阅读说明：本技术 紧固组件和相应的开关柜壳体 (Fastening assembly and corresponding switchgear housing ) 是由 丹尼尔·布吕克 于 2018-02-14 设计创作，主要内容包括：本发明涉及一种紧固装置,其包括型材支柱(1)和安装在型材支柱(1)的孔(2)中的插入式螺母(3),其中,插入式螺母(3)具有螺纹螺母(5),螺纹螺母保持在卡扣(4)上,其特征在于,卡扣(4)具有第一和第二致动端部(6、7),插入式螺母(3)从孔(2)突出越过致动端部,其中,在致动端部(6、7)相对于彼此的锁定位置处,孔(2)的边缘(2.1)接收在卡扣(4)的接收部(8)中。本发明还涉及一种相应的开关柜壳体。(The invention relates to a fastening device comprising a profile strut (1) and a plug-in nut (3) which is mounted in a bore (2) of the profile strut (1), wherein the plug-in nut (3) has a threaded nut (5) which is held on a catch (4), characterized in that the catch (4) has a first and a second actuating end (6, 7) over which the plug-in nut (3) protrudes from the bore (2), wherein, in a locked position of the actuating ends (6, 7) relative to one another, an edge (2.1) of the bore (2) is received in a receptacle (8) of the catch (4). The invention also relates to a corresponding switch cabinet shell.)

1. Fastening device comprising a profile strut (1) and a plug-in nut (3) mounted in a hole (2) of the profile strut (1), wherein the plug-in nut (3) has a threaded nut (5) which is held on a catch (4), characterized in that the catch (4) has a first and a second actuating end (6, 7) via which the plug-in nut (3) protrudes from the hole (2), wherein in a locked position of the actuating ends (6, 7) relative to each other an edge (2.1) of the hole (2) is received in a receiving portion (8) of the catch (4).

2. Fastening device according to claim 1, wherein the receiving portion (8) is substantially U-shaped and formed on the first or second actuating end (6, 7).

3. Fastening device according to claim 1 or 2, wherein the receiving portion (8) is arranged between the first or second actuating end (6, 7) and the threaded nut (5).

4. Fastening device according to any of the preceding claims, wherein the catch (4) is a formed sheet metal part and the receiving portion (8) is a bent edge of a U-shaped sheet metal.

5. Fastening device according to one of the preceding claims, wherein the receptacle (8) has boundary walls (9) spaced apart from one another, a first of which is arranged in front of an inner side of the edge (2.1) of the hole (2) in the locked position and a second of which is arranged in front of an outer side of the edge (2.1) of the hole (2) opposite the inner side in the locked position.

6. The fastening device according to any one of the preceding claims, wherein at least one of the actuating ends (6, 7) has, in a portion (10) through which the actuating end (6, 7) passes through the hole (2), a dimension in the longitudinal direction of the edge (2.1) received in the receiving portion (8) which substantially corresponds to the length of the edge (2.1) in the longitudinal direction.

7. Fastening device according to any of the preceding claims, wherein in a release position of the actuating ends (6, 7) relative to each other, the edge (2.1) of the hole (2) is disengaged from the receiving portion (8) of the catch (4), in which release position the actuating ends (6, 7) are displaced relative to each other compared to the locking position.

8. fastening device according to one of the preceding claims, wherein the actuating ends (6, 7) each have a shank (11) which protrudes through the hole (2) via the outer side (12) of the profile strut (1) at a distance from one another and can be transferred from the locking position into a release position against the mechanical preload of the catch (4).

9. Fastening device according to one of claims 1 to 7, wherein the actuating ends (6, 7) are arranged overlapping in front of the profile side (13) of the profile strut (1) with the hole (2) and have aligned tool openings (14).

10. The fastening device according to claim 9, wherein the aligned tool openings (14) form a tool insertion opening (15), the tool insertion opening (15) being defined by a first boundary edge (16) of a first one of the tool openings (14) and oppositely by a second boundary edge (17) of a second one of the tool openings (14).

11. Fastening device according to claim 10, wherein at least one of the aligned tool openings (14) has a toothing of a rack and pinion drive at a third boundary edge (18) which extends in the direction of the adjustment direction between the locking position and the release position of the actuating end (6, 7).

12. Fastening device according to claim 11, wherein a fourth boundary edge (19) opposite the third boundary edge (18) is arranged at a distance from the third boundary edge (18) and forms a counter bearing for a toothed driver (20), in particular for a screwdriver with a multi-round driver.

13. Fastening device according to claim 11 or 12, wherein the other tool opening (14) of the aligned tool openings (14) is formed circular and has an inner diameter substantially corresponding to the outer diameter of a toothed driver (20), in particular a multi-round driver of a screwdriver.

14. Fastening device according to any of the preceding claims, comprising an upper part (21) and a lower part (22), which upper part (21) and lower part (22) are connected to each other at a distance from each other via a connecting section (23), wherein a first of the actuating ends (6, 7) forms a free end of the upper part (21) and a second of the actuating ends (6, 7) forms a free end of the lower part (22), and wherein at least one of the upper part (21) and the lower part (22) has a protruding contact claw (24) on its outer side.

15. A switchgear cabinet housing with a fastening device according to one of the preceding claims, wherein the profile struts (1) are profile struts (1) of a frame of the switchgear cabinet housing or internal components (26), in particular a mounting chassis, for the internal mounting of the switchgear cabinet housing.

Technical Field

The invention relates to a fastening device comprising a profile strut and a plug-in nut which is mounted in a bore of the profile strut and has a threaded nut which is held on a catch. Such a fastening device is known from DE 19937892C 1. A similar fastening device is also described in DE 19860434 a 1.

Background

Disclosure of Invention

The object of the invention is therefore to further develop a fastening device of the type mentioned above in such a way that it sits securely in the bore of the profile strut and thereby prevents the plug-in nut from being accidentally twisted in the bore.

This object is solved by a fastening device having the features of claim 1. Claim 15 relates to a corresponding switchgear cabinet housing. Advantageous embodiments are the subject of the dependent claims.

Accordingly, a fastening device of the above-mentioned type is provided such that the catch has a first and a second actuating end via which the plug-in nut projects from the hole, wherein, in the locked position of the actuating ends relative to one another, an edge of the hole is received in the receiving portion of the catch. By coupling the plug-in nut to the profile strut via the edge of the hole engaging with the receptacle of the catch, an unintentional twisting of the plug-in nut is effectively prevented. The receptacle may be generally U-shaped and formed on the first or second actuating end.

The receiving portion may be disposed between the first or second actuating end and the threaded nut.

Furthermore, the catch may be a formed sheet metal part and the receiving portion may be a bent sheet metal edge of a U-shape. In addition to the threaded nut, the insert nut may be a formed sheet metal part obtained by stamping and edge processing.

The receiving part may have boundary walls spaced apart from each other, a first one of the boundary walls being arranged in front of an inner side of the edge of the hole in the locked position, and a second one of the boundary walls being arranged in front of an outer side of the edge of the hole opposite the inner side in the locked position. Thus, the edge of the hole can be enclosed between the boundary walls of the receiving portion, thereby effectively preventing the plug-in nut from being accidentally twisted in the hole.

At least one of the actuating ends has, in the portion through which it passes through the aperture, a dimension in the longitudinal direction of the edge received in the receiving portion that substantially corresponds to the length of the edge in the longitudinal direction. This measure also helps to secure the plug-in nut even further in the hole, thereby protecting the plug-in nut from accidental twisting. In a release position of the actuating ends relative to each other, in which the actuating ends are displaced relative to each other, the edges of the hole may be disengaged from the receiving portions of the catch, compared to the locking position. In particular, the displacement of the actuating end from the locking position into the release position can be carried out manually, whereby the actuating end can be adapted to the type of actuation of the plug-in nut, in particular depending on whether a tool-less actuation of the plug-in nut is to be carried out or whether a displacement of the actuating end between the release position and the locking position is to be carried out by means of a tool.

For example, it can be provided that the actuating ends each have a shank, whereby the shanks project through the holes at a distance from one another via the outer sides of the profile struts and can be transferred from the locking position into the release position against the mechanical preloading of the catch.

In particular, the catch may be a shaped sheet metal part which is arranged in a relaxed configuration in the locking position, such that a transition of the plug-in nut into the release position may be associated with a manual or tool-constrained preloading of the catch, in particular with a compression of the catch.

If the actuating end has a shank, it can be provided in particular that the catch is preloaded by compressing the shanks (i.e. bringing the shanks closer together), so that the plug-in nut is transferred into the release position, so that the edge of the hole disengages from the receptacle of the catch.

It can also be provided that the actuating end is arranged overlapping in front of the profile side of the profile strut with the hole and has an aligned tool opening.

The aligned tool openings may form a tool insertion opening defined by a first boundary edge of a first one of the tool openings and, oppositely, a second boundary edge of a second one of the tool openings.

At least one of the aligned tool openings can have a toothing of the rack and pinion drive at a third boundary edge, which extends in the direction of the adjustment direction between the locking position and the release position of the actuating end.

A fourth boundary edge opposite the third boundary edge may be arranged at a distance from the third boundary edge and may form a counter bearing, also referred to as a "quincunx", for a toothed drive, in particular for a screwdriver with a multiple round drive.

Another of the aligned tool openings may be formed circular and have an inner diameter substantially corresponding to the outer diameter of a toothed driver, in particular a multi-circular driver of a screwdriver.

The fastening device can have an upper part and a lower part which are connected to one another at a distance from one another via a connecting section, wherein a first of the actuating ends forms a free end of the upper part and a second of the actuating ends forms a free end of the lower part, and wherein at least one of the upper part and the lower part has a protruding contact claw on its outer side, in particular for potential equalization of the plug-in nut and the profile strut.

According to a further aspect, a switchgear cabinet housing with a fastening device of the aforementioned type is described, wherein the profile struts are profile struts of a frame of the switchgear cabinet housing or are internal components, in particular a mounting chassis, for the internal mounting of the switchgear cabinet housing.

Drawings

Further details of the invention are described in the following figures. The following figures illustrate:

Fig. 1 shows three embodiments of a plug-in nut according to the invention;

FIG. 2 shows a fastening device employing an embodiment of a plug-in nut according to the invention as shown in FIG. 1;

FIG. 3 shows a cross-sectional view of an embodiment of a plug-in nut;

FIG. 4 shows a perspective view of another embodiment of a plug-in nut;

Fig. 5 shows a perspective view of a further embodiment of a plug-in nut according to the invention;

fig. 6 shows a perspective view of a further embodiment of a plug-in nut according to the invention;

FIG. 7 shows another fastening device according to the present invention; and is

fig. 8 shows a cross-section perpendicular to the longitudinal direction of the profile strut according to the embodiment of fig. 6.

Detailed Description

Fig. 1 shows three different embodiments of a plug-in nut 3 according to the invention, wherein these embodiments differ in particular in the design of the two actuating ends 6, 7. All the embodiments shown have in common that they are formed as a formed sheet metal part which can be obtained by stamping and edge processing, in addition to the threaded nut 5. As a result, the plug-in nut 3 shown in fig. 1 is inexpensive to manufacture. Likewise, all the embodiments shown in fig. 1 show the receiving portion 8, the receiving portion 8 being essential to the invention and intended to accommodate the edge of the hole into which the corresponding plug-in nut 3 is inserted.

the plug-in nut 3 shown furthest to the left in fig. 1 has actuating ends 6, 7 which are designed for manual actuation of the plug-in nut 3. All the plug-in nuts 3 in fig. 1 are shown in their relaxed position, in which the catches 4 of the plug-in nuts 3 are not preloaded. In this state, the plug-in nut 3 is in its locked position. By compressing the two actuating ends 6, 7 of the embodiment shown on the left in fig. 1, the catch 4 is preloaded and, correspondingly, the plug-in nut 3 is transferred from the locking position shown into a release position in which the edge of the profile strut occupying the hole in the receptacle 8 emerges from the receptacle and the plug-in nut 3 can thus be removed from the hole via the actuating ends 6, 7.

For the displacement of the aforementioned actuating ends 6, 7 relative to one another for the purpose of switching the plug-in nut 3 between the illustrated locking position and release position and in particular preloading the catch 4 for this purpose, it is provided that, in the case of the plug-in nut 3 illustrated in the center of fig. 1, the actuating ends 6, 7 are arranged overlapping and form a tool insertion opening 15 in the overlapping region, into which a tool (here a slotted screwdriver 27) can be inserted. It will be readily appreciated that by turning or pivoting the slotted screwdriver 27 up to 90 ° from the adjustment position shown in fig. 1, the actuating ends 6, 7 can be displaced relative to each other in such a way that the catch 4 of the plug-in nut 3 is preloaded and, consequently, any edges that might be accommodated in the receptacle 8 can be disengaged from the receptacle 8.

In a variant of the preceding embodiment, the third embodiment of the plug-in nut 3 according to the invention shown in the lower right of fig. 1 has a rack-and-pinion drive at its actuating ends 6, 7, which drive can be actuated, for example, by means of a commercially available quincunx screwdriver in order to bring the actuating ends 6, 7 into abutment with one another. The three aforementioned embodiments are described in more detail below.

Fig. 2 shows three designs of the plug-in nut 3 according to the invention known from fig. 1 in the mounted state (i.e. in the state in which the plug-in nut is inserted into the profile strut 1 via the respective hole 2 of the profile strut 1), the respective plug-in nut 3 projecting only via its actuating end 6, 7 on the profile side 13 of the profile strut 1 with the hole 2. On the other profile side, which is arranged perpendicular to the profile side 13, the profile strut 1 has further holes 28, with each of which the threaded nut 5 of the plug-in nut 3 is aligned, so that it can be accessed on the profile strut 1 for mounting, for example, switchgear components for the internal mounting of a switchgear cabinet housing.

Fig. 2 also shows that in the shown locking position of the actuating ends 6, 7, the edge 2.1 of the respective hole 2 is received in the receptacle 8 of the plug-in nut 3, so that the plug-in nut 3 is fixed so as not to be displaceable both in and around the insertion direction and is thus received in the hole 2 in a non-rotatable manner. In the region 10 of the catches 4 of the plug-in nut 3 adjoining the actuating ends 6, 7, the dimensions of the plug-in nut 3 correspond exactly to the dimensions of the edge 2.1 in its longitudinal direction, so that the positive lock achieved in the region 10 of the plug-in nut 3 provides further fastening of the plug-in nut 3 in the opening 2.

Fig. 3 shows a sectional view of an embodiment of the plug-in nut 3. The sectional view shown shows in particular a possible geometric design of the receiving portion 8. Accordingly, the receiving portion 8 is substantially U-shaped and can be designed in particular as a sheet metal bend. As shown, the opposite boundary walls 9 of the receptacle 8 extend at an acute angle to each other, so that the bending edge via which the boundary walls 9 are connected to form the receptacle 8 is a (continuous) bending edge of more than 180 °.

In addition to the threaded nut 5, the plug-in nut 3 can be formed in particular as a formed sheet metal part, and correspondingly the receptacle 8 can also be a sheet metal fold. The plug nut further comprises a catch 4 with an upper part 21 and a lower part 22, which are connected to each other via a connecting section 23. In the transition region between the connecting section 23 and the upper part 21, a contact claw 24 is arranged, which serves for potential equalization between the plug-in nut 3 and the profile strut. Further contact fingers are arranged on the outer side of the lower part 24. The actuating ends 6, 7 each have a shank 11, by means of which shank 11 the catch 4 of the plug-in nut 3 can be compressed by two fingers and thus preloaded, so that the edge of the hole of the profile strut, possibly accommodated in the receptacle 8, can emerge from the receptacle 8 and can thus be disengaged from the receptacle 8.

Fig. 4 shows in detail an embodiment in which the actuating ends 6, 7 are overlapping and positioned in front of the profile side of the profile strut with the holes and have aligned tool openings. The aligned tool openings 14 form a tool insertion opening 15, which is bounded by a first boundary edge 16 of a first one of the tool openings 14 and oppositely by a second boundary wall 17 of a second one of the tool openings 14. In particular, the tool insertion opening 15 may be used to receive a slotted screwdriver as shown in fig. 1 and 2.

In a variant of the embodiment shown in fig. 4, the embodiment shown in fig. 5 provides that one of the aligned tool openings 14 has a toothing of a rack and pinion drive at a third boundary edge 18 which extends between the locking position and the release position in the direction of the adjustment direction of the actuating ends 6, 7. A fourth boundary wall 19 opposite the third boundary edge 18 is arranged at a distance from the third boundary edge 18 and forms a counter bearing for a toothed driver 20 (see fig. 1 and 2), which, as already described in relation to fig. 1 and 2, can be, for example, a screwdriver with a multiple-round driver, for example a quincunx-slot screwdriver.

The tool opening 14 in the second actuating end 7 is circular and has an inner diameter which can substantially correspond to the outer diameter corresponding to the previously described toothed drive and thus forms a pivot bearing for the toothed drive.

fig. 6 shows a plug-in nut 3 in a variant of the embodiment shown in fig. 4, wherein the threaded nut 5 is formed as a press-in nut (which can in principle be the case for all embodiments) which is pressed in by means of an upper part 21, and wherein the first and second actuating ends 6, 7 extend at an acute angle relative to one another in the shown locking position of the unstressed actuating ends relative to one another, so that the actuating ends 6, 7 can be adjusted relative to one another by means of a screwdriver 27 or the like inserted into the tool insertion opening 15 by a pivoting movement of the screwdriver 27, so that the actuating ends are transferred into the release position and thereby preload the plug-in nut.

Fig. 7 and 8 show a further embodiment of a fastening device according to the invention, in which, via two mutually perpendicular profile sides 13 of the profile strut 1, the plug-in nuts 3 are each inserted via a respective hole 2, so that the threaded nuts 5 of the plug-in nuts 3 are accessible via a respective further hole 18 in the respective other profile side, for example in order to fix switchgear components to an interior part 26, which in the present case is designed as a mounting chassis for the interior mounting of a switchgear cabinet. The mounting chassis 26 has mounting flanges 25 at its opposite ends (only one end shown) which may be used to secure the mounting chassis to, for example, the frame of a switchgear cabinet.

The inner part is not limited to any particular type, but advantageously has at least one mounting plane with a systematic perforation of regularly spaced holes in which the plug-in nut 3 can be mounted. In addition, the inner part advantageously has a further mounting plane with system perforations, whereby the further mounting plane extends perpendicular to the first-mentioned mounting plane. The holes in the further mounting plane are arranged such that a locking nut for fixing the component can be accessed via these holes.

The features of the invention disclosed in the above description, in the drawings and in the claims are essential for the realization of the invention individually or in any combination.

list of reference numerals

1 section bar pillar

2 pore diameter

2.1 edge

3 inserting type nut

4 fastener

5 screw nut

6 first actuating end

7 second actuating end

8 receiving part

9 boundary wall

10 part (A)

11 handle part

12 outer side

13 side of section bar

14 tool opening

15 tool insertion opening

16 first boundary edge

17 second boundary edge

18 third boundary edge

19 fourth boundary edge

20 tooth-shaped driver

21 upper part

22 lower part

23 connecting section

24 contact claw

25 mounting flange

26 internal components

27 slotted screwdriver

28 additional holes