CN204509951U - Flexible pavement waste material is carried out to the system of hot recycling - Google Patents
Flexible pavement waste material is carried out to the system of hot recycling Download PDFInfo
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- CN204509951U CN204509951U CN201520105203.7U CN201520105203U CN204509951U CN 204509951 U CN204509951 U CN 204509951U CN 201520105203 U CN201520105203 U CN 201520105203U CN 204509951 U CN204509951 U CN 204509951U
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Abstract
Flexible pavement waste material is carried out to the system of hot recycling.Mainly at present the problems such as contaminated environment during flexible pavement waste material reprocessing to be designed for solving.It comprises cold burden bucket feeder, oblique belt conveyor feed end is positioned at the below of cold burden bucket feeder discharging opening, discharge end is positioned at the top of cold burden scraper conveyer feed inlet, cold burden drag conveyor is placed in the top of heating a mixing bowl, heat material drag conveyor is located at the bottom of heating a mixing bowl, heat material drag conveyor discharging opening is corresponding with the charging aperture of scraper lifting machine, and the discharging opening of scraper lifting machine is corresponding with the charging aperture of transitional storehouse device; Pressure sensor seat in transitional storehouse device case has pressure sensor, and taper warehouse is placed on pressure sensor, and heat material scale is hung by pulling force sensor to be established on support, and heat material scale and taper warehouse outside are all enclosed with insulation layer, support has heat material belt conveyor.Advantage is free from environmental pollution.
Description
Technical field:
The utility model relates to the system that the flexible pavement waste material got off to milling carries out hot recycling process.
Background technology:
China all will repair a large amount of existing road surfaces every year, is namely first got off by original road-surface milling of breakage, re-lays new flexible pavement.The regeneration of flexible pavement, can save the raw material such as a large amount of stones, pitch, cost saving, is conducive to protection of the environment again simultaneously.Along with people are to the concern of environmental protection, social benefit, flexible pavement waste regeneration utilization technology is more and more subject to people's attention, and has become in highway engineering construction the important practical technology needing to be further developed.
Being all with hot-blast stove heating at present when carrying out reprocessing to the flexible pavement waste material under milling, being sent in the heated roller of hot-blast stove by waste material, be sent to virgin material mix and blend in asphalt mixing plant after heating again, realize recycling.But its weak point is that hot-blast stove is with open firing, can produce pernicious gas, contaminated environment, and its heating is uneven in addition, the bad control of temperature, easily produces burnt material.And the waste material after heating can reduce temperature when carrying in asphalt mixing plant, affect the effect of same virgin material mix and blend.
Summary of the invention:
Technical problem to be solved in the utility model is to provide a kind of system of flexible pavement waste material being carried out to hot recycling, it is free from environmental pollution when heating waste material, temperature-controllable, homogeneous heating, material after heating thermal loss in the process of carrying to asphalt mixing plant is few, and quantitatively conveying can be realized, thus ensure the mixed proportion of waste material and virgin material.
For achieving the above object, the technical solution used in the present invention is: it comprises cold burden bucket feeder, tiltedly belt conveyor, cold burden drag conveyor, several heating a mixing bowls, heat material drag conveyor, scraper lifting machine, transitional storehouse device, heat material scale, heat material belt conveyor;
The feed end of described oblique belt conveyor is positioned at below the discharging opening of cold burden bucket feeder, the discharge end of oblique belt conveyor is positioned at the oblique upper of cold burden scraper conveyer feed inlet, described cold burden drag conveyor is placed in the top of several heating a mixing bowls, and each discharging opening of cold burden drag conveyor is corresponding with the charging aperture of each heating a mixing bowl respectively, heat material drag conveyor is located at the bottom of several heating a mixing bowls, the discharging opening of heat material drag conveyor is corresponding with the charging aperture of scraper lifting machine, the discharging opening of scraper lifting machine is corresponding with the charging aperture of transitional storehouse device, described transitional storehouse device comprises support, housing and taper warehouse, housing is fixed on the top of support, pressure sensor seat is provided with in housing, pressure sensor is fixed on pressure sensor seat, taper warehouse is placed on pressure sensor, described taper warehouse outer wrap has insulation layer, heat material scale is had below taper warehouse, heat material scale hangs on the support that is located at below taper warehouse by pulling force sensor, the heat material charging aperture of scale and the upper and lower corresponding setting of discharging opening of taper warehouse, heat material scale outside is also enclosed with insulation layer, support below heat material scale is provided with heat material belt conveyor,
Described cold burden drag conveyor comprises housing, housing is fixed with motor reducer, there is driving shaft one end in housing, the other end in housing has driven shaft, two drive sprockets are contained in the two ends of driving shaft respectively, two driven sprockets are contained in the two ends of driven shaft respectively, several supporting-roller shaft are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller at the two ends of each supporting-roller shaft, two chains are enclosed within the drive sprocket being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates, described scraper plate is fixed on two chains, driving shaft is connected by shaft coupling with decelerating through motor power output shaft, housing bottom is provided with several discharging openings, each discharging opening is provided with discharge door, also comprise the discharge door control cylinder identical with discharge door quantity being fixed on housing bottom, described each discharge door is connected with the cylinder bar of each discharge door control cylinder respectively,
Described heating a mixing bowl comprises base, cylinder body and two reducing motors are all fixed on base, described cylinder body is double-decker, namely cylinder body comprises inner and outer wall, the inner and outer wall of cylinder body is linked together by junction plate, conduction oil is had in interlayer between outer wall of cylinder block and inwall, outer wall of cylinder block there are oil-in and oil-out, charging aperture is arranged at cylinder body top, cylinder base has discharging opening, discharging opening is provided with discharge door, discharge door is provided with road wheel, road wheel is placed on the track of base, discharge door is connected with the cylinder bar of discharging cylinder, discharging cylinder is fixed on the base below cylinder body, two pairs of bearing supports are separately fixed at the both sides of cylinder body, be provided with two in cylinder body and mix axle, two mix axle is all fixed with several different angles mix arm, each mixing arm is fixed with one is mixed leaf, mix axle for two all to stretch out from cylinder body, two mix axle respectively with the bearing fit in the bearing support of cylinder body both sides, two one end of mixing axle are connected by shaft coupling with the power output shaft of two reducing motors respectively, two other ends mixing axle are equipped with gear respectively, two gears mixed on axle are meshed, the contact position of mixing axle and outer wall of cylinder block is provided with joint ring, described outer wall of cylinder block is wrapped with insulation layer, and cylinder interior is provided with additive injection tubing,
Described heat material drag conveyor comprises housing, housing is fixed with motor reducer, there is driving shaft one end in housing, the other end in housing has driven shaft, two drive sprockets are contained in the two ends of driving shaft respectively, two driven sprockets are contained in the two ends of driven shaft respectively, several supporting-roller shaft are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller at the two ends of each supporting-roller shaft, two chains are enclosed within the drive sprocket being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates, described scraper plate is fixed on two chains, driving shaft is connected by shaft coupling with decelerating through motor power output shaft, shell one end has discharging opening, housing bottom is fixed with heating oil tank, heating oil tank is provided with oil-in and oil-out,
Described scraper lifting machine comprises housing, housing is fixed with motor reducer, there is driving shaft one end in housing, the other end in housing has driven shaft, two sprocket wheels are contained in the two ends of driving shaft respectively, two driven sprockets are contained in the two ends of driven shaft respectively, several supporting-roller shaft are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller at the two ends of each supporting-roller shaft, two chains are enclosed within the sprocket wheel being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates, described scraper plate is fixed on two chains, sprocket wheel on decelerating through motor power output shaft is connected by chain with the drive sprocket on driving shaft, shell one end has charging aperture, the other end of housing has discharging opening, housing bottom is fixed with heating oil tank, heating oil tank is provided with oil-in and oil-out, hull outside is enclosed with insulation layer.
For the ease of adding additive in each equipment, also comprise additive device, described additive device is located on the support below heat material belt conveyor, in additive appliance stand, one end is provided with additive agitator tank, additive appliance stand top is fixed with stirring motor, the power output shaft of stirring motor is connected by shaft coupling with the shaft in agitator tank, the top of agitator tank is provided with escape pipe and feed pipe, the bottom of shaft is fixed with blade, also comprise material pump, the pipeline that material pump inlet connects extend in agitator tank, the pipeline that material pump discharge connects extend in additive scale, additive scale is hung on additive appliance stand by pulling force sensor, the discharging opening of additive scale is connected with discharge pipe, discharge pipe is provided with discharging pump, discharge pipe can be connected with the additive injection tubing of thermal agitation cylinder or miscellaneous equipment.
The utility model has the advantages that: flexible pavement waste material is placed in cold burden bucket feeder, then be fed through in cold burden drag conveyor through oblique belt conveyor, then enter in each heating a mixing bowl through each discharging opening of cold burden drag conveyor and carry out adding thermal agitation, be sent in taper warehouse and heat material scale through heat material drag conveyor and scraper lifting machine after being heated to 110 DEG C and weigh, be then sent to mixing in cylinder of asphalt mixing plant through belt conveyor and carry out secondary agitation with virgin material mixing.Because described heating a mixing bowl is by heat-conducting oil heating, and be heat while stirring, so free from environmental pollution during heating, temperature-controllable, homogeneous heating; Heat material drag conveyor described in addition and scraper lifting machine have heating oil tank, have conduction oil in heating oil tank, so the material thermal loss in the process of carrying to asphalt mixing plant after heating is few; Owing to being provided with taper warehouse and heat material scale, taper warehouse is placed on pressure sensor, so can realize quantitatively conveying, thus ensures the ratio that waste material mixes with virgin material.
Accompanying drawing illustrates:
Fig. 1 is overall structure schematic diagram of the present utility model;
Fig. 2 is the overall structure schematic diagram of cold burden drag conveyor in the utility model amplified;
Fig. 3 is the plan structure schematic diagram of cold burden drag conveyor in the utility model amplified;
Fig. 4 is the plan structure schematic diagram heating a mixing bowl in the utility model amplified;
Fig. 5 is the main TV structure schematic diagram heating a mixing bowl in the utility model amplified;
Fig. 6 is A-A view of Fig. 5;
Fig. 7 is the overall structure schematic diagram of heat material drag conveyor in the utility model amplified;
Fig. 8 is the plan structure schematic diagram of heat material drag conveyor in the utility model amplified;
The overall structure schematic diagram of the utility model middle scraper elevator that Fig. 9 amplifies;
Figure 10 is A-A view of Fig. 9;
Figure 11 is B-B view of Fig. 9;
Figure 12 is additive apparatus structure schematic diagram in the utility model amplified.
Detailed description of the invention:
It comprises cold burden bucket feeder 1, tiltedly belt conveyor 2, cold burden drag conveyor 3, several heating a mixing bowls 4, heat material drag conveyor 5, scraper lifting machine 6, transitional storehouse device 7, heat material scale 8, heat material belt conveyor 9;
With reference to Fig. 1, the feed end of described oblique belt conveyor is positioned at below the discharging opening of cold burden bucket feeder, the discharge end of oblique belt conveyor is positioned at the oblique upper of cold burden scraper conveyer feed inlet, described cold burden drag conveyor is placed in the top of several heating a mixing bowls, and each discharging opening of cold burden drag conveyor is corresponding with the charging aperture of each heating a mixing bowl respectively, heat material drag conveyor is located at the bottom of several heating a mixing bowls, the discharging opening of heat material drag conveyor is corresponding with the charging aperture of scraper lifting machine, the discharging opening of scraper lifting machine is corresponding with the charging aperture of transitional storehouse device, described transitional storehouse device 7 comprises support 7-1, housing and taper warehouse 7-2, housing is fixed on the top of support, pressure sensor seat is provided with in housing, pressure sensor 7-3 is fixed on pressure sensor seat, taper warehouse is placed on pressure sensor, described taper warehouse outer wrap has insulation layer 7-4, heat material scale 8 is had below taper warehouse, heat material scale hangs on the support that is located at below taper warehouse by pulling force sensor 10, the heat material charging aperture of scale and the upper and lower corresponding setting of discharging opening of taper warehouse, heat material scale outside is also enclosed with insulation layer, support below heat material scale is provided with heat material belt conveyor 9,
With reference to Fig. 2-3, described cold burden drag conveyor 3 comprises housing 3-1, housing is fixed with motor reducer 3-2, there is driving shaft 3-3 one end in housing, the other end in housing has driven shaft 3-4, two drive sprockets 3-5 are contained in the two ends of driving shaft respectively, two driven sprockets 3-6 are contained in the two ends of driven shaft respectively, several supporting-roller shaft are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller 3-7 at the two ends of each supporting-roller shaft, two chains 3-8 are enclosed within the drive sprocket being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates 3-9, described scraper plate is fixed on two chains, driving shaft is connected by shaft coupling with decelerating through motor power output shaft, housing bottom is provided with several discharging openings 3-10, each discharging opening is provided with discharge door 3-11, also comprise the discharge door control cylinder 3-12 identical with discharge door quantity being fixed on housing bottom, described each discharge door is connected with the cylinder bar of each discharge door control cylinder respectively,
With reference to Fig. 4-6, described heating a mixing bowl 4 comprises base 4-1, cylinder body 4-2 and two reducing motors 4-3 are all fixed on base, described cylinder body is double-decker, namely cylinder body comprises inner and outer wall, the inner and outer wall of cylinder body is linked together by junction plate 4-18, conduction oil is had in interlayer between outer wall of cylinder block and inwall, outer wall of cylinder block there are oil-in 4-4 and oil-out 4-5, charging aperture 4-6 is arranged at cylinder body top, cylinder base has discharging opening 4-7, discharging opening is provided with discharge door 4-8, discharge door is provided with road wheel 4-9, road wheel is placed on the track 4-10 of base, discharge door is connected with the cylinder bar of discharging cylinder 4-11, discharging cylinder is fixed on the base below cylinder body, two pairs of bearing supports are separately fixed at the both sides of cylinder body, be provided with two in cylinder body and mix axle 4-12, two mix axle is all fixed with several different angles mix arm 4-13, each mixing arm is fixed with one is mixed leaf 4-14, mix axle for two all to stretch out from cylinder body, two mix axle respectively with the bearing fit in the bearing support of cylinder body both sides, two one end of mixing axle are connected by shaft coupling with the power output shaft of two reducing motors respectively, two other ends mixing axle are equipped with gear 4-15 respectively, two gears mixed on axle are meshed, the contact position of mixing axle and outer wall of cylinder block is provided with joint ring 4-17, described outer wall of cylinder block is wrapped with insulation layer 4-16, and cylinder interior is provided with additive injection tubing 4-19,
With reference to Fig. 7-8, described heat material drag conveyor 5 comprises housing 5-1, housing is fixed with motor reducer 5-2, there is driving shaft 5-3 one end in housing, the other end in housing has driven shaft 5-4, two drive sprockets 5-5 are contained in the two ends of driving shaft respectively, two driven sprockets 5-6 are contained in the two ends of driven shaft respectively, several supporting-roller shaft are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller 5-7 at the two ends of each supporting-roller shaft, two chains 5-8 are enclosed within the drive sprocket being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates 5-9, described scraper plate is fixed on two chains, driving shaft is connected by shaft coupling with decelerating through motor power output shaft, shell one end has discharging opening 5-10, housing bottom is fixed with heating oil tank 5-11, heating oil tank is provided with oil-in and oil-out,
With reference to Fig. 9-11, described scraper lifting machine 6 comprises housing 6-1, housing is fixed with motor reducer 6-2, there is driving shaft 6-3 one end in housing, the other end in housing has driven shaft 6-4, two sprocket wheels 6-5 are contained in the two ends of driving shaft respectively, two driven sprockets 6-6 are contained in the two ends of driven shaft respectively, several supporting-roller shaft 6-11 are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller 6-12 at the two ends of each supporting-roller shaft, two chains 6-7 are enclosed within the sprocket wheel being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates 6-8, described scraper plate is fixed on two chains, sprocket wheel on decelerating through motor power output shaft is connected by chain with the drive sprocket on driving shaft, shell one end has charging aperture, the other end of housing has discharging opening, housing bottom is fixed with heating oil tank 6-9, heating oil tank is provided with oil-in and oil-out, hull outside is enclosed with insulation layer 6-10.
With reference to Figure 12, for the ease of adding additive in each equipment, also comprise additive device 11, described additive device is located on the support below heat material belt conveyor, in additive appliance stand 11-2, one end is provided with additive agitator tank 11-1, additive appliance stand top is fixed with stirring motor 11-3, the power output shaft of stirring motor is connected by shaft coupling with the shaft 11-4 in agitator tank, the top of agitator tank is provided with escape pipe 11-6 and feed pipe 11-7, the bottom of shaft is fixed with blade 11-5, also comprise material pump 11-8, the pipeline 11-13 that material pump inlet connects extend in agitator tank, the pipeline that material pump discharge connects extend in additive scale 11-9, additive scale is hung on additive appliance stand by pulling force sensor 11-10, the discharging opening of additive scale is connected with discharge pipe 11-11, discharge pipe is provided with discharging pump 11-12, discharge pipe can be connected with the additive injection tubing of thermal agitation cylinder or miscellaneous equipment.
Claims (2)
1. pair flexible pavement waste material carries out the system of hot recycling, it is characterized in that: comprise cold burden bucket feeder (1), tiltedly belt conveyor (2), cold burden drag conveyor (3), several heating a mixing bowl (4), heat material drag conveyor (5), scraper lifting machine (6), transitional storehouse device (7), heat material scale (8), heat material belt conveyor (9);
The feed end of described oblique belt conveyor is positioned at below the discharging opening of cold burden bucket feeder, the discharge end of oblique belt conveyor is positioned at the oblique upper of cold burden scraper conveyer feed inlet, described cold burden drag conveyor is placed in the top of several heating a mixing bowls, and each discharging opening of cold burden drag conveyor is corresponding with the charging aperture of each heating a mixing bowl respectively, heat material drag conveyor is located at the bottom of several heating a mixing bowls, the discharging opening of heat material drag conveyor is corresponding with the charging aperture of scraper lifting machine, the discharging opening of scraper lifting machine is corresponding with the charging aperture of transitional storehouse device, described transitional storehouse device (7) comprises support (7-1), housing and taper warehouse (7-2), housing is fixed on the top of support, pressure sensor seat is provided with in housing, pressure sensor (7-3) is fixed on pressure sensor seat, taper warehouse is placed on pressure sensor, described taper warehouse outer wrap has insulation layer (7-4), heat material scale (8) is had below taper warehouse, heat material scale hangs on the support that is located at below taper warehouse by pulling force sensor (10), the heat material charging aperture of scale and the upper and lower corresponding setting of discharging opening of taper warehouse, heat material scale outside is also enclosed with insulation layer, support below heat material scale is provided with heat material belt conveyor (9),
Described cold burden drag conveyor (3) comprises housing (3-1), housing is fixed with motor reducer (3-2), there is driving shaft (3-3) one end in housing, the other end in housing has driven shaft (3-4), two drive sprockets (3-5) are contained in the two ends of driving shaft respectively, two driven sprockets (3-6) are contained in the two ends of driven shaft respectively, several supporting-roller shaft are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller (3-7) at the two ends of each supporting-roller shaft, two chains (3-8) are enclosed within the drive sprocket being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates (3-9), described scraper plate is fixed on two chains, driving shaft is connected by shaft coupling with decelerating through motor power output shaft, housing bottom is provided with several discharging openings (3-10), each discharging opening is provided with discharge door (3-11), also comprise the discharge door control cylinder (3-12) identical with discharge door quantity being fixed on housing bottom, described each discharge door is connected with the cylinder bar of each discharge door control cylinder respectively,
Described heating a mixing bowl (4) comprises base (4-1), cylinder body (4-2) and two reducing motors (4-3) are all fixed on base, described cylinder body comprises inner and outer wall, the inner and outer wall of cylinder body is linked together by junction plate (4-18), conduction oil is had in interlayer between outer wall of cylinder block and inwall, outer wall of cylinder block there are oil-in (4-4) and oil-out (4-5), charging aperture (4-6) is arranged at cylinder body top, cylinder base has discharging opening (4-7), discharging opening is provided with discharge door (4-8), discharge door is provided with road wheel (4-9), road wheel is placed on the track (4-10) of base, discharge door is connected with the cylinder bar of discharging cylinder (4-11), discharging cylinder is fixed on the base below cylinder body, two pairs of bearing supports are separately fixed at the both sides of cylinder body, be provided with two in cylinder body and mix axle (4-12), two mix axle is all fixed with several different angles mix arm (4-13), each mixing arm is fixed with one is mixed leaf (4-14), mix axle for two all to stretch out from cylinder body, two mix axle respectively with the bearing fit in the bearing support of cylinder body both sides, two one end of mixing axle are connected by shaft coupling with the power output shaft of two reducing motors respectively, two other ends mixing axle are equipped with gear (4-15) respectively, two gears mixed on axle are meshed, the contact position of mixing axle and outer wall of cylinder block is provided with joint ring (4-17), described outer wall of cylinder block is wrapped with insulation layer (4-16), and cylinder interior is provided with additive injection tubing (4-19),
Described heat material drag conveyor (5) comprises housing (5-1), housing is fixed with motor reducer (5-2), there is driving shaft (5-3) one end in housing, the other end in housing has driven shaft (5-4), two drive sprockets (5-5) are contained in the two ends of driving shaft respectively, two driven sprockets (5-6) are contained in the two ends of driven shaft respectively, several supporting-roller shaft are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller (5-7) at the two ends of each supporting-roller shaft, two chains (5-8) are enclosed within the drive sprocket being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates (5-9), described scraper plate is fixed on two chains, driving shaft is connected by shaft coupling with decelerating through motor power output shaft, shell one end has discharging opening (5-10), housing bottom is fixed with heating oil tank (5-11), heating oil tank is provided with oil-in and oil-out,
Described scraper lifting machine (6) comprises housing (6-1), housing is fixed with motor reducer (6-2), there is driving shaft (6-3) one end in housing, the other end in housing has driven shaft (6-4), two sprocket wheels (6-5) are contained in the two ends of driving shaft respectively, two driven sprockets (6-6) are contained in the two ends of driven shaft respectively, several supporting-roller shaft (6-11) are also provided with in housing between driving shaft and driven shaft, respectively there is a support roller (6-12) at the two ends of each supporting-roller shaft, two chains (6-7) are enclosed within the sprocket wheel being positioned at the same side respectively, on driven sprocket and support roller, also comprise several scraper plates (6-8), described scraper plate is fixed on two chains, sprocket wheel on decelerating through motor power output shaft is connected by chain with the drive sprocket on driving shaft, shell one end has charging aperture, the other end of housing has discharging opening, housing bottom is fixed with heating oil tank (6-9), heating oil tank is provided with oil-in and oil-out, hull outside is enclosed with insulation layer (6-10).
2. according to system of flexible pavement waste material being carried out to hot recycling according to claim 1, it is characterized in that: also comprise additive device (11), described additive device is located on the support below heat material belt conveyor, the interior one end of additive appliance stand (11-2) is provided with additive agitator tank (11-1), additive appliance stand top is fixed with stirring motor (11-3), the power output shaft of stirring motor is connected by shaft coupling with the shaft (11-4) in agitator tank, the top of agitator tank is provided with escape pipe (11-6) and feed pipe (11-7), the bottom of shaft is fixed with blade (11-5), also comprise material pump (11-8), the pipeline (11-13) that material pump inlet connects extend in agitator tank, the pipeline that material pump discharge connects extend in additive scale (11-9), additive scale is hung on additive appliance stand by pulling force sensor (11-10), the discharging opening of additive scale is connected with discharge pipe (11-11), discharge pipe is provided with discharging pump (11-12), discharge pipe can be connected with the additive injection tubing of thermal agitation cylinder or miscellaneous equipment.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520105203.7U CN204509951U (en) | 2015-02-13 | 2015-02-13 | Flexible pavement waste material is carried out to the system of hot recycling |
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CN201520105203.7U CN204509951U (en) | 2015-02-13 | 2015-02-13 | Flexible pavement waste material is carried out to the system of hot recycling |
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CN204509951U true CN204509951U (en) | 2015-07-29 |
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CN201520105203.7U Withdrawn - After Issue CN204509951U (en) | 2015-02-13 | 2015-02-13 | Flexible pavement waste material is carried out to the system of hot recycling |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104652233A (en) * | 2015-02-13 | 2015-05-27 | 辽阳筑路机械有限公司 | System for thermally regenerating waste material of asphalt pavement |
-
2015
- 2015-02-13 CN CN201520105203.7U patent/CN204509951U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104652233A (en) * | 2015-02-13 | 2015-05-27 | 辽阳筑路机械有限公司 | System for thermally regenerating waste material of asphalt pavement |
CN104652233B (en) * | 2015-02-13 | 2018-07-27 | 辽阳筑路机械有限公司 | The system that hot recycling is carried out to bituminous paving waste material |
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Granted publication date: 20150729 Effective date of abandoning: 20180727 |