DE2338361A1 - PARTIAL DISC BRAKE - Google Patents

Description

In one the starting point of the invention

according to the generic term of claim 1 forming Partially lined disc brake (US Pat. No. 3,628,639), the guide pins extend through bushings which are inserted into the two sides of the Brake disc lying legs of the floating caliper are attached. This type of guidance of the floating saddle requires one relatively large floating saddle, which makes it difficult to modify the design to adapt to special installation conditions,

The invention is based on the object of designing a partially lined disc brake in such a way that its floating caliper making it easier to modify the basic structure in order to make it suitable for different installation conditions without costly provision of additional tools and a redesign is required.

This object is achieved by the features cited in the characterizing part of claim 1.

The result is an effective and inexpensive mounting of the floating saddle, with parts of the floating saddle, in particular the one brake shoe or its base plate and the support plate can be made from sheet metal. Further the result is a relatively simple shape of the Schwion saddle housing, so that this can be made from sheet metal in a simple manner by punching, with a hydraulic

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Actuating device consisting of brake piston and brake cylinder in which one leg of the floating caliper can be arranged.

Further advantageous refinements of the subject matter of the invention emerge from the subclaims. Through this a simple retaining member is created to fix the cylinder of the brake actuator on the floating caliper.

In the drawings, exemplary embodiments of partially lined disc brakes according to the invention are shown. In show the drawings

Fig. 1 is a partial side view with partially broken away and partially cut parts, FIG. 2 shows a section along the line 2-2 in FIG. 1

seen in the direction of the arrows, Fig. 3 is a partial view in the direction of the arrows

3-3 seen in FIG. 1 with partly broken away and partly cut parts, FIG. 4 a partial side view of another embodiment of the invention, FIG. 5 a section along the line 5-5 in FIG. 4

seen in the direction of the arrows,

6 shows a partial section along the line 6-6 in FIG. 7 and FIG. 7 shows a partial section similar to FIG. 6

a modified embodiment.

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The partially lined disc brake 10 shown in Fig. 1 has a fixed in the axial direction rotatable Brake disc 12, which is connected to a vehicle wheel, a vehicle-fixed brake carrier 14 and a floating caliper 16. The brake disk 12 has friction surfaces 18 and 20 on the outer edge 22 of its large surfaces. The brake carrier 14 is on one side Side of the brake disc 12 and has arms 24 and 26 extending over the outer edge 22 of the brake disc, which the Record braking torque.

The floating saddle 16 has a U-shaped housing 28, which consists of a yoke 30 radially outward of the edge 22 of the Bremssetieibe, an outer leg 32 parallel and in an axial direction Distance between the friction surface 18 of the brake disk and an inner leg 34 parallel with an axial distance from the friction surface 20 the brake disc exists. The yoke 30 has side surfaces 36 and 38 which are spaced from one another in the circumferential direction and abut against corresponding stop surfaces 40 and 42 on the arms 24 and 26, on which the braking torque is transmitted, wherein at the same time a displacement of the floating caliper parallel to the axis of the brake disc 12 is permitted.

The floating caliper 16 has an outer brake shoe 44 and an inner brake shoe 46 as well as a brake actuation device 48 and a support plate 50. Furthermore, a

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Guide for the floating saddle is provided by guide pins 52 and 54. The brake actuation device 48 is a brake adjustment device 56 and a mechanically operated parking brake, which has a parking brake lever 58 and a pin 60 has. The adjusting device and the parking brake can also be designed in another suitable manner.

The brake actuation device 48 has a cylinder 62 which extends through an opening 64 in the leg 34 of the floating caliper and is fixed by a wire-shaped holding member 66 in a manner to be described below. The inner surface of the opening 64 and the cooperating outer surface 68 of the cylinder 62 have for this purpose radially aligned grooves 70 and 72 which extend over the entire circumferential surface. In this case, they form an annular space 74 which is filled by the holding member 66. The leg 34 of the floating saddle has a similarly dimensioned space 76, which opens tangentially into the space 74, so that the holding member 66 can be introduced.

The support plate 50 has an opening 78 which the

Cylinder 62 receives, the cylinder being supported with a shoulder 80 against one side of the support plate 50, while the other side of the support plate rests against the outer surface 82 of the leg 34 of the floating saddle. An approach 84 am

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-Sf-

Cylinder 62 b. Fits into a corresponding part of opening 78, to connect the support plate to the cylinder in a rotationally fixed manner.

The outer brake shoe 44 consists of a base plate 86 and a friction lining 88. As FIG. 3 shows, the Base plate 86 eyes 90 on the side facing away from the friction lining 88, which are located in recesses 92 of the outer leg 32 of the floating saddle. Since two eyes and two recesses are provided, the brake shoe becomes the The floating caliper is clearly defined and the transmission of the braking torque is guaranteed.

In the transverse direction, the base plate 86 has ends 94 and 96 which are used for fastening and which extend over in the circumferential direction the surfaces 36 and 38 of the housing 28 of the floating caliper which are spaced apart from one another in the circumferential direction extend. These Ends contain sleeves 98 and 100, respectively, which are designed to be identical to one another, so that only one needs to be described. At the end 96, an annular eye 102 is pressed out on the side facing the friction lining 88. The sleeve 100 consists of an annular sleeve 104, which is pressed into the eye 102 with a press fit, and a sleeve 106 made of elastomeric material, which engages in an inner groove 108 of the sleeve 104. The inner diameter of the sleeve 106 is smaller than the inner diameter of the sleeve 104. One end of the guide pin 54 is

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slidably and flexibly supported in the sleeve 106.

The support plate 50 also has in the transverse direction, the fastening serving ends 110 and 112, which on the other side of the brake disc than the ends 94 and 96 of the base plate of the brake shoes. At the ends of the support plate 50 sockets 114 and 116 of the same structure are provided. A mat screwed onto the guide pin 54 slides resiliently supported in the sleeve 118 made of elastomeric material of the socket 116. The sockets 98 and 114 take the Guide pin 52 and a nut 122 screwed onto it. The guide pins 52 and 54 are suitable, for example by screwing into the brake carrier 14 (Fig. 3), attached, the guide pins extending parallel to the axis of the brake disk 12 outside its outer edge 22. The guide pins 52 and 54 thus carry and guide the floating caliper 16 when the brake is actuated, with the abrasion is taken into account on the friction linings.

The base plate of the internal brake shoe 46 is by a brake piston 126 against the friction surface 20 of the Brake disk moves when a brake chamber 128, which is delimited by the cylinder 62 and the brake piston 126, pressure medium is forwarded. As a result, the friction lining of the brake shoe 46 is in friction contact against the friction surface 20 of the brake disk 12 emotional. The reaction in the brake chamber 128 pushes the cylinder

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62 \ «id the visual swimming saddle in the opposite direction, whereby the friction lining 88 of the outer brake shoe 44 is brought into friction contact against the friction surface 18 of the brake disk 12. The floating saddle slides along the guide pins 52 and 54. If the friction linings wear out, the set brake play is maintained during the axial movement of the floating caliper. The brake adjustment device 56 prevents excessive Retraction of the brake piston 126 when the brake is released, as a result of which the set brake clearance is maintained.

If the brake is operated by hand by turning the parking brake lever 58, the brake piston 126 is moved forward, while · the floating caliper is moved in the opposite direction, so that the friction linings against the associated friction surfaces the brake disc are moved. If the parking brake lever 58 is moved back to release the brake, the Brake pads moved away from the brake disc.

The holding member 66 will be described in more detail with reference to FIGS. 1 and 2. A similar retaining member is also in the second The embodiment according to FIG. 4, which essentially corresponds to that according to "FIG. 1, contains. The outer end 130 of the space 76 is arranged so that it is easily accessible for the front end 132 of the flexible retaining member 66 to be inserted can be built in and into its; Location depressed

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will. Here, the holding member adapts to the shape of the space that is formed by the grooves 70 and 72, up to the front End 132 of the holding member abuts against its part 134, the at the junction between rooms 74 and 76 is located, i.e. at the point where the holding member enters the space 74. The retaining member 66 is preferably sufficient long that its rear end 136 fills the first space 76 and protrudes from the mouth so that the retaining member can be removed again if this becomes necessary. the The preferred embodiment shown provides a support substantially over 360 to the piston 62 in the floating caliper to be determined.

Even if the opening 64 is circular in the exemplary embodiment, any other desired shape can be selected as long as the space 74 formed follows a continuous curve and allows the holding member to be pushed in. If a holder to a lesser extent is desired, the circumferential length of the space 74 can be selected to be shorter. However, the space formed in the floating saddle could also be selected over an angle smaller than 360 °, for example in the shape of a horseshoe, so that a definition over less than 360 ° can then also be achieved ^! results.

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-yf-

Different materials can be used depending on the operating temperatures and stresses to which the holding member is exposed. Examples of such materials are: spring wire, which is particularly advantageous when the retaining member is exposed to high temperatures and high axial forces, plastics such as nylon and other plastics such as polyethylene, polypropylene, vinyl chloride or elastomers. The respective installation and operating conditions influence the choice of material to a large extent. The use of a very hard material, for example spring steel wire, results in a high level of resistance to the heat that occurs and to relative movements between the brake cylinder and the floating caliper. If the holding member is selected from a compressible material, for example, this results in a resilient support for these components. If the brake cylinder and the floating caliper are to be permanently connected to one another *, a solderable material is used as the retaining ring, which is melted by heating the structural unit after insertion.

4 to 6 show another embodiment of the bushings 98 and 100. Common parts have the same reference numbers, but with a comma.

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338361

One of the sockets "which are identical to one another" is described. The base plate 86 'of the brake shoe has transverse ends 94' and 96 'used for fastening, which extends in the circumferential direction over the distance in the circumferential direction having surfaces 36 and 38 of the housing 28 of the floating caliper. These ends of the base plate 86 'are sockets 98 * and 100 'provided. In the end 96 * is an opening 142 educated. The socket 100 'consists of an annular holder 144 which extends through the opening 142 and of a Sleeve 146 made of elastomeric material which fits into an inwardly open groove 148 at one end of the holder 144. The inside diameter the sleeve 146 is smaller than the inner diameter of the cylindrical central portion 150 of the holder. The one The end of the guide pin 54 'is slidable and resilient supported in the sleeve made of elastomeric material. The other end of the holder 144 is open at one axial end Groove 152 is provided. In the installed position, the two grooves 148 and 152 are on opposite sides of the Base plate 86 · and thereby fix the holder in the axial direction. Preferably is the axial length of the central part 150 matched to the thickness of the base plate 86 ', so that a Resilient holder occurs, through which an axial movement of the holder 144 in the opening 142 is effectively prevented. The radially outer edge 154 of the groove 152 lies against the

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Side surface of the base plate 86 ^! at. Each groove 148 and 152 is at least as large in diameter as the inner diameter of the central portion 150 of the holder.

As FIGS. 5 and 6 show, the end uxL forming the groove 152 of the holder 144 is at least a portion of the middle part 150 provided with axially directed resilient fingers 156, 158 and 160, which by radial bending a Cause a snap connection or allow the bushing to be removed from the opening 142 when the guide pin 54 · ent-r is distant. The groove 152 formed in this way has interruptions distributed over the circumference.

In a further embodiment according to FIG. 7, the bushing 200 has an uninterrupted one in the circumferential direction cylindrical central part and a groove 212. The previously inserted holder has only the groove 148 ·, while the later ERH the part forming the groove 212 is initially an axial extension of the cylindrical central part. The holder is inserted into the opening 142 and that of the sleeve made of elastomeric material Material receiving groove is opposite end deformed into part 212 by flanging or shaping with a tool. Depending on the shape of the groove 212, this can be continuous or interrupted in the circumferential direction,

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without affecting the way they work. In both cases, the term groove is not limited to purely annular Grooves limited, but also includes other cross-sections, such as oval, ellipses or other continuous curves that possibly contain straight parts as long as an annular sleeve made of elastomeric material is mounted at one end and at the other end a corresponding shape for the holder can be made.

The partially lined disc brake according to FIGS. 4 and 5 is otherwise designed in the same way as that according to the Figs. 1 to 3.

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Claims (7)

W / vh-2971 ^{> Jyii 1973} General Motors Corporation, Detroit, Mich _o, V ₀ St.A. Partly lined disc brake Claims; \ 1. ^ Partially lined disc brake with a rotating brake disc, a stationary brake carrier with two arms spaced apart in the circumferential direction of the brake disc and a floating caliper supported on the surfaces of the arms and supported by the arms of the brake disc for two brake shoes, which are opposite the large surfaces of the brake disc, one of which can be moved directly against the brake disc and the reaction force causes the floating caliper to rest against the other 409808/0404 Brake shoe moves against the brake disc, for which purpose the floating caliper is displaceable on guide ^{pins at both ends, characterized in that the guide pins (52,54; 54!} ) Are connected between their ends to the brake carrier (I4jl4 ·) and are connected by mutually aligned flexible Bushings (HO, 112; HO ¹ , 112 ″; 94, 96; 94 ', 96') extend in a support plate (5O; 5O ^f ) for the floating caliper (16; 16 ·) or the base plate (86; 86 *) of the brake shoe (44j44 ^! ) Sit on the side of the floating caliper facing away from a brake actuation device (48). 2. Partly lined disc brake according to claim 1, characterized in that each bushing (98,100; 98 ', 10O ¹ ; 114,116; 200) contains a sleeve (106; l46) made of elastomeric material, in which a guide pin (52,54 ^ 2', 54 ¹ J slides and which is fastened in a holder (104,144; 212). 3. Partly lined disc brake according to claim 2, characterized in that each holder (104; 144) for the sleeve elastomeric material is annular and has a cylindrical central part (150) and one end to a radial inside open part (148) and its other end is formed into a radially outwardly open part (152) and these parts a Have a diameter of at least the inner diameter of the middle one Part (150) corresponds to the fact that the sleeve (106,146) is made of elasto- 409808/0404 merem material also has an annular cross-section and sits in the radially inner open end and an inner diameter has smaller than the middle part of the holder, while the radially outwardly open part (152) of the holder against the one Side of the base plate (86 ·) of the brake shoe that receives it or the support plate (50 ·) of the floating saddle rests. 4. A spot-type disc brake according to claim 3 _t characterized in that the radially outwardly open end and at least a portion of the central portion (150) of the holder have the form of axially directed fingers (156,158,160), bent engaged in a snap action and removed guide pin (52 *; 54 ·) allow the bushing (98 ', 10O ¹ ; 114 ¹ , 116 ^f ) to be removed. 5. Partly lined disc brake according to one of the preceding claims, characterized in that the brake actuation device (48) is fastened in an opening (64, 64 *) of one leg (34, 34 ') of the floating caliper (16, 16 »), and the leg in the area of the opening contains an inwardly open groove (70, 70 ^f ) to a space (76, - 76 *) formed inside the floating saddle and the actuating device on its outer surface (68, 68) has an outwardly open groove (72, 72 *) which, when the floating caliper is installed, ^{lies radially to its groove (70.7O 1} ) and into the space and the mutually aligned -A-409808/040 / » -ar grooves that fill a flexible holding member (66; 66 ·) can be inserted. 6. Partly lined disc brake according to claim 5 » characterized in that the brake actuation device (48) through an opening (78.78) in the support plate (50.50) extends and this through the holding member (66,66 ·) on the brake actuation device is fixed. 7. Partly lined disc brake according to claim 5 or 6, characterized in that the grooves (70.70 ·; 72, 72 «) over the entire circumference of the opening (64,64 ·) in the leg (32) of the floating saddle (16,16 ·) and the outer surface (68,68 ·) of the Actuating device (48) extend so that the holding member (66,66 *) is effective over the entire circumference. 409808/0404 ■ »V Blank page