This Application seeks to protect Applicant's HYTORC® Z® System which involves: tools having multi-speed/multi-torque modes with torque multiplication and vibration mechanisms without use of external reaction abutments; a force transfer means to yield in-line co-axial action and reaction for use with such tools; driving means and shifting means capable of attaching to washers under the nut for use with such tools and force transfer means; associated washers and fasteners for use with such tools, force transfer means and driving means; and related accessories for use with such tools, force transfer means, driving means, washers and fasteners. The HYTORC® Z® System includes the following: Z® Washers located under nuts or bolt heads of various types having engageable perimeters of multiple shapes, sizes, geometries and serrations, such as washer/fastener radius engagement differentials, and frictionally biased faces with relatively higher friction against the flange surface and relatively lower friction against the nut, such as friction coefficient increasing treatment means of various types, sizes and locations; HYTORC Z® Guns incorporating a powerful intermittent (impact, vibration, ultrasonic, etc.) mechanism, a precise torque multiplier in the same tool combining rapid run-down with calibrated torque; HYTORC® Z® Sockets with dual drive coaxial action and reaction having outer sleeves to react on Z® Washers and an inner sleeves to turn nuts or bolt heads; HYTORC® Z® Spline Adapters and Reaction Plates for backwards compatibility with HYTORC®'s torque/tension systems including the AVANTI® and ICE® square drive systems, the STEALTH® limited clearance system, the pneumatic jGUN® series, the FLASH® Gun and LITHIUM Series electric multipliers and more; the combination of HYTORC Z® Washer and the HYTORC® Z® Dual Friction Washer™ including a dual friction-enhanced face washer and/or the HYTORC® Z® Nut/Bolt for counter-torque under a nut or bolt head on the other side of the joint; HYTORC® Z® Dual Drive Offset Links for tight clearances while using HYTORC®'s torque/tension systems; HYTORC® Z® Vibration Mechanisms applied thereof; Z®-Squirter® Washers; Z®-DTI Washers; HYTORC® Z® Washer and Nut Assemblies; Anti-Loosening Z® Washers; and any combinations thereof. Further disclosures include: Tapered Fastener Assemblies; Tapered Torsional Couplings; Two-Part Tapered Nut Assemblies; Two-Part Tapered Thread Nut Assemblies; HYTORC® Anti-Loosening Z® Washers, Nuts and SMARTSTUDS; and any combinations thereof.

A clamp mechanism includes a clamp configured to receive an associated support structure, a connecting assembly attached to the clamp, and a mount assembly configured to secure an apparatus to the clamp. The connecting assembly includes an engagement member selectively movably into engagement with the associated support structure for securing the associated support structure within the clamp. The mount assembly includes a first mount connected the clamp and a second mount connected to the apparatus and adapted to be rotationally indexed relative to the first mount to secure the apparatus in at least two positions relative to the clamp.

A clamping device includes first and second clamping components and at least one elastic component. The first and second clamping components include first and second rear portions and first and second front portions pivoted to each other respectively. The first and second rear portions are pivoted to each other. The elastic component connects the first and second clamping components. The first and second clamping components rotate, with respect to each other, to a first state due to an elastic force of the elastic component so that the first and second front portions have a first distance. When the first and second clamping components are subject to a force, the first and second clamping components resist the elastic force of the elastic component and rotate, with respect to each other, to a second state so that the first and second front portions have a second distance greater than the first distance.

Systems and methods for monitoring the location of a patient using an integrated belt and sensor for alarm for patient furniture. The belt may include at least one strap and a slider configured to be releasably attached to one another and an alarm system that is triggered when the slider is disengaged from the other strap or straps. By doing so, the amount of time it takes to remove the belt can be increased, which provides medical personnel additional time to reach a patient. Additionally, the system may include additional components to allow a patient to move side-to-side relative to the furniture or device. For instance, where the furniture is a bed, side-to-side movement is desired for added comfort. The system may include a slider enabling the belt to be adjustable for patients of any number of different sizes.

Systems and methods for monitoring the location of a patient using an integrated belt and sensor for alarm for patient furniture. The belt may include at least one strap and a slider configured to be releasably attached to one another and an alarm system that is triggered when the slider is disengaged from the other strap or straps. By doing so, the amount of time it takes to remove the belt can be increased, which provides medical personnel additional time to reach a patient. Additionally, the system may include additional components to allow a patient to move side-to-side relative to the furniture or device. For instance, where the furniture is a bed, side-to-side movement is desired for added comfort. The system may include a slider enabling the belt to be adjustable for patients of any number of different sizes.

A suction catheter clamp is provided for supporting a suction catheter on a structure in an operating room, such as an IV pole or a bed frame. The clamp includes a pair of legs terminating at one end in opposing jaws and defining an opening between the jaws. The legs are pivotably connected to each other so that the opposing jaws can move apart to enlarge the opening to receive the structure and are biased towards each other to engage and clamp onto the structure. A resilient clip is defined on one leg of the pair of legs that is configured to receive and clamp a suction catheter between the resilient clip and a surface of the one leg. The clamp also includes a retainer defined on the other leg of the pair of legs that is configured to receive and crimp a tube that is to be connected to the suction catheter.

Systems and methods for monitoring the location of a patient using an integrated belt and sensor for alarm for patient furniture. The belt may include a plurality of straps configured to be releasably attached to one another and an alarm system that is triggered when at least one of the straps is disengaged from the other strap or straps. By requiring multiple straps to be released from one another, the amount of time it takes to remove the belt can be increased, which provides medical personnel additional time to reach a patient. Additionally, the system may include additional components to allow a patient to move side-to-side relative to the furniture or device. For instance, where the furniture is a bed, side-to-side movement is desired for added comfort. The system may include a slider enabling the belt to be adjustable for patients of any number of different sizes.

Systems and methods for monitoring the location of a patient using an integrated belt and sensor for alarm for patient furniture. The belt may include a plurality of straps configured to be releasably attached to one another and an alarm system that is triggered when at least one of the straps is disengaged from the other strap or straps. By requiring multiple straps to be released from one another, the amount of time it takes to remove the belt can be increased, which provides medical personnel additional time to reach a patient. Additionally, the system may include additional components to allow a patient to move side-to-side relative to the furniture or device. For instance, where the furniture is a bed, side-to-side movement is desired for added comfort. The system may include a slider enabling the belt to be adjustable for patients of any number of different sizes.

A fastener for securing a bundle to a supporting structure includes a fastener body and a slip-resistant pad. The fastener body can include an article mount and a cable tie slot extending transversely through the article mount, the cable tie slot adapted to receive a cable tie. The mount provides support for a bundle and the slip-resistant pad is capable of friction with the bundle to resist axial movement and/or rotation of the bundle.

A removable module and a housing for an attachment system of a consumer product is described. The removable module includes a locking mechanism comprising a first portion having a substantially planar top surface and second portion that comprises a substantially non-planar bottom surface. The first portion and the second portion are coupled together. The locking mechanism also includes a first spring mechanism coupled between the first portion and the second portion. The first spring mechanism causes the first portion to be biased away from the second portion. The locking mechanism also includes a second spring mechanism. The second spring mechanism causes the substantially planar top surface of the first portion to be biased substantially flush with respect to the removable module and also causes the substantially non-planar bottom surface of the second portion to be biased proud with respect to the removable module.