US3857552A - Asphalt mixing plants for making asphalt concrete mix - Google Patents

Asphalt mixing plants for making asphalt concrete mix Download PDF

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Publication number
US3857552A
US3857552A US00345409A US34540973A US3857552A US 3857552 A US3857552 A US 3857552A US 00345409 A US00345409 A US 00345409A US 34540973 A US34540973 A US 34540973A US 3857552 A US3857552 A US 3857552A
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binder
temperature
aggregate
mixer
supplying
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US00345409A
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English (en)
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K Ohlson
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01CCONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
    • E01C19/00Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving
    • E01C19/02Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving for preparing the materials
    • E01C19/05Crushing, pulverising or disintegrating apparatus; Aggregate screening, cleaning, drying or heating apparatus; Dust-collecting arrangements specially adapted therefor
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01CCONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
    • E01C19/00Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving
    • E01C19/02Machines, tools or auxiliary devices for preparing or distributing paving materials, for working the placed materials, or for forming, consolidating, or finishing the paving for preparing the materials
    • E01C19/10Apparatus or plants for premixing or precoating aggregate or fillers with non-hydraulic binders, e.g. with bitumen, with resins, i.e. producing mixtures or coating aggregates otherwise than by penetrating or surface dressing; Apparatus for premixing non-hydraulic mixtures prior to placing or for reconditioning salvaged non-hydraulic compositions
    • E01C19/1059Controlling the operations; Devices solely for supplying or proportioning the ingredients
    • E01C19/1068Supplying or proportioning the ingredients

Definitions

  • This invention relates to an asphalt mixing plant for makingasphalt concrete mix having mineral aggregate supplying and heating means, a mixer for receiving the heated mineral aggregate, and binder supplying means including heating means for introducing heated bitumen into the mixer.
  • the invention has for its object to overcome this deficiency.
  • the invention relates to an asphalt mixing plant of the type outlined in the foregoing, which is characterized in that the binder supplying means are provided with viscosity sensing means adapted to sense the viscosity of the heated binder and thereby to control regulating means for the heating means of the binder supplying means and that temperature sensing means are adapted to sense the temperature of the binder in the binder supplying means and thereby to control regulating means for the mineral aggregate supplying and heating means.
  • Binder is delivered to the asphalt mixing plant in various qualities. Even within one and the same quality from one and the same supplier the viscosity of the binder at a certain temperature may vary considerably from one delivery to another. Since the binder added to the mixer'in an asphalt mixing plant of the type outlined in the foregoing comes from a heated supply the amount of binder in said supply may also in time change its viscosity that is bound to a certain heating temperature because readily volatile components evaporate at said heating temperature. To attain as high a qualityas possible of the pavings or like coverings to be laid with the asphalt concrete mix prepared in the asphalt mixing plant it has proved very important that the binder at the mixing thereof with the mineral aggregate in the mixer possesses a certain viscosity.
  • This viscosity shall be such as to guarantee as far as feasible in the mixing operation that the large particles of the aggregate are completely covered with a thin film of binder, and to bring the small particles of the aggregate to adhere to and sink into said binder film on the large particles without being agglomerated or forming lumps of small aggregate particles.
  • the present invention makes it possible to adjust the viscosity of the binder in the binder supplying means at the desired viscosity value and by control of the temperature of the mineral aggregate in dependence on that of the binder in the binder supplying means to realize that the binder will have a viscosity suitable for the mixing operation in the mixer, irrespective'of variations in the viscosity properties of the batches of binder supplied to the asphalt mixing plant and irrespective of changes in the composition of the binder in the binder supplying means by reason of the evaporation of readily volatile components of the binder.
  • the drawing illustrates a preferred embodiment of the invention as applied to a conventional type of asphalt mixing plant the known parts and function of which need not therefore be described in detail to those skilled in the art.
  • mineral aggregate for making asphalt concrete mix is kept in three storage containers 1 to 3. Each of them contains one of three particle size fractions of the mineral aggregate required for the asphalt concrete mix.
  • suitable supply devices 4 of conventional nature, such as shutters and electromechanical vibrators, aggregate is discharged from the three containers 1 to 3 in definite relative proportions to a conveyer 5 which delivers the aggregate through a hopper 6 or inlet to one end of a rotary drying and heating drum 7.
  • the supply devices 4 are connected to a control means 8 which in a known manner regulates the supply devices in such a way that the aggregate fractions from the three containers 1 to 3 are delivered to the conveyer 5 in the desired relative proportions: and in the requisite amounts per unit of time.
  • the mineral aggregate introduced at one end of the drum travels while being tumbled to the other end of the drum and is exposed during its travel to the hot gases from an oil burner 9 which is disposed at said other end of the drum and supplied with oil from an oil supply tank 11 bymeans of a pump 10.
  • a thermostat 12 which can be set at a desired temperature is arranged to permit heating of the aggregate to a definite, desired temperature in the drum 7, and the sensing means 13 of said thermostat 12 is adapted to sense the temperature of the aggregate heated in the drum 7 at some suitable point.
  • the sensing means 13 is disposed in a tube 14 through which the aggregate leaves the drum 7 to be transferred to the lower end of a vertical conveyer 15.
  • the thermostat 12 controls the temperature of the aggregate by regulating the oil pump 10 (to adapt the heat energy generated by the burner 9 per unit of time) and/or adjusting the adjustable control means 8 (to adapt the amount of aggregate supplied to the drum 7 per unit of time). As indicated in the drawing the thermostat 12 in the embodiment chosen is connected both to the pump 10 and the control means 8.
  • the dried and heated aggregate supplied through the tube 14 to the lower end of the vertical conveyer 15 is raised by the conveyer to a discharge tube 16 through which the aggregate enters a grading chamber 17.
  • a set of screens 18 again separates the entering aggregate into three fractions, viz. a fraction formed by the largest particles which are collected in a storage bin 19, a fraction formed by average-sized particles which are collected in a storage bin 20, and a fine-grained fraction collected in a storage bin 21.
  • the bins 19 to 21 are provided with shutter-regulated discharge openings for letting aggregate fall down from the bins to a hopper 22 equipped with a weighing machine, in which suitable amounts of the three aggregate fractions from the storage bins 19 to 21 are weighed to form an aggregate batch which is then permitted to fall through a shutter-regulated discharge opening at the bottom of the hopper into a mixer 23.
  • a hopper 22 equipped with a weighing machine, in which suitable amounts of the three aggregate fractions from the storage bins 19 to 21 are weighed to form an aggregate batch which is then permitted to fall through a shutter-regulated discharge opening at the bottom of the hopper into a mixer 23.
  • filler i.e., particularly fine-grained aggregate
  • such filler is supplied to the mixer 23 through a special hopper 24 which is supplied with filler separately, i.e., from elsewhere than from the conveyer 15 and the chamber 17.
  • the mixer 23 is formed by a vessel in which two shafts 25 with blades 26 are rotatable for mixing the aggregate supplied from the hoppers 22 and 24 with heated-binder which is supplied to the mixer through nozzles 27. After a batch of asphalt concrete mix has been prepared the finished batchis discharged from the mixer 23 through a discharge mechanism 28 at the bottom of the mixer.
  • the nozzles 27 are supplied with heated binder from the following device. A supply of binder for the asphalt mixing plant is kept in a large storage tank 29 in which the binder is kept heated by means of a heating device 30 connected to a source of power 31.
  • a small supply tank 32 is connected to the storage'tank 29 through a supply conduit and a return conduit, and a pump 33 inserted in the supply conduit constantly maintains a circulation of heated binder from the storage tank to the supply tank and back to the storage tank.
  • the supply tank suitably also comprises a heating device 34 which is connected to the source of power 31 to keep the binder heated in the supply tank 32.
  • the heating effect of each heating device 30 and 34 is variable by regulating means 35 and 36, respectively.
  • the source of power 31 may be for instance a source of electric power, in which case the heating devices 30, 34 may be electric resistance heating elements and the regulating means 35, 36 may be connectors for connection of larger or smaller parts of the resistance heating elements.
  • the heating devices 30, 34 may be electric resistance heating elements
  • the regulating means 35, 36 may be connectors for connection of larger or smaller parts of the resistance heating elements.
  • the heating devices 30, 34 may be electric resistance heating elements
  • the regulating means 35, 36 may be connectors for connection of larger or smaller parts of the resistance heating elements
  • source of power 31 may be a source of hot oil, in which case the heating devices 30, 34 are heating tube coils and the regulating means 35, 36 are valves. As need arises heated binder is fed from the supply tank 32 to the nozzles 27 by means of a pump 37. 1
  • the parts of the asphalt mixing plant as hitherto described are conventional.
  • the part of the asphalt plant that is improved according to the invention includes viscosity sensing means 38 which sense the viscosity of the heated binder circulating in the tanks 29, 32. These sensing means may be connected in the tank 29 or the tank 32 or in the conduits connecting these two tanks. It would seem most suitable, as shown in the drawing, to connect the viscosity sensing means 38 in the supply conduit between the pump 33 and the supply tank 32.
  • the viscosity sensing means 38 may be of any suitable prior-art'type whatever which can measure the viscos ity of the heated'binder and deliver say an electrical signal which indicates whether the measured viscosity exceeds or is lower than a value at which the sensing means have been set.
  • the viscosity sensing means may be for instance of the prior-art rotation viscosimeter type.
  • the signal delivering element of the viscosity sensing means 38 is connected to the regulating means 35 and 36 which are controllable by means of the signal in order to increase the heating effect of the heating devices 30, 34 when the viscosity of the binder is too high, and to reduce the heating effect thereof when the viscosity is too low.
  • the viscosity of the binder circulating in the tanks 29, 32 can thus be kept at the value set with the aid of the viscosity sensing means by alteration of the temperature of the binder.
  • the mineral aggregate supplied to the mixer 23 shall have the same temperature as the supplied binder or a slightly lower temperature than said binder.
  • the temperature of the heated binder circulating in the binder supply device is sensed by a temperature sensing means 39 the sensing element 40 of which is disposed at some suitable location in the path of circulation of the binder, preferably as shown in the supply tank 32.
  • the temperature sensing means 39 is of a priorart type and delivers say an electricalsignal the magnitude of which is dependent upon the sensed temperature of the binder.
  • the signal delivering element of the temperature sensing means 39 is connected to the adjusting means of the thermostat 12 for adjusting the thermostat in a known manner at such a temperature that the aggregate when reaching the mixer 23 has the same temperature as the binder supplied to the mixer, or a slightly lower temperature.
  • the bins 19 and 20 have two parallel connected heating elements 41 of the type earlier described, which are connected to the source of power 31 via a regulating means 42 which is controllable by means of an adjustable thermostat 43, the sensing element 44 of which senses the temperature of the aggregate in the bins 19, 20.
  • the temperature adjusting means of the thermostat 43 is connected to the temperature sensing means 39 in order to be set by the signal thereof at a temperature suitable with respect to that of the heated binder.
  • the storage bin 21 suitably also has a heating element 45. Although this might be connected in parallel with the elements 41 to be controlled by the thermostat 43, it is sometimes suitable, as shown in the drawing, to connect the element 45 separately to the source of power 31 via regulating means 46 controlled by an adjustable thermostat 47, the temperature sensing element 48 of 5 which senses the temperature of the fine-grained aggregate fraction in the storage bin 21.
  • the temperature adjusting means of the thermostat 47 is connected to the temperature sensing means 39 in order to be set by the signal thereof at a temperature suitable with respect to that of the heated binder.
  • This separate control of the temperature of the finegrained aggregate fraction in the storage bin 21 is advantageous in that it permits keeping said fine-grained fraction at another and usually lower temperature than the more coarse-grained aggregate fractions contained in the storage bins 19 and 20.
  • the bin 21 may be heatinsulated in relation to the other bins, as is indicated in the drawing by a heat insulation 49 between the bin 21 and the bin 20.
  • This arrangement of a separate temperature control of the fine-grained aggregate fraction in the storage bin 21 has proved to be of particular importance upon application of the method according to US. Pat. application Ser. No.
  • the coarse-grained aggregate fractions from the storage bins l9 and 20 are first mixed in the mixer 23 with the entire amount of binder required for the batch to be mixed, before the fine-grained aggregate fraction from the storage bin 21 to be admixed to said batch is introduced into the mixer under continued mixing.
  • the fine-grained aggregate fraction in the storage bin 21 should be kept at a slightly lower temperature than the aggregate fractions in the storage bins 19 and 20 in order that the best results possible may be attained.
  • filler If filler is to be introduced into the mixer 23 from the hopper 24, the filler need not be controlled as to its temperature. It is usually added in cold or relatively cold condition.
  • an asphalt mixing plant for making asphalt concrete mix having mineral aggregate supplying and heating means, a mixer for receiving the heated mineral aggregate, and binder supplying means including heating means for introducing heated bitumen into the mixer, the improvement comprising viscosity sensing means for sensing the viscosity of the heated binder, binder temperature regulating means for controlling the heating means of the binder supplying means, said binder temperature regulating means being operatively connected to said viscosity sensing means for controlling the temperature of the binder in relation to the viscosity of the binder, binder temperature sensing means for sensing the temperature of the binder in the binder supplying means, and aggregate temperature regulating means for the mineral aggregate supplying and heating means, said aggregate temperature regulating means being connected to said binder temperature sensing means for controlling the temperature of the mineral aggregate in relation to the temperature of the binder.
  • the mixing plant is arranged first to supply a coarse fraction of mineral aggregate and the binder to the mixer and to mix them, before a more fine-grained and residual fraction of the mineral aggregate is introduced into the mixer under continued mixing, wherein means forming part of the supplying and heating means for the aggregate and determining the temperature at which the coarse fraction of the aggregate and the more finegrained fraction of the aggregate, respectively, is supplied to the mixer, are provided each with regulating means individually controllable by the binder temperature sensing means to permit supplying the coarse aggregate fraction to the mixer at a temperature other than that of the more fine grained fraction.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Road Paving Machines (AREA)
US00345409A 1972-03-28 1973-03-27 Asphalt mixing plants for making asphalt concrete mix Expired - Lifetime US3857552A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
SE03988/72A SE362382B (en, 2012) 1972-03-28 1972-03-28

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US3857552A true US3857552A (en) 1974-12-31

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US (1) US3857552A (en, 2012)
JP (1) JPS498516A (en, 2012)
CH (1) CH555733A (en, 2012)
DE (1) DE2314751A1 (en, 2012)
DK (1) DK139562B (en, 2012)
FR (1) FR2178145B3 (en, 2012)
GB (1) GB1391039A (en, 2012)
SE (1) SE362382B (en, 2012)

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4042149A (en) * 1975-06-23 1977-08-16 Combotronics, Inc. Liquid pump and metering system
US4155654A (en) * 1974-12-09 1979-05-22 Gulf Canada Limited Apparatus for continuous preparation of sulfur asphalt binders and paving compositions
US4382682A (en) * 1980-06-02 1983-05-10 Mendenhall Robert Lamar Recycling apparatus for particulate asphaltic concrete
US5219450A (en) * 1991-01-28 1993-06-15 Thurk John H Mobile asphalt mix plant with component sensing and distinct steering means
US5303999A (en) * 1989-07-31 1994-04-19 Cyclean, Inc. Apparatus for control of recycled asphalt production
US5322367A (en) * 1989-07-31 1994-06-21 Cyclean, Inc. Process control for recycled asphalt pavement drum plant
ES2056026A1 (es) * 1991-12-23 1994-09-16 Elf Antar France Procedimiento de produccion de una emulsion de un aglutinante bituminoso que permita el control de la viscosidad y de las calidades de ruptura de la emulsion.
US5634712A (en) * 1995-08-09 1997-06-03 Cedarapids, Inc. Asphalt plant with gas containment system
US6662867B1 (en) 2000-10-30 2003-12-16 Owens-Corning Fiberglas Technology, Inc. Controlled heating of a coating material
US7387428B1 (en) 2007-03-21 2008-06-17 Browne James O Method for mixing slurry
CN102330403A (zh) * 2011-07-14 2012-01-25 无锡雪桃集团有限公司 一种沥青混合料的骨料计量系统
CN102330402A (zh) * 2011-07-14 2012-01-25 无锡雪桃集团有限公司 一种沥青混合料拌合设备热骨料配料装置
CN102767131A (zh) * 2012-04-26 2012-11-07 黑龙江省龙建路桥第四工程有限公司 沥青混凝土搅拌站
CN112681062A (zh) * 2020-12-22 2021-04-20 内蒙古绰勒水利水电有限责任公司 一种寒冷地区碾压混凝土施工方法

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS4877587A (en, 2012) * 1972-01-20 1973-10-18
US3999743A (en) * 1975-08-11 1976-12-28 Mendenhall Robert Lamar Asphalt-aggregate recycle process and apparatus
DE2830795A1 (de) * 1978-07-13 1980-01-24 Teerbau Gmbh Strassenbau Verfahren zur aufbereitung von bituminoesen altbaustoffen
WO1983000700A1 (en) * 1981-08-25 1983-03-03 Karl Gunnar Ohlson Method and apparatus for the production of asphalt concrete
JPH0681843B2 (ja) * 1989-06-28 1994-10-19 日工株式会社 アスファルト混合物製造方法及び装置

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2772083A (en) * 1953-03-10 1956-11-27 Parker Ltd Frederick Drier and mixer for fluent solid material
US3110421A (en) * 1961-05-24 1963-11-12 Matthias Karl Heinrich Supervising apparatus for maintaining predetermined mixture proportions in the dry constituents of a mixture more particularly for road construction
US3554498A (en) * 1967-02-03 1971-01-12 Underground Mining Mach Process for the production of aggregate coated with bituminous material
US3741532A (en) * 1969-09-08 1973-06-26 Barber Greene Co Proportioning control system for an asphalt plant

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2772083A (en) * 1953-03-10 1956-11-27 Parker Ltd Frederick Drier and mixer for fluent solid material
US3110421A (en) * 1961-05-24 1963-11-12 Matthias Karl Heinrich Supervising apparatus for maintaining predetermined mixture proportions in the dry constituents of a mixture more particularly for road construction
US3554498A (en) * 1967-02-03 1971-01-12 Underground Mining Mach Process for the production of aggregate coated with bituminous material
US3741532A (en) * 1969-09-08 1973-06-26 Barber Greene Co Proportioning control system for an asphalt plant

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4155654A (en) * 1974-12-09 1979-05-22 Gulf Canada Limited Apparatus for continuous preparation of sulfur asphalt binders and paving compositions
US4042149A (en) * 1975-06-23 1977-08-16 Combotronics, Inc. Liquid pump and metering system
US4382682A (en) * 1980-06-02 1983-05-10 Mendenhall Robert Lamar Recycling apparatus for particulate asphaltic concrete
US5303999A (en) * 1989-07-31 1994-04-19 Cyclean, Inc. Apparatus for control of recycled asphalt production
US5322367A (en) * 1989-07-31 1994-06-21 Cyclean, Inc. Process control for recycled asphalt pavement drum plant
US5219450A (en) * 1991-01-28 1993-06-15 Thurk John H Mobile asphalt mix plant with component sensing and distinct steering means
ES2056026A1 (es) * 1991-12-23 1994-09-16 Elf Antar France Procedimiento de produccion de una emulsion de un aglutinante bituminoso que permita el control de la viscosidad y de las calidades de ruptura de la emulsion.
US5634712A (en) * 1995-08-09 1997-06-03 Cedarapids, Inc. Asphalt plant with gas containment system
US6662867B1 (en) 2000-10-30 2003-12-16 Owens-Corning Fiberglas Technology, Inc. Controlled heating of a coating material
US7387428B1 (en) 2007-03-21 2008-06-17 Browne James O Method for mixing slurry
CN102330403A (zh) * 2011-07-14 2012-01-25 无锡雪桃集团有限公司 一种沥青混合料的骨料计量系统
CN102330402A (zh) * 2011-07-14 2012-01-25 无锡雪桃集团有限公司 一种沥青混合料拌合设备热骨料配料装置
CN102767131A (zh) * 2012-04-26 2012-11-07 黑龙江省龙建路桥第四工程有限公司 沥青混凝土搅拌站
CN112681062A (zh) * 2020-12-22 2021-04-20 内蒙古绰勒水利水电有限责任公司 一种寒冷地区碾压混凝土施工方法

Also Published As

Publication number Publication date
FR2178145B3 (en, 2012) 1976-03-26
DE2314751A1 (de) 1973-10-11
CH555733A (de) 1974-11-15
DK139562B (da) 1979-03-12
GB1391039A (en) 1975-04-16
JPS498516A (en, 2012) 1974-01-25
SE362382B (en, 2012) 1973-12-10
FR2178145A1 (en, 2012) 1973-11-09
DK139562C (en, 2012) 1979-08-27

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