KR20130108694A - Floor low temperature water heating panel by heating storage - Google Patents

Abstract

PURPOSE: A heat storage type low temperature water floor heating system is provided to facilitate construction and to reduce manufacturing costs using a heat storage type floor heating panel. CONSTITUTION: A heat storage type low temperature water floor heating system comprises heat storage type low temperature water radiant heating panels (10). Aluminum panels (7) are installed in the top (4) of the heat storage type low temperature water radiant heating panels and two-lined pipe grooves (3) to firmly install a hot water pipe (40). The panels are connected to each other to form a heating floor plate. The aluminum plates formed along the two-lined pipe grooves are integrated to fit the hot water pipe.

Description

Regenerative Low Temperature Water Heating Panel {Floor Low Temperature Water Heating Panel By Heating Storage}

The present invention relates to a dry hot water ondol panel for use as an ondol floor member, using heat to dramatically increase the heat storage function, thermal insulation effect, radiant heat, and reducing the amount of heating and heat conductivity through two-line hot water pipes Through the low temperature water radiant heat is configured to increase the thermal efficiency.

Currently, floor heating systems such as apartments, villas, detached houses, business facilities, and accommodations are constructed with styrofoam or lightweight foam concrete on existing slabs, piped with hot water pipes, and mortar layers are used to form a floor structure. Doing.

However, the cement construction of such a floor structure is all made by using water in the field wet construction period is also as long as the curing period of the cement layer, there is a disadvantage that the construction cost increases.

In addition, the loads that have a large influence on the structure of the building are also large, which affects the size of structural parts such as walls, columns and beams. The thickness of the existing wet cement heating part is considerably thick as 130mm overall and heavy enough to reach 180kg / m2, which is structurally disadvantageous to external influences such as earthquakes.

In addition, when maintenance, remodeling and repair of buildings are required, additional secondary pollution and dusts are generated due to construction waste, which is disadvantageous in terms of environment.

Existing wet cement heating has the disadvantage of extremely low heating efficiency in reinforced concrete and masonry structure, which is absolutely disadvantageous in winter in terms of energy efficiency.

Therefore, in recent years, in order to solve such a problem, a method for easily increasing the best heating efficiency by installing a prefabricated dry panel having a pipe line is developed, and the present invention has also been developed in this context.

Although the present invention and the construction method are different, the following are the background arts.

Republic of Korea Utility Model No. 341742 (floor heat dissipation and insulation for ondol using aluminum coated hard foam urethane foam)

Korean Laid-Open Patent Publication No. 2002-0095733 (Prefabricated Heating System Using Ondol Panel)

Republic of Korea Patent No. 704058 (Ondol Panel Heating System)

Republic of Korea Utility Model No. 415190 (Prefabricated Panel for Ondol Heating)

Republic of Korea Patent No. 712789 (High Strength Ondol Panel)

The present invention relates to an ondol panel for use as a hot water ondol dry goose field panel member, the heat storage and thermal insulation function by forming the upper and lower warmth connection port (1) and the thermal insulation warmer passage (2) in the lower portion of the inner pipe groove of the panel Increasing the thermal efficiency by increasing the temperature, and by incorporating aluminum (7) on the left and right sides of the ondol panel (4) and the pipe groove (3), the thermal conductivity was increased quickly. To make it happen.

The present invention aims to solve the energy-saving heating using cold water at the same time as the heat storage, heat storage, radiant heat heating, which is the characteristic of Korean traditional ondol as a regenerative low temperature hot water radiant heating panel.

In the ondol panel heating system installed on the slab bottom layer, an upper and lower warmth connector (1) is formed at the lower part of the upper two-line pipe line (3), and using a warming passage (2) between the panel lower heat reflecting plate and the panel. Warmth generated in the hot water pipe 40 is moved to the lower warmth movement passage (2) through the warmth connector (1) to heat the ondol panel (10) to accumulate overall, energy efficiency through the thermal effect of the warmth movement passage (2) A low temperature water heating system was constructed.

The present invention is to realize the low-temperature water floor heating by using the heat storage ondol panel, the construction is very easy, the manufacturing cost is reduced, the thermal efficiency is significantly increased.

That is, the conventional heating construction on the slab floor is wet, the construction is complicated, the construction period is long, and the energy efficiency is low because of low energy efficiency, the present invention is dry and prefabricated, construction is simple and the construction period is very short and traditional Energy saving effect through low temperature water heating is increased in the heat storage and radiant heat heating function of the field.

In addition, the conventional wet method has a disadvantage that the height of the mortar layer of the floor when the expansion is about 13cm as a whole, the ceiling height is lowered, and the weight also reaches a weight of 180kg / ㎡ has a disadvantage of receiving a lot of load, the present invention Since no mortar layer is required, it is possible if the total thickness of the floor layer is less than 3 cm and the weight is only about 6 kg / m 2, so that the building itself is hardly loaded.

When remodeling and repairing, the existing wet method should be wet floor heating construction after demolishing or reinforcing the structure, but the present invention can be removed by installing only the finishing material to prevent industrial waste generation and does not require additional structural reinforcement. .

In addition, the present invention is because the finishing member such as the floor is installed immediately for the panel, there is no reason to heat the entire mortar layer with a high energy loss rate in heating as before, not only high energy efficiency but also 80 ℃ high temperature Low temperature radiant heating at 55 ℃ can raise internal temperature rapidly.

In addition, it is durable and has a long service life and can be easily repaired if the pipe is damaged.

In addition, one side heating, which is a problem in the conventional wet heating, that is, the floor temperature difference between each part was large and large, but the present invention fundamentally solved the single heating in the form of two-line piping and the heating quantity compared to 1.2L per square meter of the conventional method Only 0.4L, which is 1/3, enables efficient heating.

Therefore, two lines of heating water recovery rate in the same heating area, there is a faster advantage than conventional heating.

In addition, the present invention is because the hot water panel itself to form the heat transfer function (2) and the upper panel inner warmer connection (1) in order to enable the heat storage function in the traditional sphere method to realize the heat retention and heat storage at the same time of dry prefabricated Overcoming the heat storage function, the biggest drawback, the panel itself kept warm for a certain time.

In addition, the left and right aluminum (7) of the upper panel (4) and the two-row hot water pipe groove (3) has a high thermal conductivity, so that radiant heating can be performed even at a low amount of hot water and low hot water temperature. Overall, there is an excellent effect in terms of energy efficiency and construction.

1 is a top plan view of a panel that is a component of the present invention;
Figure 2 is a bottom plan view of the panel as a component of the present invention;
3 is a cross-sectional view AA of a panel that is a component of the present invention.
4 is a sectional view BB of a panel which is a component of the present invention.
5 is a partially enlarged detail cross-sectional view of a panel that is a component of the present invention.

In the ondol panel heating system installed on the slab bottom layer, aluminum thin plates are integrally formed on the upper and upper surfaces of the high strength heat storage board (4) and the left and right surfaces (7) of the pipe grooves (3), Regenerative dry low-temperature radiant heating panel (10) constituting the upper and lower warmth connection (1) connecting the lower warm passage (2): by connecting the panel to the left and right to form an overall heating bottom plate, the upper two-line piping line (3 ) The hot water pipe is firmly installed along the panel, and the aluminum plate (4) on the top of the panel and the aluminum plate (7) on the left and right sides of the two-line pipe line generate radiant heat, and the warm warmth generated from the pipe is located at the bottom of the pipe groove (3). Regenerative cold water dry radiation combined with traditional warming method that adds warming effect to the warming effect by constructing to form a warm air layer 20 through the inner warm water passage (2) through the inner hot water connector (1)Gudeuljang the room.

Thus, the greatest feature in the present invention, first, in the dry prefabricated goose field configuration, radiant heat generation consisting of the aluminum thin plate (7) consisting of two rows of pipes (3), the upper and lower inner connector (1) and the lower thermal insulation passage in the lower part of the pipe It is a regenerative low-temperature water radiant heating panel configured to keep insulation and heat storage using (2) as one hot water panel at the same time.

Hereinafter, the present invention will be described in detail with reference to examples.

First, the panel 10 used in the present panel is integrated with an aluminum thin plate 4 on the left and right sides of the aluminum thin plate 4 and the two-line piping line 3 on the high strength heat storage plate. In addition, the air layer enclosed space 20 so that warmth generated in the pipes through the upper and lower inner warmer connections 1 and the lower warming passage 2 moves to the lower warming passage 2 so that the whole space of the bottom of the saddle field panel 10 is warmed. ) Was formed.

On the other hand, the inner diameter of the pipe was formed within 10 mm so that the heating water required for heating is less than 1/3 compared to the conventional wet type through the two-line hot water pipe 40, and the aluminum sheet having high thermal conductivity is piped to the upper panel 4 and the pipe. The left and right sides 7 of the line 3 were integrated.

The left and right side aluminum thin plates (7) of the piping line (3) was configured to have a structure in which hot water pipes (40) once installed at the same time as quickly transferring heat to the upper portion.

The heating system corresponding to the present invention will have sufficient energy saving effect and heating effect compared to the existing heating system, and thus, industrial application will be sufficient.

1: warmth connector
2: warmth passage
3: two row piping
4: upper panel
5: bottom panel
6. Bottom surface of pipe groove
7: Plumbing groove left right side
10: heat storage panel board
20: lower air layer
40: hot water pipe

Claims (2)

In the ondol panel heating system installed on the slab bottom layer, the heat storage low temperature configured to install the hot water pipe 40 firmly by integrating the left and right side aluminums 7 installed in the upper panel 4 and the two-row pipe groove 3. Can radiant heating panel (10):
The panel 10 is connected to the left and right to form an overall heating bottom plate, and the aluminum plate is integrated into the left and right surfaces 7 formed along the two row pipe grooves 3 so that the pipes are fitted in a close contact. In addition, the regenerative low-temperature radiant heating fields ensure that heat is transmitted and heat generated through the pipe is transferred to the upper part of the panel to generate radiant heat. The heat storage connector 1 of the lower portion 6 of the pipe groove 3 and the warmth passage 2 of the lower panel of the pipe are composed of a sealed insulating air layer 20 so that the heat storage function and the thermal insulation function of the whole ball field are maintained. High efficiency regenerative low temperature radiant heating field used effectively.

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