CN212119974U - Rubber asphalt, SBS modified asphalt and modified emulsified asphalt integral type processing equipment - Google Patents

Abstract

The invention discloses rubber asphalt, SBS modified asphalt and modified emulsified asphalt integrated processing equipment, which comprises an asphalt conveying system, a modifier feeding system, a premixing and stirring system, a shearing and grinding system, a development reaction system, an emulsifier blending system, an emulsion preparation system, a water inlet system, a finished product conveying system, an electrical control system and a heat conduction oil heating system.

Description

Rubber asphalt, SBS modified asphalt and modified emulsified asphalt integral type processing equipment

Technical Field

The invention relates to integrated asphalt processing equipment, in particular to integrated processing equipment for rubber asphalt, SBS modified asphalt and modified emulsified asphalt.

Background

At the present stage, according to the production process of rubber asphalt and SBS modified asphalt, rubber powder and SBS modifier in a certain proportion are required to be added into the base asphalt, and then the base asphalt is fully mixed, stirred, reacted and developed, so that various performances such as high-temperature stability, low-temperature crack resistance and ageing resistance of the asphalt are improved, and the qualified rubber asphalt and SBS modified asphalt are obtained. In addition, in the production process of the modified emulsified asphalt, the base asphalt and the emulsion need to be ground according to a certain proportion, so that the modified emulsified asphalt capable of being constructed at normal temperature is formed. At present, the production of rubber asphalt, SBS modified asphalt and modified emulsified asphalt needs to use a plurality of sets of special processing equipment, the capital investment and the production cost of the equipment are higher, and the automation degree of the existing various processing equipment is lower, so a great deal of manpower waste can be caused, and the production efficiency is low.

The invention aims to provide integrated processing equipment for rubber asphalt, SBS modified asphalt and modified emulsified asphalt aiming at the defects in the prior art. The equipment has the characteristics of high automation degree, strong applicability, convenient operation and high efficiency.

Disclosure of Invention

The invention aims to provide integrated processing equipment for rubber asphalt, SBS modified asphalt and modified emulsified asphalt aiming at the defects in the prior art. The equipment has the characteristics of high automation degree, strong applicability, convenient operation and high efficiency. The invention mainly solves the problems by the following technical scheme: the integrated processing equipment for the rubber asphalt, the SBS modified asphalt and the modified emulsified asphalt comprises an asphalt conveying system, a modifier feeding system, a premixing and stirring system, a shearing and grinding system, a development reaction system, an emulsifier blending system, an emulsion preparation system, a water inlet system, a finished product conveying system, an electrical control system and a heat conduction oil heating system, wherein the modifier feeding system is connected with the premixing and stirring system through a flexible material, so that the weighing and metering accuracy is prevented from being influenced; a three-way valve is arranged between the premixing and stirring system and the shearing and grinding system, is communicated with the rubber asphalt reaction kettle through a pipeline and is used for switching the production of rubber asphalt and SBS modified asphalt; a three-way valve is arranged between the shearing and grinding system and the emulsified asphalt conveying system, is communicated with the modified asphalt development tank through a pipeline and is used for switching the production of SBS modified asphalt and modified emulsified asphalt; the heat conducting oil heating system comprises a heat conducting oil boiler, a heat conducting oil pipeline and a heat conducting oil gate valve, wherein the heat conducting oil pipeline and the heat conducting oil gate valve are respectively arranged in a matrix asphalt heat exchanger, a premixing tank, a modified asphalt development tank, a rubber asphalt reaction kettle, a blending tank, an emulsion blending tank and an emulsified asphalt storage tank; the asphalt conveying system comprises a pneumatic valve, an asphalt filter, an asphalt pump, an asphalt flowmeter, a three-way valve and a heat exchanger which are sequentially connected, wherein the asphalt pump is controlled by a frequency converter, and the asphalt flowmeter has a signal feedback function, so that interactive operation with an electric control system can be realized, and the purpose of controlling asphalt flow is achieved; the heat exchanger is communicated with the asphalt pump through an asphalt flowmeter pipeline and is used for quickly heating the matrix asphalt; the pipeline is provided with a heat conduction oil gate valve and a temperature sensor, and the modifier feeding system comprises a modifier hopper, a weighing screw and a weighing sensor. The modifier hopper and the weighing screw are in hard connection through bolts, are integrally fixed on the hopper frame, and are weighed by using a weighing sensor; the weighing screw is controlled by a frequency converter, so that the conveying capacity is adjusted.

Preferably, the method comprises the following steps: the premixing and stirring system comprises a premixing tank, a stirrer, a pneumatic valve, an asphalt pump, a high-level alarm and the like. The premixing and stirring system is communicated between the heat exchanger and the shearing and grinding system through a pipeline and is used for premixing the modifier and the matrix asphalt; there are agitator, draft tube, heat conduction oil coil pipe in the premixing jar, and the top sets up high-order alarm, barrel outside parcel insulation material, it includes colloid mill, check valve and three-way valve etc. to cut grinding system, and wherein the colloid mill has stator, rotor clearance adjustable function, development reaction system develops jar, rubber asphalt reation kettle, spiral agitator, heat conduction oil coil pipe, high-order alarm and asphalt pump etc. including modified asphalt. A spiral stirrer and a heat conducting oil coil pipe are arranged in the modified asphalt development tank, a high-level alarm is arranged at the top of the modified asphalt development tank, a liquid level meter, a temperature sensor and a bimetallic thermometer are arranged at the end of the modified asphalt development tank, and a heat-insulating material is wrapped outside the tank body and is communicated with the colloid mill through a pipeline for development of modified asphalt; the rubber asphalt reaction kettle is internally provided with a spiral stirrer, a combustion fire tube and a heat conducting oil coil, the top of the rubber asphalt reaction kettle is provided with a high-level alarm, the end part of the rubber asphalt reaction kettle is provided with a combustor, a liquid level meter, a temperature sensor and a bimetallic thermometer, and the outer side of the tank body is wrapped with a heat insulation material and is communicated with an asphalt pump of a premixing and stirring system through a pipeline for the reaction of rubber asphalt; the asphalt pump is connected with the modified asphalt development tank and the rubber asphalt reaction kettle through pipelines and is used for delivering finished asphalt.

Preferably, the method comprises the following steps: the emulsifier blending system comprises an emulsifier blending tank, a blending pump, a stirrer, a pneumatic valve, a pipeline and the like. The emulsifier blending tank body is made of stainless steel, a guide plate and a heat conduction oil coil are arranged in the emulsifier blending tank body, a stirrer is arranged at the top of the emulsifier blending tank body, a temperature sensor and a bimetallic thermometer are arranged outside the emulsifier blending tank body, and a heat insulation layer is wrapped outside the emulsifier blending tank body and covered with a stainless steel skin. The emulsifier blending tank is wholly metered by a weighing sensor, and the emulsion preparation system comprises an emulsion preparation tank, an emulsion supply pump, a filter, a weighing sensor, a liquid level meter, an adjusting valve and the like. The emulsion preparation tank body is made of stainless steel, a guide plate and a heat conduction oil coil are arranged in the emulsion preparation tank body, a stirrer is arranged at the top of the emulsion preparation tank body, a temperature sensor and a bimetallic thermometer are arranged outside the emulsion preparation tank body, and a heat insulation layer is wrapped outside the emulsion preparation tank body and covered with a stainless steel skin. The whole emulsion preparation tank is measured by a weighing sensor, and the water inlet system comprises a water pump, a cooling device, a pneumatic three-way valve, pipelines and the like and is used for feeding clear water and cooling finished emulsified asphalt; the pipeline all is provided with the check valve, emulsified asphalt conveying system includes emulsified asphalt holding vessel, pitch pump and valve etc.. The emulsified asphalt storage tank is internally provided with a stirrer and a heat conducting oil coil, the top of the emulsified asphalt storage tank is provided with a high-level alarm, the end part of the emulsified asphalt storage tank is provided with a liquid level meter, a temperature sensor and a bimetallic thermometer, and the outer side of the tank body is wrapped with a heat-insulating material which is communicated with the colloid mill through a pipeline and used for storing modified emulsified asphalt; and the asphalt pump is connected with the emulsified asphalt storage tank through a pipeline and is used for delivering the modified emulsified asphalt.

Preferably, the method comprises the following steps: the electric control system comprises an electric control room, a strong cabinet, an operating platform, an air compressor and the like. The operating platform also comprises a PLC program control module, a touch screen and various digital display instruments, is used for receiving and feeding back signals of an asphalt flowmeter, a weighing sensor, a temperature sensor, a regulating valve, a high-level alarm and the like, and achieves the purpose of regulating and controlling the equipment.

Preferably, the method comprises the following steps: all asphalt pipelines and heat conducting oil pipelines are wrapped by heat insulating materials.

The invention has the advantages that:

(1) the rubber asphalt, the SBS modified asphalt and the modified emulsified asphalt processing equipment are integrated, different requirements of materials such as rubber powder, SBS modifier, emulsifier and the like and different requirements of the modification process on the equipment are met, the function of simultaneously processing the rubber asphalt, the SBS modified asphalt and the modified emulsified asphalt by one set of equipment is realized, and the universality and the applicability of the equipment are greatly improved.

(2) The integrated processing equipment provided by the invention shares the asphalt conveying system, the modifier feeding system, the premixing and stirring system, the shearing and grinding system, the development reaction system, the electrical control system and the heat conduction oil heating system, and the equipped rubber asphalt reaction kettle and the modified asphalt development tank have the tank transferring function, so that the transfer of rubber asphalt and SBS modified asphalt can be realized, the universality of the equipment is further improved, the whole equipment layout is more compact and reasonable, the field arrangement space is saved, and the occupied area is small.

(3) The electrical control system realizes the automatic control of the production of the rubber asphalt, the SBS modified asphalt and the modified emulsified asphalt, has high control precision, improves the production efficiency and effectively reduces the production cost.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the flow structure of the present invention.

Fig. 2 is a schematic diagram of the asphalt delivery system.

FIG. 3 is a schematic structural diagram of a modifier feeding system.

FIG. 4 is a schematic view of the premixing and stirring system.

FIG. 5 is a schematic diagram of a shear grinding system.

FIG. 6 is a schematic diagram of the developmental reaction system.

Fig. 7 is a schematic diagram of an emulsifier blending system.

FIG. 8 is a schematic view of the emulsion preparation system.

Fig. 9 is a schematic diagram of a water inlet system.

Fig. 10 is a schematic diagram of a finished product conveying system.

Fig. 11 is a schematic structural diagram of an electrical control system.

Fig. 12 is a schematic structural diagram of a heat transfer oil heating system.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1-12, in order to solve the above technical problems, the rubber asphalt, SBS modified asphalt, and modified emulsified asphalt integrated processing apparatus of the present invention includes an asphalt conveying system a, a modifier feeding system B, a premixing and stirring system C, a shearing and grinding system D, a development reaction system E, an emulsifier blending system F, an emulsion preparation system G, a water inlet system H, a finished product conveying system I, an electrical control system J, and a heat transfer oil heating system K.

In fig. 2: the asphalt conveying system A comprises a pneumatic valve 1, an asphalt filter 2, an asphalt pump 3, an asphalt flowmeter 5, a three-way valve 4, a heat exchanger 6, a temperature sensor 39 and the like. Wherein, the asphalt pump 3 adopts a frequency converter to control the rotating speed, and the asphalt flowmeter 5 is used for metering; the heat exchanger 6 is communicated with the asphalt pump 3 through an asphalt flowmeter 5 pipeline and is used for rapidly heating the matrix asphalt; the pipeline is provided with a heat conducting oil gate valve 7 and a temperature sensor 39.

In fig. 3: the modifier feeding system B comprises a modifier hopper 8, a weighing screw 9, a weighing sensor 10, a hopper frame 11 and the like. Wherein, the modifier hopper 8 and the weighing screw 9 are in hard connection by bolts, are integrally fixed on a hopper frame 11, and are weighed by a weighing sensor 10; the weighing screw 9 is controlled by a frequency converter to realize the adjustment of the conveying capacity.

In fig. 4: the premixing and stirring system C comprises a premixing tank 12, a stirrer 13, a pneumatic valve 1, an asphalt pump 3, a high-level alarm 14 and the like. The premixing and stirring system C is communicated between the heat exchanger 6 and the shearing and grinding system D through a pipeline and is used for premixing the modifier and the matrix asphalt; the premixing tank 12 is internally provided with a stirrer 13, a guide cylinder 37 and a heat conducting oil coil pipe 15, the top of the premixing tank is provided with a high-level alarm 14, and the outer side of the cylinder body is wrapped with a heat insulation material.

In fig. 5: the shearing and grinding system D consists of a colloid mill 17, a check valve 16, a three-way valve 4 and the like, wherein the colloid mill has the function of adjusting the clearance between a stator and a rotor.

In fig. 6: the development reaction system E comprises a modified asphalt development tank 18, a rubber asphalt reaction kettle 20, a spiral stirrer 19, a heat conduction oil coil pipe 15, a high-level alarm 14, an asphalt pump 3 and the like. A spiral stirrer 19 and a heat conducting oil coil 15 are arranged in the modified asphalt development tank 18, a high-level alarm 14 is arranged at the top, a liquid level meter, a temperature sensor 39 and a bimetallic thermometer 40 are arranged at the end part, and a heat insulation material is wrapped outside the tank body and is communicated with the colloid mill 17 through a pipeline for development of modified asphalt; a spiral stirrer 19, a combustion fire tube 22 and a heat conducting oil coil 15 are arranged in the rubber asphalt reaction kettle 20, a high-level alarm 14 is arranged at the top, a combustor 21, a liquid level meter, a temperature sensor 39 and a bimetallic thermometer 40 are arranged at the end part, and a heat insulation material is wrapped outside the tank body and is communicated with an asphalt pump 3 of the premixing and stirring system C through a pipeline for rubber asphalt reaction; the asphalt pump 3 is connected with the modified asphalt development tank 18 and the rubber asphalt reaction kettle 20 through pipelines and is used for delivering finished asphalt.

In fig. 7: the emulsifier blending system F is composed of an emulsifier blending tank 25, a blending pump 24, a stirrer 26, a pneumatic valve 27, a pipeline and the like. The emulsifier blending tank 25 is made of stainless steel, a guide plate 38 and a heat conducting oil coil 15 are arranged in the emulsifier blending tank, a stirrer 26 is arranged at the top of the emulsifier blending tank, a temperature sensor 39 and a bimetallic thermometer 40 are arranged outside the emulsifier blending tank, and a heat insulation layer is wrapped outside the emulsifier blending tank and covered with a stainless steel skin. The emulsifier blending tank 25 is entirely metered by the weighing sensor 10.

In fig. 8: the emulsion preparation system G includes an emulsion preparation tank 29, an emulsion supply pump 28, a filter 30, a load cell 10, a liquid level meter, a control valve 31, and the like. The emulsion preparation tank 29 is made of stainless steel, a guide plate 38 and a heat conducting oil coil 15 are arranged in the emulsion preparation tank, a stirrer 26 is arranged at the top of the emulsion preparation tank, a temperature sensor 39 and a bimetallic thermometer 40 are arranged outside the emulsion preparation tank, and a heat insulation layer is wrapped outside the emulsion preparation tank and covered with a stainless steel skin. The emulsion preparation tank 29 is entirely measured by the load cell 10.

In fig. 9: the water inlet system H consists of a water pump 34, a cooling device 35, a pneumatic three-way valve 32, pipelines and the like, and is used for feeding clear water and cooling finished emulsified asphalt; the pipelines are all provided with check valves.

In fig. 10: the finished product conveying system I consists of an emulsified asphalt storage tank 36, an asphalt pump 3, a pneumatic valve 1 and the like. The emulsified asphalt storage tank 36 is internally provided with a stirrer 13 and a heat conducting oil coil 15, the top of the emulsified asphalt storage tank is provided with a high-level alarm 14, the end part of the emulsified asphalt storage tank is provided with a liquid level meter, a temperature sensor 39 and a bimetallic thermometer 40, and the outer side of the tank body is wrapped with a heat insulation material which is communicated with the colloid mill 17 through a pipeline and used for storing modified emulsified asphalt; the asphalt pump 3 is connected with the emulsified asphalt storage tank 36 through a pipeline and is used for delivering the modified emulsified asphalt.

In fig. 11: the electric control system J comprises an electric control room, a strong electric cabinet, an operation table, an air compressor 42 and the like. The operation panel comprises a PLC program control module, a touch screen and various digital display instruments, and is used for receiving and feeding back signals of the asphalt flowmeter 5, the weighing sensor 10, the temperature sensor 39, the regulating valve 31, the high-level alarm 14 and the like, so that the purpose of regulating and controlling the integrated processing equipment is achieved.

In fig. 12: the heat-conducting oil heating system K comprises a heat-conducting oil boiler 43, a heat-conducting oil coil 15, a heat-conducting oil gate valve 7 and the like which are communicated with each other, and is used for heat supply and heat preservation of the integrated processing equipment.

When the rubber asphalt, SBS modified asphalt and modified emulsified asphalt integrated processing equipment is designed, the emulsifier blending tank 25, the emulsion blending tank 29, the stirrer 26, the guide plate 38, the heat conducting oil coil 38, the blending pump 24, the emulsion supply pump 28, the pipeline and the pneumatic valve 27 are all made of high-quality stainless steel. All asphalt pipelines and heat conducting oil pipelines are wrapped by heat insulating materials.

When the rubber asphalt, SBS modified asphalt and modified emulsified asphalt integrated processing equipment is used for production, an asphalt conveying system A, a modifier feeding system B, a premixing and stirring system C, a shearing and grinding system D, a development reaction system E, an electrical control system J and a heat conduction oil heating system K are shared.

The specific implementation process flow of the rubber asphalt, SBS modified asphalt and modified emulsified asphalt integrated processing equipment comprises the following steps:

A. matrix asphalt: according to the process flow of the invention, the matrix asphalt can be carried out by the following two processes:

a1, and during production of rubber asphalt and SBS modified asphalt: the pipeline is switched into rubber asphalt and modified asphalt production modes through the action of the three-way valve 4. Hot asphalt is conveyed to a heat exchanger 6 for rapid heating after passing through an asphalt pump 3 controlled by frequency conversion and an asphalt flowmeter 3 metered in real time, and then enters a premixing tank 12; the inlet, outlet and matrix asphalt outlet of the heat conducting oil pipe of the heat exchanger 6 are respectively provided with a temperature sensor 39 so as to achieve the purpose of controlling the temperature of the heat conducting oil and the temperature of the asphalt.

A2, when producing the modified emulsified asphalt: the pipeline is switched to a production mode of the modified emulsified asphalt by the action of the three-way valve 4. The hot asphalt (or SBS modified asphalt) is conveyed to the colloid mill 17 through the asphalt pump 3 controlled by frequency conversion and the asphalt flowmeter 3 metered in real time.

B. Rubber powder (or SBS modifier): rubber powder (or SBS modifier) is added into a modifier hopper 8 manually, the rotation speed of a weighing screw 9 controlled in a frequency conversion mode is adjusted and the conveying amount is adjusted in real time through real-time measurement of a weighing sensor 10, and the rubber powder or SBS modifier is conveyed to a premixing tank 12.

C. The base asphalt and the rubber powder (or SBS modifier) in the premixing tank 12 are added according to the proportion set by the formula. After the matrix asphalt and the rubber powder (or the SBS modifier) are added in sufficient quantity, starting the stirrer 13 of the premixing tank to ensure that the mixture of the matrix asphalt and the rubber powder (or the SBS modifier) is continuously stirred in the guide cylinder 37 to form a turbulent flow mode of rolling up and down, thereby enhancing the stirring effect of the mixture; the built-in heat conducting oil coil 15 has the function of a guide plate in the stirring process, so that the stirring effect is further enhanced; mix tank 12 top in advance and install high-order alarm 14, when pitch addition was too much, trigger high-order alarm and cut off the work of pitch pump 3 simultaneously, prevent the emergence of tank overflow phenomenon, effectively guaranteed constructor's safety and practiced thrift the material waste.

D. After the mixture of the base asphalt and the rubber powder (or the SBS modifier) in the premixing tank 12 is sufficiently stirred, the mixture can be divided into the following two flows according to the process of the present invention:

d1, when producing rubber asphalt: the pipeline is switched to the rubber asphalt reaction kettle 20 through the three-way valve 4, then the pneumatic valve 1 is opened, the asphalt pump 3 is started, and the premixed mixture of the matrix asphalt and the rubber powder is pumped into the rubber asphalt reaction kettle 20. A spiral stirrer 19, a combustion fire tube 22 and a heat conducting oil coil 15 are arranged in the rubber asphalt reaction kettle 20, a high-level alarm 14 is arranged at the top, a combustor 21, a liquid level meter, a temperature sensor 39 and a bimetallic thermometer 40 are arranged at the end part, and a heat insulation material is wrapped on the outer side of the tank body. When the addition of asphalt is excessive, the work of triggering the high-level alarm and cutting off the asphalt pump 3 simultaneously prevents the tank overflow phenomenon, effectively ensures the safety of constructors and saves the material waste. After the mixture of the base asphalt and the rubber powder is pumped into the rubber asphalt reaction kettle 20, the spiral stirrer 19 is started to continuously stir, and the combustion fire tube 22 and the heat conducting oil coil 15 are started simultaneously to ensure that the mixture reacts for at least 45 minutes at the temperature of 180-190 ℃ in the rubber asphalt reaction kettle 20. After 45 minutes of reaction, acceptable rubber asphalt is formed, and then the reacted rubber asphalt is pumped to a finished product tank truck through a pneumatic valve 1 and an asphalt pump 3 for use.

D2, when the SBS modified asphalt is produced: the pipeline is switched to a colloid mill 17 and a modified asphalt development tank 18 through a three-way valve 4, then the pneumatic valve 1 is opened, the asphalt pump 3 is started, and the mixture of the swelled base asphalt and the SBS modifier is pumped to the colloid mill 17 for shearing and grinding and then conveyed to the modified asphalt development tank 18. A spiral stirrer 19 and a heat conducting oil coil 15 are arranged in the modified asphalt development tank 18, a high-level alarm 14 is arranged at the top, a liquid level meter, a temperature sensor 39 and a bimetallic thermometer 40 are arranged at the end part, and a heat insulation material is wrapped on the outer side of the tank body. When the addition of asphalt is excessive, the work of triggering the high-level alarm and cutting off the asphalt pump 3 simultaneously prevents the tank overflow phenomenon, effectively ensures the safety of constructors and saves the material waste. After the mixture after shearing and grinding is pumped to the modified asphalt development tank 18, the spiral stirrer 19 is started to continuously stir, and the heat conducting oil coil 15 is started at the same time, so that the mixture develops for at least 2 hours at the temperature of 160-170 ℃ in the modified asphalt development tank 18. After 2 hours of development, qualified SBS modified asphalt is formed, and then the reacted SBS modified asphalt is pumped to a finished product tank car through a pneumatic valve 1 and an asphalt pump 3 for use.

When producing modified emulsified asphalt, the base asphalt process was operated in the manner of A2.

F. Emulsifier (and modifier): the emulsifier (and the modifier) are conveyed into the blending tank 25 through the blending pump 24, and then the stirrer 26 and the heat conducting oil gate valve 7 are started to be fully stirred and diluted to form an emulsifier solution under the action of a guide plate 37 in the blending tank 25. The blending tank 25 is provided with a weighing sensor 10, so that the emulsifier (and modifier) and the clean water can be accurately metered.

G. After the emulsifier solution is prepared in the blending tank 25, the pneumatic valve 27 is opened, the emulsifier supply pump 28 is started, and the emulsifier solution is transferred to the emulsifier preparation tank 29. After the emulsifier solution enters the emulsion preparation tank 29, the emulsifier solution is measured by using the weighing sensor 10, then the water pump 34 is started according to the proportion of the formula to pump in clean water, and the stirrer 26 and the heat-conducting oil gate valve 7 are opened to carry out secondary stirring and dilution to form the emulsion solution for production.

When the dilution of the emulsion solution is completed and the temperature reaches 50-60 ℃, the pneumatic valve 27 is opened, and the emulsion feed pump 28 is started to deliver the emulsion to the colloid mill 17 to be ground together with the base asphalt (or SBS modified asphalt). Meanwhile, the regulating valve 31 adjusts the supply amount of the emulsion in real time according to the formula requirement under the control of the PLC program, so that the oil-water ratio requirement is met.

The emulsifier blending tank 25, the emulsion blending tank 29, the stirrer 26, the guide plate 38, the heat conducting oil coil 38, the blending pump 24, the emulsion supply pump 28, the pipeline and the pneumatic valve 27 are all made of high-quality stainless steel materials. The emulsion preparation tank 29 is divided into 1# and 2# which can be used alternately to meet the requirement of continuous production.

H. Clear water: according to the process flow of the invention, the clear water can be divided into the following two separate flows:

h1, as a production raw material, adding the raw material into an emulsifier blending tank 25 and an emulsion preparation tank 29 by using a water pump 34, a pneumatic valve 27 and the like;

h2, in order to ensure that the finished modified emulsified asphalt has enough storage stability, the produced finished modified emulsified asphalt must be cooled and stored. The water pump 34 and the cooling device 35 are utilized to continuously cool the finished modified emulsified asphalt, so that the modified emulsified asphalt achieves longer storage stability and storage time.

I. Finished modified emulsified asphalt (or finished emulsified asphalt): the process flow according to the invention can be carried out in two separate flows:

i1, because the working temperature of SBS modified asphalt is higher in the production process, the temperature of finished product modified emulsified asphalt is also higher, and the finished product modified emulsified asphalt can be stored only by cooling. Therefore, when producing the modified emulsified asphalt, the pneumatic three-way valve 32 must be switched to the modified emulsified asphalt production mode, so that the produced finished modified emulsified asphalt enters the emulsified asphalt storage tank 36 after being cooled by the cooling device 35, and the purpose of prolonging the storage stability is achieved.

12. When the common emulsified asphalt is produced, the finished emulsified asphalt does not need to be cooled, so that the pneumatic three-way valve 32 is only required to be switched into an emulsified asphalt production mode, and the produced emulsified asphalt directly enters the emulsified asphalt storage tank 36.

The emulsified asphalt storage tank 36 is internally provided with a stirrer 13 and a heat conducting oil coil 15, the top of the emulsified asphalt storage tank is provided with a high-level alarm 14, the end part of the emulsified asphalt storage tank is provided with a liquid level meter, a temperature sensor 39 and a bimetallic thermometer 40, and the outer side of the tank body is wrapped with a heat insulation material. When the addition amount of the modified emulsified asphalt (or the emulsified asphalt) is too much, the high-level alarm is triggered, and the work of the asphalt pump 3 and the emulsion supply pump 28 is cut off at the same time, so that the tank overflow phenomenon is prevented, the safety of constructors is effectively ensured, and the material waste is saved.

The modified emulsified asphalt (or emulsified asphalt) stored in the emulsified asphalt storage tank 36 can be heated by the stirrer 13 and the heat conducting oil coil 15 before use, and is conveyed to a finished product tank truck for use through the action of the pneumatic valve 1 and the asphalt pump 3.

J. The electric control system J comprises an electric control room, a strong electric cabinet, an operation table, an air compressor 42 and the like. The operation table comprises a PLC program control module, a touch screen and various digital display instruments and is used for receiving and feeding back signals of the asphalt flowmeter 5, the weighing sensor 10, the temperature sensor 39, the regulating valve 31, the high-level alarm 14 and the like, and the purpose of automatically regulating and controlling the whole production process is achieved.

K. The heat-conducting oil heating system K comprises a heat-conducting oil boiler 43, a heat-conducting oil coil 15, a heat-conducting oil gate valve 7 and the like which are communicated with each other, and is used for heat supply and heat preservation of the integrated processing equipment.

The above disclosure is only for the preferred embodiments of the present invention, but the present invention is not limited thereto, and any non-inventive changes that can be made by those skilled in the art and any modifications and amendments made without departing from the principle of the present invention shall fall within the protection scope of the present invention.

Claims (5)

1. An integrated processing device for rubber asphalt, SBS modified asphalt and modified emulsified asphalt comprises an asphalt conveying system, a modifier feeding system, a premixing and stirring system, a shearing and grinding system, a development reaction system, an emulsifier blending system, an emulsion preparation system, a water inlet system, a finished product conveying system, an electrical control system and a heat conduction oil heating system, and is characterized in that the modifier feeding system is connected with the premixing and stirring system through a flexible material, so that the weighing and metering accuracy is prevented from being influenced; a three-way valve is arranged between the premixing and stirring system and the shearing and grinding system, is communicated with the rubber asphalt reaction kettle through a pipeline and is used for switching the production of rubber asphalt and SBS modified asphalt; a three-way valve is arranged between the shearing and grinding system and the emulsified asphalt conveying system, is communicated with the modified asphalt development tank through a pipeline and is used for switching the production of SBS modified asphalt and modified emulsified asphalt; the heat conducting oil heating system comprises a heat conducting oil boiler, a heat conducting oil pipeline and a heat conducting oil gate valve, wherein the heat conducting oil pipeline and the heat conducting oil gate valve are respectively arranged in a matrix asphalt heat exchanger, a premixing tank, a modified asphalt development tank, a rubber asphalt reaction kettle, a blending tank, an emulsion blending tank and an emulsified asphalt storage tank; the asphalt conveying system comprises a pneumatic valve, an asphalt filter, an asphalt pump, an asphalt flowmeter, a three-way valve and a heat exchanger which are sequentially connected, wherein the asphalt pump is controlled by a frequency converter, and the asphalt flowmeter has a signal feedback function, so that interactive operation with an electric control system can be realized, and the purpose of controlling asphalt flow is achieved; the heat exchanger is communicated with the asphalt pump through an asphalt flowmeter pipeline and is used for quickly heating the matrix asphalt; the pipeline is provided with a heat conduction oil gate valve and a temperature sensor, the modifier feeding system comprises a modifier hopper, a weighing screw and a weighing sensor, the modifier hopper and the weighing screw are in hard connection through bolts, the modifier hopper and the weighing screw are integrally fixed on a hopper frame, and the weighing sensor is used for weighing and measuring; the weighing screw is controlled by a frequency converter, so that the conveying capacity is adjusted.

2. The rubber asphalt, SBS modified asphalt and modified emulsified asphalt integrated processing equipment as claimed in claim 1, wherein: the premixing and stirring system comprises a premixing tank, a stirrer, a pneumatic valve, an asphalt pump and a high-level alarm, and is communicated between the heat exchanger and the shearing and grinding system through a pipeline and used for premixing the modifier and the matrix asphalt; the device comprises a premixing tank, a rubber asphalt reaction kettle, a shear grinding system, a development reaction system, a temperature sensor and a bimetallic thermometer, wherein the premixing tank is internally provided with a stirrer, a guide cylinder and a heat conducting oil coil, the top of the premixing tank is provided with a high-level alarm, the outer side of a cylinder body is wrapped with a heat insulating material, the shear grinding system comprises a colloid mill, a check valve and a three-way valve, the colloid mill has the function of adjusting the clearance between a stator and a rotor, the development reaction system comprises a modified asphalt development tank, the rubber asphalt reaction kettle, a spiral stirrer, the heat conducting oil coil, the high-level alarm and an asphalt pump, the modified asphalt development tank is internally provided with the spiral stirrer and the heat conducting; the rubber asphalt reaction kettle is internally provided with a spiral stirrer, a combustion fire tube and a heat conducting oil coil, the top of the rubber asphalt reaction kettle is provided with a high-level alarm, the end part of the rubber asphalt reaction kettle is provided with a combustor, a liquid level meter, a temperature sensor and a bimetallic thermometer, and the outer side of the tank body is wrapped with a heat insulation material and is communicated with an asphalt pump of a premixing and stirring system through a pipeline for the reaction of rubber asphalt; the asphalt pump is connected with the modified asphalt development tank and the rubber asphalt reaction kettle through pipelines and is used for delivering finished asphalt.

3. The rubber asphalt, SBS modified asphalt and modified emulsified asphalt integrated processing equipment as claimed in claim 1, wherein: the emulsifier blending system comprises an emulsifier blending tank, a blending pump, a stirrer, a pneumatic valve and a pipeline, wherein the emulsifier blending tank body is made of stainless steel, a built-in guide plate, a heat-conducting oil coil pipe are arranged at the top of the emulsifier blending tank body, the stirrer is configured at the top of the emulsifier blending tank body, a temperature sensor and a bimetallic thermometer are arranged outside the emulsifier blending tank body, a heat-insulating layer is wrapped outside the heat-insulating layer and covered with a stainless steel skin, the emulsifier blending tank body is wholly metered by a weighing sensor, the emulsion blending tank system comprises an emulsion blending tank, an emulsion supply pump, a filter, a weighing sensor, a liquid level meter and an adjusting valve, the emulsion blending tank body is made of stainless steel, the built-in guide plate, a heat-conducting oil coil pipe is arranged at the top of the emulsifier blending tank body, the temperature sensor and the bimetallic thermometer are arranged outside the emulsion blending tank body is, The cooling device, the pneumatic three-way valve and the pipeline thereof are used for feeding clean water and cooling finished emulsified asphalt; the pipeline is provided with a check valve, the emulsified asphalt conveying system comprises an emulsified asphalt storage tank, an asphalt pump and a valve, a stirrer and a heat conducting oil coil pipe are arranged in the emulsified asphalt storage tank, a high-level alarm is arranged at the top of the emulsified asphalt storage tank, a liquid level meter, a temperature sensor and a bimetallic thermometer are arranged at the end of the emulsified asphalt storage tank, and a thermal insulation material is wrapped outside the tank body and is communicated with the colloid mill through a pipeline for storing modified emulsified asphalt; and the asphalt pump is connected with the emulsified asphalt storage tank through a pipeline and is used for delivering the modified emulsified asphalt.

4. The rubber asphalt, SBS modified asphalt and modified emulsified asphalt integrated processing equipment as claimed in claim 1, wherein: the electric control system comprises an electric control room, a strong cabinet, an operation platform and an air compressor, wherein the operation platform further comprises a PLC program control module, a touch screen and various digital display instruments, and is used for receiving and feeding back signals of an asphalt flowmeter, a weighing sensor, a temperature sensor, an adjusting valve and a high-level alarm to achieve the purpose of adjusting and controlling the equipment.

5. The integrated processing equipment for rubber asphalt, SBS modified asphalt and modified emulsified asphalt as claimed in claim 1, wherein all asphalt pipelines and heat conducting oil pipelines are wrapped with heat insulating material.

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