WO2018167121A1 - Connection system for interlockingly connecting a first component to a second component - Google Patents

Abstract

The invention relates to a connection system, comprising a first component (2) and a second component (4), a hook (2.1) being arranged on the first component (2) and a hook catch (4.1) being arranged on the second component (4), the hook and the hook catch forming an interlocking connection when in engagement with each other. In order to specify a connection system for interlockingly connecting two components (2, 4) that ensures the interlocking connection of the two components (2, 4) even under unfavorable ambient conditions, according to the invention, the connection system has a securing means (6) for securing the interlocking connection. In a securing position, the securing means (6) extends through an opening (2.2) formed at a distance from the hook (2.1) in the first or second component (2) and lies against the hook (2.1) by means of a first radial protrusion (8.2) in such a way that movement of the hook (2.1) toward a non-engagement position of the hook (2.1) and the hook catch (4.1) is blocked.

Description

 Connection system for the positive connection of a first with a second component

description

The present invention relates to a connection system according to the preamble of claim 1.

Such connection systems are already known from the prior art in numerous variants.

For example, a connection system having a first component and a second component to be connected to the first component is generally known, in which a latching hook is arranged on the first component and a catch hook latch corresponding to the latching hook is arranged on the second component Form positive connection of the two components. In order to form such a positive connection, inter alia, a bias of the latching hook against the latch hook trap is required. Due to material fatigue, environmental influences and the like, it is possible that this form of snap connection formed form-fitting connection due to decreasing bias either no longer meets the requirements or even failed. In addition, it is necessary that the components to be joined together are produced in the relevant parts for the locking connection in close tolerances.

This is where the present invention begins.

The present invention has for its object to provide a connection system for the positive connection of two components, in which the positive connection of the two components is ensured even under adverse environmental conditions. This object is achieved by a connection system having the features of claim 1. The subclaims relate to advantageous developments of the invention.

A significant advantage of the connection system according to the invention is in particular that the proper function of the positive connection of the two interconnected components is ensured by a separate securing means. The function of the form-locking connection, for example, no longer depends on the proper bias of a hook designed as a latching hook against a hook latch formed as a hook trap. Rather, it is no longer necessary that the form-locking connection must necessarily be designed as a latching connection. Accordingly, a decrease in the preload of a form-locking connection designed as a latching connection due to adverse environmental influences, such as high or changing temperatures, or a long service life of the connection system with respect to the positive connection of the two connected components no longer critical. In addition, the interaction of the first and the second radial projection of the securing means ensures that the securing means remains in its securing position and thus ensures the form-locking connection of the interconnected components.

An advantageous development provides that the cross section of the securing means is formed smaller than the cross section of the opening between the first and the second radial projection. In this way, the passage of the securing means through the opening is simplified and allows, for example, with less effort. In addition, a certain tolerance compensation of component tolerances is realized in a structurally simple manner.

Another advantageous embodiment provides that the first radial projection, the opening and the hook are formed and arranged in the securing position of the securing means to each other, that the first radial projection in the transfer of the securing means in its securing position deformed by the contact with the hook is. In principle, it is possible that the securing means in whose backup position rests with the first radial projection only on the hook. By said development, however, an intimate, play-free contact and thus a secure power transmission between the hook and the securing means is possible. This also creates a further tolerance compensation of component tolerances. The deformation of the first radial projection may be an elastic, a plastic or a combination of an elastic and a plastic deformation. Depending on the individual case, the person skilled in the art will make a corresponding selection, for example through the choice of material and the dimensioning of the relevant components.

Basically, the first and the second radial projection on the type, material, arrangement and dimensioning within wide suitable limits and independently selectable. Expediently, the first and / or the second radial projection of the securing means are / is formed like lamellas.

A particularly advantageous embodiment provides that the first and the second radial projection of the securing means are identical. In this way, the production of the securing means is simplified. A mis-insertion of the securing means in the transfer in its security situation is thus prevented in a structurally simple way.

Furthermore, a further particularly advantageous embodiment of the connection system according to the invention, in particular in development of the aforementioned embodiment, provides that the securing means is formed as part of a cut-to-length endless belt, wherein the endless belt has an elongated core with first and second radial projections arranged alternately thereon. Endless belts are easier to handle compared to individual security devices. For example, endless belts can be stored on rollers and unrolled and cut to length as needed, so that the handling effort in production is reduced. This is particularly advantageous for mass production. The term "endless belt" is to be interpreted broadly and includes all possible and suitable cross sections, the can be produced and handled as an endless belt. For example, the cross section of an endless belt, with or without the first and / or second radial projection, may also be circular.

An advantageous development of the latter embodiment provides that the first and / or the second radial projections of the endless belt are simultaneously formed as conveying projections for the engagement of a conveying means of a conveying device for conveying the securing means in its securing position. As a result, the handling of the endless belt is further simplified.

Furthermore, an advantageous development of the two aforementioned embodiments provides that the first and / or the second radial projections of the endless belt are simultaneously formed as Zählvorsprünge for cooperation with a counting means of a counting device such that a proper promotion of the securing means in its security position is detectable. In this way, error detection in the promotion of the securing means in its security situation can be realized with little effort.

Another advantageous embodiment of a connection system according to the invention using an endless belt provides that in each case in the area between directly successively arranged first and second radial projections a separation point for the separation of the endless belt is formed. For example, a predetermined separation point formed on the endless belt enables its automatic detection for subsequent separation and / or separation of a securing means from the endless belt with less effort; For this purpose, the separation point could be formed, for example, as a material weakening or material reduction compared to other areas of the endless belt. The separation of the endless belt in each case in the region between directly successively arranged first and second radial projections has the further advantage that the first and second radial projections are not damaged by the separation. A particularly advantageous embodiment of a connection system according to the invention using an endless belt provides that the securing means is prefabricated as part of an endless belt blank whose first radial projections and / or second radial projections and / or separation points in the backup position of the securing means can be generated. In this way, it is possible to assemble the endless belt as a securing means only at a late point in the production process, namely shortly before the transfer of the securing means in its securing position. For example, this is of great advantage if an endless belt blank for mutually different securing means can be used for different connection systems according to the invention. Accordingly, the endless belt blank can be purchased in larger quantities and thus more cost-effectively, since the adaptation to the respective securing means takes place only on the system for producing the mutually different connection systems according to the invention.

Reference to the accompanying, rough schematic drawing, the invention will be explained in more detail below. Showing:

1 shows an embodiment of a connection system according to the invention in a partial view, without the securing means.

 Fig. 2 shows the embodiment in a partial view similar to FIG. 1, with the securing means and

 Fig. 3 shows the embodiment in a partial side view, with the securing means prior to its separation from the endless belt.

In Fig. 1, an embodiment of a connection system according to the invention is shown in a partial view. The connection system has a first component 2 and a second component 4 to be connected to the first component 2. On the first component 2 is designed as a latch hook hook 2.1 and on the second component 4 is designed as a latch hook latch hook case 4.1 is arranged, wherein the latching hook 2.1 at the first k u n ststoffg eh uteseten I I formed first component. 2 and the snap hook trap 4.1 are formed on the second component 4 designed as a second plastic housing part in a manner known to the person skilled in the art. In an engagement position shown in Fig. 1 of the latching hook 2.1 and the latch hook trap 4.1 form a positive connection of the two plastic housing parts 2 and 4 together.

In the first plastic housing part 2 formed as a through hole opening 2.2 is formed with a circular cross-section. The opening 2.2 has a perpendicular to the image plane of Fig. 1 extending longitudinal axis, which is symbolized by a cross 2.2.1. As can be seen from FIG. 1, the opening 2.2 is formed in the first plastic housing part 2 spaced apart from the latching hook 2.1 in the illustrated engagement position of latching hook 2.1 and latching hook latch 4.1.

In order to secure the latching hook 2.1 against unwanted transfer to a non-illustrated disengaged position, the connection system further comprises a securing means 6, not shown in FIG. 1, which is shown in FIG. 2 in its securing position. In the disengaged position, the latching hook 2.1 and the catch hook latch 4.1 are disengaged, so that the two plastic housing parts 2 and 4 are not positively connected with each other.

The securing means 6 is here designed as a part of a cut-to-length endless belt 8 made of plastic, wherein the endless belt 8 has an elongate core 8.1 with first and second radial projections 8.2 arranged alternately thereon. See Fig. 3. The elongated core 8.1 has a circular cross-section. The first and second radial projections 8.2 of the endless belt 8 are identical in the present embodiment. Furthermore, the first and second radial projections 8.2 extend substantially perpendicularly away from the surface of the elongated core 8.1 and each have an annular cross-section, with the first and second radial projections 8.2 circumferentially extending away from the elongated core 8.1 and, based on the image plane of Fig. 3, perpendicular. The first and second radial projections 8.2 are also formed like a lamella, so that the respective thickness d of the first and second radial Projections 8.2 compared to their height h is low. Accordingly, the first and second radial projections 8.2 can be easily deformed, ie deformed.

In order to increase the stability, the first and second radial projections 8.2 have a greater thickness d at their respective root, that is to say in their transition region to the elongate core 8.1.

As is symbolically represented in FIG. 3, the first and second radial projections 8.2 of the endless belt 8 are each simultaneously as conveying projections 8.2 for the engagement of a conveying means 10 designed as a first gear of a conveying device for conveying the securing means 6 in its securing position shown in FIG educated. The conveying direction of the endless belt 8 and thus of the securing means 6 is symbolized in Fig. 3 by an arrow 12. Further, the first and second radial projections 8.2 in the present embodiment are simultaneously formed as Zählvorsprünge 8.2 for cooperation with a realized as a second gear counting means 14 of a counting device such that a proper promotion of the securing means 6 by means of the first gear 10 is detectable in its backup position , The first gear 10 and thus standing in operative connection, not shown further means of the conveyor for conveying the endless belt 8 and thus the securing means 6, as well as the second gear 14 and the other not shown means of the counting device are known in the art and adapted to the respective application in wide suitable limits according to type, operation, material, dimensioning and arrangement freely selectable.

In addition, the endless belt 8 of the present embodiment in each case in the area between directly successively arranged first and second radial projections 8.2 a separation point 8.3 for the separation of the endless belt 8. As is apparent from Fig. 3, the separation points are 8.3 as material weakenings of the elongated core 8.1 formed to facilitate the cutting to length and thus a separation of the endless belt 8 by means of a release agent, such as a knife or the like. The separating points 8.3 are each approximately in the middle arranged between immediately adjacent first and second radial projections 8.2.

In the following, the connection system according to the invention will be explained in more detail with reference to FIGS. 1 to 3.

In a first step for connecting the first component 2 to the second component 4, the latching hook 2.1 of the first component 2 and the latching hook trap 4.1 of the second component 4 is transferred to its engagement position shown in FIG. 1, to the form-locking connection also shown in FIG form between the first component 2 and the second component 4. In order to secure this form-locking connection of the two components 2 and 4 designed as latching connection, the securing means 6 is passed through the opening 2.2 of the first component 2 as follows:

First, the securing part 6 is still part of the endless belt 8 and is with the endless belt 8 by means of the first gear 10 in the conveying direction 12, ie in the direction of its backup position, promoted. For this purpose, the first gear 10 engages in a manner known to those skilled in the teeth with its teeth, with respect to the conveying direction 12, behind the first and second radial projections 8.2. In Fig. 3, the first and the second gear 10, 14 for the sake of clarity at a distance from the endless belt 8 are shown. In fact, both gears 10, 14 are in engagement with the endless belt 8, namely with the radial projections 8.2 of the endless belt 8. The feed of the endless belt 8 in the conveying direction 12, ie in the direction of the securing position of the securing means 6, is monitored by means of the second gear 14 in that the passage of the first and second radial projections 8.2 and thus of the endless belt 8 is counted in a manner known to those skilled in the art. As a result, a proper promotion of the endless belt 8 and thus the securing means 6 is controllable.

The endless belt 8 with the securing means 6 conveyed in the manner explained above and the arrangement consisting of the interconnected components 2 and 4 are aligned with one another in a manner known to the person skilled in the art in such a way that the conveyed in the conveying direction 12 endless belt 8 is conveyed into the opening 2.2 of the first component 2. The endless belt 8 passes with its in the conveying direction 12 facing end into engagement with the opening 2.2; see also FIG. 3. This is facilitated by the fact that the cross section of the elongated core 8.1 is smaller compared to the clear cross section of the opening 2.2, so that the endless belt 8 and thus the securing means 6 in the opening 2.2 is performed with play , On the other hand begins in the conveying direction 12 facing end of the endless belt 8 with a separation point 8.3, so that the area of the endless belt 8 acts from this separation point 8.3 to the immediately following radial projection 8.2 as an insertion.

The endless belt 8 is introduced in the manner explained above with its pointing in the conveying direction 12 end into the opening 2.2 and further conveyed by the first gear 10 to the point until the immediately following on the aforementioned separation point 8.3 following radial projection 8.2 through the opening 2.2 has been completely passed and, based on the image plane of Fig. 1, before the apparent from Fig. 1 end of the opening is 2.2. Accordingly, the opening 2.2 in Fig. 2 by means of a dashed line is merely indicated. In this case, the radial projection reaches 8.2 in a portion of its radial free end in contact with the latching hook 2.1 that the lamella-shaped radial projection 8.2 is deformed, so deformed, is. In this way, an intimate contact of the radial projection 8.2 is achieved on the latching hook 2.1. The area between two immediately consecutive radial projections 8.2 of the endless belt 8 is dimensioned such that the endless belt 8 in this position of the endless belt 8 by means of the immediately following in the conveying direction 12 free end radial projection following 8.2 and the radial projection immediately following this 8.2 is defined in the opening 2.2 with little axial play along the longitudinal axis 2.2.1 of the opening 2.2. Whether the respective radial projection 8.2 is a first or second radial projection 8.2 is insignificant in the present exemplary embodiment, since the first radial projection 8.2 and the second radial projection 8.2 are of identical construction. The promotion of the endless belt 8 in the conveying direction 12 by means of the first gear 10 is stopped and an unillustrated knife separates the endless belt in a manner known to those skilled in the separation point 8.3, along the conveying direction 12 as a second separation point 8.3 pointing in the conveying direction 12 free End follows. See FIG. 3. The securing means 6 produced in this way from the endless belt 8 thus comprises the two radial projections 8.2 immediately following the end pointing in the conveying direction 12 and the region of the elongated core 8.1 arranged between these two radial projections 8.2. The securing means 6 is in its illustrated in Fig. 2 securing position in which the securing means 6 blocks a movement of the latching hook 2.1 in the direction of a disengaged position of latching hook 2.1 and latch hook trap 4.1, wherein the securing means 6 by means of the two aforementioned radial projections 8.2 in its backup position is defined in the opening 2.2.

After the production of the connection system according to the invention according to the present embodiment, the endless belt 8 is aligned in a manner known in the art relative to a further arrangement which is formed analogously to the arrangement already described. The above-explained steps are repeated, so that by means of the endless belt 8, for example, wound on a roll or the like, a plurality of first components 2 with second components 4 are connected in the manner explained and thus form a connection system according to the invention.

The invention is not limited to the present embodiment. For example, the invention can advantageously be used with very different first and second components. The first and second components also need not be housing parts or parts made of plastic. The first and the second radial projections of the endless belt and thus the securing means need not necessarily be the same. In mutually different first and second radial projections, it is advantageous if the first and second radial projections are arranged alternately on an elongated core of the endless belt. Accordingly, in each case a second radial projection directly on to follow a first radial projection. The first and / or second radial projections do not necessarily have to be lamellar. Also, an elastic, elastic-plastic or plastic deformation, ie deformation, of the first radial projection in the transfer of the securing means in its backup position by the contact with the latching hook is not required. It would also be conceivable for the first radial projection to rest only on the latching hook, ie without deformation and / or without prestressing. Hook and hook trap must not form a latching connection with each other; every conceivable and suitable type of positive connection between the hook and the hook trap is sufficient.

In principle, it is also possible that the securing means is prefabricated as part of an endless belt blank, the first radial projections and / or second radial projections and / or separation points in the transfer of the securing means in the backup position can be generated.

The cross sections of the opening and the various areas of the endless belt and the securing means need not necessarily be circular or annular. It is also conceivable that the first and / or the second radial projection is not designed as a projection running around the elongated core.

LIST OF REFERENCE NUMBERS

2 First component, designed as a plastic housing part

 2.1 hook of the first component 2, designed as a latching hook

 2.2 Opening of the first component 2

 2.2.1 Longitudinal axis of the opening 2.2

 4 Second component, designed as a plastic housing part

 4.1 hook trap of the second component 4, designed as a latch hook trap

6 securing means, formed as part of an endless belt 8

 8 endless belt

 8.1 Elongated core of the endless belt 8

 8.2 first and second radial projection of the endless belt eighth

 8.3 separation point of the endless belt 8

 10 conveyor of a conveyor device, designed as a first gear

12 conveying direction of the endless belt 8

 14 counting means of a counting device, designed as a second gear

Claims

claims

1 . Connection system comprising a first component (2) and a second component (4) to be connected to the first component (2), wherein on the first component (2) a hook (2.1) and on the second component (4) one to the Hook (2.1) correspondingly formed hook trap (4.1) is arranged, which form in their engaged position with each other a positive connection of the two components (2, 4),

 characterized,

 in that the securing means (6) engages in a securing position by means of an opening (2.2) formed at a distance from the hook (2.1) on the first or second component (2) and having a locking device (6) for securing the positive locking connection first radial projection (8.2) on the hook (2.1) is applied such that a movement of the hook (2.1) in the direction of a disengaged position of hook (2.1) and hook latch (4.1) is blocked, and wherein the securing means (6) by means of the first Radial projection (8.2) and one at the first radial projection (8.2) facing away from the end of the securing means (6) arranged second radial projection (8.2) in the securing position in the opening (2.2) is fixed.

2. Connection system according to claim 1,

 characterized,

 the cross section of the securing means (6) between the first and the second radial projection (8.2) is smaller than the cross section of the opening (2.2).

3. Connection system according to claim 1 or 2,

characterized, the first radial projection (8.2), the opening (2.2) and the hook (2.1) are designed in such a way and in the securing position of the securing means (6), that the first radial projection (8.2) during the transfer of the securing means (6 ) is deformable in its backup position by the contact with the hook (2.1).

4. Connection system according to one of claims 1 to 3,

 characterized,

 that the first and / or the second radial projection (8.2) of the securing means (6) is / are formed lamellar.

5. Connection system according to one of claims 1 to 4,

 characterized,

 the first and the second radial projection (8.2) of the securing means (6) are of identical design.

6. Connection system according to one of claims 1 to 5,

 characterized,

 in that the securing means (6) is formed as part of a cut-to-length endless belt (8), wherein the endless belt (8) has an elongated core (8.1) with first and second radial projections (8.2) arranged alternately thereon.

7. Connection system according to claim 6,

 characterized,

 the first and / or the second radial projections (8.2) of the endless belt (8) are simultaneously formed as conveying projections (8.2) for engaging a conveying means (10) of a conveying device for conveying the securing means (6) in its securing position.

8. Connection system according to claim 6 or 7,

characterized, in that the first and / or the second radial projections (8.2) of the endless belt (8) are at the same time designed as counting projections (8.2) for cooperation with a counting means (14) of a counting device such that a proper conveyance of the securing means (6) into its Backup position is detected.

9. Connection system according to one of claims 6 to 8,

 characterized,

 in that a separation point (8.3) for the separation of the endless belt (8) is formed in each case in the region between first and second radial projections (8.2) arranged directly one behind the other.

10. Connection system according to one of claims 6 to 9,

 characterized,

 in that the securing means is prefabricated as a part of an endless belt blank whose first radial projections and / or second radial projections and / or separation points can be produced during the transfer of the securing means into its securing position.