TWM366609U - Improved structure of vertical compound-type wind-powered electric generator - Google Patents

Description

M366609 4111, 4131, 4121, 4211, 4221, 4231.. Through holes 421, 422, 423... Reinforcement sheets 4212, 4222, 4232.. Fixing bolts 43____ Upper brackets 431, 451, 471... Screw holes 44 .. .. Upper support 441, 461... Axle hole * 45____ Medium bracket 46... Middle support 47... Lower bracket 48____ Lower support. V. New description: [New type TECHNICAL FIELD [0001] The present invention relates to a structural improvement of a vertical composite wind turbine, and more particularly to a composite wind turbine structure with low cost, good structural strength and improved wind drive efficiency. • [Prior Art] [0002] The conventional vertical composite wind turbine structure is more representative, such as the Republic of China Patent Notice No. M 3 1 0 0 0 0 "vertical axis windmill spindle improved structure" new patent As shown in the case, the main structure is as shown in Figures 1 and 2, including: generator body 10, inner shaft 20, Shafoni's blade group 30, and Dali's blade group 40. The generator body 10 is provided with a fixed stator and a rotor disposed on the periphery of the stator and combined with the outer casing. The outer casing is provided with a screw hole 104 in the central portion of the stator, and the inner shaft is 20 With the one end 097219733, the form number A0101, the third page, the 23rd page, the 0983064253-0 M366609, the screw hole 1 G 4 is combined with the stator, and the inner shaft 2 〇 is exposed outside the generator body 10 The outer shaft is 2 〇丄, and the outer shaft 2 G 1 - end is provided with an outer cymbal 2 Q 2 , which can be screwed into the screw hole 104 to make the outer shaft 2 0 1 and the generator body 丄The outer shell of the scorpion combines 'Dalley's leaves' 4 Q including a plurality of long curved curved Dali's leaves 4 0 3 ' The two ends are coupled to the outer shaft 2 〇丄 above and the lower end via the upper and lower brackets 4 0 2, 4 0 1 respectively, and the Sauvignon leaves >! group 30 is composed of a plurality of Sauvignon The blade 3 〇 2 is radially arranged on the circumference of the intermediate sleeve 3 , and the intermediate sleeve 3 〇 1 is tightly fitted around the outer circumference of the outer shaft 20 1 to make the Sauvignon blade group 3 G can also be synchronized with the outer shaft 2 G 1 , and the generator body can be connected via the outer shaft 2Ό 1 by the Dali blade group 4G and the Sauvignon blade group 3 〇 simultaneously subjected to the wind force. The outer casing (rotor) is such that it forms a relative pole rotation with the inner shaft 2 定子 (stator) to generate the power required for power generation; [〇〇〇3] However, the above structure has the following k for real release. Loss: _] 1·Because each of the Dali's blades 4 Q 3 is a flap-shaped curved body, its shape is not conducive to the strength of the structure, and it is easy to be deformed (even damaged) due to excessive wind force. Normal operation. _] 2. ^To improve the structural strength of the feed Dali's blade 4 〇3 itself, higher strength must be used The material or the addition of the relevant reinforcing mechanism will inevitably increase the cost of the material. [〇〇〇6] 3. Since the upper and lower ends of the Dali's blades are 4 2, the inner axis is 2 〇 (the outer shaft 2 〇1) ) is close to the wire, and it can be produced by (4) 097219733 Form No. A0101 Page 4 / Total 23 page 0986082523-0 M366609 The torque is small, and the material and section shape of the blade itself are evaluated. The wind power driving efficiency produced by the lower two end structures is the worst, which is the least economical part. Therefore, if design improvement is required, the upper and lower ends of the above-mentioned blades should be the main part of structural change. [0007] In view of the above-mentioned shortcomings of the vertical composite wind turbine structure, the creator has researched and improved the shortcomings of these shortcomings, and finally this creation has taken place. [New Content] [0008] Therefore, the main purpose of this creation is to provide a structural improvement of a vertical composite wind turbine, which can effectively improve the overall structural strength of each blade, reduce damage and prolong service life. [0009] Another object of the present invention is to provide a structural improvement of a vertical composite wind generator, which can effectively improve wind drive efficiency and improve power generation efficiency. [0010] Another object of the present invention is to provide a structural improvement of a vertical composite wind generator, which can effectively reduce material costs and enhance product competitiveness. [0011] In order to achieve the above object and effect, the technical means adopted by the present invention include: a generator body having a certain internal portion, which can be combined and fixed on an outwardly protruding fixed shaft, and a peripheral edge of the stator is provided. a rotor combined with a casing of the generator body; a shaft assembly disposed on an outer peripheral side of the fixed shaft, and detachably coupled to the outer casing of the generator body via the positioning member, such that the shaft assembly is The outer casing is pivoted synchronously with respect to the fixed axis; an outer blade group is composed of a plurality of curved plates of 0,098,624,253-0, 097,219,733, form number A0101, page 5 of 23, M366609 outer blade and plural core, each (four) piece The outer peripheral side of the rotating shaft assembly is disposed and the surface thereof may be defined as being adjacent to the inner side of the rotating shaft assembly and the outer side of the other opposite side, and the plurality of brackets are disposed on the rotating shaft assembly, the outer casing of the generator body and the outer f piece Between the inner sides, the outer blades are synchronized with the rotors in the generator body. [〇〇12] The above purpose, effect and (10) of the test can be obtained to give a more specific understanding. [The following drawings are explained as follows: [Embodiment] _ Please refer to Figures 3 to 5, it can be clearly seen that The present invention mainly comprises: a generator body 1, a rotating shaft assembly 2, a Sauvignon blade group 3 and an outer blade group 4, wherein the generator body 1 (four) is provided with a fixed stator and is disposed on the periphery of the stator and The stator can be coupled to the fixed shaft yoke which protrudes outwardly, and one end of the fixed shaft 丄 1 can be coupled to a main bracket 2 via a brake device i 2 , and the rotor can be In combination with the outer casing of the generator body, and a plurality of positioning elements 14 (which may be bolts) protruding from the front surface of the outer casing, the rotating shaft assembly 2 is composed of a certain shaft sleeve 2 and an upper shaft 2 3 composition 'the upper shaft 2 3-end is coupled to the upper end of the fixed shaft 1 1 via the bearing 2 2 and forms a combination with each other, and a plurality of screw holes 2 3 are provided on the top end surface of the upper shaft 2 3丄, the end plug 25 can be combined via the plurality of thread checks 252, and the other (lower) end periphery of the upper shaft 23 a ring flange 2 3 2 is provided, and a plurality of clamping holes 2 3 3 are disposed on the ring flange 2 3 2 , and the fixed shaft sleeve 21 is sleeved on the periphery of the fixed shaft 1 1 and The lower end of the upper shaft 2 3 is provided with a ring flange 2 底 at the bottom end of the fixed shaft sleeve 2 1 , and the ring flange 2 is 097219733. Form No. A0101 Page 6 / Total 23 Page 0 036 824 503 - M366609

1 is provided with a plurality of positioning holes 2 1 2 corresponding to the positioning elements 14 of the generator body 1 respectively, and the positioning holes 2 1 2 are respectively coupled to the positioning elements 14 to enable the fixed shaft sleeve 2 1 and The outer casing of the generator body 1 forms a linkage, and the Sauvignon blade group 3 is composed of two layers of Sauvignon blades 3 1 and 3 2 which are radially outwardly arranged from the ten cores and spirally extended. A shaft hole 3 1 1 , 3 2 1 ' is disposed in the center of the Sauvignon blade 3 1 , 3 2 , and can be respectively coupled to the outer circumference side of the upper shaft 2 3 and the fixed shaft sleeve 2 1 (in this embodiment, the second layer is For example, in practice, a synchronous interlocking may be formed for a single layer or more, and a plurality of fixing holes 3 2 3 may be further disposed on the bottom side of the lower layer of the Savonius blade 3 2 for combination and fixation. The outer casing group 4 is formed by interlocking with the positioning elements 14 of the outer casing of the generator body 1. The outer blade group 4 is composed of a plurality of blades 4 1 and a plurality of supports (including an upper support 44, a middle support 46 and a lower support 48), a plurality of brackets coupled to the periphery of each support (including an upper bracket 4 3, a middle bracket 4 5 and a lower The brackets 47) are composed of a plurality of outer blades 4 1 having a cross-sectional shape, and the two sides are respectively defined as an inner side and an outer side. Each of the inner side surfaces is respectively provided with a recess 4 1 1 , 4 1 . 4, each of the concave portions 41 1 , 4 1 2 , 4 1 3 is provided with a plurality of through holes 4 1 1 1 , 4121 , 4131 , respectively, and a plurality of reinforcing sheets 4 2 1 , 4 2 2 , 4 2 3 respectively The concave portions 4 1 1 , 4 1 2 and 4 1 3 are disposed on the opposite sides of the outer blades 4 1 , and corresponding to the plurality of through holes 4211, 4221 and 4233 respectively are provided on the respective reinforcing sheets 421 , 422 and 4 2 3 . Each of the upper and middle supports 4 4, 4 6 is provided with a shaft hole 4 4 1 , 4 6 , which can be respectively fitted to the top end of the upper shaft 2 3 and the fixed shaft Casing 2 097219733 Table early No. A0101 Page 7 / Total 23 page 0986082523-0 M366609 1 circumference 'in the shaft hole 4 4 1 , 4 6 1 each of the outer periphery is provided with a plurality of fixing holes 4 4 2, 4 6 2, using The end plugs 25 can be clamped and fixed to the upper support 4 4 ′ and the plurality of fixing elements extend through the fixing holes 426 to extend into the positioning holes 2 3 3 of the upper shaft 23 , so that the middle support 46 can be Combined with the upper shaft 23, and the lower bracket 48 Directly coupled to the outer casing of the generator body 1, and the upper, middle and lower brackets 43, 45, 47 are respectively coupled to the peripheral edges of the upper, middle and lower supports 44, 46, 48 as shown in the figure The support portion 4 4 and the lower support member 4 8 are connected to the inner end of the upper bracket 4 3 and the inner end of the lower bracket 47, and may further be provided with an extended inclined portion 4 4 3 which is inclined upward and downward respectively. And the brackets extend radially outwardly, and the outer end faces of the upper, middle and lower brackets 43, 45, 47 are respectively provided with a plurality of screw holes 4 31, 451, 471 corresponding to the through holes 41 1 1 4 1 2 1 , 4 1 3 1 'the outer ends of the upper and middle 'lower brackets 43, 45, 47 are inserted into the recesses 4 1 1 , 4 1 2, 4 1 3 inside the outer blades 4 1 , using plural Fixing bolts 4 2, 2 2 2 2, 4 2 3 2 penetrate through holes 4 2 1 1 , 4 1 iPi, 4 2 2 1 , 4 1 2 1 , 4 2 3 1 , 4 1 3 1 and screw Into the screw holes 4 3 1 , 4 5 1 , 471, the outer blades 41 are combined with the upper, middle and lower brackets 4 3 , 45 , 47 , and at the same time, the reinforcing sheets 421 , 422 , 4 2 3 can be combined The part forms a reinforcing structure. _] The above-mentioned junction 'over the end plug 2 of the top end of the upper shaft 2 3 can be covered as needed - the cap 24, and the Dali's blade set 3 and the outer blade 'group 4 are simultaneously subjected to the use of the day. The wind force can be used to connect the outer casing (rotor) of the generator body 1 via the fixed bushings 21 to form a contrast with the fixed 097219733 form number A0101, page 8 / 23 pages 0, 096, 045, 425, 406, M366609, shaft 1 l (stator) Pivot to generate the power needed to generate electricity. [0015] In the above structure of the present invention, since the outer blades 41 are respectively connected to the rotating shaft assembly 2 via a plurality of sets of laterally extending upper, middle and lower brackets 43, 45, 47, the structural strength is better. The wind turbine is driven by a large wind and is not easily damaged. At the same time, the outer blades 41 are arranged in the same direction as the shaft assembly 2, so that the wind power driving efficiency is better, and the power generation efficiency can be effectively improved. [0016] In summary, the structural improvement of the vertical composite wind turbine of the present invention can achieve the effect of reducing material cost, enhancing structural strength and improving wind drive efficiency, and is a novel and progressive creation. , 提出 提出 提出 提出 申请 申请 申请 ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; It should fall within the scope of the patent application of this creation. BRIEF DESCRIPTION OF THE DRAWINGS [0019] FIG. 1 is a structural view showing the structure of a composite wind power generator. Figure 2 is a cross-sectional view showing the structure of a composite wind turbine. Figure 3 is an exploded view of the structure of the creation. Figure 4 is an overall combined appearance of the creation. Figure 5 is a combined sectional view of the present creation. [Main component symbol description] 1, 10____ generator body 097219733 Form number A0101 Page 9 of 23 0983064253-0 [0022] M366609

[0023] 104, 231 '431 > 451, 471 [0024] 11... fixed axis [0025] 12... main bracket [0026] 121. .. brake device [0027] 14.. .. Positioning element [0028] 2... .. shaft assembly [0029] 20.. .. inner shaft [0030] 201. .. outer shaft [0031] 202. .. external thread [0032] 21.. Shaft bushing [0033] 211. .. ring flange [0034] 212 - > 311... positioning hole [0035] 22. · .. bearing [0036] 23. ·.. upper shaft [0037] 24. .. Upper Cap [0038] 25... End Plug [0039] 252. .. Bolt [0040] 3, 30____ Savny's Blade Set [0041] 301. .. Intermediate Bushing. Screw Hole 097219733 Form No. A0101 Page 10 of 23 0983064253-1-0 M366609 [0042] 31, 32, 302... Shafoni's Blade [0043] 311, 321... Shaft Hole [0044] 323 ' 442, 462 ...fixed hole [0045] 4____. Outer blade set [0046] 41... Outer blade [0047] 411, 413, 412... recess [0048] 4111 ' 4131, 4121 '4211 ' 4221 ' [0049] ' 422, 423... reinforcing film [0050] 4212, 4222, 4232.. fixing bolt [0051] 43... . upper bracket [0052] 431 '451, 471... screw hole [0053] 44.. . Upper support [0054] 441 '461...shaft hole [0055] 45. . . . center bracket [0056] 46. . . . center support [0057] 47... . lower bracket [0058] 48... . Lower support [0059] 40... Dali's blade set [0060] 401.. . Lower bracket. Through hole 097219733 Form number A0101 Page 11 of 23 0983064253-0 M366609 [0061 ] 402... upper bracket [0062] 403...Dalian blade [0063] 443, 481... extended inclined portion

097219733 Form No. A0101 Page 12 of 23 0983064253-0

Claims (1)

M366609 VI. Scope of Application: 1. A structural improvement of a vertical composite wind turbine, comprising at least: a generator body having a stator inside and being fixedly coupled to a fixed shaft extending outwardly, and a rotor is coupled to the outer casing of the generator body; a rotating shaft assembly is disposed on the outer circumferential side of the fixed shaft, and is detachably combined with the outer casing of the generator body via at least one positioning component. The rotating shaft assembly can be pivoted relative to the outer casing in synchronization with the fixed shaft; I an outer blade group is composed of a plurality of curved outer blades and a plurality of brackets, and the outer blades are disposed on the outer circumferential side of the rotating shaft assembly. And the surface thereof can be defined as being adjacent to the inner side of the rotating shaft assembly and the outer side of the opposite side, and the plurality of brackets are disposed between the rotating shaft assembly, the outer casing of the generator body and the inner side of the outer blade, thereby making the outer blades Synchronously with the rotor in the generator body. 2. The structural improvement of the vertical composite wind turbine according to claim 1, wherein the outer surface of each outer blade is provided with at least one recess for each of the p brackets to be inserted and joined at their ends. 3. The structural improvement of the vertical composite wind turbine according to claim 2, wherein the outer blade is provided with a plurality of through holes on the inner bottom side of each recess, and each bracket is provided at one side end surface of the concave portion. The plurality of corresponding screw holes are formed by a plurality of fixing bolts penetrating through the through holes and screwed into the screw holes to form a stable joint between the outer blade and the bracket. 4. The structural improvement of the vertical composite wind turbine according to claim 3, wherein at least one reinforcing piece is respectively disposed at an outer side of the outer blade at a position corresponding to each concave portion, and the reinforcing piece is provided with a plurality of through holes , can be fixed by bolts 097219733 Form No. A0101 Page 13 / 23 pages 0986082523-0 M366609 to locate 'to the outside of the concave part of the blade to strengthen. The wind is as in the structural improvement of the vertical composite type/machine described in the patent application scope 1 or 2 or 3 or 4, wherein the upper and lower supports are respectively coupled to the outer casing of the _yang piece and the generator body. The brackets are away from the end of the outer blade.胄海上Τ座刀别=Special: The vertical compound wind turbine described in the scope of item 5 is at least the upper or lower support of the square Or the extension of the downward skew Φ is in this part. M—the τ bracket is connected to 7. The structural improvement according to item 5 of the patent scope of the patent, in the middle of the shaft-type composite wind turbine in the middle of the shaft assembly, the middle support can be connected via a plurality of brackets respectively For each other; two! And 8. If the patent application scope, ', and the social structure is changed, J: towel, ^ vertical composite wind turbine - structure improvement, wherein the middle support of the runner assembly can be respectively through the plurality of brackets Connected to each other; piece =, and the structure is improved, in which the shaft of the vertical wind turbine generator and the periphery of the guard are provided with a flange, and a plurality of positioning holes are provided thereon, and the 凸缘, 忒% flange plurality of bolts Through the rear screw holder, a plurality of fixing holes are provided for the clamping holes, so that the middle bearing can be combined with the upper rotating shaft. 10. If the patent application model (4) is modified, the cymbal assembly of the vertical composite wind turbine according to item 8 is provided with a ring flange on the periphery of the yoke assembly, and a plurality of locating holes are provided on the ring flange, On the middle support, a plurality of fixing holes are provided for the plurality of bolts to pass through the rear screw ', and the eight-four-position hole, so that the middle support can be combined with the upper shaft. 11 · For example, the patent form 圚馇 219 219219733, the form 5 of the vertical complex type 5 wind turbine described in item 5, pp. 0101, page 14 of 23 098306 · M366609, the structure is improved, wherein the upper support is set in the The top end of the shaft assembly is clamped at one end to form a position. 12. The structural improvement of a vertical composite wind turbine according to claim 6, wherein the upper support is disposed at a top end of the rotating shaft assembly and is formed by pressing with an end plug. 13. The structural improvement of a vertical composite wind turbine according to claim 7, wherein the upper support is disposed at a top end of the rotating shaft assembly and is pressed by an end plug to form a positioning. 14. The structural improvement of a vertical composite wind turbine according to claim 8, wherein the upper support is disposed at a top end of the rotating shaft assembly and is formed by pressing with an end plug. 15. The structural improvement of a vertical composite wind turbine according to claim 1 or 2 or 3 or 4, wherein the middle portion of the shaft assembly is further combined with a Sauvignon blade group, and the Sauvignon The blade set has a plurality of helically extending Sapphire leaves. 16. The structural improvement of a vertical composite wind turbine according to claim 5, wherein the middle portion of the shaft assembly is further combined with a Sauvignon blade group, and the Sauvignon blade group has a plurality of spirals Extending the Savanie leaves. 17. The structural improvement of a vertical composite wind turbine according to claim 6, wherein the middle portion of the shaft assembly is further combined with a Sauvignon blade group, and the Saffron blade group has a plurality of spirals Extending the Savanie leaves. 18. The structural improvement of a vertical composite wind turbine according to claim 7, wherein the middle portion of the shaft assembly is further combined with a Sauvignon blade group, and the Sauvignon blade group has a plurality of spirals Extending the Savanie leaves. 19. The structural improvement of a vertical composite wind turbine according to claim 8, wherein the middle portion of the shaft assembly is combined with a Sauvignon blade group, 097219733 Form No. A0101 Page 15 / 23 pages 0903682523 -0 M366609 and the Sauvignon blade group has a plurality of helically extending Sapphire leaves. 20. The structural improvement of the vertical composite wind power generator according to claim 1 or 2 or 3 or 4, wherein the outer surface of the outer casing is provided with a plurality of positioning elements protruding outward, and the rotating shaft assembly comprises a a fixed shaft sleeve that is coupled to the upper surface of the fixed shaft and a fixed shaft sleeve that can be simultaneously fitted to the periphery of the fixed shaft and the partial upper shaft. The bottom end of the fixed shaft sleeve is detachably coupled to the hair via the positioning elements. The housing of the motor body is in a state of being pivotable to each other between the upper shaft and the fixed shaft. 21. The structural improvement of a vertical composite wind turbine according to claim 5, wherein the outer surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a connection above the fixed shaft. The upper shaft and the fixed shaft sleeve which can be simultaneously fitted to the periphery of the fixed shaft and the partial upper shaft, the bottom end of the fixed shaft sleeve is detachably coupled to the outer casing of the generator body via the positioning elements, And the upper shaft and the fixed shaft are in a state of being mutually pivotable. 22. The structural improvement of a vertical composite wind turbine according to claim 6, wherein the outer surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a joint above the fixed shaft. The upper rotating shaft and the fixed shaft sleeve which can be simultaneously fitted on the periphery of the fixed shaft and the partial upper rotating shaft, the bottom end of the fixed shaft sleeve is detachably coupled to the outer casing of the generator body via the positioning elements And the upper shaft and the fixed shaft are in a state of being pivotable to each other. 23. The structural improvement of a vertical composite wind turbine according to claim 7, wherein the outer surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a connection above the fixed shaft. The upper shaft and a fixed shaft sleeve which can be simultaneously fitted to the periphery of the fixed shaft and a part of the upper shaft, the fixed shaft 097219733 Form No. A0101 Page 16 of 23 0983042543-0 M366609 The bottom end of the sleeve is via each positioning The component is formed to be detachably coupled to the outer casing of the generator body, and the upper rotating shaft and the fixed shaft are in a state of being mutually pivotable. 24. The structural improvement of a vertical composite wind turbine according to claim 8, wherein the outer surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a connection above the fixed shaft. The upper rotating shaft and the fixed shaft sleeve which can be simultaneously fitted to the periphery of the fixed shaft and the partial upper rotating shaft, the bottom end of the fixed shaft sleeve is formed to be detachably coupled to the outer casing of the generator body via the positioning elements The upper shaft and the fixed shaft are in a state of being pivotable to each other. 25. The structural improvement of a vertical composite wind turbine according to claim 15 wherein the surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a connection above the fixed shaft. The upper rotating shaft and the fixed shaft sleeve which can be simultaneously fitted on the periphery of the fixed shaft and the partial upper rotating shaft, the bottom end of the fixed shaft sleeve is detachably coupled to the outer casing of the generator body via the positioning elements And the connecting state between the upper rotating shaft and the fixed shaft is mutually pivotable. 26. The structural improvement of a vertical composite wind turbine according to claim 16 wherein the surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a connection above the fixed shaft. The upper rotating shaft and the fixed shaft sleeve which can be simultaneously fitted on the periphery of the fixed shaft and the partial upper rotating shaft, the bottom end of the fixed shaft sleeve is detachably coupled to the outer casing of the generator body via the positioning elements And the upper shaft and the fixed shaft are in a state of being pivotable to each other. 27. The structural improvement of a vertical composite wind turbine according to claim 17, wherein the outer surface of the outer casing is provided with a plurality of outwardly projecting positioning elements 097219733. Form No. A0101 Page 17 of 23 0983064253- 0 M366609, and the shaft assembly comprises a rotating shaft connected above the fixed shaft and a fixed shaft sleeve which can be fitted on the periphery of the fixed shaft and a part of the upper rotating shaft, and the bottom end of the fixed shaft sleeve is The housing is detachably coupled to the housing of the generator body via the positioning elements, and the upper shaft and the fixed shaft are pivotally coupled to each other. 28. The structural improvement of a vertical composite wind turbine according to claim 18, wherein the outer surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a connection above the fixed shaft. The upper rotating shaft and the fixed shaft sleeve which can be simultaneously fitted on the periphery of the fixed shaft and the partial upper rotating shaft, the bottom end of the fixed shaft sleeve is detachably coupled to the outer casing of the generator body via the positioning elements And the upper shaft and the fixed shaft are in a state of being pivotable to each other. 29. The structural improvement of a vertical composite wind turbine according to claim 19, wherein the outer surface of the outer casing is provided with a plurality of outwardly projecting positioning elements, and the rotating shaft assembly comprises a connection above the fixed shaft. The upper rotating shaft and the fixed shaft sleeve which can be simultaneously fitted on the periphery of the fixed shaft and the partial upper rotating shaft, the bottom end of the fixed shaft sleeve is detachably coupled to the outer casing of the generator body via the positioning elements And the upper shaft and the fixed shaft are in a state of being connected to each other. 0983064253-0 097219733 Form Number A0101 Page 18 of 23