CN203056495U - Wind power aluminium tube bus structure - Google Patents

Abstract

The utility model belongs to the technical field of transmission equipment in wind driven generator set tower cylinder, in particular relates to a wind power aluminium tube bus structure, comprising single-section aluminium tube bus groups and a connecting structure between the bus groups, wherein the aluminium tube bus groups are vertically laid along the cylinder wall of the wind driven generator set tower cylinder, each section of bus group is respectively formed by fixing two groups of aluminium tube buses comprising three aluminium tube buses which are arranged in a triangle shape with hardware, the first-section bus group and the second-section bus group are connected through the connecting structure between the bus groups, each aluminium tube bus has a square structure, and a protective net is fixed by a protective net bracket which is connected on the hardware through screw bolts; a piece of supporting flat steel is in an omega-shaped structure, and a flexible support is in a U-shaped structure; and each section of bus group is supported by an upper end supporting flat steel and a lower end supporting flat steel, two ends of the upper end supporting flat steel are connected with tower cylinder connecting columns through screw bolts, two ends of the lower end supporting flat steel are fixed with the flexible support by using screw bolts through angle steel, the flexible support is fixed with the tower cylinder connecting columns by using screw bolts through the angle steel, and the manufacturing and installation are simple and convenient.

Description

A kind of wind-powered electricity generation aluminum tube bus structure

Technical field

The utility model belongs to transmission facility technical field in the wind turbine generator tower tube, is specifically related to a kind of wind-powered electricity generation aluminum tube bus structure.

Background technology

Transmission facility adopts copper cable or rectangular aluminium bus groove structure more in the existing wind turbine generator tower tube: the cost of copper cable is higher, and per 5 years needs of designing requirement are changed once; Rectangular aluminium bus groove structure exists that heating is many, complex structure and the easy aging blemiss of rubber damping, rectangular aluminium bus groove structural joint is unidirectional connector lap joint in addition, in the wind turbine generator running, the normal vibration of tower tube causes the bus junction damage to occur easily, temperature rise strengthens, burning apparatus.

Summary of the invention

Cost at cable is higher, and it is many that replacing more frequently reaches rectangular aluminium bus groove structure heating, the flimsy problem of complex structure and joint, and the utility model provides a kind of wind-powered electricity generation aluminum tube bus structure.

Wind-powered electricity generation aluminum tube bus structure of the present utility model, comprise syndeton between single-unit aluminum tube bus group and the bus group, main points are that the aluminum tube bus group vertically lays along wind generator tower tube barrel, every joint bus group fixedly is made up of with gold utensil the aluminum tube bus that two groups of each three triangularities are arranged respectively, one joint bus group and two joint bus groups link to each other by syndeton between the bus, the aluminum tube bus group structure that is square, the protection network support that is connected on the gold utensil is fixed protection network by bolt; Support band steel and be a few font structures, the flexible support structure that takes the shape of the letter U; Every joint bus group supports band steel by the upper end and the band steel support is supported in the lower end, the upper end is supported the band steel two ends and is linked to each other with tower tube joint pin by bolt, the band steel two ends are supported by angle steel and flexible support bolt in the lower end, and flexible support is again by angle steel and tower tube joint pin bolt; Support band steel upper surface and aluminum tube bus group, netted cable testing bridge bolt; Being flexible coupling is I shape structure, connects two joint aluminum tube bus groups by bolt.

The beneficial effects of the utility model are: simple in structure, make and simple installation; Reduced caloric value, aluminum tube bus cooperates flexible support to play cushioning effect; By being flexible coupling to connect the aluminum tube bus group, the destruction of having avoided wind turbine generator vibration in service to cause.

Description of drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the schematic cross-section of every joint bus group among Fig. 1;

Fig. 3 is the enlarged diagram of flexible support structure among Fig. 1;

Fig. 4 is the enlarged diagram that is flexible coupling of syndeton between Fig. 1 median generatrix group;

Among the figure: 1 aluminum tube bus, 2 protection network supports, 3 protection networks, 4 support band steels, 5 flexible support, 6 tower tube joint pins, 7 angle steel, 8 netted cable testing bridges, 9 are flexible coupling, 10 tower tubes, 11 1 save syndeton between bus groups, the 12 bus groups, 13 2 joint bus groups.

Embodiment

Below in conjunction with accompanying drawing the utility model is described further.

Wind-powered electricity generation aluminum tube bus structure of the present utility model, comprise a joint bus group (11), syndeton between the bus group (12) and two joint bus groups (13), every joint bus group comprises aluminum tube bus (1), gold utensil, protection network support (2), protection network (3), support band steel (4), flexible support (5), angle steel (7) and netted cable testing bridge (8), every joint bus group is vertically laid along wind generator tower tube (10) barrel, one joint bus group (11) and two joint bus groups (13) fixedly are made up of with gold utensil the aluminum tube bus (1) of two groups of each three city rounded projections arranged respectively, one joint bus group (11) and two joint bus groups (13) link to each other by syndeton (12) between the bus, the aluminum tube bus group structure that is square, protection network support (2) is fixing with protection network (3) by bolt; Support band steel (4) and be a few font structures, flexible support (5) structure that takes the shape of the letter U, every joint bus group supports band steel by the upper end and the band steel support is supported in the lower end, the upper end is supported the band steel two ends and is linked to each other with tower tube joint pin (6) by bolt, the lower end is supported the band steel two ends and is used bolt by angle steel (7) and flexible support (5), and flexible support (5) fixes by angle steel (7) and tower tube joint pin (6) again; Support band steel (4) upper surface and aluminum tube bus group and netted cable testing bridge (8) and use bolt; Be flexible coupling (9) be I shape structure, connect two ends aluminum tube bus (1) by bolt, reduced caloric value, make and simple installation.

Claims (1)

1. wind-powered electricity generation aluminum tube bus structure, comprise syndeton between single-unit aluminum tube bus group and the bus group, it is characterized in that the aluminum tube bus group vertically lays along wind generator tower tube barrel, every joint bus group fixedly is made up of with gold utensil the aluminum tube bus that two groups of each three triangularities are arranged respectively, one joint bus group and two joint bus groups link to each other by syndeton between the bus, the aluminum tube bus group structure that is square, the protection network support that is connected on the gold utensil is fixed protection network by bolt; Support band steel and be a few font structures, the flexible support structure that takes the shape of the letter U; Every joint bus group supports band steel by the upper end and the band steel support is supported in the lower end, the upper end is supported the band steel two ends and is linked to each other with tower tube joint pin by bolt, the band steel two ends are supported by angle steel and flexible support bolt in the lower end, and flexible support is again by angle steel and tower tube joint pin bolt; Support band steel upper surface and aluminum tube bus group, netted cable testing bridge bolt; Being flexible coupling is I shape structure, connects two joint aluminum tube bus groups by bolt.

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