JPH01158103A - Relay device for asphalt plied timber - Google Patents

Abstract

PURPOSE: To quickly feed good-quality paving materials to a site by heating and storing lean-mixed asphalt in intermediary base provided near a construction site, adding asphalt thereto as necessary, and manufacturing a good-quality asphalt. CONSTITUTION: Lean-mixture asphalt is stored in a silo 11 having a heater 12, the lean-mixture asphalt discharged from the silo 11 is measured by a measuring device 15 and sent to a kneading device 13. Secondly, the melt asphalt is measured by a weighing apparatus 9 and fed to the kneading device 13 so that good-quality asphalt of a prescribed asphalt-mixing rate is manufactured of the lean-mixture asphalt. The good-quality asphalt manufactured in an intermediary base is sent to a construction site nearby. This constitution can quickly feed the good-quality asphalt to the construction site.

Description

[Detailed Description of the Invention] The present invention relates to an asphalt mixture relay device that is installed between an asphalt plant and an asphalt construction site, and is capable of quickly supplying high-quality asphalt and rut mixture to the asphalt construction site. It is.

As is well known, asphalt mixture is a mixture of heat-dried aggregate and asphalt as a caking agent added at a predetermined mixing ratio, and is widely used as a paving material for roads and other purposes. used for.

It is also desirable to install an asphalt plant near the asphalt construction site.

However, asphalt plants not only require a large amount of land, but also generate vibrations, noise, dust, etc., so it is virtually difficult to install them in or near urban areas. The current situation is that it takes a long time to transport the alphalt mixture, and the quality of the alphalt mixture has deteriorated.

In recent years, mixed material silos have been installed in urban areas to store asphalt mixture produced in asphalt plants in a heated state. It is also possible to store it in silos. However, when asphalt mixture is stored in the above-mentioned mixture silo, the asphalt deteriorates over time, and the asphalt mixture clogs the outlet due to the adhesive force of the asphalt.

In order to prevent asphalt from deteriorating, the inside of a mixed material silo has traditionally been filled with an inert gas such as carbon dioxide. However, even if filled with inert gas, the airtightness of the mixture silo may be low, or the removal port cover may be opened when taking out the asphalt mixture little by little during the process, so the concentration of inert gas may be low. As a result, a sufficient deterioration prevention effect cannot be expected.

The present invention has been proposed in view of the above, and includes a lumber silo equipped with a heating device that stores in a heated state a poor mix asphalt mixture with an asphalt mixing ratio lower than a predetermined value, and a poor mix asphalt mixture discharged from the mix silo. It has a weighing device that measures the mixture, a weighing device for melted asphalt, and a kneading device, and the mixed material silo transports the poorly blended asphalt mixture produced at the asphalt plant and stores it in a heated state. Then, the poorly mixed asphalt mixture stored in the mixture silo is discharged from the mixture silo and a certain amount measured by a weighing device is supplied to the kneading device, and the melted asphalt is weighed by the weighing device and fed to the kneading device. Feeding and kneading! The asphalt mixture is characterized in that the measured poor mix asphalt mixture and the weighed dissolved asphalt are stirred and mixed at the factory, and the mixture ratio of asphalt to aggregate is increased to a predetermined value before being shipped. Regarding the relay device, even if the asphalt construction site is far away from the asphalt plant, high-quality asphalt mixture can be quickly supplied to the asphalt construction site.

An embodiment of the present invention will be described below based on the drawings.

To manufacture asphalt mixture, as shown in the drawing,
Aggregate stockyard at asphalt plant
The aggregate conveyed by a belt conveyor 2 or the like is led to a dryer 3, and inside the dryer 3, it is heated and dried at a temperature of 150 to 170°C. Then, the heated and dried aggregate is transferred to a sieving stirrup 5 by a lift 4, sieved into particle sizes, and stored in respective storage bins 6 on the particle size side.

The blending ratio of aggregate and asphalt in asphalt mixture differs depending on the intended use. Therefore, filler is mixed with the heat-dried aggregate if necessary, and melted asphalt at a predetermined mixing ratio (generally about 5 to 6% by weight) is mixed and kneaded to produce an asphalt mixture. .

However, in the present invention, a poorly mixed asphalt mixture with a low mixing ratio of asphalt is produced in an asphalt plant, and this poorly mixed asphalt mixture is transported to a relay device.

For example, in the case of an asphalt mixture used for the base layer as a road paving material, 20% by weight of No. 5 aggregate, 38% by weight of No. 6 aggregate, and 15% by weight of No. 7 aggregate, 12ii,
Fit% of coarse sand, 12% by weight of fine sand, and 3% by weight of filler are measured by a weighing machine 7 and charged into a kneading machine 8.

When the mixture of each aggregate and filler is 100, the asphalt dissolved at 140 to 160°C is 1.0 to 1.0.
The asphalt is fed from the asphalt meter Ia9 to the kneader 8 for mixing (hereinafter referred to as secondary mixing) at a ratio of 2.5% by weight, and is sufficiently kneaded by the kneader 8. With this asphalt mixture,
When performing construction, there is a shortage of 2.5 to 4.0 il 1% asphalt.

In order to make a fine-grained asphalt mixture used for the surface layer as full road covering material, 25% by weight of No. 6 aggregate, 20% by weight of No. 7 aggregate, and 24% by weight of coarse sand are required. and 25
A total of 1117 weight % fine sand and 6 weight % filler are measured and fed to the kneading machine 8 . When the mixture of each aggregate and filler is 100%, 1 to 3% by weight of dissolved asphalt is added from the asphalt weighing machine 9 and kneaded.
There is a shortage of ffi% asphalt.

In this way, the poor mix asphalt mixture with a reduced mixing ratio of dissolved asphalt to aggregate is discharged from the mixer 8, and this poor mix asphalt mix is installed in a place far away from the asphalt plant using a dump truck or the like. It is transported to a certain relay device of the present invention.

This relay device consists of a lift 10. It has a mixture silo 11 that stores the poor mix asphalt mixture lifted by the lift 10, and the mix silo 11 is equipped with a heating device 12 to keep the poor mix asphalt mixture at an appropriate temperature, e.g. ~17
It can be heated and kept warm by maintaining it at 0°C. Therefore, the 7 Sulfal 14 minutes in the poorly blended asphalt mixture is not cooled and hardened, and the poorly blended asphalt mixture has a small amount of asphalt components and weak adhesive strength, so even if it is stored for a long time. It does not get clogged near the outlet 11'' formed at the lower end of the mixed material silo 11, and has an appropriate binding force, so aggregates of different sizes are separated, large aggregates remain, and fine aggregates descend first. Therefore, even if poor mix asphalt mixture is stored in one mix silo for a long period of time, the condition of the aggregate in the poor mix asphalt mix does not change.

The relay device of the present invention includes a mixture silo 11 with a heating device f for heating and storing the poorly mixed asphalt mixture as described above.
In addition, there is a weighing device 15 that measures the poorly mixed asphalt mixture discharged from the mixed material silo 11, a weighing device 14 that weighs and discharges the dissolved asphalt, and a weighing device 15.
The kneading device 14 is provided with a kneading device 14 that supplies a certain amount of poorly blended asphalt mixture measured by a measuring device 14, and also feeds and stirs and mixes a certain amount of dissolved asphalt measured by a weighing device 14.

When shipping the asphalt mixture from the relay device, the poorly mixed asphalt mixture discharged from the outlet 11' at the lower end of the mixture silo 11 is measured by the measuring device 15 and a certain amount is supplied to the kneading machine 13. At the same time, the melted asphalt is measured by the weighing machine 14 and a certain amount is supplied to the kneading machine 13,
The kneader 13 sufficiently stirs and mixes the above-mentioned poorly blended asphalt mixture and dissolved asphalt (hereinafter referred to as secondary mixing), increases the mixing ratio of asphalt to a predetermined value, discharges the sufficiently kneaded state, and transports it to a dump truck, etc. and transported to the asphalt construction site.

For example, in the case of an asphalt mixture used for the base layer of road paving materials, the predetermined value, that is, the final asphalt mixing ratio is about 5% by weight. Therefore, if 1.0 to 2.5% by weight of dissolved asphalt is mixed in the secondary mixing, 2.5 to 4.0% by weight of dissolved asphalt is mixed from the asphalt weighing machine 14 in the secondary mixing at the relay device. It is added and thoroughly kneaded together with the poorly blended asphalt mixture in the kneading device 13 before being shipped.

In addition, in the case of asphalt mixture used for the surface layer of road paving materials, the final asphalt mixing ratio is approximately 6% by weight, so 1.0 to 3.0% by weight of asphalt is mixed in the next mixing. 3.0 to 5 in secondary mixing, if any.
Asphalt weighing machine 1 for dissolving 0% by weight of asphalt
4 to the kneading device 13, added to the poorly blended asphalt mixture, and sufficiently kneaded.

Then, the asphalt mixture containing a predetermined amount of sufficiently kneaded asphalt is transported to an asphalt construction site by a dump truck 16 or the like and laid by a finisher or the like.

When asphalt is mixed with aggregate, the following phenomena occur.

(1) - In the next mixing, the amount of asphalt is 1.0% by weight.
If the condition is below, the aggregates of the poorly mixed asphalt mixture stored in the mixture silo may be separated depending on their size, or dust may be mixed when the poorly mixed asphalt mixture is put into the mix silo. In addition, if the amount of asphalt is 3.0% by weight or more in the secondary mixing, the deterioration of the asphalt contained in the poorly blended asphalt mixture will increase, and in extreme cases, the quality of the asphalt mixture may deteriorate or the mixture may deteriorate. This may result in clogging at the silo outlet.

(2) The deterioration of asphalt is quite large when viewed only by secondary mixing, but when measured together with secondary mixing, it is much smaller than the deterioration of asphalt mixture by conventional storage methods.

Therefore, as is clear from the above results, the most appropriate asphalt mixing ratio for the secondary mixing is 1 to 3% by weight.

Note that the final asphalt mixing ratio and blending ratio are not limited to those described above, and can be changed as appropriate depending on the application.

As explained above, according to the present invention, it is possible to provide high-quality asphalt mixture from the mixture silo of a relay device installed in a place remote from an asphalt plant, such as in a city area.

In other words, since the asphalt mixture with a poor blend is produced in an asphalt plant, not only does it generate almost no dust, but even if it is stored in a heated state for a long time in a mixture silo, the mixture will remain stable. Even if the mixing ratio of aggregate changes when taking it out from the silo, the poorly blended asphalt mix will not clog the outlet of the mix silo, and even if asphalt deteriorates in one mix silo, this deterioration will not occur. The amount of asphalt is very small, and the quality of the final asphalt mix is not degraded by adding and kneading fresh molten asphalt at the time of shipment. Therefore, the mix is separated from the asphalt plant. Even if the asphalt mixture is shipped from a silo, it is possible to ensure the same quality as conventional asphalt mixture shipped directly from an asphalt plant, and high-quality asphalt mixture can be shipped.

[Brief explanation of the drawing]

The drawings are schematic illustrations of embodiments of the invention. 11 is a mixture silo, 12 is a heating device, 13 is a kneading device,
14 is a weighing machine, and 15 is a weighing device. Procedural amendment (method) January 11, 1999

Claims (1)

[Claims] A lumber silo with a heating device that stores under-heated asphalt mixture with a mixed amount of asphalt less than a predetermined value, a measuring device that measures the poor-mix asphalt mixture discharged from the mixture silo, and It has a weighing machine and a kneading device, and the poor mix asphalt mix produced in the asphalt plant is transported to the mix silo and stored in a heated state, and the poor mix asphalt mix stored in the mix silo is stored in a heated state. The asphalt mixture is discharged from the mixture silo and a fixed amount measured by a measuring device is supplied to the kneading device, and the melted asphalt is measured by the weighing device and supplied to the kneading device, and the mixed asphalt is mixed with the measured poor mix asphalt. An asphalt mixture relay device characterized in that the mixture is stirred and mixed with weighed molten asphalt, and the mixture is shipped after increasing the mixing ratio of asphalt to aggregate to a predetermined value.