JPS63273736A - Structure of room heating by air circulation in house - Google Patents

Abstract

PURPOSE:To prevent moisture condensation on the inside faces of the roof and eliminate moisture in the room and the growth of mold by applying room heating from below the floor with hot air from a boiler room and leading out the hot air into the room and circulating the air the temperature of which has dropped a little and which is accumulating under the roof to the boiler room through a pipe body for hot air. CONSTITUTION:The heat of a boiler 2 which is set up in a boiler room 1 is forcibly sent by a fan 3. The heat passes through an adiabatic pipe 4 and discharged from a hot air discharge ports 5 which are installed under the floor of each room. The hot air is blown out to the space 8 under the floor which is formed with the heat insulating material 6 under the floor and floor panels 7 to heat the floor panel 7. The inside of the room is heated through the floor panel 7 and at the same time hot air flow 11 is discharged also from the floor hot air discharge ports 10. Next, the hot air flow 11 becomes hot air to heat the inside of the room and flows from the gaps in the ceiling 12 to the attic 13. On the attic 13 a draft pipe 14 is installed with its open end led to the boiler room 1 and its open end 15 is provided on the attic 13 of the roof. With the above constitution the hot air that is sent forcibly from the boiler room to below the floor goes up to the back faces of the roof through the ceiling and by the air communication pipe that connects the boiler room and the back faces of the roof the cooled air flows to the boiler room.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a heating structure for a house in a general residence.

(b) Conventional technology Conventional heating methods for ordinary houses include - electric, oil, and gas stoves and electric heater panels installed in each room, as well as steam and hot water hot air heating as central heating; There were electric carpets on the floor and underfloor heating that blows warm air into the space under the floor.

These heating methods are heating methods for each room, and each indoor space is heated by natural convection or reflected heat.

(c) Problems to be solved by the invention In the case of current ordinary houses, for example wooden one-story houses,
The degree of airtightness is increasing, and the gaps are becoming smaller.

For this reason, heating systems have become extremely efficient, but this has resulted in poor air circulation, making them prone to humidity and causing mold to grow. Additionally, heat from indoor stoves and other devices rose to the ceiling, creating a problem in which the upper portions were warm but the lower portions were cold. Additionally, heat accumulates in the attic, making it easier for condensation to form in the attic. The water droplets fell into the ceiling, damaging the ceiling and shortening the lifespan of the house.

(d) Means for solving the problem In view of the problems of the conventional technology, the present invention heats the room from below the floor using warm air from the boiler room, brings the warm air into the room, and stores the slightly cooled heat in the ceiling. It has a structure in which the heat from the boiler (2) installed in the boiler room (1) is circulated through the ventilation pipe to the boiler room. Forced air is blown by the fan (3). The temperature of the hot air is adjusted so that it is about 30 degrees hotter,
The hot air passes through the insulated pipe (4) and exits from the hot air outlet (5) provided under the floor of each room. Underfloor insulation (6) and floor panel (7)
Warm air blows out into the underfloor space (8) formed by the floor panel (7) and warms the floor panel (7).

The room (9) is heated through the floor panel (7), and warm air (11) is also output from the floor warm air outlet (10). Next, the warm air (11) turns into hot air, warms the room, and flows into the attic (13) through the gap in the ceiling (12). A ventilation pipe (14) with one end led to the boiler room (1) is installed in the attic (13), and an open end (15) is provided in the attic (13). The ventilation pipe (14) is a pipe with a diameter of about 4Q cm, and is configured as a house circulation heating structure.

(e) Function Warm air forced from the boiler room to the underfloor rises through the ceiling to the attic, and the cooled air flows to boiler g through the ventilation pipes connecting the boiler room and the attic. At this time, natural convection occurs from under the floor to the attic and into the boiler room.

(f) Effect of Hatsuro With the structure of the present invention, as mentioned last month, natural convection is generated for heating, which reduces humidity, prevents condensation in the attic, and prevents damage to the building from falling water droplets, making the building last longer. It has the effect of

The laundry inside the room dries quickly, it prevents mold and mildew, so it does not have a negative effect on asthma, etc., and the futon does not get damp.

[Brief explanation of drawings]

The drawing is an explanatory diagram showing the heating structure of the present invention. 1...Boiler room 2...Boiler 3...Fan 4...Insulated pipe 5... Warm air outlet 6...Underfloor insulation material 7...Floor panel 8...Underfloor space 9...Indoor Season: Floor heated air outlet U...Warm air ν...Ceiling Country: Attic 14... Ventilation pipe 15... Opening end 16... Roof

Claims (1)

[Claims] The opening end of the heat insulating pipe led from the boiler is located in the indoor underfloor space, and a hot air outlet is provided in a part of the indoor floor surface. Next, the house circulation heating structure consists of placing the open end of the ventilation pipe in the attic and leading the other end to the boiler room.