平行運動機構(gòu)分析和構(gòu)型設(shè)計含SW三維及17張CAD圖

平行運動機構(gòu)分析和構(gòu)型設(shè)計含SW三維及17張CAD圖,平行,運動,機構(gòu),分析,以及,構(gòu)型,設(shè)計,sw,三維,17,cad 平行運動機構(gòu)分析和構(gòu)型設(shè)計含SW三維及13張CAD圖需要咨詢購買全套設(shè)計請加QQ1459919609-圖紙預(yù)覽詳情如下：SW三維建模圖絲杠.dwg便孔開桿.dwg雙邊傳動軸.DWG坐便板側(cè)板.DWG坐便連桿座1.dwg外文翻譯1外文翻譯2導(dǎo)柱.dwg平行運動機構(gòu)分析和構(gòu)型設(shè)計任務(wù)書.docx平行運動機構(gòu)分析和構(gòu)型設(shè)計開題報告.doc支柱.DWG支柱2.DWG支柱底座.DWG整體裝配圖.dwg文件清單.txt新坐便連桿2.dwg滑塊.dwg目錄.docx螺母滑塊.dwg說明書.docx摘 要本次題目大背景主要來自人口老齡化以及行動不變的病人占老年人的大部分，因此為他們設(shè)計一款多功能護理床具有很大的意義，從目前 的護理床 型來 他們大多功能 單一，因此多功能護理床具有 大的 前景，平行運動機構(gòu) 為多功能護理床的 部分 為 要 要 平行運動機構(gòu)的功能 行分析， 部?的￠部件功能 的不￡ 行?體設(shè)計，￥? 機構(gòu) 行動§currency1分析和運動currency1分析，'“平行運動機構(gòu)的設(shè)計??具有?行 ，fi 平行運動機構(gòu)的fl構(gòu) 行詳 的分析￥–?SolidWorks?件 行三維建模￥裝配，·外 ???的?”和?動動§的?” ? 要的一…，‰ ?”絲杠 ?，??PKP268D28A-L型… 動機 ?文的‰ 一…? 行機構(gòu)的裝配和 `′ ，??SolidWorks?件ˉ的simulation?件?以‰˙¨ 機構(gòu)運行的平? 和?理 ??：平行運動機構(gòu)，三維建模，構(gòu)型設(shè)計，機構(gòu)分析目錄摘要ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ2ABSTRACT…………………………………………………………………………………31—?ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ41.1?題的來 背景ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ41.2?題的目的和意義ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ51.3 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ61.4文 主要 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ82平行運動機構(gòu)的?體 設(shè)計ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ102.1 設(shè)計要 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ102.2 ?體 設(shè)計ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ102.3 ??? ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ112.4 ?動 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ122.5 ?flˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ133平行運動機構(gòu)設(shè)計及運動分析ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ143.1 平行運動機構(gòu)設(shè)計及分析的目 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ143.2 平行機構(gòu)的設(shè)計及運動currency1和動§currency1分析ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ153.2.1 平行機構(gòu)的運動currency1分析ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ183.2.2 平行機構(gòu)的動§currency1分析ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ193.3 ?flˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ204 平行運動機構(gòu)fl構(gòu)設(shè)計ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ214.1平行運動機構(gòu)的機afl構(gòu)設(shè)計ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ214.2 平行運動機構(gòu)的具體?動 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ254.3 ?flˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ275裝配 `′ ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ285.1 加 ˉ的?意??ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ285.2平行運動機構(gòu)的裝配 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ295.3平行運動機構(gòu)的 `′ ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ305.4 ?flˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ316?flˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ326.1全文?flˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ336.2 o 的 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ34文 ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ36錄ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ38Mechanism Design and Simulation Analysis of Multifunctional Nursing BedLizong Lin, Song Zhang, Xinglong Hu School of Mechanical and Power EngineeringEast China University of Science and Technology, Shanghai, ChinaE-mail: lizonglin@online.sh.cnE-mail: skyzhangsong@163.comAbstract-This research develops a new multifunctional nursing bed that can realize the movements of turning left and right sides and defecating on the bed for clinical use. And use the ADAMS to analysis the effects to the motor torque from the force on the rotated board, friction of contact pair and space position. By analysis of dynamic on the model of the main mechanism can get the curves and the influences of torque, which plays an important guiding role in selecting appropriate motor and installation structure.Keywords- nursing bed, ADAMS, virtual prototyping, dynamic analysisI. INTRODUCTIONNursing beds as parts of medical equipments are necessary for hospital care, and has been widely used in hospitals, nursing homes, retirement homes and many other fields. However, the prices of good quality nursing beds are expensive, the new study can reduce the cost and the difficulty of care, for example, to the patients resting on the bed for a long time, their turning over and lifting back required nurses have sufficient physical strength. Common beds just have head up, leg flexion and extension functions, this bed adds the function as rolling around, defecating on the bed and so on as needed [1].II. MECHANISM DESIGNThe nursing bed can be divided into four parts by the structure and function as: bed body, control cabinet, a framework for activities, removable bedpan. Block diagram as in Fig. 1In the control cubicle, the installment has the master control board, the motor-driven board, the transformer, the switching power supply and so on. The control cubicle connects with the nursing bed by the connection. Except the fixed mechanism, the bed body also includes the drive motor and the vane organization. The active frame installment has the wheels, which may be separated from the nursing bed. In the frame there are the water tank, stool which can rise and fall and the hot air blower. The transportable bed pan also installs wheels and can insert into the activity frame. In addition, the control system also includes the wire operators, the LCD and so on. In the system there are six DC motors which complete the actions of rising and falling of the head, the flexion of the leg, rolling around of the left and right, opening and closing of the vane and rising and falling of the stool and so on.A. Bed Function.The bed activity functions including the rising and falling of the head, the flexion of the leg and the bed body tum sides which satisfied patient's active request basically, favors the patients to improve their blood circulation and prevents the bedsore. This nursing bed has designed the flexion of the leg conforms to human body's movement characteristic. The bed body side turns may divide into three movements: the left side to tum, the right side to tum and the even side. Fig. 2, Fig. 3, Fig. 4 is the bed body's three movements.B. Nursing FunctionThe defecation function is rare in other electric nursing bed which suits the paralysis patient especially. In the middle of the bed body there is a rectangular opening, where can only seen two vanes in the normal condition. When defecating, the vane turns down to makes a breach, then the defecation device rise. After the defecation completed, the vane upturns continues to fill the gap. The defecation device is composed of the active frame and the motion bed pan which can inserts into the frame, and the entire frame can coordinate to load the bed body. The nursing bed can also provide the functions of spraying water and drying. In the active frame installed the water tank, the hot air blower and the solenoid valve. The water tank has a water pump, heater, the temperature sensor and the water level sensor. It can be realized that the water temperature establishment, the water temperature maintains and the water tank volume automatic increase and so on under the controller's control. The patient who is sick bed in long-term is the major recipients of this nursing bed. Before defecate, press the key “stool raise“ on the remote control, two vanes open, and then the stool raise, plate of the stool erects automatically, and so as to the bed pan. The patient can defecate after these movements completed. After the defecation completes, press corresponding key, carries on the flushing first, then uses hot blast drying, which has manifested the human nursing function. The water for flushing is preserved in the tank, and use heating wire to maintain the temperature. It's needed to gather and process of the temperature in order to realize the control of it, the gather can completed by the sensor, the process and control can completed by the monolithic integrated circuit. As a result of the patient's defecate time is uncertainty, and requests maintains the temperature constant, for the aim of providing appropriate temperature momentarily.III. SYSTEM MODELINGA. ModellingNursing bed is a very complex structure, which can divided into the mechanical component of the bed body, the active frame, the transportable bed pan, the electronic control system and the motor driven system by the structure and the function. Fig. 5 is the geometric modeling graph of the vane [2].I Right rotated board 2 lever of right rotated board 3 Driving arm of right rotated board 4 Motor of right rotated board 5 Motor of left rotated board 6 Driving arm of left rotated board 7 lever of left rotated board 8 Left rotated board 9 Door axis of rotated boardFigure 6 Lever and driving arm of rotated board I Lever of rotated board 2 Driving arm of boardB. Contact Pairs ProcessingFig. 6 is the geometric modeling graph of the vane lever and actuating arm. The axis of one of the vane lever ends fixed with the vane, the other end has a curve groove. Both sides of the vane actuating arm are round axes, whose axle centers are parallel. One axis is linked with the motor and fixed, the other coordinated with the curve groove to form a contact. The motor caused the actuating arm to reverse, which can realize opening and closing of the vane.III. SIMULATION ANALYSIS The purpose of dynamics simulation of the vane is to analysis the influence to the torque in the different condition, and guide to improve the design and select the appropriate drive motor [3]. A. !influence to Torque from ActionThe sizes of the left and right vanes are not equal, but the motors are same. Select the right one which has a greater area and force to analysis [4]. Select the action point in middle of the two vanes, and the arm of the force is 15 cm. The friction coefficient of the steel is 1.2 to 1.4, and 0.02 to 0.05 after lubricated, takes the friction coefficient of 0.05.The curves are not smooth seen from Fig.7 and Fig.8, as the high frequency component coupling to them analyzed mathematically, which were considered to be vibration in actual. It is also discovered that the vane has a phenomenon of vibration, which meet with the simulated data when testing. The vibration has a relation to the stress, nature of material, rigidity of material, osculating curve of rigid body, friction coefficient and so on. It is inferred from the simulation analysis that the bigger stress the smaller vibration. Make sure the contact surfaces are smooth when design the curve groove of the vane lever to reduces the nonessential vibration. Fig.9 is the angular velocity when the stress is SOON, the vibration situation can be observed obviously [5].The actual action to the vane from the patient is not constant but increases gradually when the vane turns to the level position nearby. So that, select the larger motor torque as far as possible to prevent overloading.B. lrifluence to Torque from Friction CoefficienttThere are three kinds of restraints altogether in the vane simulation: fixed restraint, hinge restraint and contact restraint. The fixed restraint cannot cause the friction force, but the hinge restraint and the contact restraint can. The hinge to the hinge restraint can be processed as sliding bearing. The friction coefficient of sliding bearing is small. The dynamic friction coefficient of sliding bearings is 3.0xl0-3 and the static friction coefficient is 4 .0 x 10 - 3 ? Although the contact restraint is also a kind of sliding friction, but it cannot simply processed as sliding bearing, because the contact is complex, and the stress is also big. Fig. 10 represents the contact force when lever axis and curve groove of actuating arm have a stress of SOON, where the biggest can reach 1800N.Fig. 11 and Fig. 12 respectively represent the torque chart in the friction coefficient of 0.07 and 0.31, and the stress of SOON.Compared with Fig. 11 and Fig. 12, it cannot obviously see the changes of the torque, so as the curve. The biggest diversity is that the vibration reduces when friction coefficient is 0.31. The friction coefficient f.I. has not caused the biggest moment of force change obviously, only has a tendency of enlargement, after the process of filter smooth correlative value [6].C. lrifluence toTtorque from Space PositionWhen design the vane, not only consider the actual installment space and the request size, but also need to pay attention to the relations in the space position between the revolution axis of the vane lever and the revolution axis of the actuating arm. Because their positions are not only relating whether the vane can operation normally, but also affects the biggest driving force. Use the coordinates system as Fig. 13 when establish the coordinate. Fig. 14, Fig. 15 and Fig. 16 are the changing graph of biggest torque in VI-452 Volume I 2010 2nd International Conference on Mechanical and Electronics Engineering (ICMEE 2010) different space position [7]. And the stress is SOON, friction coefficient is 0.03.Comparing the data in the different condition may see that the time and the biggest torque have changed remarkably. And the movement time is the smallest in condition 3, so as the force moment. In the condition 2, the lever arm separated from the drive shaft in the moving procession. When actually determine the data, should consider about the motor of torque, size and structure and so on, the best effort may not be the most suitable [8]. Through the analysis of dynamics simulation to the vane that:1) The motor driven torque is small. In the process of simulation analysis, exerted 500N force to the vane and calculates the biggest torque of the motor is 25Nm, but actually the torque is 18Nm, therefore present the phenomenon of the vane asthenia when raising. Here takes 500N force, it is only the average action size in the normal condition. When actual use, possibly bigger than 500 N, so that it must be considered that the motor should have a sufficient remainder actuation torque to satisfY the request under the dissimilar condition. 2) The influence of the friction coefficient is not big to the torque. Under the condition of constant action, it's indicated that the friction coefficient has a very small influence to the torque, through takes different friction coefficient to calculate the biggest torque. 3) The space position of the rotation axis has a bigger influence to the torque, the condition 1 and 3 have a difference of 1 ONm, and the movement time also changing.V. CONCLUSIONDiscussed the influence factors include the driving torque action, friction coefficient, space position and so on by the dynamics and the kinematics analysis to the vane of the nursing bed, which improved the theory basis to the design of the structure, and provided the science basis to the performance evaluation analysis of the bed. This bed may also increase the network communication function to the system, which will cause it to be able to transmit the information automatically to the superior machine, and realizing the long-distance patient care monitor.Reference[I] Fang Jinbo, Chen Hong. “The Challenges to Nurses Work from Aging Populations,“ Journal of International Nursing. vol. 3, Feb. 2004,pp.147-149.[2] Zheng Jiaorong. ADAMS-Getting Started with Virtual Prototyping Technology and Improve. Beijing: Mechanical Industry Publishing House. 2002. I [3] Peng Qibo, Li Haiyang. “Modeling and Simulation of Robot Maoipulator Based on Virtual Prototyping Technology,“ Journal of East China University of Science aod Technology, vol. 33, Jun. 2007, pp.58-62. [4] Jin Xin, what Yulin aod Liu Hua. “The Wind-driven Generator Coupled Oscillation Analyzes,“ Journal of Vibration aod Shock, vol. 26,Jun.2007,pp.144-147.[5] Liu Jun, Lin Lizong, Liu Xiaoping aod Waog Gaog. “ADAMS Flexible Body Movement Simulation Analytical Study and Utilization,“ Modem Maoufacture Project, vol. 5, May. 2004, pp. 53-55. [6] Dong Ligaog, Chen Weihai aod Zhang Jianbin. “Kinematic Analysis aod Simulation for Hybrid Type Cable-driven Maoipulator, “ Journal of System Simulation, vol. 19, Sep. 2007, pp. 4007-4011.[7] Waog Yeo “Development of Control System for Multifunction Nursing-bed,“ Control & Automation, vol. 22, Jul. 2006, pp. 117- 119. [8] Jiaog Hao, Waog Wei, Liu Yongping. “The Study on the Multifunctional Nursing Bed,“ Manufacturing Automation, vol. 31, Jun. 2009,pp. 71-73.