DE2313912A1 - CLAMP FOR HOLDING A CYLINDRICAL SHAFT INTO THE BORE OF A LINK, COMPOSING OF CLAMP, SHAFT AND LINK - Google Patents

Description

DR.-INQ. OtPI INQ. M. SC. DIPL.- » HYS. OR. DIPL ₁ -PHYS.

HÖGER - LEGAL RIGHT- GRIESSBACH - HAECKER PATENT LAWYERS IN STUTTGART

A 40 073 h
h - 153
3/20/73

UNITED CARR LIMITED, London, Great Britain.

Clamp for holding a cylindrical shaft in the bore so that it cannot rotate of a link, consisting of bracket, shaft and link.

The invention relates to a bracket for holding a shaft in a bore of a member so that the The shaft opposes a rotation relative to the link and so the shaft is so to speak wedged with the link. It also deals the invention with an assembly consisting of a shaft which is in a bore of the member with the help of a bracket according to of the invention is attached.

It is known to prevent a shaft from rotating with the aid of a clamp in the bore of a member, for example a neck or a button, but the construction of many of these known brackets is such that it is necessary to add additional Provide slots and transverse recesses in the wall of the bore so as to accommodate the bracket. Other known Brackets built for this purpose are in their construction and complicated in the way of assembly.

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The invention is therefore based on the object of providing a clamp for non-rotatable fastening of a shaft in a bore, which is simple and easy to attach in its nature and in which changes to the bore of the link can be dispensed with. This object is achieved according to the _# invention in that the clip has a holding part for non-rotatably mounting the bracket on the member, and further comprising at least one clamping part, the parallel insertable between the bore wall and the shaft and around its longitudinal axis to form two substantially longitudinal Terminal box is bent, which bite into the shaft and so can hold the shaft relative to the clamp.

It is advantageous if the holding part is a leg and the clamping part is an arm, both of which extend approximately parallel and connected by a web to form a U-shaped bracket, the convex side of the arm to the leg is too directed. '■

It is favorable if the holding part is an essentially flat plate, from which at least one is designed as a clamping part Arm extends substantially perpendicularly, which has parallel clamping edges.

According to a further feature of the invention is an assembly has been created with a shaft which is inserted into the bore of a member with the aid of at least one clamp as defined above, is attached. The construction is such that the bracket is fixed relative to the link by the holding part, that the clamping part and the clamping edges extend approximately parallel to the bore axis into the bore and that the Shaft is arranged in the bore so that the clamping edges bite into the shaft.

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Fig. 2 Fig. 3 Fig. 4th Fig. 5 Fig. 6th Fig. 7th

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Further features and advantages of the invention emerge from the following description, which contains an exemplary embodiment of the invention in conjunction with the drawing. In the drawing show:

Fig. 1 is a side view of the clip according to the invention,

a front view of the clip according to FIG. 1, a rear view of the clip according to FIG. 1, a plan view of the clip of FIG. 1, a plan view of an assembly with two Brackets according to Fig. 1, which hold a shaft against rotation in a bore of a socket, a section along line VI-VI of FIG. 5, a plan view of an assembly with a Bracket according to FIGS. 1 to 4 to hold a shaft against rotation in a bore which has an axially extending surface,

FIG. 8 shows a plan view similar to FIG. 7, the clip being arranged in a bore which has an axial recess on v / eist,

Fig. 9 is a section through the projection of a radial fan, with a shaft in a bore of the Projection is held with the help of a further clamp according to the invention,

a top view of the assembly according to FIG. 9, a side view of the clip according to FIGS. 9 and 10, a front view of the clip according to FIG. 11, a view from below of the clip according to FIG. 11.

In Figs. 1 to 4, a bracket is designated as a whole with 10, which is preferably made from a single strip of steel and which is preferably resilient during manufacture and made rustproof. - 4 -

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Fig. 10 Fig. 11 Fig. 12th Fig. 13th

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The bracket 1O has a leg 11 and an arm 12, which in the are arranged essentially parallel and are connected to one another by a flat web 13 so that the clip 1O in the is substantially U-shaped and may include an edge of a member or component.

Two prongs 14 and 15 are punched out of the leg and bent out of the plane of this leg 11 so that they directed towards the inside of the arm 12 and towards the back of the web 13 are.

The arm 12 is bent around the longitudinal axis "a" according to FIG. 2 or domed so that it has a generally concave face, which is directed outwards and away from the thigh. The longitudinal edges 16 and 17 of the arm 12 form the retaining edges, and the End portions of the retaining edges 16 and 17 are bent, as is the case in particular can be clearly seen from FIG.

In FIGS. 5 and 6, two of these clamps 10, denoted 10 and 10a, are shown in an application to obtain a cylindrical shaft 20 in a bore 21 provided in a tubular bush 22. The bush 22 can for example be made of a synthetic plastic and form an attachment to a radial fan. "^;

To now the shaft non-rotatably in the bore 21 of the 'socket 22 to fasten, the brackets 10 and 10a are first placed on the opposite side edges of the socket 22 and then pressed down until the web 13 of the clamp abuts the face of the socket. Since the prongs 14 and 15 of the Both brackets are directed inwards and backwards relative to the bracket, although the bracket can now be pressed down but then the prongs bite into the plastic material the socket and resist removal

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the bracket. When the brackets are applied to the socket, so extend the retaining edges 16 and 17 of the individual Brackets in the longitudinal direction of the bore 21 and are in the bore arranged. The shaft 20 is then inserted downwardly into the bore and between the brackets 10 and 10. As 5, the radius of curvature of the outer surface of the shaft 20 is significantly larger than the radius of curvature of the individual arms 12 of the brackets 10 and 10a, and the distance of the clamps is such that the shaft 20 is held non-positively between the retaining edges of the two clamps. Once the shaft is pressed down into the position between the clamps 10 and 10a, the retaining edges 16 bite and 17 into the outer surface of the shaft 20 and then resist a rotation of the shaft relative to the brackets and thus relative to the socket 22.

In addition to resisting rotation of shaft 20, brackets 10 and 10a also resist axial movement of the shaft 20 relative to the bushing 22, although this resistance is less than the resistance to the rotation of the Shaft relative to the bush 22 is. The result is that the shaft 20 is in the bore 21 of the bushing 22 through the clamps 10 and 10a is kept in a simple and economical manner.

In Fig. 7, the shaft 20 is held in a partially cylindrical bore of the bushing 31, the bore 30 here with one Surface 32 is provided, the surface 32 of the socket 31 replaces the bracket 10a of the assembly according to FIGS. 5 and 6. This is only the clamp 10 of the assembly according to FIG. 7 is required.

The clamp 10 is placed on the socket 31 in the same way, as explained in connection with FIGS. The shaft 20 is then pressed into the bore 30 in such a way that that they are between the surface 32 and the retaining edges 16

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and 17 of the bracket 10 clamped and in place against Rotation and axial movement is held.

In Fig. 8 the shaft 20 is in a partially cylindrical bore 35 of a socket 36 is arranged. The bore 35 is only a little larger in diameter than the shaft 20 and has an axial one Recess 37 in which the arm 12 of the clamp 10 is partially arranged sit. The arm 12 of the clamp 1O now clamps the shaft against the surface of the bore opposite the recess 37, and the Retaining edges 16 and 17 of arm 12 resist rotation of the shaft relative to the bracket.

It turns out that any number of brackets 10, 10a can be provided on the circumference of the bore of the bushing, but if only one clamp is used, one corresponding surface or a similar stop member is provided on the opposite side of the bore, which is now irit the single clamp cooperates in clamping the shaft in place. Optionally, the wall of the bore Bushing only be part-cylindrical, so that the shaft is approximately. 270 of its scope has little or no play and is provided with an axially extending recess to partially receive the arm 12 of the bracket.

In a modification of the clamp 10, the prongs 14 and 15 can be replaced by a similar prong or several prongs, the are punched out of the center of the arm 12, as shown in dashed lines Lines, indicated in FIG. 2.

In Figs. 9 and 10, a shaft 40 in a bore 41 is a Bushing 42 attached, the shaft 40 in its position in the Bore 41 is held with the aid of a bracket 43.

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The bracket 43 is shown in detail in Figures 11-13 and has a generally flat, rectangular plate 44 and two arms 45 and 46 which project outwardly from the main surface of the plate, substantially parallel to each other.

The bracket 43 is preferably formed from steel which has been made resilient and rustproof during manufacture. The two Arms 45 and 46 are preferably stamped out and bent out of the material so as to form the plate 44, wherein then two recesses are created on opposite sides of the plate.

The arms 45 and 46 are similar and are bent about an axis that extends parallel to the direction of the arm. The radius of curvature is much smaller than half of the maximum distance between the arms. The individual arms 45 and 46 have longitudinal or Holding edges 47, 48 or 49, 50, the holding edges 47 and 49 or the holding edges 48 and 50 being opposite one another.

The bore 41, which extends through the socket from the outer surface 51 extends to the inner surface 52, is stepped down to form a step 53. Furthermore, the outer surface 51 has the socket four similar protruding stops 54.

In order to now fasten the shaft 40 in the bushing 42, the arms of the clamp 43 are inserted into the larger section of the bore 41 so far inserted until the plate 44 rests on the outer surface 51 of the socket, the four sides of the plate 44 each are arranged on the stops 54. In order to attach the arms in the bore 41, these arms are slightly pressed together, so that the clamp 43 is then held in the bore with a force fit.

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A tool is then brought against the outer surface of the plate 44 in order to hold the plate in its position on the outer surface 51 of the socket. The shaft 40 is now inserted through the smaller section of the bore 41 and pressed between the arms 45 and 46. The radius of the shaft is much larger than the radius of curvature of the two arms 45 tmd 46, so that the shaft opening the arms, when it is pressed between them. The retaining edges 47 _f 48 and 49, 50 bite into the surface of the shaft so that they now resist rotation of the shaft relative to the clamp once the shaft is in place.

The shaft is pressed completely between the arms 45 and 4 € so far, until the end of the shaft 40 rests against the plate 44. The shaft is then non-rotatable relative to the socket 42 fastened with the aid of the clamp 43.

The bracket 43 can also be provided with more than two arms in order to capture and hold the shaft in the bore. the Arms are preferably equiangularly spaced around the shaft.

In a modified manner, the clamp 43 can also be provided with only one arm in order to grasp the shaft 40 in the bore 42 and to hold, but in this case the hole is modified and provided with a surface that is opposite to Arm of the clamp is arranged, then the arm clamps the shaft against the surface.

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Claims (1)

Il "~ ■ 15 3
3/20/73 Patent claims: Clamp for the non-rotatable holding of a cylindrical Shaft in the bore of a link, thereby characterized in that the bracket (10; 43} a holding part (ti; 44) for the non-rotatable attachment of the Clamp (10; 43} on the link (22; 42} and furthermore at least a clamping part (12? 45,46}, which between the bore wall (21; 41} and the shaft (20) can be used and around its longitudinal axis to form two substantially parallel, longitudinal clamping edges (16, 17; 47, 48, 49, 50) is bent, which bite into the shaft (20) and can thus hold the shaft (2O) relative to the bracket (10; 43). 2. Clamp according to claim 1, characterized in that the holding part is a leg (.Ii) and the clamping part is an arm (12), both of which extend approximately parallel and through a web (13) to form a U-shaped bracket ( 1O> are connected, the convex side of the arm (12) facing the leg (11). 3. Clip according to claim 2, characterized in that the leg (11} and / or the arm (12) with at least one Prongs (14,15) are provided, the inside and the web (13) too directed. 4. Clamp according to claim 1 _r, characterized in that the holder is a substantially flat plate (44} _F of which at least one arm (45, 46} designed as a clamping part extends substantially perpendicularly, the parallel clamping edges (47, 48, 43, 5O). - 10 - 309840/0402 h - 153 2Q.3.73 5 «clamp according to claim 4 wherein _{r f} that two substantially parallel arms (45 _f 46) are provided, whose concave sides are directed to each other *. 6. Clip according to one of claims 4 or 5, characterized in that the radius of curvature of the two. Poor. (45 _r 46} is less than half the maximum distance between the arms (45, 46) » 7. Assembly consisting of a shaft which is in the bore of a link with the help of at least one bracket after 'one of the preceding claims is held non-rotatable, characterized in that the bracket CIO? 43); is fixed relative to the member (22; 42) s by the holding part C11-44) that the clamping part (12-45 , 46) and the clamping edges (16, 17-47, 48, 49, 50> are approximately parallel to the bore axis extend into the bore (21-41) and that the shaft (20) is arranged in the bore (21 % 41) in such a way that the clamping edges (16, 17 | 47 _r 48 _r 49, 50l fit into the shaft ( 2O); bite in.,.,. 8. Assembly according to claim 7, characterized., The bore (30l has a surface (32) and the shaft (20) with the aid of a single clamp (1O) according to claims or 3 against, this surface (32) is pressed . Assembly sacfe Baspariicii 7 _r daäsrcli the GlLsA | 22 | is sleeve-like or tube-like and the shaft C2OJ durcii s »ei. One of the opposing class srs fiO | after dea JtespxScken ¹ 2 or 3 is geiialtes. A 40 O73 h -11-? ^ 1 Ί Q 1 _h _ ₁₅₃ Ιό Ι 0Ό I. 3/20/73 10. An assembly according to claim 7, characterized in that a clamp (43) according to one of claims 4 to 7 is used is, the plate (44) of which abuts with at least one edge against a protruding portion (54) of the link (42). 11. Assembly according to one of claims 7 to 10, characterized in that that the radius of curvature of at least one arm (12; 45, 46) is significantly smaller than the radius of the Shaft (20) is. 12. Assembly according to one of claims 7 to 11, characterized in that that at least one arm (12; 45, 46) is pressed together between the shaft (20) and the bore wall (21; 41) is. 309840/0402