CN113680273B - Equipment capable of realizing long-term stable storage of high-performance SBS (styrene butadiene styrene) modified emulsified asphalt - Google Patents
Equipment capable of realizing long-term stable storage of high-performance SBS (styrene butadiene styrene) modified emulsified asphalt Download PDFInfo
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- CN113680273B CN113680273B CN202111024428.6A CN202111024428A CN113680273B CN 113680273 B CN113680273 B CN 113680273B CN 202111024428 A CN202111024428 A CN 202111024428A CN 113680273 B CN113680273 B CN 113680273B
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10C—WORKING-UP PITCH, ASPHALT, BITUMEN, TAR; PYROLIGNEOUS ACID
- C10C3/00—Working-up pitch, asphalt, bitumen
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10C—WORKING-UP PITCH, ASPHALT, BITUMEN, TAR; PYROLIGNEOUS ACID
- C10C3/00—Working-up pitch, asphalt, bitumen
- C10C3/002—Working-up pitch, asphalt, bitumen by thermal means
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10C—WORKING-UP PITCH, ASPHALT, BITUMEN, TAR; PYROLIGNEOUS ACID
- C10C3/00—Working-up pitch, asphalt, bitumen
- C10C3/10—Melting
- C10C3/12—Devices therefor
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Abstract
The invention is suitable for the technical field of asphalt production equipment, and particularly relates to equipment capable of realizing long-term stable storage of high-performance SBS modified emulsified asphalt. According to the invention, by arranging the asphalt stirring structure, when the stirring assembly is used for stirring the asphalt in the storage box main body, the stirring assembly is used as power input and the asphalt in the storage box main body is stirred in the stirring direction different from the stirring direction of the stirring assembly, so that the asphalt stirring efficiency is improved.
Description
Technical Field
The invention relates to the technical field of asphalt production equipment, in particular to equipment capable of realizing long-term stable storage of high-performance SBS modified emulsified asphalt.
Background
The SBS modified emulsified asphalt is one of improved asphalt, is usually used for building high-grade roads, has good road performance, and has good high-temperature stability, low-temperature crack resistance, good track resistance and strong binding power with stones.
After the production of the SBS modified emulsified asphalt is finished, the SBS modified emulsified asphalt needs to be stored by using storage equipment so as to be convenient for transportation and use of the SBS modified emulsified asphalt.
The asphalt storage barrel usually has stirring and heating functions to prevent asphalt from solidifying and precipitating, but the stirring mechanism in the existing asphalt storage barrel usually only stirs asphalt in a single direction, so that the flowing efficiency of asphalt is low.
Disclosure of Invention
The embodiment of the invention aims to provide equipment capable of realizing long-term stable storage of high-performance SBS modified emulsified asphalt, and aims to solve the following problems: the asphalt storage barrel usually has stirring and heating functions to prevent asphalt from solidifying and precipitating, but the stirring mechanism in the existing asphalt storage barrel usually only stirs asphalt in a single direction, so that the flowing efficiency of asphalt is low.
In order to achieve the purpose, the invention provides the following technical scheme:
the utility model provides an equipment that can realize long-term stable storage high performance SBS modified emulsified asphalt, includes holding box main part and stirring subassembly, and the stirring subassembly is installed in the holding box main part, equipment that can realize long-term stable storage high performance SBS modified emulsified asphalt still includes:
the asphalt stirring structure is arranged on the storage box main body and the stirring assembly and is used for stirring the asphalt in the storage box main body by taking the stirring assembly as power input and in a stirring direction different from the stirring direction of the stirring assembly when the stirring assembly is used for stirring the asphalt in the storage box main body; and
the heating structure is installed on holding vessel main part and stirring subassembly for use the stirring subassembly to be power input and cooperate mechanical transmission to come the even pitch that transmits in the holding vessel main part of heat, for the pitch heating in the holding vessel main part.
Further, the asphalt agitating structure includes:
the stirring assembly is arranged in the storage box main body and is used for stirring the asphalt in the storage box main body in a stirring direction different from the stirring direction of the stirring assembly; and
the reciprocating lifting assembly is arranged on the storage box main body and the stirring assembly and used for driving the stirring assembly to move in the storage box main body by taking the stirring assembly as power input.
Further, the agitating assembly includes:
the stirring piece is hinged on the reciprocating lifting assembly and is used for stirring the asphalt in the storage box main body;
the traction part is arranged on the stirring part;
the sliding part is movably connected to the traction part, and the traction part is used for driving the sliding part to move; and
the extensible member is installed on the surface of reciprocating lifting assembly and is hinged to the sliding member, the sliding member is used for driving the extensible member to stretch, and the extensible member is used for limiting the angle of the stirring member.
Further, the reciprocating lift assembly comprises:
the lifting piece is used for installing the stirring component and can also drive the stirring component to move;
the first moving piece is connected with the lifting piece and used for driving the lifting piece to move;
the conveying piece is used for installing the first moving piece, and the outer side of the first moving piece is in contact with the inner wall of the conveying piece;
the liquid storage part is connected to the surface of the storage box main body and communicated with the interior of the conveying part;
the flow member is stored in the conveying member and the liquid storage member and used for driving the first moving member to move;
the second moving part is connected inside the liquid storage part in a sliding mode and used for pushing the flowing part to flow inside the conveying part;
the extrusion piece is arranged on the stirring assembly and is used for driving the second movable piece to move by taking the stirring assembly as power input; and
and the elastic piece is arranged between the liquid storage piece and the second moving piece and is used for driving the second moving piece to move.
Further, the heating structure includes:
the heating assembly is arranged on the side surface of the storage box main body and is used for heating the asphalt in the storage box main body; and
the transmission assembly is arranged on the stirring assembly and the storage box main body and used for driving the heating assembly to move on the surface of the storage box main body by taking the stirring assembly as power input and matching with mechanical transmission.
Further, the heating assembly includes:
the heat conducting piece is attached to the surface of the storage box main body and is used for transferring heat to asphalt in the storage box main body;
the heating element is arranged in the heat-conducting element and is used for transferring heat to the heat-conducting element; and
the heat preservation piece is connected to the side of the storage box main body, is in sliding connection with the heat conduction piece and is used for preserving heat of the storage box main body.
Further, the transmission assembly includes:
the moving piece is connected with the heating assembly and is used for driving the heating assembly to move;
the fifth transmission part is rotationally connected to the heating component and used for driving the moving part to move;
the fourth transmission piece is arranged on the surface of the fifth transmission piece and used for driving the fifth transmission piece to rotate;
the third transmission piece is connected with the fourth transmission piece and used for driving the fourth transmission piece to move;
the rotating piece is rotatably arranged on the surface of the storage box main body and is used for driving the third transmission piece to rotate;
the second transmission piece is arranged on the outer side of the rotating piece and used for driving the rotating piece to move; and
the first transmission piece is arranged on the outer side of the stirring assembly and used for driving the second transmission piece to move by taking the stirring assembly as power input.
According to the equipment capable of realizing long-term stable storage of the high-performance SBS modified emulsified asphalt, the asphalt stirring structure is arranged, so that when the stirring assembly is used for stirring the asphalt in the storage box main body, the stirring assembly is used as power input, and the asphalt in the storage box main body is stirred in the stirring direction different from the stirring direction of the stirring assembly, so that the stirring efficiency of the asphalt is improved.
Drawings
FIG. 1 is a schematic structural diagram of an apparatus capable of realizing long-term stable storage of high-performance SBS modified emulsified asphalt.
Fig. 2 is a partial structural view of an agitating assembly in an apparatus for realizing long-term stable storage of high-performance SBS modified emulsified asphalt.
Fig. 3 is a partial structural schematic diagram of a stirring member, a first moving member and a lifting member in an apparatus capable of realizing long-term stable storage of high-performance SBS modified emulsified asphalt.
FIG. 4 is a partial structural view of a heating structure in an apparatus capable of realizing long-term stable storage of high-performance SBS modified emulsified asphalt.
In the figure: 1. a storage box main body; 2. an asphalt agitation structure; 21. an agitation assembly; 211. a telescoping member; 212. a slider; 213. a pulling member; 214. a stirring member; 22. a reciprocating lift assembly; 221. a first movable member; 222. a lifting member; 223. a flow member; 224. a conveying member; 225. a liquid storage member; 226. an elastic member; 227. a second movable member; 228. an extrusion; 3. a heating structure; 31. a heating assembly; 311. a heat conductive member; 312. a heating member; 313. a heat preservation member; 32. a transmission assembly; 321. a first transmission member; 322. a second transmission member; 323. a rotating member; 324. a third transmission member; 325. a fourth transmission member; 326. a moving member; 327. a fifth transmission member; 4. a stirring assembly; 41. a drive member; 42. and (4) a stirring piece.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Specific implementations of the present invention are described in detail below with reference to specific embodiments.
As shown in fig. 1 to 4, an apparatus for realizing long-term stable storage of high-performance SBS modified emulsified asphalt according to an embodiment of the present invention includes a storage tank body 1 and a stirring assembly 4, where the stirring assembly 4 is mounted on the storage tank body 1, and the apparatus for realizing long-term stable storage of high-performance SBS modified emulsified asphalt further includes:
the asphalt stirring structure 2 is arranged on the storage box main body 1 and the stirring assembly 4 and is used for stirring the asphalt in the storage box main body 1 by taking the stirring assembly 4 as power input and in a stirring direction different from the stirring direction of the stirring assembly 4 when the stirring assembly 4 is used for stirring the asphalt in the storage box main body 1; and
heating structure 3 installs on storage box main part 1 and stirring subassembly 4 for use stirring subassembly 4 as power input and cooperate mechanical transmission to come the even pitch that transmits in storage box main part 1 of heat, for the pitch heating in storage box main part 1.
In an embodiment of the present invention, the stirring component 4 may be composed of a driving component 41 and a stirring component 42, the driving component 41 is installed on the surface of the storage tank main body 1, the stirring component 42 is disposed inside the storage tank main body 1 and connected to the output end of the driving component 41, the driving component 41 may be a driving motor or a stepping motor, the stirring component 42 may be a stirring rack or a stirring rod, the asphalt stirring structure 2 may agitate the storage tank main body 1 in a stirring direction different from the stirring direction of the stirring component 4 or through mechanical transmission during the stirring process of the stirring component 4, so as to accelerate the flow of the asphalt inside the storage tank main body 1, the heating structure 3 may be a mode of using the stirring component 4 as power input and matching with the mechanical transmission to drive the heating component to move on the surface of the storage tank main body 1 or wrap the outer surface of the storage tank main body 1 with a heat conducting component, and then the heat-conducting objects are heated, so that the aim of uniformly heating the asphalt in the storage box main body 1 is fulfilled.
As shown in fig. 1 to 3, in one embodiment of the present invention, the asphalt-agitating structure 2 includes:
an agitating unit 21 provided inside the storage box body 1 for agitating the asphalt in the storage box body 1 in an agitating direction different from that of the agitating unit 4; and
and the reciprocating lifting assembly 22 is arranged on the storage box main body 1 and the stirring assembly 4 and is used for driving the stirring assembly 21 to move in the storage box main body 1 by taking the stirring assembly 4 as power input.
In this embodiment, the stirring module 21 functions to enable the stirring module 21 to stir the asphalt in the storage box body 1 in a stirring direction different from the stirring direction of the stirring module 4 by using the stirring module 4 as a power input to push the stirring module 21 to move up and down inside the storage box body 1 or by using a hydraulic push rod or an electric push rod to directly push the stirring module 21 to move, by enabling the stirring module 21 to change the angle so that the inclined stirring module 22 can stir the asphalt to the stirring module 4 while the reciprocating lifting module 22 moves the stirring module 4 to stir the asphalt.
In the present embodiment, the agitating assembly 21 includes:
the stirring piece 214 is hinged on the reciprocating lifting assembly 22 and is used for stirring the asphalt in the storage box main body 1;
a pulling member 213 mounted on the agitating member 214;
the sliding part 212 is movably connected to the pulling part 213, and the pulling part 213 is used for driving the sliding part 212 to move; and
and the telescopic piece 211 is installed on the surface of the reciprocating lifting assembly 22 and is hinged with the sliding piece 212, the sliding piece 212 is used for driving the telescopic piece 211 to stretch, and the telescopic piece 211 is used for limiting the angle of the stirring piece 214.
In this embodiment, the stirring member 214 may be a stirring plate or a stirring block, the pulling member 213 may be a sliding rail or a sliding track, the sliding member 212 may be a sliding block or a sliding wheel, the telescopic member 211 may be a damping telescopic rod or a telescopic sleeve, when the reciprocating lifting assembly 22 drives the stirring member 214 to move up and down inside the storage box body 1 so that the stirring member 214 stirs the asphalt, the stirring member 214 may rotate on the reciprocating lifting assembly 22 through the pulling member 213, the sliding member 212 and the telescopic member 211, and after the stirring member 214 rotates by a certain angle, the telescopic member 211 may abut against the stirring member 214, so that the stirring member 214 may stir the asphalt in the storage box body 1 by a certain angle, and stir the asphalt to the stirring assembly 4 to be stirred.
In this embodiment, the reciprocating lift assembly 22 includes:
the lifting piece 222 is used for installing the stirring assembly 21 and can also drive the stirring assembly 21 to move;
the first movable piece 221 is connected with the lifting piece 222 and used for driving the lifting piece 222 to move;
the conveying element 224 is used for installing the first movable element 221, and the outer side of the first movable element 221 is in contact with the inner wall of the conveying element 224;
a liquid storage member 225 connected to the surface of the storage box body 1 and communicating with the inside of the transport member 224;
the flowing part 223 is stored inside the conveying part 224 and the liquid storage part 225 and is used for driving the first movable part 221 to move;
a second movable member 227 slidably connected inside the liquid storage member 225 for pushing the flow member 223 to flow inside the conveying member 224;
the extrusion piece 228 is arranged on the stirring component 4 and is used for driving the second movable piece 227 to move by taking the stirring component 4 as power input; and
and the elastic element 226 is arranged between the liquid storage element 225 and the second movable element 227 and is used for driving the second movable element 227 to move.
In this embodiment, the lifting member 222 may be a connecting rod or a connecting column, the first movable member 221 may be a piston block or a piston plate, the conveying member 224 may be a communicating pipe or a communicating cylinder, the liquid storage member 225 may be a liquid storage tank or a liquid storage barrel, the flowing member 223 may be hydraulic oil, the extrusion member 228 may be an eccentric extrusion block or a cam, the second movable member 227 may be a piston plate or a piston block, the elastic member 226 may be a spring or an elastic damping block, when the driving member 41 drives the stirring member 42 to rotate, the stirring member 42 drives the extrusion member 228 to rotate, so that the extrusion member 228 extrudes the second movable member 227 inside the liquid storage member 225, the second movable member 227 pushes the conveying member 224 and the flowing member 223 inside the liquid storage member 225, so that the flowing member 223 drives the lifting member 222 to move downwards, and the lifting member 222 drives the stirring member 21 to stir the asphalt in the storage tank body 1, and after the extrusion member 228 continuously rotates and is separated from the second movable member 227, the elastic element 226 drives the second movable element 227 to return to the original position, so that the second movable element 227 sucks the flowing element 223 in the conveying element 224, so that the first movable element 221 returns to the original position, and in the process of returning to the original position, the asphalt in the storage tank main body 1 is stirred again.
As shown in fig. 1 and 4, in one embodiment of the present invention, the heating structure 3 includes:
the heating assembly 31 is arranged on the side surface of the storage box main body 1 and is used for heating the asphalt in the storage box main body 1; and
and the transmission component 32 is arranged on the stirring component 4 and the storage box main body 1 and is used for taking the stirring component 4 as power input and matching mechanical transmission to drive the heating component 31 to move on the surface of the storage box main body 1.
In this embodiment, heating element 31 can be through pasting the heat conduction article with storage box main part 1 mutually, make the heat conduction article heat the pitch with the mode of heat transfer for pitch in storage box main part 1 again, its beneficial effect is, avoid heating the inside of article setting at storage box main part 1, avoid heating the problem that the article easily breaks down and is difficult to the maintenance, transmission element 32 can be for through using stirring subassembly 4 to drive heating element 31 and remove on the surface of storage box main part 1 for power input and cooperation mechanical transmission, also can drive heating element 31 through electronic flexible article and move on the surface of storage box main part 1, its purpose makes heating element 31 can be with the even pitch that transmits in storage box main part 1 of heat.
In the present embodiment, the heating assembly 31 includes:
a heat-conducting member 311 attached to the surface of the storage box body 1 for transferring heat to the asphalt in the storage box body 1;
a heating member 312 installed inside the heat conductive member 311 for transferring heat to the heat conductive member 311; and
and a heat insulating member 313 connected to a side surface of the storage box body 1, slidably connected to the heat conductive member 311, and configured to insulate the storage box body 1.
In this embodiment, the heat-conducting member 311 may be a heat-conducting plate or a heat-conducting ring, the heating member 312 may be a motor hot rod or a motor hot plate, the heat-insulating member 313 may be a heat-insulating cover or a heat-insulating enclosing plate, and the heating member 312 works and transmits heat to the heat-conducting member 311, so that the heat-conducting member 311 transmits heat to the storage box body 1 attached thereto, and further heats the asphalt in the storage box body 1.
In the present embodiment, the transmission assembly 32 includes:
the moving part 326 is connected with the heating component 31 and is used for driving the heating component 31 to move;
a fifth transmission member 327 rotatably connected to the heating assembly 31 for driving the moving member 326 to move;
the fourth transmission member 325 is installed on the surface of the fifth transmission member 327 and is used for driving the fifth transmission member 327 to rotate;
the third transmission member 324 is connected with the fourth transmission member 325 and is used for driving the fourth transmission member 325 to move;
a rotating member 323 rotatably mounted on the surface of the storage box body 1 for driving the third transmission member 324 to rotate;
the second transmission piece 322 is installed on the outer side of the rotating piece 323 and used for driving the rotating piece 323 to move; and
the first transmission member 321 is disposed outside the stirring assembly 4, and is configured to drive the second transmission member 322 to move by taking the stirring assembly 4 as a power input.
In this embodiment, the moving member 326 may be a threaded ring or a threaded pipe, the fifth transmission member 327 may be a threaded post or a threaded rod, the fourth transmission member 325 may be a bevel gear ring or a bevel gear, the rotating member 323 may be a rotating rod or a rotating post, the second transmission member 322 may be a bevel gear ring or a bevel gear, the first transmission member 321 may be a bevel gear ring or a bevel gear ring, the third transmission member 324 may be a bevel gear ring or a bevel gear ring, when the stirring element 42 rotates, the stirring element 42 drives the second transmission element 322 to rotate through the first transmission element 321, the second transmission element 322 drives the fourth transmission element 325 and the fifth transmission element 327 to rotate through the rotating element 323 and the third transmission element 324, so that the moving element 326 moves vertically on the fifth transmission element 327, the moving element 326 drives the heat conduction element 311 to slide on the thermal insulation element 313, thereby achieving the purpose that the heat conducting piece 311 uniformly transfers the heat to the asphalt in the storage box main body 1.
The working mode of the invention is as follows: when the driving element 41 drives the stirring element 42 to rotate, the stirring element 42 drives the extrusion element 228 to rotate, so that the extrusion element 228 extrudes the second movable element 227 in the liquid storage element 225, the second movable element 227 pushes the conveying element 224 and the flowing element 223 in the liquid storage element 225, so that the flowing element 223 drives the lifting element 222 to move downwards, the lifting element 222 drives the stirring element 21 to stir the asphalt in the storage box body 1, and after the extrusion element 228 continuously rotates and is separated from the second movable element 227, the elastic element 226 drives the second movable element 227 to return to the original position, so that the second movable element 227 sucks the flowing element 223 in the conveying element 224, so that the first movable element 221 returns to the original position, and the asphalt in the storage box body 1 is stirred again in the process of returning to the original position;
when the reciprocating lifting assembly 22 drives the stirring member 214 to move up and down in the storage box main body 1 so that the stirring member 214 stirs the asphalt, the stirring member 214 rotates on the reciprocating lifting assembly 22 through the pulling member 213, the sliding member 212 and the telescopic member 211, and after the stirring member 214 rotates by a certain angle, the telescopic member 211 abuts against the stirring member 214, so that the stirring member 214 can stir the asphalt in the storage box main body 1 by a certain angle, and stir the asphalt to the stirring assembly 4 to be stirred;
the heating element 312 works and transfers heat to the heat conducting element 311, so that the heat conducting element 311 transfers heat to the storage box main body 1 attached to the heat conducting element 311, and further heats the asphalt in the storage box main body 1, and when the stirring element 42 rotates, the stirring element 42 drives the second transmission element 322 to rotate through the first transmission element 321, the second transmission element 322 drives the fourth transmission element 325 and the fifth transmission element 327 to rotate through the rotating element 323 and the third transmission element 324, so that the moving element 326 moves on the fifth transmission element 327 in the vertical direction, and the moving element 326 drives the heat conducting element 311 to slide on the heat insulating element 313, thereby achieving the purpose that the heat conducting element 311 uniformly transfers heat to the asphalt in the storage box main body 1.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.
Claims (4)
1. The utility model provides an equipment that can realize long-term stable storage high performance SBS modified emulsified asphalt, includes holding vessel main part and stirring subassembly, and the stirring unit mount is in holding vessel main part, its characterized in that, the equipment that can realize long-term stable storage high performance SBS modified emulsified asphalt still includes:
the asphalt stirring structure is arranged on the storage box main body and the stirring assembly and is used for stirring the asphalt in the storage box main body by taking the stirring assembly as power input and in a stirring direction different from the stirring direction of the stirring assembly when the stirring assembly is used for stirring the asphalt in the storage box main body;
the heating structure is arranged on the storage box main body and the stirring assembly and is used for uniformly transferring heat to the asphalt in the storage box main body by taking the stirring assembly as power input and matching with mechanical transmission so as to heat the asphalt in the storage box main body;
the asphalt agitating structure includes:
the stirring assembly is arranged in the storage box main body and is used for stirring the asphalt in the storage box main body in a stirring direction different from the stirring direction of the stirring assembly;
the reciprocating lifting component is arranged on the storage box main body and the stirring component and is used for driving the stirring component to move in the storage box main body by taking the stirring component as power input;
the agitation assembly includes:
the stirring piece is hinged on the reciprocating lifting assembly and is used for stirring the asphalt in the storage box main body;
the traction part is arranged on the stirring part;
the sliding part is movably connected to the traction part, and the traction part is used for driving the sliding part to move;
the telescopic piece is arranged on the surface of the reciprocating lifting assembly and is hinged with the sliding piece, the sliding piece is used for driving the telescopic piece to stretch, and the telescopic piece is used for limiting the angle of the stirring piece;
the reciprocating lift assembly comprises:
the lifting piece is used for installing the stirring component and can also drive the stirring component to move;
the first moving piece is connected with the lifting piece and used for driving the lifting piece to move;
the conveying piece is used for installing the first moving piece, and the outer side of the first moving piece is in contact with the inner wall of the conveying piece;
the liquid storage part is connected to the surface of the storage box main body and communicated with the interior of the conveying part;
the flow member is stored in the conveying member and the liquid storage member and used for driving the first moving member to move;
the second moving part is connected inside the liquid storage part in a sliding mode and used for pushing the flowing part to flow inside the conveying part;
the extrusion piece is arranged on the stirring assembly and is used for driving the second movable piece to move by taking the stirring assembly as power input;
and the elastic piece is arranged between the liquid storage piece and the second moving piece and is used for driving the second moving piece to move.
2. The equipment for realizing the SBS modified emulsified asphalt with high performance and capable of being stored stably for a long time as claimed in claim 1, wherein the heating structure comprises:
the heating assembly is arranged on the side surface of the storage box main body and is used for heating the asphalt in the storage box main body; and the transmission assembly is arranged on the stirring assembly and the storage box main body and is used for taking the stirring assembly as power input and matching mechanical transmission to drive the heating assembly to move on the surface of the storage box main body.
3. The equipment for realizing the SBS modified emulsified asphalt with high performance and capable of being stored stably for a long time as claimed in claim 2, wherein the heating assembly comprises:
the heat conducting piece is attached to the surface of the storage box main body and is used for transferring heat to asphalt in the storage box main body;
the heating element is arranged in the heat-conducting element and is used for transferring heat to the heat-conducting element;
and the heat preservation piece is connected to the side surface of the storage box main body, is in sliding connection with the heat conduction piece and is used for preserving heat of the storage box main body.
4. The equipment for realizing the long-term stable storage of the high-performance SBS modified emulsified asphalt as claimed in claim 2, wherein the transmission assembly comprises:
the moving piece is connected with the heating assembly and is used for driving the heating assembly to move;
the fifth transmission part is rotationally connected to the heating component and used for driving the moving part to move;
the fourth transmission piece is arranged on the surface of the fifth transmission piece and used for driving the fifth transmission piece to rotate;
the third transmission piece is connected with the fourth transmission piece and used for driving the fourth transmission piece to move;
the rotating piece is rotatably arranged on the surface of the storage box main body and is used for driving the third transmission piece to rotate;
the second transmission piece is arranged on the outer side of the rotating piece and used for driving the rotating piece to move;
and the first transmission piece is arranged on the outer side of the stirring assembly and is used for driving the second transmission piece to move by taking the stirring assembly as power input.
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CN113234465A (en) * | 2021-06-08 | 2021-08-10 | 安徽中宏橡塑有限公司 | Modified asphalt processing equipment and use method thereof |
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