CN203722032U - Fiber bundle-structured conductive slip ring - Google Patents

Abstract

The utility model discloses a fiber bundle-structured conductive slip ring. The fiber bundle-structured conductive slip ring comprises a fiber bundle electric brush and a rotator; the fiber bundle electric brush includes a printed circuit board assembly and fiber bundle brush wires, wherein the fiber bundle brush wires are electrically connected with the printed circuit board assembly; the rotor comprises an insulation sheet, a signal conductive ring and a large-power conductive ring; the fiber bundle brush wires elastically contact with the signal conductive ring so as to be used for transferring signals; and the fiber bundle brush wires elastically contact with the large-power conductive ring so as to be used for transferring power; and the fiber bundle electric brush is connected with an external cable by means of wiring terminals on the printed circuit board assembly, which enables reliable, convenient and fast operation. The fiber bundle-structured conductive slip ring of the utility model is advantages in simple structure, convenient manufacture, installation and maintenance, convenience in mass production, and reliable, convenient and fast operation.

Description

The conducting slip ring of fiber bundle structure

Technical field

The utility model relates to a kind of conducting slip ring, is specifically related to a kind of conducting slip ring of fiber bundle structure.

Background technology

Conducting slip ring belongs to a kind of rotary type electric connector, and its function is, realizes two electrical connections between relative rotational structure.

The development of conducting slip ring has roughly been passed through from carbon brush slip-ring to noble metal slip ring again to the course of fibre bundle slip ring.From the service condition of existing market, fibre bundle brush structure various aspects of performance is outstanding, is present main flow.

But also there are some defects in existing fibre bundle conducting slip ring.For example, the high-power ring of some conducting slip rings is a smooth plane, although reduced like this difficulty of processing, but, increased width on the one hand, on the other hand, such structure is not carried out axial constraint to fibre bundle, brush silk swings excessive, can wear and tear and electric wearing and tearing by acceleration mechanical, and the useful life of having reduced product; Meanwhile, fibre bundle brush silk can pollute conducting ring with the insulating powder that insulating trip friction is produced, and causes signal and power delivery not smooth, often needs to clean, safeguard.Finally, most conducting slip ring, manufactures and complex installation process, is unfavorable for mass production and later maintenance.

Utility model content

The utility model has overcome the deficiencies in the prior art, provides to solve a kind of simple in structurely, and making, installation and easy to maintenance, be convenient to the conducting slip ring of the fiber bundle structure of mass production.

For solving above-mentioned technical problem, the utility model by the following technical solutions:

A conducting slip ring for fiber bundle structure, comprises fibre bundle brush, rotor; Described fibre bundle brush comprises printed board assembly and fibre bundle brush silk, and described fibre bundle brush silk electrically connects with described printed board assembly; Described rotor comprises insulating trip, signal conducting ring and high power conductive ring; Described fibre bundle brush silk and described signal conducting ring Elastic Contact, for transmission of signal; Described fibre bundle brush silk contacts with described high power conductive ring resilience, for transmitted power; Fibre bundle brush is connected with the binding post above external cable dependence printed board assembly, and operation is reliable, convenient, rapid.

Further technical scheme is that fibre bundle brush silk comprises copper sheathing and brush silk, described copper sheathing and the crimping of brush silk, and described copper sheathing is welded on described printed board assembly; Together with copper sheathing is crimped onto with brush silk, form fibre bundle brush silk, fibre bundle brush wire bond is received above printed board assembly, forms fibre bundle brush, and fibre bundle brush structure is simple, and making, installation and easy to maintenance, be convenient to the production of mass.

Further technical scheme is that high power conductive ring is concaveconvex structure; Cancavo-convex high power conductive ring can reduce mechanical wear and the electric wearing and tearing of brush silk, extends the useful life of product; On the other hand, compact structure can reduce rotor entire length more, saves installing space, and this point is even more important the in the situation that of installing space compactness.

Further technical scheme is that insulating trip is inverted V-shaped structure; The insulating trip of inverted V-shaped can reduce the contact area of fibre bundle brush silk and insulating trip, reduce the wearing and tearing of insulating trip, further avoid the insulating powder dropping because of excessive wear to pollute conducting ring, the transmission of signal and power is broken down, needed the drawback of often cleaning and safeguarding.

Compared with prior art, the beneficial effects of the utility model are: the utility model is simple in structure, and making, installation and easy to maintenance, be convenient to the production of mass.Operation is reliable, convenient, rapid.Cancavo-convex high power conductive ring [7] can reduce mechanical wear and the electric wearing and tearing of brush silk, extends the useful life of product; On the other hand, compact structure can reduce rotor entire length more, saves installing space, and this point is even more important the in the situation that of installing space compactness.The insulating trip of inverted V-shaped can reduce the contact area of fibre bundle brush silk and insulating trip, reduce the wearing and tearing of insulating trip, further avoid the insulating powder dropping because of excessive wear to pollute conducting ring, the transmission of signal and power is broken down, needed the drawback of often cleaning and safeguarding.

Accompanying drawing explanation

Fig. 1 is embodiment conducting slip ring structural representation of the utility model.

Fig. 2 is printed board assembly structural representation in embodiment of the utility model.

Fig. 3 is embodiment rotor cutaway view of the utility model.

Fig. 4 is fibre bundle brush silk structural representation in embodiment of the utility model.

Embodiment

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

As shown in Figures 1 to 4, the conducting slip ring of an embodiment fiber bundle structure of the present utility model, comprises fibre bundle brush 1, rotor 2; Fibre bundle brush 1 comprises printed board assembly 3 and fibre bundle brush silk 4, and fibre bundle brush 1 is connected with external cable dependence printed board assembly 3 binding post above, and operation is reliable, convenient, rapid.Fibre bundle brush silk is formed by copper sheathing 8 and 9 crimping of brush silk, then is welded to above printed board assembly 3.Together with copper sheathing 8 is crimped onto with brush silk 9 in the present embodiment, form fibre bundle brush silk 4, fibre bundle brush silk 4 is welded to above printed board assembly 3, form fibre bundle brush 1, the fibre bundle brush 1 forming is like this simple in structure, and making, installation and easy to maintenance, be convenient to the production of mass.The present embodiment rotor comprises insulating trip 5, signal conducting ring 6 and high power conductive ring 7; Printed board assembly 1 and 4 conductings of fibre bundle brush silk, and external power and signal are imported to slip ring; Fibre bundle brush silk and signal conducting ring Elastic Contact, for transmission of signal; Fibre bundle brush silk contacts with high power conductive ring resilience, for transmitted power; Connect the fibre bundle brush 1 of cable, be fixed on above the shell of conducting slip ring, with rotor 2 Elastic Contact; In the rotary course of rotor 2, need signal and the power of transmission to be delivered to signal conducting ring 6, high power conductive ring 7 by fibre bundle brush 1, final rotor by signal with power delivery to the cable assembly being connected with signal conducting ring 6, high power conductive ring 7.As preferred embodiment, high power conductive ring is concaveconvex structure; Cancavo-convex high power conductive ring can reduce mechanical wear and the electric wearing and tearing of brush silk, extends the useful life of product; On the other hand, compact structure can reduce rotor entire length more, saves installing space, and this point is even more important the in the situation that of installing space compactness.Meanwhile, as preferred embodiment further, insulating trip is inverted V-shaped structure; The insulating trip of inverted V-shaped can reduce the contact area of fibre bundle brush silk and insulating trip, reduce the wearing and tearing of insulating trip, further avoid the insulating powder dropping because of excessive wear to pollute conducting ring, the transmission of signal and power is broken down, needed the drawback of often cleaning and safeguarding.

" embodiment " that spoken of in this manual, " another embodiment ", " embodiment ", etc., refer to specific features, structure or the feature in conjunction with this embodiment, described and be included at least one embodiment that the application's generality describes.In specification, a plurality of local appearance statement of the same race is not necessarily to refer to same embodiment.Furthermore, while describing a specific features, structure or feature in conjunction with any embodiment, what advocate is in conjunction with other embodiment, to realize this feature, structure or feature also to drop in scope of the present utility model.

Although a plurality of explanatory embodiment with reference to utility model is described the utility model here, but, should be appreciated that, those skilled in the art can design a lot of other modification and execution modes, and these are revised and within execution mode will drop on the disclosed principle scope and spirit of the application.More particularly, in the scope of, accompanying drawing open in the application and claim, can carry out multiple modification and improvement to the building block of subject combination layout and/or layout.Except modification that building block and/or layout are carried out with improving, to those skilled in the art, other purposes will be also obvious.

Claims (4)

1. a conducting slip ring for fiber bundle structure, comprises fibre bundle brush, rotor; It is characterized in that: described fibre bundle brush comprises printed board assembly and fibre bundle brush silk, described fibre bundle brush silk electrically connects with described printed board assembly; Described rotor comprises insulating trip, signal conducting ring and high power conductive ring; Described fibre bundle brush silk and described signal conducting ring Elastic Contact, for transmission of signal; Described fibre bundle brush silk contacts with described high power conductive ring resilience, for transmitted power.

2. the conducting slip ring of fiber bundle structure according to claim 1, is characterized in that described fibre bundle brush silk comprises copper sheathing and brush silk, described copper sheathing and the crimping of brush silk, and described copper sheathing is welded on described printed board assembly.

3. the conducting slip ring of fiber bundle structure according to claim 1, is characterized in that described high power conductive ring is concaveconvex structure.

4. the conducting slip ring of fiber bundle structure according to claim 1, is characterized in that described insulating trip is inverted V-shaped structure.