A hinge includes a first part disposed in a first member and a second part disposed on a second member. The first part includes a first curved part with an arc shape protruding to outside in a radial direction of a rotational center, and a second curved part disposed outside the first curved part in the radial direction of the rotational center with spacing from the first curved part with an arc shape along the first curved part. The second part includes a connection disposed between the first curved part and the second curved part, wherein the connection moves smoothly along the first curved part and the second curved part about the rotational center. The second part couples, with the first part, the first member and the second member together to allow the first member and the second member to relatively rotate about the rotational center.

A hinge includes a first part disposed in a first member and a second part disposed on a second member. The first part includes a first curved part with an arc shape protruding to outside in a radial direction of a rotational center, and a second curved part disposed outside the first curved part in the radial direction of the rotational center with spacing from the first curved part with an arc shape along the first curved part. The second part includes a connection disposed between the first curved part and the second curved part, wherein the connection moves smoothly along the first curved part and the second curved part about the rotational center. The second part couples, with the first part, the first member and the second member together to allow the first member and the second member to relatively rotate about the rotational center.

A hinge includes a first part disposed in a first member and a second part disposed on a second member. The first part includes a first curved part with an arc shape protruding to outside in a radial direction of a rotational center, and a second curved part disposed outside the first curved part in the radial direction of the rotational center with spacing from the first curved part with an arc shape along the first curved part. The second part includes a connection disposed between the first curved part and the second curved part, wherein the connection moves smoothly along the first curved part and the second curved part about the rotational center. The second part couples, with the first part, the first member and the second member together to allow the first member and the second member to relatively rotate about the rotational center.

A hinge includes a first part disposed in a first member and a second part disposed on a second member. The first part includes a first curved part with an arc shape protruding to outside in a radial direction of a rotational center, and a second curved part disposed outside the first curved part in the radial direction of the rotational center with spacing from the first curved part with an arc shape along the first curved part. The second part includes a connection disposed between the first curved part and the second curved part, wherein the connection moves smoothly along the first curved part and the second curved part about the rotational center. The second part couples, with the first part, the first member and the second member together to allow the first member and the second member to relatively rotate about the rotational center.

Various embodiments of the present invention relate to a remote control case and an electronic device including the same, the remote control case comprising: a cover unit for covering at least a part of a front surface of the electronic device; a first grip unit integrally formed with a first cross sectional surface of the cover unit, and extended in a first direction of the cover unit so as to have a predetermined area; and a second grip unit integrally formed with a second cross sectional surface of the cover unit, and extended in a second direction of the cover unit so as to have a predetermined area, wherein the cover unit comprises a first control unit having a predetermined shape and a first boundary line, and a second control unit having a predetermined shape and a second boundary line, so as to enable the remote control case to be normally mounted on the back surface of the electronic device and carried, and to be mounted on the front surface of the electronic device so as to be used for controlling an unmanned aerial vehicle, an unmanned ground vehicle, an unmanned ship, and the like, when the unmanned aerial vehicle, the unmanned ground vehicle, the unmanned ship, and the like are controlled, such that convenience of portability is provided to a user and boundary characteristics of a physical area (for example, a height difference, a central protruded part, a boundary line, a guide protruded part, an inclined surface, and the like) for controlling the unmanned aerial vehicle, the unmanned ground vehicle, the unmanned ship, and the like, are provided to the first and second control units, thereby enabling the user to intuitively control, without continuously staring at a screen, the unmanned aerial vehicle, the unmanned ground vehicle, the unmanned ship, and the like. Other various embodiments are possible other than the various embodiments provided in the present invention.

An anti-vandalism mounting system for monitoring water physical variables in open channels, which comprises: a first member, comprising a base with a plurality of perforations to introduce a plurality of anchoring means for fixing the first member to a system installation surface; a second member, which is fixed on the first member of the system by a plurality of anchoring means; a third member, arranged externally, which is attached to the first and second members from inside the system by anchoring means; and a fourth member, pivotally arranged in the lower part of the third member; wherein the first member comprises a plurality of compartments to house a plurality of devices for the operation of the system and for the monitoring of physical variables to be protected by the system; and wherein the system comprises an energy generating device and a plurality of safety devices, so that the fourth member is fixed to the third member of the system. A procedure for assembling an anti-vandalism mounting system for monitoring water physical variables in open channels.

A sensor arrangement includes a sensor which is arranged in a housing constructed of two plastic injection molded parts (2, 3). The electrical leads are sealingly led through the housing (1) and are sealed by way of O-rings which on the one hand bear in a groove of the lead and on the other hand bear in a recess forming the housing feed-through.

A sensor arrangement includes a sensor which is arranged in a housing constructed of two plastic injection molded parts (2, 3). The electrical leads are sealingly led through the housing (1) and are sealed by way of O-rings which on the one hand bear in a groove of the lead and on the other hand bear in a recess forming the housing feed-through.

In an example, a retainer may include a first latch, a plunger, a second latch, and a linkage engaging the second latch with the first latch. The plunger may actuate the first latch, and the linkage may actuate the second latch upon the first latch being actuated.

Some embodiments include an x-ray detector, comprising: a plastic housing including a conductive coating; a two-dimensional sensor array disposed in a within the plastic housing and configured to generate image data in response to incident x-rays; a front plate connected to the plastic housing, the front plate and the plastic housing forming an enclosure surrounding the two-dimensional sensor array; wherein the conductive coating and the front plate form at least part of an electromagnetic interference shield around the two-dimensional sensor array.