JP2008214879A - Asphalt composite production device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an asphalt composite production device, capable of efficiently producing an asphalt regenerated composite with high mixing rate of R material in a short time. <P>SOLUTION: The asphalt composite production device includes a recycle plant 2 for measuring and supplying asphalt scraps dried by heating to an asphalt plant 1 for producing an asphalt new composite by measuring and putting new aggregates dried by heating into a mixer 13, and adding and mixing stone powder and new asphalt thereto. The recycle plant 2 includes a measuring instrument 22 for measuring the asphalt scraps dried by heating; the mixer 13 to which the measured asphalt scraps are put; and a trolley 30 for transferring the measured asphalt new material from the asphalt plant 1 and putting it into the mixer 13. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an asphalt mixture manufacturing apparatus for manufacturing asphalt mixture by mixing asphalt and aggregate, and in particular, manufacturing asphalt recycled mixture by reusing asphalt waste and mixing with new aggregate. It is related with the asphalt compound-material manufacturing apparatus which can do.

  FIG. 7 is a plan view showing a schematic configuration of a conventional asphalt composite material manufacturing apparatus, and FIG. 8 is an explanatory diagram showing a schematic configuration as shown in FIG. As shown in FIG. 7 and FIG. 8, the conventional asphalt composite material manufacturing apparatus includes new aggregate (hereinafter referred to as “V material”) heated and dried by a dryer 101, and stone powder stored in a stone powder silo 400. A recycle plant 200 that supplies asphalt waste (hereinafter referred to as “R material”) to an asphalt plant 100 that mixes new asphalt stored in the asphalt tank 500 with a mixer 102 to produce a new asphalt composite material. Is attached.

  In the recycling plant 200, the R material heated and dried by the dryer 201 is stored in the temporary surge bin 202, measured by the measuring device 203 when necessary, and transferred to the asphalt plant 100 by the trolley 300. On the other hand, the mixer 102 of the asphalt plant 100 is provided with an R material charging chute 103 for charging R material, and the R material transferred by the trolley 300 is charged into the mixer 102 from the R material charging chute 103. Is done.

  In such an asphalt composite material manufacturing apparatus, first, the V material heated and dried by the dryer 101 and the stone powder stored in the stone powder silo 400 are dropped into the mixer 102 and mixed. Next, the R material measured by the measuring device 203 from the surge bin 202 and transferred by the trolley 300 is introduced from the R material introduction chute 103 into the mixer 102 of the asphalt plant 100 and mixed. As for new asphalt, R material is thrown into the mixer 102 and is injected into the mixer 102 after a lapse of a predetermined time. Thereafter, the asphalt recycled composite material is mixed for a certain period of time and carried out to the truck T.

  In addition, as an example of a conventional asphalt composite material manufacturing apparatus, in Patent Document 1, a plurality of mixers are provided below a measuring instrument, and V mixers, stone powder, R members, and the like measured by the measuring instruments are moved to each mixer by a moving hopper. Asphalt compound materials can be manufactured and shipped simultaneously and continuously in a single asphalt plant by alternately charging them.

JP 2001-107308 A

  In the conventional asphalt composite material manufacturing apparatus as shown in FIGS. 7 and 8, the R material is weighed by the measuring device 203 of the recycle plant 200 and conveyed to the mixer 102 of the asphalt plant 100. When producing a high asphalt recycled composite material, a large amount of R material must be transported from the recycling plant 200 to the asphalt plant 100. Therefore, in the conventional asphalt compound material manufacturing apparatus, the time required for conveyance becomes long, and the time required for shipping one batch becomes long. Further, if a large amount of R material is to be charged at once from the R material charging chute 103 provided in the mixer 102 of the asphalt plant 100, the R material charging chute 103 is clogged and the R material overflows. is there.

  Therefore, in the present invention, in an asphalt composite material manufacturing apparatus in which a recycling plant is attached to an asphalt plant that manufactures a new asphalt composite material, it is possible to efficiently manufacture an asphalt recycled composite material with a high mixing ratio of R material in a short time. An object of the present invention is to provide a possible asphalt composite material manufacturing apparatus.

  The asphalt composite material manufacturing apparatus of the present invention is heated and dried to an asphalt plant that manufactures a new asphalt composite material by weighing the heat-dried V material, dropping it into a mixer, and adding and mixing stone powder and new asphalt. In the asphalt composite material manufacturing apparatus provided with a recycling plant for measuring and supplying the R material, the recycling plant includes a measuring instrument for measuring the heated and dried R material, and a second in which the measured R material is dropped. And a trolley for transferring the V material weighed from the asphalt plant and dropping it into the second mixer.

  In the asphalt composite material manufacturing apparatus of the present invention, when manufacturing a new asphalt composite material as an asphalt composite material, the V material heated and dried in the asphalt plant is weighed and dropped into the mixer as it is. Add and mix. And when manufacturing asphalt recycled composite material as asphalt composite material, heat-dried in the asphalt plant, weighed the measured V material to the second mixer of the recycling plant, dropped and recycled to this The R material which has been heat-dried in the plant and weighed is dropped into the second mixer as it is, and stone powder and new asphalt are added and mixed. As a result, even when manufacturing an asphalt recycled composite material with a high mixing rate of the R material, the R material that has been heat-dried in the recycling plant and is weighed is dropped into the second mixer of the recycling plant as it is. Thus, it is not necessary to transport the R material to the asphalt plant as in the prior art, and it is possible to efficiently produce an asphalt recycled composite material with a high mixing rate of the R material in a short time.

  Here, it is desirable that the trolley is further capable of transferring the R material weighed from the recycling plant and dropping it into the mixer of the asphalt plant. As a result, when the mixing rate of the R material in the asphalt recycled composite material to be manufactured is lower than the mixing rate of the V material, the R material measured from the recycling plant is transferred to the asphalt plant and dropped into the mixer. , Stone powder and fresh asphalt can be added and mixed.

  Moreover, the asphalt mixture manufacturing apparatus of the present invention includes a silo for storing asphalt mixture, an asphalt mixture inlet of the silo, an asphalt mixture outlet of the asphalt plant mixer, and a second recycling plant. From the asphalt mixture outlet of the mixer to the transportation route, from the asphalt mixture outlet of the asphalt plant mixer and the asphalt mixture outlet of the second mixer of the recycling plant to the asphalt mixture inlet of the silo It is desirable to include a transport device that transports the asphalt mixture. As a result, the asphalt mixture discharged from each of the two mixers can be transported to a silo and stored by a common transport device.

(1) A recycling plant is provided with a measuring device for measuring the heat-dried R material, a second mixer into which the measured R material is dropped, and further, a V material measured from the asphalt plant. Even when manufacturing asphalt recycled composite material with a high mixing rate of R material, a trolley that transports and drops the material into the second mixer is heated and dried in a recycling plant and weighed R Since the material is dropped as it is into the second mixer of the recycling plant, there is no need to transport this R material to the asphalt plant as in the past, and asphalt recycled composites with a high mixing rate of R material can be efficiently used in a short time. Can be manufactured well. Moreover, since the asphalt recycled composite material can be manufactured without transporting the R material to the asphalt plant as in the prior art, it is possible to suppress a decrease in temperature, generation of odor, and the like accompanying the movement of the R material.

(2) Since the trolley can further transfer the R material weighed from the recycling plant and drop it into the mixer of the asphalt plant, the mixing rate of the R material in the asphalt recycled composite material to be manufactured can be increased. Depending on whether the V material is transferred from the asphalt plant to the second mixer of the recycling plant or the R material is transferred from the recycling plant to the mixer of the asphalt plant, the asphalt recycled composite material is efficiently manufactured in a short time. It becomes possible.

(3) a silo for storing asphalt mixture, an asphalt mixture inlet of the silo, an asphalt mixture outlet of the mixer of the asphalt plant, and an asphalt mixture outlet of the second mixer of the recycling plant; A transport device that transports the asphalt mixture from the asphalt mixture outlet of the asphalt plant mixer and the second mixer asphalt mixture outlet of the recycling plant to the silo asphalt mixture inlet. By providing, the asphalt mixture discharged from each of the two mixers can be transported to a silo and stored by a common transport device, and the equipment can be simplified.

  FIG. 1 is a plan view showing a schematic configuration of an asphalt composite material manufacturing apparatus according to an embodiment of the present invention, and FIG. 2 is an explanatory diagram as shown in FIG.

  As shown in FIG. 1 and FIG. 2, the asphalt composite material manufacturing apparatus in the present embodiment includes a dryer 10 that heats and drys the V material, a hot bottle 11 that temporarily stores the V material that is heat-dried by the dryer 10, and a hot bottle 11. A dryer 20 for heating and drying the R material to the asphalt plant 1 composed of a measuring device 12 for measuring the V material dropped from the mixer, a mixer 13 for mixing the V material measured by the measuring device 12, and the like, A surge bin 21 for temporarily storing the R material heated and dried by the dryer 20, a measuring instrument 22 for measuring the R material dropped from the surge bin 21, a mixer 23 for mixing the R material measured by the measuring instrument 22, and the like The recycling plant 2 comprised from this is attached.

  The asphalt composite material manufacturing apparatus includes a trolley 30 that transfers the V material measured by the measuring instrument 12 in the asphalt plant 1 to the recycling plant 2 side and drops it into the mixer 23 of the recycling plant 2 from directly above. . The trolley 30 receives a V-material dropped from the measuring instrument 12 directly (a position indicated by a solid line in FIG. 2) and a position to drop the V-material into the mixer 23 from above (a position indicated by a dotted line in FIG. 2). Between them. Note that the weighing devices 12 and 22, the mixers 13 and 23, and the trolley 30 are disposed in the mixing tower 3.

  The asphalt composite material manufacturing apparatus includes a stone powder silo 4 for storing stone powder, an asphalt tank 5 for storing new asphalt, a composite silo 6 for storing asphalt composite, and asphalt mixed by mixers 12 and 23. Conveying material 7 to the compound silo 6, conveying device 8 conveying the V material heated and dried by the dryer 10 to the hot bottle 11, and conveying R material heated and dried by the dryer 20 to the surge bin 21 A transfer device 9. The conveying device 7 receives the asphalt mixture dropped from the mixers 13 and 23 and transfers it to the outside of the mixing tower 3, and transfers the asphalt mixture dropped from the trolley 70 to above the mixture silo 6. The skip 71 is dropped into the composite silo 6, and the rail 72 is used to move the skip 71. The conveying device 8 includes an elevator 81 that raises the V material heated and dried by the dryer 10 to above the hot bottle 11, and a chute 82 that throws the V material raised by the elevator 81 into the hot bottle 11. The transport device 9 includes a skip 91 (see FIG. 4) for transferring the R material heated and dried by the dryer 20 to the upper side of the surge bin 21 and dropping it into the surge bin 21, a rail 92 for moving the skip 91, and the like. Consists of

  In the asphalt composite material manufacturing apparatus configured as described above, when manufacturing a new asphalt composite material, the V material that has been heat-dried in the dryer 10 of the asphalt plant 1 and stored in the hot bottle 11 is measured by the measuring instrument 12 as it is. It is dropped from directly above into the lower mixer 13, and the stone powder of the silo powder silo 4 and the new asphalt of the asphalt tank 5 are added and mixed. The asphalt new composite material thus mixed is transported to the composite silo 6 by the transport device 7 and stored in the composite silo 6.

  On the other hand, when manufacturing the asphalt recycled composite material, the V material measured by the measuring instrument 12 is transferred to the mixer 23 of the recycling plant 2 by the trolley 30 and dropped from above, and in the dryer 20 of the recycling plant 2. The R material that has been heated and dried and stored in the surge bin 21 is weighed by the measuring device 22 and dropped as it is directly into the lower mixer 23, and the stone powder of the silo powder silo 4 and the new asphalt of the asphalt tank 5 are added and mixed. To do. The asphalt recycled composite material thus mixed is transported to the composite silo 6 by the transport device 7 and stored in the composite silo 6.

  As described above, in the asphalt composite material manufacturing apparatus according to this embodiment, when manufacturing asphalt recycled composite material, the R material that has been heated and dried in the recycling plant 2 and measured is dropped into the mixer 23 of the recycling plant 2 as it is. Therefore, it is not necessary to transport the R material to the asphalt plant 1 as in the prior art. Therefore, even when producing an asphalt recycled composite material with a high mixing ratio of R material, an asphalt recycled composite material with a high mixing ratio of R material can be efficiently produced in a short time.

  Further, as described above, the asphalt composite material manufacturing apparatus according to the present embodiment can manufacture an asphalt recycled composite material without transporting the R material from the recycle plant 2 to the asphalt plant 1 as in the prior art. It is possible to suppress a decrease in temperature, generation of odor, and the like associated with the movement of.

  Further, in this asphalt composite material manufacturing apparatus, only the new asphalt composite material needs to be manufactured in the mixer 13 of the asphalt plant 1, and the mixer 23 of the recycle plant 2 is used for manufacturing the asphalt recycled composite material. Therefore, it is not necessary to set the size of the mixer 13 of the asphalt plant 1 in consideration of sharing with the production of the asphalt recycled composite material as in the past, and the asphalt plant 1 according to the amount of the new asphalt composite material to be manufactured. The mixer 13 can be downsized. As a result, it becomes possible to mix the new asphalt composite material in an amount close to the rating of the mixer 13, and it is possible to manufacture a new asphalt composite material with good quality.

  In addition, by providing the mixer 13 dedicated to the production of new asphalt composite material in this way, when producing a composite material using a special binder such as a color composite material that does not use the R material during the production of the asphalt recycled composite material. If the mixer 13 is used, it is not necessary to clean the mixer 23 used in the production of the asphalt recycled composite material, so that it is possible to reduce the number of times the mixer is cleaned to peel off unnecessary binder deposits.

  In the asphalt mixture manufacturing apparatus according to the present embodiment, the trolley 30 has been described as transferring the V material dropped from the measuring device 12 of the asphalt plant 1 to the mixer 23 of the recycling plant 2. In addition, it is possible to provide a trolley 31 that transports the R material dropped from the measuring device 22 of the recycling plant 2 to the mixer 13 of the asphalt plant 1. FIG. 3 shows an example of an asphalt mixture manufacturing apparatus including a trolley 31 that transfers the R material dropped from the measuring device 22 of the recycling plant 2 to the mixer 13 of the asphalt plant 2.

  As shown in FIG. 3, the trolley 31 transports the R material measured by the measuring device 22 in the recycling plant 2 to the asphalt plant 1 side and drops it into the mixer 13 of the asphalt plant 1 from directly above. . The trolley 31 receives the R material dropped directly from the measuring instrument 22 (a position indicated by a solid line in FIG. 3) and a position where the R material is dropped into the mixer 13 from directly above (a position indicated by a dotted line in FIG. 3). Between them.

  When the trolley 31 is configured as described above, when the mixing rate of the R material of the asphalt recycled composite material to be manufactured is lower than the mixing rate of the V material, the R material measured from the recycling plant 2 is conversely converted to the asphalt plant 1. And asphalt recycled composite material can be manufactured by dropping into the mixer 13. Therefore, according to this configuration, the V material is transferred from the asphalt plant 1 to the mixer 23 of the recycling plant 2 or the R material is transferred from the recycling plant 2 to the asphalt according to the mixing ratio of the R material of the asphalt recycled composite material to be manufactured. By transferring to the mixer 13 of the plant 1, it becomes possible to manufacture the asphalt recycled composite material efficiently in a short time.

  Next, another asphalt composite material manufacturing apparatus in which the composite material silo 6 is omitted will be described. FIG. 4 is an explanatory diagram of B-C showing an example of another asphalt composite material manufacturing apparatus in which the composite silo 6 of FIG. 1 is omitted.

In this case, there is no transport device 7 for transporting the asphalt composite material mixed by the mixers 13 and 23 to the composite material silo 6, and tracks T ₁ and T ₂ for transporting the asphalt composite material below the mixers 13 and 23. Space is secured where cars can be parked side by side. At this time, the tracks T ₁ and T ₂ enter and exit in the direction of arrow D in FIG. Therefore, the asphalt mixture mixed by the mixers 13 and 23 can be shipped directly from the mixers 13 and 23 onto the trucks T ₁ and T ₂ .

  Further, in this case, the mixer 13 can transfer the V material dropped from the measuring instrument 12 to the mixer 23 by the trolley 30 while manufacturing the new asphalt composite material from the V material dropped from the measuring instrument 12. Therefore, in the mixer 23, the V material transferred by the trolley 30 and the R material dropped from the measuring device 22 can be mixed to simultaneously manufacture an asphalt recycled composite material.

Further, when the composite silo 6 is omitted, the asphalt plant 1 and the recycling plant 2 are arranged almost symmetrically as shown in FIG. 5, and the stone powder silo 4 and the asphalt tank 5 are arranged near the center thereof. Is possible. Even in this configuration, the trucks T ₁ and T ₂ can enter and exit in the direction of arrow E in FIG. 5, and asphalt plant 1 and recycling plant 2 simultaneously manufacture and ship asphalt new composite material and asphalt recycled composite material, respectively. Is possible.

  Although not shown, in the example of FIGS. 2 and 3 as well, the height of the trolley 70 is increased to secure a space where the truck can be stopped below the trolley 70, so that it is dropped from the mixers 13 and 23. Asphalt new composite material and asphalt recycled composite material can be directly loaded onto a truck before shipment, and three units can be loaded onto the truck simultaneously with the lower part of the composite silo 6 and shipped. Even when the height of the trolley 70 is not increased, by restricting the trolley 70 to the transport of the asphalt recycled mixture dropped from the mixer 23, the truck is stopped below the mixer 13 and the mixer 13 It is also possible to ship new asphalt mixes that are dropped directly on a truck.

  The time required for manufacturing one batch of asphalt recycled composite material by the asphalt composite material manufacturing apparatus of the present invention was verified. In addition, verification was performed about the case where 40-50% of R material is mixed and a 2000 kg asphalt compound material is manufactured. FIG. 6 is a flow from the measurement of the aggregate by the asphalt recycled composite material manufacturing apparatus to the introduction of the mixer, wherein (a) is an example of the apparatus of FIGS. 1 and 2 of the present invention, and (b) is a conventional FIG. And an example of the device of FIG. 8 respectively.

  As shown in FIG. 6 (b), in the conventional asphalt composite material manufacturing apparatus, although it is as short as 18 seconds per cycle from the measurement of the V material to the discharge, it is 1 from the measurement of the R material to the transportation, discharge, and return of movement. Since it is as long as 70 seconds per cycle, it takes 70 seconds to produce one batch of asphalt recycled composite material. On the other hand, as shown in FIG. 6 (a), in the asphalt composite material manufacturing apparatus of the present embodiment, it takes 48 seconds per cycle from the measurement of the V material to the movement, release and movement return, but the measurement of the R material. Since it takes as short as 30 seconds per cycle from release to release, it takes only 48 seconds to produce one batch of asphalt recycled composite material.

  The R material has a larger amount of impurities and the viscosity is higher than that of the V material, so that it takes longer time to measure than the V material. However, in this embodiment, the movement of the V material is started during the measurement of the R material. Therefore, useless time is shortened. Further, in the asphalt composite material manufacturing apparatus of the present embodiment, since the R material is dropped from directly above the mixer 23, the R material can be produced in a shorter time compared with the case where the R material is loaded from the R material charging chute 103 as in the prior art. Release can be terminated. Thereby, in the asphalt compound material manufacturing apparatus of this example, the cycle time could be shortened by about 30% compared to the conventional one.

  Therefore, in the asphalt composite material manufacturing apparatus of the present embodiment, the asphalt recycled composite material can be manufactured in a shorter time than before, so that the mixing time of the V material and the R material can be increased. And if the mixing time is lengthened in this way, the new asphalt of the asphalt tank 5 can be mixed in a state where the V material and the R material are well mixed, so that a high quality asphalt recycled composite material can be manufactured. It becomes possible.

  The asphalt composite material manufacturing apparatus of the present invention manufactures asphalt recycled composite material by mixing asphalt and new aggregate to produce asphalt new composite material and reusing asphalt waste material to mix with new aggregate. It is useful as a device to do.

It is a top view which shows schematic structure of the asphalt compound-material manufacturing apparatus in embodiment of this invention. It is explanatory drawing as AC of FIG. It is explanatory drawing as AC of FIG. 1 which shows the example of another asphalt mixture manufacturing apparatus provided with the trolley which transfers R material dropped from the measuring device of a recycling plant to the mixer of an asphalt plant. It is explanatory drawing as B-C which shows the example of another asphalt compound-material manufacturing apparatus which abbreviate | omitted the compound silo of FIG. It is explanatory drawing which shows the example of another asphalt compound manufacturing apparatus which abbreviate | omitted the compound silo of FIG. It is a flow from the measurement of aggregate by an asphalt compound material manufacturing apparatus to mixer introduction, (a) is an example of the present invention, and (b) is a figure showing a conventional example, respectively. It is a top view which shows schematic structure of the conventional asphalt compound-material manufacturing apparatus. It is explanatory drawing which shows schematic structure of the FG way of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Asphalt plant 2 Recycling plant 3 Mixing tower 4 Stone powder silo 5 Asphalt tank 6 Compound material silo 7, 8, 9 Conveyor 10 Dryer 11 Hot bottle 12 Measuring instrument 13 Mixer 20 Dryer 21 Surge bin 22 Measuring instrument 23 Mixer 30 Trolley 70 Trolley 71 91 skip 72,92 rail 81 elevator 82 chute

Claims (3)

Weigh and supply the heat-dried asphalt waste to an asphalt plant that produces new asphalt mix by weighing and dropping the new aggregate into the mixer, adding stone powder and new asphalt, and mixing them. In the asphalt compound production equipment with a recycling plant,
The recycling plant includes a measuring device for measuring the heat-dried asphalt waste material, and a second mixer into which the measured asphalt waste material is dropped,
Furthermore, the asphalt compound material manufacturing apparatus characterized by including the trolley which transfers the measured new aggregate from the asphalt plant and drops it into the second mixer.   The asphalt mixture manufacturing apparatus according to claim 1, wherein the trolley is further capable of transporting the weighed asphalt waste material from the recycling plant and dropping it into a mixer of the asphalt plant. A silo for storing asphalt mixture,
The asphalt mixture inlet of the silo, the asphalt mixture outlet of the mixer of the asphalt plant, and the asphalt mixture outlet of the second mixer of the recycling plant are used as a transport path, and the asphalt plant And a conveying device for conveying the asphalt mixture from the discharge port of the asphalt mixture of the mixer and the discharge port of the asphalt mixture of the second mixer of the recycling plant to the inlet of the asphalt mixture of the silo. Or the asphalt compound-material manufacturing apparatus of 2.

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