Sogo Design... Ten years of focus on medical health the only track.
Cooperative customers: well-known confidential customers
Project Name: Analyzer Equipment Design
Cooperation content: design analysis | appearance design | structural design | prototype production | accompanying running assistance
This is the analyzer equipment introduced by sogot. As the core tool of laboratory testing, its design revolves around "the accuracy of sample testing and operation experience". It integrates the deep adaptation of laboratory scenes into the form and details. It is the design sample of "functional rationality" and "user-friendly" integration of in vitro diagnostic equipment.
1. Design Analysis: Functional Modularity for Laboratory Scenarios
The core scenario of the analyzer is sample testing in clinical/research laboratories, and the underlying logic is designed with "testing process adaptation" as the core:
Clear adaptation of functional modules: the whole machine is divided into three modules: "interactive display area (top touch screen), sample processing area (openable cabin) and equipment core area (fuselage body)", which are in line with the process logic of "putting samples → setting parameters → starting detection. The openable and closable sample chamber not only ensures the closeness of the testing process (avoiding sample contamination), but also facilitates sample taking and placing, and adapts to the "sterile and efficient" requirements of the laboratory.
Scenario expression of materials: the main body adopts the combination of "white laboratory-grade plastic dark gray function panel", and white conveys the laboratory attribute of "clean and orderly", which meets the sanitary requirements of the detection scene on the environment; The dark gray panel strengthens the identification of the interactive area, enables the experimenter to quickly locate the operation area, and reduces the operation error in the detection.
2. Design Language: Rational Aesthetics in the Laboratory
The design language of this device is based on the keynote of "calm and professional scientific research scene", and the properties of the detection device are transmitted through form and color:
The rational expression of the form: the form of "square rounded corner layered structure" is adopted, and the design without redundant decoration conveys the "rigor" of in vitro diagnostic equipment to avoid complex forms interfering with experimental concentration. The layered structure (the display area is separated from the processing area) not only strengthens the visual perception of the functional area, but also adapts to the spatial layout of the laboratory table top, which is convenient for multi-device collaborative placement.
Color function orientation: with white as the base, with light blue atmosphere lamp and brand logo-white "low interference" makes the equipment cleaner in the laboratory environment; The light blue atmosphere lamp not only serves as a visual hint of the detection state (such as operation/standby), but also conveys the attribute of "scientific and technological precision" to enhance the trust of the experimenter in the equipment.
3. Design Details: Implicit Support for the Inspection Process
The detailed design revolves around the "precision and safety of sample detection:
Details of the interactive area: the top touch screen is designed with an "embedded narrow border" to avoid equipment damage caused by splashing experimental liquid, and to adapt to the strong lighting environment (anti-glare) of the laboratory to ensure clear parameter reading. The light blue atmosphere lamp at the bottom of the screen is presented with "breathing flicker", which not only transmits the detection progress, but also prevents strong light from interfering with the experimental concentration.
Details of the sample area: the opening and closing structure of the sample compartment adopts "one-button buckle", and the experimenter can complete the opening and closing of the compartment with one hand, thus improving the efficiency of sample taking and placing. The positioning groove inside the cabin is adapted to the standardized sample container to prevent the deviation of sample placement from affecting the detection accuracy. At the same time, the sealing design of the cabin prevents sample volatilization or cross-contamination.
Details of the fuselage: the function keys on the side adopt "convex physical keys" to meet the requirements of "glove operation" in the laboratory. even if there is reagent residue in the hands, the function can be triggered accurately. The anti-skid foot pad at the bottom of the fuselage enhances the stability of the equipment on the table top and avoids the displacement of the equipment caused by collision during the detection process.
4. ergonomics: comfortable adaptation for laboratory operation
Ergonomic design is optimized for "frequent operation by experimenters:
Operation height adaptation: the overall height of the equipment is in line with the natural height of the elbow of the "laboratory table sitting posture operation". When the experimenter operates the screen and takes and places samples, the arm does not need to be excessively lifted or bent, thus reducing muscle fatigue in long-term experiments.
Adaptation of operation process: the layout of the sample chamber and the interactive screen follows the "natural extension range of the arm", and the experimenter can complete the sample taking and parameter setting without significantly moving the body during the detection process, thus improving the continuity of the detection process; The flat area on the front of the fuselage can temporarily place the experimental record sheet to further optimize the operation experience.
Conclusion: Accurate Detection Partners in the Laboratory
The design of this MAIN analyzer is a symbiotic sample of "detection accuracy" and "laboratory experience" of in vitro diagnostic equipment. It takes functional modularity as the skeleton to adapt to the process requirements of sample testing. Taking rational design language as the texture to transmit the professional attributes of scientific research equipment, taking detail design as the nerve to support the accuracy and safety of detection, and taking ergonomics as the blood line to reduce the operational burden of experimenters.
With the increasing popularity of in vitro diagnostic technology, this design not only improves the efficiency and accuracy of sample detection, but also redefines the value of "laboratory analyzer"-it is no longer a cold detection tool, but a "precision partner" for experimenters ". This concept of "adapting to scientific research scenes by design and caring for experimental experience by details" also points out the direction for the design of in vitro diagnostic equipment: only by deeply integrating "rationality of detection function" with "sensibility of user experience" can medical products that really help laboratory work be created. SOGOT DESIGN: www.soogot.com