rate of green vitriol recycling can be improved in the test platform of expenditure, it reasonable in design, is suitble to promote the use of.
To achieve the above object, the utility model is using following technical scheme: it includes cylinder 1, feed pipe 11, water inlet
Pipe 12, agitating device 13, stirring motor 131, concentration detector 14, temperature sensor 15, outlet tube 16, heating furnace 2, control plane
Feed pipe 11 is arranged in plate 21, sedimentation basin 3, filter 31, discharge nozzle 32, the top of cylinder 1, and the setting of water inlet pipe 12 is left in cylinder 1
The outer wall of upper lateral part, agitating device 13 is arranged inside cylinder 1, and stirring motor 131, Concentration Testing is arranged in the bottom of agitating device 13
The top of temperature sensor 15 is arranged in instrument 14, and the setting of outlet tube 16 is arranged in 1 bottom right outer wall of cylinder, heating furnace 2 in cylinder
Control panel 21 is arranged in the bottom of body 1,2 front side surface of heating furnace, and sedimentation basin 3 is arranged in 2 right positions of heating furnace, sedimentation basin 3
Lower part is fixedly connected with filter 31, and discharge nozzle 32 is arranged in 31 bottom of filter.
The nozzle of the feed pipe 11 is feed inlet 111.
The nozzle of the water inlet pipe 12 is water inlet 121.
The agitating device 13 includes stirring rod 132 and paddle 133, and paddle is welded and fixed in 132 surface of stirring rod
133。
Display screen 211 is arranged in 21 front side surface of control panel, and indicator light 212 is arranged in the lower left corner of display screen 211,
The right positions of display screen 211 are arranged in control button 213.
The nozzle of the discharge nozzle 32 is discharge port 321.
Working principle of the utility model is: the byproduct green vitriol of titanium white is passed through inner barrel by the feed inlet of feed pipe,
It is passed through a certain amount of water again, green vitriol is made to be dissolved in water, obtains certain density solution, while stirring rod and stirring in agitating device
Leaf rotation, keeps the mixing of solution more uniform, and the concentration of solution can be controlled by the concentration detector that inner barrel is arranged,
When concentration reaches a timing, unlatching heating furnace heats solution, and agitating device is also rotating at this time, can be by cylinder
Solution, is passed through outlet tube while hot and passed through inside sedimentation basin, while hot by the heating temperature of the temperature sensor control solution of portion's setting
After polyacrylamide stirring a period of time is added, final solution is obtained by filtration by filter for solution.
After adopting the above technical scheme, the utility model has the beneficial effect that the setting of 1, agitating device can make green vitriol molten
Liquid mixing it is more uniform, reduce can Concentration Testing error, improve the recovery utilization rate of green vitriol;2, the setting of temperature sensor
Can the heating temperature well to inner barrel green vitriol solution control.Generally speaking, its is reasonable in design, can be with
The utilization rate of green vitriol recycling is improved, is suitble to promote the use of.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property
It puts, is also possible to obtain other drawings based on these drawings.
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of agitating device 13 in the utility model;
Fig. 3 is the structural schematic diagram of control panel 21 in the utility model.
Description of symbols: cylinder 1, feed pipe 11, feed inlet 111, water inlet pipe 12, water inlet 121, agitating device 13,
Stirring motor 131, stirring rod 132, paddle 133, concentration detector 14, temperature sensor 15, outlet tube 16, heating furnace 2, control
Panel 21 processed, display screen 211, indicator light 212, control button 213, sedimentation basin 3, filter 31, discharge nozzle 32, discharge port 321.
Specific embodiment
Referring to shown in Fig. 1-Fig. 3, present embodiment the technical solution adopted is that: it by cylinder 1, feed pipe 11, into
Water pipe 12, agitating device 13, stirring motor 131, concentration detector 14, temperature sensor 15, outlet tube 16, heating furnace 2, control
Panel 21, sedimentation basin 3, filter 31, discharge nozzle 32 form, the structure cylindrical of cylinder 1, and the upper face welding of cylinder 1 is solid
Determine feed pipe 11, water inlet pipe 12 is welded and fixed on the upper left-hand outer wall of cylinder 1, the diameter of water inlet pipe 12 is less than feed pipe 11
Agitating device 13 is installed in diameter, the inside of cylinder 1, and the bottom of agitating device 13 is stirring motor 131, the right side inner wall of cylinder 1
Upper fixed installation concentration detector 14 and temperature sensor 15, concentration detector 14 are mounted on the top of temperature sensor 15, cylinder
Outlet tube 16 is welded and fixed in 1 outer right wall of body, and the upper surface of heating furnace 2 is fixedly connected with the lower surface of cylinder 1, heating furnace 2
Front side surface inlays installation control panel 21, and sedimentation basin 3 is arranged in the right side of heating furnace 2, and filter is installed in the bottom of sedimentation basin 3
31, discharge nozzle 32 is welded and fixed in the bottom of filter 31.
The nozzle of the feed pipe 11 is feed inlet 111, and feed inlet 111 and feed pipe 11 are integrally formed setting.
The nozzle of the water inlet pipe 12 is water inlet 121, and water inlet 121 and water inlet pipe 12 are integrally formed setting.
The agitating device 13 is made of stirring rod 132 and paddle 133, the surface weldering of cylindrical stirring rod 132
Connect fixed several paddles 133.
The front side surface of the control panel 21 installs display screen 211, display screen 211 can for liquid crystal display or
It is LED display, a slightly convex indicator light 212 is installed in the lower left corner of display screen 211, and control button 213 is mounted on control
The right positions of panel 21 processed.
The nozzle of the discharge nozzle 32 is discharge port 321, and discharge port 321 and discharge nozzle 32 are integrally formed setting.
Working principle of the utility model is: the byproduct green vitriol of titanium white is passed through inner barrel by the feed inlet of feed pipe,
It is passed through a certain amount of water again, green vitriol is made to be dissolved in water, obtains certain density solution, while stirring rod and stirring in agitating device
Leaf rotation, keeps the mixing of solution more uniform, and the concentration of solution can be controlled by the concentration detector that inner barrel is arranged,
When concentration reaches a timing, unlatching heating furnace heats solution, and agitating device is also rotating at this time, can be by cylinder
Solution, is passed through outlet tube while hot and passed through inside sedimentation basin, while hot by the heating temperature of the temperature sensor control solution of portion's setting
After polyacrylamide stirring a period of time is added, final solution is obtained by filtration by filter for solution.
After adopting the above technical scheme, the utility model has the beneficial effect that the setting of 1, agitating device can make green vitriol molten
Liquid mixing it is more uniform, reduce can Concentration Testing error, improve the recovery utilization rate of green vitriol;2, the setting of temperature sensor
Can the heating temperature well to inner barrel green vitriol solution control.Generally speaking, its is reasonable in design, can be with
The utilization rate of green vitriol recycling is improved, is suitble to promote the use of.
The above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, those of ordinary skill in the art couple
The other modifications or equivalent replacement that the technical solution of the utility model is made, without departing from technical solutions of the utility model
Spirit and scope should all cover in the scope of the claims of the utility model.