1157 results about "Bending force" patented technology

A variety of steerable needles, lancets, trocars, stylets, cannulas and systems are provided for examining, diagnosing, treating, or removing tissue from a patient. The steerable needles, trocars, stylets, cannulas and systems also provide a platform for delivery of target materials, such as therapeutics, biologics, polymers, glues, etc., to a target site. An embodiment of the invention includes a steerable device for use in accessing target site in a patient comprising: a steerable member adapted to penetrate tissue; and a steering mechanism adapted to be operated by a user to apply a bending force to bend the steerable member to access the target site.

A double shouldered high torque resistance threaded connection for drill stem components having enhanced resistance to torque forces, tensile loads and material stress and fatigue is disclosed. The tool joint is provided with threads having a 75 DEG included angle between the thread flanks thereof and with generally elliptical root surfaces to minimize material stress and fatigue during operation under high torque and high tensile loads. When made up, the double intrerengaging shoulders of the threaded tool joint are in firm face to face engagement permitting torque forces and tensile loads to propagate through the tool joint in a manner that minimizes bending forces and minimizes high stress concentration so that the resulting service life of the tool joint is significantly enhanced.

A medical device includes a catheter and a stent mounted on the catheter, the stent having a hollow, cylindrical body made with a plurality of rings. The rings each extend circumferentially around the cylindrical body and include an undulating series of peaks and valleys. The rings are joined together by a series of links which are shaped and arranged to promote longitudinal flexibility as the stent is delivered on the catheter and effective scaffolding after deployment. In one aspect of the invention, the rings are provided with inflection points on some portions of the rings which extend in a generally circumferential direction for a short distance. A link is joined at one end at the inflection point on one ring and also joined at a second end at a second inflection point on an adjacent ring. This construction allows the crimped stent to flex longitudinally when it is subjected to bending forces such as those encountered during delivery of the stent and catheter through a tortuous coronary artery.

A skateboard having a front board, a rear board, a connecting element which interconnects the front board and the rear board in a spaced relationship, at least one direction-caster mounted on the underside of each of the front board and the rear board; and the connecting element comprises an elastic member so that the connecting element can be elastically twisted by application of at least one of a twisting or bending force and restores to its original shape when the force is removed.

A wing load alleviation system and method for alleviating the lift-inducing structural-bending force (i.e., moment) experienced by each of the wings of an aircraft. The apparatus includes a deployable panel and an actuator mounted in each wing. The actuators are responsive to a command generator. The actuator is mounted inside the wing and the panel is mounted flush with an outer surface of its respective wing. Each panel can be moved between a retracted position, where it has no affect on airflow moving over the wing, to a deployed position in which it deflects air off of the wing. Each panel is preferably located at a span-wise location at least about halfway along the length of the wing toward the wing tip, and more preferably at least in part outboardly of the outboard-most trailing edge device in the wing. The apparatus effectively shifts the lift-inducing structural-bending forces experienced by the wing more inboard towards the fuselage.

An automated system for delivery of seeds or other therapeutic or diagnostic capsules to internal organs of the patient's body for radiation brachytherapy includes a needling mechanism, a 2DOF robot, an ultrasound probe driver, a 5DOF passive platform, and an easy lock cart. The needling mechanism implants radioisotope seeds by its cannula and stylet driven by two moving stages pushed by DC motors with ball screw transmission. Force sensors are included for detecting insertion forces and bending force. In another embodiment, the needle is rotated for insertion into the patient and can also be used for tissue removal for biopsy. The two embodiments are usable together or separately.

A variety of steerable needles, lancets, trocars, stylets, cannulas and systems are provided for examining, diagnosing, treating, or removing tissue from a patient. The steerable needles, trocars, stylets, cannulas and systems also provide a platform for delivery of target materials, such as therapeutics, biologics, polymers, glues, etc., to a target site. An embodiment of the invention includes a steerable device for use in accessing target site in a patient comprising: a steerable member adapted to penetrate tissue; and a steering mechanism adapted to be operated by a user to apply a bending force to bend the steerable member to access the target site.

An adjustable socket system, method, and kit for use with prosthetic devices or orthotic, orthopedic, or exoskeletal support devices that includes a paddle and a compressing device coupled to the paddle. The paddle is chosen from a plurality of paddles of different shapes in such a way that the paddle inner surface is substantially coextensive with a soft tissue area overlying skeletal structures. The compressing device presses the paddle against the soft tissue area in order to minimize the motion of the paddle relative to the underlying skeletal structures without causing discomfort to the user or compressing areas not in contact with the paddle, allowing compressed tissue to flow into uncompressed areas. The system, method, and kit can include an external tool, sensors, actuators, and controllers, to assist fitting and for adjustment after fitting. A stabilizer can be added to resist the bending force on the paddle.

A coaxial cable connector 1 including a connection terminal (2) to be connected to an internal conductor (34) of a coaxial cable 31 and a metal shell (4) for supporting the connection terminal (2) via an insulating member 3 establishes electrical connection between the internal conductor (34) of the coaxial cable (31) and the connection terminal (2) by bending the connection terminal (2) according to the respective bending forces of the shell (4) and the insulating member (3) and making such connection terminal (2) retain the internal conductor (34) of the coaxial cable (31).

A fixation implant generally includes at least one shaft configured to securely fit into a hole formed in bone. The shaft is of sufficient length relative to the interior diameter of the hole and, in some preferred embodiments, has locking protuberances, like threads, ridges, or barbs, that resist removal of the shaft from the hole in the bone when different types of forces, such as tensile or bending forces, are applied to the implant. The shaft is generally cylindrical in shape, however, in various embodiments, different cross-sections could be used. In a preferred embodiment the implant has a flattened and bent end portion emerging from only one side of the shaft. At the other side of the implant the outer surface of the shaft and the emerging end portion form a smooth surface, without any projections. This smooth surface at the end of the implant prevents irritation of the surrounding tissue. The end portion has a mating surface configured to grip a portion of the soft tissue surrounding the hole between the bone and the mating surface. The longitudinal axis of the shaft is oriented at an angle of less than 90 degrees relative to the mating surface. In this fashion, the implant anchors soft tissue, such as rotator cuff tissue, to bone.

The needle assembly comprises a needle including an elongated tubular needle body having open distal and proximal ends, and an elongated stylet having a solid shank complementary to the tubular needle body and slidably movable therewithin substantially coaxially thereto. The needle body includes a tip portion defining the distal end and a main portion defining the proximal end. Moreover, the tip portion bendable relative to the main portion. In turn, the stylet shank has a solid distal end. Furthermore, at least one of the distal end of the needle body and the distal end of the stylet shank is beveled at an angle to a longitudinal axis of corresponding one of the needle body and the stylet shank. The beveled distal end exerts a bending force to the tip portion of the needle body against the beveled face during advancement of the needle body through a human tissue.

A group of devices and machines for converting the mechanical energy of live loads into electricity. A generator is operated by gears which in their turn are operated by a Bourdon tube or similar-acting device fed by working fluid in a pipe from a reservoir. The reservoir walls are impacted by a choice of the rolling weight of a motor vehicle, the bending force on some object and / or by a decompressing force on the working fluid. The invention is applied to roadways, buildings, sailboats, cars with internal combustion engines, elevators, ships and bridges. If the varying impacts are caused by wind or subsurface ocean currents a new type of diverging nozzle is used to magnify pressure input. By using the invention pressure waves are used to transfer energy with minimal movement of working fluid, minimizing friction and other losses.

An endoscope for visualizing and operating upon a surgical site within a human body employs an elongated tubular body adapted to be inserted through bodily passages so that the distal end is adjacent the surgical site. The body has a flexible section, at least proximal to the distal end, and manually adjustable bending controls at the proximal end may be manipulated to impose bending forces on the distal end to steer the distal end to the surgical site. A fluid turbine supported for rotation adjacent the distal end is powered by fluids pumped through a passage so as to rotate the turbine. The various cutters and debriding tools may be attached to the distal ends so that they are rotated by the turbine.

An apparatus for connecting a first and a second section of tubing is provided. It comprise a body having a bore therethrough, a first end, a stiff section, and an exterior surface adapted for connection to the first and second sections of tubing. A first tapered section may be provided on the first end of the body, and the first end of the body may be adapted to be disposed within the first section of coiled tubing. A second tapered section may be provided on the second end of the body, and the second end of the body may be adapted to be disposed within the second section of coiled tubing. The first and second tapered sections may be provided with outer and inner tapered surfaces. By connecting two coiled tubings using a connector as disclosed herein, the result is cost savings through an improved joint between two coiled tubings that will withstand bending forces applied proximate the joint in a manner believed to be superior to joints formed by previous coiled tubing connectors. Related methods are also provided.

A wake absorber, wherein an aquatic vehicle with a propulsor mounted on the vehicle and operative to propel the vehicle through a water medium, has a wake absorber mounted on the vehicle aft of the propulsor. The wake absorber includes an artificial muscle surface adapted to be impinged upon by a wake created by the propulsor. The wake absorber further includes electrodes mounted on the artificial muscle surface. Pressure of the wake upon the muscle surface exercises a bending force on the surface, which creates energy that is recovered by the electrodes as electrical power that can be digitized. Energy removed from the muscle surface by the electrodes weakens the wake and renders the wake less pronounced visually and acoustically.

A dynamic knee brace that can be used to apply a bending force across the knee. Two brace arms are connected together by a central joint that allows the knee to pivot. A joint in each brace arm allows the brace arm to be inclined toward the leg. A cam assembly is present to actively incline each brace arms toward the leg as the knee moves to full extension. An adjustment mechanism for the cam assemblies provides control over the maximum amount of inclination each brace arm achieves. Preferably, the adjustment mechanism adjusts the cams equally so that both brace arms are inclined by the same amount.

An integrated control method for the shape of medium-thin plate in conticasting and tandem rolling includes finishing shape setting control model, automatic thickness control AGC, the affection of laminar flow cooling to plate shape, and use of new roller technique. The roller bending force and the positions of serial rollers are set up and regulated by plate shape controlling model, which consists of presetting control model, dynamic control model and plate shape and thickness decoupling model.

A bracket and tension rod device is mounted to a top-drive dolly to carry the weight of a sheave wheel assembly. The device is deployed by connecting the sheave wheel assembly to a rigid dolly arm with an adjustable tension rod to relieve a gooseneck from adverse tensile, compressive and bending forces from the movement of a wireline through the sheave assembly.

A one-piece cable support having a box-shaped mounting assembly. The box-shaped mounting assembly extends over a cable tray portion of the cable support and includes several optional mounting apertures. Once secured to a building structure through the box-shaped assembly, the weight of a suspended bundle of cables is distributed evenly below the box-shaped assembly, thereby permitting the load to be balanced evenly below the assembly and reducing the bending moment and therefore the stress on the wall portion connecting the cable tray and mounting assembly portions of the support. A bracket assembly is provided on the bottom of the cable support to allow easy ganging of multiple cable supports without the need for specialized brackets. Stiffeners are included on the cable support to improve the withstanding of bending forces. A cable retaining arrangement secures cable bundles within the support.

Apparatus and methods are disclosed that are useful for robotic gantry systems that are lightweight while at the same time offering rigidity or stiffness for implementation in Contour Crafting construction and material delivery techniques. The present disclosure is directed to robotic gantry system and material transport apparatus that use of very light structural members that have sufficient compressive strength, but which may otherwise be weak in the presence of bending forces, in conjunction with cables that provide stiffness against bending. Use of such cables provides needed tension while at the same time allowing the robotic gantry system to be very light compared to solid structures, e.g., those with I-beams, etc. Material delivery systems including passive articulated arms are also disclosed.

The invention relates to a method for optimizing and controlling the rolling tensioning roller of finisher. Wherein, it is in the extending rate control system; the inner ring of control closed loop is rolling pressure closed loop and tension closed loop; based on the difference of adjustment sequence of tension and rolling pressures, first adjusting tension or first adjusting rolling pressure to control the extending rate, to control extending rate and plate shape; the method that first adjusting tension is that optimizes the tension to control extending rate, when it is over limited range, keeps it constant, and adjusts the rolling force; and the method that first adjusting rolling pressure is that optimizes the rolling pressure to control extending rate, when it is over limited range, keeps it constant and adjusts the tension force. The invention can confirm the accuracy of extending rate and the quality of sheet shape.

A hot rolled strip steel convexity control method comprises the steps of according to original roll profiles, abrasion, thermal expansion of rollers and concrete rolling conditions (such as rolling force, plate width and plate thickness), utilizing a mathematic model to calculate plate shape setting and controlling parameters such as roll bending force and crossing angles of the rollers; after threading of a strip steel, carrying out automatic convexity control, which comprises roll bending force compensation for roller thermal convexity change, roll bending force compensation for rolling force change and actual measurement convexity feedback control; according to actual measurement strip steel convexity and target convexity, utilizing the mathematic model to carry out convexity self-learning so as to improve the setting precision of the next roll of strip steel. According to the hot rolled strip steel convexity control method, the strip steel convexity precision and the overall length convexity stability can be effectively guaranteed under the condition that deviation appears in the convexity setting or the rolling conditions drastically change.

The invention relates to a high-precision strip shape control prediction method for a CVC (continuously variable crown) four-roll cold rolling mill. The high-precision strip shape control prediction method includes the steps: (1) building a strip shape prediction model for the CVC four-roll cold rolling mill; (2) determining parameters of the strip shape prediction model by means of regression; and (3) predicting a crown regulating domain of the CVC four-roll cold rolling mill in an online and real-time manner according to the regulating range of strip steel widths, roll radiuses, roll bending force and traversing positions under the condition of determined rolling force based on the strip shape prediction model. By the aid of the technical scheme, the strip shape prediction model is built, the secondary crown and the quaternary crown of a bearing roll gap can be accurately predicted, and the strip shape regulating capability of the rolling mill can be predicted in an online manner based on the strip shape prediction model. Besides, preset values of the roll bending force and roll shifting of the CVC four-roll cold rolling mill can be optimized, so that double waves or middle waves in a secondary wave form and edge and middle composite waves in a quaternary wave form can be effectively controlled, and the yield of a strip is improved.

A torque-indicating wrench includes a wrench body with a head to engage and turn a workpiece, and a stem having an inner peripheral wall with longitudinal and transverse wall segments. A strainable body made of a material with an elasticity modulus smaller than that of the stem has an outer peripheral wall which includes front and rear bending force transmitting areas in engagement with and stretchable relative to the front and rear regions of the longitudinal wall segments, and two gage carrying regions and front and rear end regions that are spaced apart from the longitudinal and transverse wall segments, respectively. A strain gage unit is attached to one of the gage carrying regions to detect change in resistance values corresponding to stretching deformation of the strainable body for processing by a processing circuit so as to obtain a value of torque applied to the workpiece.

A goggle is provided that can comprise a goggle frame and a bend control component. The goggle frame can define opposing lateral portions and a central portion. The goggle frame can comprise a bridge disposed at the central portion of the goggle frame. The goggle frame can be generally flexible upon exertion of a bending force on the goggle frame. The bend control component can extend along the bridge of the goggle frame. The bend control component can be configured to enhance flexural strength of the goggle at a bridge thereof for reducing preferential bending of the goggle frame at the bridge. In some embodiments, the bend control component is formed separately from the goggle frame. In other embodiments, the bend control component can be secured to the frame using fasteners and / or one or more protrusions and corresponding recesses.

The invention relates to a slight center wave strip-shape control method of hot-rolled strip steel. The method comprises the following steps: firstly, choosing a strip-shape feedback control frame; utilizing the adjusting manner of upstream frames, namely, adjusting the roll bending forces of the frames F2-F4 to realize the targeted slight center waves at a precision rolled outlet; secondly, controlling and adjusting the roll bending forces; detecting the flatness of the strip steel in real time by a strip-shape instrument and comparing it with a target value; if the deviation exists, adjusting the roll bending forces of the frames F2-F4. The slight center wave strip-shape control method of hot-rolled strip steel is applicable to overcoming strip-shape problems caused by the stages such as cooling and thermal treatment after hot rolling; the strip-shape quality of martensitic stainless steel strips is improved greatly and the scratching on the surface strip-shape in follow-up pickling and continuous annealing production is solved.

This invention relates in general to a bioabsorbable surgical tissue fixation implant (nail) and, more particularly to an implant for the fixation of soft tissue to bone. In one embodiment of the invention, the fixation implant generally includes at least one shaft configured to securely fit into a hole formed in bone. The shaft is of sufficient length relative to the interior diameter of the hole and, in some preferred embodiments, has locking protuberances, like threads, ridges, or barbs, that resist removal of the shaft from the hole in the bone when different types of forces, such as tensile or bending forces, are applied to the implant. The shaft is generally cylindrical in shape, however, in various embodiments of the invention, different cross-sections could be used. In a preferred embodiment of the present invention, the implant has a flattened and bent end portion emerging from only one side of the shaft. At the other side of the implant the outer surface of the shaft and the emerging end portion form a smooth surface, without any projections. This smooth surface at the end of the implant prevents irritation of the surrounding tissue. The end portion has a mating surface configured to grip a portion of the soft tissue surrounding the hole between the bone and the mating surface. The longitudinal axis of the shaft is oriented at an angle of less than 90 degrees relative to the mating surface. In this fashion, the implant anchors soft tissue, such as rotator cuff tissue, to bone.