Pyramid heater
The pyramid-shaped electric heater addresses inefficiencies and safety concerns of fan blowing resistance heaters by utilizing silicone cables and a pyramidal design for efficient, safe, and portable heating.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- SİCİM TÜRKAY
- Filing Date
- 2024-12-26
- Publication Date
- 2026-07-02
AI Technical Summary
Existing fan blowing resistance heaters suffer from low energy efficiency, noise, temperature instability, dust dispersion, potential fire hazards, maintenance needs, and humidity reduction, posing challenges for user comfort and safety.
A pyramid-shaped electric heater using silicone heatable cables and a pyramidal design, capable of heating a 20 square meter room with 800W, featuring a fan for enhanced air circulation and a cable thermostat for safety, with a portable design and adjustable temperature control.
The pyramid heater provides efficient heating with reduced power consumption, safe operation, improved comfort, and portability, while minimizing noise and dust dispersion, enhancing user safety and environmental stability.
Abstract
Description
[0001] DESCRIPTION
[0002] PYRAMID HEATER TECHNICAL FIELD
[0003] The invention relates to an electrically powered pyramid heater for use in tinyhouses, boats, indoor offices and other places that need heating.
[0004] BACKGROUND OF THE INVENTION
[0005] Resistance heaters are devices used to heat a medium, surface or liquid by converting electrical energy into heat energy. The working principle is quite simple: When an electric current passes through a conductor called a resistor (resistance), heat is released due to the loss of energy from the resistance. This heat is transferred to the surface or medium to be heated.
[0006] Fan blowing resistance heaters are systems used to spread the heat generated from the resistance wire evenly and quickly to the environment with the help of a fan. These devices are particularly preferred for domestic heating, industrial drying, in-vehicle air conditioning systems and various ambient heating applications. However, this type of device has some disadvantages, both structural and functional.
[0007] Resistance heaters start at 2500W. Currently, the lowest power supply that can heat a room of at least 20 square meters starts at 1500W.
[0008] These disadvantages are listed below.
[0009] Fan blowing resistance heaters have low energy efficiency because they directly convert electrical energy into heat energy. In conventional resistance systems, lost energies increase costs, especially in long-term use.
[0010] The noise that fans make during operation can be a problem, especially in quiet environments. This problem is more pronounced in devices using low-quality fans.Depending on the direction of the airflow and the power of the fan, some areas may be hotter than others. This can lead to temperature instability in the environment and negatively affect user comfort.
[0011] Fan systems can move dust and other particles in the ambient air, both drawing them into the device and dispersing them into the environment. This can have negative effects, especially for people suffering from allergies.
[0012] If the device is operated for a long period of time, the resistance may overheat. If adequate safety precautions (e.g. thermostat or temperature sensors) are not taken, there is a risk of fire or damage to the device. The existing resistances could become embers and fall and bum. Furthermore, when children reach out their hands, they can get burned.
[0013] The fan mechanism is susceptible to problems such as dust, wear or motor failure over time. This can lead to regular maintenance of the device and additional costs for the user.
[0014] Fan blowing heaters can reduce the humidity in the air, causing the environment to dry out. This can irritate users' airways or create an uncomfortable feeling in the environment.
[0015] In conclusion, the abovementioned shortcomings and the inadequacy of the current practice entail an improvement in the respective technical field. Thus, there is a need for an invention to overcome the described problems.
[0016] DESCRIPTION OF THE INVENTION
[0017] The present invention relates to an electrically powered pyramid heater for use in tinyhouses, boats, indoor offices and other places that need heating in order to eliminate the disadvantages mentioned above and to bring new advantages to the related technical field.
[0018] The pyramid-shaped heater of the present invention heats a 20 square meter room with 800W of power with an mouth temperature of 110 °C. Therefore, itheats the same square meters of room with almost half the power usage compared to its competitors. It saves electricity.
[0019] Another advantage of the invention is that the cables in the invention can be touched by hand. Furthermore, the subject matter of the invention can move by means of its wheels. Silicone heatable cables are used in the invention, so these cables can be touched by hand and do not bum. It has an open mouth and a pyramidal design that narrows from bottom to top. The heated air is pushed up by the fan at the bottom, providing effective heating. Even without the fan, the heated air will rise upwards and heating will still be provided, but the fan will provide more efficient heating.
[0020] The invention is suitable for operation with 220V, 48V, 24V, 12V.
[0021] The pyramid heater of the invention can be produced as larger and smaller, in different shapes, and different sizes and dimensions.
[0022] DETAILED DESCRIPTION OF THE INVENTION
[0023] The preferred alternatives of the pyramid heater embodiment of invention, which are mentioned in this detailed description, are only intended for providing a better understanding of the subject-matter, and should not be construed in any restrictive sense.
[0024] The invention relates to a pyramid heater, which comprises an outer pyramid, an inner cable carrier pyramid, conduits, legs, console, wheel, fan, cable thermostat, silicone heatable cable.
[0025] The outer pyramid is the part above the inner cable carrier pyramid, which is visible to the users. The outer pyramid is located outside the inner cable carrier pyramid, also in the form of a pyramid. The outer pyramid forms the outer structure, traps heat by covering the cables and increases the heat density with its geometric shape. The mouth of the outer pyramid has a vent.The internal cable carrier pyramid has a pyramid-shaped structure with conduits through which the silicone heatable cables pass and preferably four legs that wrap around the silicone cables to carry the cables as well. The conduits are the conduits of the inner cable carrier pyramid, through which the silicon heatable cables pass. The inner cable carrier pyramid has four legs. The number of these feet may increase or decrease. These four legs allow the inner cable carrier pyramid to be fitted into the console. The console also allows this inner cable carrier pyramid and the outer pyramid to be carried.
[0026] Under the console there are at least three and preferably four wheels for moving the subject matter of the invention. The wheels make the invention portable and practical to use. The wheels also raise the pyramid from the bottom, allowing air to pass underneath. The heater with bottom air works more efficiently.
[0027] The fan is located under the console and is in the center. It allows the cold air from below to be transmitted upwards to the center of the inner cable carrier pyramid. The air heated by the silicone cables comes out hot from the mouth of the outer pyramid and warms the environment.
[0028] Cable thermostat allows to stop the device at the desired temperature, preferably at 90 °C. When the temperature in the silicon cables decreases, the device works again and continues to heat the environment. The cable thermostat is designed to prevent the environment from getting hotter.
[0029] The silicone heatable cable is wound around the inner cable carrier pyramid through conduits. It enables the conversion of electrical energy into heat energy. As it heats itself, it also provides heating to the surrounding area by means of the pyramid structure.
[0030] The inner cable carrier pyramid is made of aluminum, galvanized coating material. The outer pyramid is made of wood, plexiglass or metal.
Claims
CLAIMS1- An electrically powered pyramid heater for use in tinyhouses, boats, indoor offices and other places that need heating, characterized in that it includes: - Outer pyramid; the outer pyramid that forms the outer structure, which is the pyramid-shaped part that users see above the inner cable carrier pyramid and covers the cables to trap heat and increase the heat density with its geometric shape,- The internal cable carrier pyramid; the internal cable carrier pyramid that has pyramid-shaped structure with conduits through which the silicone heatable cables pass and preferably four legs that wrap around the silicone cables to carry the cables as well.- The console for carrying the inner cable carrier pyramid and the outer pyramid,- The silicone heatable cable wrapped around the inner cable carrier pyramid.2- The pyramid heater according to claim 1, characterized in that it includes a fan located at the bottom of the console and located in the center, which allows the cold air from below to be transmitted upwards to the center of the internal cable carrier pyramid.3- The pyramid heater according to claim 1, characterized in that it includes at least three wheels under the console to carry the outer pyramid and the inner cable carrier pyramid.4- The pyramid heater according to claim 1, characterized in that it includes a cable thermostat that allows to stop the energy at the set point.5- The pyramid heater according to claim 1, characterized in that it includes the vent located above the outer pyramid.6- The pyramid heater according to claim 1, characterized in that the inner cable carrier pyramid is made of aluminum or galvanized coated material.7- The pyramid heater according to claim 1, characterized in that the outer pyramid is made of wood, plexiglass or metal.