阅读说明：本技术 用于紧固在安装轨道处的紧固件 (Fastening element for fastening to a mounting rail ) 是由 T.费尔默 于 2018-07-02 设计创作，主要内容包括：本发明涉及一种用于紧固在安装轨道(2)处的紧固件(1),该紧固件具有T形头螺钉(5),所述T形头螺钉围绕其轴线(10)能够摆动地容纳在U形的支架(6)中。本发明提出,在支架(6)中设置两个彼此交叉的、倾斜的且弹性的悬臂(22),所述悬臂抵靠形成压力件(13)的孔板(7)加载螺钉头(8),所述孔板布置在螺钉轴(11)上。悬臂(22)具有头部(23),所述头部将T形头螺钉(5)的螺钉头(8)的摆动角度限制为约90°,使得螺钉头(8)能够横向设置在安装轨道(2)中。(The invention relates to a fastening element (1) for fastening to a mounting rail (2), comprising a T-head screw (5) which is received in a U-shaped bracket (6) so as to be pivotable about its axis (10). According to the invention, two oblique and elastic cantilevers (22) are arranged in the holder (6) and are arranged so as to cross each other, and the cantilevers load the screw heads (8) against a perforated plate (7) forming the pressure element (13), which is arranged on the screw shaft (11). The cantilever (22) has a head (23) which limits the pivoting angle of the screw head (8) of the T-head screw (5) to approximately 90 DEG, so that the screw head (8) can be arranged laterally in the mounting rail (2).)

1. Fastener for fastening at a mounting rail, having an axis (10), a pressure piece (13) having an axial through-hole (14) and an abutment face (15) in a radial plane of the axis (10), which is provided for abutment externally at a mounting rail (2), a seat (9) provided in a mounting rail (2) for abutment from the inside, the seat being longer than its width, the seat having a thread (12) extending in the axial direction, the thread having a thread outer diameter which is not greater than the diameter of the through-hole (14) of the pressure piece (13), wherein the seat (9) is narrower than the pressure piece (13) in a radial direction relative to the axis (10) of the fastener (1) and can be swiveled relative to the pressure piece (13) about the axis (10) of the fastener (1), and wherein the support (9) is axially movable relative to the pressure piece (13), the carrier being arranged at the pressure piece (13), the clear width of the carrier being at least equal to the length of the support (9), the carrier surrounding the support (9), and the carrier being no wider than the support (9) in a radial direction relative to the axis (10) of the fastening element (1), characterized in that two elastic cantilevers (22) are arranged in the carrier (6) on the side of the support (9) facing away from the pressure piece (13), which cantilevers extend obliquely to the axis (10) of the fastening element (1) and cross one another, viewed perpendicularly to the axial plane of the fastening element (1), the ends of which cantilevers remote from the support (9) being fixed at the carrier (6) and the free ends of which cantilevers elastically load the support in the direction of the pressure piece (13) A seat (9).

2. Fastener according to claim 1, characterized in that the cantilever (22) limits the angle of oscillation of the abutment (9) about the axis (10) of the fastener (1) such that the abutment (9) is inclined or transverse to the bracket (6) as seen in the axial direction of the fastener (1).

3. Fastener according to claim 1, characterized in that the cantilever (22) limits the angle of oscillation of the abutment (9) to 90 ° so that the abutment (9) is transverse to the bracket (6) as seen in the axial direction of the fastener (1).

4. A fastener according to any one of claims 1 to 3, characterized in that the bracket (6) limits the angle of oscillation of the abutment (9) in one direction such that the bracket (6) and the abutment (9) are parallel, viewed in the axial direction of the fastener (1).

5. Fastener according to any one of the preceding claims, characterized in that the abutment (9) is a nut coaxial with the fastener (1) or a screw head (8) of a T-head screw (5), the screw shaft (11) of which passes through the through-hole (14) of the pressure element (13).

6. Fastener according to any one of the preceding claims, characterized in that the bracket (6) is U-shaped or C-shaped.

7. Fastener according to any one of the preceding claims, characterized in that the pressure element (13) is a perforated plate (7).

8. Fastener according to any one of the preceding claims, characterized in that a stop (20) is arranged at the bracket (6).

9. Fastener according to claim 8, characterized in that two stops (20) are arranged at the bracket (6) symmetrically with respect to the axis (10).

10. Fastener according to any one of the preceding claims, characterized in that the cantilevers (22) are arranged symmetrically with respect to the axis (10) at the bracket (6).

Technical Field

The invention relates to a fastening element for fastening to a mounting rail having the features of the preamble of claim 1.

Background

The mounting rail is typically a profile made of steel with a rectangular cross section, which is fastened at the wall or ceiling and is used for fastening, for example, cable clamps or pipe clamps, cable brackets, etc. The mounting rail usually has longitudinal slots running through in the longitudinal direction in the longitudinal sides and/or oblong holes in preferably several longitudinal sides. The screw head of the T-head screw can be introduced into the mounting rail via the longitudinal slot or the elongated hole, when the screw head thereof is oriented in the longitudinal direction of the longitudinal slot or the elongated hole. The screw shaft, with which the screw head can be arranged transversely in the mounting rail, protrudes from the mounting rail through the longitudinal slot or the elongated hole, so that it engages the mounting rail internally at the side of the longitudinal slot or at the rear side at the longitudinal side of the elongated hole. By screwing and tightening the nut from the outside onto the bolt shaft, the T-head bolt can be fixed at the mounting rail and fasten an object at the bolt shaft projecting outwards from the mounting rail. Such a T-head screw can be understood in general as a fastener for fastening at a mounting rail in the sense of the invention, wherein the invention is not limited to T-head screws.

A fastening element for a cubic frame is known from international patent application WO2016/200963 a1, which fastening element consists of a C-shaped steel profile. The fastener is used for connecting the steel section. It has a screw, a rectangular nut and a housing with a square envelope surface and a rectangular flange with a central opening at the end face. Two diametrically opposed corners of the rectangular nut are chamfered. The screw is screwed through a central hole of a flange of the housing into a rectangular nut which is received in the housing. It can be arranged laterally in the housing by turning the screw such that it projects from the housing at the opposite side and is axially movable in the housing such that it can be moved together with the screw in the direction towards the flange.

For fastening to the C-shaped steel profile, the fastening element is inserted through the rectangular opening into the steel profile, so that the flange of the housing rests on the outside on the steel profile. By turning the screw, a rectangular nut is laterally arranged in the steel profile and tightened with the screw from the inside against the steel profile. A transverse rectangular nut in the steel profile engages the steel profile on the rear side on the inside at two opposite longitudinal edges of the rectangular hole.

Disclosure of Invention

The object of the invention is to provide an alternative fastening element of the aforementioned type.

This object is achieved according to the invention by the features of claim 1. The fastening element according to the invention with the features of claim 1 is provided for fastening at a mounting rail and for fastening an object, such as a cable clamp or pipe clamp or cable holder, at a mounting rail. The fastening element has a support which is provided for abutting from the inside against a mounting rail on the side of the slot or slot. The support has a thread for fastening, the axis of which is also referred to below as the axis of the fastener. The thread of the support can be an internal thread for screwing in, for example, a screw or a screw, and the support can in this case be a nut, in particular a rectangular nut or other nut, which is longer than its width in a radial plane relative to the axis. The thread of the abutment can also be an external thread, and the abutment can be, for example, a screw head of a screw, in particular a T-head screw, which is longer than its width in a radial plane with respect to the axis. The thread of the abutment is in this case the screw thread of a screw or a T-head screw.

The fastener according to the invention has a pressure piece with a through hole coaxial with the axis of the fastener and thus with the axis of the thread of the support. The smallest diameter or cross section of the through-hole is not smaller than the outer diameter of the thread of the abutment, so that a screw shaft of the abutment, a screw threaded into the (inner) thread of the abutment or the like can be passed through the through-hole of the pressure element. The pressure piece has an abutment surface in the radial plane of the axis and thus also in the radial plane of the through-opening, which is provided for abutment from the outside on the mounting rail. The contact surface of the pressure element need not be planar, but it is sufficient if the pressure element at some point contacts the mounting rail externally (to be precise contacts such that the axis of the thread is at right angles to the side of the mounting rail at which the fastening element is fastened or fastened). The exact perpendicularity is not mandatory and there may be angular deviations.

The abutment is longer than its width in the radial direction with respect to the axis of the fastening element, so that it can be introduced into the mounting rail through the slot or the elongated hole in alignment longitudinally with respect to the slot or the elongated hole and can be tilted or set transversely in the mounting rail by pivoting about the axis of the fastening element, so that the abutment engages the mounting rail on the inside at the side of the slot or at the longitudinal side of the elongated hole on the rear side. By "transversely arranged" is meant that the abutment is swung through 90 ° relative to the longitudinal direction of the slot or oblong hole in the mounting rail, and by "obliquely arranged" is meant that the swing is less than 90 ° or more than 90 ° but less than 180 °. The invention does not exclude other introductions and fixations than those described. The abutment is narrower in the radial direction with respect to the axis than the pressure piece, so that the abutment can be introduced into the mounting rail through the slit or the elongated hole in the described longitudinal orientation, while the pressure piece rests with its contact surface laterally next to the slit or the elongated hole on the outside at the mounting rail. The support is axially movable relative to the pressure piece and can be pivoted or rotated about the axis of the fastening element, which is at the same time the axis of the through-opening of the pressure piece. The abutment, which is arranged transversely or obliquely in the mounting rail, and the pressure element, which is located externally at the mounting rail, can be clamped together and, thus, the fastening element is clamped at the mounting rail.

The fastening element according to the invention furthermore has a carrier which is arranged at the pressure element and whose clear width is at least equal to the length of the carrier. The support is in particular U-shaped or C-shaped, but it can also be embodied or understood as a housing or casing. The support surrounds the support and has a clear width at least equal to the length of the support, so that the support is located in the support in a longitudinal orientation. By "longitudinally oriented" is meant parallel to the yoke of the bracket or in a direction from one leg of the bracket to the other. The legs of the stand are arranged so narrowly that the stand hits them when swinging, so that the legs of the stand limit the swinging of the stand. The abutment is oriented longitudinally with respect to the bracket when it abuts the leg of the bracket. The pressure element is connected to the support in a rotationally fixed manner, while the support is rotatable relative to the support about an axis.

On the side of the support facing away from the pressure piece, two elastic cantilevers are arranged in the holder, which extend obliquely to the axis of the fastening element and cross each other, viewed perpendicularly to the axial plane of the fastening element. "axial plane" herein refers to a plane that is radially flared with respect to an axis, the axis being in said plane. In particular, the two elastic cantilevers are arranged side by side, as viewed in the axial direction of the fastening element, that is to say offset relative to the axial plane. The ends of the elastic cantilevers remote from the carrier are fastened to the carrier, in particular arranged symmetrically opposite one another with respect to the axis. Preferably, the elastic cantilever is an integral part of the holder, and its end remote from the support merges into the holder. The free end of the elastic cantilever arm elastically loads the support in the direction of the pressure element. A spring cantilever can also be understood as a spring element which acts on the bearing in the direction of the pressure piece and which acts from the inside against the mounting rail when the bearing of the fastening element according to the invention has been introduced into the mounting rail through the slot or the elongated hole, as provided, and has been arranged laterally or obliquely in the mounting rail. The fastener is held against accidental displacement at the mounting rail by friction or possibly also by form-locking by means of e.g. teeth.

In a preferred embodiment of the invention, the cantilever arm limits the pivot angle of the support about the axis of the fastening element to approximately 90 °, so that the support can be oriented longitudinally with respect to the bracket, so that it can be introduced into the mounting rail through the slot or the elongated hole and is arranged transversely in the mounting rail. When the bearing is introduced into the mounting rail through the slot or the elongated hole, the bracket is also introduced into the slot or the elongated hole into the mounting rail. It is therefore necessary for the insertion into the mounting rail that the support and the bracket are aligned with respect to one another or are aligned with respect to one another by pivoting about the axis of the fastening element such that the support projects at most laterally from the bracket so far that it can be inserted into the mounting rail together with the bracket through the slot or the elongated hole. Such an orientation of the abutment with respect to the holder can also be understood as an orientation in the longitudinal direction of the holder. It is possible that the carriage swings less than 90 ° (i.e. for example 30 °, 45 ° or 60 °) or swings more than 90 ° (i.e. for example 120 °, 135 ° or 150 °) but less than 180 °, so that the carriage of the mounting rail is arranged obliquely rather than laterally.

According to one embodiment of the invention, the support limits the pivot angle of the support in the opposite direction to the pivot angle of the support relative to the pressure element, which is limited by the cantilever, in such a way that the support and the support are parallel when viewed in the axial direction of the fastening element. A limited angular offset is possible, the carrier and the abutment must lie between two imaginary, mutually parallel and axially parallel planes, the distance of which is not greater than the width of the slot or the slot of the mounting rail, so that the abutment and the carrier can be introduced into the mounting rail through the slot or the slot.

The configuration of the invention provides the orifice plate as a pressure piece.

Preferably, a stop is arranged on the support, which in particular serves as a stop for the abutment and prevents it from being able to be rotated counter to the intended direction of rotation and/or to be rotated back too much in order to release the fastening element. In addition or alternatively, the stop can be provided for the abutment of the bracket, in particular of the free end of the bracket. By the cantilever bearing against the stop, the cantilever is stabilized against bending when the support is twisted, so that it can fulfill its function even when twisted.

Preferably, two stops are arranged symmetrically about the axis at the bracket, one for each of the cantilevers.

Drawings

In the following, the invention is explained in more detail with reference to embodiments shown in the drawings. The figures show:

FIG. 1 shows a fastener according to the present invention in an exploded perspective view; and

fig. 2 to 4 show the fastener from fig. 1 in three different positions in a side view.

Detailed Description

The fastening element 1 according to the invention shown in the figures is provided for fastening at a mounting rail 2. The mounting rail 2 is a profile rail made of steel and having a rectangular cross section, which has a longitudinal slot 3 running through in the longitudinal direction and an elongated hole 4 in the side opposite the longitudinal slot 3. The mounting rail 2 is fastened, for example, to a wall or ceiling, to be precise fixed in such a way that the longitudinal slot 3 is accessible.

The fastening element 1 has a T-head screw 5, in particular made of steel or another metal, a U-shaped holder 6, in particular made of plastic, and a perforated plate 7, which can be made of steel, another metal or plastic, for example. The essentially rectangular screw head 8 with the chamfered corners of the T-head screw 5 forms a seat 9 of the fastening element 1 according to the invention, which is longer than its width, which is longer than the widths of the longitudinal slot 3 and the elongated hole 4 of the mounting rail 2, which is no wider than the widths of the longitudinal slot 3 and the elongated hole 4 of the mounting rail 2, and which is no longer than the length of the elongated hole 4 of the mounting rail 2. The axis 10 of the screw shaft 11 or of the thread 12 of the T-head screw 5 simultaneously forms the axis 10 of the fastener 1.

The orifice plate 7 forms a pressure piece 13 of the fastener 1, and its central hole forms a through hole 14 of the pressure piece 13. The outer diameter of the thread 12 of the T-head screw 5 is no greater than the diameter of the through hole 14. The face of the perforated plate 7 which forms the pressure element 13 and faces the screw head 8 forms the contact face 15 of the pressure element 13. In the assembled state of the fastening element 1, the screw shaft 11 passes through the central or through-hole 14, so that the pressure piece 13, the through-hole 14, the screw shaft 11 and the thread 12 of the T-head screw 5 are coaxial. The diameter of the pressure element 13 is greater than the length of the screw head 8 of the T-head screw 5 forming the seat 9.

Instead of the T-head screw 5, the fastening element 1 according to the invention can have a rectangular nut into which, for example, a threaded rod is screwed or screwed (not shown), which threaded rod passes through the through-opening 14 of the pressure piece 13. The rectangular nut replaces the screw head 8 of the T-head screw 5 and the screw replaces the screw shaft 11.

Viewed radially with respect to the axis 10 of the fastening element 1, the bracket 6 has the shape of a rectangular U, the U legs 16 being arranged parallel to one another and perpendicular to the contact surface 15 of the pressure piece 13, and the yoke 17 being arranged parallel to the contact surface 15 of the pressure piece 13. For fastening to the pressure piece 13, the leg 16 has a hook-shaped latching element 18, which latches or is latched into a slot 19 of the perforated plate 7 forming the pressure piece 13, so that the bracket 6 and the pressure piece 13 are connected in a rotationally fixed manner. The yoke 17 is located on the side of the T-head screw 5 facing away from the pressure piece 13, of the screw head 8 forming the seat 9 of the fastener 1 according to the invention. The clear distance between the two legs 16 of the support 6 is slightly greater than the length of the support 9, so that the support 9 is located between the legs 16 in a parallel or longitudinal orientation relative to the plane with the support 6 or in an orientation in the plane with the support 6. The bracket 6 is no wider than the abutment 9.

Along the edge perpendicular to the contact surface 15 of the pressure piece 13, the two legs 16 of the bracket 6 have a strip-like curvature which forms a stop 20 for the support 9 and/or for a stop surface 24 of a bracket 22 (explained in more detail below). Stops 20 are arranged diametrically opposite each other symmetrically about axis 10 at the edge of leg 16. It limits the angle of oscillation of the support 9 about the axis 10 in one direction. If the support 9 rests against the stop 20, it is oriented longitudinally or parallel to the plane with the holder 6 or in the plane with the holder 6.

At the contact surface 15 of the pressure element 13, the leg 16 of the bracket 6 has a triangular holding element 21. If the support 9 is between the stop 20 and the holder 21, it is held in the holder 6 without rotation.

Close to the yoke 17, the carrier 6 has elastic cantilevers 22 which are arranged side by side in the axial direction and symmetrically with respect to the axis 10 at the carrier 6 and cross one another from one side (that is to say radially with respect to the axis 10) in the axial plane. Two cantilevers 22 are located on the side of the support 9 facing away from the pressure piece 13 in the holder 6. The end of the arm 22 remote from the support 9 is fixedly connected to the support 6, and in this exemplary embodiment the elastic arm 22 is an integral part of the support 6. The cantilever 22 extends obliquely between the two legs 16 of the support 6, wherein the free end of the cantilever 22 bears against the bearing 9 and presses the bearing 9 against the contact surface 15 of the pressure piece 13. The elastic cantilever 22 can also be understood as a spring element. The cantilever 22 does not project laterally from the bracket 6, that is to say radially with respect to the axis 10 of the fastener 1 from the bracket 6.

For fastening to the mounting rail 2, the abutment 9 is located at the contact surface 15 of the pressure piece 13 and between the stop 20 and the holder 21 in the bracket 6. The support 9 is oriented longitudinally or parallel to the plane with the holder 6 or in the plane with the holder 6, so that the holder 6 does not project laterally beyond the support 9. The support 6 and the abutment 9 are introduced through the longitudinal slot 3 or the elongated hole 4 into the mounting rail 2 in a longitudinal direction relative to the longitudinal slot 3 or in a longitudinal direction relative to the elongated hole 4 of the mounting rail 2 until the contact surface 15 of the pressure piece 13 contacts the mounting rail 2 on the outside. Fig. 2 shows this position of the fastener 1 without a mounting rail. The fastening element 1 can be held in this case at the bolt shaft 11 of the T-head bolt 5. If the fastening element 1 has, instead of the T-head screw 5, a rectangular nut (not shown) with a threaded spindle screwed in, the fastening element 1 can be held at the threaded spindle.

When the contact surface 15 of the pressure piece 13 contacts the mounting rail 2 on the outside, the spring force of the abutment 9 against the spring-elastic cantilever 22 is pressed deeper into the mounting rail 2 in the axial direction (i.e. in the direction of the axis 10), so that the abutment 9 is moved away from the holder 21 (as can be seen in fig. 3) and is pivoted by 90 ° about the axis 10 of the fastening element 1 (fig. 4). In this case, a stop surface 24 at the free end of the arm 22 engages behind the stop 20, so that the arm 22 is prevented from bending or breaking. The abutment 9 is now arranged transversely to the longitudinal slot 3 or the elongated hole 4 in the mounting rail 2 and engages the mounting rail 2 on the inside at the side of the longitudinal slot 3 or on the rear side at the longitudinal edge of the elongated hole 4. The bearing 9 or the bolt shaft 11 is now released and is thereby pressed from the inside by the elastic bracket 22 against the mounting rail 2. In this way, the elastic cantilever 22 presses the bearing 9 from the inside and the pressure element 13 from the outside against the mounting rail 2, so that the fastening element 1 is held against sliding along the mounting rail 2 by friction.

At its free end, the cantilever 22 has a projecting head 23 in the direction of the support 9, against which the longitudinal side of the support 9 strikes when it swings. This is illustrated by figure 4. By means of the head 23, the cantilever 22 limits the angle of oscillation of the abutment 9 in the opposite direction, as the stop 20 is at the longitudinal edge of the leg 16 of the bracket 6. In this embodiment, the cantilever 22 limits the pivoting angle of the support 9 to about 90 ° with its head 23, so that it is arranged transversely with respect to the stand 6. In this position, the abutment 9 is arranged transversely to the longitudinal slot 3 or the elongated hole 4 in the mounting rail 2.

A nut, not shown, can be screwed onto the screw shaft 11 of the T-head screw 5, which projects outwards from the mounting rail 2, with which the pressure piece 13 is tightened from the outside and the abutment 9 from the inside against the mounting rail 2 in a fixed manner such that the fastening element 1 cannot move, even if it is loaded in the longitudinal direction of the mounting rail 2. An object, for example a cable clamp or pipe clamp or a cable holder (not shown), can be fastened to the bolt shaft 11.

List of reference numerals

1 fastener

2 mounting rail

3 longitudinal seam

4 long hole

5T-shaped head screw

6 support

7 orifice plate

8 screw head

9 support

10 axes

11 screw shaft

12 screw thread

13 pressure piece

14 through hole

15 contact surface

16 leg part

17 yoke

18 latching element

19 gap

20 stop

21 holder

22 cantilever

23 head part

24 stop surface