Storage equipment of liquid melting promoter and adding system using same
Technical Field
The utility model relates to a storage device of a liquid melting accelerant and a dosing system using the same.
Background
The melting accelerant is a multifunctional high-tech composite chemical material which is developed aiming at energy conservation, consumption reduction and emission reduction of the novel cement rotary kiln system; the main components are chemical materials such as organic polyol amines, hydroxypropyl cellulose ethers, alkaline earth metal mineralizers and the like. The core functions of the method are saving coal consumption, reducing electricity consumption, reducing emission of CO2, SO2 and NOx, and the like, and the novel product can realize the environmental protection concepts of energy conservation, consumption reduction and emission reduction of the raw material grinding and calcining process system through the application of the novel product.
Wherein, the liquid melting accelerant can cause the precipitation and delamination of mixed substances in the liquid melting accelerant due to long-term standing, so that the content uniformity of the liquid melting accelerant is poor, the using effect is affected, and the coal-saving effect is reduced. The tank for storing the liquid melting accelerator is large, and substances in the liquid melting accelerator cannot be quickly and uniformly mixed by a conventional method after precipitation and delamination occur, so that improvement of the conventional storage equipment is needed.
Disclosure of Invention
The utility model provides a storage device of a liquid melting promoter, which is used for solving the technical problems that the liquid storage device of a dosing system in the prior art is difficult to cope with precipitation and layering of the liquid melting promoter in the storage process and is difficult to make substances in the liquid melting promoter quickly homogenized before the dosing system is started.
The utility model provides a storage facilities of liquid melting promoter, includes the jar body of storage liquid melting promoter, locates rabbling mechanism and bubbling structure in the jar body, bubbling structure includes inflation coil, gas tube and coil pipe support, inflation coil is annular or spiral, inflation coil passes through the coil pipe support installs the internal bottom of jar, the gas tube intercommunication inflation coil and stretch out jar body connection aerating device, jar body lower part and pipeline intercommunication, pipeline is connected with the liquid nozzle.
Preferably, a plurality of bubble holes are formed in the inflation coil, and the bubble holes are communicated with the inside of the inflation coil and are uniformly arranged along the extending direction of the pipeline of the inflation coil.
Preferably, the stirring mechanism comprises a stirring motor, a stirring shaft and stirring rods, the stirring motor is arranged at the top of the gas tank, an output shaft of the stirring motor downwards penetrates through the top of the tank body and is coaxially connected with the stirring shaft, at least two stirring rods are arranged in a group, each group of stirring rods are arranged at the same height and uniformly arranged around the circumference of the stirring shaft, the stirring rods are radially arranged, and a plurality of groups of stirring rods are uniformly arranged on the stirring shaft from bottom to top.
Preferably, the top of the tank body is provided with an access hole and an exhaust pipe which are communicated with the outside, the access hole is formed in one side of the top of the tank body, and the stirring motor is arranged in the center of the top of the tank body.
Preferably, the pipeline is also provided with a calibration interface.
The utility model also provides a feeding system, and storage equipment applying the liquid melting accelerant, the feeding system further comprises a corresponding cement production system, and the liquid nozzles are arranged at one or more positions at the front end of raw material processing equipment of the cement production system.
Preferably, the front end of the raw material processing equipment comprises a raw material system plate feeder below each raw material bin and a blanking port thereof, a material mixing conveying belt and a blanking port thereof, raw material mill feeding conveying equipment and a blanking port thereof, any position between the raw material mill feeding conveying equipment and a raw material mill, and any position between the upper part of a grinding disc in the raw material mill and a grinding roller.
Preferably, the front end of the raw material processing equipment comprises a raw material system plate feeder and a blanking port thereof, a material mixing conveying belt and a blanking port thereof, a roller press feeding conveying equipment and a blanking port thereof, and any position between the roller press feeding conveying equipment and a steady flow bin, wherein the steady flow bin and the blanking port thereof, the roller press and the blanking port thereof before entering the roller press.
Preferably, the front end of the raw material processing equipment comprises a discharge hole of a raw material storage yard, any position on a storage yard conveyor belt and a feed hole of a raw material storage yard bin.
The utility model has the following advantages:
1. the device inside bottom has increased bubbling structure and rabbling mechanism, can make the product intensive mixing through continuously aerifing, combines the rabbling mechanism to use and can make the material in the product in use guarantee that the material mixes evenly, and liquid melting promoter is more stable, and the effect performance is better, and the device uses the industrial air supply, reaches economy, practical function. And after the liquid in the tank body is kept stand for a period of time, the liquid mixture which can generate layering can be fully mixed in a short time under the combined action of bubbling and stirring, so that the requirement of homogenization of substances is met.
2. The device has increased the demarcation interface, can realize the periodic calibration flow, has solved long-term use process flow deviation scheduling problem, can keep the stability that the product was thrown and add, is favorable to the stable and stable effect of process of mill's product use.
Drawings
FIG. 1 is a schematic diagram of a liquid melting promoter storage device according to the present utility model.
Fig. 2 is a schematic view of the structure of the inside of the tank in the structure shown in fig. 1.
Fig. 3 is a schematic view showing the structure of the front end of a raw material processing apparatus to which the raw material grinding system of the present utility model is applied.
Fig. 4 is a schematic view of the structure of the front end of the raw material processing apparatus to which the roll press system of the present utility model is applied.
FIG. 5 is a schematic diagram of the structure from a stock yard to a standard bin in a vertical mill system embodying the present utility model.
The marks in the drawings are: 1. tank body, 2, conveying pipeline, 3, liquid nozzle, 4, calibration interface, 5, manhole, 6, agitator motor, 7, blast pipe, 8, stirring shaft, 9, puddler, 10, inflation coil, 11, coil air hole, 12, air pipe, 13, raw material bin, 14, raw material system plate feeder, 15, material mixing conveyor belt, 16, raw material mill, 17, elevator, 18, raw material mill feed conveying equipment, 19, steady flow bin, 20, roller press, 21, roller press feed conveying equipment, 22, stock yard raw material bin, 23, stock yard conveyor belt, 24, raw material yard.
Detailed Description
The following detailed description of the embodiments of the utility model, given by way of example only, is presented in the accompanying drawings to aid in a more complete, accurate, and thorough understanding of the inventive concepts and aspects of the utility model by those skilled in the art.
As shown in fig. 1-5, the utility model provides a storage device for a liquid melting accelerator, which comprises a tank body 1 for storing the liquid melting accelerator, a stirring mechanism and a bubbling structure, wherein the stirring mechanism and the bubbling structure are arranged in the tank body 1, the bubbling structure comprises an inflation coil 10, an inflation tube 12 and a coil support, the inflation coil 10 is annular or spiral, the inflation coil 10 is arranged at the bottom in the tank body 1 through the coil support, the inflation tube 12 is communicated with the inflation coil 10 and extends out of the tank body 1 to be connected with an inflation device, the lower part of the tank body 1 is communicated with a conveying pipeline 2, and the conveying pipeline 2 is connected with a liquid nozzle 3. The liquid melting promoter is stored in the tank 1, and is stirred by a stirring mechanism in normal use, and is aerated and bubbled from the bottom by the aeration coil 10, and the bubbling device can perform a mixing function, in particular, can convey and mix substances near the bottom upwards by gas bubbling. Therefore, the defect that the conventional rotation stirring of the stirring mechanism can not enable substances layered up and down in the melting accelerator to be mixed rapidly due to the large volume of the tank body 1 can be overcome by the scheme.
The upper surface of the inflation coil pipe 10 is provided with a plurality of bubble holes, and the bubble holes are communicated with the inside of the inflation coil pipe 10 and are uniformly arranged along the extending direction of the pipeline of the inflation coil pipe 10. The bubbling effect is good, and the longer the extension length of the inflation coil 10 is, the more the bubbling holes are, and the mixing effect of inflation and bubbling can be improved by increasing the number of the bubbling holes on the premise of uniform arrangement.
The stirring mechanism comprises a stirring motor 6, a stirring shaft 8 and stirring rods 9, the stirring motor 6 is arranged at the top of the gas tank, an output shaft of the stirring motor 6 downwards penetrates through the top of the tank body 1 and is coaxially connected with the stirring shaft 8, at least two stirring rods 9 are arranged in a group, each group of stirring rods 9 are arranged at the same height and uniformly arranged around the circumference of the stirring shaft 8, the stirring rods 9 are radially arranged, and a plurality of groups of stirring rods 9 are uniformly arranged on the stirring shaft 8 from bottom to top. The stirring rods 9 are provided with a plurality of groups, and the projection positions of the stirring rods 9 of two adjacent groups on the bottom of the tank body 1 are not overlapped.
The top of the tank body 1 is provided with an access hole and an exhaust pipe 7 which are communicated with the outside, the access hole is arranged on one side of the top of the tank body 1, and the exhaust pipe 7 is used for discharging excessive gas filled by the inflation coil 10. The pipeline is also provided with the calibration interface 4, the calibration interface 4 can realize regular flow calibration, solves the problems of flow deviation and the like in the long-term use process, can keep the stability of product addition, and is beneficial to the process stability and effect stability in the use process of factory products.
When the storage device is used, the stirring motor 6 and the bubbling structure are started firstly, the rotation shaft is driven to rotate by electrifying, and meanwhile, the bottom bubbling effect generated by aeration is beneficial to the full tumbling and mixing of the gas melting promoter in the tank body 1 for a period of time. The melting accelerator may then be added to the cement manufacturing system at a suitable location after mixing for a period of time to facilitate subsequent cement processing.
The utility model also provides a feeding system applying the storage equipment. The feeding system not only comprises the storage equipment, but also comprises a corresponding cement production system, and the liquid nozzle 3 is arranged at one or more positions at the front end of raw material processing equipment of the cement production system.
The raw material processing equipment is a raw material mill 16, and the front end of the raw material processing equipment comprises various positions from each raw material bin 13 to the raw material mill 16. Taking a vertical mill system for processing raw materials such as limestone by a raw material mill 16 of a vertical mill structure as an example: the vertical mill system comprises a raw material bin 13 for respectively storing sulfuric acid residues, clay, standby clay and raw materials, a corresponding raw material system plate feeder 14 is arranged below the raw material bin 13, each raw material system plate feeder 14 conveys materials to a material mixing conveying belt 15, the mixed materials are conveyed to a raw material mill feeding conveying device 18 by the material mixing conveying belt 15, the materials are conveyed to a raw material mill 16 by the material mixing conveying belt 15, redundant materials are conveyed to a lifting machine 17 after being split in the process, and the materials are lifted by the lifting machine 17 and conveyed to the raw material mill feeding conveying device 18 again.
In the vertical mill system, the front end of the raw material processing device specifically comprises a raw material system plate feeder 14 and a blanking port thereof, a material mixing conveying belt 15 and a blanking port thereof, a raw material mill feeding conveying device 18 and a blanking port thereof, any position between the raw material mill feeding conveying device 18 and the raw material mill 16, and any position between the upper part of a millstone in the raw material mill 16 and a milling roller.
The raw material processing equipment is a roller press 20, and the front end of the raw material processing equipment comprises various positions from each raw material bin 13 to the roller press 20. Taking a roll squeezer system in which a roll squeezer 20 handles raw materials such as raw materials as an example: the roller press system comprises a raw material bin 13 for respectively storing a first-line mixed material, raw materials, iron powder and a second-line mixed material, a corresponding raw material system plate feeder 14 is arranged below the raw material bin 13, the raw material system plate feeders 14 corresponding to the first-line mixed material, limestone and iron powder respectively convey the materials to a material mixing conveying belt 15, the material mixing conveying belt 15 conveys the mixed materials and the materials output by the raw material system plate feeders 14 corresponding to the second-line mixed material to a roller press feeding conveying device 21, and the materials are conveyed to a steady flow bin 19 above a roller press 20 together through a V-shaped powder selector and a high-efficiency powder selector and then are conveyed into the roller press 20. If the material processed by the roller press 20 needs to be circularly processed, the material output by the roller press 20 is added into the material output by the roller press feeding and conveying equipment 21 again through another lifter, and the material returns to the roller press 20 for circularly processing.
In the roller press system, the front end of the raw material processing equipment specifically comprises a raw material system plate feeder 14 and a blanking port thereof, a material mixing conveying belt 15 and a blanking port thereof, a roller press feeding conveying equipment 21 and a blanking port thereof, and a steady flow bin 19 and a blanking port thereof before entering a roller press 20, and a roller press 20 and a blanking port thereof at any position (comprising a V-shaped powder concentrator and a high-efficiency powder concentrator) between the roller press feeding conveying equipment 21 and the steady flow bin 19.
The raw materials of the raw material processing system generally originate from a raw material adding system of a raw material storage yard 24, and the front end of the raw material processing equipment further comprises the raw material storage yard 24, a storage yard conveying belt 23 and a storage yard raw material bin 22, and the storage yard conveying belt 23 conveys raw materials output by the raw material storage yard 24 to the storage yard raw material bin 22. The front end of the raw material processing equipment further comprises any position from the raw material storage yard 24 to the storage yard raw material bin 22, and specifically comprises a discharge hole of the raw material storage yard 24, any position on the storage yard conveyor belt 23 and a feed hole of the storage yard raw material bin 22.
While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the utility model is not limited to the above embodiments, but is capable of being modified or applied to other applications without modification, as long as various insubstantial modifications of the inventive concept and technical solutions are adopted, all within the scope of the utility model.