A system for fastening a covering on a surface includes a first assembly comprising a first retaining element; and a second assembly comprising a second retaining element; the first and second retaining elements being configured to engage each other so as to form a reversible bond; the system being characterized in that the first retaining element comprises an array of retaining elements comprising hooks having a height (Hc) lying in the range 0.05 mm (0.0020 in) to 1 mm (0.039 in), and the second retaining element comprises an array of retaining elements comprising loops having a height (Hb) lying in the range 0.1 mm (0.0039 in) to 3.0 mm (0.12 in).

A connection system has a first adhesion segment, on which a first connection region is formed, a second adhesion segment, on which a second connection region is formed, and a solidifiable liquid connection substance for connecting the two adhesion segments in a material fit, wherein at least one of the two connection regions is formed flexibly, such that, when the liquid connection substance is introduced between the two connection regions which are opposite one another in an assembly arrangement of the two adhesion segments, a material connection is formed between the two connection regions automatically as a result of the elastocapillary effect via the liquid connection substance.

An adapter for motor replacement includes fixing portions. The adapter has a shape of being placeable so as to be bridged between a housing that fixes a motor and a pulley that is fixed to the motor and transmits a rotary drive force via a belt and to avoid a space for removing the motor from the housing. The fixing portions are respectively fixed to the housing, to which the motor is fixed, and the pulley fixed to the motor.

Locking mechanisms and electronic devices having locking mechanisms are described herein. In one example, a locking mechanism includes a latch configured to move between a locked position and an unlocked position, wherein a component of the electronic device is secured in the locked position and removable in the unlocked position. The locking mechanism further includes a memory wire in communication with the latch, wherein the memory wire is configured to contract in length to move the latch between the locked position and the unlocked position to release the component of the electronic device.

In a surface fastener in plan view seen from above the engaging elements, when an area of an engaging head portion of one of the engaging elements is defined as a head portion area, the head portion area of each of the engaging elements is 22000 ?m.sup.2 or greater and 50000 ?m.sup.2 or less. According to the surface fastener, it is possible to obtain a large peel strength with respect to a female surface fastener.

The method of making a laminate (100) includes stretching a thermoplastic layer (102) so that it plastically deforms, relaxing the plastically deformed thermoplastic layer (102) to reduce its tensile strain, and subsequently laminating the thermoplastic layer (102) to a substrate (104) to make the laminate (100). The stretching, relaxing, and laminating are completed in-line. The thermoplastic layer has a first surface and a second surface opposite the first surface, with the first surface of the thermoplastic layer bearing a plurality of male fastening elements. The second surface of the thermoplastic layer (100) is laminated to the substrate (104).

The article includes a thermoplastic layer having opposing first and second side edges and a first surface bearing male fastening elements. The thermoplastic layer is plastically deformed and has a retardance profile having an average retardance along a line from the first edge to a location 500 micrometers from the first edge and a distance from the first edge where 75% of the average retardance is observed of at least 10 micrometers. In some cases, a distance between the first and second side edges is up to 50 millimeters. In some cases, the article is a fastening tab. The method includes providing a thermoplastic film having opposing first and second side edges, with a distance between the opposing side edges of up to 50 millimeters, and stretching the thermoplastic film to form the thermoplastic layer, which is plastically deformed. The first surface of the thermoplastic film bears male fastening elements.

Embodiments related to a touch fastener and its methods of manufacture and use are disclosed. In one embodiment, the touch fastener may include a substrate with a first portion and a second portion displaceable relative to the first portion. A first fastening element may be formed in the first portion. When the first portion is displaced relative to the second portion, a force and/or moment generated by the displacement may cause the first fastening element to be deployed.

A system for fastening a covering on a surface, the system comprising:

a first assembly (100) comprising a first retaining element (120); and

a second assembly (200) comprising a second retaining element (220);

the first and second retaining elements (120, 220) being configured to engage each other so as to form a reversible bond;

the system being characterized in that the first retaining element (120) comprises an array of retaining elements comprising hooks having a height (Hc) lying in the range 0.05 mm to 1 mm, and the second retaining element (220) comprises an array of retaining elements comprising loops having a height (Hb) lying in the range 0.1 mm to 3.0 mm.

A magnetic buckle device has a first base, a second base, a first component mounted to the first base, a second component mounted to the second base, and a lock mechanism. A magnetic attraction force is generated between the first component and the second component to move the first base and the second base toward each other. The lock mechanism is connected to the second base and has a locked status and an unlocked status. The lock mechanism has an engaging component and an unlocking component. In the locked status, the first base and the engaging component engage with each other such that the first base and the engaging component are inseparable. In the unlocked status, the unlocking component is capable of being operated to allow the first base and the engaging component to disengage from each other.