An electrical outlet cover including a base and an opening extending through the base, the opening configured to allow access to a socket face through the base. The electrical outlet cover further including a mounting screw aperture extending through the base, and a keyhole cover slidably connected to the base to at least partially cover the mounting screw aperture.

An apparatus is presented comprising a captive screw comprising an upper portion, an upper middle portion, a central middle portion, a lower middle portion, and a lower portion, the central middle portion comprising a threaded portion, the lower portion comprising a barbed portion, the upper middle portion and the lower middle portion comprising a smooth portion, and the upper portion comprising a grip portion, wherein an outer circumference of the barbed portion is flexible, wherein the captive screw is configured with a first attachment portion and a second attachment portion to attach to a first member of an auxiliary device, and wherein the captive screw is configured to act as a set screw with respect to a second member of an auxiliary device.

A base for an electrical outlet having a front surface and a back surface, at least one opening extending there through, the at least one opening having a size large enough to receive a socket face, at least one mounting screw aperture opening extending through the base, the mounting screw aperture having a first portion sized large enough to receive a mounting screw head, and at least a second portion extending into the first portion and through the base, the second portion sized large enough to allow a mounting screw shaft to extend through the base but small enough to disallow the mounting screw head from passing through the base, at least one keyhole cover removably secured within the first portion, and wherein the base is configured with the second portion of the mounting screw aperture accessible after the base is installed on the electrical outlet.

One example of the present disclosure relates to a method of applying torque to an object, which threadably engages a part. The torque is applied with a wrench, comprising a first handle, a second handle, a planetary gear mechanism, a drive that comprises an internal gear and an external gear, and a first pawl, movably coupled to the first handle and biased to contact the external gear of the drive. When the drive is coupled to the object, the method comprises transmitting an input torque to the drive by rotating at least one of the first handle and the second handle relative to the part. The first pawl is movable between a first position and a second position relative to the first handle may or may not operatively engage the external gear of the drive.

Methods of providing a stent assembly that includes a stent jacket formed from an expansible mesh structure having apertures and that includes a fiber having a diameter of about 7 micrometers and about 40 micrometers, and an expansible stent operatively associated with the stent jacket. The method further comprises administering to the subject an active pharmaceutical ingredient (API) eluted from the stent assembly.

An intravascular device configured to treat an aneurysm that includes a support structure including metal struts configured to be positioned in a body lumen and defining a central fluid passage that extends axially along the support structure, and a knitted mesh cover disposed over an exterior thereof and across a radial arc and along a length of the support structure sufficient to exceed an opening of an aneurysm to be treated, and the cover includes a polymer fiber having a diameter of at least 40 nanometers to 30 microns and apertures therethrough, the apertures being sized to prevent blood from passing through the device to prevent further expansion of the aneurysm. Devices including apertures that are at least 20 microns and sized to minimize or prevent an aneurysm-filling material from exiting the aneurysm through the knitted mesh cover and support structure, and methods of stenting, are also encompassed.

This pertains to a method for connecting fiber-reinforced structural components. In a first step of the method, a first fiber-reinforced structural component and a second fiber-reinforced structural component are supplied. In another step, the first fiber-reinforced structural component and the second fiber-reinforced structural component are heated by means of a heating device. A penetration through the first fiber-reinforced structural component and the second fiber-reinforced structural component is produced in another step by means of a fastening device. In another step, the first fiber-reinforced structural component is connected to the second fiber-reinforced structural component by means of the fastening device. This furthermore pertains to a structural aircraft element.

A manufacturing method of a casing is provided. First, a plate, a frame and a main shell are provided, wherein the plate has an adhering region and at least one thermal fusion region, and the frame has a first surface and a second surface opposite to each other. Then, the plate is stacked on the first surface of the frame, wherein the thermal fusion region is overlapped with the frame, and the adhering region is not overlapped with the frame. The main shell is adhered to the adhering region of the plate and the second surface of the frame. The thermal fusion region is fixed to the frame by thermal fusion. In addition, a casing manufactured through the above-mentioned method is also provided.

An intravascular device configured to treat an aneurysm that includes a support structure including metal struts configured to be positioned in a body lumen and defining a central fluid passage that extends axially along the support structure, and a knitted mesh cover disposed over an exterior thereof and across a radial arc and along a length of the support structure sufficient to exceed an opening of an aneurysm to be treated, and the cover includes a polymer fiber having a diameter of at least 40 nanometers to 30 microns and apertures therethrough, the apertures being sized to prevent blood from passing through the device to prevent further expansion of the aneurysm. Devices including apertures that are at least 20 microns and sized to minimize or prevent an aneurysm-filling material from exiting the aneurysm through the knitted mesh cover and support structure, and methods of stenting, are also encompassed.

A base for an electrical outlet having a front surface and a back surface, at least one opening extending there through, the at least one opening having a size large enough to receive a socket face, at least one mounting screw aperture opening extending through the base, the mounting screw aperture having a first portion sized large enough to receive a mounting screw head, and at least a second portion extending into the first portion and through the base, the second portion sized large enough to allow a mounting screw shaft to extend through the base but small enough to disallow the mounting screw head from passing through the base, at least one keyhole cover removably secured within the first portion, and wherein the base is configured with the second portion of the mounting screw aperture accessible after the base is installed on the electrical outlet.