BE1029055B1 - BEARING PROFILE FOR A LINEAR GUIDE SYSTEM - Google Patents

Abstract

This invention relates to a carrier profile (1) for a linear guide system (2), wherein the carrier profile (1) has a top (3) and bottom side (4), a first longitudinal side (5) and an opposite second longitudinal side (6). wherein the carrier profile (1) comprises a number of groups of T-shaped grooves, the T-shaped grooves (7) of the first group being provided for receiving a guide profile (10) for a carriage (12) and extending in the top (3) and in both longitudinal sides (5, 6) of the carrier profile (1), wherein the T-shaped grooves (8) of the second group are provided for mounting the carrier profile (1) against a mounting surface of a machine and extend in the underside (4) and in both longitudinal sides (5, 6) of the carrier profile (1), and wherein the T-shaped grooves (9) of the third group are provided for receiving a rack (11) and extend into the second longitudinal side (6) of the support profile (1).

Description

SUPPORTING PROFILE FOR A LINEAR GUIDE SYSTEM The present invention relates to a supporting profile for a linear guiding system.

Linear guide systems are used in general mechanical engineering, in particular in machine tools. In general, they are constructed from linear guide rails and drive elements, in the form of, for example, a rack and pinion mechanism. The guide rails, together with adapted carriages and racks, can form a linear system that allows linear movements. If long distances have to be bridged, a number of guide rails will be perfectly seamlessly connected to each other. With such systems it is of course important that both the guide rail and the gear rack are mounted perfectly linearly on a mounting surface.

Until now, the guide rails are fixed directly to the mounting surface of a machine via screws or bolts. To this end, the guide rail comprises several mounting holes placed at a distance from each other, provided for connecting the rail to the mounting surface of, for instance, a machine by means of a screw or bolt. In practice, however, the mounting surface is never perfectly straight, which is a requirement in order to be able to mount the guide rail and the rack and pinion perfectly parallel to the mounting surface, so that they have a perfectly linear course. To this day, the mounting surface has to be pre-processed first, in particular to undergo a milling operation, which is an expensive and time-consuming process, which often causes delays.

The object of the present invention is to provide a support profile for a linear guide system which can be easily mounted on a mounting surface of a machine, and on which the components of a linear guide system can be easily and accurately mounted, and this without having to pre-assemble the mounting surface. should be edited.

The object of the invention is achieved by providing a carrier profile for a linear guide system, wherein the carrier profile has a top and bottom side, a first longitudinal side and an opposite second long side, the carrier profile comprising a number of groups of T-shaped grooves, wherein the T-shaped grooves of the first group are provided for receiving a guide profile for a carriage and extend in the top and in both longitudinal sides of the carrier profile, the T-shaped grooves of the second group being provided for mounting the carrier profile against a mounting surface of a machine and extend into the underside and in both longitudinal sides of the carrier profile, and wherein the T-shaped grooves of the third group are provided for receiving a rack and extend into the second longitudinal side of the support profile, where the third group consists of two T-shaped grooves, the first T-shaped groove being parallel ig runs with the T-shaped groove of the first group in the top, and wherein the second T-shaped groove is arranged perpendicular to the first T-shaped groove. The T-shaped grooves provided in the carrier profile are all identical and preferably extend in the longitudinal direction of the carrier profile. The T-shaped grooves are in particular grooves according to DIN

508. Due to the presence of the different T-shaped grooves over the outer surfaces of the carrier profile, the carrier profile according to the invention offers the advantage that a guide profile and gear rack can be mounted on the carrier profile at different positions. In a preferred embodiment of the carrier profile according to the invention, the T-shaped grooves of the first group are countersunk. Because the T-shaped grooves of the first group are recessed, a stop edge is formed against which the guide profile provided in the groove can be placed. This stop edge makes it possible to mount the guide profile accurately and parallel. In particular, the top, the first longitudinal side and the second longitudinal side comprise an upper surface, a first longitudinal surface and a second longitudinal surface, respectively, wherein the different T-shaped grooves of the first group are recessed with respect to the upper surface, first longitudinal surface or second longitudinal surface so that for each groove two side walls are formed which extend at right angles to the top surface, first longitudinal surface or second longitudinal surface, wherein at least one of the side walls forms a stop surface (stop edge) for a guide profile when these are accommodated in a groove of the first group. Such shaped stop surfaces ensure that the guide profile can be mounted perfectly parallel. The carrier profile according to the invention furthermore has a high straightness, preferably the carrier profile has a straightness of 0.35 mm. per meter.

The stop surface, in combination with the high straightness, will ensure that the guide profile can be mounted perfectly parallel to the support profile, so that it is no longer necessary to pre-process the mounting surface. The support profile according to the invention can be mounted on a mounting surface by means of screws or bolts.

Said guide profile forms part of a linear guide system and is designed as a rail over which a carriage is movable. The carriage can contain sliding bearings as well as balls, rollers or needles in any shape. The said gear rack also forms part of a linear guide system and should be regarded as a drive element. A gear wheel will run over the rack, which in turn is connected to a motor, whether or not in combination with a reduction gearbox. This invention also relates to a linear guide system comprising a carrier profile according to the invention, a guide profile and a rack.

The mounting against a mounting surface of a machine or installation will be done with steel T-beams that engage (fit) in a T-shaped mounting groove. These steel T-beams must cause such a lot of contact stress due to the tightening torque of the bolts with which the gear rack is attached. This is to prevent the gear rack (including the steel T-beam) from shifting relative to the support profile when the gear rack is installed vertically.

In the carrier profile according to the invention, the third group consists of two T-shaped grooves, the first T-shaped groove running parallel to the T-shaped groove of the first group in the top side, and the second T-shaped groove being perpendicular arranged relative to the first T-shaped groove. In this way, two mounting positions for a rack are realized. In a more preferred embodiment of the bearing profile according to the invention, the T-shaped grooves comprise a bottom surface, wherein the bottom surface of the T-shaped groove of the first group in the first longitudinal side is parallel to the bottom surface of the T-shaped groove in the first longitudinal side. second longitudinal side of the first group and with the bottom surface of the second T-shaped groove of the third group, and the bottom surface of the first T-shaped groove of the third group is parallel to the bottom surface of the T-shaped groove of the first group in the top of the carrier profile.

According to a special embodiment of the support profile according to the invention, the top, bottom and both longitudinal sides delimit an inner space, wherein the support profile comprises a partition wall for reinforcement, which extends between both long sides, so that two longitudinally extending chambers are formed in the inner space. The partition wall preferably connects to the longitudinal sides, and this at the height of the T-shaped groove of the first group. In a more particular embodiment of the support profile according to the invention, the support profile is an extruded profile. The support profile is extruded very accurately, preferably 50% better than the standard DIN standard EN 12020-2. The high accuracy is obtained by stretching the profile after extrusion. The stretching will be done by clamping the ends of the supporting profile with a (clamping) device provided for this purpose and then having both (clamping) devices move away from each other, so that the supporting profile is stretched.

The support profile according to the invention is preferably made of aluminium. The support profile preferably has a length of between 5 and 8 metres, in particular 7 metres.

The support profiles according to the invention can be mutually perfectly and accurately coupled. The carrier profile according to the invention has been specifically developed for use with a guide profile size 30 and standard rack and pinion module 3.

In order to further clarify the features of this invention and to indicate additional advantages and features thereof, a more detailed description of the invention now follows. It is to be understood that nothing in the following description can be interpreted as limiting the protection claimed in the claims.

In this description, reference is made to the accompanying drawings, in which: figure 1: shows a cross-section of the bearing profile according to the invention; figure 2: shows a support profile according to the invention on which a carriage and a gear rack are mounted; figure 3: in figures 3.1 to 3.5 shows a number of possible configurations of a rack and/or guide profile with carriage on the carrier profile according to the invention.

The support profile (1) according to this invention and as represented in the accompanying figures, was developed for a linear guide system (2). Such a guide system (2) is shown in Figure 2. Said guide system (2) comprises a support profile (1), a guide profile (10) over which a carriage (12) is movable and a rack (11). The carriage (12) can contain sliding bearings as well as balls, rollers or needles in any shape. The rack (11) is a rectangular bar with teeth on one side, into which a gear can mesh. The gear is connected to a motor, whether or not in combination with a reduction gearbox. A rack and pinion (11) is used when a rectilinear movement has to be converted into a rotating movement or vice versa. The supporting profile shown is specifically suitable for a rack (11) module 3 and for an articulation profile (10) size 30. The supporting profile (1) can be mounted in a simple manner, preferably by means of screws or bolts, on a mounting surface of, for example, a machine. become.

Subsequently, the guide profile and gear rack can be mounted perfectly parallel and perfectly linear on the carrier profile (1), so that, unlike the prior art, it is no longer necessary to pre-process the mounting surface.

The support profile (1) according to the invention has a rectangular cross-section and comprises: an upper side (3) with an upper surface, a lower side (4) with a lower surface, a first longitudinal side (5) with a first longitudinal surface and an opposite second longitudinal side (6). ) with a second longitudinal plane. It is a profile made of aluminum and obtained by extrusion. In practice, the support profile (1) has a length of approximately 7 metres. The carrier profile according to the invention also has a high straightness, preferably the carrier profile has a straightness of 0.35 mm. per meter.

The carrier profile (1) has a number of groups of T-shaped grooves in its outer circumference.

More specifically, there are three groups of T-shaped grooves, the T-shaped grooves (7) of the first group being provided for receiving a guide profile (10) for a carriage. The first group consists of three T-shaped grooves (7). There is a groove which extends centrally in the top side and in each case a groove which extends centrally in the two longitudinal sides (5 and 6) of the support profile (1).

As can be seen from the attached figures, the T-shaped grooves (7) of the first group are countersunk. Because the various T-shaped grooves of the first group are recessed with respect to either the top surface, the first longitudinal surface or the second longitudinal surface, two side walls (16) are formed at each groove, which are located at right angles to either the top surface, the first longitudinal surface. or second longitudinal plane. As illustrated in figure 3, these side walls can form a stop surface for a guide profile (10) when this guide profile (10) is received in a groove (7) of the first group. Such shaped stop surfaces ensure that the guide profile can be mounted perfectly parallel.

The T-shaped grooves (8) of the second group are provided for mounting the carrier profile against a mounting surface of a machine. This group consists of four T-shaped grooves. The grooves of the second group can be regarded as mounting grooves. There is one groove extending centrally in the underside (4), a groove extending in the second longitudinal side (6) and this on its end in the vicinity of the underside (4). Furthermore, the first longitudinal side (5) has two T-shaped grooves, which extend at the end of the first longitudinal side.

The T-shaped grooves (9) of the third group are provided for receiving a rack. They extend into the second longitudinal side (6) of the support profile (1). The third group consists of two T-shaped grooves (9.1 and 9.2), the first T-shaped groove (9.1) running parallel to the T-shaped groove (7) of the first group in the top (3) of the support profile (1), and wherein the second T-shaped groove (9.2) is arranged perpendicular to the first T-shaped groove (9.1). In this way, two mounting positions for a rack (11) are realized. Between said grooves (9.1; 9.2) there is a collar (17) with two (mounting) surfaces which are arranged at right angles to each other. Depending on the position of the gear rack (11), these surfaces form a stop surface for the gear rack. This is illustrated in particular in figures 3.1 and

3.5.

The T-shaped grooves provided in the carrier profile are all identical and extend in the longitudinal direction of the carrier profile.

The T-shaped grooves are in particular grooves according to DIN 508. Each T-shaped groove has a bottom surface (13). There is a partition wall (14) between the two longitudinal sides (5, 6) for reinforcement. As a result, two longitudinally extending chambers (15) are formed in the inner space of the support profile (1).

As illustrated in figure 3, a guide profile (with carriage (12)) and rack can be placed at different positions on the carrier profile.

It is also possible to choose with which side (top or bottom, or one of the longitudinal sides) the support profile (1) will be mounted against a mounting surface.

The side walls (16) at each T-shaped groove (7) of the first group, and the collar (17) with its (mounting) faces, will ensure that the guide profile (10) and the rack are perfectly parallel to each other. can be mounted.

Claims (11)

CONCLUSIONS 1. Support profile (1) for a linear guide system (2), wherein the support profile (1) has a top (3) and bottom side (4), a first longitudinal side (5) and an opposite second long side (6), which support profile (1) comprises a number of groups of T-shaped grooves, the T-shaped grooves (7) of the first group being provided for receiving a guide profile (10) for a carriage (12) and extending in the top ( 3) and in both longitudinal sides (5, 6) of the carrier profile (1), wherein the T-shaped grooves (8) of the second group are provided for mounting the carrier profile (1) against a mounting surface of a machine and extend in the underside (4) and in both longitudinal sides (5, 6) of the support profile (1), and wherein the T-shaped grooves (9) of the third group are provided for receiving a rack (11) and extending into the second longitudinal side (6) of the carrier profile (1), characterized in that the third group consists of two T-shaped grooves (9.1 and 9.2), the first T-shaped groove (9.1) being parallel to the T-shaped groove (7) of the first group in the top (3), and the second T-shaped groove (9.2) perpendicular to the first T-shaped groove (9.1). Support profile (1) according to claim 1, characterized in that the T-shaped grooves (7) of the first group are countersunk. Support profile (1) according to claim 2, characterized in that the top (3), the first longitudinal side (5) and the second longitudinal side (6) comprise an upper surface, a first longitudinal surface and a second longitudinal surface, respectively, wherein the different T-shaped grooves (7) of the first group recessed with respect to the top surface, first longitudinal surface or second longitudinal surface so that two side walls (16) are formed per groove, which extend perpendicular to the top surface, first longitudinal surface or second longitudinal surface, wherein at least one of the side walls (16) forms a stop surface for a guide profile (10) when they are received in a groove (7) of the first group. Support profile (1) according to any one of the preceding claims, characterized in that each T-shaped groove (7, 8, 9.1, 9.2) extends in the longitudinal direction of the support profile (1). Support profile (1) according to any one of the preceding claims, characterized in that the support profile (1) has a straightness of 0.35 mm. per meter. Support profile (1) according to one of the preceding claims, characterized in that the T-shaped grooves comprise a bottom surface (13), the bottom surface (13) of the T-shaped groove (7) of the first group in the the first longitudinal side (5) is parallel to the bottom surface (13) of the T-shaped groove (7) in the second longitudinal side (6) of the first group and to the bottom surface (13) of the second T-shaped groove (9.2) of the third group, and that the bottom surface (13) of the first T-shaped groove (9.1) of the third group is parallel to the bottom surface (13) of the T-shaped groove (7) of the first group in the top of the carrier profile (1). Support profile (1) as claimed in any of the foregoing claims, characterized in that the top (3), bottom (4) and both longitudinal sides (5, 6) delimit an interior space, and that the support profile (1) is reinforced with a dividing wall (14) extending between both long sides (5, 6) whereby two longitudinally extending chambers (15) are formed in the inner space. Support profile (1) according to claim 7, characterized in that the partition wall (14) adjoins the longitudinal sides (5, 6) and this at the level of the T-shaped groove (7) of the first group. Support profile (1) according to any one of the preceding claims, characterized in that the support profile (1) is an extruded profile. A support profile (1) according to any one of the preceding claims, characterized in that the support profile is made of aluminium. Support profile (1) according to any one of the preceding claims, characterized in that the support profile has a length of between 5 and 8 metres.