JP4266852B2 - Asphalt compound production equipment - Google Patents

Description

  The present invention relates to an asphalt composite material manufacturing facility for effectively utilizing asphalt paved road waste material generated in road construction and the like, and more particularly, to an asphalt composite material manufacturing facility including a recycle dryer and a virgin dryer.

  Conventional asphalt compound production equipment uses asphalt pavement waste dug up by replacement or road construction, aggregate particles with asphalt film on the surface of the aggregate by mechanical crushing by crusher or thermal crushing with hot water or high temperature steam These aggregate particles are heat-dried with a recycle dryer to make a reusable recycled material.

  The recycle dryer has a structure in which a cylindrical drum inclined toward the outlet side is rotatably supported, and is put into the drum by a steel plate scraping blade provided on the inner peripheral wall of the cylindrical drum. The recycled material is rolled and dropped while being scraped, and the aggregate is heated to a predetermined temperature by contacting with hot air supplied from a burner in this process, whereby the recycled material is heated and dried. In the heating process of such a recycle dryer, dust is generated from the recycled material when the recycled material is pulverized, so a cyclone dust collector is used for primary dust collection. This cyclone dust collector collects a large amount of dust, and a bag filter device is used to collect small dust mixed with gas that cannot be collected by the cyclone dust collector.

  The basic structure of this bag filter device is that a large number of cloth filter materials called bag filters are suspended in a sealed container. By connecting the inside of the bag filter device and the recycle dryer and setting the inside of the bag filter device to a pressure lower than the outside of the bag filter device, the gas containing dust is sucked in from the outside of the bag filter device to the inside. . As a result, fine dust in the gas is collected on the outer surface of the bag filter, and only the gas purified by passing through the bag filter is discharged to the outside.

  In such an asphalt mixture manufacturing facility, in recent years, from the viewpoint of effective utilization of facilities, as shown in FIG. 8, a virgin dryer 51 for heating a new asphalt material is arranged in parallel with a recycle dryer 50. An apparatus in which these two dryers 50 and 51 are connected to a single bag filter device 58 has been developed. With such a structure, one bag filter device 58 can be shared by both the recycle dryer 50 and the virgin dryer 51, so that the facilities can be greatly simplified.

As shown in FIG. 8, in such an asphalt mixed material manufacturing facility, a recycle dryer 50 and a virgin dryer 51 are provided with cyclone dust collectors 52 and 53, respectively, and an exhaust path from the cyclone dust collectors 52 and 53 to the bag filter device 58. Opening and closing dampers 54 and 55 are provided on the front side. The recycle dryer 50 and the virgin dryer 51 are provided with pressure sensors 62 and 63 for detecting respective internal pressures, and the opening degree of the open / close dampers 54 and 55 is determined in accordance with detection signals from the pressure sensors 62 and 63. Control devices 56 and 57 for controlling the above are provided. The controller 64 has a function for controlling the opening of the blower fan 6 0 closing the damper 59 to an opening that is set in advance in accordance with the operating conditions of the recycle dryer 50 and virgin dryer 51.

  A recycle dryer 50 and a virgin dryer 51 provided in parallel are connected to the bag filter device 58 arranged as a secondary dust collector. Further, a main damper 59 and a blower fan 60 for adjusting the exhaust amount from the bag filter device 58 are arranged on the downstream side of the bag filter device 58. The blower fan 60 is rotationally driven by an electric motor.

  In the asphalt composite material production facility shown in FIG. 8, when both the recycle dryer 50 and the virgin dryer 51 are operated, the control device keeps the internal pressure of the recycle dryer 50 and the internal pressure of the virgin dryer 51 at predetermined set values. The open / close dampers 54 and 55 are respectively controlled by 56 and 57, and the main damper 59 is fully closed when the blower fan 60 is started to reduce the negative pressure at the start.

  On the other hand, in an asphalt compound production facility where a recycle dryer and a virgin dryer are arranged, the purpose is to prevent damage to bag filters and the like when only one of the other dryers is operated with one dryer suspended. Technology has been developed (see, for example, Patent Document 1).

JP-A-9-78520 (page 3-5)

  In the asphalt mixture production facility shown in FIG. 8, when only one of the recycle dryer 50 and the virgin dryer 51 is operated, the blower fan 60 can suck the gas amount when the two dryers 50 and 51 are operated. Since the main damper 59 is fixed at a preset opening degree, an excessive negative pressure is generated inside the casing of the bag filter device 58. Moreover, since the load of the blower 60 is not the minimum necessary, power consumption is wasted.

  For this reason, a technique is also adopted in which the number of revolutions can be changed by inverter-controlling the electric motor that drives the blower 60, but the electric motor itself operates at a preset number of revolutions. The actual situation is that there is a waste.

  On the other hand, in the asphalt composite material manufacturing facility described in Patent Document 1, the internal pressure of the bag filter device can be controlled to a set value, but the internal pressure of the recycle dryer or the virgin dryer is not directly controlled. For this reason, immediately after the internal pressure of the dryer changes, the air volume adjustment damper of the dryer operates.After that, the change of the internal pressure of the bag filter device is detected by the differential pressure sensor and the control is started. May occur. In order to cope with such a delay, the load setting of the internal pressure of the bag filter device can only be increased, so that an extra load is applied to the blower fan.

  Therefore, the problem to be solved by the present invention is to maintain the internal pressure of the virgin dryer and the recycle dryer in an optimum state at all times in the asphalt composite material manufacturing facility in which the recycle dryer and the virgin dryer are arranged, It is providing the technique which can reduce the power consumption of a ventilation fan.

The asphalt composite material production facility of the present invention is disposed in a recycle dryer and a virgin dryer, a pressure sensor for individually detecting the internal pressure of the recycle dryer and the virgin dryer, and a ventilation path downstream of the recycle dryer and the virgin dryer, respectively. Opening / closing means for adjusting the air volume, a bag filter device disposed in the ventilation path downstream of the opening / closing means, a suction fan disposed in the ventilation path downstream of the bag filter apparatus, and the rotational speed of the fan An asphalt composite material production facility comprising a rotation speed adjusting means for changing
A control device having a function of changing the opening of the opening and closing means and the rotation speed of the blower fan based on the detection signal of each pressure sensor and holding the internal pressure of the recycle dryer and the virgin dryer at a set value is provided .
An exhaust gas amount measurement means that individually measures the exhaust gas amount of the recycle dryer and virgin dryer is provided, and the control device
Based on the measurement signals of the two exhaust gas amount measuring means, a dryer selection function for selecting a dryer for controlling the internal pressure by changing the rotational speed of the blower fan,
A main control function for controlling the internal pressure of the dryer selected by the dryer selection function by changing the rotational speed of the blower fan;
And a sub-control function for controlling the internal pressure of the dryer not selected by the dryer selection function by changing the opening of the opening / closing means .

  By adopting such a configuration, a control method for holding the internal pressure of the virgin dryer at a set value by changing the rotation speed of the blower fan, and holding the internal pressure of the recycle dryer at a set value by changing the opening degree of the opening / closing means. Alternatively, the control method of selectively holding the internal pressure of the recycle dryer by changing the opening degree of the opening / closing means to keep the internal pressure of the virgin dryer at the set value and changing the rotation speed of the blower fan is selectively executed. Is possible.

  Therefore, it is possible to maintain the internal pressure of the virgin dryer and the recycle dryer at an optimum state at all times even with a large-capacity blower fan that can operate two dryers simultaneously, effectively suppressing excessive air discharge. Therefore, the power consumption of the blower fan can be reduced. In addition, an inverter is suitable as the rotation speed adjusting means constituting the asphalt composite material manufacturing facility of the present invention, and similarly, an air volume damper device is preferable as the opening / closing mechanism for adjusting the air volume.

As described above, the asphalt mixture manufacturing facility of the present invention is provided with exhaust gas amount measuring means for individually measuring the exhaust gas amount of the recycle dryer and the virgin dryer, and the control device includes:
Based on the measurement signals of the two exhaust gas amount measuring means, a dryer selection function for selecting a dryer for controlling the internal pressure by changing the rotational speed of the blower fan,
A main control function for controlling the internal pressure of the dryer selected by the dryer selection function by changing the rotational speed of the blower fan;
A secondary control function of controlling the internal pressure of the dryer which is not selected by the dryer function selected position change of the opening and closing means, it is a structure provided with.

By such a configuration, even when allowed to run on recycled dryer and virgin dryer at the same time and different situations, and respond appropriately to each of the dryer operating conditions, always optimal internal pressure of the virgin dryer and recycling dryer It becomes possible to hold in a state. For this reason, excessive discharge of air is more effectively suppressed, and the power consumption of the blower fan can be further reduced.

  In this way, since the internal pressure of the recycling dryer and virgin dryer that are in operation can be brought close to the ideal state, there is no blowout of dust from each dryer, and the load of the bag filter device can be reduced. The life of the filter cloth built in the bag filter device can be extended. In addition, the amount of exhaust gas from the asphalt compound production facility can be reduced, so the impact on the environment can be reduced, the burden on the exhaust gas treatment facility is reduced, and the scale of the facility can be reduced. You can go down.

  Also, depending on the composition of the asphalt mixture produced using the asphalt mixture production equipment, the heat drying amount per unit time of the virgin dryer and the recycle dryer may differ, but the internal pressure of the dryer with the larger exhaust gas amount Based on the system that controls the rotation speed of the blower fan based on this, it is not necessary for the operator to switch the control while monitoring the amount of exhaust gas every time the composition changes, and ideal plant operation corresponding to the production state Is possible.

  The exhaust gas amount measuring means includes a gas amount measuring sensor for measuring the exhaust gas amount (combustion amount) of the dryer, or the exhaust gas amount from the fuel consumption of the burner of the dryer and the feed amount / water content of the asphalt composite material. A circuit device to be calculated can be used.

On the other hand, the asphalt composite production facility of the other invention has a recycling dryer and a virgin dryer, a pressure sensor for individually detecting the internal pressure of the recycling dryer and the virgin dryer, and a suction disposed in the ventilation path on the downstream side of the recycling dryer. First blower fan, bag filter device arranged in the downstream ventilation path of the first blower fan and virgin dryer, and second blower fan for suction arranged in the ventilation path downstream of the bag filter device And an asphalt composite material manufacturing facility comprising a rotation speed adjusting means for individually changing the rotation speeds of the first blower fan and the second blower fan,
A function of changing the rotational speed of the first blower fan based on the detection signal of the pressure sensor of the recycle dryer and maintaining the internal pressure of the recycle dryer at a set value;
A control device having a function of changing the rotation speed of the second blower fan based on a detection signal of the pressure sensor of the virgin dryer and maintaining the internal pressure of the virgin dryer at a set value is provided.

  By adopting such a configuration, as described above, the internal pressures of the virgin dryer and the recycle dryer can be always kept in an optimal state, and the power consumption of the blower fan can be reduced. In addition, if the internal pressure is stabilized by changing the rotation speed of the blower fan in response to the change in the internal pressure of the virgin dryer, the change becomes a disturbance factor of the internal pressure of the recycle dryer and disturbs the operation status of the recycle dryer. Sometimes. However, the influence of the virgin dryer on the internal pressure of the recycle dryer can be eliminated by controlling the internal pressure of the recycle dryer with the first blower fan.

  The present invention has the following effects.

(1) A pressure sensor that individually detects the internal pressures of two dryers, an opening / closing means disposed downstream of each dryer, a bag filter device disposed downstream of the opening / closing means, and a downstream side of the bag filter device In the asphalt composite material manufacturing equipment provided with the blower fan arranged in the fan and the rotation speed adjusting means for changing the rotation speed of the blower fan, the opening degree of the opening and closing means and the blower fan based on the detection signals of the respective pressure sensors By providing a control device that has the function of maintaining the internal pressure of each dryer at a set value by changing the rotation speed of each dryer, it is possible to maintain the internal pressure of each dryer at the optimum state at all times, effectively eliminating excessive air discharge. Therefore, the power consumption of the blower fan can be reduced.

(2) Exhaust gas amount measuring means for individually measuring the exhaust gas amount of each dryer is provided, and the internal pressure is controlled by changing the rotational speed of the blower fan based on the measurement signals of the two exhaust gas amount measuring means in the control device. The dryer selection function that selects the dryer of the other, the main control function that controls the internal pressure of the dryer selected by the dryer selection function by changing the rotation speed of the blower fan, and the dryer that is not selected by the dryer selection function By providing a sub-control function that controls the internal pressure by changing the opening of the opening / closing means, it is possible to maintain the respective internal pressures in an optimal state at all times, accurately corresponding to the operating status of each dryer. Excessive discharge is more effectively suppressed, and the power consumption of the blower fan can be further reduced. Also, no dust blows out from the dryer, extending the life of the filter cloth in the bag filter device and reducing the amount of exhaust gas, reducing the impact on the environment and reducing the scale of the exhaust gas treatment facility. Thus, cost reduction can be achieved.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic configuration diagram showing an asphalt composite material manufacturing facility according to an embodiment of the present invention, and FIG. 2 is a schematic diagram showing the inside of a bag filter device constituting the asphalt composite material manufacturing facility shown in FIG. .

  The asphalt composite material manufacturing facility of this embodiment collects dust generated in a recycle dryer 10 that processes waste material of an asphalt paved road, a virgin dryer 11 that processes new asphalt material, and these dryers 10 and 11. Cyclone dust collectors 12 and 13 and opening / closing dampers 14 and 15 that are means for opening and closing the ventilation paths 10a and 11a are provided. Gas amount measuring sensors 21 and 22 for individually measuring the exhaust gas amounts of the dryers 10 and 11 are disposed in the ventilation paths 10a and 11b on the downstream side of the open / close dampers 14 and 15, respectively.

  Further, the differential pressure sensors 16a and 17a that individually measure the internal pressures of the recycle dryer 10 and the virgin dryer 11, and the opening degree of the open / close dampers 14 and 15 according to the detection signals of these differential pressure sensors 16a and 17a. Control devices 16 and 17 are provided for controlling. These control devices 16 and 17 open and close the open / close dampers 14 and 15 based on the measurement results of the differential pressure sensors 16a and 17a so that the internal pressures of the recycle dryer 10 and the virgin dryer 11 become set values. To control.

  Further, the control devices 16 and 17 include a dryer selection function for selecting a dryer whose internal pressure is changed by a change in the rotation speed of the blower fan 20 based on the measurement signals of the gas amount measurement sensors 21 and 22, and this dryer selection function. The main control function for changing the internal pressure of the dryer selected in step 1 by changing the rotational speed of the blower fan 20 and the internal pressure of the dryer not selected by the dryer selection function are changed by the opening degree of the open / close dampers 14 and 15. A sub-control function.

  The ventilation paths 10a and 11a arranged on the downstream side of the two dryers 10 and 11 merge with the ventilation path 10ab via the open / close dampers 14 and 15, respectively, and downstream of the ventilation path 10ab, as a secondary dust collector A bag filter device 18 is connected. A suction fan 20 is disposed in the ventilation path 18 a on the downstream side of the bag filter device 18. The blower fan 20 has a capacity capable of sucking exhaust gas generated by the two dryers of the recycle dryer 10 and the virgin dryer 11, and is rotationally driven by an inverter-controlled electric motor (not shown).

  The internal pressure setting of the recycle dryer 10 is set to −50 Pa, the internal pressure set value of the virgin dryer 11 is set to −50 Pa, and the recycle plan is operated. When the operation of the asphalt composite material production facility is started, the blower fan 20 is gradually started, but at this time, control by pressure is not yet performed. And control will be started if the ventilation fan 20 rises to the setting rotation speed before dryer burner ignition.

  As shown in FIG. 3, when only the virgin dryer 11 is operated, the open / close damper 15 is fully opened, the open / close damper 14 is closed, and the blower fan 20 sucks exhaust gas generated in the virgin dryer 11. In this case, the internal pressure of the virgin dryer 11 is detected by the fine pressure sensor 17a, and the control device 17 changes the rotational speed of the blower fan 20 based on this detection signal, thereby controlling the internal pressure of the virgin dryer 11 to a set value. To do. Further, the exhaust gas amount measurement sensor 22 measures the exhaust gas amount of the virgin dryer 11, and the main control function in the control device 17 changes the rotational speed of the blower fan 20 based on the measurement signal, whereby the internal pressure of the virgin dryer 11 is changed. To control.

  On the other hand, as shown in FIG. 4, when only the recycle dryer 10 is operated, the open / close damper 15 is closed, the open / close damper 14 is opened, and the blower fan 20 sucks exhaust gas generated in the recycle dryer 10. In this case, the internal pressure of the virgin dryer 10 is detected by the differential pressure sensor 16a, and the control device 16 controls the internal pressure of the recycle dryer 10 to a set value by changing the rotational speed of the blower fan 20 based on this detection signal. To do. Further, the exhaust gas amount measurement sensor 21 measures the exhaust gas amount of the recycle dryer 10, and the main control function in the control device 16 changes the rotational speed of the blower fan 20 based on the measurement signal, whereby the internal pressure of the recycle dryer 10 is changed. To control.

  Next, referring to FIG. 5, in the state where the recycle dryer 10 and the virgin dryer 11 are operating, based on the measurement signals of the exhaust gas amount measurement sensors 21 and 22, the dryer selection function of the control devices 16 and 17 The case where the virgin dryer 11 is selected as the dryer that controls the internal pressure by changing the rotational speed of the blower fan 20 will be described.

  In this case, the internal pressure of the virgin dryer 11 is controlled by the main control function of the control device 17 changing the rotational speed of the blower fan 20 based on the detection signal of the slight differential pressure sensor 17 a of the virgin dryer 11. The internal pressure of the recycle dryer 10 corresponding to the one not selected by the dryer selection function is changed by the sub-control function of the control device 16 based on the detection signal of the differential pressure sensor 16a. Is controlled by letting

Next, referring to FIG. 6, in a state where the recycle dryer 10 and the virgin dryer 11 are in operation, based on the measurement signals of the exhaust gas amount measurement sensors 21 and 22, the dryer selection function of the control devices 16 and 17 A case where the recycle dryer 10 is selected as a dryer for controlling the internal pressure by changing the rotational speed of the blower fan 20 will be described.

  In this case, the internal pressure of the recycle dryer 10 is controlled by the main control function of the control device 16 changing the rotational speed of the blower fan 20 based on the detection signal of the slight differential pressure sensor 16a. Further, the internal pressure of the recycle dryer 11 that is not selected by the dryer selection function is controlled by the sub-control function of the control device 17 changing the opening of the open / close damper 15 based on the detection signal of the differential pressure sensor 17a. Is done.

  As described above, in both cases where both the recycle dryer 10 and the virgin dryer 11 are operated or only one of them is operated, the internal pressure of each of the operating dryers 10 and 11 is always in an optimum state. Since it becomes possible to hold the air and excessive discharge of air is effectively suppressed, the power consumption of the blower fan 20 can be reduced. Further, since the internal pressures of the dryers 10 and 11 can be appropriately maintained in an optimum state corresponding to the operating conditions of the dryers 10 and 11, no blowout of dust and the like from the dryers 10 and 11 can be eliminated. The lifetime of the filter cloth 18c in the bag filter device 18 shown in FIG. Furthermore, since the amount of exhaust gas is reduced, the environmental impact is reduced, the scale of the exhaust gas treatment facility can be reduced, and the cost can be reduced.

  When the internal pressure of the virgin dryer 11 is controlled by changing the rotation speed of the blower fan 20, the internal pressure of the recycle dryer 10 also changes at the same time, but the control speed of the internal pressure control of the recycle dryer 10 is higher than that of the virgin dryer 11. If it is set several times faster, it becomes difficult to cause disturbance to the internal pressure control of the virgin dryer 11. That is, with the above setting, the internal control of the recycle dryer 10 can be stabilized quickly, the internal pressure control of the virgin dryer 11 can be gradually stabilized, and the load change on the blower fan 20 can be reduced. Loss can be reduced.

  In the present embodiment, the target value of the rotational speed of the blower fan 20 is changed at an interval of about 10 seconds /%. The rate of change in rotation of the blower fan 20 is decreased at a rate of 5 seconds /% and 20 seconds /% when rising. Here, “5 seconds /%” means “the rotational speed decreases by 1% in 5 seconds”. When descending, accurate control was possible without tripping with regenerative current.

  In this embodiment, the driving motor for the blower fan 20 is 90 kW × 4 P, and the same type motor in the conventional asphalt mixture manufacturing facility normally consumes 270 A of electric current. When the rotational speed control by the inverter is performed as in the equipment, the current consumption is reduced to 120A, and a reduction of 150A can be realized while maintaining the same operating condition.

  Next, with reference to FIG. 7, an asphalt composite material manufacturing facility according to another embodiment of the present invention will be described. FIG. 7 is a schematic configuration diagram showing an asphalt composite material manufacturing facility according to another embodiment.

  The asphalt mixture manufacturing facility of this embodiment includes a recycled dryer 30 and a virgin dryer 31, a differential pressure sensor 46a and 47a for individually detecting internal pressures of the recycled dryer 30 and the virgin dryer 31, and a downstream side of the recycled dryer 30. And a first blower fan 34 for suction disposed in the ventilation path 30a.

  Also, a bag filter device 38 connected to the downstream side of the ventilation path 39a where the ventilation path 30a downstream of the first blower fan 34 and the ventilation path 31a downstream of the cyclone dust collector 33 merge, and the bag filter A control device which is a rotational speed adjusting means for individually changing the rotational speeds of the second blower fan 40 for suction disposed in the ventilation path 38a on the downstream side of the device 38 and the first blower fan 34 and the second blower fan 40. 46, 47.

  The control device 46 has a function of holding the internal pressure of the recycle dryer 30 at a set value by changing the rotation speed of the first blower fan 34 based on the detection signal of the pressure sensor 46 a of the recycle dryer 30. The control device 47 has a function of holding the internal pressure of the virgin dryer 31 at a set value by changing the rotational speed of the second blower fan 40 based on the detection signal of the slight differential pressure sensor 47a of the virgin dryer 31.

  By controlling the internal pressure of the recycle dryer 30 by changing the rotational speed of the first blower fan 34, the amount of exhaust gas discharged from the recycle dryer 30 becomes stable. For this reason, if the internal pressure of the virgin dryer 31 is controlled by the change in the rotational speed of the second blower fan 40, stable control becomes possible, and waste of power consumption can be eliminated.

  Normally, when the internal pressure of the virgin dryer 31 changes, the rotational speed of the blower fan 40 is changed and stabilized. However, the change becomes a disturbance factor of the internal pressure of the recycle dryer 30 and disturbs the operation status of the recycle dryer 30. May give. However, in the case of the asphalt composite production facility shown in FIG. 7, the blower fan 34 is provided to control the internal pressure of the recycle dryer 30, so that the influence of the virgin dryer 31 on the internal pressure of the recycle dryer 30 can be eliminated.

  The asphalt composite material manufacturing facility of the present invention can be widely used in the industrial field for recycling waste material of asphalt paved roads generated in road construction and the like.

It is a schematic block diagram which shows the asphalt compound material manufacturing equipment which is embodiment of this invention. It is the schematic which shows the inside of the bag filter apparatus which comprises the asphalt compound material manufacturing equipment shown in FIG. It is a figure which shows the operating condition of the asphalt compound material manufacturing equipment shown in FIG. It is a figure which shows the operating condition of the asphalt compound material manufacturing equipment shown in FIG. It is a figure which shows the operating condition of the asphalt compound material manufacturing equipment shown in FIG. It is a figure which shows the operating condition of the asphalt compound material manufacturing equipment shown in FIG. It is a schematic block diagram which shows the asphalt compound material manufacturing equipment which is other embodiment of this invention. It is a schematic block diagram which shows the conventional asphalt compound material manufacturing equipment.

Explanation of symbols

10, 30 Recycling dryer 10a, 11a, 10ab, 18a, 30a, 31a, 38a, 39a Ventilation path 11, 31 Virgin dryer 12, 13, 32, 33 Cyclone dust collector 14, 15 Open / close damper 16, 17, 46, 47 Control device 16a, 17a, 46a, 47a Differential pressure sensor 18, 38 Bag filter device 18c Filter cloth 20 Blower fan 34 First blower fan 40 Second blower fan 21, 22 Exhaust gas amount measuring sensor

Claims (1)

Recycling dryer and virgin dryer, pressure sensors for individually detecting the internal pressures of the recycling dryer and the virgin dryer, and air volume adjusting opening / closing means respectively disposed in the ventilation path downstream of the recycling dryer and the virgin dryer And a bag filter device disposed in the ventilation path downstream of the opening / closing means, a suction fan disposed in the ventilation path downstream of the bag filter apparatus, and a rotation speed of the fan In the asphalt composite material production facility equipped with a rotation speed adjustment means,
Provided is a control device having a function of changing the opening degree of the opening / closing means and the rotational speed of the blower fan based on the detection signal of each pressure sensor, and maintaining the internal pressure of the recycle dryer and the virgin dryer at a set value. ,
Exhaust gas for individually measuring the amount of exhaust gas from the recycle dryer and the virgin dryer
Measuring amount measuring means, the control device,
Based on the measurement signals of the two exhaust gas amount measuring means, a dryer selection function for selecting the dryer for controlling the internal pressure by changing the rotational speed of the blower fan,
A main control function for controlling the internal pressure of the dryer selected by the dryer selection function by changing the rotational speed of the blower fan;
The internal pressure of the dryer not selected by the dryer selection function is opened by the opening / closing means.
An asphalt mixture manufacturing facility characterized by providing a sub-control function for controlling the degree of change .

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