CN201914860U - Cableway transporting system of large-span steep terrain wind power equipment - Google Patents
Cableway transporting system of large-span steep terrain wind power equipment Download PDFInfo
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- CN201914860U CN201914860U CN2010206640598U CN201020664059U CN201914860U CN 201914860 U CN201914860 U CN 201914860U CN 2010206640598 U CN2010206640598 U CN 2010206640598U CN 201020664059 U CN201020664059 U CN 201020664059U CN 201914860 U CN201914860 U CN 201914860U
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Abstract
The utility model relates to a cableway transporting system of large-span steep terrain wind power equipment, which comprises a main rope (1), a tower (2), a hoisting rope (3), a pulling cable (4), a crane carriage (5), rack winches (9), a cable wind rope (6), an anchor (7) and a tower top steering pulley (8), wherein the tower (2) is provided with the tower top steering pulley (8); the main rope (1) and the cable wind rope (6) are fixed on the anchor (7); the other ends of the main rope (1) and the cable wind rope (6) are fixed on the tower top steering pulley (8); the two ends of the pulling cable (4) are connected with the rack winches (9); and the two ends of the hoisting rope (3) are connected with crane winches (10). The cableway transporting system solves the problems of high construction difficulty, high cost of the construction project and severe environmental disruption caused by the traditional construction road building of the mountainous area. The utility model provides a scheme for transporting large fan equipment of a wind power station with steep terrain at the mountainous area, and the device for realizing the scheme is designed.
Description
Technical field
The utility model relates to the wind power plant construction field, and more particularly it is the precipitous landform wind power equipment of an a kind of large span cableway transportation system.
Background technology
At present the wind energy turbine set big technical barrier that exists in mountain area is the wind power equipment transportation problem of marching into the arena.The wind-powered electricity generation unit is arranged on the higher mountain top of relative position more, and big with the discrepancy in elevation at the bottom of the mountain, landform is precipitous.Because the length of the longest part blade surpasses 40m in the Fan Equipment, heaviest piece equipment electrical generator weight surpasses 60t (ton), great equipment such as blower fan, blade, tower tube to be transported to wind-powered electricity generation site district, generally need build the winding transport routes of longer distance, not only construction costs height, difficulty of construction are big, and can produce havoc to environment.
For addressing the above problem, the design invention is a kind of to become an important and urgent job by cableway with wind power equipment is transported to zone, wind-powered electricity generation site, mountain top from the foot of the hill cableway transportation system.
Summary of the invention
The purpose of this utility model is to overcome above-mentioned existing disadvantages of background technology part, and the precipitous landform wind power equipment of a kind of large span cableway transportation system is provided.
The purpose of this utility model reaches by following measure: the precipitous landform wind power equipment of large span cableway transportation system, it is characterized in that it comprises main rope, pylon, hoisting line, trailing cable, crane carriage, rack winch, cable wind rope, anchorage, the cat head deflection sheave, described hoisting line and trailing cable are between the pylon at two ends, between hoisting line and trailing cable, crane carriage is arranged, the cat head deflection sheave is installed on pylon, on anchorage, be fixed with main rope and guy, the other end of main rope and guy is fixed on the cat head deflection sheave, the two ends of trailing cable are connected with rack winch, and the two ends of hoisting line are connected with hoisting winding.
In technique scheme, described trailing cable has two, and every trailing cable draws a crane carriage, connects by steel rope between two crane carriages.
In technique scheme, described pylon is for adopting the assembled gate-type structure of fabricated universal steel members.
In technique scheme, described anchorage is the main rope anchorage, is socketed pile anchor gravity type boat davit composite structure, and anchorage is made up of several pile foundations and the high cushion cap of 2m.
1., proposed a kind of traffic program of new great equipment of the precipitous orographic winds electric field fan in mountain area and designed the device of realizing this scheme the precipitous landform wind power equipment of the utility model large span cableway transportation system has following advantage:.2., adopt cableway transportation system, blower fan tower barrel, blade etc. directly is transported to wind energy turbine set zone, mountain top by cableway from the foot of the hill, overcome tradition and built that the difficulty of construction that the mountain construction road brought is big, construction costs is high, the problem that environmental disruption is serious.3., be different from traditional mountain area freight ropeway, the designed cableway system of the utility model has the hoisting capacity above 60t, can overcome span that surpasses 1000 meters and the discrepancy in elevation that surpasses 500m, can be adapted to the traffic requirements of wind-powered electricity generation main equipment fully.
Description of drawings
Fig. 1 is a structural representation of the present utility model.
Fig. 2 is a structure birds-eye view of the present utility model.
Fig. 3 is the Wiring structure scheme drawing of trailing cable in the utility model.
Fig. 4 is the cabling scheme drawing of hoisting line in the utility model.
Fig. 5 is a pylon side schematic view in the utility model.
Among the figure, 1. main rope, 2. pylon, 3. hoisting line, 4. trailing cable, 5. crane carriage, 6. guy, 7. anchor ingot, 8. cat head deflection sheave, 9. rack winch, 10. hoisting winding, 11. steel ropes.
The specific embodiment
Describe performance of the present utility model in detail below in conjunction with accompanying drawing, but they do not constitute to qualification of the present utility model, only do for example.Simultaneously by illustrating that advantage of the present utility model will become clear more and understanding easily.
Consult accompanying drawing as can be known: the precipitous landform wind power equipment of the utility model large span cableway transportation system, it is characterized in that it comprises main rope 1, pylon 2, hoisting line 3, trailing cable 4, crane carriage 5, lifting and rack winch 9, cable wind rope 6, anchorage 7, cat head deflection sheave 8, described hoisting line 3 and trailing cable 4 are between the pylon 2 at two ends, between hoisting line 3 and trailing cable 4, crane carriage 5 is arranged, cat head deflection sheave 8 is installed on pylon 2, on anchorage 7, be fixed with main rope 1 and guy 6, the other end of main rope 1 and guy 6 is fixed on the cat head deflection sheave 8, the two ends of trailing cable 4 are connected with rack winch 9, and the two ends of hoisting line 3 are connected with hoisting winding 10 (as Fig. 1, Fig. 2, Fig. 3, shown in Figure 4).Trailing cable 4 has two, and every trailing cable 4 draws between 5, two crane carriages 5 of a crane carriage and connect (as shown in Figure 3) by steel rope 11.Pylon 2 is for adopting the assembled gate-type structure (as shown in Figure 5) of fabricated universal steel members.Anchorage 7 is the main rope anchorage, is socketed pile anchor gravity type boat davit composite structure, and anchorage 7 is formed (as shown in Figure 1 and Figure 2) by several pile foundations and the high cushion cap of 2m.
Cable wind rope (or claiming guy) is to make pylon keep steel rope stable and that have enough rigidity.Main rope is a ropeway carrying-rope, forms to several steel ropes by one according to hoisting capacity.
Main rope is fixed on the anchor ingot through the deflection sheave of cat head.
The anchor ingot is a kind of and the stressed structure of getting in touch in stratum, and it bears the power that main rope, trailing cable, hoisting line, wind cable etc. transmit, and again power is reached the stratum.
Crane carriage has two, straddles on the main rope by driving wheel.Lifting pulley group and traction leading sheave are installed on the crane carriage.Load passes to the crane carriage framework by the fixed pulley group, passes to road wheel again, thereby passes on the main rope.
Hoisting line is the steel rope that lifting mechanism is used, the lifting work of a running trolley of every hoisting line control, and every hoisting line two sides are provided with a hoisting winding.Trailing cable is the steel rope that trailer coupling is used, and is used for the running under power dolly, and trailing cable also has two, every is drawn a running trolley, connect by steel rope between two running trolleys, when dolly when the mountain top is moved, the winch on mountain top is received rope, and the winch at the bottom of the mountain is put rope.Receive a unconventional and unrestrained purpose by one of rack winch to the dolly traction.
Be example with certain mountain area wind energy turbine set cableway traffic program below, design-build situation of the present utility model be described in detail in detail:
Main span is apart from 1150m, and fulcrum line chord length is about 1300m, the about 610m of the last lower fulcrum discrepancy in elevation.The anchor end span is apart from about 120m behind the lower fulcrum, and the anchor end span is apart from about 100m behind the last fulcrum.Built on stilts freight ropeway transport systems is established two groups of independently main rope systems, and every group of main rope system is made up of the syntheticfibres independent wire strand core wire rope of 8-10 root φ 60-φ 80mm, and the maximum functional sag during maximum lift heavy is controlled by L/15 (L is a span).Distance between two groups of main ropes is about 30m, comes handling blade and tower tube by the mode that lifts.
Upper and lower fulcrum pylon all adopts fabricated universal steel members to be assembled into the gate-type pylon, and tower hinge structure adopts conventional tower hinge structure, and hinge is apart from 20m, the wide 24m of pylon, the about 70m of pylon height.The about 800t of pylon joint use pole material.
One deck guy is arranged at the pylon rear portion, is used to bear cat head overbalance horizontal force and pylon wind load horizontal force, keeps pylon stable.Guy adopts φ 50-φ 60mm independent wire strand to form.
Arrange a suspension centre on every group of main rope, two suspension centres are set altogether, adopt the steel rope (supporting with the 15t winch) of φ 30, the hoisting line of each suspension centre is walked 4 lines, adopts the 15t hoisting winding.The fixing following tower top of one end of hoisting line, the other end enters the hoisting winding reel and finishes the hoisting line winding behind fixed pulley, lifting hook pulley group, last fulcrum cat head cable saddle leading sheave on the dolly.
Every overhead traveling crane adopts two line trailing cables.Trailing cable adopts the steel rope of Ф 40 to walk 4 and arranges, the low speed winch of 2 15t of every trailing cable configuration.The rope stretching of two winchs is bonded to the two ends of dolly respectively, has so just formed the traction system of dolly.
Anchorage adopts the main rope anchorage up and down, is socketed pile anchor gravity type boat davit composite structure, and anchorage is made up of several pile foundations and the high cushion cap of 2m.
Arrange the guy device respectively on every group of main push-towing rope, spacing 30m is used to support hoisting line and trailing cable.Adopt φ 20mm steel rope to connect between the guy device.Guy device and the installation that is connected steel rope under the traction of traction system, but come and go a just installation of back back and forth between sport car two fulcrums, promptly sport car is installed while moving.
After the cableway transportation system installation, tower tube, blade be from the foot of the hill being fixed to the cable suspension centre by crane, and install suspender and fender guard, is transported to suspension centre by cableway transportation system, then by crane lifting in.
Other unaccounted part is prior art.
Claims (4)
1. the precipitous landform wind power equipment of large span cableway transportation system, it is characterized in that it comprises main rope (1), pylon (2), hoisting line (3), trailing cable (4), crane carriage (5), rack winch (9), cable wind rope (6), anchorage (7), cat head deflection sheave (8), described hoisting line (3) and trailing cable (4) are positioned between the pylon (2) at two ends, between hoisting line (3) and trailing cable (4), crane carriage (5) is arranged, cat head deflection sheave (8) is installed on pylon (2), on anchorage (7), be fixed with main rope (1) and guy (6), the other end of main rope (1) and guy (6) is fixed on the cat head deflection sheave (8), the two ends of trailing cable (4) are connected with rack winch (9), and the two ends of hoisting line (3) are connected with hoisting winding (10).
2. the precipitous landform wind power equipment of large span according to claim 1 cableway transportation system, it is characterized in that described trailing cable (4) has two, every trailing cable (4) draws a crane carriage (5), connects by steel rope (11) between two crane carriages (5).
3. the precipitous landform wind power equipment of large span according to claim 1 and 2 cableway transportation system is characterized in that described pylon (2) is for adopting the assembled gate-type structure of fabricated universal steel members.
4. the precipitous landform wind power equipment of large span according to claim 1 and 2 cableway transportation system is characterized in that described anchorage (7) is the main rope anchorage, is socketed pile anchor gravity type boat davit composite structure, and anchorage (7) is made up of several pile foundations and the high cushion cap of 2m.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010206640598U CN201914860U (en) | 2010-12-17 | 2010-12-17 | Cableway transporting system of large-span steep terrain wind power equipment |
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CN2010206640598U CN201914860U (en) | 2010-12-17 | 2010-12-17 | Cableway transporting system of large-span steep terrain wind power equipment |
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CN2010206640598U Expired - Lifetime CN201914860U (en) | 2010-12-17 | 2010-12-17 | Cableway transporting system of large-span steep terrain wind power equipment |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102020206A (en) * | 2010-12-17 | 2011-04-20 | 长江水利委员会长江勘测规划设计研究院 | Ropeway transport system of long-span steep terrain wind power device |
CN102808380A (en) * | 2012-08-21 | 2012-12-05 | 广西壮族自治区公路桥梁工程总公司 | Cable saddle transverse moving system and cable saddle transverse moving construction method |
CN102926388A (en) * | 2012-10-15 | 2013-02-13 | 中国建筑第六工程局有限公司 | Earth moving device and method for deep foundation pit excavation |
CN110371863A (en) * | 2019-06-19 | 2019-10-25 | 河北工程大学 | The unmanned gantry crane of two-way double cableway is added under a kind of control of Internet of Things |
-
2010
- 2010-12-17 CN CN2010206640598U patent/CN201914860U/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102020206A (en) * | 2010-12-17 | 2011-04-20 | 长江水利委员会长江勘测规划设计研究院 | Ropeway transport system of long-span steep terrain wind power device |
CN102808380A (en) * | 2012-08-21 | 2012-12-05 | 广西壮族自治区公路桥梁工程总公司 | Cable saddle transverse moving system and cable saddle transverse moving construction method |
CN102808380B (en) * | 2012-08-21 | 2014-12-10 | 广西壮族自治区公路桥梁工程总公司 | Cable saddle transverse moving system and cable saddle transverse moving construction method |
CN102926388A (en) * | 2012-10-15 | 2013-02-13 | 中国建筑第六工程局有限公司 | Earth moving device and method for deep foundation pit excavation |
CN102926388B (en) * | 2012-10-15 | 2015-05-13 | 中国建筑第六工程局有限公司 | Earth moving method for deep foundation pit excavation |
CN110371863A (en) * | 2019-06-19 | 2019-10-25 | 河北工程大学 | The unmanned gantry crane of two-way double cableway is added under a kind of control of Internet of Things |
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Granted publication date: 20110803 |