Wall hung smart toilets are truly state-of-the-art bathroom fixtures, offering a host of features to enhance the user experience and add a sense of luxury to the bathroom. Wall Hung Smart Toilet, Wall Hung Toilet, Wall Automatic Toilet, Electric Toilet Automatic, Wall Bidet Toilet Guangdong Fabia Intelligent Technology Co., Ltd , https://www.smartfabiatoilet.com
Space-Saving Design: These toilets mount to the wall, saving valuable bathroom floor space. This is especially practical for smaller bathrooms or if you prefer a more minimalist aesthetic.
Heated toilet seat: A cold toilet seat can be uncomfortable, especially during the colder months. Wall-mounted smart toilets usually come with a heated seat that can be adjusted to your preferred temperature for a comfortable experience.
Adjustable water temperature and pressure: These toilets often offer adjustable water temperature and pressure settings for the bidet function, which allows users to customize their cleaning experience to their liking.
Warm air drying: After using the bidet function, wall-mounted smart toilets often provide a warm air drying option. This eliminates the need for toilet paper and promotes a more hygienic and environmentally friendly method.
Additional features: Some wall-mounted smart toilets may include additional features such as built-in air purifiers, deodorizers, night lights, and even background music or Bluetooth connectivity.
Biological antibacterial diaphragm valve details
Biological antimicrobial diaphragm valve is widely used in food, pharmaceutical, biological and chemical fields, especially in the bioreactor microbial transport, animal cell culture and plant cell culture. Biological antimicrobial diaphragm valve can be directly welded to the bottom of the fermenter, reducing the intermediate links of the pipe connection, completely solve the problem of pipe fluid, so as to achieve the best reaction system exhaust, cleaning and disinfection results. Diaphragm valve and other pipeline valves (such as gate valve, butterfly valve, ball valve) difference lies in the flexible membrane around the fixed deformation of a substantial deformation instead of the displacement of rigid valve to open and close the pipeline. Therefore, the diaphragm valve has the advantage of good sealing performance, and the transmission medium is separated by the diaphragm, not with other parts of the valve contact, and the valve body was streamlined, no dead ends, it will not pollute the conveyed medium. To this end, the diaphragm valve is widely used in food, pharmaceutical, biological, chemical and other areas of the pipeline. However, existing diaphragm valves are all installed in the delivery pipe and can not be directly connected to the reaction tank. Diaphragm valve and the reaction tank connection to be completed through the intermediate medium of the pipeline, the pipeline first connected with the reaction tank, and then connected with the valve. From the biopharmaceutical process analysis, due to the connection through the pipeline, cleaning and disinfection of the entire device when there is always some media discharge caused by incomplete effusion, thus affecting the purity of the produced microorganisms. Biological antimicrobial diaphragm valve not only cut off the medium in the pipeline, but also completely drain the effusion in the pipeline. Biological antimicrobial diaphragm valve mainly by the valve body, diaphragm, stem, valve cover and implementing agencies and other components. The top outer periphery of the valve body has a connecting portion connected with the bottom end of the container, the bottom is an inclined middle flange connecting surface with a valve cavity through hole in the center, and the upper part has a conical cavity with the inlet of the valve cavity being the lowest from the conical cavity The end begins to bias on the conical wall corresponding to the upper end of the inclined middle flange connection. The valve cap tightens the peripheral edge of the diaphragm clamped to the tilted surface of the valve body. The surface roughness of all the inner surfaces of the valve body is Ra012 ~ 014μm. When the diaphragm is raised and closed, the diaphragm and the lowest point of the outlet is a smooth and seamless connection. The valve body can be bolted to the lower end of the container with its top connection or it can be welded to the lower end of the container. The valve is equipped with a diaphragm pneumatic device, the pneumatic actuator connected to the valve stem. The biological antimicrobial diaphragm valve is located directly at the lower end of the container. The conical cavity is part of the inner cavity of the container (reactor) and is at the very bottom of the container so that the contents of the container can be drained quickly and thoroughly. The traditional valve cavity set to tilt the vertical set, the inlet located at the highest point of the valve cavity, the outlet is located in the lowest part of the valve cavity, no dead ends exist, so there will be no residue retention. The inner surface of the valve body mirror effect, not easy to scale, easy to clean and disinfect, to ensure that no growth of bacteria, to fundamentally eliminate the breeding of bacteria. Tilting drainage does not cause turbulence when it is emptied. The valve is compact and ensures field installation in tight spaces. The use of film-type pneumatic mechanism to exclude the traditional pneumatic piston and cylinder wear and tear caused by the drive failure, life expectancy can be increased 10 to 20 times. Biological antimicrobial diaphragm valve in the design, manufacture and use of a certain degree of advanced nature. By optimizing the design of the valve body, the distance between the sealing surface and the bottom of the reaction kettle is minimized, and the valve body is compact in structure. The body of the valve is designed with a welded ring that allows the valve body to be connected directly to the reactor. Not only guarantee the smoothness of the inner surface of the valve body, but also has the advantages of medium discharge structure, eliminating subtle defects, avoiding the breeding of bacteria to meet the valve in the food, pharmaceutical, biological and chemical fields.