UA149880U - METHOD OF HEATING THE FLOOR FLOOR WITH LIQUID HEAT - Google Patents

Abstract

The method of heating the floor with liquid coolant by transferring heat from liquid coolant placed in a hermetically sealed pipe, inside which along its entire length U-shaped electric cable, the coolant is heated by heat transfer through the surface of the cable connected to 220 V power supply, hermetically sealed the pipe is laid under the floor on the basis prepared in the standard way.

Description

The useful model belongs to the field of construction, in particular, to energy-efficient methods of heating premises and can be used for heated floors in residential and industrial premises, children's institutions, shops, greenhouses.

In the known methods of heating rooms with the help of heated water circulating through pipes laid under the floor, water systems provide heating for the house. But at the same time, the heating of such a floor consists of a large number of technological operations and equipment and is difficult to install. In known methods, a large amount of water is heated in a certain place. The heated water is then forced through the hot water circulation pipe so that heat is radiated from the hot water circulation pipe. The cooled water is returned to the heating medium and, thus, the heating of the water and the radiation of heat are repeated, thereby heating the floor of the room.

In addition, existing systems and methods of heating include water and expansion tanks that regulate the temperature. A separate heating circuit must be made for the warm floor. It cannot be combined in one circuit with radiator heating. perz/Likhtetopi.sot.pa/gy/ioduapoe-oioriepue-roia/.

In the proposed method of heating the floor with a liquid coolant, constant heating of the circulating liquid is not required. This is, in fact, an autonomous heating system, only the volume of liquid in the closed space of the sealed pipe is heated. This method of heating does not require additional complex equipment to ensure its operation.

From the state of the art, no technical solution similar to the proposed one has been found.

The basis of the useful model is the task of creating a simple, effective and economical method of heating the coolant for floor heating. The task is solved in the method of heating the floor with a liquid heat carrier, by transferring heat from the liquid heat carrier placed in a hermetically sealed pipe, inside of which there is an O-shaped electric cable along its entire length, the heat carrier is heated by heat transfer through the surface of the cable connected to a 220 M power source , while the hermetically sealed pipe is laid under the floor on a base prepared in a standard way.

The cable can be connected to the power source through a junction box and a thermostat.

Z The soldered pipe with the coolant can be laid under the floor in the form of a snake or a snail with a distance between the pipes (20-25 cm).

The technical result is achieved due to the fact that gas bubbles appear inside the sealed pipe when the cable is heated from the power grid around it, and when there is a temperature difference between the liquid coolant and the gas, the internal pressure of the pipe at room temperature drops and the boiling point of the liquid inside the pipe drops.

The novelty of this technical solution lies in the method of heating the floor by transferring heat from a liquid-electric heating element. The cost-effectiveness of the method is due to the fact that electrical energy is converted into thermal energy, almost without losses, because the liquid inside the pipe and the floor material (concrete, clay, etc.) accumulate heat, therefore, with a small amount of consumed energy, the heat in the room is stored longer. Low operating costs are achieved thanks to economical energy consumption. Installation time and costs are reduced, because there is no need to install additional equipment; In addition, the temperature distribution over the floor is uniform and the degree of heat utilization is improved. In the proposed method, it is possible to maintain a comfortable temperature in the room for a considerable time when the power is turned off due to the high temperature of the pipe with the heated liquid coolant. In addition, this technical solution not only simplifies the method of heating the room and ease of use, but also eliminates expensive equipment, such as a steam boiler, burner, blowers, circulation pump, etc. In addition, space is freed up for the installation of additional technical equipment required for traditional water heating.

The environment improves due to the absence of waste gas.

An example of using the method.

The pipe with the heating element is manufactured and pressed in factory conditions.

The system is closed, the liquid in the pipe does not circulate. Pipes are made of cross-linked high-strength polyethylene (diameter 20 mm), filled with a non-freezing liquid coolant, for example, ethylene glycol. A heating cable is placed inside the pipe along its entire length. This is not an ordinary cable, but seven strands made of a chrome-nickel alloy with a Teflon sheath-insulation. Pipes with cable and coolant are hermetically sealed. The coolant is static and does not move.

With this implementation, the main drawback of water heating of a warm floor is eliminated - uneven heating. During the entire time, the temperature of the liquid, and therefore the floor, is the same. When the power is turned on, the heating cable heats the coolant (antifreeze). Heating occurs very quickly, because the volume of liquid is small, and the thermal power is high. An excess pressure absorption device (foamed polyethylene) is used to absorb excess pressure.

The system is economical due to the lack of movement of the heat carrier, heating occurs very quickly, there are no heating losses, all power goes to floor heating. When the cable is connected to the power grid placed inside the pipe filled with the coolant, it heats up.

Thus, after about 30 minutes, the liquid in the pipe heats up to about 40 "C. Then, if the temperature control device is set to a certain temperature, then the temperature rise above the set level does not occur and, thus, the temperature in the room is maintained at the proper level. In addition, the temperature distribution over the floor is uniform and the degree of heat utilization is improved. In the proposed method, it is possible to maintain a comfortable temperature in the room for a considerable time when the power is turned off due to the high temperature of the pipe with the heated liquid coolant. The method combines the advantages of heating the room by water and electric means. With this method of heating the floor is not afraid of local shorting by furniture.The warm floor is repaired, the heating cable is repaired and the coolant is replaced through the distribution box.

The essence of the useful model is explained by the drawing, which shows the floor heating scheme using the proposed method.

The heating electro-liquid heating pipe 1 is laid on a base prepared by a known method under the floor at a distance of 20-25 cm between the pipes. The ends of the heating pipe 1 are placed in the junction box 2. The temperature sensor 3 of the thermostat 4 is installed on or near the heating pipe 1. When the power is supplied, the heating pipe 1 is heated, evenly distributing the heat released over the floor surface.

The required heating level is regulated using the temperature sensor C of the thermostat 4.

The use of the proposed method will allow to obtain an effective and economical technology of heating the coolant for heating the floor.

Claims (3)

USEFUL MODEL FORMULA Co.) 1. The method of heating the floor with a liquid heat carrier by transferring heat from the liquid heat carrier placed in a hermetically sealed pipe, inside of which there is an O-shaped electric cable along its entire length, the heat carrier is heated by heat transfer through the surface of the cable connected to the 220 M power source, while the hermetically sealed pipe is laid under the floor on a base prepared in a standard way. 2. The method according to claim 1, which differs in that the cable is connected to the power source through a junction box and a thermostat. 3. The method according to claims 1, 2, which differs in that the welded pipe with the coolant is laid under the floor in the form of a snake or a snail with a distance between the pipes (20-25) cm. Kk h - i-- in OO pl! : ! i o n i c) | I Shen and B p sho "fr : | Mo kak I