CN216174256U - Mobile skid-mounted intelligent dry coal dressing system - Google Patents

Abstract

The utility model provides a mobile skid-mounted intelligent dry coal dressing system which comprises a modular sorting module and an intelligent control system, wherein the modular sorting module and the intelligent control system are matched for realizing the matching of a serialized sorting combination and matching combination aiming at raw coal; the modular sorting module specifically comprises a transporting module, a crushing module, a sorting module, a purifying module and an air supply module, wherein the transporting module, the crushing module, the sorting module, the purifying module and the air supply module all adopt closed independent operation. The mobile skid-mounted intelligent dry coal dressing system is suitable for mining strip mines, reduces environmental pollution, improves transportation capacity, improves grading efficiency, reduces energy consumption, has controllable grading granularity and good sorting effect, and meets the feeding granularity of the strip mines.

Description

Mobile skid-mounted intelligent dry coal dressing system

Technical Field

The utility model belongs to the field of dry coal separation, particularly relates to a mobile skid-mounted intelligent dry coal separation system, and particularly relates to a full-particle-level low-quality coal-based dry combined separation system.

Background

Coal is a solid combustible mineral formed gradually by ancient plants buried underground and undergoing complex biochemical and physicochemical changes. Coal is known as black gold by people and is industrial food, which is one of main energy sources used in the human world since the eighteenth century, and since the twenty-first century, although the value of coal is not as high as before, coal is one of indispensable energy sources for production and life of human beings at present and in a long time in the future after all, the supply of coal is also related to the stability of the development of the industry of China and the aspect of the whole society, and the problem of the supply safety of coal is also the most important part in the energy safety of China.

Coal separation mainly comprises two directions of water washing and dry separation, the water washing basically adopts the processes of jigging, dense medium, flotation and the like, and the method has the advantages of mature process, high separation precision and high processing capacity. The disadvantages are large construction investment, long period,High production cost, large water resource consumption and waste, and the water consumption of washing 1 ton of raw coal is about 0.1m³In addition, low quality by-products such as coal slurry are also produced. The dry separation is a coal separation method which exists and develops slowly in the last two decades, has the advantages of no water, simple process, less investment and low production cost, and the main representative process is a wind power dry coal separation process. From the coal distribution region, the west accounts for 80.4% of the country, the middle accounts for 15.2% of the country, and the east accounts for 4.4% of the country. The western part is the main distribution area of the coal in China and is just the dry and little water area, so compared with water washing, dry separation has wider requirements and prospects, and large-area popularization is achieved in China and all over the world in a very short period. The water content, ash content and sulfur content of coal are important factors influencing the quality of coal. To improve the quality of coal, the coal must be dewatered and sorted. With the development of coal upgrading technology, coal drying and dry separation processes are widely applied in the coal upgrading technology, and remarkable success is achieved.

At present, domestic dry coal separation equipment has single function and limited effective separation granularity, and only has certain separation effect on the rough separation of full-size-fraction raw coal or on a certain specific-size-fraction raw coal. In addition, the traditional wind-force dry coal separation method (such as wind jigging, wind shaking tables and the like) takes air as a separation medium, the difference between the separation density and the medium density is over 1000 times, the separation efficiency is low, and the applicability is poor; the lower sorting limit of equipment such as X-ray equipment, image identification equipment and the like which are developed recently and rely on photoelectric technology to identify different components in coal is high, and the equipment is mainly suitable for discharging gangue from large coal blocks; the sorting equipment for the vibration external force and the authigenic medium is mainly used for discharging gangue from medium and fine-grained coal, and the sorting precision is relatively low; the magnetite powder and the coal powder are used as mixed binary heavy medium coal separation equipment, the separation density can be flexibly adjusted, the separation precision is high, and the fine coal is difficult to effectively separate; the coal dressing equipment depending on external force fields such as a magnetic field, an electric field, a vibration field and the like can realize effective dressing of fine coal, but the treatment capacity is low and the added value of products is small. In addition, due to the self limitation of each dry coal separation device, under the separation process designed based on the device, the problems of few separated products, poor quality of clean coal, low utilization rate of media, zero emission of dust, large influence of moisture on feeding and the like exist, so that the dry separation and quality improvement degree and high-efficiency utilization of coal resources are limited.

Chinese patent application No. CN201811086591.3 discloses a coal dry separation system and process, which comprises a raw coal preparation and drying part, a separation part, and a medium purification cycle part; the medium purification circulating part adopted by the separation part comprises a medium removing sieve I, a medium removing sieve II, a flow divider I, a flow divider II, a circulating medium bin, a medium feeder I, a flow dividing medium buffer bin, a medium feeder II, a medium magnetic separator, a magnetic concentrate flow divider, a magnetic concentrate bin, a medium feeder III, a circulating medium buffer bin, a medium feeder IV, a magnetic concentrate buffer bin, a magnetic concentrate feeder, a medium removing sieve III, a medium removing sieve IV and the like, and adopts a dry-method dense medium fluidized bed separator and a pulse/vibration dense medium fluidized bed separator which are connected with a dust discharge port. The method has the problems of not fine coverage of the sorting grade, numerous components, non-uniform coordination, high failure rate and the like.

In addition, impurities affecting coal quality such as gangue and clods are inevitably mixed into raw coal in the mining process, poor-quality coal such as gangue layer surface coal and broken belts exists in strip mining, and furthermore, the strip mining has the dilemma that strip mining fields change frequently and permanent coal washhouses cannot be built.

Therefore, in order to be suitable for various coal types separation, particularly for mining of strip mines, deep dry separation research on inferior coals such as gangue inclusion layer surface coal and broken belts must be enhanced, a size fraction separation process is perfected, and equipment function combination is optimized so as to realize efficient dry separation and clean utilization of the coals.

SUMMERY OF THE UTILITY MODEL

Based on the problems in the prior art, the utility model provides a mobile skid-mounted intelligent dry coal separation system, which not only realizes numerous components, coordination and unification, reduces the failure rate, improves the coal separation throughput, but also realizes the intelligent separation of strip mines.

According to the technical scheme, the utility model provides a mobile skid-mounted intelligent dry coal separation system which comprises a modular separation module and an intelligent control system which are matched, wherein the modular separation module and the intelligent control system are matched in a serial separation combination mode aiming at raw coal; the modular sorting module specifically comprises a conveying module, a crushing module, a sorting module, a purifying module and an air supply module, wherein the conveying module, the crushing module, the sorting module, the purifying module and the air supply module all adopt closed independent operation; the mobile skid-mounted intelligent dry coal separation system comprises a raw coal crushing scraper conveyor, a belt conveyor, a classifying screen, a slack coal belt conveyor, a skid-mounted dry separator, a slack clean coal scraper conveyor, a slack middling scraper conveyor, a slack gangue scraper conveyor, an air blower, a bag-type dust collector, an induced draft fan, a lump coal belt conveyor, an IDS dry separator, a lump clean coal belt conveyor and a lump gangue belt conveyor.

The whole mobile skid-mounted intelligent dry coal separation system adopts a skid-mounted design, a transport module, a crushing module, a sorting module, a purification module and an air supply module which form the mobile skid-mounted intelligent dry coal separation system are independently transported to the site, and the transport module, the crushing module, the sorting module, the purification module and the air supply module are connected on the site to be put into operation.

Preferably, concrete is not used in the installation process of the mobile skid-mounted intelligent dry coal preparation system, and a complete steel structure module is used for fixing and installing.

Preferably, the classifying screen is a classifying screen with 6mm screen hole diameter, and divides the raw coal into two parts with the grain diameter of more than 6mm and the grain diameter of less than or equal to 6 mm. A fully-sealed purification and dust removal system is arranged on the raw coal screening workshop and is used for removing dust in the raw coal screening workshop. And a slack coal belt conveyor and a lump coal belt conveyor are arranged at the rear end of the classifying screen.

Further, the IDS dry separator is an IDS X-ray intelligent lump coal separator. The skid-mounted dry separator is used for separating raw coal with the particle size of 0-80 mm.

The mobile skid-mounted intelligent dry coal dressing system is particularly suitable for mining strip mines, simplifies the process flow, reduces the environmental pollution, improves the transportation capacity, improves the classification efficiency, reduces the energy consumption, has controllable classification granularity, improves the drying and good separation effect, meets the feeding granularity of the strip mines, efficiently classifies materials, ensures the separation efficiency and avoids the atmospheric pollution. The intelligent field adjustment is further realized, and the coal sorting effect is improved. Furthermore, the method has irreplaceable effects in the aspects of recycling waste coal, sorting wind oxidized coal, improving quality and efficiency of lignite, improving resource utilization rate, saving energy, reducing emission, reducing environmental pollution of solid waste and the like.

Drawings

FIG. 1 is a schematic flow diagram of a mobile skid-mounted intelligent dry coal preparation process according to the present invention;

FIG. 2 is a schematic structural diagram of a mobile skid-mounted intelligent dry coal preparation system according to the present invention;

FIG. 3 is a schematic structural diagram of the two-wing type intelligent rolling type damage system shown in FIG. 2;

FIG. 4 is a schematic diagram of a dual-wing structure of the dual-wing intelligent rolling damage system shown in FIG. 3;

FIG. 5 is a schematic view of the roll conveyor mechanism of FIG. 3;

FIG. 6 is a schematic view of a cluster wind purification system;

fig. 7 is a schematic structural diagram of a distributed complementary air supply system.

The names of the components indicated by reference numerals in the drawings are as follows:

1. a raw coal crushing scraper conveyor; 2. a belt conveyor; 3. grading and screening; 4. a pulverized coal belt conveyor; 5. skid-mounted dry separation machines; 6. a fine clean coal scraper conveyor; 7. a slack coal scraper conveyor; 8. a final gangue scraper conveyor; 9. a blower; 10. a bag-type dust collector; 11. an induced draft fan; 12. lump coal belt conveyors; 13. An IDS dry separator; 14. a lump clean coal belt conveyor; 15. a lump gangue belt conveyor; 21. a drive motor; 22. a speed reducer; 23. a head pulley; 24. a squeegee; 25. a scraper chain; 26. a crushing motor; 27. a V-belt; 28. a wing plate; 29. a tail wheel; 30. a guard plate; 2601. a rolling device; 31. a lower trough box; 32, loading the tank; 33. a hydraulic prop; 41. the base is skid-mounted; 42. an access door; 43. a purification chamber; 44. a purification cavity wall plate; 51. An air outlet; 52. an air inlet; 53. an access hole; 54. an air valve.

Detailed Description

The technical solutions 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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments in the patent of the utility model without any inventive work belong to the protection scope of the patent of the utility model.

The utility model provides a mobile skid-mounted intelligent dry coal dressing system which is suitable for sorting full-grain-level raw coal of strip mine. The "whole-size raw coal" classification of the present invention is a substantial improvement and a great difference from the "whole-size" classification previously used by the applicant. In the prior art, the technology of the whole-grain raw coal sorting of the utility model never appears. The whole particle fraction separation used previously by the applicant refers to and achieves 0mm-80mm low-quality coal dry separation; the whole-grain-size raw coal sorting refers to the sorting of whole-system authigenic raw coal, and comprises the sorting of all grain-size raw coal; for the giant lump coal with the grain diameter of more than 10 meters excavated from the mine pit, the giant lump coal is firstly crushed into the lump coal with the grain diameter of less than 10 meters in the first stage, and then the second stage crushing step of the utility model is carried out, and the lump coal with the grain diameter of less than 300mm is obtained in the second stage crushing stage.

The utility model provides a mobile skid-mounted intelligent dry coal separation system which comprises a modular separation module and an intelligent control system, wherein the modular separation module is matched with the intelligent control system, and the serialized separation and combination design is realized aiming at raw coal; the modular sorting module specifically comprises main modules such as a conveying module, a crushing module, a sorting module, a purifying module and an air supply module, and all the main modules operate in a closed mode. The whole mobile skid-mounted intelligent dry coal separation system adopts a skid-mounted design, each main module forming the mobile skid-mounted intelligent dry coal separation system is independently transported to the site, and the modules are connected on the site to be put into operation. Concrete is not used in the installation process of the mobile skid-mounted intelligent dry coal preparation system, a steel structure module is completely formed, and the system can be rapidly put into use all the year round.

The separation host of the separation module in the mobile skid-mounted intelligent dry coal separation system adopts a super dry separator (a large-throughput dry separator) of the applicant, the unit area throughput is increased by 40%, the energy of a main separation system is saved by 30%, and the national requirements of energy conservation and emission reduction are met. The purification module adopts a full cloth bag dust removal system to realize air cleaning and separation; the circulating air of a main fan of the purification module is air filtered and purified by a cloth bag, and an air quantity distribution regulation and control device is arranged in a negative pressure system of the induced draft fan and a working system of the main fan; the main fan circulating air keeps the feeding loose, the induced draft fan keeps the negative pressure operation of the sorting host, the dust-containing air flow is filtered by the cloth bag, and the emission concentration is far lower than the dust emission standard required by the state.

The preparation of raw coal and each transfer point are provided with closed dust suction points, and dust can be treated by adopting bag dust removal and spray dust reduction together, so that coal dust is prevented from flying. If the top of the coal receiving processor is closed, wet spraying is adopted in summer for dust reduction. In winter, the dry cloth bag is adopted for dust removal, so that the environmental protection standard of the coal preparation system is guaranteed. A special dust remover is matched with the screening machine, so that the problem of screening dust is solved. The fine powder collected by the dust remover adopts a humidifying and stirring process, and the pulverized coal is mixed into a clean coal product according to the calorific value. The mobile skid-mounted intelligent dry coal dressing system can be provided with a pre-dressing powder removing system and a post-dressing deep powder removing system according to the coal quality condition. When the sand or coal powder content is larger, the dust removal before selection can greatly reduce the dust raising amount and improve the working environment. When the coal quality is good, the raw coal can be separated without de-powdering, and the recovery rate of clean coal is improved. The process flow is flexible and can realize full-grade selection or partial selection according to coal quality adjustment.

The mobile skid-mounted intelligent dry coal dressing system adopts the collocation of an intelligent control system, and all the intelligent control system adopts digital management to share information with a coal mine dispatching room center and is linked online; in the intelligent control adopted by the mobile skid-mounted intelligent dry coal preparation system, each module is provided with multiple measurement and control devices and data analysis software, so that operators are not required, and the design of a black light factory is realized.

In addition, the mobile skid-mounted intelligent dry coal dressing system comprises a double-wing turnover type raw coal receiving system, an IDS X-ray lump coal dry dressing machine, a high-throughput dry dressing machine, a purification and dust removal system (a purification system or a purification circulating system) and a belt comprehensive protection system in a transport module.

The double-wing turnover type raw coal receiving system automatically adjusts the speed of the scraper according to the feeding amount and the bearing capacity of subsequent equipment, and keeps the optimal feeding amount state of the system under the conditions of keeping the sorting effect and allowing the load rate of the subsequent equipment; when oversized materials and overlong materials exist, sound and light alarm is realized, and the automatic cleaning is realized by matching with a mechanical arm; and the side-turning device is automatically started and stopped by detecting the load of the unloading vehicle and the scraper crusher. Alarm shutdown for overload and other faults.

The IDS X-ray lump coal dry separation machine automatically measures and displays the quantity of each product of the raw coal classifying screen, and is favorable for adjusting the feeding quantity of each separation device to the nearest feeding quantity range of all parallel single machines. For the IDS sorting machine, an online ash measuring system can be simultaneously installed on an incoming material and a waste belt, and the actions of carrying out abnormal conditions of coal in waste and timely and automatically adjusting sorting parameters are carried out.

The high-throughput dry separator detects and displays the amount of the fed material, clean coal and gangue, and monitors the load rate of the equipment. And carrying out online detection on the ash content of the raw coal and the clean coal. And automatically adjusting the operation parameters of the dry separator according to the ash content change of the raw coal and the clean coal. The adjusting parameters comprise feeding amount, air distribution amount, bed surface angle, medium coal amount control turning plate and the like.

The purification and dust removal system adopts a full cloth bag for dust removal and clean air for coal dressing; and an automatic air quantity distribution regulating and controlling device is arranged in the negative pressure induced air system and the circulating air working system. The purifying and dedusting system automatically detects the dust concentration at the inlet and the outlet of the dust remover and the pressure difference between the inlet and the outlet, realizes automatic back blowing and vibration of each air chamber aiming at the resistance change and keeps the best working state of the dust remover. The pulverized coal after dust removal is firstly humidified and stirred to measure the moisture of the pulverized coal and control the water injection quantity. The raw coal preparation and discharge points are provided with closed dust suction points, so that the dust concentration detection and the linkage control of the spraying device are realized, and the spraying device is started when the flying dust reaches a certain value and can control the water quantity.

The belt comprehensive protection system in the transport module automatically measures the belt feeding amount, controls the frequency conversion and the speed regulation to keep the feeding stable, and detects, alarms, controls and protects the belt deviation, the belt tearing and the like.

Further, as shown in fig. 1, the mobile skid-mounted intelligent dry coal preparation process of the present invention comprises the following steps:

step S1, a first-stage crushing step, namely, firstly crushing giant lump coal with the grain diameter of more than 10 meters excavated from a mine pit into lump coal with the grain diameter of less than 10 meters;

step S2, secondary crushing, namely transporting the lump coal obtained after primary crushing to a specified site, performing secondary crushing, and obtaining lump coal with the particle size of less than 300mm in a secondary crushing stage;

and step S3, sorting the lump coal and the mixed coal powder obtained after the secondary crushing, wherein the raw coal with the particle size of 80-300 mm is sorted by an IDS X-ray intelligent lump coal sorter (IDS is the abbreviation of intelligent dry sorting), and the raw coal with the particle size of 0-80mm is sorted by an assembled modular sorting unit.

In step S3, the step of sorting raw coal having a particle size of 0-80mm by using an assembled modular sorting unit includes a preliminary treatment step and a classification and fine sorting step, wherein the preliminary treatment step is to perform coarse screening treatment on lump coal having a large particle size, and specifically is to screen out lump coal having a particle size of more than 6 mm. Raw coal with the particle size of 0-80mm is classified into slack coal (containing coal blocks equal to or less than 6 mm) with the particle size of less than 6mm and lump coal with the particle size of more than 6mm, and the slack coal with the particle size of less than 6mm is directly sent to a coal bunker for storage and standby.

The classification and subdivision step specifically refers to the further sorting of lump coal with a particle size of more than 6 mm. Compared with the rough separation in the prior art, the utility model adopts the classification and fine separation, namely, the separation advantages of each separation module are fully utilized to realize the concentration and optimization of raw coal, so the material particle size involved in the utility model is clearly defined or divided. In the present invention, the particle size of the material referred to by the term is as follows: "Block" refers to a size fraction of 6mm to 80mm and "end" refers to a size fraction of 0mm to 6 mm; compared with the original classification of coarse particles, fine particles and the like, the method further refines and sorts the raw coal, is more accurate than the raw coal sorting, and ensures that the sorted raw coal is more suitable for various application occasions.

The grading and fine separation in the mobile skid-mounted intelligent dry coal separation process comprises the following steps:

a raw coal grading step S31, wherein 6mm-80mm raw coal after rough separation is conveyed to a screening workshop through a 6mm-80mm raw coal belt conveyor, and is sorted by adopting a C-ZM dry separator (the C-ZM is an abbreviation of a super intelligent dry separator, and the super intelligent dry separator is a large-throughput and intelligent control dry separator of the application); the raw coal belt conveyor with the diameter of 6mm-80mm is preferably a raw coal belt conveyor with the diameter of 6mm-80 mm.

A lump coal transferring and drying step S32, wherein clean coal obtained by sorting through the C-ZM dry separator is conveyed to a clean coal bin through a 6mm-80mm clean coal product belt conveyor for standby application, and the obtained gangue product is transferred to a 6mm-80mm sorting gangue belt conveyor through a 6mm-80mm gangue belt conveyor after medium removal treatment; preferably, the gangue products are backfilled into the pit through a sorting gangue belt conveyor with the length of 6mm-80 mm;

and a secondary sorting, transferring and drying step S33, wherein the middlings obtained by sorting through the C-ZM dry separator are sent back to the material conveying end of the C-ZM dry separator again for secondary sorting and transferring.

As shown in fig. 2, the system specifically comprises a raw coal crushing scraper conveyor 1, a belt conveyor 2, a classifying screen 3, a slack coal belt conveyor 4, a skid-mounted dry separator 5, a slack clean coal scraper conveyor 6, a slack coal scraper conveyor 7, a slack gangue scraper conveyor 8, a blower 9, a bag-type dust collector 10, an induced draft fan 11, a lump coal belt conveyor 12, an IDS dry separator 13, a lump clean coal belt conveyor 14 and a lump gangue belt conveyor 15.

The raw coal crushing scraper conveyor 1 crushes raw coal and transports the crushed raw coal to the belt conveyor 2 in a scraper conveying mode, crushed coal blocks are conveyed to the grading screen 3 through the belt conveyor 2, the grading screen 3 is arranged in a raw coal screening workshop, the grading screen 3 is used for screening the raw coal and dividing the raw coal into two parts of raw coal with the particle size of more than 6mm and the particle size of less than or equal to 6 mm; a fully-sealed purification and dust removal system is arranged on the raw coal screening workshop and is used for removing dust in the raw coal screening workshop.

Further, a slack coal belt conveyor 4 and a lump coal belt conveyor 12 are arranged at the rear end of the classifying screen 3, the slack coal belt conveyor 4 is used for conveying raw coal from the classifying screen 3 to the skid-mounted dry separator 5, the lump coal belt conveyor 12 is used for conveying lump coal obtained by screening through the classifying screen 3 to the IDS dry separator 13, and the IDS dry separator 13 is used for separating the lump coal with the particle size of 80-300 mm. Preferably, the IDS dry separator 13 is an IDS X-ray intelligent lump coal separator, the lump clean coal separated by the IDS dry separator 13 is conveyed to a clean lump coal storage and transportation machine through a lump clean coal belt conveyor 14, and the gangue separated by the IDS dry separator 13 is conveyed to a gangue storage and transportation machine through a lump gangue belt conveyor 15 or is directly backfilled into a pit of the open pit mine. The skid-mounted dry separator 5 is used for separating raw coal with the particle size of 0-80mm, the separated coal dust with the particle size of 0-6mm is directly sent to a coal dust bin for standby application, the separated clean coal with the particle size of 6-80 mm is sent to a clean coal bin for transportation through a fine clean coal scraper conveyor 6, the separated gangue is sent to a gangue bin for transportation through a fine gangue scraper conveyor 8, and the gangue is backfilled to an open pit or used for building materials and the like after being transported; the sorted middlings are conveyed to a middling bunker through a slack middling scraper conveyor 7, and enter secondary sorting after being transported through the middling bunker. Furthermore, a fully-sealed purification and dust removal system is arranged on the skid-mounted dry separator 5, so that the whole system has no external leakage pollutants, the purification and dust removal system removes dust through a bag-type dust collector 10, dust-containing gas from the skid-mounted dry separator 5 is blown into the bag-type dust collector 10 through an air blower 9, and clean gas filtered by the bag-type dust collector 10 is returned to the skid-mounted dry separator 5 through an induced draft fan 11 for use.

The two-wing intelligent rolling type damage system shown in fig. 3 comprises a feeding device with a two-wing structure, a scraper type forced material conveying mechanism, a rolling type crushing mechanism and an intelligent material quantity detection mechanism, wherein the feeding device with the two-wing structure pours materials arranged on two wing plates onto a conveyor belt of the scraper type forced material conveying mechanism, the scraper type forced material conveying mechanism applies parallel driving force to the materials from the feeding device with the two-wing structure, the materials are conveyed into the rolling type crushing mechanism and are crushed, and the intelligent material quantity detection mechanism is used for detecting the material quantity sent into the feeding device with the two-wing structure in unit time.

Furthermore, as can be seen from the schematic view of the double-wing structure of the double-wing intelligent rolling type damage system shown in fig. 4, the feeding device of the double-wing structure includes wing plates 28 arranged in bilateral symmetry, hydraulic struts 33 supported under the wing plates 28, one end of each hydraulic strut 33 is connected to the middle upper portion of the wing plate 28, the other end of each hydraulic strut 33 is connected between the lower tank 31 and the upper tank 32, and the wing plates 28 are lifted, opened and closed by the expansion and contraction of the hydraulic struts 33. As shown in fig. 5, a scraper chain 25 is provided at the upper part of the upper tank 32, and the material fallen down by the wing plate 28 is directly poured onto the scraper chain 25 and transported to the crushing mechanism through the scraper chain 25. The structure shown in fig. 4 can be obtained from the view of fig. 3 "a-a" and the structure shown in fig. 5 can be obtained from the view of fig. 3 "B-B".

Preferably, a support plate is provided between the lower tank 31 and the upper tank 32, the outer side wall of the lower tank 31 is connected with the outer side wall of the upper tank 32 through the support plate, and the wing plate 28 is pivotally connected with the upper end of the support plate, that is, the wing plate 28 can rotate around the upper end point of the support plate through the pivoting action of the pivot. More preferably, an intelligent material quantity detection mechanism is arranged on the side surface of the wing plate 28, and the intelligent material quantity detection mechanism is used for detecting the material quantity sent in the unit time of the feeding device with the double-wing structure or measuring the material quantity sent in any operation time. Furthermore, the intelligent material quantity detector adopts an infrared metering detection device, infrared measurement columns are arranged on two sides of a wing plate on the material inlet side in pairs, optical data such as the speed of the fed materials and the material section are detected through the infrared measurement columns, and the data obtained by the infrared measurement columns are preferably transmitted to a central control platform in a wireless or wired mode for monitoring and processing. Whether the materials are accumulated or not or whether the treatment capacity of the scraper type forced material conveying mechanism is not adaptive or not can be detected through the intelligent material quantity detector.

Fig. 3 shows a damaged system of two wing formula intelligence roll-compaction, scraper blade formula force-feed mechanism wherein includes driving motor 21, speed reducer 22, head pulley 23, scraper blade 24, scrape board chain 25 and tailwheel 29, driving motor 21 adopts high-power alternating current motor, driving motor 21 is used for driving speed reducer 22 and drives head pulley 23 and rotate, the power of its output transmits for head pulley 23 via speed reducer 22, head pulley 23 is used for driving scraper chain 26, make scraper chain 26 remove in roll-compaction formula damaged system main part conveyer trough, and then drive the material antedisplacement. Head pulley 23, scraper blade 24, scraper chain 25 and tailwheel 29 set up on a straight line, that is to say head pulley 23, scraper blade 24, scraper chain 25 and tailwheel 29 set up along material direction of transport, come the direction of advance of coordinated adjustment material through head pulley 23 and tailwheel 29, scraper chain 25 connects between head pulley 23 and tailwheel 29, rotates the rotation that drives scraper chain 25 through head pulley 23, sets up scraper blade 24 on scraper chain 25, scraper blade 24 drives the material transport and advances.

Further, be provided with the putty detector in the damaged system main part conveying trough of roll-to-roll formula, it is used for monitoring scraper conveyor main part conveying trough in whether the material blocks up. The scraper chain 26 is used for connecting a scraper vertically arranged with a rolling type damaged system main body conveying trough, and the scraper pushes the animal material to move forwards under the driving of the scraper chain 26. And meanwhile, a broken chain indicator is arranged in the conveying trough of the rolling type damage system main body and used for monitoring whether the scraper chain is broken or not. The rolling type damaged system main body conveying trough, namely a box body is used for bearing the scraper 25, the scraper chain 26 and materials. Further, a tail pulley 29 is provided at the end of the rolling type damage system main body conveying chute, the scraper chain is wound on the tail pulley 29, and the tail pulley 29 is used for changing the direction of the scraper chain.

In another embodiment, a rolling type crushing mechanism is arranged in the material conveying forward direction, the rolling type crushing mechanism comprises a rolling device 2601, a triangular belt 27, a crushing motor 26 and a protection plate 30, power output by the crushing motor 26 is transmitted to the rolling device 2601 through the triangular belt 27, the rolling device 2601 rolls and crushes large coal blocks, and the unidirectional protection plate 30 is arranged at the front end of the rolling device 2601, so that the entering large coal blocks can only advance along the material conveying direction. The guard plate 30 has two functions, one is to prevent the crushed coal blocks collapsed in the crushing process from escaping from the rolling device, and the other is to prevent the large coal blocks entering the rolling process from returning. Further, a tensioning mechanism for appropriately adjusting the degree of tension of the scraper chain 25 is provided at the tail pulley 29.

The mobile skid-mounted intelligent dry coal separation system adopts a cluster type wind power purification system as shown in figure 6, and the cluster type wind power purification system is used as a combined module in the mobile skid-mounted intelligent dry coal separation system and can be arranged at any separation stage or any separation stage. The cluster type wind power purification system comprises a skid-mounted base 41, a purification cavity 43 and a purification cavity wall plate 44, wherein the skid-mounted base 41 is used for installing the wind power purification system in a dragging mode, the skid-mounted base is installed at the bottom of the wind power purification system, and the wind power purification system can be integrally moved. According to production needs, the cluster type wind power purification system can be dragged to a specified production place, and then the cluster type wind power purification system is fixed at the specified production place by using a fixing mechanism; after the staged production task is completed, the clustered wind purification system can be dragged to move to the next production site. The wind power purification system in the cluster type wind power purification system is used for enabling dust-containing gas generated by a previous-stage separation end to enter from an inlet of the wind power purification system, and enabling clean gas after dust removal to be discharged from an outlet of the wind power purification system. The wind power purification system mainly comprises a purification cavity 43, a bag-type dust collector 10 and a purification cavity wall plate 44, wherein dust-containing gas flows through an inner cylinder of the bag-type dust collector 10 and permeates through the dust removal function of the bag-type dust collector 10, namely the clean gas permeates through the bag-type dust collector, namely the clean gas permeates into an outer cylinder of the bag-type dust collector from the inner cylinder of the bag-type dust collector and enters the purification cavity 43, and the clean gas is discharged from a gas outlet through the purification cavity 43. Preferably, a purge chamber wall 44 is provided around the purge chamber 43, and the purge chamber wall 44 is used to set a flow range of the purge gas.

Furthermore, the mobile skid-mounted intelligent dry coal separation system adopts a large-capacity purification and dust removal system, and compared with the prior art, the existing small-capacity bag purification and dust removal system cannot meet the requirement of large-throughput separation of the utility model. Preferably, the plurality of bag-type dust collectors are gathered to one or more air inlets through a gathering pipe, and the number of the air inlets is specifically selected according to the intensity of on-site air flow and the flow rate of the air flow, especially the processing gas flow rate, the filtering air speed, the dust removal efficiency, the inlet dust concentration, the discharge concentration, the specification number of filter bags, the specification number of dust removal frameworks, the specification number of electromagnetic pulse valves, the pressure loss, the air leakage rate, the steel consumption, the specification model of an induced draft fan, the length, the width and the height of the dust collectors and the like. Furthermore, the bag-type dust collector generally adopts a bag-type dust collector with high transmittance, the length of the bag-type dust collector is 4-15 meters, and the diameter of the bag-type dust collector is 15-50 centimeters. The bag-type dust remover in the utility model adopts the bag-type dust remover without keels and dust removing frameworks, thus being convenient for filtering the atmospheric air. The anti-static fiber dust removal cloth bag with the length of 6 meters and the diameter of 20 centimeters is preferred.

Furthermore, the access doors 42 are arranged on the side surfaces of the cluster type wind power purification system, the access doors 42 are used for daily maintenance or emergency fault treatment, the number of the access doors is preferably set according to the whole capacity of the cluster type wind power purification system, and the access doors are generally arranged on the outer side of the wind power purification system and close to the skid-mounted base, so that access of service personnel is facilitated.

The mobile skid-mounted intelligent dry coal preparation system adopts a distributed complementary air supply system as shown in FIG. 7; the distributed complementary air supply system adopts a three-dimensional cross air inlet structure and comprises a first air supply body and a second air supply body, wherein the first air supply body is shown in the upper half part of a graph 7, the second air supply body is shown in the lower half part of the graph 7, the first air supply body and the second air supply body are arranged in a cross and staggered mode, the first air supply body comprises an air inlet 52 and two rows of air outlets 51 which are arranged in parallel, the number of the first air outlets of the first air supply body is not equal to the number of the second air outlets, as shown in the graph 7, the number of the first air outlets is 3, and the number of the second air outlets is 4. The second air supply body comprises an air inlet 52 and two rows of air outlets 51 arranged in parallel, and the number of the first row of air outlets of the second air supply body is equal to the number of the second row of air outlets, as shown in fig. 7, the number of the first row of air outlets is 5, and the number of the second row of air outlets is 5.

Preferably, an air valve 54 is provided at the air outlet 51, and the air speed and flow rate are controlled by the air valve 54; an access opening 52 is arranged at the tail end of the air supply body, namely one end corresponding to the air inlet, and is used for daily maintenance of the distributed complementary air supply system and cleaning precipitates and the like in the air duct.

The distributed complementary air supply system designed as shown in fig. 7 corresponds to the coal separation application of the mobile skid-mounted intelligent dry coal separation system for large processing, dense air outlets are arranged at the thick coal seam place or the place with large lump coal quantity, and less air outlets are arranged at the thin coal seam place or the place with large coal powder quantity, so that the air supply quantity is suitable for forming uniform separation wind power on the vibration dry separation bed, and further forming a vibration separation mixed flow layer with uniform suspension. Further, a third air supply body is arranged according to the actual production requirement, as shown in fig. 7, the third air supply body is arranged at the lower part of the first air supply body and at the right part of the second air supply body. In actual production, according to the thickness of the coal seam, air supply with different strengths is applied through each air supply body, so that the technical effects of supplying air according to needs and sorting according to needs are achieved. Furthermore, a wind power detector is arranged on each air inlet duct and used for detecting air volume and wind speed, detected data are transmitted to a central controller of the distributed complementary air supply system, actual air supply volume is calculated through the central controller, an air valve arranged at an air outlet is adjusted according to signals fed back by coal bed sorting requirements, and air is supplied according to requirements.

Further, the utility model integrates the redundant design among all the components of the mobile skid-mounted intelligent dry coal preparation system and the work coordination among the separation, screening and transportation among all the components.

Compared with the prior art, the mobile skid-mounted intelligent dry coal dressing system has the following technical advantages:

1.1 serialization of production Capacity and diversification of production Process

The mobile skid-mounted intelligent dry coal dressing system is provided with screening, crushing, dust removing and other processes according to local conditions, so that higher coal dressing efficiency and lower capital investment and production cost are ensured. Meanwhile, according to the characteristics of the strip mine and the capacity requirements of the coal preparation plant, a technical scheme of skid-mounted dry coal preparation systems with various plant scales of 100-600 t/h is designed and developed; according to the product sale market and the characteristics that most of Chinese power coal is low-rank coal, is fragile, easy to weather and easy to argillization, various process schemes of raw coal powder removal, 300-0mm full-grain dry separation combined with lump coal X-ray intelligent separation and the like are designed and developed.

1.2 simple and flexible process system

The mobile skid-mounted intelligent dry coal dressing system adopts large, efficient and reliable dry dressing machines with large processing capacity as main equipment, and has good dressing performance and large single machine processing capacity. Because the number of the devices of the mobile skid-mounted intelligent dry coal preparation system is reduced, the production process system is simplified, and the production cost is reduced. Preferably, based on the requirements of the market and users, the mobile skid-mounted intelligent dry coal separation system can be provided with a direct bypass system and an online ash content detection system, the product structure can be adjusted at any time, and different requirements of different users are met. The raw coal can be washed completely or partially, and the production system has great flexibility.

1.3 short construction period and high factory building speed

In the mobile skid-mounted intelligent dry coal dressing system, all the constructions, workshops and trestles in a host, auxiliary equipment, non-standard parts and ground production system, storage facilities and even accessory facilities are all manufactured in factories or on site by the applicant. Because the movable skid-mounted intelligent dry coal preparation system adopts the steel structure combined module arrangement, the disassembly and the transportation are convenient, each module is provided with external maintenance, the wind and rain are prevented, the heat is insulated, and the service life is long. The above-ground building is manufactured on site, only assembly is needed on a construction site, equipment, non-standard and civil engineering structures and the like are integrated into a modular steel structure, and the civil engineering quantity is greatly reduced. The industrial manufacturing precision is high, the product quality is guaranteed, the engineering quality is guaranteed, the site construction efficiency is improved, and the comprehensive construction period is short. The construction can be carried out in about 1-2 months under general conditions, and the construction and production in the same year can take effect.

1.4 the factory building has small volume and small occupied area

The mobile skid-mounted intelligent dry coal preparation system has the advantages that the mobile skid-mounted intelligent dry coal preparation system utilizes gravity flow conveying of materials, the number of conveying equipment is small, the height difference between equipment is small after module arrangement is adopted, the arrangement is very compact, the height of a production workshop is low, a connecting trestle is short, the occupied area is small, the building size is small, the modular size is only about 1/3 of the same conventional domestic standard workshop (reinforced concrete structure), the occupied area is reduced, and the capital investment is saved. In addition, staged construction and rolling development can be realized according to the mine capacity of the strip mine and the capital condition of users.

1.5 high automation level, high production efficiency and low processing cost

The movable skid-mounted intelligent dry coal separation system is provided with advanced large-scale dry separation equipment, an advanced, reasonable, practical and reliable control technology is adopted, the automation degree is high, a centralized control system with a PLC as a control host is equipped, unattended operation of people inspection is realized, and the starting and stopping time is greatly shortened. The labor and personnel fixing of the whole plant are reduced, the production efficiency is improved, and the effects of reducing personnel and improving the efficiency are really achieved. The labor of each shift of a main workshop of the novel efficient coal preparation plant of 1 600t/h (3.0Mt/a) only needs 3-5 persons, and the production efficiency is greatly improved.

In addition, because the building volume is reduced, the equipment is compact, the transport distance is short, the power consumption and the material consumption can be reduced, and the processing cost is low. According to statistics, the power consumption of the coal preparation plant is 0.5-0.7 times of that of the traditional coal preparation plant, and the processing cost of the coal preparation plant is only about 1/2 times of that of the traditional coal preparation plant. Meanwhile, under the condition that the plant type and the equipment level are completely the same, the total investment is saved by more than 30% by adopting a skid-mounted design compared with the design of a conventional dry separation plant.

1.6 is movable and reasonable in layout, and is suitable for discharging waste rocks under open pit

The mobile skid-mounted intelligent dry coal preparation system is convenient to move, disassemble and assemble and can periodically move along with the coal mining machine on the mining working face of the strip mine. The waste rock can be discharged in the open pit on site, and the invalid transportation of the waste rock is reduced. The quality of commercial coal is improved, and inferior coal such as strip mine thin coal seam coal, gangue coal, roof and floor coal, wind oxidized coal and the like can be sorted and recovered, so that strip mine stripping ratio is reduced, and coal mining efficiency is improved. The recovery of the abandoned coal not only effectively utilizes the coal resource but also avoids the environmental pollution caused by spontaneous combustion of dirty and miscellaneous coal yards.

1.7 adaptability is strong

The mobile skid-mounted intelligent dry coal preparation system has the characteristics of serialization of production capacity, diversification of production process, staged construction of the system and the like, so that the adaptability is very strong, and the system can be basically used in various large, medium and small coal preparation plants. The modular design has the advantages of reproducibility and universality, and is beneficial to saving the design period. The production capacity of a single system is 100-600 t/h (namely 0.60-3.60 Mt/a), and when a double system or a multiple system is adopted, the requirement of an oversize coal preparation plant with the hourly capacity of more than 1200t/h can be met.

1.8 social benefits

The main links of the mobile skid-mounted intelligent dry coal separation system have the conditions for realizing the assembly type building, a large amount of field work can be completed in a production workshop, and only installation is needed on the field, so that the aims of reducing safety accidents and saving human resources are fulfilled. The realization of the skid-mounted steel structure coal preparation plant of the 'full system' is beneficial to accelerating the construction progress and improving the construction quality. The skid-mounted coal preparation system adopts the energy-saving super dry separator without water, has low power consumption, can save energy and reduce emission, can also reduce the generation of construction waste, is beneficial to the nation and people, is green and environment-friendly, and is a construction mode which should be advocated.

In summary, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A mobile skid-mounted intelligent dry coal separation system is characterized by comprising a modular separation module and an intelligent control system which are matched, wherein the modular separation module and the intelligent control system are matched in a serial separation combination matching mode aiming at raw coal; the modular sorting module comprises a conveying module, a crushing module, a sorting module, a purifying module and an air supply module, wherein the conveying module, the crushing module, the sorting module, the purifying module and the air supply module all adopt closed independent operation;

the mobile skid-mounted intelligent dry coal preparation system comprises a raw coal crushing scraper conveyor (1), a belt conveyor (2), a classifying screen (3), a slack coal belt conveyor (4), a skid-mounted dry separator (5), a slack clean coal scraper conveyor (6), a slack coal scraper conveyor (7), a slack gangue scraper conveyor (8), an air blower (9), a bag-type dust remover (10), an induced draft fan (11), a lump coal belt conveyor (12), an IDS dry separator (13), a lump clean coal belt conveyor (14) and a lump gangue belt conveyor (15), wherein the raw coal crushing scraper conveyor (1) crushes raw coal and transports the crushed raw coal to the belt conveyor (2) in a scraper conveying mode, the crushed coal lumps after crushing are transported to the classifying screen (3) through the belt conveyor (2), and the classifying screen (3) is arranged in a raw coal screening workshop, the grading screen (3) is used for screening raw coal.

2. The mobile skid-mounted intelligent dry coal preparation system according to claim 1, wherein the whole mobile skid-mounted intelligent dry coal preparation system adopts a skid-mounted design, and the transportation module, the crushing module, the separation module, the purification module and the air supply module are assembled on an operation site.

3. The mobile skid-mounted intelligent dry coal preparation system according to claim 2, wherein the mobile skid-mounted intelligent dry coal preparation system is fixedly installed using a complete steel structure module.

4. The mobile skid-mounted intelligent dry coal preparation system according to claim 1, wherein the classifying screen is a classifying screen with 6mm screen hole diameter, and divides raw coal into two parts of raw coal with the particle size of more than 6mm and the particle size of less than or equal to 6 mm.

5. The mobile skid-mounted intelligent dry coal preparation system according to claim 1, wherein a fully-sealed purification and dust removal system is arranged on the raw coal screening workshop, and the purification and dust removal system is used for removing dust in the raw coal screening workshop.

6. The mobile skid-mounted intelligent dry coal preparation system according to claim 5, wherein a slack coal belt conveyor (4) and a lump coal belt conveyor (12) are provided at the rear end of the classifying screen (3).

7. The mobile skid-mounted intelligent dry coal separation system according to claim 4, wherein the IDS dry separator (13) is an IDS X-ray intelligent lump coal separator.

8. The mobile skid-mounted intelligent dry coal separation system according to claim 4, wherein the skid-mounted dry separator (5) is used for raw coal separation with the particle size of 0-80 mm.

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