"The Precision® Multi-Port Laparoscopic Surgical Robot consists of three main components: the surgeon`s console, the patient's surgical platform, and the three-dimensional high-definition imaging system. Surgeons can comfortably sit at the console, effortlessly manipulating the robotic arms and connected surgical instruments on the patient's platform. They perform minimally invasive surgeries by observing a high-resolution three-dimensional image of the surgical field. This section focuses on the design process of the doctor's console.
精锋®多孔腔镜手术机器人由三部分组成:医生控制台、患者手术平台及三维高清影像系统。外科医生可安坐于控制台,轻松的操纵患者手术平台的机械臂及连接的手术器械,通过观看高分辨率的三维影像手术术野,进行微创手术。精锋®多孔腔镜手术机器人的医生控制台采用先进的人机交互技术,让外科医生体验到无与伦比的精细操控和直观操作。通过仔细研究医生的实际需求,我们精心设计了可调节的观察角度、智能化的手柄控制、以及直观易懂的触摸屏界面,使医生能够更自如地与机器人系统互动。
Through a thoughtfully designed user interface, surgeons can intuitively access critical information and monitor the surgical process in real-time. The ergonomic seating and adjustable control handles aim to minimize surgeon fatigue, ensuring the precision and safety of the surgery.
We are committed to incorporating the latest technology into the medical field, bringing unprecedented precision and convenience to surgical procedures.
精锋®医生控制台的设计不仅关注功能性,更注重美学和品质。采用高质量材料和精湛工艺,打造出时尚、现代的外观。我们追求设计的卓越性,为外科手术带来了更高水平的精确性和可控性。
Through innovative design of the doctor's console, the Precision® Multi-Port Laparoscopic Surgical Robot empowers surgeons to achieve remarkable success in minimally invasive surgeries. Explore more design highlights and technological innovations, witnessing the advancement and excellence in medical technology.
通过医生控制台的创新设计,多孔腔镜手术机器人旨在成为微创手术领域的领先力量,为患者提供更安全、更有效的治疗方案。
The design of the doctor's console is a crucial component of the Precision® Surgical Robot. Our goal is to provide surgeons with a comfortable, intuitive, and efficient working environment, allowing them to easily manipulate the robotic arms and surgical instruments, achieving excellent results in minimally invasive surgeries.
In the design process, we emphasize principles of human factors engineering, ensuring that the console layout aligns with the natural operational habits of surgeons.
控制台的布局经过精心优化,确保各个操作按钮和显示屏的位置符合医生的使用习惯,提高工作效率。可调节的座椅和人体工程学设计保障医生在手术过程中的长时间舒适操作。
The main operating console has undergone three rounds of in-depth design iterations. The first round established the conceptual direction, the second round focused on optimizing details and adjusting human-machine dimensions, while the third round concentrated on structural adjustments with the aim of improving efficiency in small-batch production and achieving cost control.
主操作台经历了三轮深度设计迭代。第一轮设计明确了概念方向,第二轮设计着重优化了细节,调整了人机尺寸。第三轮设计则专注于结构调整,旨在提高小批量生产的效率并实现成本控制。
First Round Design Iteration: Defining Product Conceptual Direction
第一轮设计迭代:确定产品概念方向
During the initial design phase, qualitative design research was conducted in the absence of actual prototypes and real user-product interaction data. Utilizing observational methods, we extensively studied competitors, particularly delving into instructional videos and practical operation records of the Da Vinci robotic system. We conducted a comprehensive analysis of user workflows before, during, and after product usage, presenting the findings in graphical representations to guide subsequent design processes. This research approach provided profound insights, ensuring that the product design aligns closely with the practical needs of users.
在第一轮的设计过程中,我们进行了定性设计研究。在没有实际样机和真实用户产品交互数据的情况下,通过观察法,我们深入观察了竞品,特别是仔细研究了达芬奇手机机器人的教学视频和实际操作记录。我们进行了使用前、中、后的用户使用流程分析,并将其制作成图表,以在后续的设计过程中提供指导。这一研究方法为我们提供了深刻的洞察,有助于确保产品的设计符合用户的实际需求。
During the determination of the design concept, our primary objective was to maintain the 'integrity and integration of the console form.' This design principle persisted throughout the entire process, from initial sketch exploration to the later stages of detailed modeling. In the sketch exploration phase, significant discussions were centered around seamlessly integrating the armrests and footrests. Detailed considerations were given to resolving the primary form issues of the head observation chamber. Striking a delicate balance between optimizing spatial utilization to the utmost and achieving a harmonious, soft form, our design concept embodies a thoughtful blend of functionality and aesthetic appeal.
在确定设计概念方案的时候,我们主要追求保持操作台的“形态完整性与一体化”。这一设计原则贯穿了整个设计过程,从最初的草图探索一直延续至后期的细节建模。在草图探索阶段,我们重点讨论了扶手与脚踏如何进行形态融合的问题,并详细讨论了头部观察室的主形态问题。在追求空间极致利用与柔和形态之间进行协调时,我们经过深入研讨,确保设计在整体性和美感上达到理想状态。
In the realm of CMF (Color, Material, Finish) and information feedback, we innovatively introduced a head indicator light to the product, enabling assistants to be informed about the operational status of the surgical robot. This design decision stems from extensive observations and in-depth interviews with doctors, providing a crucial element to enhance the user experience. Regarding color selection, we opted for white and black as neutral tones, seamlessly integrating into hospital color spaces predominantly featuring green or blue hues. This aids doctors and assistants in memorizing focal points and engaging in more effective color-coded information interaction. In terms of color details, we added a touch of blue tint to the pure white, creating an overall cool color palette. This effectively mitigates the issue of yellowing due to prolonged oxidation of white surfaces, considering the potential product lifecycle of over 10 years.
在产品的CMF(颜色、材质、饰面)与信息反馈方面,我们创新地引入了头部指示灯,使助手能够了解手术机器人的工作状态。这一设计决策源自长时间的观察和与医生的深入访谈,为产品的用户体验增添了关键的元素。在颜色的选择上,我们采用白色和黑色作为无彩色基调,以更好地融入主要以绿色或蓝色为主的医院颜色空间。这有助于医生和助手记住关注点,并更有效地进行重要的颜色信息交互。在颜色细节方面,我们在纯白色中添加了少量蓝色色调,使整体产品颜色呈现冷色调。这有效地抵消了白色长时间暴露氧化偏黄的问题,考虑到产品可能拥有超过10年的声明周期,这一设计考虑了长期使用的可持续性。
In terms of material selection, we introduced a craft that combines top-grain leather with soft rubber into the armrest for the first time. This provides doctors with a more comfortable and sturdy elbow support, effectively avoiding fatigue.
在材料的选择方面,我们首次将头层牛皮与软胶结合的工艺应用于扶手,为医生提供更加舒适且坚实的肘部支撑,有效避免疲劳。
In the realm of primary human-machine interaction, we precisely defined key dimensions, including the observation window, armrest position, and foot pedal location, through actual measurements and consulting statistical data on human-machine interaction. Subsequently, during prototype testing, we received valuable data feedback for detailed adjustments. For instance, one refinement involved removing the concave curve in the armrest. One of the considerations behind this decision was that some doctors might prefer using the armrest as a reference straight line.
在主要的人机交互方面,我们通过实际测量和人机数据统计学查阅的方法,明确定义了观察窗口、扶手位置以及脚踏位置这三个关键尺寸。在后期的样机测试中,我们获得了真实的数据反馈,以便进行细节调整。例如,我们取消了扶手的弧形内凹曲线,其中一个原因是部分医生可能更愿意将扶手作为参考直线。
Second Round Design Iteration: Optimizing the details of the product
第二轮设计迭代:优化产品细节
During the second round of design iterations, our focus was on the detailed dimensions and aesthetics of the head observation chamber. Through practical user interviews and observations, we found that the freedom of tilt adjustment for the head was rarely utilized. Therefore, we decided to simplify unnecessary adjustment features. This minimalist product decision placed higher requirements on the size and softness of the forehead pad. While adjusting the observation window, we ensured that doctors experience an immersive environment and minimized the intrusion of external light into the observation chamber. The sketches above primarily explore balanced design features for the solution.
在第二轮的设计迭代中,我们重点关注头部观察口的细节尺寸和造型。通过实际用户访谈和观察,我们发现头部俯仰的自由度调节很少被使用。因此,我们决定简化不必要的调节功能,这一极简主义的产品决策提出了对额头衬垫的尺寸和柔软度更高的要求。在调整观察窗的同时,我们确保医生在使用过程中获得沉浸式体验,并尽量减少其他光线进入观察室。下面的草图主要探讨了平衡的方案形态特征。
In the overall form adjustment, we emphasized the overall smoothness and affinity of the product's design. As a novel technological product, surgical robots are still in the early stages of acceptance between doctors and patients. Therefore, another core objective of the design is to reduce the product's intrusiveness, enhance the trust and sense of security for both the direct user (surgeon) and the end user (patient). Hence, a rounded and cohesive overall form is the most inviting.
在整体形态调整方面,我们强化了产品整体造型的圆融感和亲和力。手术机器人作为一种新型技术产品,其在医生与患者之间的接受度仍处于初期阶段。因此,设计的另一个核心目标是减少产品的侵入感,提高直接用户(医生)与终端用户(患者)的信任度和安全感。因此,整体圆润的形态具有最强的亲和力。
Final Round Design Iteration: Small-scale production and clinical trials
第三轮设计迭代:小规模量产与临床实验
In December 2022, the Precision® Multi-Port Laparoscopic Surgical Robot MP1000 received approval for market entry from the National Medical Products Administration (NMPA) in China, with the registration number being National Machinery Standard 20223011623.
The Precision® Multi-Port Laparoscopic Surgical Robot MP1000 has successfully completed a series of representative and challenging surgeries, including:
* The only company in China to include T4 advanced-stage cancer in a critical clinical trial for urology.
* The only company in China to include extensive hysterectomy with lymph node dissection in a critical clinical trial for gynecology.
* The first successful domestic case of stage IV advanced ovarian cancer radical surgery using a multi-port laparoscopic surgical robot.
* The first successful domestic case of fully robotic distal gastrectomy for gastric cancer using a multi-port laparoscopic surgical robot.
* The first successful domestic case of radical surgery for left-sided colon cancer using a multi-port laparoscopic surgical robot.
These successful surgical cases signify a significant breakthrough and recognition for the Precision® Multi-Port Laparoscopic Surgical Robot MP1000 in the field of challenging surgeries.
2022年12月,精锋®多孔腔镜手术机器人MP1000成功获得国家药品监督管理局(NMPA)的上市批准,注册证编号为国械注准20223011623。
精锋®多孔腔镜手术机器人MP1000已成功完成一系列代表性高难度手术,包括:
*中国唯一一家将T4晚期癌纳入泌尿外科关键临床试验的公司。
*中国唯一一家将广泛性子宫切除术加淋巴结清扫术纳入妇科关键临床试验的公司。
*中国国产多孔腔镜手术机器人首例IV期晚期卵巢癌根治术。
*中国国产多孔腔镜手术机器人首例全机器人远端胃癌根治术。
*中国国产多孔腔镜手术机器人首例左半结肠癌根治术。
这一系列成功的手术案例标志着精锋®多孔腔镜手术机器人MP1000在高难度手术领域取得了显著的突破和认可。
Key Product Features:
Personalized Adjustment with Ergonomic Design: Carefully crafted ergonomic design allows for personalized adjustments, ensuring optimal comfort and user experience for surgeons during procedures.
Seated Throughout for Fatigue Relief: Designed for full-time seated operation, alleviating potential fatigue during surgical procedures and enhancing surgeons' efficiency and accuracy.
Immersive Experience to Minimize Environmental Disturbance: Incorporates an immersive design to minimize external environmental disruptions, enabling surgeons to focus more intently on surgical tasks and improving overall workflow efficiency.
Precision Control with Naked Eye 3D Effect: Offers a naked eye 3D effect, allowing surgeons to perceive depth and distance more accurately during surgical procedures, thereby enhancing precision and safety in surgeries.
主要产品特征:
人机工程学设计个性化调节: 精心设计的人机工程学使得产品能够个性化调节,确保医生在手术过程中获得最佳的舒适度和使用体验。
全程安坐缓解手术疲劳: 设计全程安坐,有助于缓解手术过程中可能产生的疲劳感,提高医生的操作效率和准确性。
沉浸式体验减少环境干扰: 通过沉浸式设计,产品努力降低外部环境对医生的干扰,使其能够更专注地执行手术任务,提高整体工作效能。
裸眼3D效果精确控制: 提供裸眼3D效果,使医生能够在手术操作中更准确地感知深度和距离,从而提高手术的精准性和安全性。
