A brand-new design scheme for robots in space sleeping cabins and medical cabins.
机器人的组件结构
The Component Structure of Robots
本产品由以下技术方案组成,其特征在于包括:
This product comprises the following technical solutions, characterized by including:
流体喷射机械臂(1) / Fluid Spraying Robotic Arm (1)
多功能装配机械臂(2) / Multifunctional Assembly Robotic Arm (2)
温控吹风机(3) / Temperature-Controlled Hair Dryer (3)
物品储藏室(4) / Item Storage Room (4)
外部出水口(5) / External Water Outlet (5)
垂直螺旋升降装置(6) / Vertical Spiral Lifting Device (6)
旋转出水阀门(7) / Rotary Water Outlet Valve (7)
浴缸(8) / Bathtub (8)
振动器清洁组(9) / Vibrator Cleaning Group (9)
伸缩流体输送管(10) / Telescopic Fluid Conveying Pipe (10)
小孔升降板(11) / Small Hole Lifting Plate (11)
中央计算机(12) / Central Computer (12)
智能广告屏(13) / Intelligent Advertising Screen (13)
拼接式多层金属外壳(14) / Spliced Multi-Layer Metal Shell (14)
焚烧炉(15) / Incinerator(15)
生物制氧装置(16) / Biological Oxygen Generation Device(16)
营养液输送装置(17) / Nutrient Solution Delivery Device (17)
恒温储水袋(18) / Constant Temperature Water Storage Bag (18)
全光谱植物灯(19) / Full-spectrum Plant Light (19)
智能液固气流体快速制冷制热机器人器件二代(20) / Intelligent Liquid-Solid-Gas Fluid Rapid Cooling and Heating Robot Components (Version 2)
机器人各组件的详细说明
Detailed Explanation of Each Component of the Robot
流体喷射机械臂(1)
Fluid Spraying Mechanical Arm (1)
根据水压、舒适度、范围、精度等不同需求,选择不同的喷射装置进行装配。可对物品进行360°全方位混合液体喷射,并记录每次操作的过程。其结构为机械夹持式,可通过外部夹持或插入定制装置后内部扩展的方式进行装配。该设计适用于操作力不大的工艺,虽降低稳定性,但其结构可实现更大的兼容性。
Different spraying devices are selected for assembly based on requirements such as water pressure, comfort, range, and precision. It can perform 360° all-around spraying of mixed liquids on items and record each operation process. Its structure is a mechanical clamp type, allowing assembly via external clamping or internal expansion after inserting customized devices. This design is suitable for low-force operations, sacrificing some stability for greater compatibility.
多功能装配机械臂(2)
Multifunctional Assembly Mechanical Arm (2)
可智能识别物品并进行相应操作。根据不同物品选择不同机械手,如旋转钢丝球、振动洗碗海绵、超声波清洁刷、仿人机械手等,并能记录每次操作的过程。其结构为螺旋装配式,采用定制装置装配以提高稳定性。
It can intelligently identify items and perform corresponding operations. Different manipulators (e.g., rotating steel wool balls, vibrating dish sponges, ultrasonic cleaning brushes, humanoid robotic hands) are selected based on the item, with each operation process recorded. Its structure is a screw-assembly type, using customized devices for enhanced stability.
温控吹风机(3)
Temperature-Controlled Hair Dryer (3)
可根据需求定制温度,在室内进行烘干或冷却处理。基本结构由加热装置、制冷剂储存装置和风扇组成。
The temperature can be customized for drying or cooling treatments indoors. Its basic structure consists of a heating device, refrigerant storage unit, and fan.
物品储藏室(4)
Item Storage Room (4)
采用多层存储结构,存放机器人作业时使用的不同工具,并配备夹具使工具排列整齐。
It features a multi-layer storage structure to organize different tools used during robot operation, with fixtures ensuring orderly arrangement.
外部出水口(5)
External Water Outlet (5)
兼容多种场景,结构由螺纹斜接头和多层金属板组成。
Compatible with various scenarios, its structure comprises a threaded oblique connector and multi-layer metal plates.
垂直螺旋升降装置(6)
Vertical Spiral Lifting Device (6)
通过电机旋转改变螺纹钢的转向,实现升降目的,可调整小孔升降板(11)的高度,满足沐浴、搓洗或桑拿的需求。
The motor rotation changes the direction of the threaded steel to achieve lifting, adjusting the height of the small-hole lifting plate (11) for bathing, scrubbing, or sauna needs.
旋转出水阀门(7)
Rotary Water Outlet Valve (7)
根据计算机指令在特定情况下排放废水,基本结构由电机和挡水板组成。
It discharges wastewater under specific conditions per computer commands. Its basic structure includes a motor and a water-blocking plate.
浴缸(8)
Bathtub (8)
采用不锈钢等保温防污材料制成,可持续储水用于沐浴或储存冷却液。
Made of stainless steel or other heat-preserving, pollution-resistant materials, it can store water sustainably for bathing or coolant storage.
振动器清洁组(9)
Vibrator Cleaning Group (9)
可根据需求选择机械振动装置或超声波振动模块,通过改变机械振动模式实现不同清洁效果。超声波振动可进行高频清洁,也可用于辅助按摩和振动脱水。
Mechanical vibrators or ultrasonic modules can be selected for different cleaning effects. Ultrasonic vibration enables high-frequency cleaning, auxiliary massage, and vibration dehydration.
伸缩流体输送管(10)
Telescopic Fluid Delivery Pipe (10)
由多节伸缩管组成,可引入固体、液体、气体等多种形态的流体。
Composed of multiple telescopic sections, it can convey fluids in solid, liquid, or gas forms.
小孔升降板(11)
Small-Hole Lifting Plate (11)
采用厚度≥2mm的防腐防锈穿孔金属板,左右两侧带有螺纹紧固件,供垂直螺旋升降装置(6)进行升降操作。
Made of anti-corrosion, rust-proof perforated metal plates (≥2mm thick), it has threaded fasteners on both sides for lifting by the vertical spiral device (6).
中央计算机(12)
Central Computer (12)
选用时代相对先进的计算机,接收其他设备数据并进行深度学习,将数据记录在云端。根据用户指令需求向其他设备发送指令,配备水温传感器、气温传感器等多种传感器。基于传感器数据与历史数据,深度学习统计不同物品的清洁习惯,进而调整室内组件。可搭载Windows等系统并安装AI软件(如机器人化妆、医疗软件)。
Equipped with an advanced computer, it receives data from other devices, conducts deep learning, and records data in the cloud. It sends commands based on user instructions and sensor data (e.g., water/air temperature). It can run systems like Windows and AI software (e.g., robotic makeup/medical apps).
智能广告屏(13)
Intelligent Advertising Screen (13)
结合摄像头、高清广告屏和中央计算机(12)安装的各类软件,可无线投屏。捕捉用户面部数据后,进行AI化妆等操作并记录每次化妆数据。数据成熟后,机械臂可直接接管操作。用户可查看健康数据或触控操作软件功能,如检测室内温度、液体容量等。
Combining a camera, HD screen, and central computer (12) software, it enables wireless screen mirroring. After capturing facial data, it performs AI makeup and records each session. Once data matures, the robotic arm can take over. Users can check health data or control software functions (e.g., indoor temperature/liquid volume).
拼接式多层金属外壳(14)
Spliced Multi-Layer Metal Shell (14)
采用多层金属板,可选不同金属应对不同频率的电磁波。短粗金属立方体连接金属板,确保抗压性,适用于真空环境。四周拼接处采用插销式装配,组装后抽空内部空气形成真空,为用户提供恒温、安静、安全、洁净的休息环境。
Made of multi-layer metal plates (selectable for different electromagnetic frequencies), it uses stubby metal cubes to connect plates, ensuring compression resistance for vacuum environments. Pin-type assembly creates a vacuum after construction, offering a constant-temperature, quiet, safe, and clean resting space.
焚烧炉(15)
Incinerator (15)
采用研磨搅拌式化学燃烧,将燃烧物打碎成细小颗粒,加入助燃剂使细小颗粒都变成可燃体,通过吹风机保证燃烧室内空气充足,引燃后持续搅拌增大空化空间,使燃烧物与氧气充分接触,细小颗粒同时燃烧,则加速燃烧速度,废气通过过滤系统无害排放。
Utilizes grinding and stirring chemical combustion to break combustibles into fine particles. Combustion accelerants are added to render all particles flammable. A blower ensures adequate air supply in the combustion chamber. Continuous stirring post-ignition expands cavitation space, maximizing oxygen contact with fuel for simultaneous particle combustion, accelerating burn rates. Exhaust gases are filtered for harmless emission.
生物制氧装置(16)
Biological Oxygen Generation Device (16)
通过基因工程培养的特殊生物,具有非常强的光合作用,能够高效的吸收二氧化碳和生成氧气。
Genetically engineered organisms with enhanced photosynthetic capabilities efficiently absorb CO₂ and generate oxygen.
营养液输送装置(17)
Nutrient Solution Delivery Device (17)
其结构为输液管和储液器和输液速度阀,输液管前端带有固定胶可将输液口固定至人体输液部位如口腔,也可将出液口含入口中,输液速度阀可控制输液速度,如点滴输入或持续直流输入。
Comprises an infusion tube, reservoir, and flow rate valve. The tube’s adhesive-tipped end secures to oral or other infusion sites, or the outlet can be held in the mouth. Adjustable flow enables drip or continuous delivery.
恒温储水袋(18)
Constant Temperature Water Storage Bag (18)
其结构带有加热温控保护装置和密封袋,密封袋材质选用人体舒适的软性高强度材质。
Features a heating element with temperature control protection and a sealed pouch made of soft, high-strength, body-friendly material.
全光谱植物灯(19)
Full-Spectrum Plant Light (19)
完全模拟太阳光照,可为人体与其他生物带来必不可少的太阳能。
Fully replicates natural sunlight spectra, providing essential solar energy for humans and organisms.
智能液固气流体快速制冷制热机器人器件二代(20)
Intelligent Liquid-Solid-Gas Rapid Cooling & Heating Robot Component Gen2 (20)
带有流体传感器和制冷制热装置,上下为螺纹接口,可用于安装第三方使用组件。
Equipped with fluid sensors and thermoelectric cooling/heating units. Threaded top/bottom interfaces allow integration with third-party modules.
机器人实现的功能
Functions Implemented by Robots
24小时超级健康管家
24-Hour Super Health Steward
机械臂装配生物信息扫描装置(如生物量子雷达)后,可定期对生物体进行健康扫描,建立生物量子信息的数字模拟数据,精度可达单个细胞级别。
When equipped with a bioscanning device (e.g., bio-quantum radar), it conducts regular health scans, creating digital simulations of bio-quantum data with single-cell precision.内置AI医疗系统实时读取生物信息数据,检测异常(如心脏信号异常)时提前采取预防措施(神经调节或心脏除颤急救)。
The built-in AI medical system reads bio-data in real time, taking preventive measures (e.g., neural regulation or defibrillation) upon detecting anomalies.生物信息数据可上传云端,供其他机器人调用以实现协同服务(如定制营养餐等)。
Bio-data can be uploaded to the cloud for collaborative services (e.g., customized meals).
Medical-grade dust-free and bacteria-eliminating room, defining the
quality of future life
The robotic arm can assemble ultraviolet disinfection devices, cleaning devices, etc. By controlling the movement of the robotic arm along the path around the entire chamber, and then using a temperature-controlled hair dryer (3) for drying, it can achieve thorough cleaning and sterilization with high precision and without any blind spots.
Taking this as an
example, any fluid that can be conveyed through a telescopic tube can be used
as an optional device for the robotic arm. For instance, an external oxygen
generator can be connected to convey oxygen to create a pure oxygen chamber,
and the telescopic tube can be extended and connected to an oxygen mask to deal
with people suffering from breathing difficulties, and so on.
Customized robotic manipulators, which can efficiently
complete surgical tasks
Doctors can remotely connect to the robot by wearing an MR
helmet. The camera on the robotic arm of the robot will transmit images to the
MR helmet. Through the non-invasive brain-computer interface of the helmet,
doctors can directly take over the robot for diagnosis and physiotherapy.
For complex surgeries, doctors need to have an embedded brain-computer interface and combine it with specialized surgical robotic hands such as the Da Vinci Surgical System. It can replace traditional surgical tools and perform surgeries with higher precision.
Each surgery
can be recorded for robot training, and in the future, robots can directly
replace doctors to perform fully automated surgeries.
The safety factor of traditional houses is low. Embrace a new solution
for future rest
The main cabin shell of this device is composed of multiple
layers of metal plates. Different types of metal plates can be selected to deal
with electromagnetic waves of various frequency bands. By increasing the
thickness, it can resist most of the radiation.
High-strength cubic
column alloy is used to connect the metal interlayers. The cubic columns of the
upper connection layer and the lower connection layer should be misaligned.
This structure can resist external impact forces, effectively reduce the transfer
of energy, and play a very positive role in earthquakes or fires.
At the same time,
the middle layer is subjected to a vacuum treatment. Since sound waves require
a propagation medium, sound waves can only enter the next layer through the
cubic columns with a volume of 0.5 cubic centimeters. The misaligned cubic
columns between multiple layers will disperse the sound waves, which can reduce
the penetration of sound waves, thereby preventing the harm of sound waves to
the human body, such as the establishment of brain quantum entanglement,
biological radar scanning or neural attacks, noise pollution, etc.
In the sealed room constructed in this
way, a temperature-controlled hair dryer is used to strictly control the indoor
temperature, creating a comfortable resting environment. This can avoid sudden
death caused by the contraction of blood vessels due to the cold in winter.
Medical water beds and ultrasonic waves are powerful tools for patients'
rehabilitation.
Lower one end of the lifting plate on which the robot originally lies flat to form a triangular structure. When introducing external water sources through the telescopic water pipe, it can save half of the time to reach the same water level height.
The water bag can be filled with water to serve as a medical water bed. Every time you take a bath, the water in the water bag can be released for an immediate bath, effectively solving problems such as the breeding of bacteria in the water bed, the long water filling time, and the difficulty of changing water.
The bottom of the bathtub is equipped with
an ultrasonic emission group, which can perform full-coverage ultrasonic
treatment such as promoting blood circulation and removing blood stasis, and
tissue repair on the person above.
The combination of a bathtub and a bed is very useful
It can quickly clean up contaminants,
such as the fluids generated during sexual intercourse, the dust and bacteria
during daily rest, the collection and disposal of feces from people with
limited mobility, as well as the collection and cleaning of blood during
surgeries.
High-efficiency Incinerator for Rapid Treatment of Domestic Waste
Combining the inspiration from waste incineration and incinerating toilets with robotics, this system can handle domestic waste (such as excrement, medicine boxes, etc.) from dormant individuals (vegetative patients, people with disabilities, etc.). Example: When a vegetative patient needs to excrete, robotic arms retrieve a customized garbage bag with double-sided tape on the opening, paste and wrap it around the genitals. After excretion, the robotic arms directly remove the bag and discard it into the incinerator. The genitals are then cleaned using the aforementioned cleaning device.
Sustained Energy Supply for Dormant Individuals via Constant-Speed Nutrient Solution Delivery Device
As the era of collective robotics replacing humans approaches, humanity faces issues of unemployment and excessive free time. Impoverished individuals can only rely on subsistence allowances for survival. While basic food and shelter are secured, experiencing cutting-edge technology remains out of reach for those at the bottom of the social hierarchy—just as during past societal transformations—because robots primarily enhance labor productivity, while resource and knowledge monopolies underpin the high-consumption economy of the future. With the maturity of brain-computer interfaces or MR (Mixed Reality), perfect sensory feedback can be provided to humans, making more people inclined to live indoors or even remain in a state of sleep without wanting to wake up. Travel will be handled by robots. Gustatory neural interfaces could offer free gourmet experiences to low-income groups, making real-world dining no longer prohibitively expensive. Rather than eating instant noodles, they might opt to consume nutrient solutions while "enjoying" elaborate meals via neural simulations. Therefore, by inserting the constant-speed nutrient solution delivery device into the mouth and entering a dormant state, individuals can achieve prolonged wakefulness-free existence, with the device providing 24-hour supply of nutrients such as vitamins, glucose, and amino acids to maintain bodily functions.
Design Scheme of Medical Surgical Manipulator
Subvert the existing technology, and MR glasses are about to become a thing of the past
Assemble an ultrasonic bone knife with a robotic arm to remove a piece of bone from the middle of the forehead. Cultivate one's own artificial biological bone through 3D printing technology, customize its shape, and then implant it into the removed part. The part of the bone that protrudes outside the forehead serves as a compatible interface, which can be used to fix and assemble a mechanical eye.
The mechanical eye communicates with the brain-computer interface, feeding back the acquired visual data to the brain-computer interface. After the brain-computer interface processes the images, it writes the information into the brain through the nerves. In this way, various shortcomings of MR glasses can be overcome, such as inconvenience and discomfort in wearing, and the dizziness caused by high-speed turning.
Moreover, it can enhance functions that the human naked eye
cannot achieve, such as laser night vision (high-energy focused light wave
module), telescopic vision (high-definition focusing camera), perspective
(ultrasonic module), prediction based on sight and sound (AI + high-speed
camera), etc. It perfectly realizes the real augmented reality scenario.
Control the cell activity of the patient in a cryogenic manner so as to
achieve the extension of lifespan
When a patient suffering from a serious illness is on the verge of death, cleaning equipment can be used to thoroughly clean the body, and then neuromodulation technology can be applied to put the patient into a state of suspended animation.
Then, the external cryogenic liquid is introduced through the fluid injection robotic arm (1), and the human body is placed in a bathtub through the vertical spiral lifting device (6) so that it is surrounded by the cooling liquid.
By making an opening in the brain, the
cooling liquid can be introduced into the cranial cavity. After that, a
temperature-controlled hair dryer is used to adjust the room temperature to
minus 80 degrees Celsius, reducing the activity of cancer cells or viruses.
Brain-computer interface technology enables the patient to activate some brain regions, allowing them to manipulate a robot to communicate with the outside world even while sleeping.
The computer can conduct real-time analysis
of health data, regularly raise and lower the equipment as needed, and carry
out corresponding medical treatments.
The flesh is feeble, but mechanical transcendence is attainable.
Through the previous scenario, the survival conditions of
cells within a certain period of time can be ensured. When robot technology
matures in the future, the brain can be directly removed and placed in the
nutrient solution of a mechanical armor device. Then, a brain-computer
interface can be plugged in to establish brain-like communication, so as to
control the operation of the mechanical armor. A case of this structure is the
biological computer.
Tissue Repair and Death Reanimation
The technical architecture in terms of
the execution logic and security of the
robot
Server Security and Performance
Programming language: For the backend, high-performance compiled languages such as Rust or Golang are selected. This can effectively prevent the intrusion of text-based Trojans like "one-line Trojans", and while improving performance, it can also reduce server wear and tear.
Server: Adopt Serverless architecture, which can effectively reduce personnel maintenance costs and server deployment costs, and security vulnerabilities can be updated immediately.
Global high-speed access: Select Cloudflare
and Tencent Cloud CDN. These two CDNs come with high-level DDoS protection and
have relatively low-cost CC protection fees. They complement each other in
addressing network latency issues both at home and abroad.
Network Connection Security
Wireless communication: Employ quantum communication to prevent data from being wirelessly hijacked, which could lead to the leakage of confidential information or the modification of data.
Network access: Use a central artificial
intelligence router. It can automatically filter suspicious domain names
through big data training. It enforces the requirement that requests must be in
the form of domain names. It automatically filters out non-real-name domain
names and free domain names. For suspicious request data, it analyzes and
reports the information of the data sending end, which is used for manual
review and data training. Third-party devices also need to use domain names for
local area network communication. All local area network IP requests are
intercepted to prevent attacks by "zombie computers".
Security Protection of User Data
Data Storage: Use multiple third-party storage buckets to ensure the security of data storage.
Key Storage: For keys such as payment keys and login keys, etc., the keys are randomly generated and saved in file format to Google Drive and local files. This ensures that even administrators do not know the keys, thereby preventing the leakage of secrets through methods similar to brain-reading. The files are two-way encrypted, and decryption is required when reading them to prevent the files from being stolen. The specially designed key storage in Google Drive makes it impossible to view the files even when logged in. Files can only be downloaded with permission when needed, and cloud backups are carried out to prevent accidental deletion of keys and other situations.
Ordinary Data: Data with little impact on security, such as user information and device configurations, can be flexibly stored for a long time through MongoDB. Redis caching is used to accelerate querying, and Elasticsearch is used for customized search of multiple data.
Sensitive Data: Use blockchain instead of traditional databases for transaction operations, such as the modification of points, etc., to ensure that every operation is recorded. Paying the Gas fee each time can waive the verification code, and it can also avoid the generation of junk data, such as article data, while increasing revenue for itself.
Sensitive Operations: The App uses payment login to ensure the real-name authentication of the account identity and makes it traceable to the host. Use Microsoft's two-factor authentication token to ensure that important operations will not be misappropriated.
The above solution achieves financial-level security protection at the lowest cost, which can largely prevent hackers from causing serious losses. In the industry, companies such as Binance and Tesla can be referred to.
Selection of Robot Hardware Configuration and System
The main equipment of the robot is configured with an advanced desktop computer, which facilitates self-upgrades and maintenance in the later stage. The Windows system is adopted, mainly providing users with a graphical operation interface and the ability to install more application expansion functions.
The robotic arm and the robotic hand are equipped with completely independent computers. The system uses the Sel4 kernel, which provides efficient and secure instruction operations. It only receives task instructions issued by the main equipment, such as independently calculating and executing the process after performing a suturing operation. This system has a relatively high level of security compared to Windows, preventing the robotic hand from being manipulated to cause major accidents in case the main equipment is invaded.
The system adopts a user-interaction separation design and independent systems for multiple devices to avoid the system from being invaded due to users' random operations.
The main equipment is configured with a computer that can provide high computing power support. One RTX 5090 can provide a computing power of 3601 TOPS. If the device is expected to sell more than one million units, the company can possess a computing power of 3.2 billion TOPS or 125 EFLOPS. Operations such as computing power leasing can be carried out when the users are not using the equipment. The Stargate Project in the United States is expected to provide 200 EFLOPS of computing power.
Multi-application interaction enhances the functionality of the robot
All user interaction applications for Windows need to be downloaded through app stores (such as Steam and the Microsoft Store), while the seL4 system refuses users to install any applications.
Users are prohibited from installing system - level software to prevent internal corruption and malicious behavior within other companies. All script commands of untrusted third - party programs are disabled.
Develop in - house system maintenance software (for tasks like junk file cleaning, memory cleaning, real - time health data detection, medical diagnosis, health care, robotic surgery, and virus detection).
Implement dynamic encryption for the transmission of task instructions between Windows and seL4 (to prevent the host from sending random operation instructions or stealing user data, such as from the camera, after being invaded).
Introduction to Version Functions
- Real-time Health Data Detection and Medical Diagnosis (Quantum Biological Data Analysis, Online Diagnosis by Remote Doctors, Automatic Diagnosis through Robot Training)
- Health Care and Daily Care (Makeup, Bathing, Massage, Beating, Infrared Physiotherapy, etc.)
- Simple Medical Treatment and Surgery (Circumcision, Cardiopulmonary Resuscitation, Hemostasis and Dressing, Blood Sampling, Injection and Other First Aid Measures)
- Fully Automatic Robot Surgery (Achieved after repeated training with the above data)
- Major Surgery (Surgical Operations such as Brain-Computer Interface Implantation)
- Immortality (Low-temperature Hibernation Capsules and Regular Nursing by Robots, Brain Replacement and Mechanical Ascension, Tissue Repair and Resurrection from Death)
Problem and Handling:
This equipment is related to the fields of mechanical engineering technology, computer artificial intelligence, biological medicine, etc. With a brand-new design scheme, it comprehensively upgrades and optimizes existing products. Thanks to its unique design, it can accelerate the commercialization of intelligent robots and solve problems that current humanoid robots are unable to handle.
- Problems: The intelligent robotic manipulator has insufficient flexibility, poor recognition rate of multiple tools, and there is still room for improvement in force control and stability. Besides, the price of dexterous hands is relatively high.
- By using a threaded assembly mechanism to assemble customized robotic manipulators, such as the Da Vinci robotic manipulator, the stability during operation can be greatly improved. Its effectiveness is particularly evident in scenarios that require significant force control, such as orthopedic surgeries.
- The advanced customized robotic manipulator represents an innovation over traditional devices like physical scissors. It helps to make up for the insufficient flexibility of robotic manipulators to a certain extent. By integrating two functions into one, the primary task is to control the flexibility and precision of the robotic arm. Since robotic arms have been developed for a long time and are relatively mature, it provides a feasible solution for accelerating the commercialization of robots at present.
- By using mechanical grippers, simple robotic manipulators with lower force application requirements can be quickly assembled through an internal expansion method. Additionally, the mechanical grippers can assist in the assembly of robotic manipulators for threaded robotic arms through an external clamping method. It is characterized by a simple structure, low cost, and mature technology.
- When the humanoid robotic manipulator and its relevant supporting components are mature, it can be directly assembled by the threaded robotic arm, so as to assist in the iterative update of the product.
- Problem: The humanoid robot has poor effects in providing 24-hour health care for patients and is unable to handle situations in real time.
- Adopt the model of one person per chamber or multiple people per chamber, along with a sleep binding mechanism. Conduct 24-hour biological information analysis through a quantum biological information system, and carry out real-time emergency handling by a private robotic arm. This can effectively prevent sudden death due to illness attacks during the night.
- The supporting facilities such as a sterile constant temperature room and a medical water bed are especially suitable for replacing the beds for the elderly and hospital beds. They can prevent the sudden onset of cardiovascular diseases caused by wind-cold and conditions like lumbar diseases. The ultrasonic emission device helps to promote blood circulation, facilitate tissue repair, and avoid situations such as myocardial infarction.
- Problem: The safety factor of traditional houses is low, and the development of new types of houses is imperative. For example, fires, tornadoes, floods, earthquakes, toxic gas infiltration, radiation, noise, microorganisms, and the control of nerve invasion during dreams, etc., may all pose a threat to human safety.
- Use high-density metal materials to create multi-level protective plates. Different metals can isolate electromagnetic waves in different frequency bands, such as X-rays, microwaves, nuclear radiation, etc.
- High-density small cubic columns are arranged at the four corners of two metal plates to serve as supports between the metal plates. When there are multiple levels of metal plates, the positions of the small cubic columns are distributed in a staggered manner to minimize the energy transfer between the two metal plates as much as possible while maintaining the structural stability and protective performance. At the same time, the air between the partition plates is evacuated. This structure can effectively reduce the heat transfer or noise transfer during a fire. It may also be of some help in preventing acoustic nerve invasion and can prevent casualties caused by accidental impacts, such as earthquakes and traffic accidents involving RVs.
- The shelter is fabricated using a fully airtight process. The design of its door can draw reference from that of military electromagnetic shielding shelters. This can effectively prevent water disasters, the infiltration of toxic gases, and other potential hazards.
- The robotic arm inside the shelter is equipped with an ultraviolet sterilization robotic hand device, which regularly conducts all-round disinfection of the shelter without any blind spots, effectively ensuring the health of the people inside the shelter.
- Problems: Chemical experiments are risky, biological experiments are prone to errors, and it is difficult to reproduce experimental data.
- Use robots to conduct chemical experiments. When combined with the above-mentioned shelter structure, during chemical experiments, people can operate the robotic arms of the machines through MR glasses outside the shelter to carry out dangerous chemical experiments, such as explosive, radioactive, and toxic experiments. After the experiment is completed, the working environment and the workbench will be automatically detected and cleaned, which can effectively ensure the life and health of the experimental personnel.
- For high-precision robot experiments, in conjunction with unified intelligent experimental equipment, every experimental process and experimental data are saved in the cloud. By utilizing the robot's autonomous learning ability, it can autonomously fine-tune the data, repeat the experiments, and compare the results. This effectively solves problems such as the high probability of errors in experiments, the cumbersome nature of repeated experiments, and the difficulty of reproducing data by different experimental personnel.
- Problem: Medical surgeries are of high difficulty, and people have to go to the hospital for both major and minor illnesses.
- The development of robotic medicine is imperative. Given this, it is inevitable that home-based medical care will become the norm. The medical cabins depicted in science fiction movies embody this very principle. Customized robotic manipulators, such as the Da Vinci surgical system, have a significant advantage in neurosurgery, presenting a kind of overwhelming superiority. In the future, there will be an endless stream of such devices emerging.
- The research, development and application of new medical reagents will become a common occurrence, effectively accelerating the treatment speed of diseases. In my opinion, the main advantages of drugs lie in their portability, ease of use and emergency backup function. When robotic medicine becomes prevalent, it can make up for the lack of professionalism of ordinary people. When a disease occurs, a dose of reagent can be directly injected into the blood vessel, allowing for efficient absorption. It can truly achieve the effect of curing the disease as soon as the medicine takes effect. With the establishment of life science models, the iteration speed of new reagents will be greatly enhanced. I believe that the problem of drug resistance will no longer be a difficult issue.
- The above two foundations are of utmost importance in emergency first aid situations, such as cases of poisoning, accidental injuries, and the like.
- Problem: Humanoid robots have high compatibility but poor pertinence. In nursing scenarios such as bathing, massaging, and making up, they seem redundant and clumsy, and it will still take some time for them to be widely popularized.
- Lying flat is the most comfortable state for human beings. Performing relevant procedural operations in this state and having them processed with the cooperation of fully automatic robotic arms is the best solution for non-mobility work scenarios. Activities such as taking a bath, getting a massage, and doing makeup can all be completed while one is asleep. People can just get up and leave right after waking up, which effectively saves repetitive waiting time and is truly a favorite among those who prefer convenience.
- The commercialization plan is obvious. Regarding the substitution of traditional hospital beds, home bathrooms, etc., the structure is mature and the feasibility is evident. Its popularization may just happen in an instant.
Summary and highlights :
- The fixed use characteristics of robots, 24-hour continuous power supply can provide high computing power.
- The risk of hackers is particularly fatal in the use of robots, and separating the user system from the operating system can greatly avoid the occurrence of movie scenes featuring mechanical enemies. No matter how secure the user and system are, they are afraid of insiders
- Mechanical arms are not as practical as customized arms in specific fields, and using customized arms can accelerate the popularization of robots.
- The newly designed shielding shell effectively resists impacts while significantly reducing energy transfer between the inside and outside, creating a safe hibernation chamber.
- When the lifting plate is applied to the coolant scenario in the future, it can quickly immerse and lift for regular physical inspections without draining the liquid, thus avoiding waste and efficiency loss.
The mechanical gripper arm can simulate the human hand's use of scissors (customized devices) and other opening/closing tools, and can also assist in picking up customized mechanical hands and assembling them with threaded-head robotic arms. It also offers high efficiency advantages in specific scenarios such as opening bottle caps.
The threaded-head robotic arm ensures stable assembly and performs specialized tasks using customized grippers. It can also serve as a rotary motor to eliminate repetitive and simple motor-driven operations, such as assembling shower scrub heads or cutting discs. This not only reduces costs but also minimizes energy management requirements.
The ultrasonic module at the bottom can provide full-body protection during sleep to prevent the intrusion of quantum neural regulation.
评论
发表评论