217 results about "Shoulder width" patented technology

The invention provides a five-freedom exoskeleton type robot for healing upper limbs, which comprises a mounting deck used for mounting the robot. The mounting deck is provided with a lead rail, an erector is arranged on the lead rail and is provided with a height adjustment mechanism, a rotatable mounting arm is arranged on the erector by a rotatable axis. A healing mechanical arm body composed of a shoulder width, an upper arm, a forearm and a hand lever is installed on the rotatable mounting arm. Five freedom joints and five drive motors are respectively arranged on the rotatable axis of each joint; four torque sensors which are connected with the drive motors in a cascading way are respectively arranged on the parts of shoulder, elbow and wrist, wherein, the shoulder parts are provided with two torque sensors, the elbow part is provided with one torque sensor and the push-up part of the wrist part is provided with one torque sensor. The torque sensors that are taken as transfer devices and detecting devices are connected with a motor reducer and an executing mechanism. The robot provides single joint movement of each joint and three-dimension multi-joint compound movement for suffers as well as provides simple and basic movement training of daily life.

A dimension measurement device comprises a waist length principle-axis tape, an arm length principle-axis tape, a shoulder width principle-axis tape, a plurality of sensing measurement tapes, a principle-axis tape positioning control module, a tape body-surface sensing module, a tape extension control module and a dimension measurement and processing module. The principle-axis tape positioning control module automatically positions the principle-axis tapes after a user wears the dimension measurement device. The tape body-surface sensing module senses body surface positions and adjusts the positions of the tapes. The tape extension control module controls the tapes to contract to the body surface of the user. The dimension measurement and processing module automatically measures and acquires dimension data of the body parts of the user. The invention further provides a method of acquiring body dimension data and displaying fittings. Through the dimension measurement device and the method, the user can obtain an actual fitting matching with the body dimension data to purchase easily the well-fitting clothing.

The invention relates to an original number tailoring method for a clothing armhole, which comprises the steps that original clothing numbers, namely the armhole perimeter, the chest width, the back width, the shoulder width, the chest circumference and the clothing length are determined according to anthropometric data; the armhole is designed into a notched ellipse; a diagonal line of an external rectangle of the notched ellipse is a perimeter mark hy; and the ratio of the perimeter mark hy to the armhole perimeter is y; an hy operational method is created; a base line of the external rectangle of the notched ellipse and an armhole circumflexion identification line are determined according to the original clothing numbers, such as the armhole perimeter, the chest width, the back width, the shoulder width and the chest circumference; then, relevant points are determined; and an armhole perimeter line is drawn. The armhole tailoring method is quick in tailoring and high in the precision of the armhole tailoring line, meets the fast-paced requirements of the clothing market on clothing transformation, is applicable to the tailoring of high-grade clothing, and is simple, convenient and practical.

The invention is suitable for the field of man-machine interaction, and provides a virtual touch screen-based man-machine interaction method, a virtual touch screen-based man-machine interaction device and electronic equipment. The method comprises the following steps of: acquiring the arm length and double shoulder width of a user; determining the attribute parameters of a virtual touch screen according to the arm length and the double shoulder width of the user, wherein the attribute parameters of the virtual touch screen comprise the length and width of the virtual touch screen and a distance between the virtual touch screen and an XOY plane; determining the movement of a screen operating point according to the movement of a user palm relative to the virtual touch screen, and determining the operating instruction of the user according to the change of a distance between a central mass point of the user palm and the XOY plane; and executing the corresponding operation according to the operating instruction. By the embodiment of the invention, the attribute parameters such as the distance between the virtual touch screen and the XOY plane, the width of the virtual touch screen, and the like can be adjusted to a state making an operator more comfortable, and the man-machine interaction is more natural and convenient.

A blade (10) for a rotor of a wind turbine having a profiled contour divided into: a root region (30), an airfoil region (34), and a transition region (32) between the root region (30) and the airfoil region (34). A shoulder (40) is located at the boundary between the transition region (32) and the airfoil region (34). The blade's profiled contour comprises a local relative thickness defined as the local ratio between a maximum profile thickness (t) and the chord length (c). The ratio between the shoulder width (W) and the blade length (L) being less than or equal to 0.075, and the relative thickness (t/c) in a blade length interval of 0-0.8L is at least 22%.

A pillow measurement device and a method of using it are provided. Certain embodiments of the device include a first leg, a second leg, a first movable portion slidably affixed to the second leg, a means for affixing the first movable portion to the second leg, and a second movable portion. One or more of these components may have measurement indicia imprinted on them. The device can be used to measure various anatomical parts of a person, such as head width, neck width, shoulder width, cervical length and cervical depth. Measurements taken using the device may be used to custom build a pillow for a person.

The invention discloses a method for measuring shape data, comprising the following steps: acquiring a shape image of a user to be measured, the shape image comprising at least one of a human body front image, a human body side image and a human body back image; Obtaining feature points in the shape image of the user to be measured; And generating shape data of the to-be-measured user according tothe feature points, wherein the shape data comprises at least one of shape information, a body mass index, a shoulder width, a chest circumference, a waist circumference and a hip circumference. Theinvention further discloses a shape data measuring device and a computer readable storage medium. According to the invention, the shape data of the user is generated by collecting the shape image of the user, so that the user is informed of the size information.

The invention discloses a non-contact-based human body three-dimensional size measuring device. The non-contact-based human body three-dimensional size measuring device comprises a sliding rail arranged on an arc-shaped wall or an arc-shaped bracket, wherein a device which consists of a motor, a microprocessor, a wireless communication module and a camera is arranged on the sliding rail, and is in communication connection with a computer through a wireless communication module. According to the device, personnel entering the measuring region are measured through the instruction of the computer, when the tested personnel enter the measuring region, the camera is used for shooting the points a, b and c of the tested personnel, and sending the shot photos to the computer so as to be processed; the body height, the shoulder width, the leg lengths, the arm lengths, the waistlines, the hipline, the chest circumference and other cloth preparing data of each tested personnel in each photo are stored, and meanwhile, the photo is stored; the device has the characteristics of simple structure, no manpower participation, and good use effect.

The invention provided a non-contact human body appearance parameter measuring device. The device comprises an information acquisition module which is used for acquiring the height information and picture of a measured human body, a segmentation algorithm module which is used for dividing the human body and the background in the picture of the measured human body, a measurement algorithm module which is used for acquiring the appearance parameters of the measured human body, and an information storage module which is used for storing the appearance parameter information of the measured human body to realize the inquiry, calling and output of the stored information. According to the invention, the complete non-contact human body appearance parameter measuring device based on a mobile platform is provided; main human body appearance parameters of height, shoulder width, arm length, waist width, chest circumference, leg length, waist to foot length and the like are rapidly measured and visually displayed; the device has the advantages of simple operation, high automation degree and accurate measurement result, and effectively meets the need of human body appearance parameter measuring of clothing design, tailoring, mobile phone games and other industries.

The keyboard of the present invention provides an ergonomic layout having a configuration divided into two halves, with half the standard keys normally associated with a user's left hand positioned on the left side of the board while the other keys normally associated with a user's right hand are positioned on the right side of the board, the centers being shoulder width apart. The spacing enables users to type comfortably with keystrokes that feel natural and correct. For example, the left parenthesis button may be positioned on the left side while the right parenthesis may be positioned on the right side.

The invention discloses a method for recognizing falling of old people and an accompanying robot, and relates to the field of falling posture recognition. The method comprises the steps: 1, collectingbody video data; 2, positioning a human body; 3, acquiring skeleton information based on the result; 4, calculating a head and foot height difference value hd, a head and foot height difference valuehp of a front frame and a rear frame, and a speed v and a shoulder width w corresponding to the head height difference value of the front frame and the rear frame according to the skeleton information; and 5, establishing a judgment formula according to the data, outputting a result, calculating a distance measurement error, judging whether the distance measurement error meets a dichotomy condition or not, if so, identifying by adopting the established neural network model, and if not, returning to the step 1. According to the method, figure extraction is carried out firstly, and then posturerecognition is carried out, and dynamic and static recognition is carried out through skeleton information, so that the problem of low recognition accuracy caused by local feature extraction and detection in the prior art is solved, and the falling behavior of the old people can be correctly and rapidly recognized.

The invention provides a convenient, compact and lightweight patient transfer device for transferring patients between two horizontal surfaces such as from bed to bed, bed to stretcher, stretcher to gurney, etc. One person can lift or maneuver the device under a patient with a minimum of effort, with ergonomic safety, and little chance of injury or strain. The device comprises a generally flat and semi-rigid support member adapted to be orientated in a generally horizontal disposition, apertures or other non-protruding handles along the sides of the support member spaced shoulder-width apart, fasteners for securing the patient on the support member, and omnidirectional rollers positioned on the lower surface of the support member for translating the support member across the generally horizontally disposed surface and transferring the patient to or from one horizontal surface to another.

The invention relates to a monitoring system for detecting the number of accessing personnel by virtue of an infrared ray array and application of the monitoring system. The monitoring system comprises pyroelectric infrared sensors, signal processing circuits, a power supply circuit, a serial interface circuit, a single-chip microcomputer and an overload monitor. According to the monitoring system, the pyroelectric infrared sensors are utilized for acquiring infrared rays emitted by a human body when people pass through the monitoring system, judging the accessing directions of people from the vertical direction and measuring and calculating the space width occupied by the infrared rays emitted by the human body, a space width value is compared with a shoulder-width value of the human body preset in a single-chip microcomputer program to calculate the number of the accessing personnel, and the overload monitor is utilized for controlling the operation and the stopping of a construction elevator so as to realize the safe operation of the construction elevator. The monitoring system is rapid and accurate in detection result, simple in structure and strong in applicability and is convenient to mount.

The invention relates to an armhole tailoring method. The method comprises the following steps of: firstly, determining armhole perimeter, front width, back width, shoulder width and bust, and setting the armhole perimeter as AH; and determining the figure of armhole tailoring lines by using a rectangle formed by a shoulder width line, a back width line and a bottom armhole depth line. According to the experience of cloth tailoring, the tailoring process of the method is applicable. Thus, armhole depth can be determined by the intercrossed position of the diagonal line L of the rectangle and the back width line. In the situation that the armhole perimeter is determined, the armhole depth can be determined according to the armhole width, and the armhole width can be obtained according to the following formula: armhole width=half bust-front width/2-back width/2, and the half bust, the front width and the back width are important factors for cloth styles. Thus, the armhole depth can be determined conveniently according to the requirements of the cloth styles.

The invention provides a human body shape measuring method and device based on deep learning key point detection. The method can detect and identify key points of a human body shape through a computervision technology based on deep learning, and can achieve quick and real-time calculation of main human body shape indicators (for example, height, shoulder width, sleeve length, pant length, chest circumference, waist circumference, hip circumference and the like) and visual display of measurement effect. The method has strong anti-noise ability, high robustness and accurate measurement result for various complex environments, and effectively meets the needs of tooling batch measurement and clothing shopping guide, the measuring device can achieve automatic measuring and calculating of key indicators of the human body shape through deep learning training, the measurement is accurate and the operation is simple.

The invention aims to provide a left-hand/right-hand dual-purpose upper limb rehabilitation robot. The left-hand/right-hand dual-purpose upper limb rehabilitation robot comprises a heightening upright post, a shoulder adjusting mechanism, a shoulder joint motion unit, big arm lengthening mechanisms, elbow joint motion units, front arm lengthening mechanisms and wrist joint motion units. The shoulder adjusting mechanism can be moved leftwards and rightwards, the shoulder width can be adjusted according to different trainers, and meanwhile a mounting position is provided for an arm rehabilitation mechanism. The shoulder joint motion unit has two degrees of freedom, namely, shoulder horizontal revolving and big arm upward/downward swinging. The left-hand/right-hand dual-purpose upper limb rehabilitation robot is compact in structure, and has left-hand and right-hand rehabilitation training modes; the rehabilitation training of the shoulder, elbow and wrist joint of a left hand or a right hand is realized through one set of robot; the robot has two functions, so that the cost of medical rehabilitation equipment is reduced.

The invention relates to a fit raglan sleeve model design and manufacturing method, which comprises the following steps: building a mathematical model between the inclination angle and body and sleeve intersection and the static elegance, dynamic comfort and static and dynamic elegance and fit of the raglan sleeve; preparing a rear garment piece model, determining shoulder width, a post 1/4 chest width point, a waistline and a post central line and well collecting the dart of the rear piece; and determining the value of the inclination angle of the rear sleeve, the length of the sleeve and cuff; determining the intersection of the rear garment body and the garment piece, drawing a tangent line, which passes through the intersection, of a rear arm hole line, drawing a muscle line which is symmetric with the rear arm hole line below the intersection about the tangent line, and determining sleeve cap height; preparing a front garment piece model, determining the shoulder width, a front 1/4 chest width point, the waistline and the width of front over lap, and collecting a chest dart and a waist dart; drawing a front sleeve central line, sleeve length and cuff; and drawing a vertical line of the sleeve central line according the sleeve cap height of the rear piece, determining a point, which a tangent line serving as a symmetric axis of the front chest width point and a point on the vertical line passes through, on the front armhole curve, determining sleeve width and well drawing a front sleeve piece. The fit raglan sleeve model design and manufacturing method facilitates flexible structural design of garments.

The invention provides a 3D model figure measuring system and a shirt personalized customization 3D model figure measuring system. According to the system, the core part of 'figure measuring' is managed with centralization, datamation and semi-automatization, the garment customization efficiency is improved, the cost is reduced, and the fitness is improved. The 3D model figure measuring system comprises a 3D model preprocessing unit, a 3D model semi-automatic measuring unit and a figure measuring data online management unit which are successively connected, wherein the 3D model preprocessing unit downloads a model obtained through 3D scanning to a local server from the Internet or electronic media and conducts simple preprocessing such as format conversion, hole filling and smoothness; the 3D model semi-automatic measuring unit comprises a chest circumference measuring module, a waistline measuring module, a lower hem measuring module, a neck line measuring module, an arm girth measuring module, a wristband measuring module, an arm length measuring module, a back length measuring module, a front and back shoulder width measuring module and a front and back waist line measuring module, wrinkles are removed with a self-developed contraction algorithm by artificially calibrating the key points of a human body model, and then data is sent to the figure measuring data online management unit.

A bipedal robot of the present invention has a trunk consisting of an upper trunk and a lower trunk which are rotatable around a rotation axis relative to one another. The upper trunk has shoulders on the right and left sides. An arm is provided at each shoulder. A pair of right and left legs is attached to lower ends of the lower trunk. A storage battery is mounted to the back of the upper trunk, positioned within a shoulder width. The storage battery is positioned below the top of a head mounted on the upper trunk. When the robot walks a narrow passage or corridor having a width slightly larger than the width thereof, for example, this arrangement prevents the storage battery from interfering with the passage or the like.

A yoga mat comprising at least one folding depression which enables folding and rolling of a yoga mat so that the width of the mat is typically less than the shoulder width of the user of the yoga mat. The at least one folding depression is typically on the upper, user-contacting surface of the yoga mat. In instances where the overall thickness of the yoga mat is greater than about 0.35 inches, it is advisable to use a location matching folding depression on each side of the yoga mat. The folding depression may be deeper on the user-contacting surface than on the floor contacting surface of the yoga mat. In an alternative embodiment, the upper surface of the yoga mat may be a solid layer, with at least two underlying spaced lower sections to permit folding inward upon the solid layer.

The invention discloses a semi-automatic forming technology of a multi-pin surface mount device. The technology includes the steps that the shoulder width B is acquired, the thickness MB of an adjustment module, the thicknesses F of pins, the distance H between the lower surfaces of the pins and the bottom plane of a multi-pin surface mount device body, parameters D of the pins, the length C of a single-edge forming cut foot and the bending radius R are acquired; a shoulder width adjustment parameter X(E), a standing height adjustment parameter X(G) and a welding face length adjustment parameter X(C) are acquired according to the following equations: X(E)=B-MB, X(G)=D-H and X(C)=C-MC+R+F; the multi-pin surface mount device is placed on a device fixture to be located on the same plane with the face of the fixture, and the machining lateral side of the multi-pin surface mount device abuts against a forming station lower module; after X(E), X(G) and X(C) are set on a digital micrometer of a die, pin forming is carried out. Good forming uniformity, good coplanarity and high forming precision of the multi-pin surface mount device are achieved by controlling X(E), X(G) and X(C).

An intersection recognizing apparatus includes a stereo image obtaining unit configured to obtain a stereo image by capturing a forward image in a street by a stereo camera; a parallax image generator configured to generate a parallax image based on the stereo image obtained by the stereo image obtaining unit; a parallax map generator configured to generate a parallax map based on the parallax image; a feature data storage unit configured to store feature data of an intersection road shoulder width regarding a road surface; and a recognition processing calculation unit configured to recognize an intersection condition based on the parallax map and the feature data of the intersection road shoulder width.

The present invention discloses a gender and age identification method for vertical image flow counting. The overhead color image and depth information of the mounting point are obtained by an infrared 3D sensor (RGB-D device); human characteristics information such as image identification and height, shoulder width and head body ratio are used; machine learning methods are adopted to get the gender and age attribute analysis results, current flow count applications can be improved, only the number of people can be counted while the characteristics of their demographic shortcomings cannot be analyzed, and flow of people counting system practicality and product competitiveness can be improved through the provision of multiple demographic information.

The invention provides a method for tailoring a fitted blouse body prototype. The method comprises the following steps of 1, determining the tailoring of a back part foundation line and front part foundation line of the blouse body prototype according to the measured waistline, chest circumference, shoulder breadth, arm root circumference and neck circumference; 2, determining an armhole tailoring line of the blouse body prototype; 3, determining a breast dart, wherein the breast dart width is equal to the difference value by subtracting the distance value between the rear underarm dart lower point and the rear lower flat line from the distance value between the front underarm dart lower point and the front lower flat line; 4, tailoring according to the determined structure lines to obtain the blouse body prototype. The relation between the armhole and the breast dart width, the blouse length, the breast dart width and a human body is founded, the breast dart tailoring method is determined by tailoring the armhole around the arm root and adopting the side sewing length, so the fitted blouse body tailoring technology is more simple and clear and better accords with an actual human body form and the tailored blouse is more fitted.