KR101842494B1 - Apparatus for manufacturing recycled ascon - Google Patents

Abstract

The present invention provides an apparatus for manufacturing recycled asphalt concrete, capable of precisely controlling mixture proportion. The apparatus comprises: a first housing in which a first inlet for introducing a mixture and a first outlet for discharging a stirred mixture are formed; a first driving part disposed on an upper side of the first housing; a first stirring part disposed inside the first housing and being rotated by the driving force of the first driving part; and a vortex generating part disposed inside the first housing and generating a vortex in a flow of the mixture mixed by the first stirring part.

Description

[0001] APPARATUS FOR MANUFACTURING RECYCLED ASCON [0002]

The present invention relates to an apparatus for producing a regenerated asphalt which can produce and store a homogeneous regenerated ascon.

Generally, ascon is an abbreviation of asphalt concrete. It is installed in a road or a parking lot, and the road or parking lot on which the ascon is laid is required to be maintained and maintained by use.

Waste ascon, which has been removed from roads and parking lots, is an industrial waste, and recycling waste asbestos is being recycled globally in consideration of environmental problems.

In order to produce waste asbestos by recycled ascon, there are a heating type regeneration method and a room temperature regeneration method. Recently, a room temperature regeneration method is mainly used in consideration of environmental pollution problem.

In order to produce the regenerated ascon in accordance with the room-temperature regeneration method, the waste asphalt and the asphalt-based additive and the water are stirred. However, in the conventional regenerated asbestos production equipment, it is difficult to precisely control the ratio of the mixture for producing the regenerated ascon. There is a problem in that it is not possible to generate the regenerated ascones.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a device for manufacturing recycled asphalt which is capable of accurately controlling the ratio of the mixture and providing excellent agglomeration to produce homogeneous recycled ascon. .

According to an aspect of the present invention, there is provided a refrigerator comprising: a first housing having a first inlet through which a mixture is introduced and a first outlet through which a mixture stirred; A first stirring part disposed inside the first housing and rotated by a driving force of the first driving part; And a vortex generator disposed inside the first housing to generate a vortex in the flow of the mixture mixed by the first agitator.

The vortex generation unit may be disposed on an inner surface or a bottom surface of the first housing.

The vortex generating unit may include a main protrusion disposed on an inner surface or a bottom surface of the first housing in a rectangular parallelepiped shape; And a slanting protrusion disposed on an opposite side surface of the side surface of the main protrusion, the side surface of the main protrusion being in contact with the mixture, based on the flow direction of the mixture.

At least two or more vortex generators may be disposed on the inner surface or the bottom surface of the first housing at regular intervals.

The load cell may further include a load cell disposed on an outer surface of the first housing to sense a weight of liquid flowing into the first housing.

The apparatus may further include a water level sensor disposed on an inner surface of the first housing to sense the level of the liquid flowing into the first housing.

Water, an aspheric additive, and an emulsified asphalt may be sequentially introduced into the first housing.

The air conditioner may further include a first air inlet communicating with the lower side of the first housing to introduce air into the first housing.

The first agitating portion includes a first shaft rotated by the first driving portion and a first rotor rotatably disposed on the first shaft, the first rotor rotates at 300 rpm to 1500 rpm, May be 20% to 30% of the diameter of the first housing.

The apparatus may further include a first heat medium oil housing disposed on a bottom surface or a side surface of the first housing, the first heat medium oil housing housing the heat medium oil for maintaining the temperature of the mixture contained in the first housing.

A second housing having a second inlet through which the regenerated asphalt mixed in the first housing flows and a second outlet through which the regenerated asphalt is discharged; A connection pipe communicating the first outlet and the second inlet; A second driving unit disposed on an upper side of the second housing; And a second agitating part disposed inside the second housing and rotated by a driving force of the second driving part.

The second housing may further include a gear pump disposed in parallel on a side surface of the first housing and disposed in the connection pipe for flowing a regenerating asconce flowing from the first outlet to the second inlet have.

The second housing may further include a check valve arranged in series below the first housing and disposed in the connection pipe for flowing the regenerating asconce fluid flowing from the first outlet to the second inlet have.

The second housing may be formed to have a volume of 150% to 200% of the volume of the first housing.

The air conditioner may further include a second air inlet communicating with the lower side of the second housing to introduce air into the second housing.

The second stirring portion includes a second shaft rotated by the second driving portion, and a second rotor blade disposed on the second shaft and rotating in the same direction. The second rotor blade is rotated at 1 rpm to 50 rpm, May be formed to 60% to 90% of the diameter of the second housing.

The apparatus may further include a second heat medium oil housing disposed on a bottom surface or a side surface of the second housing, the second heat medium oil housing housing the heat medium oil for maintaining the temperature of the mixture contained in the second housing.

The present invention can provide a homogeneous regenerated asphalt by sensing a water level sensor or a load cell to constantly receive a mixture ratio, and to achieve excellent stirring and storage through a vortex generator or an air inlet.

1 illustrates a first housing and a second housing arranged in parallel in accordance with an embodiment of the present invention.
2 is a plan view of the inside of the first housing according to the embodiment of the present invention as viewed from above;
3 illustrates a first housing and a second housing arranged in series in accordance with an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein are the same as the generic meanings of the terms understood by those of ordinary skill in the art, and where the terms used herein contradict the general meaning of the term, they shall be as defined herein.

It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

FIG. 1 is a view illustrating a first housing and a second housing arranged in parallel according to an embodiment of the present invention. FIG. 2 is a plan view of the inside of the first housing according to the embodiment of the present invention, 3 is a view showing that the first housing and the second housing are arranged in series in accordance with the embodiment of the present invention.

1 to 3, the apparatus 1 for manufacturing recycled asconstruction according to the embodiment of the present invention may include a stirring tank unit 100 and a storage tank unit 200, And may be formed of stainless steel.

The stirring tank unit 100 is a part for mixing recycled ascon with other mixture to generate recycled ascon. The storage tank unit 200 is a part for storing recycled ascon produced in the stirring tank unit 100.

The stirring tank unit 100 may include a first housing 110, a first driving unit 120, a first stirring unit 130, and a vortex generating unit 140. The load cell 150 may include a first housing 110, A water level sensor (not shown), a first air inlet 160, or a first heat medium oil housing 170.

The first housing 110 may have a substantially cylindrical shape, and may have a first inlet through which the mixture is introduced and a first outlet through which the mixture stirred. The first inlet may be formed on the upper side of the first housing 110 and the first outlet may be formed on the lower side of the first housing 110.

The first driving part 120 is disposed on the upper surface of the first housing 110 and may be embodied as a servo motor.

The first stirring part 130 may be disposed inside the first housing 110 and may be rotated by the driving force of the first driving part 120. The first stirring part 130 may be rotated by the first driving part 120, A shaft 131 and a first rotor 132 disposed on the first shaft 131 and rotating in the same direction.

Here, the first rotor 132 rotated by the first driving unit 120 is rotated at 300 rpm to 1500 rpm for effective stirring of the mixture, and the diameter of the first rotor 132 is 20% of the diameter of the first housing 110, To 30%.

The vortex generator 140 is disposed inside the first housing 110 and generates a vortex in the flow of the mixture mixed by the first agitator 130 so that the rotation of the first rotor 132 It is possible to stir the mixture to be stirred more effectively.

The vortex generator 140 may be disposed on the inner surface or the bottom surface of the first housing 110 by welding or bolt coupling and may include a main projection 141 and a slant projection 142 .

The main protrusions 141 are arranged in a rectangular parallelepiped shape on the inner or bottom surface of the first housing 110 and the slant protrusions 142 are formed on the main protrusions 141 On the other side of the one side of the side surface of the substrate (1) which is in contact with the mixture.

2, when the mixture rotates in the clockwise direction by the first rotor 132, the side surface of the main protrusion 141, which interferes with the flow of the mixture, And the inclined projections 142 are disposed on the other side, so that the viscous mixture does not accumulate and flows smoothly.

Also, the main protrusion 141 and the slanting protrusion 142 may be integrally formed.

At least two or more vortex generators 140 may be disposed on the inner surface or the bottom surface of the first housing 110 at equal intervals.

Meanwhile, the apparatus 1 for manufacturing recycled ascones according to the embodiment of the present invention may be arranged on the outer surface of the first housing 110 so as to quantify the recycled ascones by keeping the ratio of the mixed liquid constant, And a load cell 150 capable of sensing the weight of the liquid flowing into the first housing 110.

The load cell 150 may be disposed below at least three support brackets 151 that support the first housing 110.

Alternatively, the apparatus for producing recycled asbestos 1 according to the embodiment of the present invention may be arranged on the inner surface of the first housing 110 so as to quantify the recycled ascon in order to keep the ratio of the mixed liquid constant, (Not shown) capable of sensing the level of the liquid flowing into the first housing 110.

It is preferable that the water, the asphalt-based additive and the emulsified asphalt are sequentially introduced into the first housing 110 for the mixing efficiency. For example, the load cell 150 or the water level sensor (not shown) 0.4 kg to 0.8 kg of the asphalt additive, and 1.4 kg to 2.3 kg of the emulsified asphalt.

A first air inlet 160 communicating with the lower side of the first housing 110 to introduce air into the first housing 110 is provided to prevent sedimentation due to the difference in specific gravity of the mixture .

That is, in order to remove separation precipitation due to the specific gravity difference, air can be introduced into the first air inflow portion 160 at predetermined time intervals to float the settlement liquid. In order to more effectively mix the mixture, The first agitating part 130 may be rotated when the inlet 160 is driven.

Meanwhile, since the viscosity of the mixture contained in the first housing 110 may vary depending on the temperature, the apparatus 1 for producing recycled asconstructures according to the embodiment of the present invention preferably has the above- And a first heat medium oil housing 170 disposed on the bottom surface or the side surface of the first housing 110 to receive heat medium oil for maintaining the temperature of the mixture contained in the first housing 110.

This thermal oil can be maintained at approximately 60 ° C, because at higher temperatures the chemical composition of the asphaltic additive may be compromised and the separation of the mixture may occur at lower temperatures.

The regenerated ascon in the agitation tank unit 100 according to the embodiment of the present invention can be transferred to the storage tank unit 200 according to an embodiment of the present invention as described below.

In detail, the storage tank unit 200 may include a second housing 210, a second driving unit 220, a second agitating unit 230, and a connecting pipe 240, (250) or a second heat medium oil housing (260).

The second housing 210 may have a substantially cylindrical shape, and a second inlet through which the regenerated ascon mixed with the first housing 110 flows may be formed and a second outlet through which the regenerated ascon may be discharged.

The second inlet may be formed on the upper side of the second housing 210 and the second outlet may be formed on the lower side of the second housing 210.

In addition, the second housing 210 may be formed to have a volume 150% to 200% larger than the first housing 110 for continuous production of a recycled ascon.

1, the second housing 210 according to the embodiment of the present invention is disposed in parallel to the side surface of the first housing 110, and the connection pipe 240 is connected to the first outlet 110, And one end and the other end may be disposed in the second inlet.

In addition, since the regenerating ascon is a viscous fluid, it may further include a gear pump 241 that smoothly flows the regenerating asconce from the first outlet to the second inlet.

4, the second housing 210 according to the embodiment of the present invention is arranged in a line below the first housing 110, and is disposed in the connection pipe 240, And a check valve (242) for flowing the regenerating asconce flowing from the first outlet to the second inlet.

The second driving unit 220 is disposed on the upper surface of the second housing 210 and may be embodied as a servo motor.

The second stirring unit 230 may be disposed inside the second housing 210 and may be rotated by the driving force of the second driving unit 220. The second stirring unit 230 may be rotated by the second driving unit 220, A shaft 231 and a second rotor 232 disposed on the second shaft 231 and rotating in the same direction.

Here, the second rotor blades 232 rotated by the second driving unit 220 are rotated at 1 rpm to 50 rpm to prevent settlement due to the specific gravity difference of the mixture forming the reclaimed ascon, 2 to 60% to 90% of the diameter of the housing 210.

In order to prevent precipitation due to the specific gravity difference of the mixture, a second air inflow part 250 communicating with the lower side of the second housing 210 to introduce air into the second housing 210 .

That is, in order to remove separation precipitation due to the difference in specific gravity, air can be introduced into the second air inflow part 250 at predetermined time intervals to float the settlement liquid. In order to more effectively mix the mixture, The second stirring portion 230 may be rotated when the inlet portion 250 is driven.

In addition, the first air inflow section 160 and the second air inflow section 250 may be branched from one pipe.

Meanwhile, since the viscosity of the mixture contained in the second housing 210 may vary depending on the temperature, in order to maintain excellent mixing and homogeneity during the stirring operation, And a second heat medium oil housing 260 disposed on the bottom surface or the side surface of the second housing 210 to receive heat medium oil for maintaining the temperature of the mixture contained in the second housing 210.

This thermal oil can be maintained at approximately 60 ° C, because at higher temperatures the chemical composition of the asphaltic additive may be compromised and the separation of the mixture may occur at lower temperatures.

In other words, the apparatus 1 for manufacturing recycled asbestos according to the embodiment of the present invention receives the mixture ratio constantly by detecting the level sensor (not shown) or the load cell 150 and controls the vortex generation unit 140 or the first It is possible to generate a homogenized regenerated ascon in the present invention through the air inlet 160 and to uniformly regenerate the regenerated ascon in the second agitator 230 and the second air inlet 250 There is an advantage to be able to.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. Range and its equivalent range.

1: Recycled asphalt producing apparatus 100: Stirring tank unit
110: first housing 120: first driving part
130: first stirring part 131: first shaft
132: first rotor blade 140: vortex generator
141: main projection 142: oblique projection
150: load cell 151: support bracket
160: first air inlet 170: first heat medium oil housing
200: storage tank part 210: second housing
220: second driving part 230: second stirring part
231: second shaft 232: second rotor blade
240: Connection piping 241: Gear motor
250: second air inlet 260: second heat medium oil housing

Claims (17)

A first housing having a first inlet through which the mixture flows and a first outlet through which the mixture stirred is formed;
A first driving unit disposed on an upper side of the first housing;
A first agitating portion disposed inside the first housing and rotated by a driving force of the first driving portion; And
And a vortex generator disposed inside the first housing to generate a vortex in the flow of the mixture mixed by the first agitator,
The vortex generating unit includes a main protrusion disposed on an inner surface or a bottom surface of the first housing in a rectangular parallelepiped shape and an inclined surface disposed on an opposite side surface of the side surface of the main protrusion, And a protrusion.
delete delete The method according to claim 1,
Wherein at least two or more vortex generators are disposed at an equal interval on an inner surface or a bottom surface of the first housing.
The method according to claim 1,
And a load cell disposed on an outer surface of the first housing to sense a weight of liquid flowing into the first housing.
The method according to claim 1,
And a water level sensor disposed on an inner surface of the first housing to sense a level of liquid flowing into the first housing.
The method according to claim 1,
Water, an asphalt-based additive, and an emulsified asphalt are sequentially introduced into the first housing.
The method according to claim 1,
And a first air inlet communicating with the lower side of the first housing to introduce air into the first housing.
The method according to claim 1,
Wherein the first agitating portion includes a first shaft rotated by the first driving portion and a first rotating blade disposed on the first shaft and rotating in the same direction,
Wherein the first rotor is rotated at 300 rpm to 1500 rpm and the diameter is 20% to 30% of the diameter of the first housing.
The method according to claim 1,
Further comprising: a first heat medium oil housing disposed on a bottom surface or a side surface of the first housing, the first heat medium oil housing housing the heat medium oil for maintaining the temperature of the mixture contained in the first housing.
The method according to any one of claims 1 and 4 to 10,
A second housing having a second inlet through which the regenerated asphalt mixed in the first housing flows and a second outlet through which the regenerated asphalt is discharged;
A connection pipe communicating the first outlet and the second inlet;
A second driving unit disposed on an upper side of the second housing; And
And a second agitating portion disposed inside the second housing and rotated by a driving force of the second driving portion.
12. The method of claim 11,
The second housing is arranged in parallel on the side surface of the first housing,
And a gear pump disposed in the connection pipe for allowing the regeneration ascon to flow from the first outlet to the second inlet.
12. The method of claim 11,
Wherein the second housing is arranged in series below the first housing,
And a check valve disposed in the connection pipe for allowing the regeneration ascon to flow from the first outlet to the second inlet.
12. The method of claim 11,
Wherein the second housing is formed to have a volume of 150% to 200% of the volume of the first housing.
12. The method of claim 11,
And a second air inflow portion communicating with the lower side of the second housing to introduce air into the second housing.
12. The method of claim 11,
Wherein the second agitating portion includes a second shaft rotated by the second driving portion and a second rotatable shaft rotatably disposed on the second shaft,
Wherein the second rotor blade is rotated at 1 rpm to 50 rpm and the diameter of the second rotor blade is 60% to 90% of the diameter of the second housing.
12. The method of claim 11,
And a second heat medium oil housing disposed on a bottom surface or a side surface of the second housing to receive heat medium oil for maintaining the temperature of the mixture contained in the second housing.

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