DE102012006617B4 - tool set - Google Patents

Abstract

Tool set for dismantling a rubber-metal bearing (2) mounted in a hollow-cylindrical bearing mount (3), the hollow-cylindrical bearing mount (3) having a radially aligned through-opening (9) in its lateral surface, with one end of the mounted rubber-metal bearing - Bearing (2) axially supported on the same first pressure piece (10),- with a first support sleeve (11) axially supported in the region of the axially opposite end of the rubber-metal bearing (2) at one end on the bearing mount (3),- with a second pressure piece (12) axially supporting the first support sleeve (11) at the other end of the same, - with a first pressure piece (10), rubber-metal bearing (2), first support sleeve (11) and second pressure piece (12) axially penetrating connecting rod (13), which is firmly but detachably connected at one end to the first pressure piece (10), and with a linear drive (14) which is axially on the second pressure piece (12) and on a free, the second pressure piece ück (12) protruding end of the connecting rod (13) acts in such a way that an axial force (19) can be applied to the mounted rubber-metal bearing (2) via the first pressure piece (10) and the same can be pushed out axially from the bearing mount (3). can be transferred into the first support sleeve (11), characterized in that the first pressure piece (10) has an outer diameter which corresponds to the inner diameter of the hollow-cylindrical bearing mount (3) in such a way that a relative movement between the first pressure piece (10) and the bearing mount ( 3) is enabled in the axial direction and prevented in the radial direction, but is at least minimized, and also has a free cut (20) which is arranged in such a way that it points to the radially aligned through-opening (9) of the hollow-cylindrical bearing mount (3) and as a result of axial Relative movement between the bearing mount (3) and the first pressure piece (10) passes through the through-opening (9).

Description

The invention relates to a tool set for dismantling a rubber-metal bearing mounted in a hollow-cylindrical bearing mount according to the preamble of patent claim 1 of the invention.

A large number of tool sets for disassembling and/or assembling or for pressing rubber-metal bearings out of or into corresponding bearing mounts or bearing seats are known from practice. Said rubber-metal mounts are also known in the art as rubber mounts, silent mounts, silent bushes or silent blocks and are used, for example, in vehicles as engine mounts, for fastening stabilizers, wishbones and/or the like. They are mainly made of a metal core and a rubber coating to dampen vibrations. the DE 42 11 765 A1 describes a device for releasing a rubber bearing on space links of a rear suspension by means of a screw clamp with two telescoping hollow cylinders. By turning a nut on the shank of a screw axially penetrating the hollow cylinder and the rubber bearing arranged in a mounting hole of the handlebar, the smaller counter hollow cylinder is pressed against the rubber bearing, while the larger hollow cylinder is supported on the handlebar and forms a counter bearing. By turning the nut further, the rubber bearing is pressed out axially from the mounting hole. the DE 103 59 052 A1 describes a device for pressing out a component pressed into a bearing bore of a bearing eye of an axle component, such as a silentbloc, consisting of a support bell supported on the bearing eye in the area around the bearing bore and a pressure piece which can be pushed axially through the bearing bore together with the component, for the squeezing process, a pressing device can be attached to the support bell and the pressure piece. Provided axially opposite on the bearing eye of the support bell is a clamping plate which can be releasably connected to the support bell and via which the support bell is held tightly on the bearing eye. This is intended to fix the support bell in a defined position on the bearing eye before the pressing device is applied. From the DE 20 2006 004 377 U1 is also a tool according to the modular principle for inserting and removing bearings, bushings or the like. Finally is out of the DE 20 2010 001 586 U1 as the prior art closest to the invention, an assembly tool for assembling and disassembling silentblocs in a motor vehicle, in particular an assembly carrier of a motor vehicle, with a linear guide is known, on which, when the assembly tool is in use for assembly, a holding part and a pressure piece are arranged so that they can move towards one another in such a way that a relative movement between the holding part and the pressure piece, the silentbloc arranged between them can be moved along a mounting direction. The holding part is supported in the mounting direction on a hollow-cylindrical bearing seat of the silentbloc, the bearing seat having an opening that is radial to the mounting direction. It is also provided that when the assembly tool is in use, a support part thereof engages at least in sections in said radial opening of the bearing seat and at least partially fills the opening in order to prevent damage to the silentbloc during assembly. Once the silentbloc is installed, it relaxes as a result of the press fit in the area of the opening. To dismantle the silentbloc, the silentbloc is pushed out of the bearing seat axially by means of a pressure piece and then received by a guide sleeve that acts as an abutment. Said pressure piece is plate-shaped and has a circular surface corresponding to the hollow-cylindrical bearing seat. In practice, it has been found that during disassembly of the silentbloc, accompanied by an axial penetration of the plate-shaped pressure piece into the hollow cylindrical bearing seat, the pressure piece and/or the silentbloc jam in the bearing seat and thereby impede disassembly. This circumstance results in particular from the fact that as a result of assembly, the material of the silentbloc has relaxed in the direction of the opening, so to speak, has partially penetrated into it and this condition is reinforced as a result of axial loading of the material of the silentbloc during disassembly by means of the pressure piece by said material further deviates into said opening, which in turn prevents the silentbloc from further axial movement. Currently, this disadvantageous circumstance can only be counteracted with "brute" force by pushing back or removing material of the silentbloc penetrating radially into the opening. This is where the invention described below comes into play.

Furthermore, the DE 20 2011 100 815 U1 a tool set for installing a silentbloc, which includes a thrust washer, a cup-shaped support sleeve and a coupling rod passing through the thrust washer and the support sleeve. A centering disk passing through the coupling rod is guided in the support sleeve and an elastic restoring element between the base of the support sleeve and the centering disk.

Furthermore, the U.S. 3,007,241A a device for removing the stub axles of land vehicle wheels to prevent destruction or damage to the stub axle seats while providing an effective positively actuated stub axle; and removal means which can be actuated either manually or mechanically in a minimum of time to remove the worn trunnions of the hubs of to move and/or remove wheels commonly found on heavy land vehicles.

Furthermore, the U.S. 3,270,407 A a V-shaped bifurcated bracket spanning each plug to be removed, a threaded opening extending through the apex of the bracket, a screw in threaded engagement with the opening, a handle attached to the outer end of the screw, a handle extending axially from the inner end of the Screw extending reduced cylindrical portion, a button attached to the end of the cylindrical portion of the screw and a flat U-shaped retaining member that fits the cylindrical portion.

The object of the invention is, with regard to the closest prior art acknowledged above ( DE 20 2010 001 586 U1 ) to create a tool kit for dismantling a rubber-metal bearing mounted in a hollow-cylindrical bearing mount, which enables simple and inexpensive dismantling of the rubber-metal bearing while avoiding the disadvantages of said prior art. In addition, it is the object of the invention to additionally create the prerequisites for mounting a rubber-metal bearing in said bearing mount.

• - mit einem sich einenends des montierten Gummi-Metall-Lagers axial an demselben abstützenden ersten Druckstück,
• - mit einer sich im Bereich des axial gegenüberliegenden Endes des Gummi-Metall-Lagers einenends an der Lageraufnahme axial abstützenden ersten Stützhülse,
• - mit einem sich anderenends der ersten Stützhülse an derselben axial abstützenden zweiten Druckstück,
• - mit einer erstes Druckstück, Gummi-Metall-Lager, erste Stützhülse und zweites Drückstück axial durchsetzenden Verbindungsstange, die mit ihrem einen Ende mit dem ersten Druckstück fest jedoch lösbar verbunden ist, und
• - mit einem Linearantrieb, welcher am zweiten Druckstück und an einem freien, das zweite Druckstück überragenden Ende der Verbindungsstange derart angreift, dass über das erste Drückstück eine axiale Kraft auf das montierte Gummi-Metall-Lager aufbringbar und dasselbe axial aus der Lageraufnahme heraus in die erste Stützhülse überführbar ist, wird die gestellte Aufgabe dadurch gelöst, dass
• - das erste Druckstück einen mit dem Innendurchmesser der hohlzylindrischen Lageraufnahme korrespondierenden Außendurchmesser derart aufweist, dass eine Relativbewegung zwischen dem ersten Druckstück und der Lageraufnahme in axialer Richtung ermöglicht und in radialer Richtung verhindert, zumindest jedoch minimiert ist, und ferner einen Freischnitt aufweist, welcher derart angeordnet ist, dass dieser zur radial ausgerichteten Durchgangsöffnung der hohlzylindrischen Lageraufnahme weist und infolge axialer Relativbewegung zwischen Lageraufnahme und erstem Druckstück die Durchgangsöffnung passiert.

Based on a tool set for dismantling a rubber-metal bearing mounted in a hollow-cylindrical bearing mount, the hollow-cylindrical bearing mount having a radially aligned through-opening in its lateral surface,

• - with one end of the mounted rubber-metal bearing axially supported on the same first thrust piece,
• - with a first support sleeve in the region of the axially opposite end of the rubber-metal bearing, which is supported axially at one end on the bearing mount,
• - with a second thrust piece that is axially supported on the other end of the first support sleeve,
• - With a first pressure piece, rubber-metal bearing, first support sleeve and second pressure piece axially penetrating connecting rod which is firmly but detachably connected at one end to the first pressure piece, and
• - with a linear drive, which acts on the second pressure piece and on a free end of the connecting rod that protrudes beyond the second pressure piece in such a way that an axial force can be applied to the mounted rubber-metal bearing via the first pressure piece and the same can be pushed axially out of the bearing mount into the first support sleeve can be transferred, the task is solved in that
• - the first pressure piece has an outer diameter that corresponds to the inner diameter of the hollow-cylindrical bearing mount in such a way that a relative movement between the first pressure piece and the bearing mount in the axial direction is made possible and prevented in the radial direction, but is at least minimized, and also has a free cut which is arranged in this way is that it points towards the radially aligned through-opening of the hollow-cylindrical bearing mount and, as a result of the relative axial movement between the bearing mount and the first thrust piece, passes through the through-opening.

This measure effectively prevents the pressure piece and/or the rubber-metal bearing from jamming when the first pressure piece is guided axially within the hollow-cylindrical bearing mount, since there is no longer any direct axial force on the material arranged in this area in the area of the radial through-opening of the bearing mount of the rubber-metal bearing is applied by the pressure piece. The material of the rubber-metal bearing arranged in the area of the cutout of the first pressure piece can also deviate axially if necessary and no longer primarily strives to penetrate radially into the through-opening of the bearing mount, so that the dismantling of the rubber-metal bearing is easier and without additional complex measures, as required by the prior art, can be accomplished. If the hollow-cylindrical bearing mount is, for example, a bearing mount for a structural part of a vehicle, in particular a subframe such as a subframe, it is advantageous to disassemble the rubber-metal bearing and then mount it on the vehicle, i. H., facilitated without removing said subframe.

The dependent claims describe preferred developments or refinements of the invention.

According to a preferred embodiment variant of the invention, said cutout is designed in the shape of a segment of a circle and is imaginary circular arc and a chord. Such a free cut can be produced easily and inexpensively. Advantageously, the chord has a longitudinal extent that is greater than or equal to the rectified extent of the through-opening of the bearing mount, which causes the material of the rubber-metal bearing arranged in the area of the cutout of the first pressure piece to be distorted and causes it to deviate radially into the through-opening of the Storage is avoided even more effectively.

In order to also enable assembly of a rubber-metal bearing in a hollow-cylindrical bearing mount with said tool set, the tool set includes, in an advantageous development of the invention, an interchangeable with the first thrust piece and acting as an abutment during assembly, which is axially supported at one end of the bearing mount on the same counter-hold element. Further advantageously, the counter-retaining element is designed as an abutment plate, which is formed in one piece by a plate section that is supported axially on the bearing mount and a cantilever section that projects radially beyond the structure of the bearing mount. Due to the overhanging cantilever section, the counter-retaining element can be used for structural parts with different geometric designs and having said bearing mount. Advantageously, an axially aligned guide plate is or can be fastened to the free end of the cantilever section of the counter-retaining element, from which an insert piece extends radially towards the bearing mount, which in the assembly function of the tool set extends into the through-opening of the bearing mount and during assembly an expansion of the rubber-metal Bearing prevented in the radially aligned through hole of the bearing mount. An expedient embodiment is provided in that the guide plate and the insert are designed in one piece. As a result, the number of components in the tool set for assembling the rubber-metal bearing is advantageously minimized. According to a further advantageous modification of the invention, the cantilever section of the counter-retaining element designed as an abutment plate has a curved contour, which on the one hand serves to stiffen the cantilever section and, on the other hand, the arrangement of the counter-retaining element on the bearing receptacle during assembly preparation and equipping of the counter-retaining element designed as an abutment plate when space is limited Backing element facilitated with the guide plate and the insert. The cantilever section can, for example, be designed to be cranked towards the through-opening, as a result of which the length of the guide plate can advantageously be minimized.

The tool set for mounting the rubber-metal bearing in the hollow-cylindrical bearing mount also includes a second support sleeve, which can be exchanged with the first support sleeve and previously equipped with the rubber-metal mount, and has at least a partially funnel-shaped inner contour, which is supported on the other end of the bearing mount, wherein Between the linear drive and the second support sleeve there is a pressure sleeve which can be pressurized axially by the linear drive and which, when in use, is supported axially on the rubber-metal bearing and by means of which the rubber-metal bearing can be transferred axially out of the support sleeve and into the bearing mount. The funnel-shaped design of the second support sleeve makes it easier to equip it with the rubber-metal bearing in preparation for the actual assembly of the same in the bearing mount. An expedient modification of the invention is also achieved in that at least the plate section of the counter-retaining element has an interchangeable thread insert for the fixed but detachable connection of the same to the connecting rod. Since the tool set is regularly subjected to high stresses in workshop operation and threads in particular are subject to high wear, the thread corresponding to the thread of the connecting rod can be renewed if necessary by simply and inexpensively replacing said interchangeable thread insert.

• 1 eine perspektivische Teilansicht eines Strukturteils, welches eine mit einem Gummi-Metall-Lager bestückte Lageraufnahme aufweist,
• 2 das Gummi-Metall-Lager nach 1 als Einzelteil in einer Seitenansicht,
• 3 eine perspektivische Ansicht des Strukturteils mit einem zur Demontage des Gummi-Metall-Lagers vorgesehenen und im Zusammenbau mit dem Strukturteil sowie in Funktionsstellung befindlichen Werkzeugsatz,
• 4 eine zu 3 korrespondierende Schnittansicht des Strukturteils samt dem Werkzeugsatz,
• 5 ein erfindungswesentliches erstes Druckstück des Werkzeugsatzes nach 3 und 4 in einer perspektivischen Ansicht mit einem Wechselgewindeeinsatz,
• 6 das erste Druckstück nach 5 in einer Draufsicht ohne besagten Wechselgewindeeinsatz,
• 7 eine perspektivische Ansicht des Strukturteils mit dem im Hinblick auf eine Montage eines Gummi-Metall-Lagers nach 2 in besagte Lageraufnahme angepassten und im Zusammenbau mit dem besagten Strukturteil sowie in Funktionsstellung befindlichen Werkzeugsatz,
• 8 eine zu 7 korrespondierende Schnittansicht des Strukturteils samt dem angepassten Werkzeugsatz,
• 9 ein erfindungswesentliches Gegenhalteelement des Werkzeugsatzes nach 7 und 8 in einer Draufsicht,
• 10 eine Seitenansicht des Gegenhaltelements nach 9 in einem vormontierten Zustand bestückt mit einem Wechselgewindeeinsatz, einer Führungsplatte und einem Einsatzstück, und
• 11 die Ansicht „A“ nach 10.

The invention is explained in more detail below with reference to an exemplary embodiment shown schematically in the drawings. Show it:

• 1 a perspective partial view of a structural part which has a bearing mount equipped with a rubber-metal bearing,
• 2 the rubber-metal bearing 1 as a single part in a side view,
• 3 a perspective view of the structural part with a set of tools provided for dismantling the rubber-metal bearing and being assembled with the structural part and in the functional position,
• 4 one to 3 Corresponding sectional view of the structural part including the tool set,
• 5 an invention-essential first pressure piece of the tool set 3 and 4 in a perspective view with an interchangeable thread insert,
• 6 the first pressure piece after 5 in a plan view without said interchangeable thread insert,
• 7 a perspective view of the structural part with regard to an assembly of a rubber-metal bearing 2 adapted in said bearing mount and in assembly with said structural part and tool set in functional position,
• 8th one to 7 Corresponding sectional view of the structural part including the adapted tool set,
• 9 an invention-essential counter-holding element of the tool set 7 and 8th in a top view,
• 10 a side view of the counter-holding element 9 in a pre-assembled state equipped with an interchangeable thread insert, a guide plate and an insert piece, and
• 11 the view "A" after 10 .

1 first shows a partial view of a structural part 1, in this case a structural part 1 in the form of an auxiliary frame of a vehicle, in particular a passenger car, as is shown in FIGS 3 and 7 is shown. The subframe is in turn attached to the body of the vehicle, not shown in detail, and is used in particular to support axles and wheel suspensions and a drive unit, for example an internal combustion engine of the vehicle, with so-called rubber-metal bearings 2 predominantly being used to absorb vibrations in relation to the vehicle body to dampen. For example, a rubber-metal bearing 2 is pressed into an associated hollow-cylindrical bearing mount 3 of the structural part 1, in this case the subframe, in order to dampen the vibrations generated by the drive unit relative to the body of the vehicle with a pendulum support, not shown in detail and usually designed as a support arm .

According to 2 said rubber-metal bearing 2 is divided in a plane transverse to the longitudinal axis of the hollow-cylindrical bearing seat 3 . The two bearing halves 2a, 2b are connected or connectable to one another by means of a screw 4. The rubber-metal bearing 2 is formed from a vibration-damping metal core 5 with an axial through hole 6 and a casing 7 made of rubber. The two bearing halves 2a, 2b of the rubber-metal bearing 2 form a window-like opening 8 pointing in the radial direction, which in turn is formed when the bearing halves 2a, 2b are assembled by corresponding recesses 8a, 8b of the same. The window-like opening 8 of the rubber-metal bearing 2 corresponds to a radially aligned window-like through-opening 9 in the outer surface of the hollow-cylindrical bearing mount 3.

The window-like opening 8 in the rubber-metal bearing 2 and the window-like through-opening 9 corresponding thereto in the lateral surface of the hollow-cylindrical bearing mount 3 are penetrated by the same when assembled with said pendulum support. A free end of the pendulum support has a fastening eye, which in turn is fixed by means of the screw 4 on the rubber-metal bearing 2 (not shown in the drawing).

When replacing the rubber-metal bearing 2 due to wear and tear, for example, this must be loosened from the press fit with the bearing mount 3. For this purpose, a dismantling tool is used, which in turn is designed as a tool set.

According to the 3 and 4 said tool set has a first pressure piece 10, in this case plate-shaped, a first support sleeve 11, a second pressure piece 12, in this case plate-shaped, a connecting rod 13 and a linear drive 14. Said linear drive 14 is preferably designed as a hydraulically or pneumatically actuated piston-cylinder unit, but can also be designed as an electromechanical linear drive 14, for example.

the 3 and 4 show the tool set for dismantling the rubber-metal bearing 2 in assembly and thus in the functional position. In this case, the first pressure piece 10 is supported at one end of the mounted rubber-metal bearing 2 axially on the same. At the other end of the rubber-metal bearing 2 or in the region of the end of the rubber-metal bearing 2 that is axially opposite to the first pressure piece 10 , a first support sleeve 11 of the tool set is supported axially on the bearing mount 3 at one end. Furthermore, a second pressure piece 12 of the tool set is provided, which is supported axially on the other end of the support sleeve 11 on the same.

The first pressure piece 10, the rubber-metal bearing 2, the first support sleeve 11, the second pressure piece 12 and the linear drive 14 are axially penetrated by said connecting rod 13 through corresponding through bores 15 thereof. The connecting rod 13 is designed as a threaded rod at least in the region of its ends and is connected at one end to the first pressure piece 10 and at the other end to a housing 16 of the linear drive 14 in an axially fixed but detachable manner. To do this, as in the 4 and 5 shown within the through hole 15 of the first pressure piece 10, an interchangeable thread insert 17 may be provided. The interchangeable thread insert 17 has an external thread which is connected to an internal thread of said through hole 15 of the ers Ten pressure piece 10 is engaged and via an internal thread which is in engagement with the associated external thread of the connecting rod 13 . The interchangeable thread insert 17 enables a quick replacement if the internal thread is worn out.

Irrespective of this, said interchangeable thread insert 17 can be dispensed with in practice for the sake of simplicity, in which case the internal thread corresponding to the external thread of the connecting rod 13 is provided by a through bore 15 designed as a threaded bore (not shown in the drawing).

The axially fixed but detachable connection between the housing 16 of the linear drive 14 and the other end of the connecting rod 13 designed as a threaded rod is effected in the present case by a screw nut 18, which is screwed onto the end of the connecting rod 13 until it is flush with the housing 16 of the linear drive 14 applied.

During disassembly of the rubber-metal bearing 2, the linear drive 14 acts axially on the second pressure piece 12 and on the free end of the connecting rod 13 protruding beyond the second pressure piece 12 in such a way that an axial force (direction arrow 19) is exerted on the first pressure piece 10 mounted rubber-metal bearing 2 is applied and the same is transferred axially from the bearing seat 3 into the first support sleeve 11 ( 4 ). The first support sleeve 11, which is supported on the bearing mount 3, and the adjoining second pressure piece 12 accordingly act as an abutment for the linear drive 14. The first pressure piece 10 is preferably made of metal, in particular cast metal or an appropriately dimensioned sheet metal, so that the Linear drive 14 provided axial force 19 from the first pressure piece 10 can be applied to the rubber-metal bearing 2 without deformation thereof.

According to the 4 until 6 the first pressure piece 10 has an outer diameter corresponding to the inner diameter of the hollow-cylindrical bearing mount 3 such that a relative movement between the first pressure piece 10 and the bearing mount 3 is enabled in the axial direction and prevented in the radial direction, or at least minimized. In order to counteract the initially described disadvantageous circumstance of jamming of the first pressure piece 10 and/or the rubber-metal bearing 2 during said axial movement, the first pressure piece 10 also has a free cut 20 which is arranged in such a way that it faces the radially aligned through-opening 9 of the hollow-cylindrical bearing mount 3 and during disassembly of the rubber-metal bearing 2 as a result of axial relative movement between the bearing mount 3 and the first thrust piece 10 the through-opening 9 of the cylindrical bearing mount 3 passes.

This measure advantageously effectively prevents jamming of the first pressure piece 10 and/or the rubber-metal bearing 2 with a defined axial guidance of the first pressure piece 10 within the hollow-cylindrical bearing mount 3, since there is no longer any axial force in the area of the radial through-opening 9 of the bearing mount 3 is applied directly to the material of the rubber-metal bearing 2 arranged in this area by the first pressure piece 10 . The material of the rubber-metal bearing 2 arranged in the area of the cutout 20 of the first pressure piece 10 can, as already mentioned above, give way axially if necessary and no longer primarily tries to penetrate radially into the through-opening 9 of the bearing mount 3 by relaxing. The dismantling of the rubber-metal bearing 2 is thus advantageously facilitated. Additional complex measures, such as are required according to the prior art, in order to press material of the rubber-metal bearing 2 out of the through-opening 9, are not necessary.

Said cut-out 20 is expediently designed in the shape of a segment of a circle and delimited by an imaginary arc 21 and a chord 22 (cf. esp. 6 ). If the first pressure piece 10 is produced using a known casting process or sheet metal stamping process, such a cut-out 20 can be produced easily and inexpensively. Advantageously, the chord 22 has a longitudinal extent that is greater than or equal to the rectified extent of the through-opening 9 of the bearing mount 3 . As a result, the material of the rubber-metal bearing 2 that is arranged in the area of the cutout 20 of the first pressure piece 10 is distorted and the material of the rubber-metal bearing 2 is prevented from deflecting radially into the through-opening 9 of the bearing seat 3 even more effectively.

In order to also allow assembly of a rubber-metal bearing 2 in a hollow-cylindrical bearing mount 3 with said tool set, the tool set according to 7 until 11 furthermore, a counter-retaining element 23 which can be exchanged with the first pressure piece 10 and acts as an abutment during assembly. 7 , 8th ).

The counter-retaining element 23 is presently designed as an abutment plate, which is formed in one piece by a plate section 23a, which is axially supported on the bearing mount 3, and a plate section 23a the structure of the bearing seat 3 is also formed radially overhanging cantilever portion 23b. Said plate section 23a has an annular or partially annular extension 24, which is axially aligned in the direction of the bearing mount 3, in order to fix the counter-retaining element 23 radially on the bearing mount 3 by positive locking. Also arranged in plate section 23a is an interchangeable thread insert 17 of the type already described above, which is firmly but detachably connected to connecting rod 14 as a function of the tool set for mounting a rubber-metal bearing 2 in a hollow-cylindrical bearing mount 3 .

An axially aligned guide plate 25 is fastened to the free end of said collar section 23b of counter-holding element 23, from which an insert piece 26 extends radially towards bearing mount 3, which in the assembly function of the tool set is inserted into through-opening 9 of bearing mount 3, preferably up to the cylindrical section of the bearing mount 3 extends into it and, as it were, closes the passage opening 9 during assembly. This prevents the material of the rubber-metal bearing 2 from penetrating radially while it is being pressed into the bearing mount 3 . The end face of the insert piece 26 pointing towards the rubber-metal bearing 2 preferably has a contour adapted to the inner lateral surface of the hollow-cylindrical bearing mount 3 (not shown in the drawing).

Due to the radially overhanging cantilever section 23b, the counter-retaining element 23 can be used for structural parts 1, in this case subframes, which have different geometric designs and have said bearing mounts 3. The applicant uses subframes made of steel as well as light metal, in particular aluminum, which in turn have largely identical bearing mounts 3 for accommodating said rubber-metal bearing 2, but otherwise have different geometric dimensions. The tool set according to the invention can therefore be used more flexibly and is therefore not limited to a single selected structural part 1 of the type described above.

In order to do even more justice to this flexibility, the guide plate 25 and the insert piece 26 are firmly but detachably fastened to the counter-retaining element 23 and the guide plate 25 by means of mechanical fastening elements 27 known per se, such as screws. It is thus possible to keep a plurality of differently dimensioned guide plates 25 and inserts 26 in the tool set and to select from them depending on the structural part 1 or subframe used. Moreover, according to 11 A slot 28 is provided in the guide plate 25 to fasten the guide plate 25 to the counter-holding element 23, through which a mechanical fastening element 27 in the form of a screw passes and which enables the insert piece 26 to be precisely aligned with the through-opening 9 of the bearing mount 3 viewed in the axial direction of the same (esp . 11 ).

In contrast, however, it can also prove to be expedient to form the guide plate 25 and insert piece 26 in one piece, which advantageously minimizes the number of components of the tool set for assembling the rubber-metal bearing 2 (not shown in the drawing).

Like the one in particular 7 , 8th and 9 It can also be seen that the cantilever section 23b of the counter-retaining element 23 designed as an abutment plate has a curved contour, in this case a contour that is cranked towards the through-opening 9 as seen in the axial direction of the bearing receptacle 3, which serves to stiffen the cantilever section 23b on the one hand and on the other hand in constricted areas Space conditions, especially during maintenance work and the subframe installed in the vehicle, facilitate the arrangement of the counter-retaining element 23 on the bearing mount 3 during the preparation for assembly and the fitting of the counter-retaining element 23 with the guide plate 25 and the insert piece 26 . Furthermore, the length of the guide plate 25 can advantageously be minimized by this measure.

According to the 7 and 8th the tool set for mounting the rubber-metal bearing 2 in the hollow-cylindrical bearing mount 3 also includes a second support sleeve 29, which can be exchanged with the first support sleeve 11 provided for disassembly, and has at least a partially funnel-shaped inner contour 30, which extends at the other end of the bearing mount 3, i.e. on the counter-retaining element 23 opposite end of the bearing seat 3 is supported axially. The inner contour 30 of the second support sleeve 29 is funnel-shaped towards the bearing mount 3 ( 8th ). By avoiding damage to the rubber-metal bearing 2 on any sharp edges of the second support sleeve 29, this allows the same to be fitted easily with the rubber-metal bearing 2 by means of a separate press-in device that is known per se and is therefore not shown in detail. As in 2 shown, the two bearing halves 2a, 2b are first assembled by means of the screw 4 to form the said rubber-metal bearing 2 and then pressed axially in one step by means of the said pressing-in device, starting from the large inner diameter of the second support sleeve 29 and into the area of the smaller inner diameter. the end 8th is very the second support sleeve 29 equipped with the rubber-metal bearing 2 is clearly visible.

Also arranged between the linear drive 14 and the second support sleeve 29 is a pressure sleeve 31 which can be pressurized axially by the linear drive 14 and which, when in operation, is supported axially on the rubber-metal bearing 2 and by means of which the rubber-metal bearing 2 extends axially out of the support sleeve 29 and can be transferred into the bearing receptacle 3 in that the pressure sleeve 31, pushing the rubber-metal bearing 2 in front of it, penetrates axially into the second support sleeve 29. In the present case, the pressure sleeve 31 is cup-shaped, with its bottom 32 replacing the second pressure piece 12 provided for dismantling the rubber-metal bearing 2 .

On the other hand, it may also be advisable and is also covered by the invention to provide, instead of a cup-shaped pressure sleeve 31, a pressure sleeve 31 open on both sides axially, to which the second pressure piece 12 originally intended for dismantling the rubber-metal bearing 2 is assigned, on which in turn the linear drive 14 engages axially (not shown in the drawing).

In operation, the linear drive 14 for mounting the rubber-metal bearing 2 in the bearing mount 3 acts axially on the pressure sleeve 31 and on the free end of the connecting rod 13 protruding beyond the pressure sleeve 31 such that an axial force (direction arrow 33 ) is applied to the rubber-metal bearing 2 arranged in the second support sleeve 29 and the same is transferred axially out of the second support sleeve 29 and into the bearing mount 3 (cf. esp. 8th ). The counter-holding element 23 acts as an abutment for the linear drive 14.

Reference List

1

structural part

2

rubber-metal bearing

2a

bearing half

2 B

bearing half

3

stock pick-up

4

screw

5

metal core

6

through hole (metal core 5)

7

sheathing

8th

Opening (rubber-metal bearing 2)

8a

Recess (bearing half 2a)

8b

Recess (bearing half 2b)

9

Through hole (bearing mount 3)

10

first pressure piece

11

first support sleeve

12

second pressure piece

13

connecting rod

14

linear actuator

15

through hole

16

Housing (Linear Actuator 14)

17

interchangeable thread insert

18

nut

19

Direction arrow (axial force / disassembly)

20

free cut

21

circular arc

22

chord

23

counter-hold element

23a

plate section

23b

cantilever section

24

extension

25

guide plate

26

insert

27

fasteners

28

Long hole

29

second support sleeve

30

Inner contour (second support sleeve 29)

31

pressure sleeve

32

ground (pressure sleeve 31)

33

Direction arrow (axial force / assembly)

Claims (10)

Tool set for dismantling a rubber-metal bearing (2) mounted in a hollow-cylindrical bearing mount (3), the hollow-cylindrical bearing mount (3) having a radially aligned through-opening (9) in its lateral surface, - with one end of the mounted rubber-metal bearing - bearing (2) axially supported on the same first thrust piece (10), - with a first support sleeve (11) axially supported in the region of the axially opposite end of the rubber-metal bearing (2) at one end on the bearing mount (3), - with a second supporting sleeve (11) at the other end of the first supporting sleeve (11) and supporting it axially Pressure piece (12), - with a first pressure piece (10), rubber-metal bearing (2), first support sleeve (11) and second pressure piece (12) axially penetrating connecting rod (13), which has one end connected to the first pressure piece (10) is firmly but detachably connected, and - with a linear drive (14), which acts axially on the second pressure piece (12) and on a free end of the connecting rod (13) that protrudes beyond the second pressure piece (12) in such a way that via the first pressure piece (10) an axial force (19) can be applied to the mounted rubber-metal bearing (2) and the same can be transferred axially out of the bearing seat (3) into the first support sleeve (11), characterized in that - the first Pressure piece (10) has an outer diameter corresponding to the inner diameter of the hollow-cylindrical bearing mount (3) in such a way that relative movement between the first pressure piece (10) and the bearing mount (3) is enabled in the axial direction and prevented in the radial direction, e.g is at least minimized, and also has a free cut (20), which is arranged in such a way that it points to the radially aligned through-opening (9) of the hollow-cylindrical bearing mount (3) and as a result of the relative axial movement between the bearing mount (3) and the first pressure piece (10) the passage opening (9) happens. tool set after claim 1 , characterized in that said cut-out (20) is formed in the shape of a segment of a circle and is delimited by an imaginary arc of a circle (21) and a chord (22). tool set after claim 2 , characterized in that the chord (22) has a longitudinal extent which is greater than or equal to the rectified extent of the through-opening (9) of the bearing mount (3). Tool kit after one Claims 1 until 3 , characterized in that the tool set also has, for the assembly of a rubber-metal bearing (2) in a hollow-cylindrical bearing mount (3), an interchangeable with the first pressure piece (10) and functioning as an abutment during assembly, at one end of the bearing mount (3) on the same axially supporting counter-retaining element (23). tool set after claim 4 , characterized in that the counter-retaining element (23) is designed as an abutment plate, which is formed in one piece by a plate section (23a) that is supported axially on the bearing mount (3) and a cantilever section (23b) that projects radially beyond the structure of the bearing mount (3). is. tool set after claim 5 , characterized in that an axially aligned guide plate (25) is fastened or can be fastened to the free end of the cantilever section (23b) of the counter-holding element (23), from which an insert piece (26) extends radially towards the bearing mount (3) and which has an assembly function of the tool set extends into the through-opening (9) of the bearing mount (3). tool set after claim 6 , characterized in that the guide plate (25) and the insert (26) are formed in one piece. Tool set according to one of Claims 5 until 7 , characterized in that the collar portion (23b) has a curved contour. Tool set according to one of Claims 4 until 8th , characterized in that the tool set for mounting the rubber-metal bearing (2) in the hollow-cylindrical bearing mount (3) also has a second support sleeve that can be exchanged with the first support sleeve (11) and that can be equipped with the rubber-metal bearing (2) in advance (29) with at least partially a funnel-shaped inner contour (30), which is supported on the other end of the bearing mount (3) on the same, wherein between the linear drive (14) and the second support sleeve (29) is a pressure sleeve (31 ) is arranged, which in function is supported axially on the rubber-metal bearing (2) and by means of which the rubber-metal bearing (2) can be transferred axially out of the support sleeve (29) and into the bearing mount (3). tool set after claim 1 and 4 , characterized in that at least the plate section (23a) of the counter-retaining element (23) has an interchangeable thread insert (17) for the fixed but detachable connection of the same to the connecting rod (13).

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