Vimar’s Eikon Tactil to offer no contact temperature control system

Italian home technology specialist won the Red Dot award for designing his intelligent, innovative, and contact-free Echo Touch temperature control device.

The Wimmer Equate provides contactless temperature control with tactical equipment.

The elegant design of the Ekon Tectil allows it to fit perfectly into the room. Available in black and white, it absorbs easily in various colors and interior styles.

The senses suffered a great blow during the pandemic; Of course, mainly taste and smell, the absence of which is a sure sign of the presence of the virus. But our relationship with Touch also gets more complicated in the process.

While furniture designers feed the taste-hungry world with a texture that can compress and smudge easily, technology belongs to a world where possible forbids touching normal surfaces for 18 months. A new, tougher refractor has been developed to safely handle forced, common and digital interfaces.

contactless temperature control:

Antimicrobial surface treatments are on the rise for door conveniences, but all the control panels we face every day? Wimmer, an Italian specialist in-home technology, is working on a solution, with the most recent non-contact temperature controls for indoor environments.

Its Econte Tactling Thermostat, originally launched in 2015, recently got another dimension – an innovation that avoids the need for contact between the digits and its flat glass interface.

Intended for use in the home and hospital environments, the intuitive system includes a new 3D Speed ​​feature that allows the user to control the thermostat by connecting the device via motion. As the name suggests, you can enjoy it if you want, but this new device version is designed to make touch controls unnecessary.

As it approaches the panel, the LED and screen wake up, and the light sensor adjusts the intensity of the light to suit the environment. This means that a sudden rush of light doesn’t wake you up in a dark bedroom. Movement over a distance of up to 10 cm can then tell the device to adjust the temperature. In addition, apps and voice assistants also offer contactless control.

Award-winning designs to suit architects:

However, the interface would be less attractive if it were not pleasing to the eye, a feeling that, fortunately, is in the shadow of an epidemic. RGB with LED Matrix Display Made of black or white diamond finish, it lies flat against the wall, minimizing room lines and doing its best to invisibly fit the environment.

The combination of the latter’s subclasses for the architects and its refinement in design and new functionality earned them an honored Red Dot Award – not a first for the company. However, an award they are still proud of. Red Dot founder and CEO Peter Zack said it was “designed in a simple, elegant way and with multiple control options.”

It is easy to imagine luxurious hospitality capable of adopting functions parallel to smart homes, such as control of lighting and curtains. It is supplied with an adjustable function key, with a button to control the fan coil or for hotel functions, or with a key indicating the integration into building room positioning and automation systems. – Available with Mi Plus technology and KNKS protocol.

Wimer’s original goal was to be involved in the Italian reconstruction effort, which was established in 1945 in Marostica after World War II, producing electrical products for residential use – I mean lamps, wall sockets, and sockets, and Socket for the switch. Now, in light of another world-conversion phenomenon, it offers solutions to some of the world’s most sophisticated home appliances, moving towards a cleaner world of hands-free automated homes.

Principles and Basics:

The light spectrum was first discovered by Sir Isaac Newton in 1666. Passing through a prism to the Sun, he observed how light is divided into colored bands, called a spectrum. In 1880, Sir William Herschel discovered the relative energy of each color. He also found that energy exists outside the (visible) end of the red spectrum. Around 1900, the Planck scientist Stefan Boltzmann, Wien Kirchhoff defined various aspects of the electromagnetic spectrum and formulated equations to describe infrared energy.

Infrared thermometers measure temperature by sensing the infrared energy emanating from each material or object at temperatures above zero (0 degrees). In the simplest configuration, the lens would focus the infrared radiation into a detector that would convert this energy into an electronic signal. This indication will be displayed as a temperature reading after environmental temperature compensating. This arrangement allows temperature measurement from a fixed distance without requiring contact with the object. Thus the infrared thermometer is suitable for measuring functions where the contact sensor or other contacts are insufficient.

Temperature measurements fall into two categories: contact and non-contact. Thermocouples and PT11 are the most common examples of contact measurement. In theory, this device measures the object’s temperature after its adoption, so they have a relatively slow response time. Non-contact equipment detects the amount of infrared radiation (IR) that objects emit, is rapid in response, and is difficult to detect the object’s temperature in motion or a vacuum, or for other reasons.

Measuring Principle:

As mentioned earlier, all bodies above 0 °K emit infrared energy. Infrared radiation is the part of the electromagnetic spectrum located between visible light and radio waves. The infrared radiation wavelength range is between 0.7 µm and 1000 µm, as shown in Figure 1. However, this region is only suitable for measuring the temperature at wavelengths of 0.7 and 20 µm. There are currently no detectors on the market that are large enough to measure a small amount of emitted energy above 20 µm. The amount of energy emitted by the surface is proportional to the fourth power of the surface temperature.