JPH05264051A - Floor heater - Google Patents

Abstract

PURPOSE:To provide a safe, easy-to-install, easy-to-maintain, and high energy- efficient floor heater. CONSTITUTION:An underfloor heat insulating material 3 is fixed on a subflooring 2. A spacer 5 made of heat insulating material is installed between the heat insulating material 3 and a flooring material 4 to provide an underfloor closed space 6, which has a blowoff port 11 and suction port 12 which are communicated with an indoor unit 7. Hot air supplied to the closed space 6 is supplied to a room 1 through the flooring material 4 without escaping downward by the underfloor heat insulating material 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floor heating system.

[0002]

2. Description of the Related Art Conventionally, as a floor heating system, the actual heater is 62
-21848 has a thing of description. In this floor heating device, a heat generating panel in which a pipe through which hot water passes is embedded is brought into close contact with a floor material to perform floor heating. Also, instead of the heating panel through which the hot water passes, there is also a heating panel in which an electric heater is embedded, which is brought into close contact with the floor material.

[0003]

However, the heating device using the heat generating panel with the pipes embedded therein has the following problems. It is troublesome because piping work is required when installing the heat generation panel. There is a risk of water leakage from the pipe due to clogging, cracks, and poor connection of the pipe due to rust and hot water on the pipe. Since the piping through which hot water circulates is embedded in the heat generating panel provided under the floor material, repair work is required when the piping is corroded or deteriorated. Further, when a heat-generating panel using an electric heater is used, there are the following problems. There is a risk of electric leakage and electric shock due to aging and damage of floor materials and heat generating panels. Energy efficiency is poor because an electric heater is used.

Therefore, an object of the present invention is to provide a floor heating system which is safe, can be installed easily, does not require maintenance, and has high energy efficiency, without using pipes for circulating hot water or electric heaters. To do.

[0005]

In order to achieve the above object, the underfloor heating apparatus according to a first aspect of the present invention arranges the underfloor heat insulating material provided on the rough floor through a spacer to dispose the underfloor heat insulating material. An underfloor sealed space is formed between the material and the floor material, and a blowout port and a suction port connected to the air conditioner are opened in the underfloor sealed space. The underfloor heating apparatus according to a second aspect of the present invention is characterized in that a partition is provided in the underfloor sealed space so that conditioned air from the blowout port to the suction port passes through the entire underfloor sealed space. The floor heating device according to a third aspect of the present invention is characterized in that the spacer is made of a heat insulating material and is integrally formed with the underfloor heat insulating material.

[0006]

According to the floor heating device of the first aspect, since the lower side of the underfloor closed space is insulated by the underfloor heat insulating material, the heat of the conditioned air supplied to the closed space is lower than the underfloor heat insulating material. It will not escape to the room and will be fed through the flooring into the room. Since conditioned air circulates in a closed cycle between the underfloor closed space and the air conditioner and does not escape to the outside, heating can be sufficiently performed from the lower side of the floor material with a small air volume. In addition, since the conditioned air circulates in the closed space under the floor in a closed cycle, there is little temperature unevenness of the conditioned air that is circulated, and it is possible to perform heating without temperature fluctuations, and dust from the outside enters. Therefore, the number of times of maintenance of the air filter can be reduced. Further, since the underfloor sealed space is used as a duct space or a ventilation space, it is possible to reduce other duct spaces or ventilation spaces.

Further, in this floor heating system, since the heat medium is conditioned air, even if it leaks, the problem of water does not occur. In addition, since water pipes, electric heaters, etc., as in the past, are not buried, maintenance is unnecessary. Further, for example, since conditioned air at 40 ° C. or lower can be used for sufficient heating, the heat influence on the floor material is small, and the life of the floor material can be extended. Further, since heating is performed by conditioned air from the air conditioner, energy efficiency is higher than that using an electric heater. Further, in the heating device according to claim 2, a partition is provided in the underfloor sealed space, and the air outlet is provided. Since the conditioned air from the inlet to the inlet is made to flow through the entire underfloor enclosed space, the entire surface of the floor material can be heated evenly. Further, in the floor heating apparatus according to the third aspect, since the spacer is made of a heat insulating material and is integrally formed with the underfloor heat insulating material, the work for burying the floor heating apparatus can be easily performed.

[0008]

The present invention will be described in detail below with reference to the embodiments shown in the drawings. In FIG. 1, 1 is a room, 2 is a rough floor, 3 is an underfloor heat insulating material fixed on the rough floor 2, and 4 is an underfloor heat insulating material 3.
It is a floor material fixed on the top of the sheet through a spacer 5 made of a heat insulating material. In the underfloor closed space 6 between the underfloor heat insulating material 3 and the floor material 4, as shown in FIGS.
The air outlet 11 and the suction port 12 which are continuous with are opened. Partitions 15 and 15 for partitioning the underfloor closed space 6 are provided between the blowout port 11 and the suction port 12 so that conditioned air blown out from the blowout port 11 as shown by an arrow X is underfloor closed space 6.
1 through the whole of the suction port 1 as shown by arrows Y and Z.
I am trying to reach 2. An outdoor unit 8 constitutes an air conditioner in combination with the indoor unit 7. According to the floor heating device having the above-described configuration, the warm air blown from the indoor unit 7 to the underfloor enclosed space 6 through the outlet 11 as shown by the arrow X is along the partition 15 as shown by the arrow Y. Go to
Further, as shown by an arrow Z, the suction port 12 returns to the indoor unit 7.

As described above, since this floor heating device uses conditioned air as a heat medium, it is extremely safe as compared with the case of using water or an electric heater, and there is no problem even if it leaks. Further, since the lower side of the underfloor closed space 6 is insulated by the underfloor heat insulating material 3, there is no escape of heat to the lower side. Therefore, even if conditioned air at 40 ° C. or less is used, sufficient floor heating can be performed. it can. Further, when conditioned air of 40 ° C. or less is used, the heat effect on the floor material 4 is small and the floor material 4
Lifespan is extended. In addition, since this floor heating device has a closed cycle that connects the underfloor closed space 6 and the indoor unit 7, it is possible to perform floor heating with a small air volume. Also,
In order to use the underfloor enclosed space 6 as a duct space,
There is no need to provide a separate duct space, and the space under the floor can be effectively used. Further, since this floor heating device is a closed cycle that connects the underfloor closed space 6 and the indoor unit 7 as described above, the temperature of the conditioned air becomes constant and the temperature unevenness of the floor material is reduced. Also, because it is a closed cycle like this, there is no risk of dust entering from the outside, the number of times to replace the air filter of the air conditioner can be extremely reduced, and the air filter can be omitted. It is possible. Further, since this floor heating device does not have hot water pipes or electric heaters buried therein, it has an advantage that laying work is easy and maintenance is almost unnecessary. Further, since this floor heating apparatus uses the air conditioners 7 and 8 for heating, the energy thermal efficiency is 3 compared with the case where an electric heater is used (energy efficiency 0.86%), which is extremely high.

FIG. 3 is a perspective view of the second embodiment, and FIG. 4 is a plan view schematically showing the second embodiment. In the second embodiment, the same components as those in the first embodiment are designated by the same reference numerals, and the description thereof will be omitted. Only different portions will be described below. In this second embodiment, the underfloor heat insulating material 33 and the spacer 35 are integrally formed. Therefore, the work for laying the floor heating device is simplified. Further, the air outlet 31 is opened upward from the underfloor heat insulating material 33, and the underfloor heat insulating material 3
3 is connected to a diffuser 21 arranged on the lower side. The diffuser 21 is connected to the indoor unit 7 via a duct 25. In this way, since the diffuser 21 and the duct 25 are provided in the underground space under the rough floor 2, the living space is not narrowed. The conditioned air discharged from the slit-shaped outlet 31 flows as shown by an arrow C in FIG. 4, passes through the slit-shaped inlet 32, and further returns to the indoor unit 7 of the air conditioner via the duct 25.

The operation and effect of the second embodiment are exactly the same as the operation and effect of the first embodiment, and further, the advantage that the construction work at the time of laying can be simplified and the duct 25 and the diffuser 21 are installed under the rough floor 2. It has an advantage that the underground space can be effectively used.

[0012]

As is apparent from the above, the present invention is
A spacer is arranged between the underfloor heat insulating material provided on the rough floor and the floor material to form an underfloor closed space between the underfloor heat insulating material and the floor material, and the closed space is connected to the air conditioner. Since the closed cycle in which the conditioned air that is the heat medium circulates is formed by opening the outlet and the suction port, the following actions and effects are obtained. According to this invention, since the heat supplied to the underfloor closed space does not escape to the lower side due to the presence of the underfloor heat insulating material, the heat supplied to the underfloor closed space is effectively supplied into the room. You can Moreover, since this floor heating device uses conditioned air as a heat medium, it is extremely safe and does not cause a problem even if it leaks. Moreover, since the temperature of the conditioned air is relatively lower than that of hot water or the like, the influence of heat on the floor material is small and the life of the floor material is extended. In addition, since this floor heating system does not have water pipes or wiring electric heaters buried therein, it is easy to install the floor and requires almost no maintenance.
Further, since this floor heating device uses conditioned air, it has extremely high energy efficiency as compared with the case where an electric heater or the like is used. Also, when a partition is provided so that the conditioned air from the outlet to the suction port passes through the entire underfloor sealed space, the conditioned air circulates throughout the underfloor sealed space,
It is possible to evenly heat the entire floor. Further, when the spacer made of a heat insulating material is formed integrally with the underfloor heat insulating material, the laying work of this floor heating device becomes simple.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a floor heating system according to a first embodiment of the present invention.

FIG. 2 is a plan view of the floor heating device shown in FIG.

FIG. 3 is a perspective view of a main part of a floor heating system according to a second embodiment of the present invention.

FIG. 4 is a plan view of the floor heating system according to the second embodiment of the present invention.

[Explanation of symbols]

 1 ... Room, 2 ... Rough floor, 3,33 ... Underfloor heat insulating material, 4 ... Floor material, 5,35 ... Spacer, 6 ... Underfloor sealed space, 7 ... Indoor unit, 8 ... Outdoor unit, 11,31 ... Blowout port , 12, 32 ... Suction port, 15 ... Duct, 21 ... Diffuser, 25 ... Duct.

Claims (3)

[Claims] 1. An underfloor heat insulating material (3) is provided by arranging a floor material (4) on an underfloor heat insulating material (3, 33) provided on a rough floor (2) via a spacer (5, 35). , 33) and the floor material (4) form an underfloor enclosed space (6), and an outlet (11) and a suction port (12) connected to an air conditioner are opened in the underfloor enclosed space (6). Underfloor heating system characterized by being. 2. The floor heating apparatus according to claim 1,
A partition (15) is provided in the underfloor sealed space (6) so that conditioned air from the blowout port (11) to the suction port (12) passes through the entire underfloor sealed space (6). Characteristic floor heating system. 3. The floor heating system according to claim 1 or 2, wherein the spacer (35) is made of a heat insulating material and is integrally formed with the underfloor heat insulating material (33). apparatus.