The present application claims priority to German Patent Application No. 102015013345.4, filed on Oct. 14, 2015 and entitled “Apparatus for Attaching an Item to One or More Substrates,” the entire contents of which are hereby incorporated by reference.
The invention relates to an apparatus for attaching an item to one or more substrates, using a prong ring with a ring and two or more prongs.
An apparatus of the above kind is known, e.g. from JP S52-4170 Y2. It serves for, e.g., attaching a snap button to a garment. To this end, the prong ring is placed on the first redirecting member, which redirecting member is a pin with a circular cross section and a diameter slightly smaller than the ring of the prong ring so that prongs which are bent inwardly are redirected by positioning the prong ring on the pin and moving it relative to the pin in the axial direction thereof. If the prongs of the prong ring are not straight, i.e. if they do not extend in the direction in which the lower and upper dies approach one another, there is a chance that the prongs do not penetrate the substrate, but are (further) bent and remain on the first side of the substrate instead of being pushed therethrough. This results in a malfunction of the attaching apparatus.
A similar apparatus is known from WO 2012/131879 A1.
WO 2014/049881 A1 discloses an inspection device for inspecting whether or not prongs of prong rings are suitably directed.
In the case of JP S52-4170 Y2 it is difficult to position the prong ring on the pin, particularly if the prongs are bent inwardly. This applies not only if the prong rings are manually positioned on the pin, but also if they are positioned automatically by the attaching apparatus.
It is, therefore, an object of the present invention to enhance the attaching apparatus known from the prior art resulting in that it is easier to deal with the prong rings, particularly in case that one or more of the prongs is/are bent inwardly.
According to an aspect of the embodiments of the invention, the first redirecting member cooperates with an abutting member positioned along the approach of the prong ring towards the first side of the substrate during attachment for inhibiting movement of the prong ring towards the substrate while the first redirecting member is used.
In other words, the prong ring is not positioned on the redirecting member in the form of a pin or the like, with the potential difficulty in the case where prongs are bent inwardly, but the prong ring is prevented from moving towards the substrate, so that the first redirecting member can be used without any problems resulting from prongs which may be bent inwardly.
According to a preferred embodiment, the first redirecting member is adapted to be moved through the ring of the prong ring to the tip end of at least one of the prongs. Thereby, prongs which are bent inwardly can easily be redirected, particularly because the prong ring is held against a movement towards the substrate during the movement of the first redirecting member through the ring and to the tip end of at least one of the prongs.
According to a further preferred embodiment, the first redirecting member comprises a pin with a circular cross section. Thereby, it is possible to redirect inwardly bent prongs independently from their circumferential position around the axis of the pin.
Preferably, the abutting member is movable between at least two positions, a first position inhibiting a movement of the prong ring towards the substrate and a second position allowing the movement. Thus, according to this embodiment, the abutting member is used only as long as the first redirecting member is used. When the prongs which were bent inwardly are successfully redirected, the abutting member is retracted in order to not disturb the attaching process.
To this end, the abutting member can be biased into the first position. Thereby, it is only necessary to move the abutting member into the second position, whereas it will automatically return into the first position as soon as released.
Preferably, the abutting member has at least two parts which are movable relative to one another around a pivot point, like a pair of pliers. This is a very simple way of making the abutting member movable between the first and second positions.
According to a further preferred embodiment, the attaching apparatus not only comprises the first redirecting member, but also a second redirecting member, the redirecting member serving for redirecting prongs which are bent outwardly away from the center of the ring, and lying in the path of outwardly bent prongs when approaching the substrate.
Thereby, the prong or prongs of the prong ring is/are straightened whether being bent inwardly or outwardly prior to their use, resulting in an optimum preparation for attachment by being moved through the substrate or substrates.
Preferably, the second redirecting member comprises at least one surface sloped relative to the path of the prongs. When the prong ring is moved along the path, the tip of a prong being bent outwardly abuts against the sloped surface and the prong is redirected by bending inwardly. It is also possible that there is provided a surface that is curved or has a radius.
Preferably, in the case of one sloped surface, the sloped surface is a conical ring surface, and in the case of two or more sloped surfaces, the two or more sloped surfaces together make up a conical ring surface. Thereby, a prong being bent outwardly is reliably redirected by the second redirecting member independently of its circumferential position circumscribing the moving direction along the path.
The slope angle is preferably in the range of 10° to 60°, more preferably 20° to 50° and most preferably 30° to 40°. The angles have proved to reliably redirect prongs which are bent outwardly.
Finally, it is preferred that at least part of the second redirecting member is movable in a direction transverse to the path of the prong, but biased in the inward direction of the prongs. This is advantageous for the function of the second redirecting member, particularly if prongs exert different resistances against the redirecting action during their movement in the inward direction.
The invention is described in more detail hereinafter with reference to the accompanying drawings showing preferred embodiments of the invention. In the drawings,
The attaching apparatus shown in
The attaching process is as follows: Starting from the positions shown in
Turning now to
In a first operational step, as is to be taken from
As shown in
During the raising movement of pin 36 through ring 20 and beyond tip end 38 of prong 26, prong ring 18 must not be carried by this movement because otherwise no redirecting would occur. Therefore, abutting members 32, 34 are positioned along the approach of the prong ring 18 towards the lower side of the substrate 10 for serving to block an upward movement of prong ring 18 during the use of pin 36, i.e. during the redirecting process. To this end, abutting members 32, 34 comprise grooves 40, 42 for receiving ring 20 during the redirecting process.
However, as shown in
To this end, as shown in
On their way upwards, prongs 22, 24 and 26, if bent outwardly abut sloped surfaces 44, 46 of redirecting members 48, 50, respectively. That is, the redirecting members 48, 50 are positioned in the path of the outwardly bent prongs 22, 24 and 26 when the prongs approach the substrate 10. In this embodiment, the sloped surfaces 44, 46 are sloped relative to the path of the prongs. As described later, in another embodiment, the sloped surfaces 44, 46 may be curved or have a radius.
In this embodiment, the redirecting member 48 having the sloped surface 44 is separated from the redirecting member 50 having the sloped surface 46. In another embodiment, the redirecting member 48 and the redirecting member 50 may be comprised of a single part and have only one sloped surface which includes the sloped surface 44 and the sloped surface 46. The redirecting member 48 and the redirecting member 50 may be comprised of three or more parts. In the case of one sloped surface, the sloped surface is a conical ring surface, and in the case of two or more sloped surfaces, the two or more sloped surfaces together make up a conical ring surface.
Further pushing of prong ring 18 by lower die 30 results in redirecting those prongs of prong ring 18 which are bent outwardly because they are guided along or driven by sloped surfaces 44, 46 and are completely redirected into the position, substantially parallel to the direction of movement of pin 36, as shown in
Thereafter, as shown in
As depicted in
The abutting members 32, 34 may be biased into the first position. In this embodiment, as shown in
With the embodiment shown in
Like abutting members 32, 34, in a similar manner, redirecting members 48 and/or 50 can also be arranged not movable linearly, but around one or more pivot points.
The same applies, mutatis mutandis, to redirecting members 48, 50 and possible other redirecting members with sloped surfaces. To this end, springs 54, 56 are provided as shown in
In the shown embodiment, abutting members 32, 34 as well as redirecting members 48, 50 automatically return into their initial position shown in
As already mentioned, the drawings are only schematically. The slope angle α of sloped surfaces 44, 46 is in the range of 10° to 60°, preferably 20° to 50°, more preferably 30° to 40°. In this embodiment, the slope angle α of sloped surfaces 44, 46 is 35°.
In this embodiment, the abutting member 32 is separated from the abutting member 34. In another embodiment, the abutting member 32 and the abutting member 34 may be comprised of a single part and may be comprised of three or more parts.
The characteristics of the invention disclosed in the above description, in the claims and in the drawings may be essential for the implementation of the invention in its various embodiments either alone or in any arbitrary combination with each other.
Number | Date | Country | Kind |
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102015013345.4 | Oct 2015 | DE | national |