DE102014226786B4 - Bore clamping device with axially and/or radially displaceable clamping housing and associated system - Google Patents

Abstract

Bore clamping device (10), with a clamping housing (12), with a clamping bolt (18) provided on the clamping housing (12) for engaging in a bore of a component to be clamped, the clamping bolt (18) comprising at least one gripping section (20) such that when the clamping bolt (18) is inserted into the bore, the component can be held in the bore by clamping the gripping section (20), the clamping housing (12) being displaceably arranged in a receptacle (14) of a base housing (16) and the fixing means (48 ) are provided for fixing the clamping housing (12) in the basic housing (16), characterized in that the fixing means comprise a clamping sleeve (48) delimiting a pressure chamber (50) or a clamping ring, in which the clamping housing (12) is axially and/or or radially displaceable, and in order to fix the clamping housing (12), the pressure chamber (50) can be acted upon by a fluid, the pressure chamber (50) on the one hand being surrounded by the clamping sleeve (48) or the clamping ring and the like nd the other hand is bounded by the base housing (16).

Description

The invention relates to a bore clamping device, with a clamping housing, with a clamping bolt provided on the clamping housing for engaging in a bore of a component to be clamped, the clamping bolt comprising at least one gripping section and in particular also a control section movable relative to the gripping section such that when the Clamping bolts, the component can be held in the bore by clamping the gripping section.

The invention also relates to a clamping system comprising several such clamping devices. Furthermore, the invention relates to an associated method for clamping a component.

The bore clamping devices mentioned at the outset are generally used to securely clamp larger components, such as engine blocks, during machining. The clamping bolts engage in bores provided on the component and are clamped or wedged there. Especially when larger components have to be clamped and when several drilling jigs are used at the same time, geometric overdetermination can occur. The geometric overdetermination can occur in the axial direction as well as in the radial direction. If geometric deviations that occur are not compensated for by the drilling clamping devices, this can lead to unwanted stresses in the component, which ultimately affect high-precision machining or even make it impossible.
Such a drill jig is out U.S. 2009/0267281 A1 previously known. It serves in particular to compensate for radial overdetermination. A manually activated fixation system is used to fix the drill jig in a displaced position.
Beyond that is off DE 20 2013 007 465 U1 a clamping system is known, which allows an axial displaceability thereof. Here, the axially shifted position is fixed by means of a deformable base housing. The force required for deformation is generated by fluid pressure.

In the DE 10 2010 005 886 A1 a clamping device with height compensation is provided, with a plastic jacket, which is operatively connected to a hydraulic connection on one side, radially compressing a clamping bush 18 .

The object of the present invention is to provide bore clamping devices of the type mentioned at the outset, which can be displaced in order to eliminate the disadvantage of geometric overdetermination.

The object is achieved by a bore clamping device having the features of claim 1. The bore clamping device is consequently characterized in particular by the fact that the clamping housing is arranged in an axially displaceable manner in a receptacle in the basic housing, and that fixing means are provided for fixing the clamping housing in the basic housing.

This ensures that the clamping bolt is first securely fastened to the component to be clamped by clamping. In order to compensate for a possible axial inaccuracy, the clamping housing is fixed in the main housing in a next step. Overall, any dimensional deviations that occur in the axial direction can be compensated for as a result. Even larger components can be clamped with several bore clamping devices without stresses occurring in the component due to the clamping of the component.

According to the invention, the fixing means comprise a clamping sleeve or a clamping ring delimiting a pressure chamber, in which the clamping housing can be displaced axially, with the pressure chamber being able to be acted upon by a fluid in order to fix the clamping housing. The inner surface of the receptacle is preferably formed by the clamping sleeve or the clamping ring and the clamping sleeve or the clamping ring extends at least largely, and preferably completely, over the height of the inner surface of the receptacle. Due to the fact that the clamping housing can be moved axially in the holder, any differences in height that occur can be compensated for.

It is conceivable that the fixing means are formed by clamping tappets which reach through the inner surface of the receptacle in the axial direction and which can be acted upon in the radial direction against the clamping housing in order to fix the clamping housing. By providing such clamping tappets, dimensional deviations in the axial and radial directions can be compensated. The clamping rams can, for example, be acted upon in the radial direction via a common pressure chamber into which the ends of the clamping rams facing away from the inside of the receptacle project.

Furthermore, it is advantageous if a weight compensation means, in particular in the form of a spring element, is provided between the base of the receptacle and the clamping housing. This ensures that the clamping housing does not rest on the bottom of the receptacle in a neutral starting position, insofar as this is clamping The housing is flexibly mounted in the basic housing so that it can move axially up and down.

A cylinder space can be provided in the clamping housing, with a clamping piston being arranged in a displaceably mounted manner in the cylinder space. The tensioning piston preferably delimits a pressure chamber. The control section is preferably provided on a rod which is coupled in movement to the control piston. The movement coupling can be direct or indirect.

It is also advantageous if the control section has a cone head which interacts with the gripping section and has at least one conical surface such that when the control section is displaced axially, the gripping section is displaced in the radial direction via the at least one conical surface. In this respect, a type of gearing is provided which converts the axial movement of the control section via the conical surface into a radial movement of the gripping section.

In order to shift the component during clamping towards the clamping housing, and in particular against a defined contact section of the clamping housing, it is advantageous if the at least one gripping section bears in the axial direction on a sleeve provided in the clamping housing, the sleeve surrounding the control rod at least in sections and at least is conditionally movable in the axial direction. When the tensioning piston is drawn into the tensioning housing, the at least one gripping section, together with the sleeve, can be drawn into the tensioning housing at least to a limited extent. An end stop is preferably provided on the sleeve, which limits the axial mobility with respect to the clamping housing.

The object mentioned at the outset is also achieved by a clamping system which has a plurality of bore clamping devices provided on a base body, such as a base plate or a clamping table, with at least one of the bore clamping devices being designed according to the invention. It is conceivable that, for example, three or four bore clamping devices are used, with at least one of these bore clamping devices having a clamping housing that can be displaced and fixed in the main housing in the axial direction. As a result, any geometric overdeterminations that occur in the axial direction can be compensated for. As a result, a component can be clamped largely without internal stresses occurring as a result of the clamping.

• - Einführen der Spannbolzen der Bohrungsspannvorrichtungen in die Bohrungen des zu spannenden Bauteils;
• - Verklemmen der Spannbolzen in den Bohrungen, wobei die Spanngehäuse der erfindungsgemäßen Bohrungsspannvorrichtungen zum Höhenausgleich axial verlagerbar sind; und
• - Festsetzen der Spanngehäuse der erfindungsgemäßen Bohrungsspannvorrichtungen in den zugehörigen Grundgehäusen.

The object mentioned at the outset is also achieved by a method for clamping a component using a clamping system, the clamping system having a plurality of bore clamping devices and at least one bore clamping device. The procedure is characterized by the following steps:

• - Inserting the clamping bolts of the bore clamping devices into the bores of the component to be clamped;
• - Jamming of the clamping bolts in the bores, the clamping housings of the bore clamping devices according to the invention being axially displaceable for height compensation; and
• - Fixing the clamping housing of the bore clamping devices according to the invention in the associated basic housing.

In this way it can be ensured that the components can be securely clamped as far as possible without any stresses occurring in the component, which can occur as a result of the component being clamped.

Further details and advantageous configurations of the invention can be found in the following description, on the basis of which an exemplary embodiment of the invention is described and explained in more detail.

• 1 eine erfindungsgemäße Bohrspannungsvorrichtung in Explosionsdarstellung;
• 2 die Bohrspannungsvorrichtung gemäß 1 ohne Grundgehäuse; und
• 3 einen Längsschnitt durch die Bohrungsspannvorrichtung gemäß 1 in montiertem Zustand.

Show it:

• 1 an exploded view of a drilling clamping device according to the invention;
• 2 the drilling tension device according to 1 without basic housing; and
• 3 according to a longitudinal section through the bore clamping device 1 in mounted condition.

In the 1 and 3 Drill clamping device 10 shown comprises a clamping housing 12, which in the mounted state in a receptacle 14 of a base housing 16, as in FIG 3 shown is housed.

The clamping housing 12 has a clamping bolt 18 which can be inserted into a bore of a component that is not shown and is to be clamped. The clamping bolt 18 comprises three gripping sections 20 and a control section 22 that can be moved in the axial direction.

How out 3 becomes clear, the control section 22 is provided at the free end of a control rod 24 . Furthermore, the control section 22 is formed by a cone head 26 which has a total of three conical surfaces 28 . The conical surfaces 28 interact with counter-surfaces 30 on the gripping section side in such a way that with an axial displacement of the control section 22 or the control rod 24, the gripping sections 20 are moved in the radial direction for clamping or releasing the component.

How also from 3 As becomes clear, a cylinder space 32 is provided within the clamping housing 12, in which a clamping piston 34 is arranged so that it can be displaced in the axial direction, ie along the central longitudinal axis 36.

The tensioning piston 34 delimits two pressure chambers 38, 40 which can be pressurized alternately in order to displace the tensioning piston 34. Instead of a pressure chamber 38, 40, it is also conceivable for a corresponding spring element, for example a helical spring, to be used in order to prestress the piston 34 in one direction of movement.

In the central area, the piston 34 has a recess 42 for receiving the control rod 24 . The control rod 24 is coupled for movement to the piston 34 .

How also from 3 As is clear, the gripping sections 20 bear against a sleeve 44 provided in the clamping housing 12 on their side facing away from the free end of the control section 22 . The sleeve 44 is conditionally displaceable in the axial direction. Due to the provision of the sleeve 44, the component to be clamped is moved towards the clamping housing 12 together with the gripping sections 20 when the clamping piston 34 is retracted, until the component to be clamped comes to rest on a defined contact section 46 provided on the upper side of the clamping housing 12. As a result, the component to be clamped can be clamped in the exact position.

In the mounted state, a clamping sleeve 48 is provided in the receptacle 14, with the clamping housing 12 being displaceable in the axial direction in the receptacle 14 or in the clamping sleeve 48. Consequently, the inner surface of the recess 14 is formed by the clamping sleeve 48 in the assembled state.

In particular, when the component to be clamped is clamped with more than three drill clamping devices 10, the axial mobility of the clamping housing 12 in the clamping sleeve 48 can result in axial height compensation.

To fix the clamping housing 12 in place, a fluid, in particular compressed air or hydraulic oil, can be applied to a pressure chamber 50 bounded by the clamping sleeve 48 . The clamping sleeve 48 is designed to be elastically flexible radially inwards.

At the bottom of the recording 14 is how out 3 As can be seen, a spring element 52 is provided which serves as a counterbalancing means and keeps the clamping housing 12 spaced from the inner surface of the bottom of the receptacle 14 in the neutral state. As a result, during the clamping process, the clamping housing 12 can dip into the receptacle in the axial direction before it is fixed with the clamping sleeve 48 by pressurizing the pressure chamber 50 .

To secure the clamping housing 12 in the receptacle 14 from being lost, a locking ring 54 is provided, which can be fastened to the basic housing 16 by means of fastening screws 56 .

In order to clamp the component, the clamping bolt 18 is first inserted into the bore of the component to be clamped. In a next step, the clamping bolt is clamped in the bore by corresponding actuation of the clamping piston 34 . In a last step, the tensioning housing 12 is fixed in the base housing 16 .

Overall, an axial height adjustment can take place as a result. In other embodiments, not shown in the figures, it is conceivable that radial compensation can also be provided in addition to height compensation. This makes it possible for the clamping housing 12 to be fixed eccentrically in the receptacle 14 .

Claims (6)

Bore clamping device (10), with a clamping housing (12), with a clamping bolt (18) provided on the clamping housing (12) for engaging in a bore of a component to be clamped, the clamping bolt (18) comprising at least one gripping section (20) such that when the clamping bolt (18) is inserted into the bore, the component can be held in the bore by clamping the gripping section (20), the clamping housing (12) being displaceably arranged in a receptacle (14) of a base housing (16) and the fixing means (48 ) are provided for fixing the clamping housing (12) in the basic housing (16), characterized in that the fixing means comprise a clamping sleeve (48) delimiting a pressure chamber (50) or a clamping ring, in which the clamping housing (12) is axially and/or or radially displaceable, and in which the pressure chamber (50) can be acted upon by a fluid in order to fix the clamping housing (12), the pressure chamber (50) on the one hand being supported by the clamping sleeve (48) or the clamping ring and on the other hand is bounded by the base housing (16). Bore clamping device (10) according to claim 1 , characterized in that between the bottom of the receptacle (14) and the clamping housing (12) a weight balancing means (52) is provided. Bore clamping device (10) according to one of the preceding claims, characterized in that a cylinder space (32) is provided in the clamping housing (12) and that a clamping piston (34) is arranged in a lockable manner in the cylinder space (32), with one opposite to the gripping section (20 ) movable control section (22) is provided on a control rod (24) which is coupled to the tensioning piston (34) for movement. Bore clamping device (10) according to claim 3 , characterized in that the control section (22) has a cone head (26) which interacts with the gripping section (20) and has at least one conical surface (28) in such a way that when the control section (22) is displaced axially, the gripping section (20) over the at least a conical surface (28) is displaced in the radial direction. Bore clamping device (10) according to claim 3 or 4 , characterized in that the at least one gripping section (20) bears against a sleeve (44) provided in the clamping housing (12) in the axial direction, the sleeve (44) surrounding the control rod (24) at least in sections in such a way that when the component is clamped the clamping bolt (18) is pulled into the clamping housing (12). Clamping system comprising a plurality of bore clamping devices provided on a base body, at least one of the bore clamping device (10) being designed according to one of the preceding claims.

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