CN116272780A - A reaction unit for extracting natural pitch for bituminous rock - Google Patents

Abstract

The invention relates to a reaction device for extracting natural asphalt for asphaltic rock, which comprises a fixed support and a reaction tank body arranged in the fixed support, wherein a premixing cavity and a forced mixing cavity are respectively arranged at the upper end and the lower end of an inner cavity of the reaction tank body, a sealing shaft sleeve is arranged at the center of the bottom end of the forced mixing cavity, a conveying pipe is rotationally arranged in the sealing shaft sleeve and longitudinally penetrates through the bottom end of the reaction tank body, the bottom end of the conveying pipe is rotationally arranged in a rotary connecting seat, a blower is arranged at one side of the rotary connecting seat, a powder feeding device is connected and arranged at the other side of the rotary connecting seat, and the top end of the conveying pipe extends into the premixing cavity; the top end of the reaction tank body is longitudinally penetrated and provided with a liquid inlet pipe, the bottom end of the liquid inlet pipe is connected and provided with a spray coil, and a plurality of spray heads are uniformly distributed at the bottom of the spray coil. By adopting the air injection feeding structure, powder raw materials are sprayed out from the upper end of the inner cavity of the mixing tank body and are scattered on the surface of the guide hopper, and meanwhile, the sprayed processing liquid and the powder on the surface of the guide hopper are subjected to primary mixing treatment, so that the mixing quality is improved.

Description

A reaction unit for extracting natural pitch for bituminous rock

Technical Field

The invention belongs to the technical field of reaction devices, and particularly relates to a reaction device for extracting natural asphalt for asphaltic rock.

Background

Asphaltites, i.e. "asphalts naturally occurring in nature", are commonly referred to as rock asphalts. The physical characteristics of asphaltic rock tend to be "coal" under natural conditions, and the main components of the asphaltic rock are asphaltene, colloid or mineral asphalt matrixes. The rock asphalt belongs to a natural asphalt modifier, has very good high-temperature stability, and can obviously improve the rutting resistance of asphalt pavement.

In the extraction process of natural asphalt, it is necessary to use a reaction tank to receive the powdery raw material from the raw material pulverizing device and the processing liquid from the processing liquid tank and mix the powdery raw material and the processing liquid to form a mixed slurry to be processed.

Patent number CN201620921789.9 discloses a modifier mixing device for modified asphalt, which adopts a closed feeding mode to solve the problem that the powder principle flies in the feeding process, and uses a screw feeder to send the modifier into a screw mixer to be mixed with part of asphalt, and then directly sends the modifier to a blade of a stirrer to be forcedly dispersed and mixed. In the mixing device, when the processing liquid is directly added into the tank body and mixed with the powder raw material, the powder raw material can be agglomerated and caked, so that the mixing is uneven; and the application is easy to generate precipitation phenomenon during mixing and stirring, thereby further influencing the mixing quality of the powder raw materials.

Disclosure of Invention

The invention discloses a reaction device for extracting natural asphalt for asphaltic rock, aiming at the problems, and solves the problems that in the prior art, a reaction mixing device is easy to generate phenomena such as caking and precipitation, and uneven material mixing is caused.

The specific technical scheme is as follows:

the utility model provides a natural pitch draws and uses reaction equipment for pitch rock, includes the fixed bolster and sets up the retort body in the fixed bolster, the retort body is the round tank body of enclosed construction, and the upper and lower both ends of retort body inner chamber are equipped with respectively and mix chamber and force the chamber by mixing, force the chamber bottom center of mixing and be equipped with sealed axle sleeve, be provided with the conveying pipeline through sealed bearing rotation in the sealed axle sleeve, the conveying pipeline vertically runs through retort body bottom, and the conveying pipeline bottom rotates to set up in rotating the connecting seat, rotating the connecting seat below of the retort body, rotating the connecting seat and being hollow structure, rotating connecting seat one side is provided with the air-blower, and the air-out mouth of pipe of air-blower is linked together with one side of rotating the connecting seat, and the opposite side of rotating the connecting seat is connected and is equipped with powder feed arrangement, the top of conveying pipeline extends to in the premixing chamber, conveying pipeline top mouth of pipe department is equipped with the guide cover plate; the bottom of the reaction tank body is provided with a driving motor through a motor bracket, an output shaft of the driving motor is provided with a driving gear, one side of the driving gear is connected with a driven gear in a meshed manner, and the driven gear is arranged at the bottom end of the conveying pipe so as to realize that the driving motor drives the conveying pipe to rotate;

the top end of the reaction tank body is longitudinally penetrated with a liquid inlet pipe, the bottom end of the liquid inlet pipe is connected with a spray coil pipe with an annular structure, and a plurality of spray heads are uniformly distributed at the bottom of the spray coil pipe;

the device comprises a pre-mixing cavity, a vibrating guide device, a vibrating motor, a guide hopper and an elastic support, wherein the vibrating guide device comprises a circular structure, the guide hopper is sleeved outside a conveying pipe, the edge of the upper end of the guide hopper is fixed through a plurality of elastic supports arranged on the inner wall of a reaction tank body, the elastic connection between the guide hopper and the reaction tank body is realized, the upper end of the guide hopper is obliquely arranged and is in a stepped shape, the lower end of the guide hopper is vertically arranged, and the vibrating motor is arranged on the outer wall of the lower end of the guide hopper;

the forced mixing cavity is internally provided with a plurality of groups of anti-sedimentation stirring assemblies from top to bottom, each anti-sedimentation stirring assembly comprises an annular toothed plate, a rotating seat, a rotary stirring rod and a spiral stirring blade, the outer side wall of each annular toothed plate is arranged on the inner wall of the reaction tank body, the inner side wall of each annular toothed plate is provided with a circle of toothed blocks, the inner side of each annular toothed plate is obliquely arranged downwards, and the surface of each annular toothed plate is provided with a plurality of through holes; the quantity of roating seat is three at least and distributes on the conveying pipeline along circumference, and the roating seat is slope downward setting, rotates through the bearing in every roating seat respectively and sets up rotatory puddler, the bottom of every rotatory puddler all sets up a spiral stirring leaf, and all is provided with rotary gear on every rotatory puddler, rotary gear position is located the lower extreme position of annular pinion rack, and one side of rotary gear is connected with the tooth piece meshing on the annular pinion rack inside wall.

Further, the rotary stirring rod is arranged in a downward inclined mode, and the inclined direction of the rotary stirring rod is perpendicular to the inclined direction of the annular toothed plate.

Further, a discharge pipe is obliquely arranged at the bottom end of one side of the reaction tank body, and a flow control valve is arranged on the discharge pipe.

Further, powder feed arrangement includes inlet pipe, spiral auger, material loading motor, feeder hopper, the inlet pipe sets up for the slope, and the higher one end of inlet pipe is connected with rotating connecting seat one side, and the inlet pipe upper end sets up the feeder hopper, and the lower one end of feeder hopper communicates with the inlet pipe, sets up spiral auger in the inlet pipe, and spiral auger one end is rotatory through the material loading motor drive of installing in the inlet pipe upper end.

Further, a gas-liquid separator connected with the reaction tank body is arranged at the outer side of the reaction tank body; the inlet end of the gas-liquid separator is connected with the side wall of the reaction tank body, the top of the gas-liquid separator discharges air through an exhaust pipe, and a liquid discharge pipe at the bottom of the gas-liquid separator is connected with the side wall of the reaction tank body.

Further, the guide cover plate is circular and is in an arch structure, a plurality of guide strips are arranged on the inner side wall of the guide cover plate, the guide strips are distributed along the central circumference of the guide cover plate, support rods are longitudinally arranged on the guide strips, and the bottom ends of the support rods are fixedly arranged at the top ends of the conveying pipes.

Further, a circle of baffle plates are arranged at the bottom end of the guide hopper.

The beneficial effects of the invention are as follows:

(1) The feeding mechanism adopts an air injection feeding structure, so that powder raw materials are sprayed out from the upper end of the inner cavity of the mixing tank body and are scattered on the surface of the guide hopper, and meanwhile, sprayed processing liquid and powder on the surface of the guide hopper are subjected to primary mixing treatment, so that caking phenomenon of materials is effectively reduced, and mixing quality is improved.

(2) Adopt and prevent deposiing stirring subassembly, through the rotation of conveying pipeline, under the cooperation of the tooth piece on rotatory gear and the annular pinion rack, can drive the rotation pole revolution stirring and carry out the rotation simultaneously to the accessible spiral stirring leaf stirs the material of retort body bottom, and drives the material and rise, thereby when guaranteeing stirring mixing quality, effectively prevent that the material from deposiing.

Drawings

FIG. 1 is a front view of a reaction apparatus according to the present invention.

FIG. 2 is a schematic structural view of a reaction apparatus according to the present invention.

Fig. 3 is a bottom view of the chute boot plate of the present invention.

Fig. 4 is a transverse sectional view of a reaction tank body in the present invention.

Fig. 5 is an enlarged schematic view at a in fig. 2.

The reactor comprises a fixed support 1, a reaction tank 2, a sealing shaft sleeve 201, a driving motor 202, a driving gear 203, a driven gear 204, a premixing cavity 21, a forced mixing cavity 22, a discharge pipe 3, a flow control valve 31, a feed pipe 4, a guide cover plate 41, a guide strip 42, a support rod 43, a rotary connecting seat 5, a blower 51, a feed pipe 52, a feeding motor 53, a feed hopper 54, a liquid inlet pipe 6, a spray coil 61, a spray header 62, a vibration guide device 7, a vibration motor 71, a guide hopper 72, an elastic support 73, an anti-settling stirring assembly 8, an annular toothed plate 81, a toothed block 811, a through opening 812, a rotary seat 82, a rotary stirring rod 83, a spiral stirring blade 84, a rotary gear 85 and a gas-liquid separator 9.

Detailed Description

In order to make the technical scheme of the invention clearer and more definite, the invention is further described below with reference to the accompanying drawings, and any scheme obtained by carrying out equivalent substitution and conventional reasoning on the technical characteristics of the technical scheme of the invention falls into the protection scope of the invention. The fixed connection mentioned in the invention is a common connection mode in the mechanical field, and the fixed connection can be realized by welding, bolt-nut connection and screw connection.

In the description of the invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1-5, a reaction device for extracting natural asphalt for asphaltic rock comprises a fixed bracket 1 and a reaction tank body 2 arranged in the fixed bracket 1, wherein the reaction tank body 2 is a round tank body with a closed structure, a discharge pipe 3 is obliquely arranged at the bottom end of one side of the reaction tank body 2, and a flow control valve 31 is arranged on the discharge pipe 3. The upper and lower both ends of the inner chamber of the reaction tank body 2 are equipped with respectively and mix chamber 21 and forcing the chamber 22, forcing the center of mixing chamber 22 bottom to be equipped with sealed axle sleeve 201, be provided with conveying pipe 4 through sealed bearing rotation in the sealed axle sleeve 201, conveying pipe 4 vertically runs through reaction tank body 2 bottom, and conveying pipe 4 bottom rotates to set up in rotating connecting seat 5, rotating connecting seat 5 is located the below of reaction tank body 2, and rotating connecting seat 5 is hollow structure, and rotating connecting seat 5 one side is provided with air-blower 51, and the air-out mouth of air-blower 51 is linked together with one side of rotating connecting seat 5, and the opposite side connection of rotating connecting seat 5 is equipped with powder feed arrangement, and powder feed arrangement includes inlet pipe 52, spiral auger, material loading motor 53, feeder hopper 54, inlet pipe 52 is the slope setting, and the higher one end of inlet pipe 52 is connected with rotating connecting seat 5 one side, and the feeder hopper 54 is set up to the lower one end of feeder hopper 54 and feed pipe 52 intercommunication, sets up spiral auger in the inlet pipe 52, and spiral auger one end is through the drive rotation of the material loading motor 53 of installing in the upper end of inlet pipe 52 for powder raw materials is in order to make the gas to get into reaction tank 2 through the spiral connecting seat 5 in the connection, thereby the gas is blown into to the reaction tank under the powder through the conveying seat 5.

The upper end of conveying pipe 4 extends to premixing chamber 21, and conveying pipe 4 top mouth of pipe department is equipped with guide cover plate 41, and guide cover plate 41 is circular and is the arch structure setting, is equipped with a plurality of guide strips 42 on the guide cover plate 41 inside wall, a plurality of guide strips 42 distribute along the central circumference of guide cover plate 41, vertically are equipped with bracing piece 43 on the guide strip 42, and bracing piece 43 bottom mounting sets up in conveying pipe 4 top, can make powder raw materials downwardly moving under the effect of curved guide cover plate 41.

The driving motor 202 is installed through the motor support in the bottom of the reaction tank body 2, the driving gear 203 is arranged on the output shaft of the driving motor 202, the driven gear 204 is connected to one side of the driving gear 203 in a meshed mode, the driven gear 204 is arranged at the bottom end of the conveying pipe 4, the driving motor 202 is realized to drive the conveying pipe 4 to rotate, and the conveying pipe 4 can be guaranteed to rotate stably under the supporting and positioning effects of the sealing shaft sleeve 201.

The top of the reaction tank body 2 is longitudinally penetrated and provided with a liquid inlet pipe 6, the liquid inlet end of the liquid inlet pipe 6 conveys processing liquid into the reaction tank body 2 through a pump, the bottom of the liquid inlet pipe 6 is connected and provided with a spray coil 61 with an annular structure, the bottom of the spray coil 61 is uniformly distributed with a plurality of spray heads 62, and the spray heads 62 are sprayed downwards and are mixed with powder raw materials.

The premixing cavity 21 is internally provided with a vibration material guiding device 7, the vibration material guiding device 7 comprises a vibration motor 71, a material guiding hopper 72 and an elastic support 73, the material guiding hopper 72 is of a round structure, the material guiding hopper 72 is sleeved outside the material conveying pipe 4, the upper end edge of the material guiding hopper 72 is fixed through a plurality of elastic supports 73 arranged on the inner wall of the reaction tank body 2, the elastic supports 73 comprise supports, guide rods which are arranged in the supports and longitudinally penetrate through the edge of the material guiding hopper 72, and springs at the upper end and the lower end of the guide rods, the elastic connection between the material guiding hopper 72 and the reaction tank body 2 is realized, the upper end surface of the material guiding hopper 72 is obliquely arranged and is of a ladder shape, and the lower end of the material guiding hopper 72 is of a vertical pipe structure. Powder raw materials are sprayed out from the upper end of the inner cavity of the mixing tank body and are scattered on the surface of the guide hopper 72, meanwhile, the sprayed processing liquid and powder on the surface of the guide hopper 72 are subjected to primary mixing treatment, a small amount of powder and the processing liquid are mixed, the caking phenomenon of the materials can be reduced, and then the powder falls into the forced mixing cavity 22 downwards. The vibrating motor 71 is arranged on the outer wall of the lower end of the guide hopper 72, and the vibrating motor 71 is used for improving the discharging speed of the mixed liquid materials. The vibration motor 71 is sleeved with a dampproof protective shell, and a circle of baffle plates are arranged at the bottom end of the guide hopper 72 and used for preventing materials from splashing onto the vibration motor 71.

The forced mixing cavity 22 is internally provided with a plurality of groups of anti-sedimentation stirring assemblies 8 from top to bottom, each anti-sedimentation stirring assembly 8 comprises an annular toothed plate 81, a rotating seat 82, a rotating stirring rod 83 and a spiral stirring blade 84, the outer side wall of each annular toothed plate 81 is arranged on the inner wall of the reaction tank body 2, the inner side wall of each annular toothed plate 81 is provided with a circle of toothed blocks 811, the inner side of each annular toothed plate 81 is arranged in a downward inclined manner, and a plurality of through holes 812 are formed in the surface of each annular toothed plate 81; the quantity of roating seat 82 is three at least and along circumference distribution on conveying pipeline 4, and roating seat 82 is slope downward setting, rotates through the bearing in every roating seat 82 respectively and sets up rotatory puddler 83, rotatory puddler 83 is the downward sloping setting, and rotatory puddler 83's incline direction perpendicular to annular pinion rack 81's incline direction, and every rotatory puddler 83's bottom all sets up a spiral stirring leaf 84, and all is provided with rotation gear 85 on every rotatory puddler 83, rotation gear 85 position is located annular pinion rack 81's lower extreme position, and the tooth piece 811 meshing connection on one side of rotation gear 85 and the annular pinion rack 81 inside wall drives rotatory puddler 83 revolution when rotatory through conveying pipeline 4 for rotatory gear 85 and the tooth piece 811 cooperation on the annular pinion rack 81 realize rotatory rotation stirring, thereby make spiral stirring leaf 84 play stirring and lifting action to the material of lower extreme, make the material can rise, avoid the sediment.

The outer side of the reaction tank body 2 is provided with a gas-liquid separator 9 connected with the reaction tank body 2; the inlet end of the gas-liquid separator 9 is connected with the side wall of the reaction tank body 2, the top of the gas-liquid separator 9 discharges air through an exhaust pipe, and a liquid discharge pipe at the bottom of the gas-liquid separator 9 is connected with the side wall of the reaction tank body 2, so that the air in the reaction tank body 2 can be discharged, and the normal feeding of the powder feeding device is ensured.

The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (7)

1. The reaction equipment for extracting the natural asphalt for the asphaltic rock comprises a fixed support and a reaction tank body arranged in the fixed support, wherein the reaction tank body is a round tank body with a closed structure; the bottom of the reaction tank body is provided with a driving motor through a motor bracket, an output shaft of the driving motor is provided with a driving gear, one side of the driving gear is connected with a driven gear in a meshed manner, and the driven gear is arranged at the bottom end of the conveying pipe so as to realize that the driving motor drives the conveying pipe to rotate;

the top end of the reaction tank body is longitudinally penetrated with a liquid inlet pipe, the bottom end of the liquid inlet pipe is connected with a spray coil pipe with an annular structure, and a plurality of spray heads are uniformly distributed at the bottom of the spray coil pipe;

the pre-mixing cavity is internally provided with a vibration material guiding device, the vibration material guiding device comprises a vibration motor, a material guiding hopper and an elastic support, the material guiding hopper is sleeved on the outer side of the material conveying pipe, the edge of the upper end of the material guiding hopper is fixed through a plurality of elastic supports arranged on the inner wall of the reaction tank body, the elastic connection between the material guiding hopper and the reaction tank body is realized, the upper end of the material guiding hopper is obliquely arranged and is in a stepped shape, the lower end of the material guiding hopper is vertically arranged, and the vibration motor is arranged on the outer wall of the lower end of the material guiding hopper;

the forced mixing cavity is internally provided with a plurality of groups of anti-sedimentation stirring assemblies from top to bottom, each anti-sedimentation stirring assembly comprises an annular toothed plate, a rotating seat, a rotary stirring rod and a spiral stirring blade, the outer side wall of each annular toothed plate is arranged on the inner wall of the reaction tank body, the inner side wall of each annular toothed plate is provided with a circle of toothed blocks, the inner side of each annular toothed plate is obliquely arranged downwards, and the surface of each annular toothed plate is provided with a plurality of through holes; the quantity of roating seat is three at least and distributes on the conveying pipeline along circumference, and the roating seat is slope downward setting, rotates through the bearing in every roating seat respectively and sets up rotatory puddler, the bottom of every rotatory puddler all sets up a spiral stirring leaf, and all is provided with rotary gear on every rotatory puddler, rotary gear position is located the lower extreme position of annular pinion rack, and one side of rotary gear is connected with the tooth piece meshing on the annular pinion rack inside wall.

2. The reaction apparatus for extracting natural asphalt from asphalt rock according to claim 1, wherein the rotary stirring rod is provided to be inclined downward, and the inclination direction of the rotary stirring rod is perpendicular to the inclination direction of the annular toothed plate.

3. The reaction equipment for extracting natural asphalt from asphalt rock according to claim 1, wherein a discharge pipe is obliquely arranged at the bottom end of one side of the reaction tank body, and a flow control valve is arranged on the discharge pipe.

4. The reaction equipment for extracting natural asphalt from asphalt rock according to claim 3, wherein the powder feeding device comprises a feeding pipe, a spiral auger, a feeding motor and a feeding hopper, the feeding pipe is obliquely arranged, the higher end of the feeding pipe is connected with one side of the rotary connecting seat, the feeding hopper is arranged at the upper end of the feeding pipe, the lower end of the feeding hopper is communicated with the feeding pipe, the spiral auger is arranged in the feeding pipe, and one end of the spiral auger is driven to rotate by the feeding motor arranged at the upper end of the feeding pipe.

5. The reaction equipment for extracting natural asphalt from asphaltic rock according to claim 1, wherein a gas-liquid separator connected with the reaction tank is arranged outside the reaction tank; the inlet end of the gas-liquid separator is connected with the side wall of the reaction tank body, the top of the gas-liquid separator discharges air through an exhaust pipe, and a liquid discharge pipe at the bottom of the gas-liquid separator is connected with the side wall of the reaction tank body.

6. The reaction equipment for extracting natural asphalt from asphalt rock according to claim 1, wherein the guide cover plate is circular and is arranged in an arch structure, a plurality of guide strips are arranged on the inner side wall of the guide cover plate, the guide strips are distributed along the central circumference of the guide cover plate, support rods are longitudinally arranged on the guide strips, and the bottom ends of the support rods are fixedly arranged at the top ends of the conveying pipes.

7. The reaction equipment for extracting natural asphalt from bituminous rock of claim 6, wherein a circle of baffles is arranged at the bottom end of the guide hopper.

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