CN207576331U - A kind of non-metallic mineral resource comprehensively utilizes raw material prehomogenization process units - Google Patents
A kind of non-metallic mineral resource comprehensively utilizes raw material prehomogenization process units Download PDFInfo
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- CN207576331U CN207576331U CN201721683927.5U CN201721683927U CN207576331U CN 207576331 U CN207576331 U CN 207576331U CN 201721683927 U CN201721683927 U CN 201721683927U CN 207576331 U CN207576331 U CN 207576331U
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- feeder
- babinet
- raw material
- process units
- solenoid valve
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Abstract
The utility model discloses a kind of non-metallic mineral resources to comprehensively utilize raw material prehomogenization process units, belong to calcium carbonate production technical field, non-metallic mineral resource comprehensive utilization raw material prehomogenization process units includes motor, blender, babinet, the first feeder, the second feeder, primary heater, secondary heater, permeability cell and controller.Non-metallic mineral resource comprehensive utilization raw material prehomogenization process units can realize material desiccant dehumidification effect disclosed in the utility model, additionally it is possible to the appearance in babinet be avoided to stir dead angle, material is sufficiently stirred, accelerates pre- homogenization efficiency.
Description
Technical field
The utility model is related to calcium carbonate production technical fields, and in particular to a kind of non-metallic mineral resource comprehensively utilizes raw material
Pre- homogenizing process units.
Background technology
In mineral powder production process, existing technique is:Ore is successively by broken, storage, grinding, packaging production work
Sequence, and ore is in shattering process, generally use ball milling, jaw crusher or hammer crusher, but whether which is
Grain graininess after kind crusher in crushing, it is all different, and also chemical component fluctuation is big, therefore the ore raw materials after storage
When entering powder-grinding process, the size of grain graininess can not ensure in a section, and ore raw materials is enters at random
In milling equipment, therefore for the production technology of same parameters, milling equipment grinds the powder needs come and is homogenized processing,
And being homogenized before processing needs just homo-effect can be made to reach best by pretreatment.
In existing pre- homogenizing process units, since calcium carbonate also contains many moisture when ore extractions come out,
After break process, the ore with moisture is easily sticked together, and is reduced so as to cause homo-effect;And it generally uses
The babinet of cylinder carries out pre- homogenizing processing by stirring, but the vane edge due to blender also has one with cabinet wall
Distance is held, stirring dead angle occurs, the material at wall box edge is caused to be difficult to stir, so as to make the reduction of its homo-effect.
Utility model content
It is the defects of in order to overcome the prior art, a kind of nonmetallic the technical problem to be solved by the utility model is to propose
Ore resources comprehensively utilize raw material prehomogenization process units, desiccant dehumidification effect can be realized to material, additionally it is possible to avoid babinet
Interior appearance stirring dead angle, is sufficiently stirred material, accelerates pre- homogenization efficiency.
For this purpose, the utility model uses following technical scheme:
The utility model provides a kind of non-metallic mineral resource comprehensive utilization raw material prehomogenization process units, including motor,
Blender and babinet, motor are fixed on top of the box, and blender is arranged on box house, and blender passes through shaft and motor phase
Even, the first feeder, the second feeder, primary heater, secondary heater, permeability cell and controller are further included, described the
One feeder and the second feeder are arranged on above babinet, on first feeder, the second feeder and babinet be
Small horn-like structure under big, the blender are equipped with layer impeller, and the layer impeller is set respectively close to cabinet wall, institute
The first feeder to be stated by the first charge pipe with babinet to connect, second feeder is connected by the second charge pipe with babinet,
The first charge pipe outlet is arranged on above layer impeller left end, and the second charge pipe outlet is arranged on layer impeller right end
Top, the primary heater are arranged on the first feeder both sides, and the secondary heater is arranged on the second feeder both sides, institute
State permeability cell and be arranged on top of the box, the controller is arranged on the outside of babinet, the primary heater, secondary heater and
Motor is connect with controller circuitry.
In the utility model preferably technical solution, the bottom of box sets the first blowpit and the second discharging
Slot, the first discharging solenoid valve of the first blowpit setting, the second discharging solenoid valve of the second blowpit setting, described first
Discharging solenoid valve and the second discharging solenoid valve are connect with the controller circuitry, and material can be led to different places,
Facilitate the material after the pre- homogenizing of transfer.
In the utility model preferably technical solution, first feeder and the first charge pipe joint setting first
Solenoid valve, first solenoid valve are connect with controller circuitry, are controlled by controller and are opened the first solenoid valve, and control first adds
The charging rate of glassware.
In the utility model preferably technical solution, second feeder and the second charge pipe junction setting second
Solenoid valve, the second solenoid valve are connect with controller circuitry, are controlled by controller and are opened second solenoid valve, and control second adds
The charging rate of glassware.
In the utility model preferably technical solution, the body side sets tempered glass observation window, can pass through
Tempered glass observation window observes material in babinet and is homogenized disposition in advance in real time.
In the utility model preferably technical solution, set temperature inductor on the box inside wall, the temperature
Inductor is connect with controller circuitry, real-time detection case body temperature, to prevent the excessively high damage babinet of temperature and blender.
In the utility model preferably technical solution, the permeability cell outer end sets air exhauster, the air exhauster and institute
Controller circuitry connection is stated, can realize the vapor for accelerating to remove babinet, improves dehumidification efficiency.
The beneficial effects of the utility model are:
Non-metallic mineral resource provided by the utility model comprehensively utilizes raw material prehomogenization process units, is added by setting first
Glassware, the second feeder, primary heater and secondary heater carry out heating and dehumidification, to material to the material for entering babinet
Processing is dried;By setting the blender of layer impeller in horn-like babinet, avoid occurring stirring dead angle in babinet, carry
High pre- homo-effect;By setting permeability cell, the vapor that the material that band has surplus heat is evaporated in stirring is discharged out of babinet.
Description of the drawings
Fig. 1 is the non-metallic mineral resource comprehensive utilization raw material prehomogenization process units that the utility model specific embodiment provides
Structure diagram;
Fig. 2 is the non-metallic mineral resource comprehensive utilization raw material prehomogenization process units that the utility model specific embodiment provides
The controller architecture schematic diagram of bottom.
In figure:
1st, motor;2nd, blender;21st, layer impeller;3rd, babinet;31st, tempered glass observation window;32nd, temperature inductor;4、
First feeder;41st, primary heater;42nd, the first charge pipe;43rd, the first solenoid valve;5th, the second feeder;51st, the second heating
Device;52nd, the second charge pipe;53rd, second solenoid valve;6th, permeability cell;61st, air exhauster;7th, controller;8th, the first blowpit;81st,
One discharging solenoid valve;9th, the second blowpit;91st, the second discharging solenoid valve.
Specific embodiment
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.
As shown in Figure 1 and Figure 2, a kind of non-metallic mineral resource comprehensive utilization raw material prehomogenization production is provided in embodiment
Device,
It is heated including motor 1, blender 2, babinet 3, the first feeder 4, the second feeder 5, primary heater 41, second
Device 51, permeability cell 6 and controller 7;
Motor 1 is fixed on 3 top of babinet, and blender 2 is arranged on inside babinet 3, and blender 2 passes through shaft and 1 phase of motor
Even, the first feeder 4 and the second feeder 5 are arranged on 3 top of babinet, the first feeder 4, the second feeder 5 and babinet 3
It is up big and down small horn-like structure, blender 2 is equipped with layer impeller 21, and layer impeller 21 is set respectively close to 3 inner wall of babinet
It puts, the first feeder 4 is connected by the first charge pipe 42 with babinet 3, and the second feeder 5 passes through the second charge pipe 52 and babinet 3
Connect, the outlet of the first charge pipe 42 is arranged on above 21 left end of layer impeller, and the outlet of the second charge pipe 52 is arranged on layer impeller
Above 21 right ends, primary heater 41 is arranged on 4 both sides of the first feeder, and secondary heater 51 is arranged on 5 liang of the second feeder
Side, permeability cell 6 are arranged on the top of babinet 3, and controller 7 is arranged on 3 outside of babinet, primary heater 41, secondary heater 51 with
And motor 1 is connect with 7 circuit of controller;
3 bottom of babinet sets the first blowpit 8 and the second blowpit 9, and the first blowpit 8 sets the first discharging solenoid valve
81, the second blowpit 9 sets the second discharging solenoid valve 91, the first discharging solenoid valve 81 and the second discharging solenoid valve 91 with control
Material, can be led to different places by 7 circuit of device connection processed, facilitate the material after the pre- homogenizing of transfer;
First feeder 4 and 42 joint of the first charge pipe set the first solenoid valve 43, the first solenoid valve 43 and controller 7
Circuit connects, and is controlled by controller 7 and opens the first solenoid valve 43, controls the charging rate of the first feeder 4;
Second feeder 5 and 52 junction of the second charge pipe setting second solenoid valve 53, second solenoid valve 53 and controller 7
Circuit connects, and is controlled by controller 7 and opens second solenoid valve 53, controls the charging rate of the second feeder 5;
3 side of babinet setting tempered glass observation window 31, can be by tempered glass observation window 31 in real time observation babinet 3
Material is homogenized disposition in advance;
Set temperature inductor 32 on 3 madial wall of babinet, temperature inductor 32 are connect with 7 circuit of controller, are detected in real time
Temperature in babinet 3, to prevent the excessively high damage babinet 3 of temperature and blender 2;
6 outer end of permeability cell sets air exhauster 61, and air exhauster 61 is connect with 7 circuit of controller, can realize that acceleration removes case
The vapor of body 3 improves dehumidification efficiency;
By setting the first feeder 4, the second feeder 5, primary heater 41 and secondary heater 51, into cartonning
The material of body 3 carries out heating and dehumidification, material is dried processing;Pass through the setting layer impeller 21 in horn-like babinet 3
Blender 2 avoids occurring stirring dead angle in babinet 3, improves pre- homo-effect;By setting permeability cell 6, object that band is had surplus heat
The vapor for expecting to evaporate in stirring is discharged out of babinet 3.
Different material is separately added into the first feeder 4 and the second feeder 5, controller 7 starts primary heater
41 and secondary heater 51 material is heated respectively, then open second solenoid valve 53 and second solenoid valve
53, it feeds, while start motor 1 and air exhauster 61 toward babinet 3, layer impeller 21 is stirred material pre- homogenizing processing,
The vapor to volatilize in material is discharged by permeability cell 6 and air exhauster 61, and temperature inductor 32 detects temperature in babinet 3 in real time
Degree, staff can be observed material in babinet 3 by observation window and be homogenized disposition in advance, after being disposed, opened first and unload
Expect 81 or second discharging solenoid valve 91 of solenoid valve, make material discharging from the first blowpit 8 or the second blowpit 9.
The utility model is described with reference to the preferred embodiments, and those skilled in the art know, is not departing from this reality
In the case of with novel spirit and scope, various changes or equivalence replacement can be carried out to these features and embodiment.This reality
It is not limited to the particular embodiment disclosed with novel, other embodiments fallen into claims hereof all belong to
In the range of the utility model protection.
Claims (7)
1. a kind of non-metallic mineral resource comprehensively utilizes raw material prehomogenization process units, including motor, blender and babinet, motor
Top of the box is fixed on, blender is arranged on box house, and blender is connected by shaft with motor, it is characterised in that:
Further include the first feeder, the second feeder, primary heater, secondary heater, permeability cell and controller, described
One feeder and the second feeder are arranged on above babinet, on first feeder, the second feeder and babinet be
Small horn-like structure under big, the blender are equipped with layer impeller, and the layer impeller is set respectively close to cabinet wall, institute
The first feeder to be stated by the first charge pipe with babinet to connect, second feeder is connected by the second charge pipe with babinet,
The first charge pipe outlet is arranged on above layer impeller left end, and the second charge pipe outlet is arranged on layer impeller right end
Top, the primary heater are arranged on the first feeder both sides, and the secondary heater is arranged on the second feeder both sides, institute
State permeability cell and be arranged on top of the box, the controller is arranged on the outside of babinet, the primary heater, secondary heater and
Motor is connect with controller circuitry.
2. non-metallic mineral resource according to claim 1 comprehensively utilizes raw material prehomogenization process units, it is characterised in that:
The bottom of box sets the first blowpit and the second blowpit, and first blowpit sets the first discharging electromagnetism
Valve, second blowpit set the second discharging solenoid valve, the first discharging solenoid valve and the second discharging solenoid valve with
The controller circuitry connection.
3. non-metallic mineral resource according to claim 1 comprehensively utilizes raw material prehomogenization process units, it is characterised in that:
First feeder and the first charge pipe joint set the first solenoid valve, first solenoid valve and controller circuitry
Connection.
4. non-metallic mineral resource according to claim 1 comprehensively utilizes raw material prehomogenization process units, it is characterised in that:
Second feeder and the second charge pipe junction setting second solenoid valve, the second solenoid valve and controller circuitry
Connection.
5. non-metallic mineral resource according to claim 1 comprehensively utilizes raw material prehomogenization process units, it is characterised in that:
The body side sets tempered glass observation window.
6. non-metallic mineral resource according to claim 1 comprehensively utilizes raw material prehomogenization process units, it is characterised in that:
Set temperature inductor on the box inside wall, the temperature inductor are connect with controller circuitry.
7. non-metallic mineral resource according to claim 1 comprehensively utilizes raw material prehomogenization process units, it is characterised in that:
The permeability cell outer end sets air exhauster, and the air exhauster is connect with the controller circuitry.
Priority Applications (1)
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CN201721683927.5U CN207576331U (en) | 2017-12-06 | 2017-12-06 | A kind of non-metallic mineral resource comprehensively utilizes raw material prehomogenization process units |
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CN201721683927.5U CN207576331U (en) | 2017-12-06 | 2017-12-06 | A kind of non-metallic mineral resource comprehensively utilizes raw material prehomogenization process units |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112354430A (en) * | 2020-11-09 | 2021-02-12 | 江西省永固新能源炭黑有限公司 | Potassium carbonate preparation tank in high-pigment carbon black production process |
-
2017
- 2017-12-06 CN CN201721683927.5U patent/CN207576331U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112354430A (en) * | 2020-11-09 | 2021-02-12 | 江西省永固新能源炭黑有限公司 | Potassium carbonate preparation tank in high-pigment carbon black production process |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180706 Termination date: 20181206 |