Fitness Mirror Display

Immersive Interactive Experience Analysis of Touch Functions for Mirror Fitness Machine Monitors

Guangzhou Ruiguan Electronic Equipment Co., Ltd.’s mirror fitness machine monitor series (covering all size specifications) deeply integrates touch interaction technology with smart fitness scenarios. Through precise touch response, diverse operation logic, and user-friendly function design, it creates full-scenario interactive experiences ranging from home fitness to commercial venues. The touch function is not only an entry point for device operation but also a smart bridge connecting users with fitness content and data management, achieving the convenience of "one-touch training" and the technological sense of "dynamic feedback."
I. Consistent Touch Technology Experience Across All Sizes
Ruiguan's mirror fitness machine monitors adopt capacitive touch technology for all models from 32 inches to larger sizes, achieving 10-point precise touch through a full-screen touch-sensitive layer. Small-size models (such as 32 inches) have a touch sampling rate of 120Hz and a finger sliding operation delay of less than 50ms, suitable for home users to quickly switch courses, adjust volume, and other high-frequency lightweight operations. Medium-size models (such as mainstream specifications) further optimize the touch algorithm, supporting glove mode (identifying touch through sports gloves) and wet hand recognition technology, ensuring that users can complete operations with fingertips or palms even in high-intensity sweating scenarios, avoiding touch failure caused by wet hands. For super-large-size models above 50 inches, infrared touch frame technology is used, with a touch error of less than 2mm and support for multi-person simultaneous touch, suitable for group course scenarios in commercial gyms—for example, multiple users can simultaneously select training plans of different difficulties or view personal data on the screen.

II. Scenario-Optimized Design of Interaction Logic

The touch function is deeply customized around the core links of the fitness process to build a "simple, intuitive, and instant-response" operation system:

1. Course Navigation and Content Management

Users can directly access 13 major categories of built-in fitness courses (such as yoga, HIIT, and prenatal exclusive) through touch operations, supporting multi-level menu sliding, course cover previews, and quick search. For example, in home scenarios, users can quickly find "morning stretching" courses by sliding the main interface after getting up and start playing with a click. Group exercise coaches in commercial gyms can batch import the day’s course list through the touch screen before class and switch to live broadcast mode with one click, simultaneously displaying course countdowns and action breakdown diagrams.

2. Real-Time Data Interaction and Feedback

The touch screen supports instant invocation of dynamic data layers. During exercise, users can slide the screen edge to call up real-time data panels such as heart rate, calorie consumption, and exercise duration, or long-press to "pin" key data in a fixed position on the screen for easy viewing at any time. For courses requiring precise action control (such as Pilates), users can zoom in on the coach’s action details through two-finger scaling, combined with the AI action correction function (capturing user postures via camera) to achieve a closed-loop interaction of "touch-adjusting the view + intelligent real-time guidance."

3. Multi-Device Linkage and Mode Switching

Touch operations can quickly activate functions such as HDMI screen mirroring and Bluetooth connection—for example, synchronizing fitness app data from mobile phones to the large screen or connecting smart heart rate belts, body fat scales, and other peripherals to summarize multi-source data in real time. In addition, the system supports one-click switching between "mirror mode" and "display mode": during rest periods, users can tap the screen to return from the fitness course interface to the high-definition mirror, tidy up their appearance, and tap again to wake up the display function, achieving a seamless transition between "training and rest" scenarios.

III. Durability and Environmental Adaptability Design

The touch layer is made of tempered glass with a scratch-resistant coating (hardness level 7H), capable of withstanding high-frequency pressing and friction, suitable for high-intensity use in commercial gyms. For humid environments (such as yoga rooms or poolside fitness areas), the touch module has a built-in humidity sensor that automatically activates "anti-mis-touch mode" when the ambient humidity exceeds 80%, filtering out water drop interference through algorithms to ensure operation accuracy. For child safety concerns in home use, the system supports a "parental control" touch lock function, restricting children’s accidental operations through password settings to prevent accidental course switching or device parameter adjustments.

IV. Customized Touch Solutions for Commercial Scenarios

Ruiguan provides in-depth customization services for touch functions for commercial clients—for example, developing exclusive UI interfaces for chain fitness brands, integrating brand logos, member login portals, and other elements into the touch main interface to enhance user brand awareness. For corporate fitness centers, it can customize "employee health data dashboard" touch modules, where employees can view personal exercise history, physical test reports, and customized course recommendations on the touch screen after logging in via fingerprint or work ID card recognition. In addition, it supports advertising content management through the touch screen, allowing gym administrators to directly drag and arrange advertising materials on the screen, flexibly adjusting playback order and duration to maximize commercial value.

V. Technical Underlying Support for Touch Experience

All models are equipped with an octa-core 3588 processor and 8GB of memory, providing powerful computing support for touch operations to ensure the smoothness of multitask touch interactions (such as adjusting parameters while playing videos). Based on touch driver optimization for the Android 12.0 system, it achieves adaptive calibration of touch coordinates for different screen sizes, avoiding operation offsets caused by screen ratio differences. At the same time, OTA upgrades continuously optimize touch algorithms—for example, adding gesture operations (such as three-finger sliding to switch user accounts) and improving touch response speed in low-latency scenarios (such as VR fitness games)—keeping the device at the forefront of interactive experiences throughout its lifecycle.