KR100309710B1 - Method for facilities of warming and cooling the floor operated mainly by air - Google Patents

Abstract

PURPOSE: A method for constructing heating and cooling system is provided to allow heating wind or cooling wind to flow through a space formed between a panel and an insulation member by sticking the panel having a concave-convex portion to a bottom finished with the insulating member. CONSTITUTION: A main air supplying pipe(12) has a cooling coil(17) at one side thereof and a heating water coil(17b) at the other side thereof. A blower(15) is installed in a middle portion of the main air supplying pipe(12). Two conveying pipes(14) are incorporated with the main air supplying pipe(12). The conveying pipes(14) are connected to supplying units(13a,13b). The supplying units(13a,13b) are arranged at both ends of a panel(11). Ventilation ports(18a,18b) are formed at both sides of the supplying units(13a,13b). The panel(11) arranged between the supplying units(13a,13b) has a concave-convex portion so that air ventilating passages(19) are formed between the panel and a bottom.

Description

Air Ondol Cold. Heating Method {Method for facilities of warming and cooling the floor operated mainly by air}

The present invention is residential cold. The present invention relates to a heating construction method, and more particularly, to an installation method configured to supply heat by supplying hot and cold air to a passage formed under the ondol by installing an uneven panel on the floor.

The heating method used for residential use is to obtain heat by embedding a coil on the floor and supplying hot water to the coil.

The supply of hot heat for heating uses hot water, so there is a risk of water leakage during long-term use, and in the case of severe cold conditions, the possibility of freezing is expected. Therefore, there is a burden and inconvenience of installing air conditioners in each room.

An object of the present invention is to form a structure that can be in close contact with the bottom surface of the concave-convex shape to the floor closed with a heat insulating material to distribute the hot and cold air to the space formed between the recess and the heat insulating material of the panel.

The present invention is required to be configured differently depending on whether the cold air and hot air to be supplied by the central supply type or independent supply per household, the present invention relates to the central supply type and independent furniture per household, the hot water coil is a unit of furniture It's a way to get into the area and blow air at that point. Therefore, the cooling method is also to obtain heat by a forced air blowing method in the cold water coil that has advanced to a certain point like the heating method, it is preferable to minimize the noise caused by the rotation of the blower. However, the cooling method is preferably to be ventilated in the room space without circulating cold air to the floor. Therefore, it is desirable to install cold air supply and ventilation holes in the upper part of the wall.

The structure of the present invention, which is embedded in the floor, corresponds to a small chemical reaction because air having a low temperature is circulated, but is preferably coated with a durable material because the change can be predicted when used for a long time. In addition, the supply pipe and the panel to be in close contact with the floor should be tightly closed to be constructed so that air can not be distributed other than the present invention. In addition, according to the width of the plane constituting a furniture to form the required amount of heat to supply the required amount of heat, the cold heat is supplied. The on-coil is installed at the point of concealment in the room, but it is preferable that the space can be secured and protected in the general view.

1 is an assembly complete view of the present invention.

2 is an installation of the present invention

3 is a cross-sectional view of the present invention

[Description of the symbols on the main parts of the drawings]

11: panel 12: main air supply

13 supply pipe (a, b) 14 transfer pipe

15 blower 16: heat insulating material

17: Cold and hot water coil (a, b) 18: Ventilation port (a, b)

19: ventilation passage

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and embodiments.

The present invention is to supply heat to the cold and hot coils (17a, 17b) installed in the main air supply pipe 12 and the transfer pipe 14 and the floor connected to the supply pipes (13a, 13b) in the main air supply pipe (12). It is characterized by consisting of the panel (11).

Figure 1 is intended to show the completed shape of the present invention, Figure 2 is to show the installation method of the present invention, Figure 3 is to show the cross-section of the floor after the construction of the present invention. (17a) is formed and the hot water coil (17b) is formed on the other side, the main air supply pipe 12 is formed is formed in the middle of the blower (15) for transferring hot air and cold air is formed and the main air supply pipe ( Two transfer pipes 14 are formed in connection with 12), and the two transfer pipes 14 are connected to the supply pipes 13a and 13b in a shape as shown in FIG.

The supply pipes 13a and 13b are disposed at both ends of the panel 11 as shown in FIG. 2, and vent holes 18a and 18b protrude from both sides of the supply pipes 13a and 13b. The panel 11 disposed between the supply pipes 13a and 13b is required. It is formed of iron and constructed in the same shape as shown in FIG. 3, and the panel 11 between the supply pipes 13a and 13b is disposed in the same size as the plane of the room and closely adhered to the bottom of the heat insulating material 16 of a certain standard. 1, when the supply pipes 13a and 13b are attached to both ends of the panel 11 as shown in FIG. 1, the bottom of the panel 11 and the upper portion of the bottom are repeatedly vented in the direction of the supply pipes 13a and 13b. A passage 19 is formed.

The operation of the present invention will be described with reference to embodiments. In the present invention, a case where the main air supply pipe 12 is used under the sink stand of the kitchen where a certain amount of space is secured and protected from view will be described. Cold configured to fit. The hot water coils 17a and 17b are selectively used or used when supplied. When the hot air is required, the hot water 17b coil generates heat, so when the blower 15 is operated, the warm air is discharged from the main air supply pipe 12. The warm air conveyed to the conveying pipe 14 and passed through the conveying pipe 14 is moved to the supply pipe 13a to provide a plurality of ventilation passages 19 formed in the panel 11 formed between the supply pipes 13a and 13b. Will pass through. Since the warm air passing through the ventilation passage 19 moves to the supply pipe 13b, the temperature of the ventilation path 19 rises, so that the panel 11 heats and the floor becomes warm, and the supply pipes 13a and 13b. And the heat medium present in the ventilation passage 19 is to increase the temperature of the room constantly while the controlled amount is discharged to the ventilation openings (18a, 18b) formed in the supply pipe (13b). The panel 11 is a half ventilation passage (19) may be used for the supply of warm air and half for the supply of cold air, but for heating purposes, the whole shall be used for heating, and for cooling purposes, the whole shall be used for cooling; The heating medium of cooling is comprised so that it may exhaust to ventilation ports 18a and 18b without circulating. If cold air is required, cold water is supplied to the cold coil 17a. When the blower 15 is operated, the cold air is moved from the main air supply pipe 12 to the transfer pipe 14, and the cold air passed through the transfer pipe 14 is supplied. The heat medium moved to the engine 13a, moved to the ventilation passage 19 formed between the supply pipe 13b and the supply pipe 13a, moved to the supply pipe 13b, and moved to the supply pipe 13b is supplied. It is discharged to the ventilation openings 18a and 18b formed in the engine 13b. The ventilation port is formed to protrude into the room, or inserted into the inner wall to be configured as an inner wall and installed at a high level of the wall. The heat medium of the cold wind as described above cools the ondol while passing through the ventilation passage 19 and vents 18a and 18b. Exhaust through) to cool the indoor bet.

Some of the cold air remains in the ventilation passage 19 to be circulated, but since the flow of fluid flows to a place where the pressure is low, most of the cold air is exhausted to the ventilation holes 18a and 18b.

Cold according to the present invention. The heating construction method is to obtain the heat from the heating, not directly from the hot water, but by forcibly circulating the heat from the hot water to the warm air, so the heating medium circulating the floor supplies heat while the warm air circulates, so the floor is always dry. It is possible to maintain and supply the cold air to the pipe that was supplying the warm air is a construction method that does not need to install a separate air conditioner in a plurality of independent rooms.

Claims (2)

It is composed of a blower (15) for circulating the hot air and cold air and the main air supply pipe (12) of the heat medium is constructed so that the heat medium passes through the ondol to be heated and cooled. In the heating installation method, it is coupled to both ends of the panel 11, which is connected to the main air supply pipe 12 and constitutes an ondol, to distribute and supply hot air and cold air to the ventilation passage 19, and one of the air vents 18a, Air ondol cooling characterized by consisting of supply pipes (13a, 13b) is formed 18b). Heating equipment method. The panel 11 is formed in a concave-convex shape and is integrally formed with the supply pipes 13a and 13b coupled to both ends thereof, and the bottom thereof is formed by the ventilation passage 19 by the concave-convex shape. Featuring air ondol cold. Heating equipment method.