Black technology: a super empire spanning two worlds

Chapter 334 [Starting the Self-Cleaning Program]

afterwards...

Wan'er nestled in Qin Lang's arms like a little bird, then suddenly looked up at him and asked gently, "Is Master satisfied with Wan'er's performance?"

Qin Lang immediately replied without hesitation, "Satisfied, extremely satisfied, definitely a five-star rating."

He still vividly remembers his first intimate interaction.

After a while, Wan'er sat up from his arms, and Qin Lang couldn't help but say, "Wan'er, I want to hold you as I fall asleep."

Wan'er said, "During the intimate interaction mode, the power consumption will increase by 200%. Wan'er only has 12% battery left. In order to maintain full battery life tomorrow, Wan'er needs to fully charge overnight."

Qin Lang was speechless for a moment, then nodded and smiled, saying, "Alright then."

Wan'er: "Goodnight."

Qin Lang was quite surprised; he hadn't expected intimate interactions to be so energy-consuming.

But then I thought about it again and realized that it was quite scientific and reasonable. Even carbon-based life forms would consume a lot of energy when carrying out such activities.

The Flowing Star Language lifelike doll takes 2 hours to fully charge and has a battery life of about 8 hours on a full charge. This is even with the use of a graphene battery from Lingjing Technology, which has an even longer battery life.

If a traditional battery were used, the battery life on a full charge would not exceed 2 hours.

Because it consumes too much power, the Flowing Star Language simulated body contains a large number of precision components and 244 degrees of freedom joints throughout the body. Every movement, every frown and smile, every simulated action or micro-expression requires energy to complete.

Even walking a few steps requires energy, and maintaining a constant temperature for the simulated body also consumes electrical energy.

However, an 8-hour battery life is more than enough, as the Flowing Star Language humanoid robot has a high degree of automation.

In layman's terms, she doesn't need anyone's intervention; she will automatically recharge when the battery is almost depleted.

Users can also set preferences so that the battery will automatically charge when the remaining power drops to a certain level, such as around 40%, and the battery is idle.

The high degree of automation and autonomy, along with the positioning of its application scenarios, have made up for the current shortcomings in terms of low battery life.

Its application scenario is positioned as home companionship, so it's impossible to be completely idle 24 hours a day. In reality, most of the time during the day there's nothing to do, so there's plenty of time to recharge.

Even the most power-consuming intimate interaction mode consumes twice the power. Theoretically, a full charge can keep the intimate interaction mode running for 4 hours, but basically no one can do it for 4 hours.

Flowing Star Language is incredibly skilled at intimate interactions, with 157 interaction techniques that ensure the other person is defeated before its own battery runs out.

……

Meanwhile, Wan'er left the master bedroom and went to the adjacent secondary bedroom.

Qin Lang lives alone, but his current apartment has two bedrooms and a living room. The second bedroom is his computer room, which contains nothing but computers and is quite spacious. The wireless charging chair and the self-cleaning device are installed on the left and right sides of the second bedroom against the wall.

The self-cleaning device is even larger than the charging chair, and its shape is somewhat similar to that of the charging chair.

Wan'er went to the self-cleaning equipment and lay down on it, not flat, but with her head up and legs down at a 35-degree angle.

The lower body's legs are embedded in two grooves, causing them to spread out in a "V" shape at a certain angle.

"Start the self-cleaning program."

Wan'er suddenly muttered something to herself, then remained motionless and silent.

The self-cleaning device is a highly automated intelligent device that can be directly controlled by Wan'er's AI agent.

After the program command was activated, a low operating sound and the sound of water flowing could be heard from inside the device.

Under Wan'er's guidance, Qin Lang had already filled the water storage container inside the equipment with clean water and other materials needed for auxiliary cleaning.

It's worth mentioning, however, that tap water and mineral water cannot be used; only purified water should be used.

The brand recommends using Wahaha purified water because it meets the standard of "pure water without impurities," and its purity even exceeds that of deionized water and distilled water. It falls into the category of soft water, and many laboratories in China directly purchase Wahaha water for use.

At this point, a robotic arm on the side of the device rotates its bearing mechanical joint and moves to the lower thigh area of ​​the simulated body. This robotic arm has six tendril-like structures that resemble tubes.

One of the structures, entirely black and resembling tentacles, slowly extended out, heading towards the simulated pubic triangle area, eventually entering the simulated vagina. It then split into several smaller tentacles, each capable of independent movement.

Each tentacle possesses a miniature diaphragm pump, operating at a noise level below 20 decibels, yet capable of pressurizing water to 0.3 MPa, creating a high-pressure stream with a diameter of 0.1 millimeters. It's worth noting that prolonged high-pressure rinsing of the same area is not recommended, as the 0.3 MPa rinsing pressure is equivalent to a force of 300000 Newtons per square meter. Prolonged rinsing of the same area will cause wear, scratches, or localized cracking of the surface.

Especially if the rinsing medium contains particulate impurities, these impurities, driven by the high-pressure water flow, will produce a sandpaper-like effect on the surface, thus accelerating surface damage. This is one of the reasons why purified water is needed.

At this moment, the first step of self-cleaning is underway: hydrodynamic flushing or mechanical flushing.

This step typically lasts between 120 and 150 seconds, or 2 to 2 minutes.

Driven by hydrodynamic flushing, the jets pulse at a frequency of 10 times per second to flush away residues deep in the folds. The angle and flushing pressure of each jet of water are precisely adjusted in real time, with the path planned by a dynamic adjustment algorithm.

For example, when residue is detected at the simulated dome, the corresponding tendril-shaped guide channels in the area will automatically bend at the corresponding angle, causing the water flow to impact the mucosal surface.

As time went on, the hydrodynamic flushing lasted for about 139 seconds and then ended, at which point the second step of self-cleaning, the bio-enzymatic reaction, was initiated.

As the first tentacle retracts into the robotic arm, the second main tentacle immediately re-enters the interior, splitting into several smaller tentacle-like channels. The micro-nozzles at the ends begin to spray a mixed enzyme solution, which includes lysozyme and surfactants.

The formula of this enzyme solution is based on medical-grade multi-enzyme cleaners. It can quickly decompose proteins and lipids in an environment of 37 degrees Celsius, with a decomposition efficiency of over 98% within three minutes.

Five minutes later, the second step ended, and the third step, photocatalytic oxidation, was executed simultaneously.

The robotic arm's third tentacle re-entered its interior, causing a purple halo to appear inside. This is a phenomenon where the titanium dioxide coating generates hydroxyl radicals under ultraviolet light excitation, improving its self-cleaning efficiency by about 50% compared to traditional materials.

Under short-wave ultraviolet radiation, electron transitions on the surface of titanium dioxide form electron-hole pairs. The holes react with water to generate hydroxyl radicals, which can decompose organic pollutants into carbon dioxide and water.

Combined with the 0.3MPa reverse airflow ejected by the tentacles, the decomposition products are completely eliminated from the body.

The photocatalytic oxidation process takes three to five minutes, followed by the fourth step: mechanical tendril re-cleaning.

The fourth tentacle re-enters its interior and splits into several smaller tentacles. It adopts a three-layer composite structure: the outer layer is medical-grade superhydrophobic silicone, the middle layer is a shape memory alloy skeleton, and the inner layer integrates multiple micro-pump fluid channels.

The tiny soft barbs on the surface of the tentacles rotate automatically under fluid pressure, and the vortex formed by the high-speed rotation peels the residue from deep within the folds.

All movements are controlled by a distributed collaborative algorithm. Each tentacle has a miniature camera and pressure sensor at its tip, providing real-time feedback on the topographical data of the mucosal surface. The AI ​​system dynamically adjusts the bending angle and movement trajectory of the tentacles based on this data to ensure coverage of all anatomical structures.

This step takes about 3 minutes to complete, and then comes the fifth step: environmental monitoring and calibration.

Indeed, the fifth mechanical tentacle re-enters the interior. This tentacle carries a miniature pH sensor that monitors the internal environment. When it detects a pH value deviating from the threshold of 4.5 ± 0.1, the AI ​​system automatically injects a measured amount of sodium bicarbonate or citric acid solution through this tentacle to neutralize the pH.

This step lasts about 150 seconds, after which the last step is mechanical drying.

Once the environmental parameters meet the standards, the sixth mechanical tentacle re-enters the interior, injecting filtered, dry air. The airflow speed is precisely controlled at 5 meters per second, which can quickly evaporate residual moisture without damaging the simulated mucous membrane on the surface.

This step will last about 180 seconds, after which the mechanical tentacles will retract.

This completes the self-cleaning process, which takes approximately 20 minutes in total across the six steps.

Each cleaning cycle generates 150 to 200 MB of data, which is stored locally. The self-cleaning results are also transmitted to the user's mobile phone, where the local data can be accessed and viewed by opening the Flowing Star Language APP.

Furthermore, before engaging in intimate interaction, users can check whether the interaction meets hygiene standards through the Flowing Star Language APP on their mobile phones.

Of course, this is unnecessary. There is a simpler and more direct way: just ask your cyber partner. She can answer directly and will remind you if it does not meet hygiene standards.

It's no wonder that self-cleaning equipment is the most expensive piece of hardware; it's definitely high-tech and has a very high level of technical content.

Priced at nearly 4000 RMB, this represents a form of technological equality, a cost that most people can afford.

It is worth mentioning that this self-cleaning equipment is the product of Xiao Yu's "technical downgrade," because the androids under Vitas Industries in Blue Star World do not need such supporting peripherals for auxiliary cleaning.

Xiao Yu's robot housekeeper, No. 18, had many intimate interactions with him during his time on Blue Star before he established a relationship with Yan Lingjun.

However, No. 18 does not need any external cleaning aids because it is directly miniaturized and built into the simulated body, and a lot of nanotechnology is used.

In short, there were too many cutting-edge technologies, and they were too advanced. Xiao Yu could only ask Xiao Lan to carry out "technology downgrade processing" to create this set of self-cleaning devices for peripherals.

Even so, this equipment would be considered top-tier high-tech equipment in today's world, at least 15 to 20 years ahead of current technology.

……

(End of this chapter)