GB2140515A

GB2140515A - Securing element

Info

Publication number: GB2140515A
Application number: GB08415594A
Authority: GB
Inventors: James Philip Scott
Original assignee: Rockwell International Corp
Current assignee: Boeing North American Inc
Priority date: 1980-12-01
Filing date: 1984-06-19
Publication date: 1984-11-28
Also published as: CH658301A5; SE8107094L; BR8107791A; HU188718B; DE3146790A1; AU7691881A; JPS57120739A; MX155185A; FR2495250A1; GB2088499B; AU550581B2; IT8149778A0; GB8415594D0; IT1142993B; GB2088499A; CA1171003A

Abstract

Securing element (60) is received in a bore (58) to secure an element such as a brake caliper slide pin (19) at least partly disposed in said bore and comprises an elongate pin or rod having a shank (62) and a head (63) which may be threaded to receive a nut (69). The shank has a lateral recess or undercut (64) to co-act with the element (19) and reference means, in the form of a groove (67), on the head aligned with the recess to indicate the orientation of the latter in the bore. As shown, the groove (67) is parallel to the base of recess (64). In its first position shown in Figure 3, element (60) permits axial movement of pin (19) within a bore (21) provided in a torque plate boss (24); in its second position of Figure 2 axial movement of pin (19) is prevented. As shown, pin (19) has an undercut at (17) for engagement by recess (64). <IMAGE>

Description

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GB 2 140 515 A

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SPECIFICATION Securing element

5 This invention relates to securing elements, and more specifically to elements such as draw keys operatively inserted in a bore to secure a second element partly disposed in said bore.

One example of the use of the invention is in 10 connection with vehicle disc brake assemblies in securing slide pins or rods which mount a brake caliper to a torque plate of the assembly while permitting access to the brake assembly for maintenance purposes as for example, withdrawing and 15 replacing the friction pads. A brake assembly in which the invention is particularly conveniently incorporated is described in our co-pending British Patent Application 8133354 (2088499) of even date herewith.

20 The object of the present invention is to provide a simple, economical means for securing an element such as a brake caliper slide pin to an element such as torque plate which prevents accidental relative displacement of the elements while providing for 25 ease of assembly and disassembly.

According to the invention there is provided a securing element for insertion within a bore in a first elenent to secure a second element at least partly disposed within the bore comprising an elongate 30 body having a shank and a head portion, a recess provided laterally through a portion of said shank, and reference means on the head portion aligned with said recess to indicate the orientation of the recess within the bore.

35 An embodiment of the invention is now more particularly described with reference to the accompanying drawings, wherein:-

Figure / is a front view of a portion of a disc brake assembly incorporating the invention,

40 Figure 2 is a sectional view taken along lines 2-2 of Figure 1;

Figure 3 is a sectional view similar to Figure 2;

Figure 4 is a perspective view of a draw key of said assembly; and 45 Figure 5 is a perspective view of a slide pin of the assembly.

With reference to the drawings, Figure 1 shows parts of a disc brake assembly of the kind described in greater detail in our said co-pending patent 50 application 8133354 (2088499). The assembly includes a sliding or "floating" caliper 12 mounted on upper and lower parallel slide pins (only the upper pin is described hereafter). An axially aligned pair of ears 14 and 15 of caliper 12 slide on end portions of 55 the upper slide pin 19. The slide pin 19 is mounted in an axially extending bore 21 provided in a boss 24 at the radially outer extremity of a radially extending arm 26 of a brake supporting torque plate. A disc or rotor 34 having axially spaced, oppositely disposed 60 friction braking surfaces is secured for rotation with a wheel hub (not shown) carried by the vehicle axle and with which friction pads of the brake coact.

The slide pin 19 is stepped to a smaller diameter portion 17 forming the bottom of a groove disposed 65 circumferentially around the slide pin 19. The diameter of the ends of the slide pin 19 is about 25.2 millimeters and the portion 17 is undercut to a diameter of about 24 millimeters.

The element constituted by slide pin 19 is secured within the element constituted by torque plate boss 24 by means of a securing element in the form of a draw key 60 positioned within a second bore 58 provided in boss 24.

The axis of the second bore 58 provided in boss 24 is normal to but laterally displaced from the axis of the slide pin bore 21 as shown by the sectional view of Figure 2, thus bore 58 is laterally offset from slide pin bore 21 and intersects only a marginal portion or sector of the slide pin bore 21. This arrangement permits the draw key 60 to be moved in bore 58 to a first position where the key clears or does not occupy any portion of the intersecting slide pin bore 21 thereby permitting axial movement of the slide pin 19 in the bore 21, and to a second position where the draw key 60 is located partly within the intersecting slide pin bore 21 thereby preventing axial movement ofthe slide pin 19within bore 21.The second bore 58 is open at both ends through the torque plate boss to prevent moisture or dirt from accumulating in the bore 21.

The draw key 60 as shown by Figure 4 is an elongate pin or rod having a shank 62 and an externally threaded head 63 of slightly larger diameter than the shank 62. The shank is recessed or undercut at 64 and a groove 67 is provided to the head 63. The recess 64 is provided laterally through the shank 62 for alignment with the slide pin bore 21 and the groove 67 extends diametrically across the top or projecting end surface of head 63 and parallel the base ofthe recess 64 to visibly indicate the orientation ofthe recess 64 within the second bore 58.

The draw key 60 is axially movable against the force of a biasing spring 68 seated against a shoulder formed by an undercut at the open end of the bore 58. Spring 68 biases against the under surface of a washer 66. A nut 69 is threaded to the head 63 of draw key 60.

The draw key 60 may be axially moved within the bore 58. As shown in Figure 3, with the lock nut 69 moved to a position adjacent the end of the threaded head 63, the draw key 60 may be axially moved inward against the force of biasing spring 68 to a first position where the recess 64 is aligned with the slide pin bore 21 thereby clearing the bore 21 and permitting axial movement ofthe slide pin 19 within the bore 21 of torque plate boss 24 as well as the bores provided to the axially spaced bosses 14,15 of the caliper 12. With the draw key 60 in this position the slide pin 19 may thus be inserted or withdrawn from the caliper and torque plate assembly.

Once the slide pin 19 is inserted within the slide pin bore 21 of torque plate boss 24 and the axially aligned bores provided to the spaced bosses 14,15 ofthe arms 26,28 of caliper 12, the draw key 60 is drawn axially outwardly to a second position where, as shown by Figure 2, the tapered portion ofthe recess 64 engages the undercut smaller diameter portion 17 ofthe slide pin 19 thereby disposing a portion ofthe draw key 63 within the slide pin bore

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2 GB 2 140 515 A

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21 and abutting the undercut surface 17 ofthe slide pin 19 and preventing axial movement ofthe slide pin relative to the slide pin bore 21 of torque plate boss 24. The nut 69 is then threaded down into 5 abutting engagement with the exterior surface of the torque plate boss 24 to lock the draw key in position preventing axial movement ofthe slide pin 19 within the bore 21.

The lower slide pin is secured by a draw key in the

10 same way as described above.

Although the slide pin 19 and the draw keys 60 are respectively undercut at 17 and recessed at 64 in the preferred embodiment described above, the invention would function in the same manner if only the

15 draw pin was recessed. For example the draw key could be designed to enable the recess to abut the cylindrical surface ofthe slide pin in one position and to clear the slide pin bore when it is desired to withdraw or replace the slide pin.

20 The invention thus provides a simple economical means for securing an element such as a slide pin to a formation such as a disc brake torque plate which readily permits removal and replacement ofthe element.

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Claims

1. A securing element for insertion within a bore in a first element to secure a second element at least

30 partly disposed within the bore comprising an elongate body having a shank and a head portion, a recess provided laterally through a portion of said shank, and reference means on the head portion aligned with said recess to indicate the orientation of

35 the recess within the bore.

2. A securing element as in Claim 1 wherein the reference means is a diametral groove across an end surface of said head portion parallel to the recess.

3. A securing element as in Claim 1 or 2 wherein

40 the head portion is externally threaded to receive a nut in use for drawing the recessed portion ofthe securing element axially into engagement with the second element.

4. A securing element as in Claim 1,2 or 3

45 wherein the recess is an undercut across a peripheral zone ofthe shank portion.

5. A securing element as in Claim 4 wherein said undercut is shaped to leave the part of the bore within which the second element is operatively free

50 for unobstructed movementof the latter when the securing element is moved axially to a first position but restricts movement of the second element when moved axially to a second position.

6. A securing element as in Claim 5 wherein the

55 undercut includes a tapered portion for engagement with the second element in use when the securing element is drawn axially to the second position.

7. A securing element substantially as hereinbefore described with reference to and as shown in the

60 accompanying drawings.

8. An assembly including a securing element as in any preceding claim.

Printed in the UK for HMSO, D8818935,10/84,7102.

Published by The Patent Office, 25 Southampton Buildings, London,

WC2A1 AY, from which copies may be obtained.