KR20130009193A - Assembled heating panel for hot water boilers and manufacturing method for the same - Google Patents

Abstract

PURPOSE: An assembly heating panel for a hot water boiler and a manufacturing method thereof are provided to maximize the efficiency of the boiler by applying to various boilers like a solar heat boiler and heat pump boiler. CONSTITUTION: An assembly heating panel for a hot water boiler comprises a radiant plate(10), a hot water pipe, a support tape, a wood block, a thermal reflection insulator(50), a urethane insulator, and a far infrared layer(70). One corner and opposite corner of the radiant plate are cut into L-shapes. The upper surface of a square plate, left and right sides are vertically curved to include a hollow portion inside. The hot water pipe is adjacently placed to the upper surface of the radiant plate, and positioned in zigzag. The wood block is arranged between the hollow portion and the hot water pipe, and attached to the upper surface of the radiant plate. The urethane insulator is filled in the hollow portion. The far infrared layer is spread on the radiant plate.

Description

Assembled heating panel for hot water boilers and manufacturing method for the same

The present invention relates to a hot water heating panel, and more specifically, produced in the factory by standardization and transported to the site by simply assembling the panels between the construction of the heating hot water while being able to construct a heating ondol of a variety of hot water boilers, such as solar boilers, heater pump boilers The present invention relates to a prefabricated heating panel for hot water boilers capable of increasing energy efficiency and emitting far infrared rays, which are beneficial to health, and a method of manufacturing the same.

In general, the ondol heating method using a guddle field is the preferred method of heating the house, which has been handed down by the ancestors as a traditional Korean culture, and the air of the room is the natural convection phenomenon. It is because it is a heating method using radiant heat and you can feel warm and comfortable during use.

The ondol heating method using traditional Korean bulbs is a heat storage heating system in which the heat is heated and regenerated when the fire is fired in the arbor, and the floor is maintained at an appropriate temperature for a predetermined time by the heat of the heated ball. As such, the heating method of the ondol structure has been found to have excellent advantages one after another, and as it has disappeared with urbanization in recent years, the popularity has been steadily increasing as an ondol ocher room, which is beneficial to health.

On the other hand, as the standard of living has improved due to industrialization, it has become common to use oil boilers in rural homes. As a result, there is almost no reconciliation. Or there is a problem that it is not easy to access, so it is difficult to extinguish even in case of fire, so it is not only easy to use variegated tree as a firewood, but also many forest trees are produced by the Forest Service for the economic efficiency of forestry. Since it can be used, there is an advantage that wood can now be used as the cheapest fuel.

By the way, the heating system of the conventional ondol structure in detail serves to heat the floor in a conventional heat place, a heating place such as a fireplace or a stove, and a passage through which heat and smoke generated by burning a firewood in the heating place move. It consists of a whale formed by a saddle field and a chimney for discharging smoke from the whale to the outside. In order to form the whale and store heat by heating the floor, it is necessary to make a thin and flat stone called a saddle field. The heating floor is heated by using the heating paddle, which is heated by heat to maintain the heat for a long time, but it has the advantage of long heating duration, but it is not easy to obtain a stone that can be used as a paddle field. As the shock is often received, the durability is weak If that is commonplace yeoseo gudeuljang wake up over time, sometimes the problem comes the heat and smoke seeped into these cracks occur.

Therefore, in order to solve such a conventional problem, a modified ondol structure has been proposed. For example, Korean Patent Application No. 2005-0099540 refers to a "prefabricated ondol block" and "supports an existing stone field and field field at the same time. Bricks, which are used for stacking whales that act as passages, are provided in a single block with prefabricated blocks so that anyone can easily assemble and construct them.The material is not stone or cement. As a block made of soil, it is compressed and molded like a normal brick, and then calcined to high temperature and dried to disclose an ondol block excellent in solidity, heat storage, and heat retention. Korean Patent Application No. 2006- 0115196 "Goddle finisher" is a "connecting groove and a groove is formed on the side of the square frame, the fitting groove portion in the center Formed panels; A connecting frame in which a fitting protrusion is formed at an upper side in a longitudinal direction to be connected to a fitting groove of the panel, and a semicircle having a lower opening at a lower portion thereof, and a plurality of protrusions formed at regular intervals on both sides; A U-shaped pipe groove having an upper portion of the frame formed in the lengthwise direction to be inserted into the connection frame is formed, but a stepped portion is formed in the pipe groove and the extension line, and a guide groove is formed along the stepped portion of the open frame. The inner side of the center and the pipe connecting portion formed at regular intervals the insertion hole and the engaging projection so that the projections of the connecting frame can be combined; It is starting.

However, the improved invention of the saddle field used in the heating system of the conventional ondol structure has the advantage of easily solving the problems associated with the conventional guddle field, but the manufacturing is not easy and the manufacturing cost is expensive, which is not practical. In addition, there has been a problem in that it is not possible to employ a boiler used for most residential heating in recent years.

In addition, the universal construction of Ondol heating employing a boiler is waterproofing and insulating insulation of the floor, install the Excel pipe at regular intervals, pour cement concrete to cure, and then connect the Excel pipe to the boiler hot water pipe to complete the construction. Done.

This construction is not only complicated and cumbersome, but also has a drawback in that the air of the construction takes a long time, and the cement is released due to the temperature rise of the cement concrete during use, which makes the air in the room turbid and the heat energy for heating the ondol layer. There was also a problem that requires a basic heat source.

As a result, "Heating Panel" of Patent No. 0783717 is published in a registered patent publication.

As shown in FIGS. 1 and 2, the "heating panel" of Patent No. 0783717 is provided with upper and lower curved plates 110 stacked in an orthogonal direction so as to block the circumference of the upper vertical valleys 121 and the lower horizontal valleys. In the heating panel including a heat dissipation portion (a) is formed a curved diffusion passage 120 including the 122, and hot water supply, discharge pipes (b, c) in communication with the curved diffusion passage 120, The cross-sectional hot water moving cross section of each vertical valley 121 is formed to be smaller than the vertical cross-section hot water moving cross section of each horizontal valley 122, and the upper and lower portions of the heat dissipating portion (a) are provided with upper and lower plates (de). It consists of to improve the heat dissipation effect is to increase the heating effect.

However, the "heating panel" of Patent No. 0783717 does not adopt a prefabricated type, which causes a lot of difficulties in combining the heating panels, resulting in a long construction time and a low cost due to increased construction costs. there was.

The present invention has been invented to solve various defects and problems caused by the various heating panels of the prior art, the purpose of which is to efficiently employ a boiler using a variety of green energy sources, such as nuclear power, wind power, geothermal heat, solar heat, gas generation The present invention provides a prefabricated heating panel and a manufacturing method for a hot water boiler that can realize eco-friendly heating without the risk of explosion.

Another object of the present invention is to produce a factory in the factory by standardization and then transported to the site by simply assembling the panel can be constructed by significantly reducing the air of construction, thereby reducing the construction cost, prefabricated heating for hot water boilers with excellent economic efficiency The present invention provides a panel and a method of manufacturing the same.

Another object of the present invention is not only the heating is possible immediately after operation, but also employed in various boilers, such as solar boilers, heater pump boilers to maximize the efficiency of the various boilers while reducing the heating cost by floor insulation effect and partial heating, etc. To provide a prefabricated heating panel for and a method of manufacturing the same.

Still another object of the present invention is to provide a prefabricated heating panel for hot water boilers, which is beneficial for health, releasing large amounts of far-infrared rays that activates blood circulation in the body and promotes metabolism by surface treatment with ceramic powder, and a method of manufacturing the same. .

The prefabricated heating panel for hot water boiler of the present invention for achieving the above object is the one side and the corner on the diagonal is cut into the "L" shape of the upper and rear sides and the front and rear and right and left and right of the square plate forming an assembly connection A heat dissipation plate body 10 having a hollow portion formed therein, the lower surface of which is bent inward to a vertical length by a predetermined length; A hot water pipe 20 arranged in a zigzag adjacent to an inner surface of an upper surface of the heat sink 10; A support tape 30 attached to an inner surface of an upper surface of the heat sink 10 in a state of wrapping the hot water pipe 20 to support the hot water pipe 20; A wooden block 40 arranged between the inner hollow part of the heat sink body 10 and the hot water pipe 20 and attached to an inner surface of an upper surface of the heat sink plate 10; A heat reflection insulating material (50) attached to and fixed to a lower surface of the bent surface of the heat sink (10); A urethane heat insulating material 60 formed by filling in the inner hollow part of the heat sink body 10; It is characterized by consisting of a far-infrared radiation layer 70 is applied to the upper surface of the heat sink body 10 formed.

In addition, the method of manufacturing a prefabricated heating panel for a hot water boiler of the present invention includes a heat dissipation plate manufacturing step (S1 step) of manufacturing a heat dissipation plate body 10 having a hollow portion therein; A hot water pipe arranging step (S2 step) of inverting the heat sink 10 and arranging the hot water pipe 20 in a zigzag adjacent to an inner surface of the top surface of the heat sink 10; Attaching a support tape 30 to the inner surface of the upper surface of the heat sink 10 in a state in which the hot water pipe 20 is wrapped to support the hot water pipe 20 on the heat sink 20. Step S3); A wooden block installation step (S4 step) of attaching and installing a wooden block 40 on an inner surface of the upper surface of the heat sink plate 10 between the inner hollow part of the heat sink plate 10 and the hot water pipe 20; A heat reflection insulation material attaching step of attaching and fixing the heat reflection insulation material 50 to the bottom surface of the bent surface of the heat sink 10; Inverting the heat radiation plate 10 by performing the steps S1 to S5 so that the heat reflection insulating material 50 is downward, and then injecting urethane through the urethane injection hole (H) in the inner hollow of the heat radiation plate body (10) Urethane insulation forming step of foaming (S6 step) and; A far-infrared light emitting layer forming step (S7 step) of forming a far-infrared light emitting layer 70 by applying a ceramic on the upper surface of the heat sink body 10 is characterized in that it is made.

The present invention can be efficiently employed in boilers using various green energy sources such as nuclear power, wind power, geothermal heat, solar heat, and can realize eco-friendly heating without the risk of gas generation or explosion. Panels can be easily assembled and installed, which greatly reduces the air of construction, thereby reducing construction costs and is excellent in economic efficiency. It can be heated immediately and can be used in various boilers such as solar boilers, heater pump boilers, etc. The efficiency of the boiler can be maximized while the heating cost can be reduced by the floor insulation effect and partial heating, and the surface treatment with ceramic powder can activate the blood circulation in the body and promote the metabolism. There are special benefits that are beneficial.

1 is a perspective view showing the configuration of a conventional heating panel,
2 is an enlarged view of a portion A of FIG. 1;
3 is a perspective view of a prefabricated heating panel for the present invention hot water boiler,
4 is a cross-sectional view taken along line X-X 'of FIG. 3;
5 is an exploded perspective view of a prefabricated heating panel for the present invention hot water boiler,
6 is a plan view showing the arrangement of the hot water pipe and the wooden block according to the present invention;
Figure 7 is a state of use of the prefabricated heating panel for the hot water boiler of the present invention using panels assembled together,
8 is a plan view showing various shapes of the prefabricated heating panel for the hot water boiler of the present invention;
9 is a manufacturing process flowchart of the prefabricated heating panel for the hot water boiler of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the prefabricated heating panel and a manufacturing method for a hot water boiler of the present invention.

Figure 3 is a perspective view of the prefabricated heating panel for the hot water boiler of the present invention, Figure 4 is a cross-sectional view taken along line X-X 'of Figure 3, Figure 5 is an exploded perspective view of the prefabricated heating panel for the hot water boiler of the present invention, Figure 6 is hot water according to the present invention 7 is a plan view showing the arrangement of the tube and the wood block, Figure 7 is a state diagram of the prefabricated heating panel for the hot water boiler of the present invention using panels assembled together, Figure 8 shows the various shapes of the prefabricated heating panel for the hot water boiler of the present invention 9 is a flow chart of the manufacturing process of the prefabricated heating panel for the hot water boiler of the present invention, the prefabricated heating panel for the hot water boiler of the present invention has a square plate body formed by cutting one side corner and the diagonal corner thereof in an "L" shape. The upper surface of the front and rear and left and right and the lower end of the side of the front, rear, left and right have a hollow portion made up of a bending surface vertically bent in a certain length inwardly Hotplate body (10) and; A hot water pipe 20 arranged in a zigzag adjacent to an inner surface of an upper surface of the heat sink 10; A support tape 30 attached to an inner surface of an upper surface of the heat sink 10 in a state of wrapping the hot water pipe 20 to support the hot water pipe 20; A wooden block 40 arranged between the inner hollow part of the heat sink body 10 and the hot water pipe 20 and attached to an inner surface of an upper surface of the heat sink plate 10; A heat reflection insulating material (50) attached to and fixed to a lower surface of the bent surface of the heat sink (10); A urethane heat insulating material 60 formed by filling in the inner hollow part of the heat sink body 10; It is composed of a far-infrared light emitting layer 70 is formed by applying to the upper surface of the heat sink (10).

As the heat sink plate 10, a galvanized steel sheet or an aluminum plate may be preferably used. The hot water pipe 20 may be arranged to be adjacent to an inner surface of the top surface of the heat sink plate 10 by bending a copper tube or a heat shrink tube having an elliptical cross section. The heat conduction is achieved by attaching the support tape 30 to the inner surface of the top surface of the heat sink plate 10 while being wrapped with the support tape 30 so that the hot water pipe 20 is supported on the inner surface of the top surface of the heat sink plate 10. Good.

Here, the heat sink 10 is formed of two types of "L" cuts formed at the upper right corner and the lower left corner on the diagonal, and the lower right corner and the upper left corner at the diagonal. By forming the symmetrical structure with each other it is possible to facilitate the assembly of the finished panels to the product.

The hot water pipe 20 is composed of a direct heat double circulation method that is separated into a hot water pipe 21 and a hot water pipe 21 'to reduce the temperature variation of the space at the beginning and the end of the hot water supply, thereby eliminating the temperature pull phenomenon of the space. It is possible to enable heating with a uniform temperature distribution, and may be configured to enable partial heating by using a distributor or by connecting the hot water pipe 21 and the hot water pipe 21 'at the connection portion of the panel and the panel to each other. It may be.

In addition, an aluminum tape or a vinyl tape may be preferably used as the support tape 30, and the wood block 40 facilitates fixing the prefabricated heating panel for the hot water boiler of the present invention to the bottom, and the hot water boiler of the present invention. When the floor is installed on the prefabricated heating panel, it is to facilitate the fixing of the floor. That is, when fixing the heating panel on the floor, the piece penetrating through the wood block 40 is inserted into the floor and fixed, so that the heating panel can be firmly fixed to the floor without damaging or deforming the heat sink body 10, and heating In the case of installing the floorboard on the panel, the piece penetrating the floorboard is inserted into the wooden block 40 and fixed, so that the floorboard can be firmly fixed on the heating panel.

The heat reflection insulating material 50 is used to increase the efficiency of the boiler by preventing the heat of the heating is conducted to the lower portion is preferably consumed, it is possible to use aluminum thin paper having a waterproof function, the urethane insulation ( 60 is also used to increase the efficiency of the boiler by preventing the heat of the heating is conducted to the lower portion, the urethane is injected through the urethane inlet (H) to the inner hollow portion of the heat sink (10) It is formed.

The far-infrared radiating layer 70 emits a large amount of far-infrared rays that activates blood circulation in the body and promotes metabolism and increases heating efficiency as well as forming a healthy heating device. It is a ceramic coating layer formed by apply | coating to the upper surface of 10).

On the other hand, the method of manufacturing a prefabricated heating panel for a hot water boiler of the present invention includes a heat dissipation plate manufacturing step (S1) of manufacturing a heat dissipation plate body 10 having a hollow portion therein; A hot water pipe arranging step (S2 step) of inverting the heat sink 10 and arranging the hot water pipe 20 in a zigzag adjacent to an inner surface of the top surface of the heat sink 10; Attaching a support tape 30 to the inner surface of the upper surface of the heat sink 10 in a state in which the hot water pipe 20 is wrapped to support the hot water pipe 20 on the heat sink 20. Step S3); A wooden block installation step (S4 step) of attaching and installing a wooden block 40 on an inner surface of the upper surface of the heat sink plate 10 between the inner hollow part of the heat sink plate 10 and the hot water pipe 20; A heat reflection insulation material attaching step of attaching and fixing the heat reflection insulation material 50 to the bottom surface of the bent surface of the heat sink 10; Inverting the heat radiation plate 10 by performing the steps S1 to S5 so that the heat reflection insulating material 50 is downward, and then injecting urethane through the urethane injection hole (H) in the inner hollow of the heat radiation plate body (10) Urethane insulation forming step of foaming (S6 step) and; Far infrared ray emitting layer forming step (S7 step) of forming a far infrared ray emitting layer 70 by applying a ceramic on the upper surface of the heat sink body (10).

Next, a description will be given of the use state of assembling a plurality of prefabricated heating panels (P1 to P4) for the hot water boiler of the present invention to each other, and the operation thereof will be described.

7 is a state diagram of a prefabricated heating panel for a hot water boiler of the present invention in which panels are assembled and used, and four heating panels P1 to P4 are assembled together.

That is, the inlet a2 of the hot water pipe 21 of the heating panel P2 symmetrical with the heating panel P1 is connected to the hot water pipe 21 outlet b1 of the heating panel P1, and the heating panel An inlet a2 'of the hot water pipe 21' of the heating panel P2 is connected to an outlet b1 'of the hot water pipe 21' of P1, and an outlet of the hot water pipe 21 of the heating panel P2 ( b1) is connected to the inlet a3 of the hot water pipe 21 of the heating panel P3 having a symmetrical structure with the heating panel P2, and the outlet b2 'of the hot water pipe 21' of the heating panel P2. Connect the inlet a3 'of the hot water pipe 21' of the heating panel P3 to the inlet.

In addition, the inlet a4 of the hot water pipe 21 of the heating panel P4 having a symmetrical structure with the heating panel P3 is connected to the hot water pipe 21 outlet b3 of the heating panel P3, and the heating panel ( The inlet a4 'of the hot water pipe 21' of the heating panel P4 is connected to the outlet b3 'of the hot water pipe 21' of P3.

Here, the connection between the inlets (a1 to a4, a1 'to a4') and the outlets (b1 to b4, b1 'to b4') of each of the hot water pipes 21 and 21 'may be welded, and connecting means such as filling and the like. It can be easily assembled and assembled using.

In addition, the assembly structure of the heating panels (P1 ~ P4) is a configuration in which the hot water pipe 20 is separated into a hot water pipe 21 and a hot water pipe 21 '.

Alternatively, when the outlet b2 and the outlet b2 'of the heating panel P2 are connected to each other, and the inlets a3 and a3' of the heating panel P3 are connected to each other, the heating panels P1 and P2 are connected to each other. Assembling and assembling of the heating panels P3 and P4 are separated from each other, so that the hot water pipes 21 and 21 'are connected to each other, so that one of a1 and a1' of the heating panel P1 becomes an inlet and the other One is an outlet, one of b4, b4 'of the heating panel (P4) is an inlet, and the other is an outlet, which can be divided into two heating panels (P1, P2) and heating panels (P3, P4). In addition, it is also possible to separate and heat using a known distributor separately.

In addition, the heating panels P1 to P4 may be modified and manufactured into various shapes and sizes, such as a square shape (shape B) and a rectangular shape (shape A and C), as shown in FIG. 8. .

While the present invention has been described as a preferred embodiment, the present invention is not limited thereto, and various modifications can be made without departing from the gist of the invention.

10: heat sink 20, 21, 21 ': hot water pipe
30: support tape 40: wood block
50: heat reflection insulation 60: urethane insulation
70: far infrared emitting layer H: urethane injection port
P1 ～ P4: Heating panel

Claims (5)

One side and its diagonal edges are cut into “L” shapes, and the upper surface of the square plate forming the assembling connection, and the lower surface of the front, rear, left and right sides, and the bent surface vertically bent in a predetermined length inwardly are formed inside. A heat sink 10 having a hollow portion; A hot water pipe 20 arranged in a zigzag adjacent to an inner surface of an upper surface of the heat sink 10; A support tape 30 attached to an inner surface of an upper surface of the heat sink 10 in a state of wrapping the hot water pipe 20 to support the hot water pipe 20; A wooden block 40 arranged between the inner hollow part of the heat sink body 10 and the hot water pipe 20 and attached to an inner surface of an upper surface of the heat sink plate 10; A heat reflection insulating material (50) attached to and fixed to a lower surface of the bent surface of the heat sink (10); A urethane heat insulating material 60 formed by filling in the inner hollow part of the heat sink body 10; Prefabricated heating panel for a hot water boiler consisting of a far-infrared radiation layer 70 is formed by being applied to the top surface of the heat sink (10). According to claim 1, wherein the heat sink plate 10 is a galvanized steel sheet or aluminum plate, the hot water pipe 20 is bent the copper tube or heat shrink tube of the elliptical cross section adjacent to the inner surface of the upper surface of the heat sink plate (10) Arrange and attach the support tape 30 to the inner surface of the upper surface of the heat sink 10 while wrapped with the support tape 30 so that the hot water pipe 20 is supported on the inner surface of the upper surface of the heat sink 10. Prefabricated heating panel for hot water boiler, characterized in that. According to claim 1 or 2, wherein the hot water pipe 20 is configured by a direct heat circulating circulation system is separated into a hot water pipe 21 and the hot water pipe (21 ') to reduce the temperature deviation of the hot water supply beginning and end portion temperature Prefabricated heating panel for hot water boiler, characterized in that the distribution is uniformly heated. According to claim 1, wherein the urethane insulation 60 is formed by foaming urethane injected through the urethane injection hole (H) in the inner hollow portion of the heat sink plate 10, the far-infrared radiation layer 70 is the heat sink Prefabricated heating panel for hot water boiler, characterized in that the ceramic coating layer formed by applying to the upper surface of the sieve (10). A heat sink plate manufacturing step (S1 step) of manufacturing a heat sink plate body 10 having a hollow portion therein; A hot water pipe arranging step (S2 step) of inverting the heat sink 10 and arranging the hot water pipe 20 in a zigzag adjacent to an inner surface of the top surface of the heat sink 10; Attaching a support tape 30 to the inner surface of the upper surface of the heat sink 10 in a state in which the hot water pipe 20 is wrapped to support the hot water pipe 20 on the heat sink 20. Step S3); A wooden block installation step (S4 step) of attaching and installing a wooden block 40 on an inner surface of the upper surface of the heat sink plate 10 between the inner hollow part of the heat sink plate 10 and the hot water pipe 20; A heat reflection insulation material attaching step of attaching and fixing the heat reflection insulation material 50 to the bottom surface of the bent surface of the heat sink 10; Inverting the heat radiation plate 10 by performing the steps S1 to S5 so that the heat reflection insulating material 50 is downward, and then injecting urethane through the urethane injection hole (H) in the inner hollow of the heat radiation plate body (10) Urethane insulation forming step of foaming (S6 step) and; Method of producing a prefabricated heating panel for a hot water boiler, characterized in that the far-infrared emission layer forming step (S7 step) of forming a far-infrared radiation layer 70 by applying a ceramic on the upper surface of the heat sink body (10).

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