Disclosed in the present invention are a process for producing an anti-gravity balance massage type buffer convection airbag and an airbag cushion. The production process comprises the steps of preparing materials, laminating, preparing an upper cushion body, preparing a lower cushion body, laminating the upper cushion body and the lower cushion body, and shaping to obtain a finished product. The production process and the airbag cushion can produce anti-gravity and buffer convection effects while increasing the force area, and have the effects of balance and massage.

An pneumatic plug for sealing a pipeline. The pneumatic plug includes a tubular member that extends in an axial direction from a first end to a second end. The tubular member includes a rubber layer and an elastomeric band. The rubber layer extends from the first end to the second end of the tubular member. The elastomeric band is disposed on a top of the rubber layer. The elastomeric band is positioned between the first end and the second end of the tubular member.

An pneumatic plug for sealing a pipeline. The pneumatic plug includes a tubular member that extends in an axial direction from a first end to a second end. The tubular member includes a rubber layer and an elastomeric band. The rubber layer extends from the first end to the second end of the tubular member. The elastomeric band is disposed on a top of the rubber layer. The elastomeric band is positioned between the first end and the second end of the tubular member.

An air spring bellow formed from a rubber composition including a rubber component that contains a polyisoprene rubber and syndiotactic 1,2-polybutadiene. The syndiotactic 1,2-polybutadiene has a low crystallinity of 40 percent or less and the rubber composition includes a filler.

A balloon shoulder assembly for a transcatheter delivery device, such as a balloon catheter, is disclosed. The balloon shoulder assembly includes a proximal balloon shoulder including a proximal collar portion that extends radially outward from a proximal shaft portion, relative to a central axis of the balloon shoulder assembly and a distal balloon shoulder including a distal collar portion that extends radially outward from a distal shaft portion. Each of the proximal balloon shoulder and the distal balloon shoulder are hollow and comprise a compressible, blow molded material.

A balloon shoulder assembly for a transcatheter delivery device, such as a balloon catheter, is disclosed. The balloon shoulder assembly includes a proximal balloon shoulder including a proximal collar portion that extends radially outward from a proximal shaft portion, relative to a central axis of the balloon shoulder assembly and a distal balloon shoulder including a distal collar portion that extends radially outward from a distal shaft portion. Each of the proximal balloon shoulder and the distal balloon shoulder are hollow and comprise a compressible, blow molded material.

A method of reinforcing a seam on a body involves folding a seam allowance into a series of accordion folds to form a series of parallel reinforcement layers. The parallel reinforcement layers are of similar size and form a ridge. A ridge cap of flexible material is placed over the ridge. The ridge cap provides at least one further parallel reinforcement layer. The method involves securing the ridge cap and parallel reinforcement layers together with rows of stitching, with the stitching extending through all of the parallel reinforcement layers.

Systems include a creel assembly supporting a plurality of spools containing at least one cord having an indeterminate length such that a plurality of cords are supported on the creel assembly. A tensioner assembly operative to tension approximately equal predetermined lengths of the plurality of cords received from the creel assembly. A building mandrel supported for rotation and translation. A head assembly supported in fixed relation to the building mandrel. The head assembly is positioned co-axially such that the building mandrel can pass through an opening in the head assembly during translation. Methods of manufacture are included, as are flexible spring members and gas spring assemblies.

Introduced here are methods, apparatuses, and systems for mitigating the contact pressure applied to a human body by the surface of an object, such as a chair, bed, or table. A pressure-mitigation apparatus can include a series of chambers whose pressure can be individually varied. When placed between a patient and a contact surface, a controller can vary the contact pressure on the human body by controllably inflating one or more chambers, deflating one or more chambers, or any combination thereof. By monitoring the pressure in each chamber over time, the controller can also gain an enhanced understanding of movement(s) performed by the human body when positioned on the pressure-mitigation apparatus.

A machine includes an inflation arrangement, a sealing arrangement, and a tensioning device. The inflation arrangement provides air at a first pressure to inflate a first web of a first type of inflatable material, provides air at a second pressure to inflate a second web of a second type of inflatable material, receives the first and second webs, and aligns the first and second webs on the machine. The first pressure is different from the second pressure. The sealing arrangement seals the first and second types of inflatable material. The tensioning device provides a first tensioning force to the first web as the first web moves between the inflation and sealing arrangements and provides a second tensioning force to the second web as the second web moves between the inflation and sealing arrangements. The first tensioning force is different from the second tensioning force.