Releasable closure

Details Releasable closure Releasable closure

2002-02-22

2003-04-15

Sakran, Victor (Department: 3677)

Buckles, buttons, clasps, etc.

Including readily dissociable fastener having numerous,...

C024S446000, C024S448000, C024S450000, C024S452000, C024S304000, C428S040100, C428S097000

Reexamination Certificate

active

06546602

ABSTRACT:

BACKGROUND
The present invention relates to a detachable closure made of separable burr-type elements which feature interlocking elements at the surfaces to be joined, the interlocking elements mutually interlocking during the joining of the burr-type elements, holding the burr-type elements together.
In many fields of technology, detachable closures are used to non-permanently interconnect parts. In this manner, the possibility ensues for parts to be firmly fixed but nevertheless to be detached again.
Known from U.S. Pat. No. 2,717,437 is a detachable closure which is composed of two burr-type elements which feature a large number of flexible interlocking elements which interlock with each other when the burr-type elements are pressed together. In this manner, a multitude of connections ensues between the interlocking elements of the two burr-type elements, resulting in a strong mutual fixation of the burr-type elements. This type of closures is also known as a Velcro closure and is used in the field of the clothing industry.
It turns out to be a disadvantage of detachable closures of that kind that the connection can only be detached by stripping off the burr-type elements from each other and in that shear forces act upon the interlocking elements. The elastic design of the interlocking elements, on one hand, prevents the interlocking elements from being released out of the burr-type elements in the process and, on the other hand, supports the separation. Thus, the interlocking elements can be bent open to let opposite interlocking elements slip out of the interlocking connection. In a closure of this kind, the connection can only be separated if at least one of the components to be joined is flexurally soft or if the components can be sheared off from each other. A separation of the components in a direction perpendicular to the surface, as occurs in the case of flexurally stiff components which cannot be tilted relative to each other, is only possible with an excessive expenditure of force which mostly destroys the detachable closure at the same time.
German Patent Document 196 48 254 describes a pressure closure strap which has two matching profiles and in which at least one profile half of the pressure closure strap is intentionally designed to be self-destructive. The destruction of at least one half during the separation of previously joined strap halves has as a result that a repeated use is not possible. The self-destruction can be attained either via predetermined breaking points at the tops of the profile ribs gripping behind each other or by elastomers which have a shape memory and which, after being put together, are shrunk so as to interlock, and which, during separation, take on a shape which prevents a repeated closure.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a detachable closure that can be detached in a controlled manner without using large shear forces. Moreover, an object is for the interconnection to be separable in a direction perpendicular to the surface.
To attain this objective according to the present invention, a detachable closure of the type mentioned at the outset is characterized in that the interlocking elements are composed of a material which carries out a deformation in response to the influence of heat.
Using the closure according to the present invention, it is possible for the components which are held together therewith to be detached without having to apply shear forces via stripping abrading movements. This allows the components to be lifted off in the direction of the surface normal. Besides, it is no longer required that one component be flexurally soft. Secondly, due to the possibility of detaching the interlocking connection in a defined manner, the required expenditure of force is reduced to a minimum since it is no longer necessary to apply energy for deforming the elastic interlocking elements until the final separation.
The heat can be introduced into the interlocking elements by indirectly heating the components or the burr-type elements. Advantageously however, the heat is brought about by current flowing through the interlocking elements to be changed. The resistance offered to the current flow by the interlocking elements causes the current to be converted into Joulean heat, resulting in the heating of the elements. This heating causes the shape of the interlocking elements to open.
According to the present invention, the set objective can also be achieved in that the interlocking elements are composed of a material which carries out a deformation in response to the influence of electromagnetic radiation.
In both design approaches, bimetals or expansion material elements can be used as materials for the interlocking elements. In a preferred embodiment, however, the interlocking elements are composed of a shape memory alloy. Compared with conventional structured materials, shape memory alloys additionally offer special properties which make it possible to use them in the mentioned environment. Due to the capability of remembering a specific shape in the low-temperature martensite phase and in the high-temperature austenite phase, it is possible for deformations to be achieved over a previously set temperature range over a large number of cycles.
In connection with the austenitic-martensitic phase transformation and the associated deformation, it is possible to take advantage of two effects. Via the one-way effect, an interlocking element made of a shape memory alloy which was bent closed, i.e., plastically deformed, in the temperature range in which the alloy exists in the martensitic phase, begins to open again when it is heated beyond the temperature at which the transformation into the austenitic phase begins. The alloy begins to “remember” the original shape so that a deformation is carried out in a controlled manner via heat supply, detaching an interlocking connection. In this manner, it becomes possible for the detachable connection to be opened one time in a controlled manner in the desired form.
It is advantageous to impress reshapings on the interlocking elements of shape memory alloys via a so-called “training” which allows the interlocking elements to remember a specific shape both in the austenitic phase and in the martensitic phase. In this context, an open interlocking element and a closed interlocking element are conceivable. To this end, dislocation structures are impressed on the interlocking element made of a shape memory alloy by deforming the alloy beyond the martensite plateau. These dislocation structures restore the alloy to the desired shape also during cooling. In this manner, the detachable connection can be cyclically detached or joined several times by increasing or reducing the temperature of the interlocking elements, depending on the requirements. Thus, not only a controlled detachment but also an active joining becomes possible if required by the circumstances as is the case, for instance, subsequent to an exact positioning of the components.
Shape memory alloys which can be used for the interlocking elements include a plurality of materials such as special alloys of copper, zinc and aluminum or iron, manganese and silicon. Here, the use depends on the temperature range in which the detachable closure is intended to be used and on the temperature at which the deformation begins and, thus, at which the detachment of the closure is accomplished. Advantageously however, the shape memory alloy is composed of a nickel titanium alloy which is composed of 49.9 atom % of nickel and 50.1 atom % of titanium. The advantage of this alloy lies in the commercial availability, the large operating-temperature range, and in the large number of thermal cycles that can be performed with this material.
According to an embodiment of the present invention, the interlocking elements are composed of a material which carries out a deformation in response to the influence of electromagnetic fields.
Used as materials for this purpose are, in particular, electro- and magnetostrictive s

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