CN106099798A - A kind of multichannel double-fed wind generator tube type bus groove structure - Google Patents

Abstract

nullThe invention discloses a kind of multichannel double-fed wind generator tube type bus groove structure，Including protective cover，The bottom of described tube rotor wire casing fixed mount is connected with the top of stator tube wire casing fixed mount，The periphery of tube rotor wire casing fixed mount and stator tube wire casing fixed mount is provided with protective cover，It is provided with tube rotor wire casing in described tube rotor wire casing fixed mount，The second lower plate and the second train wheel bridge it is provided with in tube rotor wire casing，Second train wheel bridge be arranged over the first lock-screw，Rotor cast conductor is installed between the second lower plate and the second train wheel bridge，The periphery of rotor cast conductor is provided with rotor insulation pipe box，This multichannel double-fed wind generator tube type bus groove structure improves the stability that pipe joint connects，Increase the contact area between wire and pipe joint，By the second lock-screw, the first pressing plate is locked，By the 3rd lock-screw, the second pressing plate is locked，Improve the fastness that pipe joint connects，Easy for installation，Be conducive to later maintenance.

Description

A kind of multichannel double-fed wind generator tube type bus groove structure

Technical field

The present invention relates to bus duct technical field of structures, be specially a kind of multichannel double-fed wind generator tube type bus groove knot Structure.

Background technology

Double-feedback type wind generator set stator, rotor are three-phase windings, and rotor winding current is imported by slip ring, and stator connects Enter electrical network.Therefore in tower, transmission line of electricity needs to take two-channel structure parallel, specializes in stator for one group, and another group specializes in rotor. At present, Wind turbines transmission facility uses cable or air-type bus duct mostly, and the electric energy respectively as stator and rotor transmits, But all structure is complicated, installing inconvenience, later maintenance is difficult to, and between wire and pipe joint, contact area is little, contact shakiness Fixed, weak effect, to this end, it is proposed that a kind of multichannel double-fed wind generator tube type bus groove structure.

Summary of the invention

It is an object of the invention to provide a kind of multichannel double-fed wind generator tube type bus groove structure, to solve above-mentioned background The problem proposed in technology.

For achieving the above object, the present invention provides following technical scheme: a kind of multichannel double-fed wind generator tube type bus groove Structure, including protective cover, the bottom of described tube rotor wire casing fixed mount is connected with the top of stator tube wire casing fixed mount, tube rotor The periphery of wire casing fixed mount and stator tube wire casing fixed mount is provided with protective cover, is provided with tube rotor in described tube rotor wire casing fixed mount Wire casing, is provided with the second lower plate and the second train wheel bridge in tube rotor wire casing, the second train wheel bridge be arranged over the first lock-screw, Installing rotor cast conductor between second lower plate and the second train wheel bridge, the periphery of rotor cast conductor is provided with rotor insulation pipe Set, the end of described rotor cast conductor is provided with tube rotor wire terminal, and tube rotor wire terminal hollow is arranged, tube rotor wire terminal Inside is provided with the first pressing plate, and the both sides of the first pressing plate are provided with corresponding with the first chute of tube rotor wire terminal inwall both sides One slide block, the top of the first pressing plate is provided with the second lock-screw, is provided with stator tube wire casing in described stator tube wire casing fixed mount, fixed Being provided with the first lower plate and the first train wheel bridge in sub-chase, the lower section of the first lower plate is provided with the 4th lock-screw, first time Installing stator cast conductor between clamping plate and the first train wheel bridge, the periphery of stator cast conductor is provided with stator insulation pipe box, described The end of stator cast conductor is provided with stator tube wire terminal, and stator tube wire terminal hollow is arranged, and the inside of stator tube wire terminal sets The second pressing plate, the both sides of the second pressing plate is had to be provided with second corresponding with the second chute of stator tube wire terminal inwall both sides sliding Block, the bottom of the second pressing plate is provided with the 3rd lock-screw.

Preferably, the outside of described protective cover is provided with fixed mount, and the both sides of fixed mount are provided with installing hole.

Preferably, between described first lower plate and the first train wheel bridge and between the second lower plate and the second train wheel bridge all It is provided with spring, and spring is separately positioned on the first lower plate and the both sides of the first train wheel bridge and the second lower plate and second folder The both sides of plate.

Preferably, the quantity of described tube rotor wire casing is three, and three tube rotor wire casings are arranged side by side, stator tube wire casing Quantity be three, and three stator tube wire casings are arranged side by side, and tube rotor wire casing is above stator tube wire casing.

Preferably, described first lock-screw and the 4th lock-screw are all connected with protective cover by screw thread, and the first lock The lower end of tight screw and the upper surface of the second train wheel bridge, and the following table of the upper end of the 4th lock-screw and the first lower plate Face contacts.

Preferably, described second lock-screw is connected with tube rotor wire terminal by screw thread, and under the second lock-screw End and the upper surface of the first pressing plate, described 3rd lock-screw is connected with stator tube wire terminal by screw thread, and the 3rd lock The tight upper end of screw contacts with the lower surface of the second pressing plate.

Compared with prior art, the invention has the beneficial effects as follows: this multichannel double-fed wind generator tube type bus groove structure is led to Cross the first train wheel bridge and the first lower plate to be fixed by stator cast conductor, by the second train wheel bridge and the second lower plate by tube rotor Type conductor is fixed, and prevents stator cast conductor or rotor cast conductor from rocking, and improves the stability that pipe joint connects, by the Terminal end is fixed by one pressing plate and the second pressing plate, and the contact surface of wire and pipe joint is planar structure, increase wire with Contact area between pipe joint, contact is stable, is locked by the first pressing plate by the second lock-screw, by the 3rd locking screw Follow closely and the second pressing plate is locked, the fastness that raising pipe joint connects, simple in construction, easy for installation, beneficially later maintenance.

Accompanying drawing explanation

Fig. 1 is perspective view of the present invention；

Fig. 2 is present configuration front view；

Fig. 3 is tube rotor wire terminal structural representation of the present invention；

Fig. 4 is stator tube wire terminal structural representation of the present invention.

In figure: 1 protective cover, 2 fixed mounts, 3 first lock-screws, 4 tube rotor wire casing fixed mounts, 5 tube rotor wire casings, 6 turns Insulating sublayer pipe box, 7 second lock-screws, 8 tube rotor wire terminals, 9 first pressing plates, 10 stator tube wire casings, 11 first train wheel bridges, 12 3rd lock-screw, 13 stator cast conductors, 14 first lower plates, 15 second pressing plates, 16 stator tube wire terminals, 17 stator insulations Pipe box, 18 stator tube wire casing fixed mounts, 19 rotor cast conductors, 20 second lower plates, 21 second train wheel bridges, 22 the 4th locking screws Nail, 23 springs, 24 first chutes, 25 second chutes.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Describe, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments wholely.Based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under not making creative work premise Embodiment, broadly falls into the scope of protection of the invention.

Referring to Fig. 1-4, the present invention provides a kind of technical scheme: a kind of multichannel double-fed wind generator tube type bus groove is tied Structure, including protective cover 1, the bottom of tube rotor wire casing fixed mount 4 is connected with the top of stator tube wire casing fixed mount 18, rotor pipeline The periphery of groove fixed mount 4 and stator tube wire casing fixed mount 18 is provided with protective cover 1, and the outside of protective cover 1 is provided with fixed mount 2, fixing The both sides of frame 2 are provided with installing hole, be provided with tube rotor wire casing 5, be provided with second in tube rotor wire casing 5 in tube rotor wire casing fixed mount 4 Lower plate 20 and the second train wheel bridge 21, the second train wheel bridge 20 be arranged over the first lock-screw 3, by the second train wheel bridge 21 He Rotor cast conductor 19 is fixed by the second lower plate 20, installs rotor cast and lead between the second lower plate 20 and the second train wheel bridge 21 Body 19, the periphery of rotor cast conductor 19 is provided with rotor insulation pipe box 6, and the end of rotor cast conductor 19 is provided with rotor pipeline and connects 8, tube rotor wire terminal 8 hollow is arranged, and the inside of tube rotor wire terminal 8 is provided with the first pressing plate 9, and the both sides of the first pressing plate 9 set First slide block corresponding with the first chute 24 of tube rotor wire terminal 8 inwall both sides, the top of the first pressing plate 9 is had to be provided with second Lock-screw 7, the second lock-screw 7 is connected with tube rotor wire terminal 8 by screw thread, and the lower end of the second lock-screw 7 and the The upper surface of one pressing plate 9, is locked the first pressing plate 9 by the second lock-screw 7, is provided with in stator tube wire casing fixed mount 18 Stator tube wire casing 10, the quantity of tube rotor wire casing 5 is three, and three tube rotor wire casings 5 are arranged side by side, stator tube wire casing 10 Quantity is three, and three stator tube wire casings 10 are arranged side by side, tube rotor wire casing 5 above stator tube wire casing 10, stator tube The first lower plate 14 and the first train wheel bridge 11 it is provided with, between the first lower plate 14 and the first train wheel bridge 11 and second in wire casing 10 It is equipped with spring 23 between lower plate 20 and the second train wheel bridge 21, and spring 23 is separately positioned on the first lower plate 14 and first The both sides of clamping plate 11 and the second lower plate 20 and both sides of the second train wheel bridge 21, the lower section of the first lower plate 14 is provided with the 4th lock Tight screw 22, the first lock-screw 3 and the 4th lock-screw 22 are all connected with protective cover 1 by screw thread, and the first lock-screw 3 The upper surface of lower end and the second train wheel bridge 21, and the following table of the upper end of the 4th lock-screw 22 and the first lower plate 14 Face contacts, and installs stator cast conductor 13, by the first train wheel bridge 11 and the between the first lower plate 14 and the first train wheel bridge 11 Stator cast conductor 13 is fixed by one lower plate 14, and the periphery of stator cast conductor 13 is provided with stator insulation pipe box 17, stator tube The end of type conductor 13 is provided with stator tube wire terminal 16, and stator tube wire terminal 16 hollow is arranged, the inside of stator tube wire terminal 16 Being provided with the second pressing plate 15, the both sides of the second pressing plate 15 are provided with corresponding with the second chute 25 of stator tube wire terminal 16 inwall both sides The second slide block, the bottom of the second pressing plate 15 is provided with the 3rd lock-screw 12, and the 3rd lock-screw 12 is by screw thread and stator tube Wire terminal 16 connects, and the upper end of the 3rd lock-screw 12 contacts with the lower surface of the second pressing plate 15, by the 3rd lock-screw Second pressing plate 15 is locked by 12, is fixed by terminal end by the first pressing plate 9 and the second pressing plate 15, wire and pipe joint Contact surface is planar structure, increases the contact area between wire and pipe joint.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, permissible Understand and these embodiments can be carried out multiple change without departing from the principles and spirit of the present invention, revise, replace And modification, the scope of the present invention be defined by the appended.

Claims (6)

1. a multichannel double-fed wind generator tube type bus groove structure, including protective cover (1), it is characterised in that: described tube rotor The bottom of wire casing fixed mount (4) is connected with the top of stator tube wire casing fixed mount (18), tube rotor wire casing fixed mount (4) and stator The periphery of chase fixed mount (18) is provided with protective cover (1), is provided with tube rotor wire casing in described tube rotor wire casing fixed mount (4) (5), being provided with the second lower plate (20) and the second train wheel bridge (21) in tube rotor wire casing (5), the top of the second train wheel bridge (20) sets There is the first lock-screw (3), rotor cast conductor (19), rotor are installed between the second lower plate (20) and the second train wheel bridge (21) The periphery of cast conductor (19) is provided with rotor insulation pipe box (6), and the end of described rotor cast conductor (19) is provided with rotor pipeline Joint (8), tube rotor wire terminal (8) hollow is arranged, and the inside of tube rotor wire terminal (8) is provided with the first pressing plate (9), the first pressing plate (9) both sides are provided with first slide block corresponding with first chute (24) of tube rotor wire terminal (8) inwall both sides, the first pressing plate (9) top is provided with the second lock-screw (7), is provided with stator tube wire casing (10) in described stator tube wire casing fixed mount (18), fixed Being provided with the first lower plate (14) and the first train wheel bridge (11) in sub-chase (10), the lower section of the first lower plate (14) is provided with the 4th Lock-screw (22), installs stator cast conductor (13), stator cast between the first lower plate (14) and the first train wheel bridge (11) The periphery of conductor (13) is provided with stator insulation pipe box (17), and the end of described stator cast conductor (13) is provided with stator tube wire terminal (16), stator tube wire terminal (16) hollow is arranged, and the inside of stator tube wire terminal (16) is provided with the second pressing plate (15), the second pressing plate (15) both sides are provided with second slide block corresponding with second chute (25) of stator tube wire terminal (16) inwall both sides, the second pressure The bottom of plate (15) is provided with the 3rd lock-screw (12).

A kind of multichannel double-fed wind generator tube type bus groove structure the most according to claim 1, it is characterised in that: described anti- The outside of guard shield (1) is provided with fixed mount (2), and the both sides of fixed mount (2) are provided with installing hole.

A kind of multichannel double-fed wind generator tube type bus groove structure the most according to claim 1, it is characterised in that: described the It is equipped with between one lower plate (14) and the first train wheel bridge (11) and between the second lower plate (20) and the second train wheel bridge (21) Spring (23), and spring (23) be separately positioned on the first lower plate (14) and the both sides of the first train wheel bridge (11) and second time folder Plate (20) and the both sides of the second train wheel bridge (21).

A kind of multichannel double-fed wind generator tube type bus groove structure the most according to claim 1, it is characterised in that: described turn The quantity of sub-chase (5) is three, and three tube rotor wire casings (5) are arranged side by side, and the quantity of stator tube wire casing (10) is three Individual, and three stator tube wire casings (10) are arranged side by side, tube rotor wire casing (5) is in the top of stator tube wire casing (10).

A kind of multichannel double-fed wind generator tube type bus groove structure the most according to claim 1, it is characterised in that: described the One lock-screw (3) and the 4th lock-screw (22) are all connected with protective cover (1) by screw thread, and the first lock-screw (3) The upper surface of lower end and the second train wheel bridge (21), and the upper end of the 4th lock-screw (22) and the first lower plate (14) Lower surface contacts.

A kind of multichannel double-fed wind generator tube type bus groove structure the most according to claim 1, it is characterised in that: described the Two lock-screws (7) are connected with tube rotor wire terminal (8) by screw thread, and the lower end of the second lock-screw (7) and the first pressing plate (9) upper surface, described 3rd lock-screw (12) is connected with stator tube wire terminal (16) by screw thread, and the 3rd locking The upper end of screw (12) contacts with the lower surface of the second pressing plate (15).