CN114042521B - Regulation and control optimization device based on intelligent grit aggregate of big data - Google Patents

Abstract

The invention discloses a big data-based intelligent sandstone aggregate regulation and optimization device, which relates to the technical field of sandstone aggregate manufacturing and comprises a tank body, wherein the bottom of the tank body is provided with a screening mechanism, the inner side surface of the screening mechanism is rotatably connected with a rotating shaft, the surface of the rotating shaft, which is close to the screening mechanism, is fixedly connected with a scraper body, the screening mechanism comprises a connecting wall, the top of the connecting wall is fixedly connected with the bottom of the tank body, the middle part of the surface of the connecting wall is fixedly connected with an elastic wall, and the inner side surface of the elastic wall is rotatably connected with the surface of the rotating shaft. This regulation and control optimization device based on intelligent grit aggregate of big data uses through the cooperation of screening mechanism, mechanisms such as scraping the material body, dust fall mechanism and centrifugal body, has solved how automatically to carry out crushing treatment again to the grit aggregate that is not conform to the size condition, and how carries out purification treatment's problem at the dust of broken in-process in with the grit aggregate.

Description

Regulation and control optimization device based on intelligent grit aggregate of big data

Technical Field

The invention relates to the technical field of sandstone aggregate manufacturing, in particular to a big data-based intelligent sandstone aggregate regulation and control optimization device.

Background

The material is vertically dropped into a high-speed rotating impeller from the upper part of the machine, under the action of high-speed centrifugal force, the material and another part of the material which is shunted around the impeller in an umbrella-shaped manner produce high-speed impact crushing, after the materials are impacted with each other, the materials form vortex between the impeller and a machine shell to be impacted with each other for multiple times, and are rubbed and crushed, and then are directly discharged from the lower part, and the granularity of a finished product required is achieved by controlling through a screening device. Based on the above description, the present inventors found that the existing aggregate shaping machine mainly has the following disadvantages, for example:

how to carry out the recrushment processing to the grit aggregate that does not conform to the size condition voluntarily, how to carry out purification treatment with the dust in the grit aggregate in the broken process.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an intelligent sandstone aggregate regulation and control optimization device based on big data, and solves the problems that how to automatically re-crush sandstone aggregates which do not accord with size conditions and how to purify dust in the sandstone aggregates in the crushing process.

(II) technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a regulation and control optimizing apparatus based on big intelligent grit aggregate of data, includes the jar body, the bottom of jar body is provided with screening mechanism, the medial surface of screening mechanism rotates and is connected with the pivot, the position fixedly connected with that the pivot surface is close to screening mechanism scrapes the material body, screening mechanism includes the connecting wall, the top and the bottom of jar body fixed connection of connecting wall, the middle part position fixed connection on connecting wall surface has the elastic wall, the medial surface of elastic wall and the surface rotation of pivot are connected, the inside fixedly connected with blaster of elastic wall, the fixed surface of elastic wall is connected with the shower nozzle, the surface of elastic wall is seted up spaciously, the fixed position that the hole is close to on elastic wall surface has solved through screening mechanism and how to carry out the recrushment processing to the grit aggregate that does not conform to the size condition automatically, after the aggregate passes through the stone breakage, through scraping the material body with fine and pass through 8978 zft 8978 on connecting wall surface, remaining aggregate deposit on the surface of connecting wall, and carry out plastic processing to the aggregate through the shower nozzle through the elastic wall, thereby the mobility has increased, when the weight that accumulates, the blasting wall is too big, the aggregate extrusion is blown down to the aggregate, thereby crushed aggregate, the secondary crushing aggregate is carried out the shower nozzle.

Preferably, the middle position on the surface of the tank body is fixedly connected with a dust falling mechanism, the surface of the rotating shaft is fixedly connected with a centrifugal body close to the dust falling mechanism, and the centrifugal body is arranged above the material scraping body.

Preferably, the scraper body includes the reverser, the medial surface of reverser and the top position fixed connection on pivot surface, the fixed surface of reverser is connected with the rotating wall, and when the aggregate fell to the surface of mechanism wall, the centrifugation caused frictional resistance to do work and produced the heat, and the ceramic layer absorbed heat, when the shower nozzle blows the aggregate to the spheroid, and the absorptive heat transfer of ceramic layer was to the spheroid this moment for the aggregate strikes the in-process and absorbs more energy, thereby is broken more easily.

Preferably, the disk body is fixedly connected to the lower position of the surface of the rotating wall, one end, far away from the reverser, of the rotating wall is rotatably connected with a corrugated wall, and the base is fixedly connected to the bottom of the tank body.

Preferably, dust fall mechanism includes first filtering layer and second filtering layer, the surface of first filtering layer and second filtering layer all is connected with the fixed surface of the jar body, the fixed surface of first filtering layer is connected with the stone, how to carry out purification treatment's problem at the dust of broken in-process in with the grit aggregate through dust fall mechanism, can produce a large amount of dusts when the aggregate striking stone, in the device, the aperture of first filtering layer is greater than the second filtering layer, and only limited to the tiny particle to pass through, the dust strikes the second filtering layer through first filtering layer, the striking wall has magnetism, and opposite with magnetic ball magnetism, the magnetic ball is attracted and is rotary motion, thereby it is spacing with the dust to drive the sprinkler watering.

Preferably, a chute body is fixedly connected to the middle position of the opposite surface of the first filtering layer and the second filtering layer, a magnetic ball is connected to the surface of the chute body in a sliding manner, and a sprinkler is fixedly connected to the bottom of the magnetic ball.

Preferably, the centrifugation body includes the mechanism wall, the middle part position fixedly connected with air pump on mechanism wall surface, the bottom of air pump and the top fixed connection of pivot are used through the cooperation of mechanisms such as screening mechanism, scraper body, dust fall mechanism and centrifugation body, have solved how automatically to carry out crushing treatment again to the grit aggregate that is not conform to the size condition, and how to carry out purification treatment's problem at the dust of broken in-process in with the grit aggregate.

Preferably, the medial surface fixedly connected with ceramic layer of mechanism wall, the bottom of mechanism wall is rotated and is connected with the spheroid, the top fixedly connected with striking wall of mechanism wall, the aggregate is perpendicular with first filtering layer at the speed direction of striking stone, and the kinetic energy of tiny powder through centrifugal casting power and stone striking passes through first filtering layer fast to the efficiency of dust fall has been improved, and the air pump produces the air current, carries out certain lubricated cooling effect to the stone, avoids the collision to produce the damage that too much heat caused the device.

(III) advantageous effects

The invention provides an intelligent sandstone aggregate regulation and control optimization device based on big data. The method has the following beneficial effects:

(1) This regulation and control optimizing device based on intelligent grit aggregate of big data uses through the cooperation of mechanisms such as screening mechanism, scraper body, dust fall mechanism and centrifugal body, has solved how automatically to carry out crushing treatment again to the grit aggregate that is not conform to the size condition, and how carries out purification treatment's problem at the dust of broken in-process in with the grit aggregate.

(2) This regulation and control optimization device based on intelligent grit aggregate of big data, how automatic carry out crushing treatment's problem again to the grit aggregate that does not conform to the size condition through screening mechanism has been solved, after the aggregate passes through the stone breakage, through scraping the body with the aggregate of tiny size through Kong Guachu on connecting wall surface, remaining aggregate deposit is on the surface of connecting wall, and carry out the plastic processing to the aggregate through the rinding body, thereby the mobility of aggregate has been increased, when accumulated aggregate weight is too big, elastic wall extrudees the blasting ware downwards, the blasting ware pressurized explosion, blow the aggregate to the spheroid through the shower nozzle, thereby carry out the secondary crushing.

(3) This regulation and control optimization device based on intelligent grit aggregate of big data, when the aggregate falls the surface of mechanism wall, the centrifugation causes frictional resistance doing work and produces the heat, and ceramic layer adsorption heat blows the aggregate to the spheroid when the shower nozzle, and the absorptive heat transfer of ceramic layer reaches the spheroid this moment for the aggregate striking in-process absorbs more energy, thereby is broken more easily.

(4) This regulation and control optimization device based on intelligent grit aggregate of big data, how to carry out purification treatment's problem at the dust of broken in-process in with the grit aggregate through dust fall mechanism has been solved, can produce a large amount of dusts when the aggregate striking stone, in the device, the aperture of first filtering layer is greater than the second filtering layer, and only be limited to small particle and pass through, the dust strikes the second filtering layer through first filtering layer, the striking wall has magnetism, and opposite with magnetic ball magnetism, rotary motion is attracted to the magnetic ball, thereby it sprinkles and spacing with the dust to drive the sprinkler.

(5) This regulation and control optimization device based on intelligent grit aggregate of big data, the aggregate is perpendicular with first filtering layer in the speed direction of striking the stone, and the kinetic energy of tiny powder through centrifugal casting power and stone striking passes through first filtering layer fast to improved the efficiency of dust fall, the air pump produces the air current, carries out certain lubricated cooling effect to the stone, avoids the collision to produce too much heat and causes the damage of device.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the internal part of the present invention;

fig. 3 is a schematic structural diagram of the dust falling mechanism of the invention;

FIG. 4 is a schematic structural view of a centrifuge of the present invention;

FIG. 5 is a schematic view of the screening mechanism of the present invention;

fig. 6 is a schematic structural diagram of the scraper body of the present invention.

In the figure: 1. a base; 2. a tank body; 3. a dust falling mechanism; 31. a first filter layer; 32. a second filter layer; 33. a stone block; 34. a chute body; 35. a magnetic ball; 36. a sprinkler; 4. a rotating shaft; 5. a centrifuge; 51. a mechanism wall; 52. an air pump; 53. an impact wall; 54. a ceramic layer; 55. a sphere; 6. a screening mechanism; 61. a connecting wall; 62. a grinding body; 63. a resilient wall; 64. a blaster; 65. a spray head; 7. scraping the material body; 71. a reverser; 72. a rotating wall; 73. a tray body; 74. the wall is pleated.

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, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 6, the present invention provides a technical solution: the utility model provides a regulation and control optimization device based on intelligent grit aggregate of big data, which comprises a tank body 2, the middle part position fixedly connected with dust fall mechanism 3 on the surface of the jar body 2, dust fall mechanism 3 includes first filtering layer 31 and second filtering layer 32, the middle part position fixedly connected with chute body 34 of first filtering layer 31 and second filtering layer 32 opposite face, the surperficial sliding connection of chute body 34 has magnetic ball 35, the bottom fixedly connected with sprinkler 36 of magnetic ball 35, the surface of first filtering layer 31 and second filtering layer 32 all is connected with the fixed surface of the jar body 2, can produce a large amount of dusts when aggregate striking stone 33, in the device, the aperture of first filtering layer 31 is greater than second filtering layer 32, and only limited to the tiny particle to pass through, the dust strikes second filtering layer 32 through first filtering layer 31, striking wall 53 has magnetism, and opposite with magnetic ball 35 magnetism, magnetic ball 35 is attracted and is rotary motion, thereby drive sprinkler 36 watering and with the dust spacing, the fixed surface of first filtering layer 31 is connected with stone 33, the fixed surface of pivot 4 surface is close to the fixed position of the sandstone aggregate 3, the middle part position fixed surface of the fixed wall is connected with air pump mechanism 51 of air pump mechanism 51, the top fixed surface of air pump mechanism is connected with air pump 52, the top fixed wall 51 of the top of the mechanism is connected with air pump mechanism 51, the top fixed surface of the top fixed wall 51 of the mechanism is connected with centrifugal wall 52, the top fixed wall mechanism 51 of air pump mechanism, the top fixed wall 51 of the top of air pump mechanism 51, the centrifugal wall mechanism is connected with the top fixed wall 52.

The centrifugal body 5 is arranged above the scraping body 7, the bottom of the tank body 2 is provided with the screening mechanism 6, the inner side surface of the screening mechanism 6 is rotatably connected with the rotating shaft 4, the position, close to the screening mechanism 6, of the surface of the rotating shaft 4 is fixedly connected with the scraping body 7, the scraping body 7 comprises a reverser 71, the inner side surface of the reverser 71 is fixedly connected with the upper position of the surface of the rotating shaft 4, the surface of the reverser 71 is fixedly connected with a rotating wall 72, the lower position of the surface of the rotating wall 72 is fixedly connected with a disk body 73, one end, far away from the reverser 71, of the rotating wall 72 is rotatably connected with a corrugated wall 74, the bottom of the tank body 2 is fixedly connected with the base 1, the screening mechanism 6 comprises a connecting wall 61, the top of the connecting wall 61 is fixedly connected with the bottom of the tank body 2 through the matching use of the screening mechanism 6, the scraping body 7, the dust falling mechanism 3, the centrifugal body 5 and other mechanisms, the problem of how to automatically carrying out re-crushing treatment on aggregate which does not accord with size conditions is solved, how to the dust in the crushing treatment of aggregate in the process, the surface of the elastic wall 61 is fixedly connected with the middle position of the surface of the elastic wall 63, the surface of the elastic wall 63 is connected with a spray head 64, the elastic wall 63, the surface of the elastic wall 63 is connected with the surface of the elastic wall 63, and the spray head 64, the elastic wall 63, and the spray head of the elastic wall 63, and the elastic wall 63 which is fixedly connected with the surface of the spray head of the elastic wall 63 which is fixedly connected with the surface of the elastic wall 63, and the spray head of the spray head which is close to the elastic wall 63.

When in use: this regulation and control optimizing device based on intelligent grit aggregate of big data is through screening mechanism 6, scrape the cooperation of mechanisms such as material body 7, dust fall mechanism 3 and centrifugal body 5 and use, has solved how automatically to carry out crushing treatment again to the grit aggregate that is not conform to the size condition, and how to carry out purification treatment's problem at the dust of broken in-process in with the grit aggregate.

After the aggregates are crushed by the stone blocks 33, the aggregates with small sizes pass through Kong Guachu on the surface of the connecting wall 61 through the scraping body 7, the rest aggregates are deposited on the surface of the connecting wall 61, and the aggregates are shaped by the grinding body 62, so that the fluidity of the aggregates is increased, when the weight of the accumulated aggregates is too large, the elastic wall 63 downwards presses the blasting device 64, the blasting device 64 is subjected to pressure explosion, the aggregates are blown to the sphere 55 through the nozzle 65 to be crushed for the second time, when the aggregates fall on the surface of the mechanism wall 51, the ceramic layer 54 absorbs heat due to work done by friction resistance caused by centrifugation, and when the nozzle 65 blows the aggregates to the sphere 55, the heat absorbed by the ceramic layer 54 is transferred to the sphere 55, so that the aggregates absorb more energy in the collision process and are crushed more easily.

When the aggregate impacts the stone 33, a large amount of dust can be generated, in the device, the aperture of the first filter layer 31 is larger than that of the second filter layer 32, and only small particles can pass through, the dust impacts the second filter layer 32 through the first filter layer 31, the impact wall 53 has magnetism, and the magnetism is opposite to that of the magnetic ball 35, the magnetic ball 35 is attracted to do rotary motion, so that the sprinkler 36 is driven to sprinkle water and limit the dust, the aggregate is vertical to the first filter layer 31 in the speed direction of impacting the stone 33, the fine powder rapidly passes through the first filter layer 31 through centrifugal throwing force and kinetic energy of impact of the stone 33, so that the dust falling efficiency is improved, the air pump 52 generates air flow, a certain lubricating and cooling effect is performed on the stone 33, and the damage to the device caused by excessive heat generated by collision is avoided.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a regulation and control optimizing apparatus based on intelligent grit aggregate of big data, includes jar body (2), its characterized in that: the utility model discloses a screening method, including jar body (2), screening mechanism (6), the medial surface of screening mechanism (6) rotates and is connected with pivot (4), the position fixedly connected with that the surface of pivot (4) is close to screening mechanism (6) scrapes material (7), screening mechanism (6) are including connecting wall (61), the top of connecting wall (61) and the bottom fixed connection of the jar body (2), the middle part fixed connection on connecting wall (61) surface has elastic wall (63), the medial surface of elastic wall (63) rotates with the surface of pivot (4) to be connected, the inside fixedly connected with blasting ware (64) of elastic wall (63), the fixed surface of elastic wall (63) is connected with shower nozzle (65), the surface of elastic wall (63) is seted up porosely, the position fixedly connected with rinding body (62) that the elastic wall (63) surface is close to the hole.

2. The regulation and control optimization device based on big data intelligent sandstone aggregate of claim 1, characterized in that: the middle part position fixedly connected with dust fall mechanism (3) on jar body (2) surface, the position fixedly connected with centrifugal body (5) that dust fall mechanism (3) are close to on pivot (4) surface, centrifugal body (5) set up the top position of scraping material body (7).

3. The intelligent sandstone aggregate regulation and control optimization device based on big data according to claim 2, characterized in that: the scraping body (7) comprises a reverser (71), the inner side face of the reverser (71) is fixedly connected with the upper position of the surface of the rotating shaft (4), and a rotating wall (72) is fixedly connected with the surface of the reverser (71).

4. The regulation and control optimization device based on big data intelligence grit aggregate of claim 3 characterized in that: the lower position fixedly connected with disk body (73) on the wall (72) surface rotates, the one end that the wall (72) kept away from reverser (71) rotates and is connected with fold wall (74), the bottom fixedly connected with base (1) of jar body (2).

5. The intelligent sandstone aggregate regulation and control optimization device based on big data according to claim 4, wherein the intelligent sandstone aggregate regulation and control optimization device is characterized in that: dust fall mechanism (3) include first filtering layer (31) and second filtering layer (32), the surface of first filtering layer (31) and second filtering layer (32) all is connected with the fixed surface of the jar body (2), the fixed surface of first filtering layer (31) is connected with stone (33).

6. The intelligent sandstone aggregate regulation and control optimization device based on big data according to claim 5, wherein the intelligent sandstone aggregate regulation and control optimization device is characterized in that: the middle position fixedly connected with chute body (34) of first filtering layer (31) and second filtering layer (32) opposite face, the surperficial sliding connection of chute body (34) has magnetic ball (35), the bottom fixedly connected with sprinkler (36) of magnetic ball (35).

7. The intelligent sandstone aggregate regulation and control optimization device based on big data according to claim 6, wherein the intelligent sandstone aggregate regulation and control optimization device is characterized in that: the centrifugal body (5) comprises a mechanism wall (51), an air pump (52) is fixedly connected to the middle of the surface of the mechanism wall (51), and the bottom of the air pump (52) is fixedly connected with the top of the rotating shaft (4).

8. The intelligent sandstone aggregate regulation and control optimization device based on big data according to claim 7, wherein the intelligent sandstone aggregate regulation and control optimization device comprises: the ceramic mechanism is characterized in that a ceramic layer (54) is fixedly connected to the inner side surface of the mechanism wall (51), a sphere (55) is rotatably connected to the bottom of the mechanism wall (51), and an impact wall (53) is fixedly connected to the top of the mechanism wall (51).

Images