DE1182735B - Slip ring unit with a rotating part carrying at least one slip ring and with carbon segments assigned to each slip ring - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 02 k

German class: 21 dl - 6 »

Number: 1182 735

File number: S 72000 VIII b / 21 d 1

Filing date: January 9, 1961

Opening day: December 3, 1964

The invention relates to a slip ring unit with a rotating part carrying at least one slip ring and with carbon segments each assigned to a slip ring.

It is already known for an axial arrangement of slip rings and carbon segments to have flanges To provide from insulating material, which at an axial distance from each other on both sides of a Slip ring are arranged and protrude radially outward over the edge of the slip rings, so that ίο the coal segments cooperating with the slip rings are encompassed by the flanges.

Furthermore, it is already known a relative rotation between the carbon segments and the slip rings to avoid thereby that the carbon segments are provided with openings through which Grip bars attached to a fixed part, which are parallel to the one with the slip rings connected shaft extend.

The aim of the invention is to provide a compact slip ring unit with one or more Slip rings as well as the associated carbon segments, which in their entirety easily approach one a rotary movement drivable shaft can be pushed and fixed there, wherein the slip ring unit by loosening the fastening and simply pulling it off as a whole without further ado Axis of rotation can be removed.

For this purpose, the slip ring unit according to the invention is characterized by the combination of following known characteristics that

a) the rotating part is hollow and can be plugged onto a shaft,

b) cylindrical on the circumference of the rotating part, metallic slip rings arranged and separated from each other by flanges made of insulating material are separated

c) the carbon segments cooperating with the slip rings for the purpose of securing against axial Displacement to fit exactly between two adjacent flanges and radially after protrude outside,

d) the carbon segments aligned openings for receiving a common support rod have and

e) each carbon segment has a circumferential groove for receiving an annular retaining spring owns.

This training creates a unit that is easily exchangeable as a whole.

In a preferred embodiment of the invention it is provided that with each slip ring slip ring unit with at least one
Rotary part carrying slip ring and each with one
Slip ring associated carbon segments

Applicant:

Sperry Gyroscope Company Limited,

Brentford, Middlesex (Great Britain)

Representative:

Dipl.-Ing. C. Wallach, patent attorney,

Munich 2, Kaufingerstr. 8th

Named as inventor:

Harry James Charles Etherington, Chislehurst

(Great Britain)

Claimed priority:

Great Britain January 8, 1960 (804, 805)

two carbon segments cooperate along the arcuate contact surfaces, with between the KöhiSsfegmenten along the slip rings gap remain that are small compared to the contact areas of the carbon segments.

In the case of a slip ring unit of the type mentioned above, which is used for the transmission of directional signals is determined in an instrument determining an azimuth direction on a vehicle, can further it can be provided that the area of the slip rings not covered by the carbon segments is smaller than the one swept over in the event of a relative movement that often occurs between slip rings and carbon segments Area of the slip ring surface. This advantageous development prevents that Certain areas of the slip rings are partially or completely rendered ineffective by dirt or corrosion because all areas of the slip rings are constantly being painted over.

Further advantages and details of the invention emerge from the description of an example Embodiment of a slip ring assembly for use in a marine gyro compass Hand drawing; in this shows

F i g. 1 is a partially sectioned elevation of the slip ring assembly and

Figure 2 is an end view of a pair of carbon segments and a retaining spring; these elements

«9 730/134

Claims (4)

3 4 form part of the in F i g. ] is the equivalent for a toroidal spring form. create. According to FIG. 1 shows the slip ring assembly when assembling the slip ring assembly approximately cylindrical part 1 on which the carbon segments 5 and the springs 9 are on Keyway shaft 2 is attached. The shaft 2 is assembled in 5 of the part 1, if this is from the, a frame 3 rotatably mounted, which a shaft 2 is removed. It just becomes that Forms part of a gyrocompass that is used to effect a pair of coal segments Ship is firm. The shaft 2 will be taken in synchronism with the same time and that its in one direction-determining element of the grain- ner margins between the correct pair of passes rotated. The part 1 carries six metallic io flanges 8 to be brought to the correct one Slip rings 4 that come into contact with six pairs of carbon slip rings. Then the Segments 5 are in contact, of which only five spring 9 in the groove-like outer edges of the coal pairs in Fig. 1 are shown. segments brought. One on a coal segment A suitable device, not shown, such as each pair is a flexible one, not shown an adjustment screw is provided to adjust the part 1 to 15 conductors for connection to one of a number of conductors Fixed in the longitudinal direction on the spline shaft 2 to clamps, not shown, by the keep. Frames 3 originating from the respective slip ring are carried. Create the springs 9 Lines are combined to form a flexible cable 6 - an electrical connection between the carbon summed up to streams to circuit parts by segments of each pair. 20 When all carbon segments and springs are on the to promote. Slip ring part 1 are assembled, the Part 1 is - apart from the slip rings - carbon segments turned around the part, around which and the ladders connected to them - from carbon segments carrying the ladder to a real one suitable insulating material constructed or shaped to bring the side and the openings 14 into line, assembled or molded in a known manner 25 Then the part 1 is straight onto the spline shaft 2 is. The part forms seven washers or flanges 8, pushed, and the openings 14 are simultaneously which are arranged alternately with the slip rings and guided over the rods 15. Part 1 is on the shaft and extend radially beyond this, so by the adjusting screw or other not shown that each slip ring lies at the bottom of a channel, provided means attached. The flexible ladder will be formed by the flanges on each side. 30 connected to the clamp on the frame 3. Of the six with the slip rings in contact the carbon segments are axially supported by flanges 8, five carbon segment pairs 5 are fixed in order to make them out with the correct slip rings. 1 shown. An end view of the in F i g. 1, while its radial position is due to the missing pair, together with a holding contact of the slip rings with the inner spring 9 in FIG. 2 shown. In Fig. 1 is the upper 35 edges of the carbon segments is determined. The rods carbon segment of each pair shown in section, 15 have no part in the axial fixation while the retaining spring of the carbon segments furthest to the right and only prevent the falling carbon segment pairs from being omitted, carbon segments with the slip rings being carried along so that their shape is better can be seen. Each, if the shaft 2 and the part 1 with respect to carbon segment is made of silver-carbon. 40 of the frame 3 are rotated.
It has an inner rim 10 which, in section, is inconsistent when the gyro compass is used to steer the ship on a fixed course with a circular arc of less than 180 degrees. This inner edge has a cylindrical, small and frequent course deviations from the drical shape and fits with the appropriately shaped- few degrees to be avoided. These deviations on the cylindrical surface of the slip ring lead to corresponding relative angular movements. The carbon segment has an outer gene between the slip rings and their carbon edge 11, which coincides with an arc of a circle. In the construction of the slip ring, which is coaxial with the arrangement of the inner edge, the arc-shaped gap between the correct circular arcs is. The outer edge is provided with the adjoining ends of coal segment pairs of a groove to accommodate the spring 9, 50 less than a value of a relative Winkelbewewas best from the rightmost in supply between the slip rings and the coal Fig.l shown coal segment pair see segments made that is often exceeded. Flat parallel surfaces 12 and 13 extend in this way the entire circumference of each between the inner and outer edges. The slip ring is kept clean, even if the ship distance between the surfaces 12 and 13 is such, 55 for long periods on a very specific course that a working fit between the flanges 8 runs,
and the respective surfaces 12 and 13 is formed, if the coal segment with part 1 together
is built. Each coal segment has an opening 14 on. 60 1st slip ring unit with at least one On the frame 3 are two suitably from a slip ring bearing rotating part and each with Metal existing rods 15 attached, the tubular carbon segments associated with a slip ring, shaped coverings made of insulating material characterized by the combination are. The diameter of these rods is such that the following per se known features that they through the openings 14 with a certain 65 a) the rotating part (1) hollow and on a shaft Fit through the game. . The spring 9 is formed from a (2) attachable, Coil spring with a hook at each end b) on the circumference of the rotating part (1) zyliiir educated; these hooks are in engagement with one another, the shaped, metallic slip rings (4) are ordered and separated from one another by flanges (8) made of insulating material, c) the carbon segments (5) cooperating with the slip rings (4) for the purpose of securing fit exactly between two adjacent flanges (8) against axial displacement and protrude radially outwards, d) the coal segments (5) aligned openings (14) for receiving a common one Have support rod (15) and e) each carbon segment (5) has a circumferential groove (11) for receiving an annular retaining spring (9) owns. 2. Slip ring unit according to claim 1, characterized in that the shaft (2) is a keyway shaft is and that the rotating part (1) is internally splined. 3. slip ring unit according to claim 1 and 2, characterized in that with each slip ring (4) two carbon segments cooperate along the arcuate contact surfaces, wherein Gaps remain between the carbon segments along the slip rings, which are small compared to one another the contact surfaces of the carbon segments are. 4. slip ring unit according to claim 3, which for the transmission of direction signals in an instrument determining an azimuth direction is determined on a vehicle, characterized in that the coal segments The area of the slip rings that is not covered is smaller than that of a frequently occurring relative movement Area of the slip ring surface swept between slip rings and carbon segments is. Considered publications: German Patent No. 638,949; German Auslegeschrift No. 1067117; German utility model No. 1775 667; Swiss Patent No. 246799;
so French patent specification No. 397 813; U.S. Patent Nos. 2,854,647, 2,874,362, 877435. 1 sheet of drawings 409 730/134 11.64 ι Bundesdruckerei Berlin