A polar boss suitable for use in pressurized-gas assemblies. The polar boss includes a longitudinally extending part with a top surface with a recessed opening and a planar bottom surface. A channel extends through the polar boss, communicates with the recessed opening, and terminates at the bottom planar surface to serve as a passageway through the polar boss. A circular groove is provided on the planar bottom surface with inner and outer side walls, with helical threading provided on the inner and outer side walls.

A support structure may be mounted to an existing vertical support. In an embodiment, the support structure may include a plurality of horizontal support members. Two or more vertical uprights are mounted to the horizontal supports. The vertical uprights and one of the horizontal support members provide channels for retaining a peg board panel in position. The support structure may be configured so as to cause the peg board panel to at an angle compared to the vertical supports. Multiple support structures may be coupled together to provide runs of peg board panels. Furthermore, the peg board panel may include a graphic that correspond to products being supported by the peg board panel.

A tube-fitting-assembly ferrule apparatus and method to secure connections between tubing sections against high pressure, vibration, pulsation, and hammering, by providing a tube-fitting-assembly ferrule which elastically deforms in use, securing the primary circumferential point seal with a shock-absorbing and shape-retaining force.

An attachment mount for the front end of a truck, which can fit trucks with full-width or tapering chassis. The attachment mount may include a front member for supporting a front-end truck attachment, and a distribution member. The distribution member may be attached to the vehicle chassis and to the front member, so that the attachment mount spreads stresses originating from downwardly-directed forces exerted on the front member by the attachment, to the front portion of the vehicle chassis.

A formable structure comprises a first material having a first level of viscosity and a second material having a second level of viscosity, wherein the second material is formed to hold at least a portion of the first material in a particular position or a particular shape. The first material can be configured to function as a thermal interface between two or more hardware components. The second material can be configured to have a higher viscosity than the first material. In one illustrative example, the second material can include a light-activated resin that is configured to harden when exposed to one or more treatments. By the use of the first material and second material, the techniques disclosed herein are adaptable to gaps having a wide range of sizes, which is difficult to do with traditional thermal interface materials. The second material can also function as an EMI shield.

An inflatable game ball includes a cover formed from a plurality of panel segments attached along peripheral edges. Each panel segment an outer panel portion, having a first shape and a first size, and an inner panel portion, having the first shape and a second size, smaller than the first size. The outer panel portion is joined with the inner panel portion, such that peripheral edges of the outer panel portion are aligned, and parallel, with peripheral edges of the inner panel portion. An inflatable bladder is disposed within the cover and movable between deflated and fully-inflated conditions. When the inflatable bladder is deflated, an interior surface of the outer panel portions is separated from a top surface of the inner panel portions by a first distance. When the inflatable bladder is fully-inflated, the interior surface is in contact with the top surface of the inner panel portions.

A pressure sensor comprises a first substrate and a cap attached to the first substrate. The cap includes a processing circuit, a cavity and a deformable membrane separating the cavity and a port open to an outside of the pressure sensor. Sensing means are provided for converting a response of the deformable membrane to pressure at the port into a signal capable of being processed by the processing circuit. The cap is attached to the first substrate such that the deformable membrane faces the first substrate and such that a gap is provided between the deformable membrane and the first substrate which gap contributes to the port. The first substrate comprises a support portion the cap is attached to, a contact portion for electrically connecting the pressure sensor to an external device, and one or more suspension elements for suspending the support portion from the contact portion.

An optical filter device includes an interference filter and a housing. The interference filter includes a fixed substrate, a movable substrate joined to the fixed substrate, a fixed reflective film provided on the fixed substrate, and a movable reflective film provided on the movable substrate and opposed to the fixed reflective film across an inter-reflective film gap. The housing includes a base substrate on which the interference filter is arranged. A fixing member is arranged between the movable substrate and the base substrate. The movable substrate is fixed to the base substrate by the fixing member in one place excluding a region where the movable reflective film is provided.

The invention disclosed an apparatus for lifting and sliding a structure attached to the wall, comprising a lifting platform extending out over the building on the roof, and a synchronous lifting and sliding system which is arranged on the lifting platform; wherein the lifting platform comprises two platform beams extending out over the building, and a lifting beam placed on the platform beam; the synchronous lifting and sliding system comprises a hydraulic lifter arranged on the lifting beam, a hydraulic push instrument kit connected to the lifting beam, and a controller; A connecting rod is connected to one end of the hydraulic push instrument kit, and several installing holes are arranged at regular intervals on the connecting rod; The distance between the adjacent installing holes of the connecting rod matches with a stroke of the hydraulic push instrument kit; An installing ear-plate is provided on the platform beam to connect with the connecting rod.

When manufacturing a low-temperature tank (1), a plurality of unit tanks (10) that are able to be connected together by mutually different objects, and that are each capable of storing low-temperature liquefied gas are manufactured in a factory that is distant from a construction site. The unit tanks (10) are then transported to the construction site, and an inner tank (2) is then assembled at the construction site by connecting together the plurality of unit tanks (10). An outer tank (3) is then formed around the inner tank (2).